version 5.2

some programs are now 100% source compatible between C64 and Cx16 targets!
import libraries have been rena;med

.idea/misc.xml

@@ -16,7 +16,7 @@
       </list>
     </option>
   </component>
-  <component name="ProjectRootManager" version="2" languageLevel="JDK_1_8" default="false" project-jdk-name="Kotlin SDK" project-jdk-type="KotlinSDK">
+  <component name="ProjectRootManager" version="2" languageLevel="JDK_11" default="false" project-jdk-name="Kotlin SDK" project-jdk-type="KotlinSDK">
     <output url="file://$PROJECT_DIR$/out" />
   </component>
 </project>

.travis.yml

@@ -4,8 +4,8 @@ sudo: false
 # dist: xenial
 
 before_install:
-  - chmod +x gradlew
+  - chmod +x ./gradlew
 
 script:
-  - gradle test
+  - ./gradlew test
 

README.md

@@ -2,61 +2,72 @@
 [![Build Status](https://travis-ci.org/irmen/prog8.svg?branch=master)](https://travis-ci.org/irmen/prog8)
 [![Documentation](https://readthedocs.org/projects/prog8/badge/?version=latest)](https://prog8.readthedocs.io/)
 
-Prog8 - Structured Programming Language for 8-bit 6502/6510 microprocessors
-===========================================================================
+Prog8 - Structured Programming Language for 8-bit 6502/65c02 microprocessors
+============================================================================
 
 *Written by Irmen de Jong (irmen@razorvine.net)*
 
 *Software license: GNU GPL 3.0, see file LICENSE*
 
 
-This is a structured programming language for the 8-bit 6502/6510 microprocessor from the late 1970's and 1980's
+This is a structured programming language for the 8-bit 6502/6510/65c02 microprocessor from the late 1970's and 1980's
 as used in many home computers from that era. It is a medium to low level programming language,
-which aims to provide many conveniences over raw assembly code (even when using a macro assembler):
+which aims to provide many conveniences over raw assembly code (even when using a macro assembler).
 
-- reduction of source code length
+Documentation
+-------------
+Full documentation (syntax reference, how to use the language and the compiler, etc.) can be found at:
+https://prog8.readthedocs.io/
+
+
+What does Prog8 provide?
+------------------------
+
+- big reduction of source code length over raw assembly
 - modularity, symbol scoping, subroutines
 - various data types other than just bytes (16-bit words, floats, strings)
 - automatic variable allocations, automatic string and array variables and string sharing
-- subroutines with a input- and output parameter signature
-- constant folding in expressions
+- subroutines with an input- and output parameter signature
+- no stack frame allocations because parameters and local variables are automatically allocated statically
+- constant folding in expressions and other high-level program optimizations
 - conditional branches
-- 'when' statement to provide a concise jump table alternative to if/elseif chains
-- structs to group together sets of variables and manipulate them at once
 - floating point operations  (requires the C64 Basic ROM routines for this)
-- abstracting away low level aspects such as ZeroPage handling, program startup, explicit memory addresses
-- various code optimizations (code structure, logical and numerical expressions, unused code removal...)
-- inline assembly allows you to have full control when every cycle or byte matters
+- 'when' statement to provide a concise jump table alternative to if/elseif chains
 - many built-in functions such as ``sin``, ``cos``, ``rnd``, ``abs``, ``min``, ``max``, ``sqrt``, ``msb``, ``rol``, ``ror``, ``swap``, ``memset``, ``memcopy``, ``sort`` and ``reverse``
+- structs to group together sets of variables and manipulate them at once
+- convenience abstractions for low level aspects such as ZeroPage handling, program startup, explicit memory addresses
+- fast execution speed due to compilation to native assembly code
+- inline assembly allows you to have full control when every cycle or byte matters
 
-Rapid edit-compile-run-debug cycle:
+*Rapid edit-compile-run-debug cycle:*
 
-- use a modern PC to do the work on
-- very quick compilation times
+- use a modern PC to do the work on, use nice editors and enjoy quick compilation times
 - can automatically run the program in the Vice emulator after succesful compilation
 - breakpoints, that let the Vice emulator drop into the monitor if execution hits them
 - source code labels automatically loaded in Vice emulator so it can show them in disassembly
 
-Prog8 is mainly targeted at the Commodore-64 machine at this time.
-Contributions to add support for other 8-bit (or other?!) machines are welcome.
+*Two supported compiler targets* (contributions to improve these or to add support for other machines are welcome!):
 
-Documentation/manual
---------------------
-https://prog8.readthedocs.io/
+- "c64": Commodore-64  (6510 CPU = almost a 6502), the main target.
+- "cx16": [CommanderX16](https://www.commanderx16.com)  (65c02 CPU) .
+- If you only use standard kernel and prog8 library routines, it is possible to compile the *exact same program* for both machines (just change the compiler target flag)!
 
-Required tools
---------------
+
+
+Additional required tools
+-------------------------
 
 [64tass](https://sourceforge.net/projects/tass64/) - cross assembler. Install this on your shell path.
 A recent .exe version of this tool for Windows can be obtained from my [clone](https://github.com/irmen/64tass/releases) of this project.
 For other platforms it is very easy to compile it yourself (make ; make install).
 
-A **Java runtime (jre or jdk), version 8 or newer**  is required to run a prepackaged version of the compiler.
+A **Java runtime (jre or jdk), version 11 or newer**  is required to run a prepackaged version of the compiler.
 If you want to build it from source, you'll need a Java SDK + Kotlin 1.3.x SDK (or for instance,
 IntelliJ IDEA with the Kotlin plugin).
 
-It's handy to have a C-64 emulator or a real C-64 to run the programs on. The compiler assumes the presence
-of the [Vice emulator](http://vice-emu.sourceforge.net/)
+It's handy to have an emulator (or a real machine perhaps!) to run the programs on. The compiler assumes the presence
+of the [Vice emulator](http://vice-emu.sourceforge.net/)  for the C64 target,
+and the [x16emu emulator](https://github.com/commanderx16/x16-emulator) for the CommanderX16 target.
 
 
 Example code
@@ -64,44 +75,45 @@ Example code
 
 This code calculates prime numbers using the Sieve of Eratosthenes algorithm::
 
-    %import c64utils
+    %import textio
     %zeropage basicsafe
-
+    
     main {
-
+    
         ubyte[256] sieve
-        ubyte candidate_prime = 2
-
+        ubyte candidate_prime = 2       ; is increased in the loop
+    
         sub start() {
-            memset(sieve, 256, false)
-
-            c64scr.print("prime numbers up to 255:\n\n")
+            ; clear the sieve, to reset starting situation on subsequent runs
+            memset(sieve, 256, false)   
+            ; calculate primes
+            txt.print("prime numbers up to 255:\n\n")
             ubyte amount=0
-            while true {
+            repeat {
                 ubyte prime = find_next_prime()
                 if prime==0
                     break
-                c64scr.print_ub(prime)
-                c64scr.print(", ")
+                txt.print_ub(prime)
+                txt.print(", ")
                 amount++
             }
-            c64.CHROUT('\n')
-            c64scr.print("number of primes (expected 54): ")
-            c64scr.print_ub(amount)
-            c64.CHROUT('\n')
+            txt.chrout('\n')
+            txt.print("number of primes (expected 54): ")
+            txt.print_ub(amount)
+            txt.chrout('\n')
         }
-
-
+    
         sub find_next_prime() -> ubyte {
-
             while sieve[candidate_prime] {
                 candidate_prime++
                 if candidate_prime==0
-                    return 0
+                    return 0        ; we wrapped; no more primes available in the sieve
             }
-
+    
+            ; found next one, mark the multiples and return it.
             sieve[candidate_prime] = true
             uword multiple = candidate_prime
+    
             while multiple < len(sieve) {
                 sieve[lsb(multiple)] = true
                 multiple += candidate_prime
@@ -111,11 +123,11 @@ This code calculates prime numbers using the Sieve of Eratosthenes algorithm::
     }
 
 
+
 when compiled an ran on a C-64 you'll get:
 
 ![c64 screen](docs/source/_static/primes_example.png)
 
-
 One of the included examples (wizzine.p8) animates a bunch of sprite balloons and looks like this:
 
 ![wizzine screen](docs/source/_static/wizzine.png)
@@ -127,3 +139,8 @@ Another example (cube3d-sprites.p8) draws the vertices of a rotating 3d cube:
 If you want to play a video game, a fully working Tetris clone is included in the examples:
 
 ![tehtriz_screen](docs/source/_static/tehtriz.png)
+
+The CommanderX16 compiler target is quite capable already too, here's a well known space ship 
+animated in 3D with hidden line removal, in the CommanderX16 emulator:
+
+![cobra3d](docs/source/_static/cobra3d.png)

compiler/build.gradle

@@ -1,11 +1,11 @@
 buildscript {
     dependencies {
-        classpath "org.jetbrains.kotlin:kotlin-gradle-plugin:1.3.72"
+        classpath "org.jetbrains.kotlin:kotlin-gradle-plugin:1.4.20"
     }
 }
 
 plugins {
-    // id "org.jetbrains.kotlin.jvm" version "1.3.72"
+    // id "org.jetbrains.kotlin.jvm" version "1.4.20"
     id 'application'
     id 'org.jetbrains.dokka' version "0.9.18"
     id 'com.github.johnrengelman.shadow' version '5.2.0'
@@ -15,8 +15,8 @@ plugins {
 apply plugin: "kotlin"
 apply plugin: "java"
 
-targetCompatibility = 1.8
-sourceCompatibility = 1.8
+targetCompatibility = 11
+sourceCompatibility = 11
 
 repositories {
     mavenLocal()
@@ -45,7 +45,7 @@ dependencies {
 
 compileKotlin {
     kotlinOptions {
-        jvmTarget = "1.8"
+        jvmTarget = "11"
         // verbose = true
         // freeCompilerArgs += "-XXLanguage:+NewInference"
     }
@@ -53,7 +53,7 @@ compileKotlin {
 
 compileTestKotlin {
     kotlinOptions {
-        jvmTarget = "1.8"
+        jvmTarget = "11"
     }
 }
 
@@ -110,3 +110,7 @@ dokka {
     outputFormat = 'html'
     outputDirectory = "$buildDir/kdoc"
 }
+
+task wrapper(type: Wrapper) {
+    gradleVersion = '6.1.1'
+}

compiler/compiler.iml

@@ -8,7 +8,7 @@
       <sourceFolder url="file://$MODULE_DIR$/test" isTestSource="true" />
       <excludeFolder url="file://$MODULE_DIR$/build" />
     </content>
-    <orderEntry type="jdk" jdkName="openjdk-11" jdkType="JavaSDK" />
+    <orderEntry type="jdk" jdkName="11" jdkType="JavaSDK" />
     <orderEntry type="sourceFolder" forTests="false" />
     <orderEntry type="library" name="KotlinJavaRuntime" level="project" />
     <orderEntry type="module" module-name="parser" />

compiler/res/prog8lib/c64/floats.asm

@@ -0,0 +1,676 @@
+; --- low level floating point assembly routines for the C64
+
+FL_ONE_const	.byte  129     			; 1.0
+FL_ZERO_const	.byte  0,0,0,0,0		; 0.0
+
+floats_store_reg	.byte  0		; temp storage
+
+
+ub2float	.proc
+		; -- convert ubyte in SCRATCH_ZPB1 to float at address A/Y
+		;    clobbers A, Y
+		stx  P8ZP_SCRATCH_REG
+		sta  P8ZP_SCRATCH_W2
+		sty  P8ZP_SCRATCH_W2+1
+		ldy  P8ZP_SCRATCH_B1
+		lda  #0
+		jsr  GIVAYF
+_fac_to_mem	ldx  P8ZP_SCRATCH_W2
+		ldy  P8ZP_SCRATCH_W2+1
+		jsr  MOVMF
+		ldx  P8ZP_SCRATCH_REG
+		rts
+		.pend
+
+b2float		.proc
+		; -- convert byte in SCRATCH_ZPB1 to float at address A/Y
+		;    clobbers A, Y
+		stx  P8ZP_SCRATCH_REG
+		sta  P8ZP_SCRATCH_W2
+		sty  P8ZP_SCRATCH_W2+1
+		lda  P8ZP_SCRATCH_B1
+		jsr  FREADSA
+		jmp  ub2float._fac_to_mem
+		.pend
+
+uw2float	.proc
+		; -- convert uword in SCRATCH_ZPWORD1 to float at address A/Y
+		stx  P8ZP_SCRATCH_REG
+		sta  P8ZP_SCRATCH_W2
+		sty  P8ZP_SCRATCH_W2+1
+		lda  P8ZP_SCRATCH_W1
+		ldy  P8ZP_SCRATCH_W1+1
+		jsr  GIVUAYFAY
+		jmp  ub2float._fac_to_mem
+		.pend
+
+w2float		.proc
+		; -- convert word in SCRATCH_ZPWORD1 to float at address A/Y
+		stx  P8ZP_SCRATCH_REG
+		sta  P8ZP_SCRATCH_W2
+		sty  P8ZP_SCRATCH_W2+1
+		ldy  P8ZP_SCRATCH_W1
+		lda  P8ZP_SCRATCH_W1+1
+		jsr  GIVAYF
+		jmp  ub2float._fac_to_mem
+		.pend
+
+
+cast_from_uw	.proc
+		; -- uword in A/Y into float var at (P8ZP_SCRATCH_W2)
+		stx  P8ZP_SCRATCH_REG
+		jsr  GIVUAYFAY
+		jmp  ub2float._fac_to_mem
+		.pend
+
+
+cast_from_w	.proc
+		; -- word in A/Y into float var at (P8ZP_SCRATCH_W2)
+		stx  P8ZP_SCRATCH_REG
+		jsr  GIVAYFAY
+		jmp  ub2float._fac_to_mem
+		.pend
+
+
+cast_from_ub	.proc
+		; -- ubyte in Y into float var at (P8ZP_SCRATCH_W2)
+		stx  P8ZP_SCRATCH_REG
+		jsr  FREADUY
+		jmp  ub2float._fac_to_mem
+		.pend
+
+
+cast_from_b	.proc
+		; -- byte in A into float var at (P8ZP_SCRATCH_W2)
+		stx  P8ZP_SCRATCH_REG
+		jsr  FREADSA
+		jmp  ub2float._fac_to_mem
+		.pend
+
+cast_as_uw_into_ya	.proc               ; also used for float 2 ub
+		; -- cast float at A/Y to uword into Y/A
+		jsr  MOVFM
+		jmp  cast_FAC1_as_uw_into_ya
+		.pend
+
+cast_as_w_into_ay	.proc               ; also used for float 2 b
+		; -- cast float at A/Y to word into A/Y
+		jsr  MOVFM
+		jmp  cast_FAC1_as_w_into_ay
+		.pend
+
+cast_FAC1_as_uw_into_ya	.proc               ; also used for float 2 ub
+		; -- cast fac1 to uword into Y/A
+		stx  P8ZP_SCRATCH_REG
+		jsr  GETADR     ; into Y/A
+		ldx  P8ZP_SCRATCH_REG
+		rts
+		.pend
+
+cast_FAC1_as_w_into_ay	.proc               ; also used for float 2 b
+		; -- cast fac1 to word into A/Y
+		stx  P8ZP_SCRATCH_REG
+		jsr  AYINT
+		ldy  $64
+		lda  $65
+		ldx  P8ZP_SCRATCH_REG
+		rts
+		.pend
+
+
+stack_b2float	.proc
+		; -- b2float operating on the stack
+		inx
+		lda  P8ESTACK_LO,x
+		stx  P8ZP_SCRATCH_REG
+		jsr  FREADSA
+		jmp  push_fac1._internal
+		.pend
+
+stack_w2float	.proc
+		; -- w2float operating on the stack
+		inx
+		ldy  P8ESTACK_LO,x
+		lda  P8ESTACK_HI,x
+		stx  P8ZP_SCRATCH_REG
+		jsr  GIVAYF
+		jmp  push_fac1._internal
+		.pend
+
+stack_ub2float	.proc
+		; -- ub2float operating on the stack
+		inx
+		lda  P8ESTACK_LO,x
+		stx  P8ZP_SCRATCH_REG
+		tay
+		lda  #0
+		jsr  GIVAYF
+		jmp  push_fac1._internal
+		.pend
+
+stack_uw2float	.proc
+		; -- uw2float operating on the stack
+		inx
+		lda  P8ESTACK_LO,x
+		ldy  P8ESTACK_HI,x
+		stx  P8ZP_SCRATCH_REG
+		jsr  GIVUAYFAY
+		jmp  push_fac1._internal
+		.pend
+
+stack_float2w	.proc               ; also used for float2b
+		jsr  pop_float_fac1
+		stx  P8ZP_SCRATCH_REG
+		jsr  AYINT
+		ldx  P8ZP_SCRATCH_REG
+		lda  $64
+		sta  P8ESTACK_HI,x
+		lda  $65
+		sta  P8ESTACK_LO,x
+		dex
+		rts
+		.pend
+
+stack_float2uw	.proc               ; also used for float2ub
+		jsr  pop_float_fac1
+		stx  P8ZP_SCRATCH_REG
+		jsr  GETADR
+		ldx  P8ZP_SCRATCH_REG
+		sta  P8ESTACK_HI,x
+		tya
+		sta  P8ESTACK_LO,x
+		dex
+		rts
+		.pend
+
+push_float	.proc
+		; ---- push mflpt5 in A/Y onto stack
+		; (taking 3 stack positions = 6 bytes of which 1 is padding)
+		sta  P8ZP_SCRATCH_W1
+		sty  P8ZP_SCRATCH_W1+1
+		ldy  #0
+		lda  (P8ZP_SCRATCH_W1),y
+		sta  P8ESTACK_LO,x
+		iny
+		lda  (P8ZP_SCRATCH_W1),y
+		sta  P8ESTACK_HI,x
+		dex
+		iny
+		lda  (P8ZP_SCRATCH_W1),y
+		sta  P8ESTACK_LO,x
+		iny
+		lda  (P8ZP_SCRATCH_W1),y
+		sta  P8ESTACK_HI,x
+		dex
+		iny
+		lda  (P8ZP_SCRATCH_W1),y
+		sta  P8ESTACK_LO,x
+		dex
+		rts
+		.pend
+
+pop_float	.proc
+		; ---- pops mflpt5 from stack to memory A/Y
+		; (frees 3 stack positions = 6 bytes of which 1 is padding)
+		sta  P8ZP_SCRATCH_W1
+		sty  P8ZP_SCRATCH_W1+1
+		ldy  #4
+		inx
+		lda  P8ESTACK_LO,x
+		sta  (P8ZP_SCRATCH_W1),y
+		dey
+		inx
+		lda  P8ESTACK_HI,x
+		sta  (P8ZP_SCRATCH_W1),y
+		dey
+		lda  P8ESTACK_LO,x
+		sta  (P8ZP_SCRATCH_W1),y
+		dey
+		inx
+		lda  P8ESTACK_HI,x
+		sta  (P8ZP_SCRATCH_W1),y
+		dey
+		lda  P8ESTACK_LO,x
+		sta  (P8ZP_SCRATCH_W1),y
+		rts
+		.pend
+
+pop_float_fac1	.proc
+		; -- pops float from stack into FAC1
+		lda  #<fmath_float1
+		ldy  #>fmath_float1
+		jsr  pop_float
+		lda  #<fmath_float1
+		ldy  #>fmath_float1
+		jmp  MOVFM
+		.pend
+
+copy_float	.proc
+		; -- copies the 5 bytes of the mflt value pointed to by SCRATCH_ZPWORD1,
+		;    into the 5 bytes pointed to by A/Y.  Clobbers A,Y.
+		sta  _target+1
+		sty  _target+2
+		ldy  #4
+_loop		lda  (P8ZP_SCRATCH_W1),y
+_target		sta  $ffff,y			; modified
+		dey
+		bpl  _loop
+		rts
+		.pend
+
+inc_var_f	.proc
+		; -- add 1 to float pointed to by A/Y
+		sta  P8ZP_SCRATCH_W1
+		sty  P8ZP_SCRATCH_W1+1
+		stx  P8ZP_SCRATCH_REG
+		jsr  MOVFM
+		lda  #<FL_ONE_const
+		ldy  #>FL_ONE_const
+		jsr  FADD
+		ldx  P8ZP_SCRATCH_W1
+		ldy  P8ZP_SCRATCH_W1+1
+		jsr  MOVMF
+		ldx  P8ZP_SCRATCH_REG
+		rts
+		.pend
+
+dec_var_f	.proc
+		; -- subtract 1 from float pointed to by A/Y
+		sta  P8ZP_SCRATCH_W1
+		sty  P8ZP_SCRATCH_W1+1
+		stx  P8ZP_SCRATCH_REG
+		lda  #<FL_ONE_const
+		ldy  #>FL_ONE_const
+		jsr  MOVFM
+		lda  P8ZP_SCRATCH_W1
+		ldy  P8ZP_SCRATCH_W1+1
+		jsr  FSUB
+		ldx  P8ZP_SCRATCH_W1
+		ldy  P8ZP_SCRATCH_W1+1
+		jsr  MOVMF
+		ldx  P8ZP_SCRATCH_REG
+		rts
+		.pend
+
+
+pop_2_floats_f2_in_fac1	.proc
+		; -- pop 2 floats from stack, load the second one in FAC1 as well
+		lda  #<fmath_float2
+		ldy  #>fmath_float2
+		jsr  pop_float
+		lda  #<fmath_float1
+		ldy  #>fmath_float1
+		jsr  pop_float
+		lda  #<fmath_float2
+		ldy  #>fmath_float2
+		jmp  MOVFM
+		.pend
+
+
+fmath_float1	.byte 0,0,0,0,0	; storage for a mflpt5 value
+fmath_float2	.byte 0,0,0,0,0	; storage for a mflpt5 value
+
+
+push_fac1	.proc
+		; -- push the float in FAC1 onto the stack
+		stx  P8ZP_SCRATCH_REG
+_internal	ldx  #<fmath_float1
+		ldy  #>fmath_float1
+		jsr  MOVMF
+		lda  #<fmath_float1
+		ldy  #>fmath_float1
+		ldx  P8ZP_SCRATCH_REG
+		jmp  push_float
+		.pend
+
+
+pow_f		.proc
+		; -- push f1 ** f2 on stack
+		lda  #<fmath_float2
+		ldy  #>fmath_float2
+		jsr  pop_float
+		lda  #<fmath_float1
+		ldy  #>fmath_float1
+		jsr  pop_float
+		stx  P8ZP_SCRATCH_REG
+		lda  #<fmath_float1
+		ldy  #>fmath_float1
+		jsr  CONUPK		; fac2 = float1
+		lda  #<fmath_float2
+		ldy  #>fmath_float2
+		jsr  FPWR
+		jmp  push_fac1._internal
+		.pend
+
+div_f		.proc
+		; -- push f1/f2 on stack
+		jsr  pop_2_floats_f2_in_fac1
+		stx  P8ZP_SCRATCH_REG
+		lda  #<fmath_float1
+		ldy  #>fmath_float1
+		jsr  FDIV
+		jmp  push_fac1._internal
+		.pend
+
+add_f		.proc
+		; -- push f1+f2 on stack
+		jsr  pop_2_floats_f2_in_fac1
+		stx  P8ZP_SCRATCH_REG
+		lda  #<fmath_float1
+		ldy  #>fmath_float1
+		jsr  FADD
+		jmp  push_fac1._internal
+		.pend
+
+sub_f		.proc
+		; -- push f1-f2 on stack
+		jsr  pop_2_floats_f2_in_fac1
+		stx  P8ZP_SCRATCH_REG
+		lda  #<fmath_float1
+		ldy  #>fmath_float1
+		jsr  FSUB
+		jmp  push_fac1._internal
+		.pend
+
+mul_f		.proc
+		; -- push f1*f2 on stack
+		jsr  pop_2_floats_f2_in_fac1
+		stx  P8ZP_SCRATCH_REG
+		lda  #<fmath_float1
+		ldy  #>fmath_float1
+		jsr  FMULT
+		jmp  push_fac1._internal
+		.pend
+
+neg_f		.proc
+		; -- toggle the sign bit on the stack
+		lda  P8ESTACK_HI+3,x
+		eor  #$80
+		sta  P8ESTACK_HI+3,x
+		rts
+		.pend
+
+var_fac1_less_f	.proc
+		; -- is the float in FAC1 < the variable AY?
+		stx  P8ZP_SCRATCH_REG
+		jsr  FCOMP
+		ldx  P8ZP_SCRATCH_REG
+		cmp  #255
+		beq  +
+		lda  #0
+		rts
++		lda  #1
+		rts
+		.pend
+
+var_fac1_lesseq_f	.proc
+		; -- is the float in FAC1 <= the variable AY?
+		stx  P8ZP_SCRATCH_REG
+		jsr  FCOMP
+		ldx  P8ZP_SCRATCH_REG
+		cmp  #0
+		beq  +
+		cmp  #255
+		beq  +
+		lda  #0
+		rts
++		lda  #1
+		rts
+		.pend
+
+var_fac1_greater_f	.proc
+		; -- is the float in FAC1 > the variable AY?
+		stx  P8ZP_SCRATCH_REG
+		jsr  FCOMP
+		ldx  P8ZP_SCRATCH_REG
+		cmp  #1
+		beq  +
+		lda  #0
++		rts
+		.pend
+
+var_fac1_greatereq_f	.proc
+		; -- is the float in FAC1 >= the variable AY?
+		stx  P8ZP_SCRATCH_REG
+		jsr  FCOMP
+		ldx  P8ZP_SCRATCH_REG
+		cmp  #0
+		beq  +
+		cmp  #1
+		beq  +
+		lda  #0
+		rts
++		lda  #1
+		rts
+		.pend
+
+var_fac1_notequal_f	.proc
+		; -- are the floats numbers in FAC1 and the variable AY *not* identical?
+		stx  P8ZP_SCRATCH_REG
+		jsr  FCOMP
+		ldx  P8ZP_SCRATCH_REG
+		and  #1
+		rts
+		.pend
+
+vars_equal_f	.proc
+		; -- are the mflpt5 numbers in P8ZP_SCRATCH_W1 and AY identical?
+		sta  P8ZP_SCRATCH_W2
+		sty  P8ZP_SCRATCH_W2+1
+		ldy  #0
+		lda  (P8ZP_SCRATCH_W1),y
+		cmp  (P8ZP_SCRATCH_W2),y
+		bne  _false
+		iny
+		lda  (P8ZP_SCRATCH_W1),y
+		cmp  (P8ZP_SCRATCH_W2),y
+		bne  _false
+		iny
+		lda  (P8ZP_SCRATCH_W1),y
+		cmp  (P8ZP_SCRATCH_W2),y
+		bne  _false
+		iny
+		lda  (P8ZP_SCRATCH_W1),y
+		cmp  (P8ZP_SCRATCH_W2),y
+		bne  _false
+		iny
+		lda  (P8ZP_SCRATCH_W1),y
+		cmp  (P8ZP_SCRATCH_W2),y
+		bne  _false
+		lda  #1
+		rts
+_false		lda  #0
+		rts
+		.pend
+
+equal_f		.proc
+		; -- are the two mflpt5 numbers on the stack identical?
+		inx
+		inx
+		inx
+		inx
+		lda  P8ESTACK_LO-3,x
+		cmp  P8ESTACK_LO,x
+		bne  _equals_false
+		lda  P8ESTACK_LO-2,x
+		cmp  P8ESTACK_LO+1,x
+		bne  _equals_false
+		lda  P8ESTACK_LO-1,x
+		cmp  P8ESTACK_LO+2,x
+		bne  _equals_false
+		lda  P8ESTACK_HI-2,x
+		cmp  P8ESTACK_HI+1,x
+		bne  _equals_false
+		lda  P8ESTACK_HI-1,x
+		cmp  P8ESTACK_HI+2,x
+		bne  _equals_false
+_equals_true	lda  #1
+_equals_store	inx
+		sta  P8ESTACK_LO+1,x
+		rts
+_equals_false	lda  #0
+		beq  _equals_store
+		.pend
+
+notequal_f	.proc
+		; -- are the two mflpt5 numbers on the stack different?
+		jsr  equal_f
+		eor  #1		; invert the result
+		sta  P8ESTACK_LO+1,x
+		rts
+		.pend
+
+vars_less_f	.proc
+		; -- is float in AY < float in P8ZP_SCRATCH_W2 ?
+		jsr  MOVFM
+		lda  P8ZP_SCRATCH_W2
+		ldy  P8ZP_SCRATCH_W2+1
+		stx  P8ZP_SCRATCH_REG
+		jsr  FCOMP
+		ldx  P8ZP_SCRATCH_REG
+		cmp  #255
+		bne  +
+		lda  #1
+		rts
++		lda  #0
+		rts
+		.pend
+
+vars_lesseq_f	.proc
+		; -- is float in AY <= float in P8ZP_SCRATCH_W2 ?
+		jsr  MOVFM
+		lda  P8ZP_SCRATCH_W2
+		ldy  P8ZP_SCRATCH_W2+1
+		stx  P8ZP_SCRATCH_REG
+		jsr  FCOMP
+		ldx  P8ZP_SCRATCH_REG
+		cmp  #255
+		bne  +
+-		lda  #1
+		rts
++		cmp  #0
+		beq  -
+		lda  #0
+		rts
+		.pend
+
+less_f		.proc
+		; -- is f1 < f2?
+		jsr  compare_floats
+		cmp  #255
+		beq  compare_floats._return_true
+		bne  compare_floats._return_false
+		.pend
+
+
+lesseq_f	.proc
+		; -- is f1 <= f2?
+		jsr  compare_floats
+		cmp  #255
+		beq  compare_floats._return_true
+		cmp  #0
+		beq  compare_floats._return_true
+		bne  compare_floats._return_false
+		.pend
+
+greater_f	.proc
+		; -- is f1 > f2?
+		jsr  compare_floats
+		cmp  #1
+		beq  compare_floats._return_true
+		bne  compare_floats._return_false
+		.pend
+
+greatereq_f	.proc
+		; -- is f1 >= f2?
+		jsr  compare_floats
+		cmp  #1
+		beq  compare_floats._return_true
+		cmp  #0
+		beq  compare_floats._return_true
+		bne  compare_floats._return_false
+		.pend
+
+compare_floats	.proc
+		lda  #<fmath_float2
+		ldy  #>fmath_float2
+		jsr  pop_float
+		lda  #<fmath_float1
+		ldy  #>fmath_float1
+		jsr  pop_float
+		lda  #<fmath_float1
+		ldy  #>fmath_float1
+		jsr  MOVFM		; fac1 = flt1
+		lda  #<fmath_float2
+		ldy  #>fmath_float2
+		stx  P8ZP_SCRATCH_REG
+		jsr  FCOMP		; A = flt1 compared with flt2 (0=equal, 1=flt1>flt2, 255=flt1<flt2)
+		ldx  P8ZP_SCRATCH_REG
+		rts
+_return_false	lda  #0
+_return_result  sta  P8ESTACK_LO,x
+		dex
+		rts
+_return_true	lda  #1
+		bne  _return_result
+		.pend
+
+set_array_float_from_fac1	.proc
+		; -- set the float in FAC1 in the array (index in A, array in P8ZP_SCRATCH_W1)
+		sta  P8ZP_SCRATCH_B1
+		asl  a
+		asl  a
+		clc
+		adc  P8ZP_SCRATCH_B1
+		ldy  P8ZP_SCRATCH_W1+1
+		clc
+		adc  P8ZP_SCRATCH_W1
+		bcc  +
+		iny
++		stx  floats_store_reg
+		tax
+		jsr  MOVMF
+		ldx  floats_store_reg
+		rts
+		.pend
+
+
+set_0_array_float	.proc
+		; -- set a float in an array to zero (index in A, array in P8ZP_SCRATCH_W1)
+		sta  P8ZP_SCRATCH_B1
+		asl  a
+		asl  a
+		clc
+		adc  P8ZP_SCRATCH_B1
+		tay
+		lda  #0
+		sta  (P8ZP_SCRATCH_W1),y
+		iny
+		sta  (P8ZP_SCRATCH_W1),y
+		iny
+		sta  (P8ZP_SCRATCH_W1),y
+		iny
+		sta  (P8ZP_SCRATCH_W1),y
+		iny
+		sta  (P8ZP_SCRATCH_W1),y
+		rts
+		.pend
+
+
+set_array_float		.proc
+		; -- set a float in an array to a value (index in A, float in P8ZP_SCRATCH_W1, array in P8ZP_SCRATCH_W2)
+		sta  P8ZP_SCRATCH_B1
+		asl  a
+		asl  a
+		clc
+		adc  P8ZP_SCRATCH_B1
+		adc  P8ZP_SCRATCH_W2
+		ldy  P8ZP_SCRATCH_W2+1
+		bcc  +
+		iny
++		jmp  copy_float
+			; -- copies the 5 bytes of the mflt value pointed to by SCRATCH_ZPWORD1,
+			;    into the 5 bytes pointed to by A/Y.  Clobbers A,Y.
+		.pend
+
+

compiler/res/prog8lib/c64/floats.p8

@@ -4,14 +4,14 @@
 ;
 ; indent format: TABS, size=8
 
+%target c64
 %option enable_floats
 
-
-c64flt {
+floats {
 	; ---- this block contains C-64 floating point related functions ----
 
-        const  float  PI        = 3.141592653589793
-        const  float  TWOPI	    = 6.283185307179586
+        const float  PI     = 3.141592653589793
+        const float  TWOPI  = 6.283185307179586
 
 
 ; ---- C64 basic and kernal ROM float constants and functions ----
@@ -35,13 +35,11 @@ c64flt {
 		&float  FL_TWOPI	= $e2e5  ; 2 * PI
 		&float  FL_FR4		= $e2ea  ; .25
 		; oddly enough, 0.0 isn't available in the kernel.
-        float   FL_ZERO     = 0.0    ; oddly enough 0.0 isn't available in the kernel
 
 
 ; note: fac1/2 might get clobbered even if not mentioned in the function's name.
 ; note: for subtraction and division, the left operand is in fac2, the right operand in fac1.
 
-; checked functions below:
 romsub $bba2 = MOVFM(uword mflpt @ AY) clobbers(A,Y)        ; load mflpt value from memory  in A/Y into fac1
 romsub $bba6 = FREADMEM() clobbers(A,Y)                     ; load mflpt value from memory  in $22/$23 into fac1
 romsub $ba8c = CONUPK(uword mflpt @ AY) clobbers(A,Y)       ; load mflpt value from memory  in A/Y into fac2
@@ -52,22 +50,22 @@ romsub $bc0f = MOVEF() clobbers(A,X)                        ; copy fac1 to fac2
 romsub $bbd4 = MOVMF(uword mflpt @ XY) clobbers(A,Y)        ; store fac1 to memory  X/Y as 5-byte mflpt
 
 ; fac1-> signed word in Y/A (might throw ILLEGAL QUANTITY)
-; (tip: use c64flt.FTOSWRDAY to get A/Y output; lo/hi switched to normal little endian order)
+; (tip: use floats.FTOSWRDAY to get A/Y output; lo/hi switched to normal little endian order)
 romsub $b1aa = FTOSWORDYA() clobbers(X) -> ubyte @ Y, ubyte @ A       ; note: calls AYINT.
 
 ; fac1 -> unsigned word in Y/A (might throw ILLEGAL QUANTITY) (result also in $14/15)
-; (tip: use c64flt.GETADRAY to get A/Y output; lo/hi switched to normal little endian order)
+; (tip: use floats.GETADRAY to get A/Y output; lo/hi switched to normal little endian order)
 romsub $b7f7 = GETADR() clobbers(X) -> ubyte @ Y, ubyte @ A
 
 romsub $bc9b = QINT() clobbers(A,X,Y)           ; fac1 -> 4-byte signed integer in 98-101 ($62-$65), with the MSB FIRST.
 romsub $b1bf = AYINT() clobbers(A,X,Y)          ; fac1-> signed word in 100-101 ($64-$65) MSB FIRST. (might throw ILLEGAL QUANTITY)
 
 ; GIVAYF: signed word in Y/A (note different lsb/msb order) -> float in fac1
-; (tip: use c64flt.GIVAYFAY to use A/Y input; lo/hi switched to normal order)
-; there is also c64flt.GIVUAYFAY - unsigned word in A/Y (lo/hi) to fac1
-; there is also c64flt.FREADS32  that reads from 98-101 ($62-$65) MSB FIRST
-; there is also c64flt.FREADUS32  that reads from 98-101 ($62-$65) MSB FIRST
-; there is also c64flt.FREADS24AXY  that reads signed int24 into fac1 from A/X/Y (lo/mid/hi bytes)
+; (tip: use floats.GIVAYFAY to use A/Y input; lo/hi switched to normal order)
+; there is also floats.GIVUAYFAY - unsigned word in A/Y (lo/hi) to fac1
+; there is also floats.FREADS32  that reads from 98-101 ($62-$65) MSB FIRST
+; there is also floats.FREADUS32  that reads from 98-101 ($62-$65) MSB FIRST
+; there is also floats.FREADS24AXY  that reads signed int24 into fac1 from A/X/Y (lo/mid/hi bytes)
 romsub $b391 = GIVAYF(ubyte lo @ Y, ubyte hi @ A) clobbers(A,X,Y)
 
 romsub $b3a2 = FREADUY(ubyte value @ Y) clobbers(A,X,Y)     ; 8 bit unsigned Y -> float in fac1
@@ -91,6 +89,7 @@ romsub $bb12 = FDIVT() clobbers(A,X,Y)                      ; fac1 = fac2/fac1
 romsub $bb0f = FDIV(uword mflpt @ AY) clobbers(A,X,Y)       ; fac1 = mflpt in A/Y / fac1  (remainder in fac2)
 romsub $bf7b = FPWRT() clobbers(A,X,Y)                      ; fac1 = fac2 ** fac1
 romsub $bf78 = FPWR(uword mflpt @ AY) clobbers(A,X,Y)       ; fac1 = fac2 ** mflpt from A/Y
+romsub $bd7e = FINLOG(byte value @A) clobbers (A, X, Y)     ; fac1 += signed byte in A
 
 romsub $aed4 = NOTOP() clobbers(A,X,Y)                      ; fac1 = NOT(fac1)
 romsub $bccc = INT() clobbers(A,X,Y)                        ; INT() truncates, use FADDH first to round instead of trunc
@@ -163,9 +162,9 @@ asmsub  GIVUAYFAY  (uword value @ AY) clobbers(A,X,Y)  {
 asmsub  GIVAYFAY  (uword value @ AY) clobbers(A,X,Y)  {
 	; ---- signed 16 bit word in A/Y (lo/hi) to float in fac1
 	%asm {{
-		sta  c64.SCRATCH_ZPREG
+		sta  P8ZP_SCRATCH_REG
 		tya
-		ldy  c64.SCRATCH_ZPREG
+		ldy  P8ZP_SCRATCH_REG
 		jmp  GIVAYF		; this uses the inverse order, Y/A
 	}}
 }
@@ -174,9 +173,9 @@ asmsub  FTOSWRDAY  () clobbers(X) -> uword @ AY  {
 	; ---- fac1 to signed word in A/Y
 	%asm {{
 		jsr  FTOSWORDYA	; note the inverse Y/A order
-		sta  c64.SCRATCH_ZPREG
+		sta  P8ZP_SCRATCH_REG
 		tya
-		ldy  c64.SCRATCH_ZPREG
+		ldy  P8ZP_SCRATCH_REG
 		rts
 	}}
 }
@@ -185,41 +184,35 @@ asmsub  GETADRAY  () clobbers(X) -> uword @ AY  {
 	; ---- fac1 to unsigned word in A/Y
 	%asm {{
 		jsr  GETADR		; this uses the inverse order, Y/A
-		sta  c64.SCRATCH_ZPB1
+		sta  P8ZP_SCRATCH_B1
 		tya
-		ldy  c64.SCRATCH_ZPB1
+		ldy  P8ZP_SCRATCH_B1
 		rts
 	}}
 }
 
 sub  print_f  (float value) {
-	; ---- prints the floating point value (without a newline) using basic rom routines.
+	; ---- prints the floating point value (without a newline).
 	%asm {{
-		stx  c64.SCRATCH_ZPREGX
+		stx  floats_store_reg
 		lda  #<value
 		ldy  #>value
 		jsr  MOVFM		; load float into fac1
 		jsr  FOUT		; fac1 to string in A/Y
-		jsr  c64.STROUT			; print string in A/Y
-		ldx  c64.SCRATCH_ZPREGX
+		sta  P8ZP_SCRATCH_W1
+		sty  P8ZP_SCRATCH_W1+1
+		ldy  #0
+-		lda  (P8ZP_SCRATCH_W1),y
+		beq  +
+		jsr  c64.CHROUT
+		iny
+		bne  -
++		ldx  floats_store_reg
 		rts
 	}}
 }
 
-sub  print_fln  (float value) {
-	; ---- prints the floating point value (with a newline at the end) using basic rom routines
-	%asm {{
-		stx  c64.SCRATCH_ZPREGX
-		lda  #<value
-		ldy  #>value
-		jsr  MOVFM		; load float into fac1
-		jsr  FPRINTLN		; print fac1 with newline
-		ldx  c64.SCRATCH_ZPREGX
-		rts
-	}}
+%asminclude "library:c64/floats.asm", ""
+%asminclude "library:c64/floats_funcs.asm", ""
 
 }
-
-%asminclude "library:c64floats.asm", ""
-
-}  ; ------ end of block c64flt

compiler/res/prog8lib/c64/floats_funcs.asm

@@ -0,0 +1,437 @@
+; --- floating point builtin functions
+
+
+abs_f_stack	.proc
+		; -- push abs(AY) on stack
+		jsr  floats.MOVFM
+		jsr  floats.ABS
+		jmp  push_fac1
+		.pend
+
+abs_f_fac1	.proc
+		; -- FAC1 = abs(AY)
+		jsr  floats.MOVFM
+		jmp  floats.ABS
+		.pend
+
+func_atan_stack	.proc
+		jsr  func_atan_fac1
+		jmp  push_fac1
+		.pend
+
+func_atan_fac1	.proc
+		jsr  MOVFM
+		stx  P8ZP_SCRATCH_REG
+		jsr  ATN
+		ldx  P8ZP_SCRATCH_REG
+		rts
+		.pend
+
+func_ceil_stack	.proc
+		jsr  func_ceil_fac1
+		jmp  push_fac1
+		.pend
+
+func_ceil_fac1	.proc
+		; -- ceil: tr = int(f); if tr==f -> return  else return tr+1
+		jsr  MOVFM
+		stx  P8ZP_SCRATCH_REG
+		ldx  #<fmath_float1
+		ldy  #>fmath_float1
+		jsr  MOVMF
+		jsr  INT
+		lda  #<fmath_float1
+		ldy  #>fmath_float1
+		jsr  FCOMP
+		cmp  #0
+		beq  +
+		lda  #<FL_ONE_const
+		ldy  #>FL_ONE_const
+		jsr  FADD
++		ldx  P8ZP_SCRATCH_REG
+		rts
+		.pend
+
+func_floor_stack	.proc
+		jsr  func_floor_fac1
+		jmp  push_fac1
+		.pend
+
+func_floor_fac1	.proc
+		jsr  MOVFM
+		stx  P8ZP_SCRATCH_REG
+		jsr  INT
+		ldx  P8ZP_SCRATCH_REG
+		rts
+		.pend
+
+func_round_stack	.proc
+		jsr  func_round_fac1
+		jmp  push_fac1
+		.pend
+
+func_round_fac1	.proc
+		jsr  MOVFM
+		stx  P8ZP_SCRATCH_REG
+		jsr  FADDH
+		jsr  INT
+		ldx  P8ZP_SCRATCH_REG
+		rts
+		.pend
+
+func_sin_stack	.proc
+		jsr  func_sin_fac1
+		jmp  push_fac1
+		.pend
+
+func_sin_fac1	.proc
+		jsr  MOVFM
+		stx  P8ZP_SCRATCH_REG
+		jsr  SIN
+		ldx  P8ZP_SCRATCH_REG
+		rts
+		.pend
+
+func_cos_stack	.proc
+		jsr  func_cos_fac1
+		jmp  push_fac1
+		.pend
+
+func_cos_fac1	.proc
+		jsr  MOVFM
+		stx  P8ZP_SCRATCH_REG
+		jsr  COS
+		ldx  P8ZP_SCRATCH_REG
+		rts
+		.pend
+
+func_tan_stack	.proc
+		jsr  func_tan_fac1
+		jmp  push_fac1
+		.pend
+
+func_tan_fac1	.proc
+		jsr  MOVFM
+		stx  P8ZP_SCRATCH_REG
+		jsr  TAN
+		ldx  P8ZP_SCRATCH_REG
+		rts
+		.pend
+
+func_rad_stack	.proc
+		jsr  func_rad_fac1
+		jmp  push_fac1
+		.pend
+
+func_rad_fac1	.proc
+		; -- convert degrees to radians (d * pi / 180)
+		jsr  MOVFM
+		stx  P8ZP_SCRATCH_REG
+		lda  #<_pi_div_180
+		ldy  #>_pi_div_180
+		jsr  FMULT
+		ldx  P8ZP_SCRATCH_REG
+		rts
+_pi_div_180	.byte 123, 14, 250, 53, 18		; pi / 180
+		.pend
+
+func_deg_stack	.proc
+		jsr  func_deg_fac1
+		jmp  push_fac1
+		.pend
+
+func_deg_fac1	.proc
+		; -- convert radians to degrees (d * (1/ pi * 180))
+		jsr  MOVFM
+		stx  P8ZP_SCRATCH_REG
+		lda  #<_one_over_pi_div_180
+		ldy  #>_one_over_pi_div_180
+		jsr  FMULT
+		ldx  P8ZP_SCRATCH_REG
+		rts
+_one_over_pi_div_180	.byte 134, 101, 46, 224, 211		; 1 / (pi * 180)
+		.pend
+
+func_ln_stack	.proc
+		jsr  func_ln_fac1
+		jmp  push_fac1
+		.pend
+
+func_ln_fac1	.proc
+		jsr  MOVFM
+		stx  P8ZP_SCRATCH_REG
+		jsr  LOG
+		ldx  P8ZP_SCRATCH_REG
+		rts
+		.pend
+
+func_log2_stack	.proc
+		jsr  func_log2_fac1
+		jmp  push_fac1
+		.pend
+
+func_log2_fac1	.proc
+		jsr  MOVFM
+		stx  P8ZP_SCRATCH_REG
+		jsr  LOG
+		jsr  MOVEF
+		lda  #<FL_LOG2
+		ldy  #>FL_LOG2
+		jsr  MOVFM
+		jsr  FDIVT
+		ldx  P8ZP_SCRATCH_REG
+		rts
+		.pend
+
+func_sign_f_stack	.proc
+		jsr  func_sign_f_into_A
+		sta  P8ESTACK_LO,x
+		dex
+		rts
+		.pend
+
+func_sign_f_into_A	.proc
+		jsr  MOVFM
+		jmp  SIGN
+		.pend
+
+func_sqrt_stack	.proc
+		jsr  func_sqrt_fac1
+		jmp  push_fac1
+		.pend
+
+func_sqrt_fac1	.proc
+		jsr  MOVFM
+		stx  P8ZP_SCRATCH_REG
+		jsr  SQR
+		ldx  P8ZP_SCRATCH_REG
+		rts
+		.pend
+
+func_rndf_stack	.proc
+		jsr  func_rndf_fac1
+		jmp  push_fac1
+		.pend
+
+func_rndf_fac1	.proc
+		stx  P8ZP_SCRATCH_REG
+		lda  #1
+		jsr  FREADSA
+		jsr  RND		; rng into fac1
+		ldx  P8ZP_SCRATCH_REG
+		rts
+		.pend
+
+func_swap_f	.proc
+		; -- swap floats pointed to by SCRATCH_ZPWORD1, SCRATCH_ZPWORD2
+		ldy  #4
+-               lda  (P8ZP_SCRATCH_W1),y
+		pha
+		lda  (P8ZP_SCRATCH_W2),y
+		sta  (P8ZP_SCRATCH_W1),y
+		pla
+		sta  (P8ZP_SCRATCH_W2),y
+		dey
+		bpl  -
+		rts
+		.pend
+
+func_reverse_f	.proc
+		; --- reverse an array of floats (array in P8ZP_SCRATCH_W1, num elements in A)
+_left_index = P8ZP_SCRATCH_W2
+_right_index = P8ZP_SCRATCH_W2+1
+_loop_count = P8ZP_SCRATCH_REG
+		pha
+		jsr  a_times_5
+		sec
+		sbc  #5
+		sta  _right_index
+		lda  #0
+		sta  _left_index
+		pla
+		lsr  a
+		sta  _loop_count
+_loop		; push the left indexed float on the stack
+		ldy  _left_index
+		lda  (P8ZP_SCRATCH_W1),y
+		pha
+		iny
+		lda  (P8ZP_SCRATCH_W1),y
+		pha
+		iny
+		lda  (P8ZP_SCRATCH_W1),y
+		pha
+		iny
+		lda  (P8ZP_SCRATCH_W1),y
+		pha
+		iny
+		lda  (P8ZP_SCRATCH_W1),y
+		pha
+		; copy right index float to left index float
+		ldy  _right_index
+		lda  (P8ZP_SCRATCH_W1),y
+		ldy  _left_index
+		sta  (P8ZP_SCRATCH_W1),y
+		inc  _left_index
+		inc  _right_index
+		ldy  _right_index
+		lda  (P8ZP_SCRATCH_W1),y
+		ldy  _left_index
+		sta  (P8ZP_SCRATCH_W1),y
+		inc  _left_index
+		inc  _right_index
+		ldy  _right_index
+		lda  (P8ZP_SCRATCH_W1),y
+		ldy  _left_index
+		sta  (P8ZP_SCRATCH_W1),y
+		inc  _left_index
+		inc  _right_index
+		ldy  _right_index
+		lda  (P8ZP_SCRATCH_W1),y
+		ldy  _left_index
+		sta  (P8ZP_SCRATCH_W1),y
+		inc  _left_index
+		inc  _right_index
+		ldy  _right_index
+		lda  (P8ZP_SCRATCH_W1),y
+		ldy  _left_index
+		sta  (P8ZP_SCRATCH_W1),y
+		; pop the float off the stack into the right index float
+		ldy  _right_index
+		pla
+		sta  (P8ZP_SCRATCH_W1),y
+		dey
+		pla
+		sta  (P8ZP_SCRATCH_W1),y
+		dey
+		pla
+		sta  (P8ZP_SCRATCH_W1),y
+		dey
+		pla
+		sta  (P8ZP_SCRATCH_W1),y
+		dey
+		pla
+		sta  (P8ZP_SCRATCH_W1),y
+		inc  _left_index
+		lda  _right_index
+		sec
+		sbc  #9
+		sta  _right_index
+		dec  _loop_count
+		bne  _loop
+		rts
+
+		.pend
+
+
+
+a_times_5	.proc
+		sta  P8ZP_SCRATCH_B1
+		asl  a
+		asl  a
+		clc
+		adc  P8ZP_SCRATCH_B1
+		rts
+		.pend
+
+func_any_f_into_A	.proc
+		jsr  a_times_5
+		jmp  prog8_lib.func_any_b_into_A
+		.pend
+
+func_all_f_into_A	.proc
+		jsr  a_times_5
+		jmp  prog8_lib.func_all_b_into_A
+		.pend
+
+func_any_f_stack	.proc
+		jsr  a_times_5
+		jmp  prog8_lib.func_any_b_stack
+		.pend
+
+func_all_f_stack	.proc
+		jsr  a_times_5
+		jmp  prog8_lib.func_all_b_stack
+		.pend
+
+func_max_f_stack	.proc
+		jsr  func_max_f_fac1
+		jmp  push_fac1
+		.pend
+
+func_max_f_fac1	.proc
+		; -- max(array) -> fac1,  array in P8ZP_SCRATCH_W1, num elts in A
+_loop_count = P8ZP_SCRATCH_REG
+		stx  floats_store_reg
+		sta  _loop_count
+		lda  #255
+		sta  _minmax_cmp+1		; modifying
+		lda  #<_largest_neg_float
+		ldy  #>_largest_neg_float
+_minmax_entry	jsr  MOVFM
+-		lda  P8ZP_SCRATCH_W1
+		ldy  P8ZP_SCRATCH_W1+1
+		jsr  FCOMP
+_minmax_cmp	cmp  #255			; modified
+		bne  +
+		lda  P8ZP_SCRATCH_W1
+		ldy  P8ZP_SCRATCH_W1+1
+		jsr  MOVFM
++		lda  P8ZP_SCRATCH_W1
+		clc
+		adc  #5
+		sta  P8ZP_SCRATCH_W1
+		bcc  +
+		inc  P8ZP_SCRATCH_W1+1
++		dec  _loop_count
+		bne  -
+		ldx  floats_store_reg
+		rts
+_largest_neg_float	.byte 255,255,255,255,255		; largest negative float -1.7014118345e+38
+		.pend
+
+func_min_f_stack	.proc
+		jsr  func_min_f_fac1
+		jmp  push_fac1
+		.pend
+
+func_min_f_fac1	.proc
+		; -- min(array) -> fac1,  array in P8ZP_SCRATCH_W1, num elts in A
+		sta  func_max_f_fac1._loop_count
+		lda  #1
+		sta  func_max_f_fac1._minmax_cmp+1
+		lda  #<_largest_pos_float
+		ldy  #>_largest_pos_float
+		jmp  func_max_f_fac1._minmax_entry
+_largest_pos_float	.byte  255,127,255,255,255		; largest positive float
+		rts
+		.pend
+
+
+func_sum_f_stack	.proc
+		jsr  func_sum_f_fac1
+		jmp  push_fac1
+		.pend
+
+func_sum_f_fac1	.proc
+		; -- sum(array) -> fac1,  array in P8ZP_SCRATCH_W1, num elts in A
+_loop_count = P8ZP_SCRATCH_REG
+		stx  floats_store_reg
+		sta  _loop_count
+		lda  #<FL_ZERO_const
+		ldy  #>FL_ZERO_const
+		jsr  MOVFM
+-		lda  P8ZP_SCRATCH_W1
+		ldy  P8ZP_SCRATCH_W1+1
+		jsr  FADD
+		lda  P8ZP_SCRATCH_W1
+		clc
+		adc  #5
+		sta  P8ZP_SCRATCH_W1
+		bcc  +
+		inc  P8ZP_SCRATCH_W1+1
++		dec  _loop_count
+		bne  -
+		ldx  floats_store_reg
+		rts
+		.pend

compiler/res/prog8lib/c64/graphics.p8

@@ -0,0 +1,253 @@
+%target c64
+%import textio
+
+; bitmap pixel graphics module for the C64
+; only black/white monchrome 320x200 for now
+; assumes bitmap screen memory is $2000-$3fff
+
+graphics {
+    const uword BITMAP_ADDRESS = $2000
+    const uword WIDTH = 320
+    const ubyte HEIGHT = 200
+
+    sub enable_bitmap_mode() {
+        ; enable bitmap screen, erase it and set colors to black/white.
+        c64.SCROLY = %00111011
+        c64.SCROLX = %00001000
+        c64.VMCSB = (c64.VMCSB & %11110000) | %00001000   ; $2000-$3fff
+        clear_screen(1, 0)
+    }
+
+    sub disable_bitmap_mode() {
+        ; enables text mode, erase the text screen, color white
+        c64.SCROLY = %00011011
+        c64.SCROLX = %00001000
+        c64.VMCSB = (c64.VMCSB & %11110000) | %00000100   ; $1000-$2fff
+        txt.fill_screen(' ', 1)
+    }
+
+    sub clear_screen(ubyte pixelcolor, ubyte bgcolor) {
+        memset(BITMAP_ADDRESS, 320*200/8, 0)
+        txt.fill_screen(pixelcolor << 4 | bgcolor, 0)
+    }
+
+    sub line(uword @zp x1, ubyte @zp y1, uword @zp x2, ubyte @zp y2) {
+        ; Bresenham algorithm.
+        ; This code special cases various quadrant loops to allow simple ++ and -- operations.
+        ; TODO rewrite this in optimized assembly
+        if y1>y2 {
+            ; make sure dy is always positive to avoid 8 instead of just 4 special cases
+            swap(x1, x2)
+            swap(y1, y2)
+        }
+        word @zp d = 0
+        ubyte positive_ix = true
+        word @zp dx = x2-x1 as word
+        word @zp dy = y2-y1
+        if dx < 0 {
+            dx = -dx
+            positive_ix = false
+        }
+        dx *= 2
+        dy *= 2
+        internal_plotx = x1
+
+        if dx >= dy {
+            if positive_ix {
+                repeat {
+                    internal_plot(y1)
+                    if internal_plotx==x2
+                        return
+                    internal_plotx++
+                    d += dy
+                    if d > dx {
+                        y1++
+                        d -= dx
+                    }
+                }
+            } else {
+                repeat {
+                    internal_plot(y1)
+                    if internal_plotx==x2
+                        return
+                    internal_plotx--
+                    d += dy
+                    if d > dx {
+                        y1++
+                        d -= dx
+                    }
+                }
+            }
+        }
+        else {
+            if positive_ix {
+                repeat {
+                    internal_plot(y1)
+                    if y1 == y2
+                        return
+                    y1++
+                    d += dx
+                    if d > dy {
+                        internal_plotx++
+                        d -= dy
+                    }
+                }
+            } else {
+                repeat {
+                    internal_plot(y1)
+                    if y1 == y2
+                        return
+                    y1++
+                    d += dx
+                    if d > dy {
+                        internal_plotx--
+                        d -= dy
+                    }
+                }
+            }
+        }
+    }
+
+    sub circle(uword xcenter, ubyte ycenter, ubyte radius) {
+        ; Midpoint algorithm
+        ubyte @zp ploty
+        ubyte @zp xx = radius
+        ubyte @zp yy = 0
+        byte @zp decisionOver2 = 1-xx as byte
+
+        while xx>=yy {
+            internal_plotx = xcenter + xx
+            ploty = ycenter + yy
+            internal_plot(ploty)
+            internal_plotx = xcenter - xx
+            internal_plot(ploty)
+            internal_plotx = xcenter + xx
+            ploty = ycenter - yy
+            internal_plot(ploty)
+            internal_plotx = xcenter - xx
+            internal_plot(ploty)
+            internal_plotx = xcenter + yy
+            ploty = ycenter + xx
+            internal_plot(ploty)
+            internal_plotx = xcenter - yy
+            internal_plot(ploty)
+            internal_plotx = xcenter + yy
+            ploty = ycenter - xx
+            internal_plot(ploty)
+            internal_plotx = xcenter - yy
+            internal_plot(ploty)
+            yy++
+            if decisionOver2<=0
+                decisionOver2 += 2*yy+1
+            else {
+                xx--
+                decisionOver2 += 2*(yy-xx)+1
+            }
+        }
+    }
+
+    sub disc(uword xcenter, ubyte ycenter, ubyte radius) {
+        ; Midpoint algorithm, filled
+        ubyte xx = radius
+        ubyte yy = 0
+        byte decisionOver2 = 1-xx as byte
+
+        while xx>=yy {
+            ubyte ycenter_plus_yy = ycenter + yy
+            ubyte ycenter_min_yy = ycenter - yy
+            ubyte ycenter_plus_xx = ycenter + xx
+            ubyte ycenter_min_xx = ycenter - xx
+
+            for internal_plotx in xcenter to xcenter+xx {
+                internal_plot(ycenter_plus_yy)
+                internal_plot(ycenter_min_yy)
+            }
+            for internal_plotx in xcenter-xx to xcenter-1 {
+                internal_plot(ycenter_plus_yy)
+                internal_plot(ycenter_min_yy)
+            }
+            for internal_plotx in xcenter to xcenter+yy {
+                internal_plot(ycenter_plus_xx)
+                internal_plot(ycenter_min_xx)
+            }
+            for internal_plotx in xcenter-yy to xcenter {
+                internal_plot(ycenter_plus_xx)
+                internal_plot(ycenter_min_xx)
+            }
+            yy++
+            if decisionOver2<=0
+                decisionOver2 += 2*yy+1
+            else {
+                xx--
+                decisionOver2 += 2*(yy-xx)+1
+            }
+        }
+    }
+
+
+; here is the non-asm code for the plot routine below:
+;    sub plot_nonasm(uword px, ubyte py) {
+;        ubyte[] ormask = [128, 64, 32, 16, 8, 4, 2, 1]
+;        uword addr = BITMAP_ADDRESS + 320*(py>>3) + (py & 7) + (px & %0000000111111000)
+;        @(addr) |= ormask[lsb(px) & 7]
+;    }
+
+    asmsub  plot(uword plotx @XY, ubyte ploty @A) clobbers (A, X, Y) {
+        %asm {{
+            stx  internal_plotx
+            sty  internal_plotx+1
+            jmp  internal_plot
+        }}
+    }
+
+    ; for efficiency of internal algorithms here is the internal plot routine
+    ; that takes the plotx coordinate in a separate variable instead of the XY register pair:
+
+    uword internal_plotx     ; 0..319        ; separate 'parameter' for internal_plot()
+
+    asmsub  internal_plot(ubyte ploty @A) clobbers (A, X, Y) {      ; internal_plotx is 16 bits 0 to 319... doesn't fit in a register
+        %asm {{
+        tay
+        lda  internal_plotx+1
+        sta  P8ZP_SCRATCH_W2+1
+        lsr  a            ; 0
+        sta  P8ZP_SCRATCH_W2
+        lda  internal_plotx
+        pha
+        and  #7
+        tax
+
+        lda  _y_lookup_lo,y
+        clc
+        adc  P8ZP_SCRATCH_W2
+        sta  P8ZP_SCRATCH_W2
+        lda  _y_lookup_hi,y
+        adc  P8ZP_SCRATCH_W2+1
+        sta  P8ZP_SCRATCH_W2+1
+
+        pla     ; internal_plotx
+        and  #%11111000
+        tay
+        lda  (P8ZP_SCRATCH_W2),y
+        ora  _ormask,x
+        sta  (P8ZP_SCRATCH_W2),y
+        rts
+
+_ormask     .byte 128, 64, 32, 16, 8, 4, 2, 1
+
+; note: this can be even faster if we also have a 256 byte x-lookup table, but hey.
+; see http://codebase64.org/doku.php?id=base:various_techniques_to_calculate_adresses_fast_common_screen_formats_for_pixel_graphics
+; the y lookup tables encodes this formula:  BITMAP_ADDRESS + 320*(py>>3) + (py & 7)    (y from 0..199)
+; We use the 64tass syntax for range expressions to calculate this table on assembly time.
+
+_plot_y_values := $2000 + 320*(range(200)>>3) + (range(200) & 7)
+
+_y_lookup_lo    .byte  <_plot_y_values
+_y_lookup_hi    .byte  >_plot_y_values
+
+        }}
+    }
+
+}
+
+

compiler/res/prog8lib/c64/syslib.p8

@@ -5,20 +5,13 @@
 ;
 ; indent format: TABS, size=8
 
+%target c64
 
 c64 {
-        const  uword  ESTACK_LO = $ce00     ; evaluation stack (lsb)
-        const  uword  ESTACK_HI = $cf00     ; evaluation stack (msb)
-        &ubyte  SCRATCH_ZPB1    = $02       ; scratch byte 1 in ZP
-        &ubyte  SCRATCH_ZPREG   = $03       ; scratch register in ZP
-        &ubyte  SCRATCH_ZPREGX  = $fa       ; temp storage for X register (stack pointer)
-        &uword  SCRATCH_ZPWORD1 = $fb       ; scratch word in ZP ($fb/$fc)
-        &uword  SCRATCH_ZPWORD2 = $fd       ; scratch word in ZP ($fd/$fe)
-
-
         &ubyte  TIME_HI         = $a0       ; software jiffy clock, hi byte
         &ubyte  TIME_MID        = $a1       ;  .. mid byte
         &ubyte  TIME_LO         = $a2       ;    .. lo byte. Updated by IRQ every 1/60 sec
+        &ubyte  STATUS          = $90       ; kernel status variable for I/O
         &ubyte  STKEY           = $91       ; various keyboard statuses (updated by IRQ)
         &ubyte  SFDX            = $cb       ; current key pressed (matrix value) (updated by IRQ)
 
@@ -183,19 +176,11 @@ c64 {
 ; ---- end of SID registers ----
 
 
-
-; ---- C64 basic routines ----
-
-romsub $E544 = CLEARSCR() clobbers(A,X,Y)       ; clear the screen
-romsub $E566 = HOMECRSR() clobbers(A,X,Y)       ; cursor to top left of screen
-
-
-; ---- end of C64 basic routines ----
-
-
-; ---- C64 kernal routines ----
+; ---- C64 ROM kernal routines ----
 
 romsub $AB1E = STROUT(uword strptr @ AY) clobbers(A, X, Y)      ; print null-terminated string (use c64scr.print instead)
+romsub $E544 = CLEARSCR() clobbers(A,X,Y)                       ; clear the screen
+romsub $E566 = HOMECRSR() clobbers(A,X,Y)                       ; cursor to top left of screen
 romsub $EA31 = IRQDFRT() clobbers(A,X,Y)                        ; default IRQ routine
 romsub $EA81 = IRQDFEND() clobbers(A,X,Y)                       ; default IRQ end/cleanup
 romsub $FF81 = CINT() clobbers(A,X,Y)                           ; (alias: SCINIT) initialize screen editor and video chip
@@ -219,25 +204,245 @@ romsub $FFB4 = TALK(ubyte device @ A) clobbers(A)               ; command serial
 romsub $FFB7 = READST() -> ubyte @ A                            ; read I/O status word
 romsub $FFBA = SETLFS(ubyte logical @ A, ubyte device @ X, ubyte address @ Y)   ; set logical file parameters
 romsub $FFBD = SETNAM(ubyte namelen @ A, str filename @ XY)     ; set filename parameters
-romsub $FFC0 = OPEN() clobbers(A,X,Y)                           ; (via 794 ($31A)) open a logical file
+romsub $FFC0 = OPEN() clobbers(X,Y) -> ubyte @Pc, ubyte @A      ; (via 794 ($31A)) open a logical file
 romsub $FFC3 = CLOSE(ubyte logical @ A) clobbers(A,X,Y)         ; (via 796 ($31C)) close a logical file
-romsub $FFC6 = CHKIN(ubyte logical @ X) clobbers(A,X)           ; (via 798 ($31E)) define an input channel
+romsub $FFC6 = CHKIN(ubyte logical @ X) clobbers(A,X) -> ubyte @Pc    ; (via 798 ($31E)) define an input channel
 romsub $FFC9 = CHKOUT(ubyte logical @ X) clobbers(A,X)          ; (via 800 ($320)) define an output channel
 romsub $FFCC = CLRCHN() clobbers(A,X)                           ; (via 802 ($322)) restore default devices
-romsub $FFCF = CHRIN() clobbers(Y) -> ubyte @ A                 ; (via 804 ($324)) input a character (for keyboard, read a whole line from the screen) A=byte read.
+romsub $FFCF = CHRIN() clobbers(X, Y) -> ubyte @ A   ; (via 804 ($324)) input a character (for keyboard, read a whole line from the screen) A=byte read.
 romsub $FFD2 = CHROUT(ubyte char @ A)                           ; (via 806 ($326)) output a character
 romsub $FFD5 = LOAD(ubyte verify @ A, uword address @ XY) -> ubyte @Pc, ubyte @ A, ubyte @ X, ubyte @ Y     ; (via 816 ($330)) load from device
 romsub $FFD8 = SAVE(ubyte zp_startaddr @ A, uword endaddr @ XY) -> ubyte @ Pc, ubyte @ A                    ; (via 818 ($332)) save to a device
 romsub $FFDB = SETTIM(ubyte low @ A, ubyte middle @ X, ubyte high @ Y)      ; set the software clock
 romsub $FFDE = RDTIM() -> ubyte @ A, ubyte @ X, ubyte @ Y       ; read the software clock
-romsub $FFE1 = STOP() clobbers(A,X) -> ubyte @ Pz, ubyte @ Pc   ; (via 808 ($328)) check the STOP key
-romsub $FFE4 = GETIN() clobbers(X,Y) -> ubyte @ A               ; (via 810 ($32A)) get a character
+romsub $FFE1 = STOP() clobbers(X) -> ubyte @ Pz, ubyte @ A      ; (via 808 ($328)) check the STOP key (and some others in A)
+romsub $FFE4 = GETIN() clobbers(X,Y) -> ubyte @Pc, ubyte @ A    ; (via 810 ($32A)) get a character
 romsub $FFE7 = CLALL() clobbers(A,X)                            ; (via 812 ($32C)) close all files
 romsub $FFEA = UDTIM() clobbers(A,X)                            ; update the software clock
 romsub $FFED = SCREEN() -> ubyte @ X, ubyte @ Y                 ; read number of screen rows and columns
-romsub $FFF0 = PLOT(ubyte col @ Y, ubyte row @ X, ubyte dir @ Pc) -> ubyte @ X, ubyte @ Y       ; read/set position of cursor on screen.  Use c64scr.plot for a 'safe' wrapper that preserves X.
+romsub $FFF0 = PLOT(ubyte col @ Y, ubyte row @ X, ubyte dir @ Pc) -> ubyte @ X, ubyte @ Y       ; read/set position of cursor on screen.  Use txt.plot for a 'safe' wrapper that preserves X.
 romsub $FFF3 = IOBASE() -> uword @ XY                           ; read base address of I/O devices
 
-; ---- end of C64 kernal routines ----
+; ---- end of C64 ROM kernal routines ----
+
+
+; ---- C64 specific system utility routines: ----
+
+asmsub  init_system()  {
+    ; Initializes the machine to a sane starting state.
+    ; Called automatically by the loader program logic.
+    ; This means that the BASIC, KERNAL and CHARGEN ROMs are banked in,
+    ; the VIC, SID and CIA chips are reset, screen is cleared, and the default IRQ is set.
+    ; Also a different color scheme is chosen to identify ourselves a little.
+    ; Uppercase charset is activated, and all three registers set to 0, status flags cleared.
+    %asm {{
+        sei
+        cld
+        lda  #%00101111
+        sta  $00
+        lda  #%00100111
+        sta  $01
+        jsr  c64.IOINIT
+        jsr  c64.RESTOR
+        jsr  c64.CINT
+        lda  #6
+        sta  c64.EXTCOL
+        lda  #7
+        sta  c64.COLOR
+        lda  #0
+        sta  c64.BGCOL0
+        jsr  disable_runstop_and_charsetswitch
+        clc
+        clv
+        cli
+        rts
+    }}
+}
+
+asmsub  reset_system()  {
+    ; Soft-reset the system back to Basic prompt.
+    %asm {{
+        sei
+        lda  #14
+        sta  $01        ; bank the kernal in
+        jmp  (c64.RESET_VEC)
+    }}
+}
+
+asmsub  disable_runstop_and_charsetswitch() {
+    %asm {{
+        lda  #$80
+        sta  657    ; disable charset switching
+        lda  #239
+        sta  808    ; disable run/stop key
+        rts
+    }}
+}
+
+asmsub  set_irqvec_excl() clobbers(A)  {
+	%asm {{
+		sei
+		lda  #<_irq_handler
+		sta  c64.CINV
+		lda  #>_irq_handler
+		sta  c64.CINV+1
+		cli
+		rts
+_irq_handler	jsr  set_irqvec._irq_handler_init
+		jsr  irq.irq
+		jsr  set_irqvec._irq_handler_end
+		lda  #$ff
+		sta  c64.VICIRQ			; acknowledge raster irq
+		lda  c64.CIA1ICR		; acknowledge CIA1 interrupt
+		jmp  c64.IRQDFEND		; end irq processing - don't call kernel
+	}}
+}
+
+asmsub  set_irqvec() clobbers(A)  {
+	%asm {{
+		sei
+		lda  #<_irq_handler
+		sta  c64.CINV
+		lda  #>_irq_handler
+		sta  c64.CINV+1
+		cli
+		rts
+_irq_handler    jsr  _irq_handler_init
+		jsr  irq.irq
+		jsr  _irq_handler_end
+		jmp  c64.IRQDFRT		; continue with normal kernel irq routine
+
+_irq_handler_init
+		; save all zp scratch registers and the X register as these might be clobbered by the irq routine
+		stx  IRQ_X_REG
+		lda  P8ZP_SCRATCH_B1
+		sta  IRQ_SCRATCH_ZPB1
+		lda  P8ZP_SCRATCH_REG
+		sta  IRQ_SCRATCH_ZPREG
+		lda  P8ZP_SCRATCH_W1
+		sta  IRQ_SCRATCH_ZPWORD1
+		lda  P8ZP_SCRATCH_W1+1
+		sta  IRQ_SCRATCH_ZPWORD1+1
+		lda  P8ZP_SCRATCH_W2
+		sta  IRQ_SCRATCH_ZPWORD2
+		lda  P8ZP_SCRATCH_W2+1
+		sta  IRQ_SCRATCH_ZPWORD2+1
+		; stack protector; make sure we don't clobber the top of the evaluation stack
+		dex
+		dex
+		dex
+		dex
+		dex
+		dex
+		cld
+		rts
+
+_irq_handler_end
+		; restore all zp scratch registers and the X register
+		lda  IRQ_SCRATCH_ZPB1
+		sta  P8ZP_SCRATCH_B1
+		lda  IRQ_SCRATCH_ZPREG
+		sta  P8ZP_SCRATCH_REG
+		lda  IRQ_SCRATCH_ZPWORD1
+		sta  P8ZP_SCRATCH_W1
+		lda  IRQ_SCRATCH_ZPWORD1+1
+		sta  P8ZP_SCRATCH_W1+1
+		lda  IRQ_SCRATCH_ZPWORD2
+		sta  P8ZP_SCRATCH_W2
+		lda  IRQ_SCRATCH_ZPWORD2+1
+		sta  P8ZP_SCRATCH_W2+1
+		ldx  IRQ_X_REG
+		rts
+
+IRQ_X_REG		.byte  0
+IRQ_SCRATCH_ZPB1	.byte  0
+IRQ_SCRATCH_ZPREG	.byte  0
+IRQ_SCRATCH_ZPWORD1	.word  0
+IRQ_SCRATCH_ZPWORD2	.word  0
+
+		}}
+}
+
+asmsub  restore_irqvec() {
+	%asm {{
+		sei
+		lda  #<c64.IRQDFRT
+		sta  c64.CINV
+		lda  #>c64.IRQDFRT
+		sta  c64.CINV+1
+		lda  #0
+		sta  c64.IREQMASK	; disable raster irq
+		lda  #%10000001
+		sta  c64.CIA1ICR	; restore CIA1 irq
+		cli
+		rts
+	}}
+}
+
+asmsub  set_rasterirq(uword rasterpos @ AY) clobbers(A) {
+	%asm {{
+		sei
+		jsr  _setup_raster_irq
+		lda  #<_raster_irq_handler
+		sta  c64.CINV
+		lda  #>_raster_irq_handler
+		sta  c64.CINV+1
+		cli
+		rts
+
+_raster_irq_handler
+		jsr  set_irqvec._irq_handler_init
+		jsr  irq.irq
+		jsr  set_irqvec._irq_handler_end
+		lda  #$ff
+		sta  c64.VICIRQ			; acknowledge raster irq
+		jmp  c64.IRQDFRT
+
+_setup_raster_irq
+		pha
+		lda  #%01111111
+		sta  c64.CIA1ICR    ; "switch off" interrupts signals from cia-1
+		sta  c64.CIA2ICR    ; "switch off" interrupts signals from cia-2
+		and  c64.SCROLY
+		sta  c64.SCROLY     ; clear most significant bit of raster position
+		lda  c64.CIA1ICR    ; ack previous irq
+		lda  c64.CIA2ICR    ; ack previous irq
+		pla
+		sta  c64.RASTER     ; set the raster line number where interrupt should occur
+		cpy  #0
+		beq  +
+		lda  c64.SCROLY
+		ora  #%10000000
+		sta  c64.SCROLY     ; set most significant bit of raster position
++		lda  #%00000001
+		sta  c64.IREQMASK   ;enable raster interrupt signals from vic
+		rts
+	}}
+}
+
+asmsub  set_rasterirq_excl(uword rasterpos @ AY) clobbers(A) {
+	%asm {{
+		sei
+		jsr  set_rasterirq._setup_raster_irq
+		lda  #<_raster_irq_handler
+		sta  c64.CINV
+		lda  #>_raster_irq_handler
+		sta  c64.CINV+1
+		cli
+		rts
+
+_raster_irq_handler
+		jsr  set_irqvec._irq_handler_init
+		jsr  irq.irq
+		jsr  set_irqvec._irq_handler_end
+		lda  #$ff
+		sta  c64.VICIRQ			; acknowledge raster irq
+		jmp  c64.IRQDFEND		; end irq processing - don't call kernel
+
+	}}
+}
+
+; ---- end of C64 specific system utility routines ----
+
 
 }

compiler/res/prog8lib/c64/textio.p8

@@ -0,0 +1,587 @@
+; Prog8 definitions for the Text I/O and Screen routines for the Commodore-64
+;
+; Written by Irmen de Jong (irmen@razorvine.net) - license: GNU GPL 3.0
+;
+; indent format: TABS, size=8
+
+%target c64
+%import syslib
+%import conv
+
+
+txt {
+
+const ubyte DEFAULT_WIDTH = 40
+const ubyte DEFAULT_HEIGHT = 25
+
+
+sub  clear_screen() {
+    clear_screenchars(' ')
+}
+
+asmsub  fill_screen (ubyte char @ A, ubyte color @ Y) clobbers(A)  {
+	; ---- fill the character screen with the given fill character and character color.
+	;      (assumes screen and color matrix are at their default addresses)
+
+	%asm {{
+		pha
+		tya
+		jsr  clear_screencolors
+		pla
+		jsr  clear_screenchars
+		rts
+        }}
+
+}
+
+asmsub  clear_screenchars (ubyte char @ A) clobbers(Y)  {
+	; ---- clear the character screen with the given fill character (leaves colors)
+	;      (assumes screen matrix is at the default address)
+	%asm {{
+		ldy  #0
+_loop		sta  c64.Screen,y
+		sta  c64.Screen+$0100,y
+		sta  c64.Screen+$0200,y
+		sta  c64.Screen+$02e8,y
+		iny
+		bne  _loop
+		rts
+        }}
+}
+
+asmsub  clear_screencolors (ubyte color @ A) clobbers(Y)  {
+	; ---- clear the character screen colors with the given color (leaves characters).
+	;      (assumes color matrix is at the default address)
+	%asm {{
+		ldy  #0
+_loop		sta  c64.Colors,y
+		sta  c64.Colors+$0100,y
+		sta  c64.Colors+$0200,y
+		sta  c64.Colors+$02e8,y
+		iny
+		bne  _loop
+		rts
+        }}
+}
+
+sub color (ubyte txtcol) {
+    c64.COLOR = txtcol
+}
+
+sub lowercase() {
+    c64.VMCSB |= 2
+}
+
+sub uppercase() {
+    c64.VMCSB &= ~2
+}
+
+asmsub  scroll_left  (ubyte alsocolors @ Pc) clobbers(A, Y)  {
+	; ---- scroll the whole screen 1 character to the left
+	;      contents of the rightmost column are unchanged, you should clear/refill this yourself
+	;      Carry flag determines if screen color data must be scrolled too
+
+	%asm {{
+		stx  P8ZP_SCRATCH_REG
+		bcs  +
+		jmp  _scroll_screen
+
++               ; scroll the color memory
+		ldx  #0
+		ldy  #38
+-
+	.for row=0, row<=24, row+=1
+		lda  c64.Colors + 40*row + 1,x
+		sta  c64.Colors + 40*row,x
+	.next
+		inx
+		dey
+		bpl  -
+
+_scroll_screen  ; scroll the screen memory
+		ldx  #0
+		ldy  #38
+-
+	.for row=0, row<=24, row+=1
+		lda  c64.Screen + 40*row + 1,x
+		sta  c64.Screen + 40*row,x
+	.next
+		inx
+		dey
+		bpl  -
+
+		ldx  P8ZP_SCRATCH_REG
+		rts
+	}}
+}
+
+asmsub  scroll_right  (ubyte alsocolors @ Pc) clobbers(A)  {
+	; ---- scroll the whole screen 1 character to the right
+	;      contents of the leftmost column are unchanged, you should clear/refill this yourself
+	;      Carry flag determines if screen color data must be scrolled too
+	%asm {{
+		stx  P8ZP_SCRATCH_REG
+		bcs  +
+		jmp  _scroll_screen
+
++               ; scroll the color memory
+		ldx  #38
+-
+	.for row=0, row<=24, row+=1
+		lda  c64.Colors + 40*row + 0,x
+		sta  c64.Colors + 40*row + 1,x
+	.next
+		dex
+		bpl  -
+
+_scroll_screen  ; scroll the screen memory
+		ldx  #38
+-
+	.for row=0, row<=24, row+=1
+		lda  c64.Screen + 40*row + 0,x
+		sta  c64.Screen + 40*row + 1,x
+	.next
+		dex
+		bpl  -
+
+		ldx  P8ZP_SCRATCH_REG
+		rts
+	}}
+}
+
+asmsub  scroll_up  (ubyte alsocolors @ Pc) clobbers(A)  {
+	; ---- scroll the whole screen 1 character up
+	;      contents of the bottom row are unchanged, you should refill/clear this yourself
+	;      Carry flag determines if screen color data must be scrolled too
+	%asm {{
+		stx  P8ZP_SCRATCH_REG
+		bcs  +
+		jmp  _scroll_screen
+
++               ; scroll the color memory
+		ldx #39
+-
+	.for row=1, row<=24, row+=1
+		lda  c64.Colors + 40*row,x
+		sta  c64.Colors + 40*(row-1),x
+	.next
+		dex
+		bpl  -
+
+_scroll_screen  ; scroll the screen memory
+		ldx #39
+-
+	.for row=1, row<=24, row+=1
+		lda  c64.Screen + 40*row,x
+		sta  c64.Screen + 40*(row-1),x
+	.next
+		dex
+		bpl  -
+
+		ldx  P8ZP_SCRATCH_REG
+		rts
+	}}
+}
+
+asmsub  scroll_down  (ubyte alsocolors @ Pc) clobbers(A)  {
+	; ---- scroll the whole screen 1 character down
+	;      contents of the top row are unchanged, you should refill/clear this yourself
+	;      Carry flag determines if screen color data must be scrolled too
+	%asm {{
+		stx  P8ZP_SCRATCH_REG
+		bcs  +
+		jmp  _scroll_screen
+
++               ; scroll the color memory
+		ldx #39
+-
+	.for row=23, row>=0, row-=1
+		lda  c64.Colors + 40*row,x
+		sta  c64.Colors + 40*(row+1),x
+	.next
+		dex
+		bpl  -
+
+_scroll_screen  ; scroll the screen memory
+		ldx #39
+-
+	.for row=23, row>=0, row-=1
+		lda  c64.Screen + 40*row,x
+		sta  c64.Screen + 40*(row+1),x
+	.next
+		dex
+		bpl  -
+
+		ldx  P8ZP_SCRATCH_REG
+		rts
+	}}
+}
+
+romsub $FFD2 = chrout(ubyte char @ A)    ; for consistency. You can also use c64.CHROUT directly ofcourse.
+
+asmsub  print (str text @ AY) clobbers(A,Y)  {
+	; ---- print null terminated string from A/Y
+	; note: the compiler contains an optimization that will replace
+	;       a call to this subroutine with a string argument of just one char,
+	;       by just one call to c64.CHROUT of that single char.
+	%asm {{
+		sta  P8ZP_SCRATCH_B1
+		sty  P8ZP_SCRATCH_REG
+		ldy  #0
+-		lda  (P8ZP_SCRATCH_B1),y
+		beq  +
+		jsr  c64.CHROUT
+		iny
+		bne  -
++		rts
+	}}
+}
+
+asmsub  print_ub0  (ubyte value @ A) clobbers(A,Y)  {
+	; ---- print the ubyte in A in decimal form, with left padding 0s (3 positions total)
+	%asm {{
+		stx  P8ZP_SCRATCH_REG
+		jsr  conv.ubyte2decimal
+		pha
+		tya
+		jsr  c64.CHROUT
+		pla
+		jsr  c64.CHROUT
+		txa
+		jsr  c64.CHROUT
+		ldx  P8ZP_SCRATCH_REG
+		rts
+	}}
+}
+
+asmsub  print_ub  (ubyte value @ A) clobbers(A,Y)  {
+	; ---- print the ubyte in A in decimal form, without left padding 0s
+	%asm {{
+		stx  P8ZP_SCRATCH_REG
+		jsr  conv.ubyte2decimal
+_print_byte_digits
+		pha
+		cpy  #'0'
+		beq  +
+		tya
+		jsr  c64.CHROUT
+		pla
+		jsr  c64.CHROUT
+		jmp  _ones
++       pla
+        cmp  #'0'
+        beq  _ones
+        jsr  c64.CHROUT
+_ones   txa
+		jsr  c64.CHROUT
+		ldx  P8ZP_SCRATCH_REG
+		rts
+	}}
+}
+
+asmsub  print_b  (byte value @ A) clobbers(A,Y)  {
+	; ---- print the byte in A in decimal form, without left padding 0s
+	%asm {{
+		stx  P8ZP_SCRATCH_REG
+		pha
+		cmp  #0
+		bpl  +
+		lda  #'-'
+		jsr  c64.CHROUT
++		pla
+		jsr  conv.byte2decimal
+		jmp  print_ub._print_byte_digits
+	}}
+}
+
+asmsub  print_ubhex  (ubyte value @ A, ubyte prefix @ Pc) clobbers(A,Y)  {
+	; ---- print the ubyte in A in hex form (if Carry is set, a radix prefix '$' is printed as well)
+	%asm {{
+		stx  P8ZP_SCRATCH_REG
+		bcc  +
+		pha
+		lda  #'$'
+		jsr  c64.CHROUT
+		pla
++		jsr  conv.ubyte2hex
+		jsr  c64.CHROUT
+		tya
+		jsr  c64.CHROUT
+		ldx  P8ZP_SCRATCH_REG
+		rts
+	}}
+}
+
+asmsub  print_ubbin  (ubyte value @ A, ubyte prefix @ Pc) clobbers(A,Y)  {
+	; ---- print the ubyte in A in binary form (if Carry is set, a radix prefix '%' is printed as well)
+	%asm {{
+		stx  P8ZP_SCRATCH_REG
+		sta  P8ZP_SCRATCH_B1
+		bcc  +
+		lda  #'%'
+		jsr  c64.CHROUT
++		ldy  #8
+-		lda  #'0'
+		asl  P8ZP_SCRATCH_B1
+		bcc  +
+		lda  #'1'
++		jsr  c64.CHROUT
+		dey
+		bne  -
+		ldx  P8ZP_SCRATCH_REG
+		rts
+	}}
+}
+
+asmsub  print_uwbin  (uword value @ AY, ubyte prefix @ Pc) clobbers(A,Y)  {
+	; ---- print the uword in A/Y in binary form (if Carry is set, a radix prefix '%' is printed as well)
+	%asm {{
+		pha
+		tya
+		jsr  print_ubbin
+		pla
+		clc
+		jmp  print_ubbin
+	}}
+}
+
+asmsub  print_uwhex  (uword value @ AY, ubyte prefix @ Pc) clobbers(A,Y)  {
+	; ---- print the uword in A/Y in hexadecimal form (4 digits)
+	;      (if Carry is set, a radix prefix '$' is printed as well)
+	%asm {{
+		pha
+		tya
+		jsr  print_ubhex
+		pla
+		clc
+		jmp  print_ubhex
+	}}
+}
+
+asmsub  print_uw0  (uword value @ AY) clobbers(A,Y)  {
+	; ---- print the uword in A/Y in decimal form, with left padding 0s (5 positions total)
+	%asm {{
+	    stx  P8ZP_SCRATCH_REG
+		jsr  conv.uword2decimal
+		ldy  #0
+-		lda  conv.uword2decimal.decTenThousands,y
+        beq  +
+		jsr  c64.CHROUT
+		iny
+		bne  -
++		ldx  P8ZP_SCRATCH_REG
+		rts
+	}}
+}
+
+asmsub  print_uw  (uword value @ AY) clobbers(A,Y)  {
+	; ---- print the uword in A/Y in decimal form, without left padding 0s
+	%asm {{
+	    stx  P8ZP_SCRATCH_REG
+		jsr  conv.uword2decimal
+		ldx  P8ZP_SCRATCH_REG
+		ldy  #0
+-		lda  conv.uword2decimal.decTenThousands,y
+		beq  _allzero
+		cmp  #'0'
+		bne  _gotdigit
+		iny
+		bne  -
+
+_gotdigit
+		jsr  c64.CHROUT
+		iny
+		lda  conv.uword2decimal.decTenThousands,y
+		bne  _gotdigit
+		rts
+_allzero
+        lda  #'0'
+        jmp  c64.CHROUT
+	}}
+}
+
+asmsub  print_w  (word value @ AY) clobbers(A,Y)  {
+	; ---- print the (signed) word in A/Y in decimal form, without left padding 0's
+	%asm {{
+		cpy  #0
+		bpl  +
+		pha
+		lda  #'-'
+		jsr  c64.CHROUT
+		tya
+		eor  #255
+		tay
+		pla
+		eor  #255
+		clc
+		adc  #1
+		bcc  +
+		iny
++		jmp  print_uw
+	}}
+}
+
+asmsub  input_chars  (uword buffer @ AY) clobbers(A) -> ubyte @ Y  {
+	; ---- Input a string (max. 80 chars) from the keyboard. Returns length in Y. (string is terminated with a 0 byte as well)
+	;      It assumes the keyboard is selected as I/O channel!
+
+	%asm {{
+		sta  P8ZP_SCRATCH_W1
+		sty  P8ZP_SCRATCH_W1+1
+		ldy  #0				; char counter = 0
+-		jsr  c64.CHRIN
+		cmp  #$0d			; return (ascii 13) pressed?
+		beq  +				; yes, end.
+		sta  (P8ZP_SCRATCH_W1),y	; else store char in buffer
+		iny
+		bne  -
++		lda  #0
+		sta  (P8ZP_SCRATCH_W1),y	; finish string with 0 byte
+		rts
+
+	}}
+}
+
+asmsub  setchr  (ubyte col @X, ubyte row @Y, ubyte character @A) clobbers(A, Y)  {
+	; ---- sets the character in the screen matrix at the given position
+	%asm {{
+		pha
+		tya
+		asl  a
+		tay
+		lda  _screenrows+1,y
+		sta  _mod+2
+		txa
+		clc
+		adc  _screenrows,y
+		sta  _mod+1
+		bcc  +
+		inc  _mod+2
++		pla
+_mod		sta  $ffff		; modified
+		rts
+
+_screenrows	.word  $0400 + range(0, 1000, 40)
+	}}
+}
+
+asmsub  getchr  (ubyte col @A, ubyte row @Y) clobbers(Y) -> ubyte @ A {
+	; ---- get the character in the screen matrix at the given location
+	%asm  {{
+		pha
+		tya
+		asl  a
+		tay
+		lda  setchr._screenrows+1,y
+		sta  _mod+2
+		pla
+		clc
+		adc  setchr._screenrows,y
+		sta  _mod+1
+		bcc  _mod
+		inc  _mod+2
+_mod		lda  $ffff		; modified
+		rts
+	}}
+}
+
+asmsub  setclr  (ubyte col @X, ubyte row @Y, ubyte color @A) clobbers(A, Y)  {
+	; ---- set the color in A on the screen matrix at the given position
+	%asm {{
+		pha
+		tya
+		asl  a
+		tay
+		lda  _colorrows+1,y
+		sta  _mod+2
+		txa
+		clc
+		adc  _colorrows,y
+		sta  _mod+1
+		bcc  +
+		inc  _mod+2
++		pla
+_mod		sta  $ffff		; modified
+		rts
+
+_colorrows	.word  $d800 + range(0, 1000, 40)
+	}}
+}
+
+asmsub  getclr  (ubyte col @A, ubyte row @Y) clobbers(Y) -> ubyte @ A {
+	; ---- get the color in the screen color matrix at the given location
+	%asm  {{
+		pha
+		tya
+		asl  a
+		tay
+		lda  setclr._colorrows+1,y
+		sta  _mod+2
+		pla
+		clc
+		adc  setclr._colorrows,y
+		sta  _mod+1
+		bcc  _mod
+		inc  _mod+2
+_mod		lda  $ffff		; modified
+		rts
+	}}
+}
+
+sub  setcc  (ubyte column, ubyte row, ubyte char, ubyte charcolor)  {
+	; ---- set char+color at the given position on the screen
+	%asm {{
+		lda  row
+		asl  a
+		tay
+		lda  setchr._screenrows+1,y
+		sta  _charmod+2
+		adc  #$d4
+		sta  _colormod+2
+		lda  setchr._screenrows,y
+		clc
+		adc  column
+		sta  _charmod+1
+		sta  _colormod+1
+		bcc  +
+		inc  _charmod+2
+		inc  _colormod+2
++		lda  char
+_charmod	sta  $ffff		; modified
+		lda  charcolor
+_colormod	sta  $ffff		; modified
+		rts
+	}}
+}
+
+asmsub  plot  (ubyte col @ Y, ubyte row @ A) clobbers(A) {
+	; ---- safe wrapper around PLOT kernel routine, to save the X register.
+	%asm  {{
+		stx  P8ZP_SCRATCH_REG
+		tax
+		clc
+		jsr  c64.PLOT
+		ldx  P8ZP_SCRATCH_REG
+		rts
+	}}
+}
+
+asmsub width() clobbers(X,Y) -> ubyte @A {
+    ; -- returns the text screen width (number of columns)
+    %asm {{
+        jsr  c64.SCREEN
+        txa
+        rts
+    }}
+}
+
+asmsub height() clobbers(X, Y) -> ubyte @A {
+    ; -- returns the text screen height (number of rows)
+    %asm {{
+        jsr  c64.SCREEN
+        tya
+        rts
+    }}
+}
+
+}

compiler/res/prog8lib/c64floats.asm

@@ -1,798 +0,0 @@
-; --- low level floating point assembly routines for the C64
-
-ub2float	.proc
-		; -- convert ubyte in SCRATCH_ZPB1 to float at address A/Y
-		;    clobbers A, Y
-		stx  c64.SCRATCH_ZPREGX
-		sta  c64.SCRATCH_ZPWORD2
-		sty  c64.SCRATCH_ZPWORD2+1
-		ldy  c64.SCRATCH_ZPB1
-		jsr  FREADUY
-_fac_to_mem	ldx  c64.SCRATCH_ZPWORD2
-		ldy  c64.SCRATCH_ZPWORD2+1
-		jsr  MOVMF
-		ldx  c64.SCRATCH_ZPREGX
-		rts
-		.pend
-
-b2float		.proc
-		; -- convert byte in SCRATCH_ZPB1 to float at address A/Y
-		;    clobbers A, Y
-		stx  c64.SCRATCH_ZPREGX
-		sta  c64.SCRATCH_ZPWORD2
-		sty  c64.SCRATCH_ZPWORD2+1
-		lda  c64.SCRATCH_ZPB1
-		jsr  FREADSA
-		jmp  ub2float._fac_to_mem
-		.pend
-
-uw2float	.proc
-		; -- convert uword in SCRATCH_ZPWORD1 to float at address A/Y
-		stx  c64.SCRATCH_ZPREGX
-		sta  c64.SCRATCH_ZPWORD2
-		sty  c64.SCRATCH_ZPWORD2+1
-		lda  c64.SCRATCH_ZPWORD1
-		ldy  c64.SCRATCH_ZPWORD1+1
-		jsr  GIVUAYFAY
-		jmp  ub2float._fac_to_mem
-		.pend
-
-w2float		.proc
-		; -- convert word in SCRATCH_ZPWORD1 to float at address A/Y
-		stx  c64.SCRATCH_ZPREGX
-		sta  c64.SCRATCH_ZPWORD2
-		sty  c64.SCRATCH_ZPWORD2+1
-		ldy  c64.SCRATCH_ZPWORD1
-		lda  c64.SCRATCH_ZPWORD1+1
-		jsr  GIVAYF
-		jmp  ub2float._fac_to_mem
-		.pend
-
-stack_b2float	.proc
-		; -- b2float operating on the stack
-		inx
-		lda  c64.ESTACK_LO,x
-		stx  c64.SCRATCH_ZPREGX
-		jsr  FREADSA
-		jmp  push_fac1_as_result
-		.pend
-
-stack_w2float	.proc
-		; -- w2float operating on the stack
-		inx
-		ldy  c64.ESTACK_LO,x
-		lda  c64.ESTACK_HI,x
-		stx  c64.SCRATCH_ZPREGX
-		jsr  GIVAYF
-		jmp  push_fac1_as_result
-		.pend
-
-stack_ub2float	.proc
-		; -- ub2float operating on the stack
-		inx
-		lda  c64.ESTACK_LO,x
-		stx  c64.SCRATCH_ZPREGX
-		tay
-		jsr  FREADUY
-		jmp  push_fac1_as_result
-		.pend
-
-stack_uw2float	.proc
-		; -- uw2float operating on the stack
-		inx
-		lda  c64.ESTACK_LO,x
-		ldy  c64.ESTACK_HI,x
-		stx  c64.SCRATCH_ZPREGX
-		jsr  GIVUAYFAY
-		jmp  push_fac1_as_result
-		.pend
-
-stack_float2w	.proc               ; also used for float2b
-		jsr  pop_float_fac1
-		stx  c64.SCRATCH_ZPREGX
-		jsr  AYINT
-		ldx  c64.SCRATCH_ZPREGX
-		lda  $64
-		sta  c64.ESTACK_HI,x
-		lda  $65
-		sta  c64.ESTACK_LO,x
-		dex
-		rts
-		.pend
-
-stack_float2uw	.proc               ; also used for float2ub
-		jsr  pop_float_fac1
-		stx  c64.SCRATCH_ZPREGX
-		jsr  GETADR
-		ldx  c64.SCRATCH_ZPREGX
-		sta  c64.ESTACK_HI,x
-		tya
-		sta  c64.ESTACK_LO,x
-		dex
-		rts
-		.pend
-
-push_float	.proc
-		; ---- push mflpt5 in A/Y onto stack
-		; (taking 3 stack positions = 6 bytes of which 1 is padding)
-		sta  c64.SCRATCH_ZPWORD1
-		sty  c64.SCRATCH_ZPWORD1+1
-		ldy  #0
-		lda  (c64.SCRATCH_ZPWORD1),y
-		sta  c64.ESTACK_LO,x
-		iny
-		lda  (c64.SCRATCH_ZPWORD1),y
-		sta  c64.ESTACK_HI,x
-		dex
-		iny
-		lda  (c64.SCRATCH_ZPWORD1),y
-		sta  c64.ESTACK_LO,x
-		iny
-		lda  (c64.SCRATCH_ZPWORD1),y
-		sta  c64.ESTACK_HI,x
-		dex
-		iny
-		lda  (c64.SCRATCH_ZPWORD1),y
-		sta  c64.ESTACK_LO,x
-		dex
-		rts
-		.pend
-
-func_rndf	.proc
-		; -- put a random floating point value on the stack
-		stx  c64.SCRATCH_ZPREG
-		lda  #1
-		jsr  FREADSA
-		jsr  RND		; rng into fac1
-		ldx  #<_rndf_rnum5
-		ldy  #>_rndf_rnum5
-		jsr  MOVMF	; fac1 to mem X/Y
-		ldx  c64.SCRATCH_ZPREG
-		lda  #<_rndf_rnum5
-		ldy  #>_rndf_rnum5
-		jmp  push_float
-_rndf_rnum5	.byte  0,0,0,0,0
-		.pend
-
-push_float_from_indexed_var	.proc
-		; -- push the float from the array at A/Y with index on stack, onto the stack.
-		sta  c64.SCRATCH_ZPWORD1
-		sty  c64.SCRATCH_ZPWORD1+1
-		jsr  prog8_lib.pop_index_times_5
-		jsr  prog8_lib.add_a_to_zpword
-		lda  c64.SCRATCH_ZPWORD1
-		ldy  c64.SCRATCH_ZPWORD1+1
-		jmp  push_float
-		.pend
-
-pop_float	.proc
-		; ---- pops mflpt5 from stack to memory A/Y
-		; (frees 3 stack positions = 6 bytes of which 1 is padding)
-		sta  c64.SCRATCH_ZPWORD1
-		sty  c64.SCRATCH_ZPWORD1+1
-		ldy  #4
-		inx
-		lda  c64.ESTACK_LO,x
-		sta  (c64.SCRATCH_ZPWORD1),y
-		dey
-		inx
-		lda  c64.ESTACK_HI,x
-		sta  (c64.SCRATCH_ZPWORD1),y
-		dey
-		lda  c64.ESTACK_LO,x
-		sta  (c64.SCRATCH_ZPWORD1),y
-		dey
-		inx
-		lda  c64.ESTACK_HI,x
-		sta  (c64.SCRATCH_ZPWORD1),y
-		dey
-		lda  c64.ESTACK_LO,x
-		sta  (c64.SCRATCH_ZPWORD1),y
-		rts
-		.pend
-
-pop_float_fac1	.proc
-		; -- pops float from stack into FAC1
-		lda  #<fmath_float1
-		ldy  #>fmath_float1
-		jsr  pop_float
-		lda  #<fmath_float1
-		ldy  #>fmath_float1
-		jmp  MOVFM
-		.pend
-
-pop_float_to_indexed_var	.proc
-		; -- pop the float on the stack, to the memory in the array at A/Y indexed by the byte on stack
-		sta  c64.SCRATCH_ZPWORD1
-		sty  c64.SCRATCH_ZPWORD1+1
-		jsr  prog8_lib.pop_index_times_5
-		jsr  prog8_lib.add_a_to_zpword
-		lda  c64.SCRATCH_ZPWORD1
-		ldy  c64.SCRATCH_ZPWORD1+1
-		jmp  pop_float
-		.pend
-
-copy_float	.proc
-		; -- copies the 5 bytes of the mflt value pointed to by SCRATCH_ZPWORD1,
-		;    into the 5 bytes pointed to by A/Y.  Clobbers A,Y.
-		sta  c64.SCRATCH_ZPWORD2
-		sty  c64.SCRATCH_ZPWORD2+1
-		ldy  #0
-		lda  (c64.SCRATCH_ZPWORD1),y
-		sta  (c64.SCRATCH_ZPWORD2),y
-		iny
-		lda  (c64.SCRATCH_ZPWORD1),y
-		sta  (c64.SCRATCH_ZPWORD2),y
-		iny
-		lda  (c64.SCRATCH_ZPWORD1),y
-		sta  (c64.SCRATCH_ZPWORD2),y
-		iny
-		lda  (c64.SCRATCH_ZPWORD1),y
-		sta  (c64.SCRATCH_ZPWORD2),y
-		iny
-		lda  (c64.SCRATCH_ZPWORD1),y
-		sta  (c64.SCRATCH_ZPWORD2),y
-		rts
-		.pend
-
-inc_var_f	.proc
-		; -- add 1 to float pointed to by A/Y
-		sta  c64.SCRATCH_ZPWORD1
-		sty  c64.SCRATCH_ZPWORD1+1
-		stx  c64.SCRATCH_ZPREGX
-		jsr  MOVFM
-		lda  #<FL_FONE
-		ldy  #>FL_FONE
-		jsr  FADD
-		ldx  c64.SCRATCH_ZPWORD1
-		ldy  c64.SCRATCH_ZPWORD1+1
-		jsr  MOVMF
-		ldx  c64.SCRATCH_ZPREGX
-		rts
-		.pend
-
-dec_var_f	.proc
-		; -- subtract 1 from float pointed to by A/Y
-		sta  c64.SCRATCH_ZPWORD1
-		sty  c64.SCRATCH_ZPWORD1+1
-		stx  c64.SCRATCH_ZPREGX
-		lda  #<FL_FONE
-		ldy  #>FL_FONE
-		jsr  MOVFM
-		lda  c64.SCRATCH_ZPWORD1
-		ldy  c64.SCRATCH_ZPWORD1+1
-		jsr  FSUB
-		ldx  c64.SCRATCH_ZPWORD1
-		ldy  c64.SCRATCH_ZPWORD1+1
-		jsr  MOVMF
-		ldx  c64.SCRATCH_ZPREGX
-		rts
-		.pend
-
-inc_indexed_var_f	.proc
-		; -- add 1 to float in array pointed to by A/Y, at index X
-		pha
-		txa
-		sta  c64.SCRATCH_ZPB1
-		asl  a
-		asl  a
-		clc
-		adc  c64.SCRATCH_ZPB1
-		sta  c64.SCRATCH_ZPB1
-		pla
-		clc
-		adc  c64.SCRATCH_ZPB1
-		bcc  +
-		iny
-+		jmp  inc_var_f
-		.pend
-
-dec_indexed_var_f	.proc
-		; -- subtract 1 to float in array pointed to by A/Y, at index X
-		pha
-		txa
-		sta  c64.SCRATCH_ZPB1
-		asl  a
-		asl  a
-		clc
-		adc  c64.SCRATCH_ZPB1
-		sta  c64.SCRATCH_ZPB1
-		pla
-		clc
-		adc  c64.SCRATCH_ZPB1
-		bcc  +
-		iny
-+		jmp  dec_var_f
-		.pend
-
-
-pop_2_floats_f2_in_fac1	.proc
-		; -- pop 2 floats from stack, load the second one in FAC1 as well
-		lda  #<fmath_float2
-		ldy  #>fmath_float2
-		jsr  pop_float
-		lda  #<fmath_float1
-		ldy  #>fmath_float1
-		jsr  pop_float
-		lda  #<fmath_float2
-		ldy  #>fmath_float2
-		jmp  MOVFM
-		.pend
-
-
-fmath_float1	.byte 0,0,0,0,0	; storage for a mflpt5 value
-fmath_float2	.byte 0,0,0,0,0	; storage for a mflpt5 value
-
-push_fac1_as_result	.proc
-		; -- push the float in FAC1 onto the stack, and return from calculation
-		ldx  #<fmath_float1
-		ldy  #>fmath_float1
-		jsr  MOVMF
-		lda  #<fmath_float1
-		ldy  #>fmath_float1
-		ldx  c64.SCRATCH_ZPREGX
-		jmp  push_float
-		.pend
-
-pow_f		.proc
-		; -- push f1 ** f2 on stack
-		lda  #<fmath_float2
-		ldy  #>fmath_float2
-		jsr  pop_float
-		lda  #<fmath_float1
-		ldy  #>fmath_float1
-		jsr  pop_float
-		stx  c64.SCRATCH_ZPREGX
-		lda  #<fmath_float1
-		ldy  #>fmath_float1
-		jsr  CONUPK		; fac2 = float1
-		lda  #<fmath_float2
-		ldy  #>fmath_float2
-		jsr  FPWR
-		ldx  c64.SCRATCH_ZPREGX
-		jmp  push_fac1_as_result
-		.pend
-
-div_f		.proc
-		; -- push f1/f2 on stack
-		jsr  pop_2_floats_f2_in_fac1
-		stx  c64.SCRATCH_ZPREGX
-		lda  #<fmath_float1
-		ldy  #>fmath_float1
-		jsr  FDIV
-		jmp  push_fac1_as_result
-		.pend
-
-add_f		.proc
-		; -- push f1+f2 on stack
-		jsr  pop_2_floats_f2_in_fac1
-		stx  c64.SCRATCH_ZPREGX
-		lda  #<fmath_float1
-		ldy  #>fmath_float1
-		jsr  FADD
-		jmp  push_fac1_as_result
-		.pend
-
-sub_f		.proc
-		; -- push f1-f2 on stack
-		jsr  pop_2_floats_f2_in_fac1
-		stx  c64.SCRATCH_ZPREGX
-		lda  #<fmath_float1
-		ldy  #>fmath_float1
-		jsr  FSUB
-		jmp  push_fac1_as_result
-		.pend
-
-mul_f		.proc
-		; -- push f1*f2 on stack
-		jsr  pop_2_floats_f2_in_fac1
-		stx  c64.SCRATCH_ZPREGX
-		lda  #<fmath_float1
-		ldy  #>fmath_float1
-		jsr  FMULT
-		jmp  push_fac1_as_result
-		.pend
-
-neg_f		.proc
-		; -- push -flt back on stack
-		jsr  pop_float_fac1
-		stx  c64.SCRATCH_ZPREGX
-		jsr  NEGOP
-		jmp  push_fac1_as_result
-		.pend
-
-abs_f		.proc
-		; -- push abs(float) on stack (as float)
-		jsr  pop_float_fac1
-		stx  c64.SCRATCH_ZPREGX
-		jsr  ABS
-		jmp  push_fac1_as_result
-		.pend
-
-equal_f		.proc
-		; -- are the two mflpt5 numbers on the stack identical?
-		inx
-		inx
-		inx
-		inx
-		lda  c64.ESTACK_LO-3,x
-		cmp  c64.ESTACK_LO,x
-		bne  _equals_false
-		lda  c64.ESTACK_LO-2,x
-		cmp  c64.ESTACK_LO+1,x
-		bne  _equals_false
-		lda  c64.ESTACK_LO-1,x
-		cmp  c64.ESTACK_LO+2,x
-		bne  _equals_false
-		lda  c64.ESTACK_HI-2,x
-		cmp  c64.ESTACK_HI+1,x
-		bne  _equals_false
-		lda  c64.ESTACK_HI-1,x
-		cmp  c64.ESTACK_HI+2,x
-		bne  _equals_false
-_equals_true	lda  #1
-_equals_store	inx
-		sta  c64.ESTACK_LO+1,x
-		rts
-_equals_false	lda  #0
-		beq  _equals_store
-		.pend
-
-notequal_f	.proc
-		; -- are the two mflpt5 numbers on the stack different?
-		jsr  equal_f
-		eor  #1		; invert the result
-		sta  c64.ESTACK_LO+1,x
-		rts
-		.pend
-
-less_f		.proc
-		; -- is f1 < f2?
-		jsr  compare_floats
-		cmp  #255
-		beq  compare_floats._return_true
-		bne  compare_floats._return_false
-		.pend
-
-
-lesseq_f	.proc
-		; -- is f1 <= f2?
-		jsr  compare_floats
-		cmp  #255
-		beq  compare_floats._return_true
-		cmp  #0
-		beq  compare_floats._return_true
-		bne  compare_floats._return_false
-		.pend
-
-greater_f	.proc
-		; -- is f1 > f2?
-		jsr  compare_floats
-		cmp  #1
-		beq  compare_floats._return_true
-		bne  compare_floats._return_false
-		.pend
-
-greatereq_f	.proc
-		; -- is f1 >= f2?
-		jsr  compare_floats
-		cmp  #1
-		beq  compare_floats._return_true
-		cmp  #0
-		beq  compare_floats._return_true
-		bne  compare_floats._return_false
-		.pend
-
-compare_floats	.proc
-		lda  #<fmath_float2
-		ldy  #>fmath_float2
-		jsr  pop_float
-		lda  #<fmath_float1
-		ldy  #>fmath_float1
-		jsr  pop_float
-		lda  #<fmath_float1
-		ldy  #>fmath_float1
-		jsr  MOVFM		; fac1 = flt1
-		lda  #<fmath_float2
-		ldy  #>fmath_float2
-		stx  c64.SCRATCH_ZPREG
-		jsr  FCOMP		; A = flt1 compared with flt2 (0=equal, 1=flt1>flt2, 255=flt1<flt2)
-		ldx  c64.SCRATCH_ZPREG
-		rts
-_return_false	lda  #0
-_return_result  sta  c64.ESTACK_LO,x
-		dex
-		rts
-_return_true	lda  #1
-		bne  _return_result
-		.pend
-
-func_sin	.proc
-		; -- push sin(f) back onto stack
-		jsr  pop_float_fac1
-		stx  c64.SCRATCH_ZPREGX
-		jsr  SIN
-		jmp  push_fac1_as_result
-		.pend
-
-func_cos	.proc
-		; -- push cos(f) back onto stack
-		jsr  pop_float_fac1
-		stx  c64.SCRATCH_ZPREGX
-		jsr  COS
-		jmp  push_fac1_as_result
-		.pend
-
-func_tan	.proc
-		; -- push tan(f) back onto stack
-		jsr  pop_float_fac1
-		stx  c64.SCRATCH_ZPREGX
-		jsr  TAN
-		jmp  push_fac1_as_result
-		.pend
-
-func_atan	.proc
-		; -- push atan(f) back onto stack
-		jsr  pop_float_fac1
-		stx  c64.SCRATCH_ZPREGX
-		jsr  ATN
-		jmp  push_fac1_as_result
-		.pend
-
-func_ln		.proc
-		; -- push ln(f) back onto stack
-		jsr  pop_float_fac1
-		stx  c64.SCRATCH_ZPREGX
-		jsr  LOG
-		jmp  push_fac1_as_result
-		.pend
-
-func_log2	.proc
-		; -- push log base 2, ln(f)/ln(2), back onto stack
-		jsr  pop_float_fac1
-		stx  c64.SCRATCH_ZPREGX
-		jsr  LOG
-		jsr  MOVEF
-		lda  #<c64.FL_LOG2
-		ldy  #>c64.FL_LOG2
-		jsr  MOVFM
-		jsr  FDIVT
-		jmp  push_fac1_as_result
-		.pend
-
-func_sqrt	.proc
-		jsr  pop_float_fac1
-		stx  c64.SCRATCH_ZPREGX
-		jsr  SQR
-		jmp  push_fac1_as_result
-		.pend
-
-func_rad	.proc
-		; -- convert degrees to radians (d * pi / 180)
-		jsr  pop_float_fac1
-		stx  c64.SCRATCH_ZPREGX
-		lda  #<_pi_div_180
-		ldy  #>_pi_div_180
-		jsr  FMULT
-		jmp  push_fac1_as_result
-_pi_div_180	.byte 123, 14, 250, 53, 18		; pi / 180
-		.pend
-
-func_deg	.proc
-		; -- convert radians to degrees (d * (1/ pi * 180))
-		jsr  pop_float_fac1
-		stx  c64.SCRATCH_ZPREGX
-		lda  #<_one_over_pi_div_180
-		ldy  #>_one_over_pi_div_180
-		jsr  FMULT
-		jmp  push_fac1_as_result
-_one_over_pi_div_180	.byte 134, 101, 46, 224, 211		; 1 / (pi * 180)
-		.pend
-
-func_round	.proc
-		jsr  pop_float_fac1
-		stx  c64.SCRATCH_ZPREGX
-		jsr  FADDH
-		jsr  INT
-		jmp  push_fac1_as_result
-		.pend
-
-func_floor	.proc
-		jsr  pop_float_fac1
-		stx  c64.SCRATCH_ZPREGX
-		jsr  INT
-		jmp  push_fac1_as_result
-		.pend
-
-func_ceil	.proc
-		; -- ceil: tr = int(f); if tr==f -> return  else return tr+1
-		jsr  pop_float_fac1
-		stx  c64.SCRATCH_ZPREGX
-		ldx  #<fmath_float1
-		ldy  #>fmath_float1
-		jsr  MOVMF
-		jsr  INT
-		lda  #<fmath_float1
-		ldy  #>fmath_float1
-		jsr  FCOMP
-		cmp  #0
-		beq  +
-		lda  #<FL_FONE
-		ldy  #>FL_FONE
-		jsr  FADD
-+		jmp  push_fac1_as_result
-		.pend
-
-func_any_f	.proc
-		inx
-		lda  c64.ESTACK_LO,x	; array size
-		sta  c64.SCRATCH_ZPB1
-		asl  a
-		asl  a
-		clc
-		adc  c64.SCRATCH_ZPB1	; times 5 because of float
-		jmp  prog8_lib.func_any_b._entry
-		.pend
-
-func_all_f	.proc
-		inx
-		jsr  prog8_lib.peek_address
-		lda  c64.ESTACK_LO,x	; array size
-		sta  c64.SCRATCH_ZPB1
-		asl  a
-		asl  a
-		clc
-		adc  c64.SCRATCH_ZPB1	; times 5 because of float
-		tay
-		dey
--		lda  (c64.SCRATCH_ZPWORD1),y
-		clc
-		dey
-		adc  (c64.SCRATCH_ZPWORD1),y
-		dey
-		adc  (c64.SCRATCH_ZPWORD1),y
-		dey
-		adc  (c64.SCRATCH_ZPWORD1),y
-		dey
-		adc  (c64.SCRATCH_ZPWORD1),y
-		dey
-		cmp  #0
-		beq  +
-		cpy  #255
-        	bne  -
-		lda  #1
-		sta  c64.ESTACK_LO+1,x
-		rts
-+		sta  c64.ESTACK_LO+1,x
-		rts
-		.pend
-
-func_max_f	.proc
-		lda  #255
-		sta  _minmax_cmp+1
-		lda  #<_largest_neg_float
-		ldy  #>_largest_neg_float
-_minmax_entry	jsr  MOVFM
-		jsr  prog8_lib.pop_array_and_lengthmin1Y
-		stx  c64.SCRATCH_ZPREGX
--		sty  c64.SCRATCH_ZPREG
-		lda  c64.SCRATCH_ZPWORD1
-		ldy  c64.SCRATCH_ZPWORD1+1
-		jsr  FCOMP
-_minmax_cmp	cmp  #255			; modified
-		bne  +
-		lda  c64.SCRATCH_ZPWORD1
-		ldy  c64.SCRATCH_ZPWORD1+1
-		jsr  MOVFM
-+		lda  c64.SCRATCH_ZPWORD1
-		clc
-		adc  #5
-		sta  c64.SCRATCH_ZPWORD1
-		bcc  +
-		inc  c64.SCRATCH_ZPWORD1+1
-+		ldy  c64.SCRATCH_ZPREG
-		dey
-		cpy  #255
-		bne  -
-		jmp  push_fac1_as_result
-_largest_neg_float	.byte 255,255,255,255,255		; largest negative float -1.7014118345e+38
-		.pend
-
-func_min_f	.proc
-		lda  #1
-		sta  func_max_f._minmax_cmp+1
-		lda  #<_largest_pos_float
-		ldy  #>_largest_pos_float
-		jmp  func_max_f._minmax_entry
-_largest_pos_float	.byte  255,127,255,255,255		; largest positive float
-		rts
-		.pend
-
-func_sum_f	.proc
-		lda  #<FL_ZERO
-		ldy  #>FL_ZERO
-		jsr  MOVFM
-		jsr  prog8_lib.pop_array_and_lengthmin1Y
-		stx  c64.SCRATCH_ZPREGX
--		sty  c64.SCRATCH_ZPREG
-		lda  c64.SCRATCH_ZPWORD1
-		ldy  c64.SCRATCH_ZPWORD1+1
-		jsr  FADD
-		ldy  c64.SCRATCH_ZPREG
-		dey
-		cpy  #255
-		beq  +
-		lda  c64.SCRATCH_ZPWORD1
-		clc
-		adc  #5
-		sta  c64.SCRATCH_ZPWORD1
-		bcc  -
-		inc  c64.SCRATCH_ZPWORD1+1
-		bne  -
-+		jmp  push_fac1_as_result
-		.pend
-
-sign_f		.proc
-		jsr  pop_float_fac1
-		jsr  SIGN
-		sta  c64.ESTACK_LO,x
-		dex
-		rts
-		.pend
-
-
-set_0_array_float	.proc
-		; -- set a float in an array to zero (index on stack, array in SCRATCH_ZPWORD1)
-		inx
-		lda  c64.ESTACK_LO,x
-		asl  a
-		asl  a
-		clc
-		adc  c64.ESTACK_LO,x
-		tay
-		lda  #0
-		sta  (c64.SCRATCH_ZPWORD1),y
-		iny
-		sta  (c64.SCRATCH_ZPWORD1),y
-		iny
-		sta  (c64.SCRATCH_ZPWORD1),y
-		iny
-		sta  (c64.SCRATCH_ZPWORD1),y
-		iny
-		sta  (c64.SCRATCH_ZPWORD1),y
-		rts
-		.pend
-
-
-set_array_float		.proc
-		; -- set a float in an array to a value (index on stack, float in SCRATCH_ZPWORD1, array in SCRATCH_ZPWORD2)
-		inx
-		lda  c64.ESTACK_LO,x
-		asl  a
-		asl  a
-		clc
-		adc  c64.ESTACK_LO,x
-		clc
-		adc  c64.SCRATCH_ZPWORD2
-		ldy  c64.SCRATCH_ZPWORD2+1
-		bcc  +
-		iny
-+		jmp  copy_float
-			; -- copies the 5 bytes of the mflt value pointed to by SCRATCH_ZPWORD1,
-			;    into the 5 bytes pointed to by A/Y.  Clobbers A,Y.
-		.pend
-
-
-swap_floats	.proc
-		; -- swap floats pointed to by SCRATCH_ZPWORD1, SCRATCH_ZPWORD2
-		ldy  #4
--               lda  (c64.SCRATCH_ZPWORD1),y
-		pha
-		lda  (c64.SCRATCH_ZPWORD2),y
-		sta  (c64.SCRATCH_ZPWORD1),y
-		pla
-		sta  (c64.SCRATCH_ZPWORD2),y
-		dey
-		bpl  -
-		rts
-		.pend

compiler/res/prog8lib/conv.p8

@@ -0,0 +1,453 @@
+; Prog8 definitions for number conversions routines.
+;
+; Written by Irmen de Jong (irmen@razorvine.net) - license: GNU GPL 3.0
+;
+; indent format: TABS, size=8
+
+
+conv {
+
+; ----- number conversions to decimal strings
+
+asmsub  ubyte2decimal  (ubyte value @ A) -> ubyte @ Y, ubyte @ A, ubyte @ X  {
+	; ---- A to decimal string in Y/A/X  (100s in Y, 10s in A, 1s in X)
+    %asm {{
+        ldy  #uword2decimal.ASCII_0_OFFSET
+        bne  uword2decimal.hex_try200
+        rts
+	}}
+}
+
+asmsub  uword2decimal  (uword value @ AY) -> ubyte @Y, ubyte @A, ubyte @X  {
+    ;  ---- convert 16 bit uword in A/Y to decimal
+    ;  output in uword2decimal.decTenThousands, decThousands, decHundreds, decTens, decOnes
+    ;  (these are terminated by a zero byte so they can be easily printed)
+    ;  also returns Y = 100's, A = 10's, X = 1's
+
+    %asm {{
+
+;Convert 16 bit Hex to Decimal (0-65535) Rev 2
+;By Omegamatrix    Further optimizations by tepples
+; routine from http://forums.nesdev.com/viewtopic.php?f=2&t=11341&start=15
+
+;HexToDec99
+; start in A
+; end with A = 10's, decOnes (also in X)
+
+;HexToDec255
+; start in A
+; end with Y = 100's, A = 10's, decOnes (also in X)
+
+;HexToDec999
+; start with A = high byte, Y = low byte
+; end with Y = 100's, A = 10's, decOnes (also in X)
+; requires 1 extra temp register on top of decOnes, could combine
+; these two if HexToDec65535 was eliminated...
+
+;HexToDec65535
+; start with A/Y (low/high) as 16 bit value
+; end with decTenThousand, decThousand, Y = 100's, A = 10's, decOnes (also in X)
+; (irmen: I store Y and A in decHundreds and decTens too, so all of it can be easily printed)
+
+
+ASCII_0_OFFSET 	= $30
+temp       	    = P8ZP_SCRATCH_B1	; byte in zeropage
+hexHigh      	= P8ZP_SCRATCH_W1	; byte in zeropage
+hexLow       	= P8ZP_SCRATCH_W1+1	; byte in zeropage
+
+
+HexToDec65535; SUBROUTINE
+    sty    hexHigh               ;3  @9
+    sta    hexLow                ;3  @12
+    tya
+    tax                          ;2  @14
+    lsr    a                     ;2  @16
+    lsr    a                     ;2  @18   integer divide 1024 (result 0-63)
+
+    cpx    #$A7                  ;2  @20   account for overflow of multiplying 24 from 43,000 ($A7F8) onward,
+    adc    #1                    ;2  @22   we can just round it to $A700, and the divide by 1024 is fine...
+
+    ;at this point we have a number 1-65 that we have to times by 24,
+    ;add to original sum, and Mod 1024 to get a remainder 0-999
+
+
+    sta    temp                  ;3  @25
+    asl    a                     ;2  @27
+    adc    temp                  ;3  @30  x3
+    tay                          ;2  @32
+    lsr    a                     ;2  @34
+    lsr    a                     ;2  @36
+    lsr    a                     ;2  @38
+    lsr    a                     ;2  @40
+    lsr    a                     ;2  @42
+    tax                          ;2  @44
+    tya                          ;2  @46
+    asl    a                     ;2  @48
+    asl    a                     ;2  @50
+    asl    a                     ;2  @52
+    clc                          ;2  @54
+    adc    hexLow                ;3  @57
+    sta    hexLow                ;3  @60
+    txa                          ;2  @62
+    adc    hexHigh               ;3  @65
+    sta    hexHigh               ;3  @68
+    ror    a                     ;2  @70
+    lsr    a                     ;2  @72
+    tay                          ;2  @74    integer divide 1,000 (result 0-65)
+
+    lsr    a                     ;2  @76    split the 1,000 and 10,000 digit
+    tax                          ;2  @78
+    lda    ShiftedBcdTab,x       ;4  @82
+    tax                          ;2  @84
+    rol    a                     ;2  @86
+    and    #$0F                  ;2  @88
+    ora    #ASCII_0_OFFSET
+    sta    decThousands          ;3  @91
+    txa                          ;2  @93
+    lsr    a                     ;2  @95
+    lsr    a                     ;2  @97
+    lsr    a                     ;2  @99
+    ora    #ASCII_0_OFFSET
+    sta    decTenThousands       ;3  @102
+
+    lda    hexLow                ;3  @105
+    cpy    temp                  ;3  @108
+    bmi    _doSubtract           ;2³ @110/111
+    beq    _useZero               ;2³ @112/113
+    adc    #23 + 24              ;2  @114
+_doSubtract
+    sbc    #23                   ;2  @116
+    sta    hexLow                ;3  @119
+_useZero
+    lda    hexHigh               ;3  @122
+    sbc    #0                    ;2  @124
+
+Start100s
+    and    #$03                  ;2  @126
+    tax                          ;2  @128   0,1,2,3
+    cmp    #2                    ;2  @130
+    rol    a                     ;2  @132   0,2,5,7
+    ora    #ASCII_0_OFFSET
+    tay                          ;2  @134   Y = Hundreds digit
+
+    lda    hexLow                ;3  @137
+    adc    Mod100Tab,x           ;4  @141    adding remainder of 256, 512, and 256+512 (all mod 100)
+    bcs    hex_doSub200             ;2³ @143/144
+
+hex_try200
+    cmp    #200                  ;2  @145
+    bcc    hex_try100               ;2³ @147/148
+hex_doSub200
+    iny                          ;2  @149
+    iny                          ;2  @151
+    sbc    #200                  ;2  @153
+hex_try100
+    cmp    #100                  ;2  @155
+    bcc    HexToDec99            ;2³ @157/158
+    iny                          ;2  @159
+    sbc    #100                  ;2  @161
+
+HexToDec99; SUBROUTINE
+    lsr    a                     ;2  @163
+    tax                          ;2  @165
+    lda    ShiftedBcdTab,x       ;4  @169
+    tax                          ;2  @171
+    rol    a                     ;2  @173
+    and    #$0F                  ;2  @175
+    ora    #ASCII_0_OFFSET
+    sta    decOnes               ;3  @178
+    txa                          ;2  @180
+    lsr    a                     ;2  @182
+    lsr    a                     ;2  @184
+    lsr    a                     ;2  @186
+    ora    #ASCII_0_OFFSET
+
+    ; irmen: load X with ones, and store Y and A too, for easy printing afterwards
+    sty  decHundreds
+    sta  decTens
+    ldx  decOnes
+    rts                          ;6  @192   Y=hundreds, A = tens digit, X=ones digit
+
+
+HexToDec999; SUBROUTINE
+    sty    hexLow                ;3  @9
+    jmp    Start100s             ;3  @12
+
+Mod100Tab
+    .byte 0,56,12,56+12
+
+ShiftedBcdTab
+    .byte $00,$01,$02,$03,$04,$08,$09,$0A,$0B,$0C
+    .byte $10,$11,$12,$13,$14,$18,$19,$1A,$1B,$1C
+    .byte $20,$21,$22,$23,$24,$28,$29,$2A,$2B,$2C
+    .byte $30,$31,$32,$33,$34,$38,$39,$3A,$3B,$3C
+    .byte $40,$41,$42,$43,$44,$48,$49,$4A,$4B,$4C
+
+decTenThousands   	.byte  0
+decThousands    	.byte  0
+decHundreds		.byte  0
+decTens			.byte  0
+decOnes   		.byte  0
+			.byte  0		; zero-terminate the decimal output string
+
+    }}
+}
+
+
+; ----- utility functions ----
+
+
+asmsub  byte2decimal  (byte value @ A) -> ubyte @ Y, ubyte @ A, ubyte @ X  {
+	; ---- A (signed byte) to decimal string in Y/A/X  (100s in Y, 10s in A, 1s in X)
+	;      note: if the number is negative, you have to deal with the '-' yourself!
+	%asm {{
+		cmp  #0
+		bpl  +
+		eor  #255
+		clc
+		adc  #1
++		jmp  ubyte2decimal
+	}}
+}
+
+asmsub  ubyte2hex  (ubyte value @ A) -> ubyte @ A, ubyte @ Y  {
+	; ---- A to hex petscii string in AY (first hex char in A, second hex char in Y)
+	%asm {{
+		stx  P8ZP_SCRATCH_REG
+		pha
+		and  #$0f
+		tax
+		ldy  _hex_digits,x
+		pla
+		lsr  a
+		lsr  a
+		lsr  a
+		lsr  a
+		tax
+		lda  _hex_digits,x
+		ldx  P8ZP_SCRATCH_REG
+		rts
+
+_hex_digits	.text "0123456789abcdef"	; can probably be reused for other stuff as well
+	}}
+}
+
+asmsub  uword2hex  (uword value @ AY) clobbers(A,Y)  {
+	; ---- convert 16 bit uword in A/Y into 4-character hexadecimal string 'uword2hex.output' (0-terminated)
+	%asm {{
+		sta  P8ZP_SCRATCH_REG
+		tya
+		jsr  ubyte2hex
+		sta  output
+		sty  output+1
+		lda  P8ZP_SCRATCH_REG
+		jsr  ubyte2hex
+		sta  output+2
+		sty  output+3
+		rts
+output	.text  "0000", $00      ; 0-terminated output buffer (to make printing easier)
+	}}
+}
+
+
+asmsub  str2ubyte(str string @ AY) clobbers(Y) -> ubyte @A {
+	; -- returns the unsigned byte value of the string number argument in AY
+	;    the number may NOT be preceded by a + sign and may NOT contain spaces
+	;    (any non-digit character will terminate the number string that is parsed)
+	%asm {{
+    	jmp  str2uword
+	}}
+}
+
+asmsub  str2byte(str string @ AY) clobbers(Y) -> ubyte @A {
+	; -- returns the signed byte value of the string number argument in AY
+	;    the number may be preceded by a + or - sign but may NOT contain spaces
+	;    (any non-digit character will terminate the number string that is parsed)
+	%asm {{
+    	jmp  str2word
+	}}
+}
+
+asmsub  str2uword(str string @ AY) -> uword @ AY {
+	; -- returns the unsigned word value of the string number argument in AY
+	;    the number may NOT be preceded by a + sign and may NOT contain spaces
+	;    (any non-digit character will terminate the number string that is parsed)
+	%asm {{
+_result = P8ZP_SCRATCH_W2
+		sta  _mod+1
+		sty  _mod+2
+		ldy  #0
+		sty  _result
+		sty  _result+1
+_mod		lda  $ffff,y		; modified
+		sec
+		sbc  #48
+		bpl  +
+_done		; return result
+		lda  _result
+		ldy  _result+1
+		rts
++		cmp  #10
+		bcs  _done
+		; add digit to result
+		pha
+		jsr  _result_times_10
+		pla
+		clc
+		adc  _result
+		sta  _result
+		bcc  +
+		inc  _result+1
++		iny
+		bne  _mod
+		; never reached
+
+_result_times_10     ; (W*4 + W)*2
+		lda  _result+1
+		sta  P8ZP_SCRATCH_REG
+		lda  _result
+		asl  a
+		rol  P8ZP_SCRATCH_REG
+		asl  a
+		rol  P8ZP_SCRATCH_REG
+		clc
+		adc  _result
+		sta  _result
+		lda  P8ZP_SCRATCH_REG
+		adc  _result+1
+		asl  _result
+		rol  a
+		sta  _result+1
+		rts
+	}}
+}
+
+asmsub  str2word(str string @ AY) -> word @ AY {
+	; -- returns the signed word value of the string number argument in AY
+	;    the number may be preceded by a + or - sign but may NOT contain spaces
+	;    (any non-digit character will terminate the number string that is parsed)
+	%asm {{
+_result = P8ZP_SCRATCH_W2
+		sta  P8ZP_SCRATCH_W1
+		sty  P8ZP_SCRATCH_W1+1
+		ldy  #0
+		sty  _result
+		sty  _result+1
+		sty  _negative
+		lda  (P8ZP_SCRATCH_W1),y
+		cmp  #'+'
+		bne  +
+		iny
++		cmp  #'-'
+		bne  _parse
+		inc  _negative
+		iny
+_parse		lda  (P8ZP_SCRATCH_W1),y
+		sec
+		sbc  #48
+		bpl  _digit
+_done		; return result
+		lda  _negative
+		beq  +
+		sec
+		lda  #0
+		sbc  _result
+		sta  _result
+		lda  #0
+		sbc  _result+1
+		sta  _result+1
++		lda  _result
+		ldy  _result+1
+		rts
+_digit		cmp  #10
+		bcs  _done
+		; add digit to result
+		pha
+		jsr  str2uword._result_times_10
+		pla
+		clc
+		adc  _result
+		sta  _result
+		bcc  +
+		inc  _result+1
++		iny
+		bne  _parse
+		; never reached
+_negative	.byte  0
+	}}
+}
+
+asmsub  hex2uword(str string @ AY) -> uword @AY {
+    ; -- hexadecimal string with or without '$' to uword.
+    ;    string may be in petscii or c64-screencode encoding.
+    %asm {{
+        sta  P8ZP_SCRATCH_W2
+        sty  P8ZP_SCRATCH_W2+1
+        ldy  #0
+        sty  P8ZP_SCRATCH_W1
+        sty  P8ZP_SCRATCH_W1+1
+_loop       ldy  #0
+        sty  P8ZP_SCRATCH_B1
+        lda  (P8ZP_SCRATCH_W2),y
+        beq  _stop
+        cmp  #'$'
+        beq  _skip
+        cmp  #7
+        bcc  _add_nine
+        cmp  #'9'
+        beq  _calc
+        bcs  _add_nine
+_calc       asl  P8ZP_SCRATCH_W1
+        rol  P8ZP_SCRATCH_W1+1
+        asl  P8ZP_SCRATCH_W1
+        rol  P8ZP_SCRATCH_W1+1
+        asl  P8ZP_SCRATCH_W1
+        rol  P8ZP_SCRATCH_W1+1
+        asl  P8ZP_SCRATCH_W1
+        rol  P8ZP_SCRATCH_W1+1
+        and  #$0f
+        clc
+        adc  P8ZP_SCRATCH_B1
+        ora  P8ZP_SCRATCH_W1
+        sta  P8ZP_SCRATCH_W1
+_skip       inc  P8ZP_SCRATCH_W2
+        bne  _loop
+        inc  P8ZP_SCRATCH_W2+1
+        bne  _loop
+_stop       lda  P8ZP_SCRATCH_W1
+        ldy  P8ZP_SCRATCH_W1+1
+        rts
+_add_nine   ldy  #9
+        sty  P8ZP_SCRATCH_B1
+        bne  _calc
+    }}
+}
+
+asmsub  bin2uword(str string @ AY) -> uword @AY {
+    ; -- binary string with or without '%' to uword.
+    %asm {{
+        sta  P8ZP_SCRATCH_W2
+        sty  P8ZP_SCRATCH_W2+1
+        ldy  #0
+        sty  P8ZP_SCRATCH_W1
+        sty  P8ZP_SCRATCH_W1+1
+_loop       lda  (P8ZP_SCRATCH_W2),y
+        beq  _stop
+        cmp  #'%'
+        beq  +
+        asl  P8ZP_SCRATCH_W1
+        rol  P8ZP_SCRATCH_W1+1
+        and  #1
+        ora  P8ZP_SCRATCH_W1
+        sta  P8ZP_SCRATCH_W1
++           inc  P8ZP_SCRATCH_W2
+        bne  _loop
+        inc  P8ZP_SCRATCH_W2+1
+        bne  _loop
+_stop       lda  P8ZP_SCRATCH_W1
+        ldy  P8ZP_SCRATCH_W1+1
+        rts
+    }}
+}
+
+}

compiler/res/prog8lib/cx16/floats.p8

@@ -0,0 +1,154 @@
+; Prog8 definitions for floating point handling on the CommanderX16
+;
+; Written by Irmen de Jong (irmen@razorvine.net) - license: GNU GPL 3.0
+;
+; indent format: TABS, size=8
+
+%target cx16
+%option enable_floats
+
+floats {
+	; ---- this block contains C-64 floating point related functions ----
+
+        const float  PI     = 3.141592653589793
+        const float  TWOPI  = 6.283185307179586
+
+
+; ---- ROM float functions ----
+
+		; note: the fac1 and fac2 are working registers and take 6 bytes each,
+		; floats in memory  (and rom) are stored in 5-byte MFLPT packed format.
+
+; note: fac1/2 might get clobbered even if not mentioned in the function's name.
+; note: for subtraction and division, the left operand is in fac2, the right operand in fac1.
+
+romsub $fe00 = AYINT() clobbers(A,X,Y)          ; fac1-> signed word in 100-101 ($64-$65) MSB FIRST. (might throw ILLEGAL QUANTITY)
+
+; GIVAYF: signed word in Y/A (note different lsb/msb order) -> float in fac1
+; there is also floats.GIVUAYFAY - unsigned word in A/Y (lo/hi) to fac1
+; (tip: use GIVAYFAY to use A/Y input; lo/hi switched to normal order)
+romsub $fe03 = GIVAYF(ubyte lo @ Y, ubyte hi @ A) clobbers(A,X,Y)
+
+; fac1 -> unsigned word in Y/A (might throw ILLEGAL QUANTITY) (result also in $14/15)
+; (tip: use GETADRAY to get A/Y output; lo/hi switched to normal little endian order)
+romsub $fe06 = GETADR() clobbers(X) -> ubyte @ Y, ubyte @ A
+
+romsub $fe09 = FADDH() clobbers(A,X,Y)                      ; fac1 += 0.5, for rounding- call this before INT
+romsub $fe0c = FSUB(uword mflpt @ AY) clobbers(A,X,Y)       ; fac1 = mflpt from A/Y - fac1
+romsub $fe0f = FSUBT() clobbers(A,X,Y)                      ; fac1 = fac2-fac1   mind the order of the operands
+romsub $fe12 = FADD(uword mflpt @ AY) clobbers(A,X,Y)       ; fac1 += mflpt value from A/Y
+romsub $fe15 = FADDT() clobbers(A,X,Y)                      ; fac1 += fac2
+romsub $fe1b = ZEROFC() clobbers(A,X,Y)                     ; fac1 = 0
+romsub $fe1e = NORMAL() clobbers(A,X,Y)                     ; normalize fac1 (?)
+romsub $fe24 = LOG() clobbers(A,X,Y)                        ; fac1 = LN(fac1)  (natural log)
+romsub $fe27 = FMULT(uword mflpt @ AY) clobbers(A,X,Y)      ; fac1 *= mflpt value from A/Y
+romsub $fe2a = FMULTT() clobbers(A,X,Y)                     ; fac1 *= fac2
+romsub $fe33 = CONUPK(uword mflpt @ AY) clobbers(A,Y)       ; load mflpt value from memory  in A/Y into fac2
+romsub $fe36 = MUL10() clobbers(A,X,Y)                      ; fac1 *= 10
+romsub $fe3c = DIV10() clobbers(A,X,Y)                      ; fac1 /= 10 , CAUTION: result is always positive!
+romsub $fe3f = FDIV(uword mflpt @ AY) clobbers(A,X,Y)       ; fac1 = mflpt in A/Y / fac1  (remainder in fac2)
+romsub $fe42 = FDIVT() clobbers(A,X,Y)                      ; fac1 = fac2/fac1  (remainder in fac2)  mind the order of the operands
+
+romsub $fe48 = MOVFM(uword mflpt @ AY) clobbers(A,Y)        ; load mflpt value from memory  in A/Y into fac1
+romsub $fe4b = MOVMF(uword mflpt @ XY) clobbers(A,Y)        ; store fac1 to memory  X/Y as 5-byte mflpt
+romsub $fe4e = MOVFA() clobbers(A,X)                        ; copy fac2 to fac1
+romsub $fe51 = MOVAF() clobbers(A,X)                        ; copy fac1 to fac2  (rounded)
+romsub $fe54 = MOVEF() clobbers(A,X)                        ; copy fac1 to fac2
+romsub $fe5a = SIGN() -> ubyte @ A                          ; SIGN(fac1) to A, $ff, $0, $1 for negative, zero, positive
+romsub $fe5d = SGN() clobbers(A,X,Y)                        ; fac1 = SGN(fac1), result of SIGN (-1, 0 or 1)
+romsub $fe60 = FREADSA(byte value @ A) clobbers(A,X,Y)      ; 8 bit signed A -> float in fac1
+romsub $fe6c = ABS()                                        ; fac1 = ABS(fac1)
+romsub $fe6f = FCOMP(uword mflpt @ AY) clobbers(X,Y) -> ubyte @ A   ; A = compare fac1 to mflpt in A/Y, 0=equal 1=fac1 is greater, 255=fac1 is less than
+romsub $fe78 = INT() clobbers(A,X,Y)                        ; INT() truncates, use FADDH first to round instead of trunc
+romsub $fe7e = FINLOG(byte value @A) clobbers (A, X, Y)           ; fac1 += signed byte in A
+romsub $fe81 = FOUT() clobbers(X) -> uword @ AY             ; fac1 -> string, address returned in AY
+romsub $fe8a = SQR() clobbers(A,X,Y)                        ; fac1 = SQRT(fac1)
+romsub $fe8d = FPWRT() clobbers(A,X,Y)                      ; fac1 = fac2 ** fac1
+romsub $fe93 = NEGOP() clobbers(A)                          ; switch the sign of fac1
+romsub $fe96 = EXP() clobbers(A,X,Y)                        ; fac1 = EXP(fac1)  (e ** fac1)
+romsub $fe9f = RND2(byte value @A) clobbers(A,X,Y)                ; fac1 = RND(A) float random number generator
+romsub $fea2 = RND() clobbers(A,X,Y)                        ; fac1 = RND(fac1) float random number generator
+romsub $fea5 = COS() clobbers(A,X,Y)                        ; fac1 = COS(fac1)
+romsub $fea8 = SIN() clobbers(A,X,Y)                        ; fac1 = SIN(fac1)
+romsub $feab = TAN() clobbers(A,X,Y)                        ; fac1 = TAN(fac1)
+romsub $feae = ATN() clobbers(A,X,Y)                        ; fac1 = ATN(fac1)
+
+
+asmsub  GIVUAYFAY  (uword value @ AY) clobbers(A,X,Y)  {
+	; ---- unsigned 16 bit word in A/Y (lo/hi) to fac1
+	%asm {{
+        phx
+        sta  P8ZP_SCRATCH_W2
+        sty  P8ZP_SCRATCH_B1
+        tya
+        ldy  P8ZP_SCRATCH_W2
+        jsr  GIVAYF                 ; load it as signed... correct afterwards
+        lda  P8ZP_SCRATCH_B1
+	    bpl  +
+	    lda  #<_flt65536
+	    ldy  #>_flt65536
+	    jsr  FADD
++	    plx
+        rts
+_flt65536    .byte 145,0,0,0,0       ; 65536.0
+	}}
+}
+
+
+asmsub  GIVAYFAY  (uword value @ AY) clobbers(A,X,Y)  {
+	; ---- signed 16 bit word in A/Y (lo/hi) to float in fac1
+	%asm {{
+		sta  P8ZP_SCRATCH_W2
+		tya
+		ldy  P8ZP_SCRATCH_W2
+		jmp  GIVAYF		; this uses the inverse order, Y/A
+	}}
+}
+
+asmsub  FTOSWRDAY  () clobbers(X) -> uword @ AY  {
+	; ---- fac1 to signed word in A/Y
+	%asm {{
+		jsr  FTOSWORDYA	; note the inverse Y/A order
+		sta  P8ZP_SCRATCH_REG
+		tya
+		ldy  P8ZP_SCRATCH_REG
+		rts
+	}}
+}
+
+asmsub  GETADRAY  () clobbers(X) -> uword @ AY  {
+	; ---- fac1 to unsigned word in A/Y
+	%asm {{
+		jsr  GETADR		; this uses the inverse order, Y/A
+		sta  P8ZP_SCRATCH_B1
+		tya
+		ldy  P8ZP_SCRATCH_B1
+		rts
+	}}
+}
+
+sub  print_f  (float value) {
+	; ---- prints the floating point value (without a newline).
+	%asm {{
+		phx
+		lda  #<value
+		ldy  #>value
+		jsr  MOVFM		; load float into fac1
+		jsr  FOUT		; fac1 to string in A/Y
+		sta  P8ZP_SCRATCH_W1
+		sty  P8ZP_SCRATCH_W1+1
+		ldy  #0
+-		lda  (P8ZP_SCRATCH_W1),y
+		beq  +
+		jsr  c64.CHROUT
+		iny
+		bne  -
++		plx
+		rts
+	}}
+}
+
+%asminclude "library:c64/floats.asm", ""
+%asminclude "library:c64/floats_funcs.asm", ""
+
+}

compiler/res/prog8lib/cx16/graphics.p8

@@ -0,0 +1,164 @@
+%target cx16
+%import syslib
+%import textio
+
+; bitmap pixel graphics module for the CommanderX16
+; wraps the graphics functions that are in ROM.
+; only black/white monchrome 320x200 for now.
+
+graphics {
+    const uword WIDTH = 320
+    const ubyte HEIGHT = 200
+
+    sub enable_bitmap_mode() {
+        ; enable bitmap screen, erase it and set colors to black/white.
+        void cx16.screen_set_mode($80)
+        cx16.r0 = 0
+        cx16.GRAPH_init()
+        clear_screen(1, 0)
+    }
+
+    sub disable_bitmap_mode() {
+        ; enables text mode, erase the text screen, color white
+        void cx16.screen_set_mode(2)
+        txt.fill_screen(' ', 1)     ; TODO doesn't seem to fully clear the text screen after returning from gfx mode
+    }
+
+
+    sub clear_screen(ubyte pixelcolor, ubyte bgcolor) {
+        cx16.GRAPH_set_colors(pixelcolor, pixelcolor, bgcolor)
+        cx16.GRAPH_clear()
+    }
+
+    sub line(uword @zp x1, ubyte @zp y1, uword @zp x2, ubyte @zp y2) {
+        cx16.r0 = x1
+        cx16.r1 = y1
+        cx16.r2 = x2
+        cx16.r3 = y2
+        cx16.GRAPH_draw_line()
+    }
+
+    sub circle(uword xcenter, ubyte ycenter, ubyte radius) {
+        ;cx16.r0 = xcenter - radius/2
+        ;cx16.r1 = ycenter - radius/2
+        ;cx16.r2 = radius*2
+        ;cx16.r3 = radius*2
+        ;cx16.GRAPH_draw_oval(false)          ; TODO  currently is not implemented on cx16, does a BRK
+
+        ; Midpoint algorithm
+        ubyte @zp xx = radius
+        ubyte @zp yy = 0
+        byte @zp decisionOver2 = 1-xx as byte
+
+        while xx>=yy {
+            cx16.r0 = xcenter + xx
+            cx16.r1 = ycenter + yy
+            cx16.FB_cursor_position()
+            cx16.FB_set_pixel(1)
+            cx16.r0 = xcenter - xx
+            cx16.FB_cursor_position()
+            cx16.FB_set_pixel(1)
+            cx16.r0 = xcenter + xx
+            cx16.r1 = ycenter - yy
+            cx16.FB_cursor_position()
+            cx16.FB_set_pixel(1)
+            cx16.r0 = xcenter - xx
+            cx16.FB_cursor_position()
+            cx16.FB_set_pixel(1)
+            cx16.r0 = xcenter + yy
+            cx16.r1 = ycenter + xx
+            cx16.FB_cursor_position()
+            cx16.FB_set_pixel(1)
+            cx16.r0 = xcenter - yy
+            cx16.FB_cursor_position()
+            cx16.FB_set_pixel(1)
+            cx16.r0 = xcenter + yy
+            cx16.r1 = ycenter - xx
+            cx16.FB_cursor_position()
+            cx16.FB_set_pixel(1)
+            cx16.r0 = xcenter - yy
+            cx16.FB_cursor_position()
+            cx16.FB_set_pixel(1)
+            yy++
+            if decisionOver2<=0 {
+                decisionOver2 += 2*yy+1
+            } else {
+                xx--
+                decisionOver2 += 2*(yy-xx)+1
+            }
+        }
+    }
+
+    sub disc(uword xcenter, ubyte ycenter, ubyte radius) {
+;        cx16.r0 = xcenter - radius/2
+;        cx16.r1 = ycenter - radius/2
+;        cx16.r2 = radius*2
+;        cx16.r3 = radius*2
+;        cx16.GRAPH_draw_oval(true)          ; TODO  currently is not implemented on cx16, does a BRK
+
+        ubyte xx = radius
+        ubyte yy = 0
+        byte decisionOver2 = 1-xx as byte
+
+        while xx>=yy {
+            ubyte ycenter_plus_yy = ycenter + yy
+            ubyte ycenter_min_yy = ycenter - yy
+            ubyte ycenter_plus_xx = ycenter + xx
+            ubyte ycenter_min_xx = ycenter - xx
+            uword @zp plotx
+
+            for plotx in xcenter to xcenter+xx {
+                cx16.r0 = plotx
+                cx16.r1 = ycenter_plus_yy
+                cx16.FB_cursor_position()
+                cx16.FB_set_pixel(1)
+                cx16.r1 = ycenter_min_yy
+                cx16.FB_cursor_position()
+                cx16.FB_set_pixel(1)
+            }
+            for plotx in xcenter-xx to xcenter-1 {
+                cx16.r0 = plotx
+                cx16.r1 = ycenter_plus_yy
+                cx16.FB_cursor_position()
+                cx16.FB_set_pixel(1)
+                cx16.r1 = ycenter_min_yy
+                cx16.FB_cursor_position()
+                cx16.FB_set_pixel(1)
+            }
+            for plotx in xcenter to xcenter+yy {
+                cx16.r0 = plotx
+                cx16.r1 = ycenter_plus_xx
+                cx16.FB_cursor_position()
+                cx16.FB_set_pixel(1)
+                cx16.r1 = ycenter_min_xx
+                cx16.FB_cursor_position()
+                cx16.FB_set_pixel(1)
+            }
+            for plotx in xcenter-yy to xcenter {
+                cx16.r0 = plotx
+                cx16.r1 = ycenter_plus_xx
+                cx16.FB_cursor_position()
+                cx16.FB_set_pixel(1)
+                cx16.r1 = ycenter_min_xx
+                cx16.FB_cursor_position()
+                cx16.FB_set_pixel(1)
+            }
+            yy++
+            if decisionOver2<=0
+                decisionOver2 += 2*yy+1
+            else {
+                xx--
+                decisionOver2 += 2*(yy-xx)+1
+            }
+        }
+    }
+
+    sub  plot(uword plotx, ubyte ploty) {
+        cx16.r0 = plotx
+        cx16.r1 = ploty
+        cx16.FB_cursor_position()
+        cx16.FB_set_pixel(1)
+    }
+}
+
+

compiler/res/prog8lib/cx16/syslib.p8

@@ -0,0 +1,291 @@
+; Prog8 definitions for the CommanderX16
+; Including memory registers, I/O registers, Basic and Kernal subroutines.
+;
+; Written by Irmen de Jong (irmen@razorvine.net) - license: GNU GPL 3.0
+;
+; indent format: TABS, size=8
+
+%target cx16
+
+
+c64 {
+
+; ---- kernal routines, these are the same as on the Commodore-64 (hence the same block name) ----
+
+; STROUT --> use txt.print
+; CLEARSCR -> use txt.clear_screen
+; HOMECRSR -> use txt.plot
+
+romsub $FF81 = CINT() clobbers(A,X,Y)                           ; (alias: SCINIT) initialize screen editor and video chip
+romsub $FF84 = IOINIT() clobbers(A, X)                          ; initialize I/O devices (CIA, SID, IRQ)
+romsub $FF87 = RAMTAS() clobbers(A,X,Y)                         ; initialize RAM, tape buffer, screen
+romsub $FF8A = RESTOR() clobbers(A,X,Y)                         ; restore default I/O vectors
+romsub $FF8D = VECTOR(uword userptr @ XY, ubyte dir @ Pc) clobbers(A,Y)     ; read/set I/O vector table
+romsub $FF90 = SETMSG(ubyte value @ A)                          ; set Kernal message control flag
+romsub $FF93 = SECOND(ubyte address @ A) clobbers(A)            ; (alias: LSTNSA) send secondary address after LISTEN
+romsub $FF96 = TKSA(ubyte address @ A) clobbers(A)              ; (alias: TALKSA) send secondary address after TALK
+romsub $FF99 = MEMTOP(uword address @ XY, ubyte dir @ Pc) -> uword @ XY     ; read/set top of memory  pointer
+romsub $FF9C = MEMBOT(uword address @ XY, ubyte dir @ Pc) -> uword @ XY     ; read/set bottom of memory  pointer
+romsub $FF9F = SCNKEY() clobbers(A,X,Y)                         ; scan the keyboard
+romsub $FFA2 = SETTMO(ubyte timeout @ A)                        ; set time-out flag for IEEE bus
+romsub $FFA5 = ACPTR() -> ubyte @ A                             ; (alias: IECIN) input byte from serial bus
+romsub $FFA8 = CIOUT(ubyte databyte @ A)                        ; (alias: IECOUT) output byte to serial bus
+romsub $FFAB = UNTLK() clobbers(A)                              ; command serial bus device to UNTALK
+romsub $FFAE = UNLSN() clobbers(A)                              ; command serial bus device to UNLISTEN
+romsub $FFB1 = LISTEN(ubyte device @ A) clobbers(A)             ; command serial bus device to LISTEN
+romsub $FFB4 = TALK(ubyte device @ A) clobbers(A)               ; command serial bus device to TALK
+romsub $FFB7 = READST() -> ubyte @ A                            ; read I/O status word
+romsub $FFBA = SETLFS(ubyte logical @ A, ubyte device @ X, ubyte address @ Y)   ; set logical file parameters
+romsub $FFBD = SETNAM(ubyte namelen @ A, str filename @ XY)     ; set filename parameters
+romsub $FFC0 = OPEN() clobbers(X,Y) -> ubyte @Pc, ubyte @A      ; (via 794 ($31A)) open a logical file
+romsub $FFC3 = CLOSE(ubyte logical @ A) clobbers(A,X,Y)         ; (via 796 ($31C)) close a logical file
+romsub $FFC6 = CHKIN(ubyte logical @ X) clobbers(A,X) -> ubyte @Pc    ; (via 798 ($31E)) define an input channel
+romsub $FFC9 = CHKOUT(ubyte logical @ X) clobbers(A,X)          ; (via 800 ($320)) define an output channel
+romsub $FFCC = CLRCHN() clobbers(A,X)                           ; (via 802 ($322)) restore default devices
+romsub $FFCF = CHRIN() clobbers(X, Y) -> ubyte @ A   ; (via 804 ($324)) input a character (for keyboard, read a whole line from the screen) A=byte read.
+romsub $FFD2 = CHROUT(ubyte char @ A)                           ; (via 806 ($326)) output a character
+romsub $FFD5 = LOAD(ubyte verify @ A, uword address @ XY) -> ubyte @Pc, ubyte @ A, ubyte @ X, ubyte @ Y     ; (via 816 ($330)) load from device
+romsub $FFD8 = SAVE(ubyte zp_startaddr @ A, uword endaddr @ XY) -> ubyte @ Pc, ubyte @ A                    ; (via 818 ($332)) save to a device
+romsub $FFDB = SETTIM(ubyte low @ A, ubyte middle @ X, ubyte high @ Y)      ; set the software clock
+romsub $FFDE = RDTIM() -> ubyte @ A, ubyte @ X, ubyte @ Y       ; read the software clock
+romsub $FFE1 = STOP() clobbers(X) -> ubyte @ Pz, ubyte @ A      ; (via 808 ($328)) check the STOP key (and some others in A)
+romsub $FFE4 = GETIN() clobbers(X,Y) -> ubyte @Pc, ubyte @ A    ; (via 810 ($32A)) get a character
+romsub $FFE7 = CLALL() clobbers(A,X)                            ; (via 812 ($32C)) close all files
+romsub $FFEA = UDTIM() clobbers(A,X)                            ; update the software clock
+romsub $FFED = SCREEN() -> ubyte @ X, ubyte @ Y                 ; read number of screen rows and columns
+romsub $FFF0 = PLOT(ubyte col @ Y, ubyte row @ X, ubyte dir @ Pc) -> ubyte @ X, ubyte @ Y       ; read/set position of cursor on screen.  Use txt.plot for a 'safe' wrapper that preserves X.
+romsub $FFF3 = IOBASE() -> uword @ XY                           ; read base address of I/O devices
+
+}
+
+cx16 {
+
+; 65c02 hardware vectors:
+    &uword  NMI_VEC         = $FFFA     ; 6502 nmi vector, determined by the kernal if banked in
+    &uword  RESET_VEC       = $FFFC     ; 6502 reset vector, determined by the kernal if banked in
+    &uword  IRQ_VEC         = $FFFE     ; 6502 interrupt vector, determined by the kernal if banked in
+
+
+; the sixteen virtual 16-bit registers
+    &uword r0  = $0002
+    &uword r1  = $0004
+    &uword r2  = $0006
+    &uword r3  = $0008
+    &uword r4  = $000a
+    &uword r5  = $000c
+    &uword r6  = $000e
+    &uword r7  = $0010
+    &uword r8  = $0012
+    &uword r9  = $0014
+    &uword r10 = $0016
+    &uword r11 = $0018
+    &uword r12 = $001a
+    &uword r13 = $001c
+    &uword r14 = $001e
+    &uword r15 = $0020
+
+; VERA registers
+
+    const uword VERA_BASE = $9F20
+    &ubyte  VERA_ADDR_L   	  = VERA_BASE + $0000
+    &ubyte  VERA_ADDR_M   	  = VERA_BASE + $0001
+    &ubyte  VERA_ADDR_H   	  = VERA_BASE + $0002
+    &ubyte  VERA_DATA0        = VERA_BASE + $0003
+    &ubyte  VERA_DATA1        = VERA_BASE + $0004
+    &ubyte  VERA_CTRL         = VERA_BASE + $0005
+    &ubyte  VERA_IEN          = VERA_BASE + $0006
+    &ubyte  VERA_ISR          = VERA_BASE + $0007
+    &ubyte  VERA_IRQ_LINE_L   = VERA_BASE + $0008
+    &ubyte  VERA_DC_VIDEO     = VERA_BASE + $0009
+    &ubyte  VERA_DC_HSCALE    = VERA_BASE + $000A
+    &ubyte  VERA_DC_VSCALE    = VERA_BASE + $000B
+    &ubyte  VERA_DC_BORDER    = VERA_BASE + $000C
+    &ubyte  VERA_DC_HSTART    = VERA_BASE + $0009
+    &ubyte  VERA_DC_HSTOP     = VERA_BASE + $000A
+    &ubyte  VERA_DC_VSTART    = VERA_BASE + $000B
+    &ubyte  VERA_DC_VSTOP     = VERA_BASE + $000C
+    &ubyte  VERA_L0_CONFIG    = VERA_BASE + $000D
+    &ubyte  VERA_L0_MAPBASE   = VERA_BASE + $000E
+    &ubyte  VERA_L0_TILEBASE  = VERA_BASE + $000F
+    &ubyte  VERA_L0_HSCROLL_L = VERA_BASE + $0010
+    &ubyte  VERA_L0_HSCROLL_H = VERA_BASE + $0011
+    &ubyte  VERA_L0_VSCROLL_L = VERA_BASE + $0012
+    &ubyte  VERA_L0_VSCROLL_H = VERA_BASE + $0013
+    &ubyte  VERA_L1_CONFIG    = VERA_BASE + $0014
+    &ubyte  VERA_L1_MAPBASE   = VERA_BASE + $0015
+    &ubyte  VERA_L1_TILEBASE  = VERA_BASE + $0016
+    &ubyte  VERA_L1_HSCROLL_L = VERA_BASE + $0017
+    &ubyte  VERA_L1_HSCROLL_H = VERA_BASE + $0018
+    &ubyte  VERA_L1_VSCROLL_L = VERA_BASE + $0019
+    &ubyte  VERA_L1_VSCROLL_H = VERA_BASE + $001A
+    &ubyte  VERA_AUDIO_CTRL   = VERA_BASE + $001B
+    &ubyte  VERA_AUDIO_RATE   = VERA_BASE + $001C
+    &ubyte  VERA_AUDIO_DATA   = VERA_BASE + $001D
+    &ubyte  VERA_SPI_DATA     = VERA_BASE + $001E
+    &ubyte  VERA_SPI_CTRL     = VERA_BASE + $001F
+; VERA_PSG_BASE     = $1F9C0
+; VERA_PALETTE_BASE = $1FA00
+; VERA_SPRITES_BASE = $1FC00
+
+; I/O
+
+    const uword  via1  = $9f60                  ;VIA 6522 #1
+    &ubyte  d1prb	= via1+0
+    &ubyte  d1pra	= via1+1
+    &ubyte  d1ddrb	= via1+2
+    &ubyte  d1ddra	= via1+3
+    &ubyte  d1t1l	= via1+4
+    &ubyte  d1t1h	= via1+5
+    &ubyte  d1t1ll	= via1+6
+    &ubyte  d1t1lh	= via1+7
+    &ubyte  d1t2l	= via1+8
+    &ubyte  d1t2h	= via1+9
+    &ubyte  d1sr	= via1+10
+    &ubyte  d1acr	= via1+11
+    &ubyte  d1pcr	= via1+12
+    &ubyte  d1ifr	= via1+13
+    &ubyte  d1ier	= via1+14
+    &ubyte  d1ora	= via1+15
+
+    const uword  via2  = $9f70                  ;VIA 6522 #2
+    &ubyte  d2prb	=via2+0
+    &ubyte  d2pra	=via2+1
+    &ubyte  d2ddrb	=via2+2
+    &ubyte  d2ddra	=via2+3
+    &ubyte  d2t1l	=via2+4
+    &ubyte  d2t1h	=via2+5
+    &ubyte  d2t1ll	=via2+6
+    &ubyte  d2t1lh	=via2+7
+    &ubyte  d2t2l	=via2+8
+    &ubyte  d2t2h	=via2+9
+    &ubyte  d2sr	=via2+10
+    &ubyte  d2acr	=via2+11
+    &ubyte  d2pcr	=via2+12
+    &ubyte  d2ifr	=via2+13
+    &ubyte  d2ier	=via2+14
+    &ubyte  d2ora	=via2+15
+
+
+; ---- Commander X-16 additions on top of C64 kernal routines ----
+; spelling of the names is taken from the Commander X-16 rom sources
+
+; supported C128 additions
+romsub $ff4a = close_all(ubyte device @A)  clobbers(A,X,Y)
+romsub $ff59 = lkupla(ubyte la @A)  clobbers(A,X,Y)
+romsub $ff5c = lkupsa(ubyte sa @Y)  clobbers(A,X,Y)
+romsub $ff5f = screen_set_mode(ubyte mode @A)  clobbers(A, X, Y) -> ubyte @Pc
+romsub $ff62 = screen_set_charset(ubyte charset @A, uword charsetptr @XY)  clobbers(A,X,Y)      ; incompatible with C128  dlchr()
+; not yet supported: romsub $ff65 = pfkey()  clobbers(A,X,Y)
+romsub $ff6e = jsrfar()
+romsub $ff74 = fetch(ubyte bank @X, ubyte index @Y)  clobbers(X) -> ubyte @A
+romsub $ff77 = stash(ubyte data @A, ubyte bank @X, ubyte index @Y)  clobbers(X)
+romsub $ff7a = cmpare(ubyte data @A, ubyte bank @X, ubyte index @Y)  clobbers(X)
+romsub $ff7d = primm()
+
+; X16 additions
+romsub $ff44 = macptr()  clobbers(A,X,Y)
+romsub $ff47 = enter_basic(ubyte cold_or_warm @Pc)  clobbers(A,X,Y)
+romsub $ff68 = mouse_config(ubyte shape @A, ubyte scale @X)  clobbers (A, X, Y)
+romsub $ff6b = mouse_get(ubyte zpdataptr @X)  clobbers(A)
+romsub $ff71 = mouse_scan()  clobbers(A, X, Y)
+romsub $ff53 = joystick_scan()  clobbers(A, X, Y)
+romsub $ff56 = joystick_get(ubyte joynr @A) -> ubyte @A, ubyte @X, ubyte @Y
+romsub $ff4d = clock_set_date_time()  clobbers(A, X, Y)      ; args: r0, r1, r2, r3L
+romsub $ff50 = clock_get_date_time()  clobbers(A, X, Y)      ; outout args: r0, r1, r2, r3L
+
+; TODO specify the correct clobbers for alle these functions below, we now assume all 3 regs are clobbered
+
+; high level graphics & fonts
+romsub $ff20 = GRAPH_init()  clobbers(A,X,Y)           ; uses vectors=r0
+romsub $ff23 = GRAPH_clear()  clobbers(A,X,Y)
+romsub $ff26 = GRAPH_set_window()  clobbers(A,X,Y)      ; uses x=r0, y=r1, width=r2, height=r3
+romsub $ff29 = GRAPH_set_colors(ubyte stroke @A, ubyte fill @X, ubyte background @Y)  clobbers (A,X,Y)
+romsub $ff2c = GRAPH_draw_line()  clobbers(A,X,Y)       ; uses x1=r0, y1=r1, x2=r2, y2=r3
+romsub $ff2f = GRAPH_draw_rect(ubyte fill @Pc)  clobbers(A,X,Y)   ; uses x=r0, y=r1, width=r2, height=r3, cornerradius=r4
+romsub $ff32 = GRAPH_move_rect()  clobbers(A,X,Y)       ; uses sx=r0, sy=r1, tx=r2, ty=r3, width=r4, height=r5
+romsub $ff35 = GRAPH_draw_oval(ubyte fill @Pc)  clobbers(A,X,Y)       ; uses x=r0, y=r1, width=r2, height=r3
+romsub $ff38 = GRAPH_draw_image()  clobbers(A,X,Y)      ; uses x=r0, y=r1, ptr=r2, width=r3, height=r4
+romsub $ff3b = GRAPH_set_font()  clobbers(A,X,Y)         ; uses ptr=r0
+romsub $ff3e = GRAPH_get_char_size(ubyte baseline @A, ubyte width @X, ubyte height_or_style @Y, ubyte is_control @Pc)  clobbers(A,X,Y)
+romsub $ff41 = GRAPH_put_char(ubyte char @A)  clobbers(A,X,Y)   ; uses x=r0, y=r1
+
+; framebuffer
+romsub $fef6 = FB_init()  clobbers(A,X,Y)
+romsub $fef9 = FB_get_info()  clobbers(X,Y) -> byte @A    ; also outputs width=r0, height=r1
+romsub $fefc = FB_set_palette(ubyte index @A, ubyte bytecount @X)  clobbers(A,X,Y)      ; also uses pointer=r0
+romsub $feff = FB_cursor_position()  clobbers(A,X,Y)    ; uses x=r0, y=r1
+romsub $ff02 = FB_cursor_next_line()  clobbers(A,X,Y)   ; uses x=r0
+romsub $ff05 = FB_get_pixel()  clobbers(X,Y) -> ubyte @A
+romsub $ff08 = FB_get_pixels()  clobbers(A,X,Y)         ; uses ptr=r0, count=r1
+romsub $ff0b = FB_set_pixel(ubyte color @A)  clobbers(A,X,Y)
+romsub $ff0e = FB_set_pixels()  clobbers(A,X,Y)         ; uses ptr=r0, count=r1
+romsub $ff11 = FB_set_8_pixels(ubyte pattern @A, ubyte color @X)  clobbers(A,X,Y)
+romsub $ff14 = FB_set_8_pixels_opaque(ubyte pattern @A, ubyte color1 @X, ubyte color2 @Y)  clobbers(A,X,Y)  ; also uses mask=r0L
+romsub $ff17 = FB_fill_pixels(ubyte color @A)  clobbers(A,X,Y)   ; also uses count=r0, step=r1
+romsub $ff1a = FB_filter_pixels()  clobbers(A,X,Y)      ; uses ptr=r0, count=r1
+romsub $ff1d = FB_move_pixels()  clobbers(A,X,Y)        ; uses sx=r0, sy=r1, tx=r2, ty=r3, count=r4
+
+; misc
+romsub $fef0 = sprite_set_image(ubyte number @A, ubyte width @X, ubyte height @Y, ubyte apply_mask @Pc)  clobbers(A,X,Y) -> ubyte @Pc  ; also uses pixels=r0, mask=r1, bpp=r2L
+romsub $fef3 = sprite_set_position(ubyte number @A)  clobbers(A,X,Y)  ; also uses x=r0 and y=r1
+romsub $fee4 = memory_fill(ubyte value @A)  clobbers(A,X,Y)      ; uses address=r0, num_bytes=r1
+romsub $fee7 = memory_copy()  clobbers(A,X,Y)                    ; uses source=r0, target=r1, num_bytes=r2
+romsub $feea = memory_crc()  clobbers(A,X,Y)                     ; uses address=r0, num_bytes=r1     result->r2
+romsub $feed = memory_decompress()  clobbers(A,X,Y)              ; uses input=r0, output=r1     result->r1
+romsub $fedb = console_init()  clobbers(A,X,Y)           ; uses x=r0, y=r1, width=r2, height=r3
+romsub $fede = console_put_char(ubyte char @A, ubyte wrapping @Pc)  clobbers(A,X,Y)
+romsub $fee1 = console_get_char()  clobbers(X,Y) -> ubyte @A
+romsub $fed8 = console_put_image()  clobbers(A,X,Y)      ; uses ptr=r0, width=r1, height=r2
+romsub $fed5 = console_set_paging_message()  clobbers(A,X,Y)     ; uses messageptr=r0
+romsub $fed2 = kbdbuf_put(ubyte key @A)  clobbers(A,X,Y)
+romsub $fecf = entropy_get() -> ubyte @A, ubyte @X, ubyte @Y
+romsub $fecc = monitor()  clobbers(A,X,Y)
+
+
+
+; ---- end of kernal routines ----
+
+asmsub init_system()  {
+    ; Initializes the machine to a sane starting state.
+    ; Called automatically by the loader program logic.
+    %asm {{
+        sei
+        cld
+        ;stz  $00
+        ;stz  $01
+        ;stz  d1prb      ; select rom bank 0
+        lda  #$80
+        sta  VERA_CTRL
+        jsr  c64.IOINIT
+        jsr  c64.RESTOR
+        jsr  c64.CINT
+        lda  #$90       ; black
+        jsr  c64.CHROUT
+        lda  #1         ; swap fg/bg
+        jsr  c64.CHROUT
+        lda  #$9e       ; yellow
+        jsr  c64.CHROUT
+        lda  #147       ; clear screen
+        jsr  c64.CHROUT
+        lda  #0
+        tax
+        tay
+        clc
+        clv
+        cli
+        rts
+    }}
+}
+
+asmsub  reset_system()  {
+    ; Soft-reset the system back to Basic prompt.
+    %asm {{
+        sei
+        lda  #14
+        sta  $01
+        stz  cx16.d1prb         ; bank the kernal in
+        jmp  (cx16.RESET_VEC)
+    }}
+}
+
+}

compiler/res/prog8lib/cx16/textio.p8

@@ -0,0 +1,699 @@
+; Prog8 definitions for the Text I/O and Screen routines for the CommanderX16
+;
+; Written by Irmen de Jong (irmen@razorvine.net) - license: GNU GPL 3.0
+;
+; indent format: TABS, size=8
+
+%target cx16
+%import syslib
+%import conv
+
+
+txt {
+
+const ubyte DEFAULT_WIDTH = 80
+const ubyte DEFAULT_HEIGHT = 60
+
+
+sub  clear_screen() {
+    clear_screenchars(' ')
+}
+
+asmsub  fill_screen (ubyte char @ A, ubyte color @ Y) clobbers(A)  {
+	; ---- fill the character screen with the given fill character and character color.
+	%asm {{
+	    sty  _ly+1
+        phx
+        pha
+        jsr  c64.SCREEN             ; get dimensions in X/Y
+        txa
+        lsr  a
+        lsr  a
+        sta  _lx+1
+        stz  cx16.VERA_CTRL
+        lda  #%00010000
+        sta  cx16.VERA_ADDR_H       ; enable auto increment by 1, bank 0.
+        stz  cx16.VERA_ADDR_L       ; start at (0,0)
+        stz  cx16.VERA_ADDR_M
+        pla
+_lx     ldx  #0                     ; modified
+        phy
+_ly     ldy  #1                     ; modified
+-       sta  cx16.VERA_DATA0
+        sty  cx16.VERA_DATA0
+        sta  cx16.VERA_DATA0
+        sty  cx16.VERA_DATA0
+        sta  cx16.VERA_DATA0
+        sty  cx16.VERA_DATA0
+        sta  cx16.VERA_DATA0
+        sty  cx16.VERA_DATA0
+        dex
+        bne  -
+        ply
+        dey
+        beq  +
+        stz  cx16.VERA_ADDR_L
+        inc  cx16.VERA_ADDR_M       ; next line
+        bra  _lx
++       plx
+        rts
+        }}
+}
+
+asmsub  clear_screenchars (ubyte char @ A) clobbers(Y)  {
+	; ---- clear the character screen with the given fill character (leaves colors)
+	;      (assumes screen matrix is at the default address)
+	%asm {{
+        phx
+        pha
+        jsr  c64.SCREEN             ; get dimensions in X/Y
+        txa
+        lsr  a
+        lsr  a
+        sta  _lx+1
+        stz  cx16.VERA_CTRL
+        lda  #%00100000
+        sta  cx16.VERA_ADDR_H       ; enable auto increment by 2, bank 0.
+        stz  cx16.VERA_ADDR_L       ; start at (0,0)
+        stz  cx16.VERA_ADDR_M
+        pla
+_lx     ldx  #0                     ; modified
+-       sta  cx16.VERA_DATA0
+        sta  cx16.VERA_DATA0
+        sta  cx16.VERA_DATA0
+        sta  cx16.VERA_DATA0
+        dex
+        bne  -
+        dey
+        beq  +
+        stz  cx16.VERA_ADDR_L
+        inc  cx16.VERA_ADDR_M       ; next line
+        bra  _lx
++       plx
+        rts
+        }}
+}
+
+asmsub  clear_screencolors (ubyte color @ A) clobbers(Y)  {
+	; ---- clear the character screen colors with the given color (leaves characters).
+	;      (assumes color matrix is at the default address)
+	%asm {{
+        phx
+        sta  _la+1
+        jsr  c64.SCREEN             ; get dimensions in X/Y
+        txa
+        lsr  a
+        lsr  a
+        sta  _lx+1
+        stz  cx16.VERA_CTRL
+        lda  #%00100000
+        sta  cx16.VERA_ADDR_H       ; enable auto increment by 2, bank 0.
+        lda  #1
+        sta  cx16.VERA_ADDR_L       ; start at (1,0)
+        stz  cx16.VERA_ADDR_M
+_lx     ldx  #0                     ; modified
+_la     lda  #0                     ; modified
+-       sta  cx16.VERA_DATA0
+        sta  cx16.VERA_DATA0
+        sta  cx16.VERA_DATA0
+        sta  cx16.VERA_DATA0
+        dex
+        bne  -
+        dey
+        beq  +
+        lda  #1
+        sta  cx16.VERA_ADDR_L
+        inc  cx16.VERA_ADDR_M       ; next line
+        bra  _lx
++       plx
+        rts
+        }}
+}
+
+
+ubyte[16] color_to_charcode = [$90,$05,$1c,$9f,$9c,$1e,$1f,$9e,$81,$95,$96,$97,$98,$99,$9a,$9b]
+
+sub color (ubyte txtcol) {
+    txtcol &= 15
+    c64.CHROUT(color_to_charcode[txtcol])
+}
+
+sub color2 (ubyte txtcol, ubyte bgcol) {
+    txtcol &= 15
+    bgcol &= 15
+    c64.CHROUT(color_to_charcode[bgcol])
+    c64.CHROUT(1)       ; switch fg and bg colors
+    c64.CHROUT(color_to_charcode[txtcol])
+}
+
+sub lowercase() {
+    cx16.screen_set_charset(3, 0)  ; lowercase charset
+}
+
+sub uppercase() {
+    cx16.screen_set_charset(2, 0)  ; uppercase charset
+}
+
+asmsub  scroll_left  (ubyte dummy @ Pc) clobbers(A, Y)  {
+	; ---- scroll the whole screen 1 character to the left
+	;      contents of the rightmost column are unchanged, you should clear/refill this yourself
+	;      Carry flag is a dummy on the cx16
+	%asm {{
+	    phx
+	    jsr  c64.SCREEN
+	    dex
+	    stx  _lx+1
+        dey
+        sty  P8ZP_SCRATCH_B1    ; number of rows to scroll
+
+_nextline
+        stz  cx16.VERA_CTRL     ; data port 0: source column
+        lda  #%00010000         ; auto increment 1
+        sta  cx16.VERA_ADDR_H
+        lda  #2
+        sta  cx16.VERA_ADDR_L   ; begin in column 1
+        ldy  P8ZP_SCRATCH_B1
+        sty  cx16.VERA_ADDR_M
+        lda  #1
+        sta  cx16.VERA_CTRL     ; data port 1: destination column
+        lda  #%00010000         ; auto increment 1
+        sta  cx16.VERA_ADDR_H
+        stz  cx16.VERA_ADDR_L
+        sty  cx16.VERA_ADDR_M
+
+_lx     ldx  #0                ; modified
+-       lda  cx16.VERA_DATA0
+        sta  cx16.VERA_DATA1    ; copy char
+        lda  cx16.VERA_DATA0
+        sta  cx16.VERA_DATA1    ; copy color
+        dex
+        bne  -
+        dec  P8ZP_SCRATCH_B1
+        bpl  _nextline
+
+        lda  #0
+        sta  cx16.VERA_CTRL
+	    plx
+	    rts
+	}}
+}
+
+asmsub  scroll_right  (ubyte dummy @ Pc) clobbers(A)  {
+	; ---- scroll the whole screen 1 character to the right
+	;      contents of the leftmost column are unchanged, you should clear/refill this yourself
+	;      Carry flag is a dummy on the cx16
+	%asm {{
+	    phx
+	    jsr  c64.SCREEN
+	    dex
+	    stx  _lx+1
+	    txa
+	    asl  a
+	    dea
+	    sta  _rcol+1
+	    ina
+	    ina
+	    sta  _rcol2+1
+        dey
+        sty  P8ZP_SCRATCH_B1    ; number of rows to scroll
+
+_nextline
+        stz  cx16.VERA_CTRL     ; data port 0: source column
+        lda  #%00011000         ; auto decrement 1
+        sta  cx16.VERA_ADDR_H
+_rcol   lda  #79*2-1             ; modified
+        sta  cx16.VERA_ADDR_L   ; begin in rightmost column minus one
+        ldy  P8ZP_SCRATCH_B1
+        sty  cx16.VERA_ADDR_M
+        lda  #1
+        sta  cx16.VERA_CTRL     ; data port 1: destination column
+        lda  #%00011000         ; auto decrement 1
+        sta  cx16.VERA_ADDR_H
+_rcol2  lda  #79*2+1            ; modified
+        sta  cx16.VERA_ADDR_L
+        sty  cx16.VERA_ADDR_M
+
+_lx     ldx  #0                 ; modified
+-       lda  cx16.VERA_DATA0
+        sta  cx16.VERA_DATA1    ; copy char
+        lda  cx16.VERA_DATA0
+        sta  cx16.VERA_DATA1    ; copy color
+        dex
+        bne  -
+        dec  P8ZP_SCRATCH_B1
+        bpl  _nextline
+
+        lda  #0
+        sta  cx16.VERA_CTRL
+	    plx
+	    rts
+	}}
+}
+
+asmsub  scroll_up  (ubyte dummy @ Pc) clobbers(A, Y)  {
+	; ---- scroll the whole screen 1 character up
+	;      contents of the bottom row are unchanged, you should refill/clear this yourself
+	;      Carry flag is a dummy on the cx16
+	%asm {{
+	    phx
+	    jsr  c64.SCREEN
+	    stx  _nextline+1
+	    dey
+        sty  P8ZP_SCRATCH_B1
+        stz  cx16.VERA_CTRL         ; data port 0 is source
+        lda  #1
+        sta  cx16.VERA_ADDR_M       ; start at second line
+        stz  cx16.VERA_ADDR_L
+        lda  #%00010000
+        sta  cx16.VERA_ADDR_H       ; enable auto increment by 1, bank 0.
+
+        lda  #1
+        sta  cx16.VERA_CTRL         ; data port 1 is destination
+        stz  cx16.VERA_ADDR_M       ; start at top line
+        stz  cx16.VERA_ADDR_L
+        lda  #%00010000
+        sta  cx16.VERA_ADDR_H       ; enable auto increment by 1, bank 0.
+
+_nextline
+        ldx  #80        ; modified
+-       lda  cx16.VERA_DATA0
+        sta  cx16.VERA_DATA1        ; copy char
+        lda  cx16.VERA_DATA0
+        sta  cx16.VERA_DATA1        ; copy color
+        dex
+        bne  -
+        dec  P8ZP_SCRATCH_B1
+        beq  +
+        stz  cx16.VERA_CTRL         ; data port 0
+        stz  cx16.VERA_ADDR_L
+        inc  cx16.VERA_ADDR_M
+        lda  #1
+        sta  cx16.VERA_CTRL         ; data port 1
+        stz  cx16.VERA_ADDR_L
+        inc  cx16.VERA_ADDR_M
+        bra  _nextline
+
++       lda  #0
+        sta  cx16.VERA_CTRL
+	    plx
+	    rts
+	}}
+}
+
+asmsub  scroll_down  (ubyte dummy @ Pc) clobbers(A, Y)  {
+	; ---- scroll the whole screen 1 character down
+	;      contents of the top row are unchanged, you should refill/clear this yourself
+	;      Carry flag is a dummy on the cx16
+	%asm {{
+	    phx
+	    jsr  c64.SCREEN
+	    stx  _nextline+1
+	    dey
+        sty  P8ZP_SCRATCH_B1
+        stz  cx16.VERA_CTRL         ; data port 0 is source
+        dey
+        sty  cx16.VERA_ADDR_M       ; start at line before bottom line
+        stz  cx16.VERA_ADDR_L
+        lda  #%00010000
+        sta  cx16.VERA_ADDR_H       ; enable auto increment by 1, bank 0.
+
+        lda  #1
+        sta  cx16.VERA_CTRL         ; data port 1 is destination
+        iny
+        sty  cx16.VERA_ADDR_M       ; start at bottom line
+        stz  cx16.VERA_ADDR_L
+        lda  #%00010000
+        sta  cx16.VERA_ADDR_H       ; enable auto increment by 1, bank 0.
+
+_nextline
+        ldx  #80        ; modified
+-       lda  cx16.VERA_DATA0
+        sta  cx16.VERA_DATA1        ; copy char
+        lda  cx16.VERA_DATA0
+        sta  cx16.VERA_DATA1        ; copy color
+        dex
+        bne  -
+        dec  P8ZP_SCRATCH_B1
+        beq  +
+        stz  cx16.VERA_CTRL         ; data port 0
+        stz  cx16.VERA_ADDR_L
+        dec  cx16.VERA_ADDR_M
+        lda  #1
+        sta  cx16.VERA_CTRL         ; data port 1
+        stz  cx16.VERA_ADDR_L
+        dec  cx16.VERA_ADDR_M
+        bra  _nextline
+
++       lda  #0
+        sta  cx16.VERA_CTRL
+	    plx
+	    rts
+	}}
+}
+
+romsub $FFD2 = chrout(ubyte char @ A)    ; for consistency. You can also use c64.CHROUT directly ofcourse.
+
+asmsub  print (str text @ AY) clobbers(A,Y)  {
+	; ---- print null terminated string from A/Y
+	; note: the compiler contains an optimization that will replace
+	;       a call to this subroutine with a string argument of just one char,
+	;       by just one call to c64.CHROUT of that single char.
+	%asm {{
+		sta  P8ZP_SCRATCH_B1
+		sty  P8ZP_SCRATCH_REG
+		ldy  #0
+-		lda  (P8ZP_SCRATCH_B1),y
+		beq  +
+		jsr  c64.CHROUT
+		iny
+		bne  -
++		rts
+	}}
+}
+
+asmsub  print_ub0  (ubyte value @ A) clobbers(A,Y)  {
+	; ---- print the ubyte in A in decimal form, with left padding 0s (3 positions total)
+	%asm {{
+		phx
+		jsr  conv.ubyte2decimal
+		pha
+		tya
+		jsr  c64.CHROUT
+		pla
+		jsr  c64.CHROUT
+		txa
+		jsr  c64.CHROUT
+		plx
+		rts
+	}}
+}
+
+asmsub  print_ub  (ubyte value @ A) clobbers(A,Y)  {
+	; ---- print the ubyte in A in decimal form, without left padding 0s
+	%asm {{
+		phx
+		jsr  conv.ubyte2decimal
+_print_byte_digits
+		pha
+		cpy  #'0'
+		beq  +
+		tya
+		jsr  c64.CHROUT
+		pla
+		jsr  c64.CHROUT
+		jmp  _ones
++       pla
+        cmp  #'0'
+        beq  _ones
+        jsr  c64.CHROUT
+_ones   txa
+		jsr  c64.CHROUT
+		plx
+		rts
+	}}
+}
+
+asmsub  print_b  (byte value @ A) clobbers(A,Y)  {
+	; ---- print the byte in A in decimal form, without left padding 0s
+	%asm {{
+		phx
+		pha
+		cmp  #0
+		bpl  +
+		lda  #'-'
+		jsr  c64.CHROUT
++		pla
+		jsr  conv.byte2decimal
+		jmp  print_ub._print_byte_digits
+	}}
+}
+
+asmsub  print_ubhex  (ubyte value @ A, ubyte prefix @ Pc) clobbers(A,Y)  {
+	; ---- print the ubyte in A in hex form (if Carry is set, a radix prefix '$' is printed as well)
+	%asm {{
+		phx
+		bcc  +
+		pha
+		lda  #'$'
+		jsr  c64.CHROUT
+		pla
++		jsr  conv.ubyte2hex
+		jsr  c64.CHROUT
+		tya
+		jsr  c64.CHROUT
+		plx
+		rts
+	}}
+}
+
+asmsub  print_ubbin  (ubyte value @ A, ubyte prefix @ Pc) clobbers(A,Y)  {
+	; ---- print the ubyte in A in binary form (if Carry is set, a radix prefix '%' is printed as well)
+	%asm {{
+		phx
+		sta  P8ZP_SCRATCH_B1
+		bcc  +
+		lda  #'%'
+		jsr  c64.CHROUT
++		ldy  #8
+-		lda  #'0'
+		asl  P8ZP_SCRATCH_B1
+		bcc  +
+		lda  #'1'
++		jsr  c64.CHROUT
+		dey
+		bne  -
+		plx
+		rts
+	}}
+}
+
+asmsub  print_uwbin  (uword value @ AY, ubyte prefix @ Pc) clobbers(A,Y)  {
+	; ---- print the uword in A/Y in binary form (if Carry is set, a radix prefix '%' is printed as well)
+	%asm {{
+		pha
+		tya
+		jsr  print_ubbin
+		pla
+		clc
+		jmp  print_ubbin
+	}}
+}
+
+asmsub  print_uwhex  (uword value @ AY, ubyte prefix @ Pc) clobbers(A,Y)  {
+	; ---- print the uword in A/Y in hexadecimal form (4 digits)
+	;      (if Carry is set, a radix prefix '$' is printed as well)
+	%asm {{
+		pha
+		tya
+		jsr  print_ubhex
+		pla
+		clc
+		jmp  print_ubhex
+	}}
+}
+
+asmsub  print_uw0  (uword value @ AY) clobbers(A,Y)  {
+	; ---- print the uword in A/Y in decimal form, with left padding 0s (5 positions total)
+	%asm {{
+	    phx
+		jsr  conv.uword2decimal
+		ldy  #0
+-		lda  conv.uword2decimal.decTenThousands,y
+        beq  +
+		jsr  c64.CHROUT
+		iny
+		bne  -
++		plx
+		rts
+	}}
+}
+
+asmsub  print_uw  (uword value @ AY) clobbers(A,Y)  {
+	; ---- print the uword in A/Y in decimal form, without left padding 0s
+	%asm {{
+	    phx
+		jsr  conv.uword2decimal
+		plx
+		ldy  #0
+-		lda  conv.uword2decimal.decTenThousands,y
+		beq  _allzero
+		cmp  #'0'
+		bne  _gotdigit
+		iny
+		bne  -
+
+_gotdigit
+		jsr  c64.CHROUT
+		iny
+		lda  conv.uword2decimal.decTenThousands,y
+		bne  _gotdigit
+		rts
+_allzero
+        lda  #'0'
+        jmp  c64.CHROUT
+	}}
+}
+
+asmsub  print_w  (word value @ AY) clobbers(A,Y)  {
+	; ---- print the (signed) word in A/Y in decimal form, without left padding 0's
+	%asm {{
+		cpy  #0
+		bpl  +
+		pha
+		lda  #'-'
+		jsr  c64.CHROUT
+		tya
+		eor  #255
+		tay
+		pla
+		eor  #255
+		clc
+		adc  #1
+		bcc  +
+		iny
++		jmp  print_uw
+	}}
+}
+
+asmsub  input_chars  (uword buffer @ AY) clobbers(A) -> ubyte @ Y  {
+	; ---- Input a string (max. 80 chars) from the keyboard. Returns length in Y. (string is terminated with a 0 byte as well)
+	;      It assumes the keyboard is selected as I/O channel!
+
+	%asm {{
+		sta  P8ZP_SCRATCH_W1
+		sty  P8ZP_SCRATCH_W1+1
+		ldy  #0				; char counter = 0
+-		jsr  c64.CHRIN
+		cmp  #$0d			; return (ascii 13) pressed?
+		beq  +				; yes, end.
+		sta  (P8ZP_SCRATCH_W1),y	; else store char in buffer
+		iny
+		bne  -
++		lda  #0
+		sta  (P8ZP_SCRATCH_W1),y	; finish string with 0 byte
+		rts
+
+	}}
+}
+
+asmsub  setchr  (ubyte col @X, ubyte row @Y, ubyte character @A) clobbers(A)  {
+	; ---- sets the character in the screen matrix at the given position
+	%asm {{
+		pha
+		txa
+		asl  a
+        stz  cx16.VERA_CTRL
+		stz  cx16.VERA_ADDR_H
+		sta  cx16.VERA_ADDR_L
+		sty  cx16.VERA_ADDR_M
+		pla
+        sta  cx16.VERA_DATA0
+		rts
+	}}
+}
+
+asmsub  getchr  (ubyte col @A, ubyte row @Y) -> ubyte @ A {
+	; ---- get the character in the screen matrix at the given location
+	%asm  {{
+		asl  a
+        stz  cx16.VERA_CTRL
+		stz  cx16.VERA_ADDR_H
+		sta  cx16.VERA_ADDR_L
+		sty  cx16.VERA_ADDR_M
+        lda  cx16.VERA_DATA0
+		rts
+	}}
+}
+
+asmsub  setclr  (ubyte col @X, ubyte row @Y, ubyte color @A) clobbers(A)  {
+	; ---- set the color in A on the screen matrix at the given position
+	%asm {{
+		pha
+		txa
+		asl  a
+		ina
+        stz  cx16.VERA_CTRL
+		stz  cx16.VERA_ADDR_H
+		sta  cx16.VERA_ADDR_L
+		sty  cx16.VERA_ADDR_M
+		pla
+        sta  cx16.VERA_DATA0
+		rts
+	}}
+}
+
+asmsub  getclr  (ubyte col @A, ubyte row @Y) -> ubyte @ A {
+	; ---- get the color in the screen color matrix at the given location
+	%asm  {{
+		asl  a
+		ina
+        stz  cx16.VERA_CTRL
+		stz  cx16.VERA_ADDR_H
+		sta  cx16.VERA_ADDR_L
+		sty  cx16.VERA_ADDR_M
+        lda  cx16.VERA_DATA0
+		rts
+	}}
+}
+
+sub  setcc  (ubyte column, ubyte row, ubyte char, ubyte charcolor)  {
+	; ---- set char+color at the given position on the screen
+	%asm {{
+	    phx
+		lda  column
+		asl  a
+		tax
+		ldy  row
+		lda  charcolor
+		and  #$0f
+	    sta  P8ZP_SCRATCH_B1
+        stz  cx16.VERA_CTRL
+        stz  cx16.VERA_ADDR_H
+        stx  cx16.VERA_ADDR_L
+        sty  cx16.VERA_ADDR_M
+        lda  char
+        sta  cx16.VERA_DATA0
+        inx
+        stz  cx16.VERA_ADDR_H
+        stx  cx16.VERA_ADDR_L
+        sty  cx16.VERA_ADDR_M
+        lda  cx16.VERA_DATA0
+        and  #$f0
+        ora  P8ZP_SCRATCH_B1
+        sta  cx16.VERA_DATA0
+		plx
+		rts
+    }}
+}
+
+asmsub  plot  (ubyte col @ Y, ubyte row @ A) clobbers(A) {
+	; ---- safe wrapper around PLOT kernel routine, to save the X register.
+	%asm  {{
+		phx
+		tax
+		clc
+		jsr  c64.PLOT
+		plx
+		rts
+	}}
+}
+
+asmsub width() clobbers(X,Y) -> ubyte @A {
+    ; -- returns the text screen width (number of columns)
+    %asm {{
+        jsr  c64.SCREEN
+        txa
+        rts
+    }}
+}
+
+asmsub height() clobbers(X, Y) -> ubyte @A {
+    ; -- returns the text screen height (number of rows)
+    %asm {{
+        jsr  c64.SCREEN
+        tya
+        rts
+    }}
+}
+
+}

compiler/res/prog8lib/cx16logo.p8

@@ -0,0 +1,29 @@
+%import textio
+
+cx16logo {
+    sub logo_at(ubyte column, ubyte row) {
+        uword strptr
+        for strptr in logo_lines {
+            txt.plot(column, row)
+            txt.print(strptr)
+            row++
+        }
+    }
+
+    sub logo() {
+        uword strptr
+        for strptr in logo_lines
+            txt.print(strptr)
+        txt.chrout('\n')
+    }
+
+    str[] logo_lines = [
+            "\uf10d\uf11a\uf139\uf11b     \uf11a\uf13a\uf11b\n",
+            "\uf10b\uf11a▎\uf139\uf11b   \uf11a\uf13a\uf130\uf11b\n",
+            "\uf10f\uf11a▌ \uf139\uf11b \uf11a\uf13a \uf11b▌\n",
+            "\uf102 \uf132\uf11a▖\uf11b \uf11a▗\uf11b\uf132\n",
+            "\uf10e ▂\uf11a▘\uf11b \uf11a▝\uf11b▂\n",
+            "\uf104 \uf11a \uf11b\uf13a\uf11b \uf139\uf11a \uf11b\n",
+            "\uf101\uf130\uf13a   \uf139▎\uf100"
+        ]
+}

compiler/res/prog8lib/diskio.p8

@@ -0,0 +1,162 @@
+%import textio
+%import syslib
+
+; Note: this code is compatible with C64 and CX16.
+
+diskio {
+
+
+    sub directory(ubyte drivenumber) -> byte {
+        ; -- Shows the directory contents of disk drive 8-11 (provide as argument).
+
+        c64.SETNAM(1, "$")
+        c64.SETLFS(1, drivenumber, 0)
+        void c64.OPEN()          ; open 1,8,0,"$"
+        if_cs
+            goto io_error
+        void c64.CHKIN(1)        ; use #1 as input channel
+        if_cs
+            goto io_error
+
+        repeat 4 {
+            void c64.CHRIN()     ; skip the 4 prologue bytes
+        }
+
+        ; while not key pressed / EOF encountered, read data.
+        ubyte status = c64.READST()
+        while not status {
+            txt.print_uw(mkword(c64.CHRIN(), c64.CHRIN()))
+            txt.chrout(' ')
+            ubyte @zp char
+            do {
+                char = c64.CHRIN()
+                txt.chrout(char)
+            } until char==0
+            txt.chrout('\n')
+            void c64.CHRIN()     ; skip 2 bytes
+            void c64.CHRIN()
+            status = c64.READST()
+            void c64.STOP()
+            if_nz
+                break
+        }
+
+io_error:
+        status = c64.READST()
+        c64.CLRCHN()        ; restore default i/o devices
+        c64.CLOSE(1)
+
+        if status and status != 64 {            ; 64=end of file
+            txt.print("\ni/o error, status: ")
+            txt.print_ub(status)
+            txt.chrout('\n')
+            return false
+        }
+
+        return true
+    }
+
+
+    sub status(ubyte drivenumber) {
+        ; -- display the disk drive's current status message
+        c64.SETNAM(0, $0000)
+        c64.SETLFS(15, drivenumber, 15)
+        void c64.OPEN()          ; open 15,8,15
+        if_cs
+            goto io_error
+        void c64.CHKIN(15)        ; use #15 as input channel
+        if_cs
+            goto io_error
+
+        while not c64.READST()
+            txt.chrout(c64.CHRIN())
+
+io_error:
+        c64.CLRCHN()        ; restore default i/o devices
+        c64.CLOSE(15)
+    }
+
+
+    sub save(ubyte drivenumber, uword filenameptr, uword address, uword size) -> byte {
+        c64.SETNAM(strlen(filenameptr), filenameptr)
+        c64.SETLFS(1, drivenumber, 0)
+        uword end_address = address + size
+
+        %asm {{
+            lda  address
+            sta  P8ZP_SCRATCH_W1
+            lda  address+1
+            sta  P8ZP_SCRATCH_W1+1
+            stx  P8ZP_SCRATCH_REG
+            lda  #<P8ZP_SCRATCH_W1
+            ldx  end_address
+            ldy  end_address+1
+            jsr  c64.SAVE
+            php
+            ldx  P8ZP_SCRATCH_REG
+            plp
+        }}
+
+        if_cc
+            return c64.READST()==0
+
+        return false
+    }
+
+    sub load(ubyte drivenumber, uword filenameptr, uword address_override) -> uword {
+        c64.SETNAM(strlen(filenameptr), filenameptr)
+        ubyte secondary = 1
+        uword end_of_load = 0
+        if address_override
+            secondary = 0
+        c64.SETLFS(1, drivenumber, secondary)
+        %asm {{
+            stx  P8ZP_SCRATCH_REG
+            lda  #0
+            ldx  address_override
+            ldy  address_override+1
+            jsr  c64.LOAD
+            bcs  +
+            stx  end_of_load
+            sty  end_of_load+1
++           ldx  P8ZP_SCRATCH_REG
+        }}
+
+        if end_of_load
+            return end_of_load - address_override
+
+        return 0
+    }
+
+
+    str filename = "0:??????????????????????????????????????"
+
+    sub delete(ubyte drivenumber, uword filenameptr) {
+        ; -- delete a file on the drive
+        ubyte flen = strlen(filenameptr)
+        filename[0] = 's'
+        filename[1] = ':'
+        memcopy(filenameptr, &filename+2, flen+1)
+        c64.SETNAM(flen+2, filename)
+        c64.SETLFS(1, drivenumber, 15)
+        void c64.OPEN()
+        c64.CLRCHN()
+        c64.CLOSE(1)
+    }
+
+    sub rename(ubyte drivenumber, uword oldfileptr, uword newfileptr) {
+        ; -- rename a file on the drive
+        ubyte flen_old = strlen(oldfileptr)
+        ubyte flen_new = strlen(newfileptr)
+        filename[0] = 'r'
+        filename[1] = ':'
+        memcopy(newfileptr, &filename+2, flen_new)
+        filename[flen_new+2] = '='
+        memcopy(oldfileptr, &filename+3+flen_new, flen_old+1)
+        c64.SETNAM(3+flen_new+flen_old, filename)
+        c64.SETLFS(1, drivenumber, 15)
+        void c64.OPEN()
+        c64.CLRCHN()
+        c64.CLOSE(1)
+    }
+}

compiler/res/prog8lib/math.p8

@@ -4,8 +4,6 @@
 ;
 ; indent format: TABS, size=8
 
-%import c64lib
-
 math {
 	%asminclude "library:math.asm", ""
 }

compiler/res/prog8lib/prog8_lib.p8

@@ -4,8 +4,7 @@
 ;
 ; indent format: TABS, size=8
 
-%import c64lib
-
 prog8_lib {
-	%asminclude "library:prog8lib.asm", ""
+	%asminclude "library:prog8_lib.asm", ""
+	%asminclude "library:prog8_funcs.asm", ""
 }

compiler/res/prog8lib/test_stack.p8

@@ -0,0 +1,48 @@
+%import textio
+
+test_stack {
+
+    asmsub test() {
+        %asm {{
+            stx  _saveX
+            lda  #13
+            jsr  txt.chrout
+            lda  #'-'
+            ldy  #12
+-           jsr  txt.chrout
+            dey
+            bne  -
+            lda  #13
+            jsr  txt.chrout
+            lda  #'x'
+            jsr  txt.chrout
+            lda  #'='
+            jsr  txt.chrout
+            lda  _saveX
+            jsr  txt.print_ub
+            lda  #' '
+            jsr  txt.chrout
+            lda  #'s'
+            jsr  txt.chrout
+            lda  #'p'
+            jsr  txt.chrout
+            lda  #'='
+            jsr  txt.chrout
+            tsx
+            txa
+            jsr  txt.print_ub
+            lda  #13
+            jsr  txt.chrout
+            lda  #'-'
+            ldy  #12
+-           jsr  txt.chrout
+            dey
+            bne  -
+            lda  #13
+            jsr  txt.chrout
+            ldx  _saveX
+            rts
+_saveX   .byte 0
+        }}
+    }
+}

compiler/res/version.txt

@@ -1 +1 @@
-2.4
+5.2

compiler/src/prog8/CompilerMain.kt

@@ -4,12 +4,10 @@ import kotlinx.cli.*
 import prog8.ast.base.AstException
 import prog8.compiler.CompilationResult
 import prog8.compiler.compileProgram
+import prog8.compiler.target.C64Target
+import prog8.compiler.target.Cx16Target
 import prog8.compiler.target.CompilationTarget
-import prog8.compiler.target.c64.C64MachineDefinition
-import prog8.compiler.target.c64.Petscii
-import prog8.compiler.target.c64.codegen.AsmGen
 import prog8.parser.ParsingFailedError
-import java.io.IOException
 import java.nio.file.FileSystems
 import java.nio.file.Path
 import java.nio.file.StandardWatchEventKinds
@@ -35,12 +33,14 @@ fun pathFrom(stringPath: String, vararg rest: String): Path  = FileSystems.getDe
 
 private fun compileMain(args: Array<String>) {
     val cli = CommandLineInterface("prog8compiler")
-    val startEmulator by cli.flagArgument("-emu", "auto-start the Vice C-64 emulator after successful compilation")
+    val startEmulator by cli.flagArgument("-emu", "auto-start emulator after successful compilation")
     val outputDir by cli.flagValueArgument("-out", "directory", "directory for output files instead of current directory", ".")
     val dontWriteAssembly by cli.flagArgument("-noasm", "don't create assembly code")
     val dontOptimize by cli.flagArgument("-noopt", "don't perform any optimizations")
     val watchMode by cli.flagArgument("-watch", "continuous compilation mode (watches for file changes), greatly increases compilation speed")
-    val compilationTarget by cli.flagValueArgument("-target", "compilertarget", "target output of the compiler, currently only 'c64' (C64 6502 assembly) available", "c64")
+    val slowCodegenWarnings by cli.flagArgument("-slowwarn", "show debug warnings about slow/problematic assembly code generation")
+    val compilationTarget by cli.flagValueArgument("-target", "compilertarget",
+            "target output of the compiler, currently '${C64Target.name}' and '${Cx16Target.name}' available", C64Target.name)
     val moduleFiles by cli.positionalArgumentsList("modules", "main module file(s) to compile", minArgs = 1)
 
     try {
@@ -49,58 +49,48 @@ private fun compileMain(args: Array<String>) {
         exitProcess(1)
     }
 
-    when(compilationTarget) {
-        "c64" -> {
-            with(CompilationTarget) {
-                name = "c64"
-                machine = C64MachineDefinition
-                encodeString = { str, altEncoding ->
-                    if(altEncoding) Petscii.encodeScreencode(str, true) else Petscii.encodePetscii(str, true)
-                }
-                decodeString = { bytes, altEncoding ->
-                    if(altEncoding) Petscii.decodeScreencode(bytes, true) else Petscii.decodePetscii(bytes, true)
-                }
-                asmGenerator = ::AsmGen
-            }
-        }
-        else -> {
-            System.err.println("invalid compilation target")
-            exitProcess(1)
-        }
-    }
-
     val outputPath = pathFrom(outputDir)
     if(!outputPath.toFile().isDirectory) {
         System.err.println("Output path doesn't exist")
         exitProcess(1)
     }
 
-    if(watchMode && moduleFiles.size<=1) {
+    if(watchMode) {
         val watchservice = FileSystems.getDefault().newWatchService()
 
         while(true) {
-            val filepath = pathFrom(moduleFiles.single()).normalize()
-            println("Continuous watch mode active. Main module: $filepath")
+            println("Continuous watch mode active. Modules: $moduleFiles")
+            val results = mutableListOf<CompilationResult>()
+            for(filepathRaw in moduleFiles) {
+                val filepath = pathFrom(filepathRaw).normalize()
+                val compilationResult = compileProgram(filepath, !dontOptimize, !dontWriteAssembly, slowCodegenWarnings, compilationTarget, outputPath)
+                results.add(compilationResult)
+            }
 
-            try {
-                val compilationResult = compileProgram(filepath, !dontOptimize, !dontWriteAssembly, outputDir=outputPath)
-                println("Imported files (now watching:)")
-                for (importedFile in compilationResult.importedFiles) {
-                    print("  ")
-                    println(importedFile)
-                    importedFile.parent.register(watchservice, StandardWatchEventKinds.ENTRY_MODIFY)
-                }
-                println("[${LocalDateTime.now().withNano(0)}]  Waiting for file changes.")
+            val allImportedFiles = results.flatMap { it.importedFiles }
+            println("Imported files (now watching:)")
+            for (importedFile in allImportedFiles) {
+                print("  ")
+                println(importedFile)
+                val watchDir = importedFile.parent ?: Path.of(".")
+                watchDir.register(watchservice, StandardWatchEventKinds.ENTRY_MODIFY)
+            }
+            println("[${LocalDateTime.now().withNano(0)}]  Waiting for file changes.")
+
+            var recompile=false
+            while(!recompile) {
                 val event = watchservice.take()
-                for(changed in event.pollEvents()) {
+                for (changed in event.pollEvents()) {
                     val changedPath = changed.context() as Path
-                    println("  change detected: $changedPath")
+                    if(allImportedFiles.any { it.fileName == changedPath.fileName }) {
+                        println("  change detected: $changedPath")
+                        recompile = true
+                    }
                 }
                 event.reset()
-                println("\u001b[H\u001b[2J")      // clear the screen
-            } catch (x: Exception) {
-                throw x
             }
+
+            println("\u001b[H\u001b[2J")      // clear the screen
         }
 
     } else {
@@ -108,7 +98,7 @@ private fun compileMain(args: Array<String>) {
             val filepath = pathFrom(filepathRaw).normalize()
             val compilationResult: CompilationResult
             try {
-                compilationResult = compileProgram(filepath, !dontOptimize, !dontWriteAssembly, outputDir=outputPath)
+                compilationResult = compileProgram(filepath, !dontOptimize, !dontWriteAssembly, slowCodegenWarnings, compilationTarget, outputPath)
                 if(!compilationResult.success)
                     exitProcess(1)
             } catch (x: ParsingFailedError) {
@@ -121,20 +111,7 @@ private fun compileMain(args: Array<String>) {
                 if (compilationResult.programName.isEmpty())
                     println("\nCan't start emulator because no program was assembled.")
                 else if(startEmulator) {
-                    for(emulator in listOf("x64sc", "x64")) {
-                        println("\nStarting C-64 emulator $emulator...")
-                        val cmdline = listOf(emulator, "-silent", "-moncommands", "${compilationResult.programName}.vice-mon-list",
-                                "-autostartprgmode", "1", "-autostart-warp", "-autostart", compilationResult.programName + ".prg")
-                        val processb = ProcessBuilder(cmdline).inheritIO()
-                        val process: Process
-                        try {
-                            process=processb.start()
-                        } catch(x: IOException) {
-                            continue  // try the next emulator executable
-                        }
-                        process.waitFor()
-                        break
-                    }
+                    CompilationTarget.instance.machine.launchEmulator(compilationResult.programName)
                 }
             }
         }

compiler/src/prog8/ast/AstToSourceCode.kt

@@ -53,12 +53,14 @@ class AstToSourceCode(val output: (text: String) -> Unit, val program: Program):
     }
 
     override fun visit(expr: BinaryExpression) {
+        output("(")
         expr.left.accept(this)
         if(expr.operator.any { it.isLetter() })
             output(" ${expr.operator} ")
         else
             output(expr.operator)
         expr.right.accept(this)
+        output(")")
     }
 
     override fun visit(directive: Directive) {
@@ -85,7 +87,7 @@ class AstToSourceCode(val output: (text: String) -> Unit, val program: Program):
             DataType.ARRAY_W -> "word["
             DataType.ARRAY_F -> "float["
             DataType.STRUCT -> ""       // the name of the struct is enough
-            else -> "?????2"
+            else -> "?????"
         }
     }
 
@@ -113,10 +115,14 @@ class AstToSourceCode(val output: (text: String) -> Unit, val program: Program):
             VarDeclType.CONST -> output("const ")
             VarDeclType.MEMORY -> output("&")
         }
-        output(decl.struct?.name ?: "")
+
+        if(decl.datatype==DataType.STRUCT && decl.struct!=null)
+            output(decl.struct!!.name)
+
         output(datatypeString(decl.datatype))
         if(decl.arraysize!=null) {
-            decl.arraysize!!.index.accept(this)
+            decl.arraysize!!.indexNum?.accept(this)
+            decl.arraysize!!.indexVar?.accept(this)
         }
         if(decl.isArray)
             output("]")
@@ -137,10 +143,9 @@ class AstToSourceCode(val output: (text: String) -> Unit, val program: Program):
             for(param in subroutine.parameters.zip(subroutine.asmParameterRegisters)) {
                 val reg =
                         when {
-                            param.second.stack -> "stack"
                             param.second.registerOrPair!=null -> param.second.registerOrPair.toString()
                             param.second.statusflag!=null -> param.second.statusflag.toString()
-                            else -> "?????1"
+                            else -> "?????"
                         }
                 output("${datatypeString(param.first.type)} ${param.first.name} @$reg")
                 if(param.first!==subroutine.parameters.last())
@@ -287,12 +292,19 @@ class AstToSourceCode(val output: (text: String) -> Unit, val program: Program):
     }
 
     override fun visit(assignment: Assignment) {
-        assignment.target.accept(this)
-        if (assignment.aug_op != null && assignment.aug_op != "setvalue")
-            output(" ${assignment.aug_op} ")
-        else
+        val binExpr = assignment.value as? BinaryExpression
+        if(binExpr!=null && binExpr.left isSameAs assignment.target
+                && binExpr.operator !in setOf("and", "or", "xor")
+                && binExpr.operator !in comparisonOperators) {
+            // we only support the inplace assignments of the form A = A <operator> <value>
+            assignment.target.accept(this)
+            output(" ${binExpr.operator}= ")
+            binExpr.right.accept(this)
+        } else {
+            assignment.target.accept(this)
             output(" = ")
-        assignment.value.accept(this)
+            assignment.value.accept(this)
+        }
     }
 
     override fun visit(postIncrDecr: PostIncrDecr) {
@@ -300,20 +312,13 @@ class AstToSourceCode(val output: (text: String) -> Unit, val program: Program):
         output(postIncrDecr.operator)
     }
 
-    override fun visit(contStmt: Continue) {
-        output("continue")
-    }
-
     override fun visit(breakStmt: Break) {
         output("break")
     }
 
     override fun visit(forLoop: ForLoop) {
         output("for ")
-        if(forLoop.loopRegister!=null)
-            output(forLoop.loopRegister.toString())
-        else
-            forLoop.loopVar!!.accept(this)
+        forLoop.loopVar.accept(this)
         output(" in ")
         forLoop.iterable.accept(this)
         output(" ")
@@ -327,16 +332,18 @@ class AstToSourceCode(val output: (text: String) -> Unit, val program: Program):
         whileLoop.body.accept(this)
     }
 
-    override fun visit(foreverLoop: ForeverLoop) {
-        output("forever ")
-        foreverLoop.body.accept(this)
-    }
-
     override fun visit(repeatLoop: RepeatLoop) {
         output("repeat ")
+        repeatLoop.iterations?.accept(this)
+        output(" ")
         repeatLoop.body.accept(this)
+    }
+
+    override fun visit(untilLoop: UntilLoop) {
+        output("do ")
+        untilLoop.body.accept(this)
         output(" until ")
-        repeatLoop.untilCondition.accept(this)
+        untilLoop.condition.accept(this)
     }
 
     override fun visit(returnStmt: Return) {
@@ -345,19 +352,16 @@ class AstToSourceCode(val output: (text: String) -> Unit, val program: Program):
     }
 
     override fun visit(arrayIndexedExpression: ArrayIndexedExpression) {
-        arrayIndexedExpression.identifier.accept(this)
+        arrayIndexedExpression.arrayvar.accept(this)
         output("[")
-        arrayIndexedExpression.arrayspec.index.accept(this)
+        arrayIndexedExpression.indexer.indexNum?.accept(this)
+        arrayIndexedExpression.indexer.indexVar?.accept(this)
         output("]")
     }
 
     override fun visit(assignTarget: AssignTarget) {
-        if(assignTarget.register!=null)
-            output(assignTarget.register.toString())
-        else {
-            assignTarget.memoryAddress?.accept(this)
-            assignTarget.identifier?.accept(this)
-        }
+        assignTarget.memoryAddress?.accept(this)
+        assignTarget.identifier?.accept(this)
         assignTarget.arrayindexed?.accept(this)
     }
 
@@ -398,10 +402,6 @@ class AstToSourceCode(val output: (text: String) -> Unit, val program: Program):
         outputlni("}}")
     }
 
-    override fun visit(registerExpr: RegisterExpr) {
-        output(registerExpr.register.toString())
-    }
-
     override fun visit(builtinFunctionStatementPlaceholder: BuiltinFunctionStatementPlaceholder) {
         output(builtinFunctionStatementPlaceholder.name)
     }
@@ -435,12 +435,4 @@ class AstToSourceCode(val output: (text: String) -> Unit, val program: Program):
             whenChoice.statements.accept(this)
         outputln("")
     }
-
-    override fun visit(structLv: StructLiteralValue) {
-        outputListMembers(structLv.values.asSequence(), '{', '}')
-    }
-
-    override fun visit(nopStatement: NopStatement) {
-        output("; NOP @ ${nopStatement.position}  $nopStatement")
-    }
 }

compiler/src/prog8/ast/AstToplevel.kt

@@ -36,6 +36,18 @@ interface Node {
         throw FatalAstException("scope missing from $this")
     }
 
+    fun definingBlock(): Block {
+        if(this is Block)
+            return this
+        return findParentNode<Block>(this)!!
+    }
+
+    fun containingStatement(): Statement {
+        if(this is Statement)
+            return this
+        return findParentNode<Statement>(this)!!
+    }
+
     fun replaceChildNode(node: Node, replacement: Node)
 }
 
@@ -44,6 +56,7 @@ interface IFunctionCall {
     var args: MutableList<Expression>
 }
 
+
 interface INameScope {
     val name: String
     val position: Position
@@ -57,7 +70,7 @@ interface INameScope {
             when(stmt) {
                 // NOTE: if other nodes are introduced that are a scope, or contain subscopes, they must be added here!
                 is ForLoop -> if(stmt.body.name==name) return stmt.body
-                is RepeatLoop -> if(stmt.body.name==name) return stmt.body
+                is UntilLoop -> if(stmt.body.name==name) return stmt.body
                 is WhileLoop -> if(stmt.body.name==name) return stmt.body
                 is BranchStatement -> {
                     if(stmt.truepart.name==name) return stmt.truepart
@@ -137,7 +150,15 @@ interface INameScope {
             }
             return null
         } else {
-            // unqualified name, find the scope the localContext is in, look in that first
+            // unqualified name
+            // special case: the do....until statement can also look INSIDE the anonymous scope
+            if(localContext.parent.parent is UntilLoop) {
+                val symbolFromInnerScope = (localContext.parent.parent as UntilLoop).body.getLabelOrVariable(scopedName[0])
+                if(symbolFromInnerScope!=null)
+                    return symbolFromInnerScope
+            }
+
+            // find the scope the localContext is in, look in that first
             var statementScope = localContext
             while(statementScope !is ParentSentinel) {
                 val localScope = statementScope.definingScope()
@@ -155,7 +176,6 @@ interface INameScope {
     }
 
     fun containsCodeOrVars() = statements.any { it !is Directive || it.directive == "%asminclude" || it.directive == "%asm"}
-    fun containsNoVars() = statements.all { it !is VarDecl }
     fun containsNoCodeNorVars() = !containsCodeOrVars()
 
     fun remove(stmt: Statement) {
@@ -175,8 +195,8 @@ interface INameScope {
                         find(it.truepart)
                         find(it.elsepart)
                     }
+                    is UntilLoop -> find(it.body)
                     is RepeatLoop -> find(it.body)
-                    is ForeverLoop -> find(it.body)
                     is WhileLoop -> find(it.body)
                     is WhenStatement -> it.choices.forEach { choice->find(choice.statements) }
                     else -> { /* do nothing */ }
@@ -187,6 +207,30 @@ interface INameScope {
         find(this)
         return result
     }
+
+    fun nextSibling(stmt: Statement): Statement? {
+        val nextIdx = statements.indexOfFirst { it===stmt } + 1
+        return if(nextIdx < statements.size)
+            statements[nextIdx]
+        else
+            null
+    }
+
+    fun previousSibling(stmt: Statement): Statement? {
+        val previousIdx = statements.indexOfFirst { it===stmt } - 1
+        return if(previousIdx>=0)
+            statements[previousIdx]
+        else
+            null
+    }
+
+    fun indexOfChild(stmt: Statement): Int {
+        val idx = statements.indexOfFirst { it===stmt }
+        if(idx>=0)
+            return idx
+        else
+            throw FatalAstException("attempt to find a non-child")
+    }
 }
 
 interface IAssignable {
@@ -220,17 +264,17 @@ class Program(val name: String, val modules: MutableList<Module>): Node {
     override val position: Position = Position.DUMMY
     override var parent: Node
         get() = throw FatalAstException("program has no parent")
-        set(value) = throw FatalAstException("can't set parent of program")
+        set(_) = throw FatalAstException("can't set parent of program")
 
     override fun linkParents(parent: Node) {
         modules.forEach {
-            it.linkParents(this)
+            it.linkParents(namespace)
         }
     }
 
     override fun replaceChildNode(node: Node, replacement: Node) {
         require(node is Module && replacement is Module)
-        val idx = modules.withIndex().find { it.value===node }!!.index
+        val idx = modules.indexOfFirst { it===node }
         modules[idx] = replacement
         replacement.parent = this
     }
@@ -247,7 +291,10 @@ class Module(override val name: String,
     val importedBy = mutableListOf<Module>()
     val imports = mutableSetOf<Module>()
 
-    var loadAddress: Int = 0        // can be set with the %address directive
+    val loadAddress: Int by lazy {
+        val address = (statements.singleOrNull { it is Directive && it.directive == "%address" } as? Directive)?.args?.single()?.int ?: 0
+        address
+    }
 
     override fun linkParents(parent: Node) {
         this.parent = parent
@@ -257,7 +304,7 @@ class Module(override val name: String,
     override fun definingScope(): INameScope = program.namespace
     override fun replaceChildNode(node: Node, replacement: Node) {
         require(node is Statement && replacement is Statement)
-        val idx = statements.withIndex().find { it.value===node }!!.index
+        val idx = statements.indexOfFirst { it===node }
         statements[idx] = replacement
         replacement.parent = this
     }
@@ -272,7 +319,7 @@ class Module(override val name: String,
 class GlobalNamespace(val modules: List<Module>): Node, INameScope {
     override val name = "<<<global>>>"
     override val position = Position("<<<global>>>", 0, 0, 0)
-    override val statements = mutableListOf<Statement>()
+    override val statements = mutableListOf<Statement>()        // not used
     override var parent: Node = ParentSentinel
 
     override fun linkParents(parent: Node) {
@@ -304,11 +351,19 @@ class GlobalNamespace(val modules: List<Module>): Node, INameScope {
                 }
             }
         }
+
+        // special case: the do....until statement can also look INSIDE the anonymous scope
+        if(localContext.parent.parent is UntilLoop) {
+            val symbolFromInnerScope = (localContext.parent.parent as UntilLoop).body.lookup(scopedName, localContext)
+            if(symbolFromInnerScope!=null)
+                return symbolFromInnerScope
+        }
+
         // lookup something from the module.
         return when (val stmt = localContext.definingModule().lookup(scopedName, localContext)) {
-            is Label, is VarDecl, is Block, is Subroutine -> stmt
+            is Label, is VarDecl, is Block, is Subroutine, is StructDecl -> stmt
             null -> null
-            else -> throw SyntaxError("wrong identifier target for $scopedName: $stmt", stmt.position)
+            else -> throw SyntaxError("invalid identifier target type", stmt.position)
         }
     }
 }

compiler/src/prog8/ast/antlr/Antr2Kotlin.kt

@@ -30,7 +30,7 @@ private fun ParserRuleContext.toPosition() : Position {
     val customTokensource = this.start.tokenSource as? CustomLexer
     val filename =
             when {
-                customTokensource!=null -> customTokensource.modulePath.fileName.toString()
+                customTokensource!=null -> customTokensource.modulePath.toString()
                 start.tokenSource.sourceName == IntStream.UNKNOWN_SOURCE_NAME -> "@internal@"
                 else -> File(start.inputStream.sourceName).name
             }
@@ -161,14 +161,15 @@ private fun prog8Parser.StatementContext.toAst() : Statement {
     if(vardecl!=null) return vardecl
 
     assignment()?.let {
-        return Assignment(it.assign_target().toAst(), null, it.expression().toAst(), it.toPosition())
+        return Assignment(it.assign_target().toAst(), it.expression().toAst(), it.toPosition())
     }
 
     augassignment()?.let {
-        return Assignment(it.assign_target().toAst(),
-                it.operator.text,
-                it.expression().toAst(),
-                it.toPosition())
+        // replace A += X  with  A = A + X
+        val target = it.assign_target().toAst()
+        val oper = it.operator.text.substringBefore('=')
+        val expression = BinaryExpression(target.toExpression(), oper, it.expression().toAst(), it.expression().toPosition())
+        return Assignment(it.assign_target().toAst(), expression, it.toPosition())
     }
 
     postincrdecr()?.let {
@@ -205,21 +206,18 @@ private fun prog8Parser.StatementContext.toAst() : Statement {
     val forloop = forloop()?.toAst()
     if(forloop!=null) return forloop
 
-    val repeatloop = repeatloop()?.toAst()
-    if(repeatloop!=null) return repeatloop
+    val untilloop = untilloop()?.toAst()
+    if(untilloop!=null) return untilloop
 
     val whileloop = whileloop()?.toAst()
     if(whileloop!=null) return whileloop
 
-    val foreverloop = foreverloop()?.toAst()
-    if(foreverloop!=null) return foreverloop
+    val repeatloop = repeatloop()?.toAst()
+    if(repeatloop!=null) return repeatloop
 
     val breakstmt = breakstmt()?.toAst()
     if(breakstmt!=null) return breakstmt
 
-    val continuestmt = continuestmt()?.toAst()
-    if(continuestmt!=null) return continuestmt
-
     val whenstmt = whenstmt()?.toAst()
     if(whenstmt!=null) return whenstmt
 
@@ -247,7 +245,7 @@ private class AsmsubDecl(val name: String,
                          val returntypes: List<DataType>,
                          val asmParameterRegisters: List<RegisterOrStatusflag>,
                          val asmReturnvaluesRegisters: List<RegisterOrStatusflag>,
-                         val asmClobbers: Set<Register>)
+                         val asmClobbers: Set<CpuRegister>)
 
 private fun prog8Parser.Asmsub_declContext.toAst(): AsmsubDecl {
     val name = identifier().text
@@ -256,8 +254,8 @@ private fun prog8Parser.Asmsub_declContext.toAst(): AsmsubDecl {
     val clobbers = asmsub_clobbers()?.clobber()?.toAst() ?: emptySet()
     val normalParameters = params.map { SubroutineParameter(it.name, it.type, it.position) }
     val normalReturntypes = returns.map { it.type }
-    val paramRegisters = params.map { RegisterOrStatusflag(it.registerOrPair, it.statusflag, it.stack) }
-    val returnRegisters = returns.map { RegisterOrStatusflag(it.registerOrPair, it.statusflag, it.stack) }
+    val paramRegisters = params.map { RegisterOrStatusflag(it.registerOrPair, it.statusflag) }
+    val returnRegisters = returns.map { RegisterOrStatusflag(it.registerOrPair, it.statusflag) }
     return AsmsubDecl(name, normalParameters, normalReturntypes, paramRegisters, returnRegisters, clobbers)
 }
 
@@ -265,33 +263,49 @@ private class AsmSubroutineParameter(name: String,
                                      type: DataType,
                                      val registerOrPair: RegisterOrPair?,
                                      val statusflag: Statusflag?,
-                                     val stack: Boolean,
                                      position: Position) : SubroutineParameter(name, type, position)
 
 private class AsmSubroutineReturn(val type: DataType,
                                   val registerOrPair: RegisterOrPair?,
                                   val statusflag: Statusflag?,
-                                  val stack: Boolean,
                                   val position: Position)
 
-private fun prog8Parser.ClobberContext.toAst(): Set<Register>
-        = this.register().asSequence().map { it.toAst() }.toSet()
-
 private fun prog8Parser.Asmsub_returnsContext.toAst(): List<AsmSubroutineReturn>
-        = asmsub_return().map { AsmSubroutineReturn(it.datatype().toAst(), it.registerorpair()?.toAst(), it.statusregister()?.toAst(), !it.stack?.text.isNullOrEmpty(), toPosition()) }
+        = asmsub_return().map {
+            val register = it.identifier()?.toAst()
+            var registerorpair: RegisterOrPair? = null
+            var statusregister: Statusflag? = null
+            if(register!=null) {
+                when (val name = register.nameInSource.single()) {
+                    in RegisterOrPair.names -> registerorpair = RegisterOrPair.valueOf(name)
+                    in Statusflag.names -> statusregister = Statusflag.valueOf(name)
+                    else -> throw FatalAstException("invalid register or status flag in $it")
+                }
+            }
+            AsmSubroutineReturn(
+                    it.datatype().toAst(),
+                    registerorpair,
+                    statusregister,
+                    toPosition())
+        }
 
 private fun prog8Parser.Asmsub_paramsContext.toAst(): List<AsmSubroutineParameter>
         = asmsub_param().map {
     val vardecl = it.vardecl()
     val datatype = vardecl.datatype()?.toAst() ?: DataType.STRUCT
-    AsmSubroutineParameter(vardecl.varname.text, datatype,
-            it.registerorpair()?.toAst(),
-            it.statusregister()?.toAst(),
-            !it.stack?.text.isNullOrEmpty(), toPosition())
+    val register = it.identifier()?.toAst()
+    var registerorpair: RegisterOrPair? = null
+    var statusregister: Statusflag? = null
+    if(register!=null) {
+        when (val name = register.nameInSource.single()) {
+            in RegisterOrPair.names -> registerorpair = RegisterOrPair.valueOf(name)
+            in Statusflag.names -> statusregister = Statusflag.valueOf(name)
+            else -> throw FatalAstException("invalid register or status flag '$name'")
+        }
+    }
+    AsmSubroutineParameter(vardecl.varname.text, datatype, registerorpair, statusregister, toPosition())
 }
 
-private fun prog8Parser.StatusregisterContext.toAst() = Statusflag.valueOf(text)
-
 private fun prog8Parser.Functioncall_stmtContext.toAst(): Statement {
     val void = this.VOID() != null
     val location = scoped_identifier().toAst()
@@ -326,14 +340,11 @@ private fun prog8Parser.LabeldefContext.toAst(): Statement =
         Label(children[0].text, toPosition())
 
 private fun prog8Parser.SubroutineContext.toAst() : Subroutine {
+    // non-asm subroutine
+    val returntypes = sub_return_part()?.toAst() ?: emptyList()
     return Subroutine(identifier().text,
             sub_params()?.toAst() ?: emptyList(),
-            sub_return_part()?.toAst() ?: emptyList(),
-            emptyList(),
-            emptyList(),
-            emptySet(),
-            null,
-            false,
+            returntypes,
             statement_block()?.toAst() ?: mutableListOf(),
             toPosition())
 }
@@ -350,23 +361,22 @@ private fun prog8Parser.Sub_paramsContext.toAst(): List<SubroutineParameter> =
         }
 
 private fun prog8Parser.Assign_targetContext.toAst() : AssignTarget {
-    val register = register()?.toAst()
     val identifier = scoped_identifier()
     return when {
-        register!=null -> AssignTarget(register, null, null, null, toPosition())
-        identifier!=null -> AssignTarget(null, identifier.toAst(), null, null, toPosition())
-        arrayindexed()!=null -> AssignTarget(null, null, arrayindexed().toAst(), null, toPosition())
-        directmemory()!=null -> AssignTarget(null, null, null, DirectMemoryWrite(directmemory().expression().toAst(), toPosition()), toPosition())
-        else -> AssignTarget(null, scoped_identifier()?.toAst(), null, null, toPosition())
+        identifier!=null -> AssignTarget(identifier.toAst(), null, null, toPosition())
+        arrayindexed()!=null -> AssignTarget(null, arrayindexed().toAst(), null, toPosition())
+        directmemory()!=null -> AssignTarget(null, null, DirectMemoryWrite(directmemory().expression().toAst(), toPosition()), toPosition())
+        else -> AssignTarget(scoped_identifier()?.toAst(), null, null, toPosition())
     }
 }
 
-private fun prog8Parser.RegisterContext.toAst() = Register.valueOf(text.toUpperCase())
+private fun prog8Parser.ClobberContext.toAst() : Set<CpuRegister> {
+    val names = this.identifier().map { it.toAst().nameInSource.single() }
+    return names.map { CpuRegister.valueOf(it) }.toSet()
+}
 
 private fun prog8Parser.DatatypeContext.toAst() = DataType.valueOf(text.toUpperCase())
 
-private fun prog8Parser.RegisterorpairContext.toAst() = RegisterOrPair.valueOf(text.toUpperCase())
-
 private fun prog8Parser.ArrayindexContext.toAst() : ArrayIndex =
         ArrayIndex(expression().toAst(), toPosition())
 
@@ -382,7 +392,7 @@ private fun prog8Parser.DirectiveargContext.toAst() : DirectiveArg {
 }
 
 private fun prog8Parser.IntegerliteralContext.toAst(): NumericLiteral {
-    fun makeLiteral(text: String, radix: Int, forceWord: Boolean): NumericLiteral {
+    fun makeLiteral(text: String, radix: Int): NumericLiteral {
         val integer: Int
         var datatype = DataType.UBYTE
         when (radix) {
@@ -420,14 +430,14 @@ private fun prog8Parser.IntegerliteralContext.toAst(): NumericLiteral {
             }
             else -> throw FatalAstException("invalid radix")
         }
-        return NumericLiteral(integer, if (forceWord) DataType.UWORD else datatype)
+        return NumericLiteral(integer, datatype)
     }
     val terminal: TerminalNode = children[0] as TerminalNode
     val integerPart = this.intpart.text
     return when (terminal.symbol.type) {
-        prog8Parser.DEC_INTEGER -> makeLiteral(integerPart, 10, wordsuffix()!=null)
-        prog8Parser.HEX_INTEGER -> makeLiteral(integerPart.substring(1), 16, wordsuffix()!=null)
-        prog8Parser.BIN_INTEGER -> makeLiteral(integerPart.substring(1), 2, wordsuffix()!=null)
+        prog8Parser.DEC_INTEGER -> makeLiteral(integerPart, 10)
+        prog8Parser.HEX_INTEGER -> makeLiteral(integerPart.substring(1), 16)
+        prog8Parser.BIN_INTEGER -> makeLiteral(integerPart.substring(1), 2)
         else -> throw FatalAstException(terminal.text)
     }
 }
@@ -455,8 +465,7 @@ private fun prog8Parser.ExpressionContext.toAst() : Expression {
                 litval.stringliteral()!=null -> litval.stringliteral().toAst()
                 litval.charliteral()!=null -> {
                     try {
-                        val cc=litval.charliteral()
-                        NumericLiteralValue(DataType.UBYTE, CompilationTarget.encodeString(
+                        NumericLiteralValue(DataType.UBYTE, CompilationTarget.instance.encodeString(
                                 unescape(litval.charliteral().SINGLECHAR().text, litval.toPosition()),
                                 litval.charliteral().ALT_STRING_ENCODING()!=null)[0], litval.toPosition())
                     } catch (ce: CharConversionException) {
@@ -469,18 +478,11 @@ private fun prog8Parser.ExpressionContext.toAst() : Expression {
                     // the ConstantFold takes care of that and converts the type if needed.
                     ArrayLiteralValue(InferredTypes.InferredType.unknown(), array, position = litval.toPosition())
                 }
-                litval.structliteral()!=null -> {
-                    val values = litval.structliteral().expression().map { it.toAst() }
-                    StructLiteralValue(values, litval.toPosition())
-                }
                 else -> throw FatalAstException("invalid parsed literal")
             }
         }
     }
 
-    if(register()!=null)
-        return RegisterExpr(register().toAst(), register().toPosition())
-
     if(scoped_identifier()!=null)
         return scoped_identifier().toAst()
 
@@ -572,19 +574,16 @@ private fun prog8Parser.Branch_stmtContext.toAst(): BranchStatement {
 private fun prog8Parser.BranchconditionContext.toAst() = BranchCondition.valueOf(text.substringAfter('_').toUpperCase())
 
 private fun prog8Parser.ForloopContext.toAst(): ForLoop {
-    val loopregister = register()?.toAst()
-    val loopvar = identifier()?.toAst()
+    val loopvar = identifier().toAst()
     val iterable = expression()!!.toAst()
     val scope =
             if(statement()!=null)
                 AnonymousScope(mutableListOf(statement().toAst()), statement().toPosition())
             else
                 AnonymousScope(statement_block().toAst(), statement_block().toPosition())
-    return ForLoop(loopregister, loopvar, iterable, scope, toPosition())
+    return ForLoop(loopvar, iterable, scope, toPosition())
 }
 
-private fun prog8Parser.ContinuestmtContext.toAst() = Continue(toPosition())
-
 private fun prog8Parser.BreakstmtContext.toAst() = Break(toPosition())
 
 private fun prog8Parser.WhileloopContext.toAst(): WhileLoop {
@@ -595,19 +594,20 @@ private fun prog8Parser.WhileloopContext.toAst(): WhileLoop {
     return WhileLoop(condition, scope, toPosition())
 }
 
-private fun prog8Parser.ForeverloopContext.toAst(): ForeverLoop {
+private fun prog8Parser.RepeatloopContext.toAst(): RepeatLoop {
+    val iterations = expression()?.toAst()
     val statements = statement_block()?.toAst() ?: mutableListOf(statement().toAst())
     val scope = AnonymousScope(statements, statement_block()?.toPosition()
             ?: statement().toPosition())
-    return ForeverLoop(scope, toPosition())
+    return RepeatLoop(iterations, scope, toPosition())
 }
 
-private fun prog8Parser.RepeatloopContext.toAst(): RepeatLoop {
+private fun prog8Parser.UntilloopContext.toAst(): UntilLoop {
     val untilCondition = expression().toAst()
     val statements = statement_block()?.toAst() ?: mutableListOf(statement().toAst())
     val scope = AnonymousScope(statements, statement_block()?.toPosition()
             ?: statement().toPosition())
-    return RepeatLoop(scope, untilCondition, toPosition())
+    return UntilLoop(scope, untilCondition, toPosition())
 }
 
 private fun prog8Parser.WhenstmtContext.toAst(): WhenStatement {
@@ -641,7 +641,20 @@ private fun prog8Parser.VardeclContext.toAst(): VarDecl {
     )
 }
 
-internal fun escape(str: String) = str.replace("\t", "\\t").replace("\n", "\\n").replace("\r", "\\r")
+internal fun escape(str: String): String {
+    val es = str.map {
+        when(it) {
+            '\t' -> "\\t"
+            '\n' -> "\\n"
+            '\r' -> "\\r"
+            '"' -> "\\\""
+            in '\u8000'..'\u80ff' -> "\\x" + (it.toInt() - 0x8000).toString(16).padStart(2, '0')
+            in '\u0000'..'\u00ff' -> it.toString()
+            else -> "\\u" + it.toInt().toString(16).padStart(4, '0')
+        }
+    }
+    return es.joinToString("")
+}
 
 internal fun unescape(str: String, position: Position): String {
     val result = mutableListOf<Char>()
@@ -655,9 +668,15 @@ internal fun unescape(str: String, position: Position): String {
                 'n' -> '\n'
                 'r' -> '\r'
                 '"' -> '"'
+                '\'' -> '\''
                 'u' -> {
                     "${iter.nextChar()}${iter.nextChar()}${iter.nextChar()}${iter.nextChar()}".toInt(16).toChar()
                 }
+                'x' -> {
+                    // special hack 0x8000..0x80ff  will be outputted verbatim without encoding
+                    val hex = ("" + iter.nextChar() + iter.nextChar()).toInt(16)
+                    (0x8000 + hex).toChar()
+                }
                 else -> throw SyntaxError("invalid escape char in string: \\$ec", position)
             })
         } else {

compiler/src/prog8/ast/base/Base.kt

@@ -21,35 +21,39 @@ enum class DataType {
     STRUCT;             // pass by reference
 
     /**
-     * is the type assignable to the given other type?
+     * is the type assignable to the given other type (perhaps via a typecast) without loss of precision?
      */
     infix fun isAssignableTo(targetType: DataType) =
-            // what types are assignable to others, perhaps via a typecast, without loss of precision?
             when(this) {
                 UBYTE -> targetType in setOf(UBYTE, WORD, UWORD, FLOAT)
                 BYTE -> targetType in setOf(BYTE, WORD, FLOAT)
                 UWORD -> targetType in setOf(UWORD, FLOAT)
                 WORD -> targetType in setOf(WORD, FLOAT)
                 FLOAT -> targetType == FLOAT
-                STR -> targetType == STR
-                in ArrayDatatypes -> targetType == this
+                STR -> targetType == STR || targetType == UWORD
+                in ArrayDatatypes -> targetType == this || targetType == UWORD
                 else -> false
             }
 
-
     infix fun isAssignableTo(targetTypes: Set<DataType>) = targetTypes.any { this isAssignableTo it }
+    infix fun isNotAssignableTo(targetType: DataType) = !this.isAssignableTo(targetType)
+    infix fun isNotAssignableTo(targetTypes: Set<DataType>) = !this.isAssignableTo(targetTypes)
 
     infix fun largerThan(other: DataType) =
-            when(this) {
-                in ByteDatatypes -> false
-                in WordDatatypes -> other in ByteDatatypes
+            when {
+                this == other -> false
+                this in ByteDatatypes -> false
+                this in WordDatatypes -> other in ByteDatatypes
+                this==STR && other==UWORD || this==UWORD && other==STR -> false
                 else -> true
             }
 
     infix fun equalsSize(other: DataType) =
-            when(this) {
-                in ByteDatatypes -> other in ByteDatatypes
-                in WordDatatypes -> other in WordDatatypes
+            when {
+                this == other -> true
+                this in ByteDatatypes -> other in ByteDatatypes
+                this in WordDatatypes -> other in WordDatatypes
+                this==STR && other==UWORD || this==UWORD && other==STR -> true
                 else -> false
             }
 
@@ -57,14 +61,14 @@ enum class DataType {
         return when(this) {
             in ByteDatatypes -> 1
             in WordDatatypes -> 2
-            FLOAT -> CompilationTarget.machine.FLOAT_MEM_SIZE
-            in PassByReferenceDatatypes -> 2
+            FLOAT -> CompilationTarget.instance.machine.FLOAT_MEM_SIZE
+            in PassByReferenceDatatypes -> CompilationTarget.instance.machine.POINTER_MEM_SIZE
             else -> -9999999
         }
     }
 }
 
-enum class Register {
+enum class CpuRegister {
     A,
     X,
     Y
@@ -76,14 +80,25 @@ enum class RegisterOrPair {
     Y,
     AX,
     AY,
-    XY
+    XY,
+    FAC1,
+    FAC2;
+
+    companion object {
+        val names by lazy { values().map { it.toString()} }
+    }
+
 }       // only used in parameter and return value specs in asm subroutines
 
 enum class Statusflag {
     Pc,
     Pz,
     Pv,
-    Pn
+    Pn;
+
+    companion object {
+        val names by lazy { values().map { it.toString()} }
+    }
 }
 
 enum class BranchCondition {
@@ -157,6 +172,7 @@ object ParentSentinel : Node {
 
 data class Position(val file: String, val line: Int, val startCol: Int, val endCol: Int) {
     override fun toString(): String = "[$file: line $line col ${startCol+1}-${endCol+1}]"
+    fun toClickableStr(): String = "$file:$line:$startCol:"
 
     companion object {
         val DUMMY = Position("<dummy>", 0, 0, 0)

compiler/src/prog8/ast/base/ErrorReporting.kt

@@ -24,7 +24,7 @@ class ErrorReporter {
                 MessageSeverity.ERROR -> System.err.print("\u001b[91m")  // bright red
                 MessageSeverity.WARNING -> System.err.print("\u001b[93m")  // bright yellow
             }
-            val msg = "${it.position} ${it.severity} ${it.message}".trim()
+            val msg = "${it.position.toClickableStr()} ${it.severity} ${it.message}".trim()
             if(msg !in alreadyReportedMessages) {
                 System.err.println(msg)
                 alreadyReportedMessages.add(msg)

compiler/src/prog8/ast/base/Errors.kt

@@ -7,11 +7,11 @@ open class FatalAstException (override var message: String) : Exception(message)
 open class AstException (override var message: String) : Exception(message)
 
 open class SyntaxError(override var message: String, val position: Position) : AstException(message) {
-    override fun toString() = "$position Syntax error: $message"
+    override fun toString() = "${position.toClickableStr()} Syntax error: $message"
 }
 
 class ExpressionError(message: String, val position: Position) : AstException(message) {
-    override fun toString() = "$position Error: $message"
+    override fun toString() = "${position.toClickableStr()} Error: $message"
 }
 
 class UndefinedSymbolError(symbol: IdentifierReference)

compiler/src/prog8/ast/base/Extensions.kt

@@ -3,9 +3,9 @@ package prog8.ast.base
 import prog8.ast.Module
 import prog8.ast.Program
 import prog8.ast.processing.*
+import prog8.ast.statements.Directive
 import prog8.compiler.CompilationOptions
 import prog8.compiler.BeforeAsmGenerationAstChanger
-import prog8.optimizer.AssignmentTransformer
 
 
 internal fun Program.checkValid(compilerOptions: CompilationOptions, errors: ErrorReporter) {
@@ -19,8 +19,8 @@ internal fun Program.processAstBeforeAsmGeneration(errors: ErrorReporter) {
     fixer.applyModifications()
 }
 
-internal fun Program.reorderStatements() {
-    val reorder = StatementReorderer(this)
+internal fun Program.reorderStatements(errors: ErrorReporter) {
+    val reorder = StatementReorderer(this, errors)
     reorder.visit(this)
     reorder.applyModifications()
 }
@@ -36,29 +36,12 @@ internal fun Program.verifyFunctionArgTypes() {
     fixer.visit(this)
 }
 
-internal fun Program.transformAssignments(errors: ErrorReporter) {
-    val transform = AssignmentTransformer(this, errors)
-    transform.visit(this)
-    while(transform.optimizationsDone>0 && errors.isEmpty()) {
-        transform.applyModifications()
-        transform.optimizationsDone = 0
-        transform.visit(this)
-    }
-    transform.applyModifications()
-}
-
 internal fun Module.checkImportedValid() {
     val imr = ImportedModuleDirectiveRemover()
     imr.visit(this, this.parent)
     imr.applyModifications()
 }
 
-internal fun Program.checkRecursion(errors: ErrorReporter) {
-    val checker = AstRecursionChecker(namespace, errors)
-    checker.visit(this)
-    checker.processMessages(name)
-}
-
 internal fun Program.checkIdentifiers(errors: ErrorReporter) {
 
     val checker2 = AstIdentifiersChecker(this, errors)
@@ -68,6 +51,9 @@ internal fun Program.checkIdentifiers(errors: ErrorReporter) {
         val transforms = AstVariousTransforms(this)
         transforms.visit(this)
         transforms.applyModifications()
+        val lit2decl = LiteralsToAutoVars(this)
+        lit2decl.visit(this)
+        lit2decl.applyModifications()
     }
 
     if (modules.map { it.name }.toSet().size != modules.size) {
@@ -80,3 +66,37 @@ internal fun Program.variousCleanups() {
     process.visit(this)
     process.applyModifications()
 }
+
+internal fun Program.moveMainAndStartToFirst() {
+    // the module containing the program entrypoint is moved to the first in the sequence.
+    // the "main" block containing the entrypoint is moved to the top in there,
+    // and finally the entrypoint subroutine "start" itself is moved to the top in that block.
+
+    val directives = modules[0].statements.filterIsInstance<Directive>()
+    val start = this.entrypoint()
+    if(start!=null) {
+        val mod = start.definingModule()
+        val block = start.definingBlock()
+        if(!modules.remove(mod))
+            throw FatalAstException("module wrong")
+        modules.add(0, mod)
+        mod.remove(block)
+        var afterDirective = mod.statements.indexOfFirst { it !is Directive }
+        if(afterDirective<0)
+            mod.statements.add(block)
+        else
+            mod.statements.add(afterDirective, block)
+        block.remove(start)
+        afterDirective = block.statements.indexOfFirst { it !is Directive }
+        if(afterDirective<0)
+            block.statements.add(start)
+        else
+            block.statements.add(afterDirective, start)
+
+        // overwrite the directives in the module containing the entrypoint
+        for(directive in directives) {
+            modules[0].statements.removeAll { it is Directive && it.directive == directive.directive }
+            modules[0].statements.add(0, directive)
+        }
+    }
+}

compiler/src/prog8/ast/expressions/AstExpressions.kt

@@ -16,34 +16,52 @@ import kotlin.math.abs
 
 
 val associativeOperators = setOf("+", "*", "&", "|", "^", "or", "and", "xor", "==", "!=")
-
+val comparisonOperators = setOf("==", "!=", "<", ">", "<=", ">=")
+val augmentAssignmentOperators = setOf("+", "-", "/", "*", "**", "&", "|", "^", "<<", ">>", "%", "and", "or", "xor")
 
 sealed class Expression: Node {
     abstract fun constValue(program: Program): NumericLiteralValue?
     abstract fun accept(visitor: IAstVisitor)
     abstract fun accept(visitor: AstWalker, parent: Node)
-    abstract fun referencesIdentifiers(vararg name: String): Boolean
+    abstract fun referencesIdentifier(vararg scopedName: String): Boolean
     abstract fun inferType(program: Program): InferredTypes.InferredType
 
+    infix fun isSameAs(assigntarget: AssignTarget) = assigntarget.isSameAs(this)
+
     infix fun isSameAs(other: Expression): Boolean {
         if(this===other)
             return true
-        when(this) {
-            is RegisterExpr ->
-                return (other is RegisterExpr && other.register==register)
+        return when(this) {
             is IdentifierReference ->
-                return (other is IdentifierReference && other.nameInSource==nameInSource)
+                (other is IdentifierReference && other.nameInSource==nameInSource)
             is PrefixExpression ->
-                return (other is PrefixExpression && other.operator==operator && other.expression isSameAs expression)
+                (other is PrefixExpression && other.operator==operator && other.expression isSameAs expression)
             is BinaryExpression ->
-                return (other is BinaryExpression && other.operator==operator
+                (other is BinaryExpression && other.operator==operator
                         && other.left isSameAs left
                         && other.right isSameAs right)
             is ArrayIndexedExpression -> {
-                return (other is ArrayIndexedExpression && other.identifier.nameInSource == identifier.nameInSource
-                        && other.arrayspec.index isSameAs arrayspec.index)
+                (other is ArrayIndexedExpression && other.arrayvar.nameInSource == arrayvar.nameInSource
+                        && other.indexer isSameAs indexer)
             }
-            else -> return other==this
+            is DirectMemoryRead -> {
+                (other is DirectMemoryRead && other.addressExpression isSameAs addressExpression)
+            }
+            is TypecastExpression -> {
+                (other is TypecastExpression && other.implicit==implicit && other.type==type && other.expression isSameAs expression)
+            }
+            is AddressOf -> {
+                (other is AddressOf && other.identifier.nameInSource == identifier.nameInSource)
+            }
+            is RangeExpr -> {
+                (other is RangeExpr && other.from==from && other.to==to && other.step==step)
+            }
+            is FunctionCall -> {
+                (other is FunctionCall && other.target.nameInSource == target.nameInSource
+                        && other.args.size == args.size
+                        && other.args.zip(args).all { it.first isSameAs it.second } )
+            }
+            else -> other==this
         }
     }
 }
@@ -67,7 +85,7 @@ class PrefixExpression(val operator: String, var expression: Expression, overrid
     override fun accept(visitor: IAstVisitor) = visitor.visit(this)
     override fun accept(visitor: AstWalker, parent: Node)= visitor.visit(this, parent)
 
-    override fun referencesIdentifiers(vararg name: String) = expression.referencesIdentifiers(*name)
+    override fun referencesIdentifier(vararg scopedName: String) = expression.referencesIdentifier(*scopedName)
     override fun inferType(program: Program): InferredTypes.InferredType {
         val inferred = expression.inferType(program)
         return when(operator) {
@@ -124,7 +142,7 @@ class BinaryExpression(var left: Expression, var operator: String, var right: Ex
     override fun accept(visitor: IAstVisitor) = visitor.visit(this)
     override fun accept(visitor: AstWalker, parent: Node)= visitor.visit(this, parent)
 
-    override fun referencesIdentifiers(vararg name: String) = left.referencesIdentifiers(*name) || right.referencesIdentifiers(*name)
+    override fun referencesIdentifier(vararg scopedName: String) = left.referencesIdentifier(*scopedName) || right.referencesIdentifier(*scopedName)
     override fun inferType(program: Program): InferredTypes.InferredType {
         val leftDt = left.inferType(program)
         val rightDt = right.inferType(program)
@@ -214,20 +232,19 @@ class BinaryExpression(var left: Expression, var operator: String, var right: Ex
     }
 }
 
-class ArrayIndexedExpression(var identifier: IdentifierReference,
-                             val arrayspec: ArrayIndex,
+class ArrayIndexedExpression(var arrayvar: IdentifierReference,
+                             val indexer: ArrayIndex,
                              override val position: Position) : Expression(), IAssignable {
     override lateinit var parent: Node
     override fun linkParents(parent: Node) {
         this.parent = parent
-        identifier.linkParents(this)
-        arrayspec.linkParents(this)
+        arrayvar.linkParents(this)
+        indexer.linkParents(this)
     }
 
     override fun replaceChildNode(node: Node, replacement: Node) {
         when {
-            node===identifier -> identifier = replacement as IdentifierReference
-            node===arrayspec.index -> arrayspec.index = replacement as Expression
+            node===arrayvar -> arrayvar = replacement as IdentifierReference
             else -> throw FatalAstException("invalid replace")
         }
         replacement.parent = this
@@ -237,10 +254,10 @@ class ArrayIndexedExpression(var identifier: IdentifierReference,
     override fun accept(visitor: IAstVisitor) = visitor.visit(this)
     override fun accept(visitor: AstWalker, parent: Node)= visitor.visit(this, parent)
 
-    override fun referencesIdentifiers(vararg name: String) = identifier.referencesIdentifiers(*name)
+    override fun referencesIdentifier(vararg scopedName: String) = arrayvar.referencesIdentifier(*scopedName)
 
     override fun inferType(program: Program): InferredTypes.InferredType {
-        val target = identifier.targetStatement(program.namespace)
+        val target = arrayvar.targetStatement(program.namespace)
         if (target is VarDecl) {
             return when (target.datatype) {
                 DataType.STR -> InferredTypes.knownFor(DataType.UBYTE)
@@ -252,7 +269,7 @@ class ArrayIndexedExpression(var identifier: IdentifierReference,
     }
 
     override fun toString(): String {
-        return "ArrayIndexed(ident=$identifier, arraysize=$arrayspec; pos=$position)"
+        return "ArrayIndexed(ident=$arrayvar, arraysize=$indexer; pos=$position)"
     }
 }
 
@@ -273,13 +290,15 @@ class TypecastExpression(var expression: Expression, var type: DataType, val imp
     override fun accept(visitor: IAstVisitor) = visitor.visit(this)
     override fun accept(visitor: AstWalker, parent: Node)= visitor.visit(this, parent)
 
-    override fun referencesIdentifiers(vararg name: String) = expression.referencesIdentifiers(*name)
+    override fun referencesIdentifier(vararg scopedName: String) = expression.referencesIdentifier(*scopedName)
     override fun inferType(program: Program): InferredTypes.InferredType = InferredTypes.knownFor(type)
     override fun constValue(program: Program): NumericLiteralValue? {
         val cv = expression.constValue(program) ?: return null
-        return cv.cast(type)
-        // val value = RuntimeValue(cv.type, cv.asNumericValue!!).cast(type)
-        // return LiteralValue.fromNumber(value.numericValue(), value.type, position).cast(type)
+        val cast = cv.cast(type)
+        return if(cast.isValid)
+            cast.valueOrZero()
+        else
+            null
     }
 
     override fun toString(): String {
@@ -302,7 +321,7 @@ data class AddressOf(var identifier: IdentifierReference, override val position:
     }
 
     override fun constValue(program: Program): NumericLiteralValue? = null
-    override fun referencesIdentifiers(vararg name: String) = false
+    override fun referencesIdentifier(vararg scopedName: String) = false
     override fun inferType(program: Program): InferredTypes.InferredType = InferredTypes.knownFor(DataType.UWORD)
     override fun accept(visitor: IAstVisitor) = visitor.visit(this)
     override fun accept(visitor: AstWalker, parent: Node)= visitor.visit(this, parent)
@@ -325,7 +344,7 @@ class DirectMemoryRead(var addressExpression: Expression, override val position:
     override fun accept(visitor: IAstVisitor) = visitor.visit(this)
     override fun accept(visitor: AstWalker, parent: Node)= visitor.visit(this, parent)
 
-    override fun referencesIdentifiers(vararg name: String) = false
+    override fun referencesIdentifier(vararg scopedName: String) = false
     override fun inferType(program: Program): InferredTypes.InferredType = InferredTypes.knownFor(DataType.UBYTE)
     override fun constValue(program: Program): NumericLiteralValue? = null
 
@@ -378,7 +397,7 @@ class NumericLiteralValue(val type: DataType,    // only numerical types allowed
         throw FatalAstException("can't replace here")
     }
 
-    override fun referencesIdentifiers(vararg name: String) = false
+    override fun referencesIdentifier(vararg scopedName: String) = false
     override fun constValue(program: Program) = this
 
     override fun accept(visitor: IAstVisitor) = visitor.visit(this)
@@ -398,87 +417,66 @@ class NumericLiteralValue(val type: DataType,    // only numerical types allowed
 
     operator fun compareTo(other: NumericLiteralValue): Int = number.toDouble().compareTo(other.number.toDouble())
 
-    fun cast(targettype: DataType): NumericLiteralValue {
+    class CastValue(val isValid: Boolean, private val value: NumericLiteralValue?) {
+        fun valueOrZero() = if(isValid) value!! else NumericLiteralValue(DataType.UBYTE, 0, Position.DUMMY)
+    }
+
+    fun cast(targettype: DataType): CastValue {
         if(type==targettype)
-            return this
+            return CastValue(true, this)
         val numval = number.toDouble()
         when(type) {
             DataType.UBYTE -> {
                 if(targettype== DataType.BYTE && numval <= 127)
-                    return NumericLiteralValue(targettype, number.toShort(), position)
+                    return CastValue(true, NumericLiteralValue(targettype, number.toShort(), position))
                 if(targettype== DataType.WORD || targettype== DataType.UWORD)
-                    return NumericLiteralValue(targettype, number.toInt(), position)
+                    return CastValue(true, NumericLiteralValue(targettype, number.toInt(), position))
                 if(targettype== DataType.FLOAT)
-                    return NumericLiteralValue(targettype, number.toDouble(), position)
+                    return CastValue(true, NumericLiteralValue(targettype, number.toDouble(), position))
             }
             DataType.BYTE -> {
                 if(targettype== DataType.UBYTE && numval >= 0)
-                    return NumericLiteralValue(targettype, number.toShort(), position)
+                    return CastValue(true, NumericLiteralValue(targettype, number.toShort(), position))
                 if(targettype== DataType.UWORD && numval >= 0)
-                    return NumericLiteralValue(targettype, number.toInt(), position)
+                    return CastValue(true, NumericLiteralValue(targettype, number.toInt(), position))
                 if(targettype== DataType.WORD)
-                    return NumericLiteralValue(targettype, number.toInt(), position)
+                    return CastValue(true, NumericLiteralValue(targettype, number.toInt(), position))
                 if(targettype== DataType.FLOAT)
-                    return NumericLiteralValue(targettype, number.toDouble(), position)
+                    return CastValue(true, NumericLiteralValue(targettype, number.toDouble(), position))
             }
             DataType.UWORD -> {
                 if(targettype== DataType.BYTE && numval <= 127)
-                    return NumericLiteralValue(targettype, number.toShort(), position)
+                    return CastValue(true, NumericLiteralValue(targettype, number.toShort(), position))
                 if(targettype== DataType.UBYTE && numval <= 255)
-                    return NumericLiteralValue(targettype, number.toShort(), position)
+                    return CastValue(true, NumericLiteralValue(targettype, number.toShort(), position))
                 if(targettype== DataType.WORD && numval <= 32767)
-                    return NumericLiteralValue(targettype, number.toInt(), position)
+                    return CastValue(true, NumericLiteralValue(targettype, number.toInt(), position))
                 if(targettype== DataType.FLOAT)
-                    return NumericLiteralValue(targettype, number.toDouble(), position)
+                    return CastValue(true, NumericLiteralValue(targettype, number.toDouble(), position))
             }
             DataType.WORD -> {
                 if(targettype== DataType.BYTE && numval >= -128 && numval <=127)
-                    return NumericLiteralValue(targettype, number.toShort(), position)
+                    return CastValue(true, NumericLiteralValue(targettype, number.toShort(), position))
                 if(targettype== DataType.UBYTE && numval >= 0 && numval <= 255)
-                    return NumericLiteralValue(targettype, number.toShort(), position)
+                    return CastValue(true, NumericLiteralValue(targettype, number.toShort(), position))
                 if(targettype== DataType.UWORD && numval >=0)
-                    return NumericLiteralValue(targettype, number.toInt(), position)
+                    return CastValue(true, NumericLiteralValue(targettype, number.toInt(), position))
                 if(targettype== DataType.FLOAT)
-                    return NumericLiteralValue(targettype, number.toDouble(), position)
+                    return CastValue(true, NumericLiteralValue(targettype, number.toDouble(), position))
             }
             DataType.FLOAT -> {
                 if (targettype == DataType.BYTE && numval >= -128 && numval <=127)
-                    return NumericLiteralValue(targettype, number.toShort(), position)
+                    return CastValue(true, NumericLiteralValue(targettype, number.toShort(), position))
                 if (targettype == DataType.UBYTE && numval >=0 && numval <= 255)
-                    return NumericLiteralValue(targettype, number.toShort(), position)
+                    return CastValue(true, NumericLiteralValue(targettype, number.toShort(), position))
                 if (targettype == DataType.WORD && numval >= -32768 && numval <= 32767)
-                    return NumericLiteralValue(targettype, number.toInt(), position)
+                    return CastValue(true, NumericLiteralValue(targettype, number.toInt(), position))
                 if (targettype == DataType.UWORD && numval >=0 && numval <= 65535)
-                    return NumericLiteralValue(targettype, number.toInt(), position)
+                    return CastValue(true, NumericLiteralValue(targettype, number.toInt(), position))
             }
             else -> {}
         }
-        throw ExpressionError("can't cast $type into $targettype", position)
-    }
-}
-
-class StructLiteralValue(var values: List<Expression>,
-                         override val position: Position): Expression() {
-    override lateinit var parent: Node
-
-    override fun linkParents(parent: Node) {
-        this.parent=parent
-        values.forEach { it.linkParents(this) }
-    }
-
-    override fun replaceChildNode(node: Node, replacement: Node) {
-        throw FatalAstException("can't replace here")
-    }
-
-    override fun constValue(program: Program): NumericLiteralValue?  = null
-    override fun accept(visitor: IAstVisitor) = visitor.visit(this)
-    override fun accept(visitor: AstWalker, parent: Node)= visitor.visit(this, parent)
-
-    override fun referencesIdentifiers(vararg name: String) = values.any { it.referencesIdentifiers(*name) }
-    override fun inferType(program: Program): InferredTypes.InferredType = InferredTypes.knownFor(DataType.STRUCT)
-
-    override fun toString(): String {
-        return "struct{ ${values.joinToString(", ")} }"
+        return CastValue(false, null)
     }
 }
 
@@ -499,7 +497,7 @@ class StringLiteralValue(val value: String,
         throw FatalAstException("can't replace here")
     }
 
-    override fun referencesIdentifiers(vararg name: String) = false
+    override fun referencesIdentifier(vararg scopedName: String) = false
     override fun constValue(program: Program): NumericLiteralValue? = null
     override fun accept(visitor: IAstVisitor) = visitor.visit(this)
     override fun accept(visitor: AstWalker, parent: Node)= visitor.visit(this, parent)
@@ -529,12 +527,12 @@ class ArrayLiteralValue(val type: InferredTypes.InferredType,     // inferred be
 
     override fun replaceChildNode(node: Node, replacement: Node) {
         require(replacement is Expression)
-        val idx = value.withIndex().find { it.value===node }!!.index
+        val idx = value.indexOfFirst { it===node }
         value[idx] = replacement
         replacement.parent = this
     }
 
-    override fun referencesIdentifiers(vararg name: String) = value.any { it.referencesIdentifiers(*name) }
+    override fun referencesIdentifier(vararg scopedName: String) = value.any { it.referencesIdentifier(*scopedName) }
     override fun constValue(program: Program): NumericLiteralValue? = null
     override fun accept(visitor: IAstVisitor) = visitor.visit(this)
     override fun accept(visitor: AstWalker, parent: Node)= visitor.visit(this, parent)
@@ -570,10 +568,17 @@ class ArrayLiteralValue(val type: InferredTypes.InferredType,     // inferred be
         val dts = datatypesInArray.map { it.typeOrElse(DataType.STRUCT) }
         return when {
             DataType.FLOAT in dts -> InferredTypes.InferredType.known(DataType.ARRAY_F)
+            DataType.STR in dts -> InferredTypes.InferredType.known(DataType.ARRAY_UW)
             DataType.WORD in dts -> InferredTypes.InferredType.known(DataType.ARRAY_W)
             DataType.UWORD in dts -> InferredTypes.InferredType.known(DataType.ARRAY_UW)
             DataType.BYTE in dts -> InferredTypes.InferredType.known(DataType.ARRAY_B)
             DataType.UBYTE in dts -> InferredTypes.InferredType.known(DataType.ARRAY_UB)
+            DataType.ARRAY_UW in dts ||
+                DataType.ARRAY_W in dts ||
+                DataType.ARRAY_UB in dts ||
+                DataType.ARRAY_B in dts ||
+                DataType.ARRAY_F in dts ||
+                DataType.STRUCT in dts -> InferredTypes.InferredType.known(DataType.ARRAY_UW)
             else -> InferredTypes.InferredType.unknown()
         }
     }
@@ -588,14 +593,14 @@ class ArrayLiteralValue(val type: InferredTypes.InferredType,     // inferred be
                 if(num==null) {
                     // an array of UWORDs could possibly also contain AddressOfs, other stuff can't be casted
                     if (elementType != DataType.UWORD || it !is AddressOf)
-                        return null
+                        return null  // can't cast a value of  the array, abort
                     it
                 } else {
-                    try {
-                        num.cast(elementType)
-                    } catch(x: ExpressionError) {
-                        return null
-                    }
+                    val cast = num.cast(elementType)
+                    if(cast.isValid)
+                        cast.valueOrZero()
+                    else
+                        return null // can't cast a value of the array, abort
                 }
             }.toTypedArray()
             return ArrayLiteralValue(InferredTypes.InferredType.known(targettype), castArray, position = position)
@@ -632,7 +637,7 @@ class RangeExpr(var from: Expression,
     override fun accept(visitor: IAstVisitor) = visitor.visit(this)
     override fun accept(visitor: AstWalker, parent: Node)= visitor.visit(this, parent)
 
-    override fun referencesIdentifiers(vararg name: String): Boolean  = from.referencesIdentifiers(*name) || to.referencesIdentifiers(*name)
+    override fun referencesIdentifier(vararg scopedName: String): Boolean  = from.referencesIdentifier(*scopedName) || to.referencesIdentifier(*scopedName)
     override fun inferType(program: Program): InferredTypes.InferredType {
         val fromDt=from.inferType(program)
         val toDt=to.inferType(program)
@@ -643,7 +648,14 @@ class RangeExpr(var from: Expression,
             fromDt istype DataType.STR && toDt istype DataType.STR -> InferredTypes.knownFor(DataType.STR)
             fromDt istype DataType.WORD || toDt istype DataType.WORD -> InferredTypes.knownFor(DataType.ARRAY_W)
             fromDt istype DataType.BYTE || toDt istype DataType.BYTE -> InferredTypes.knownFor(DataType.ARRAY_B)
-            else -> InferredTypes.knownFor(DataType.ARRAY_UB)
+            else -> {
+                val fdt = fromDt.typeOrElse(DataType.STRUCT)
+                val tdt = toDt.typeOrElse(DataType.STRUCT)
+                if(fdt largerThan tdt)
+                    InferredTypes.knownFor(ElementArrayTypes.getValue(fdt))
+                else
+                    InferredTypes.knownFor(ElementArrayTypes.getValue(tdt))
+            }
         }
     }
     override fun toString(): String {
@@ -665,8 +677,8 @@ class RangeExpr(var from: Expression,
         val toString = to as? StringLiteralValue
         if(fromString!=null && toString!=null ) {
             // string range -> int range over character values
-            fromVal = CompilationTarget.encodeString(fromString.value, fromString.altEncoding)[0].toInt()
-            toVal = CompilationTarget.encodeString(toString.value, fromString.altEncoding)[0].toInt()
+            fromVal = CompilationTarget.instance.encodeString(fromString.value, fromString.altEncoding)[0].toInt()
+            toVal = CompilationTarget.instance.encodeString(toString.value, fromString.altEncoding)[0].toInt()
         } else {
             val fromLv = from as? NumericLiteralValue
             val toLv = to as? NumericLiteralValue
@@ -696,29 +708,6 @@ internal fun makeRange(fromVal: Int, toVal: Int, stepVal: Int): IntProgression {
     }
 }
 
-class RegisterExpr(val register: Register, override val position: Position) : Expression(), IAssignable {
-    override lateinit var parent: Node
-
-    override fun linkParents(parent: Node) {
-        this.parent = parent
-    }
-
-    override fun replaceChildNode(node: Node, replacement: Node) {
-        throw FatalAstException("can't replace here")
-    }
-
-    override fun constValue(program: Program): NumericLiteralValue? = null
-    override fun accept(visitor: IAstVisitor) = visitor.visit(this)
-    override fun accept(visitor: AstWalker, parent: Node)= visitor.visit(this, parent)
-
-    override fun referencesIdentifiers(vararg name: String): Boolean = register.name in name
-    override fun toString(): String {
-        return "RegisterExpr(register=$register, pos=$position)"
-    }
-
-    override fun inferType(program: Program): InferredTypes.InferredType = InferredTypes.knownFor(DataType.UBYTE)
-}
-
 data class IdentifierReference(val nameInSource: List<String>, override val position: Position) : Expression(), IAssignable {
     override lateinit var parent: Node
 
@@ -732,6 +721,7 @@ data class IdentifierReference(val nameInSource: List<String>, override val posi
     fun targetSubroutine(namespace: INameScope): Subroutine? = targetStatement(namespace) as? Subroutine
 
     override fun equals(other: Any?) = other is IdentifierReference && other.nameInSource==nameInSource
+    override fun hashCode() = nameInSource.hashCode()
 
     override fun linkParents(parent: Node) {
         this.parent = parent
@@ -760,14 +750,14 @@ data class IdentifierReference(val nameInSource: List<String>, override val posi
     override fun accept(visitor: IAstVisitor) = visitor.visit(this)
     override fun accept(visitor: AstWalker, parent: Node)= visitor.visit(this, parent)
 
-    override fun referencesIdentifiers(vararg name: String): Boolean = nameInSource.last() in name
+    override fun referencesIdentifier(vararg scopedName: String): Boolean =
+            nameInSource.size==scopedName.size && nameInSource.toTypedArray().contentEquals(scopedName)
 
     override fun inferType(program: Program): InferredTypes.InferredType {
-        val targetStmt = targetStatement(program.namespace)
-        return if(targetStmt is VarDecl) {
-            InferredTypes.knownFor(targetStmt.datatype)
-        } else {
-            InferredTypes.InferredType.unknown()
+        return when (val targetStmt = targetStatement(program.namespace)) {
+            is VarDecl -> InferredTypes.knownFor(targetStmt.datatype)
+            is StructDecl -> InferredTypes.knownFor(DataType.STRUCT)
+            else -> InferredTypes.InferredType.unknown()
         }
     }
 
@@ -783,6 +773,21 @@ data class IdentifierReference(val nameInSource: List<String>, override val posi
             else -> throw FatalAstException("requires a reference value")
         }
     }
+
+    fun firstStructVarName(namespace: INameScope): String? {
+        // take the name of the first struct member of the structvariable instead
+        // if it's just a regular variable, return null.
+        val struct = memberOfStruct(namespace) ?: return null
+        val decl = targetVarDecl(namespace)!!
+        if(decl.datatype!=DataType.STRUCT)
+            return null
+
+        val firstStructMember = struct.nameOfFirstMember()
+        // find the flattened var that belongs to this first struct member
+        val firstVarName = listOf(decl.name, firstStructMember)
+        val firstVar = definingScope().lookup(firstVarName, this) as VarDecl
+        return firstVar.name
+    }
 }
 
 class FunctionCall(override var target: IdentifierReference,
@@ -800,7 +805,7 @@ class FunctionCall(override var target: IdentifierReference,
         if(node===target)
             target=replacement as IdentifierReference
         else {
-            val idx = args.withIndex().find { it.value===node }!!.index
+            val idx = args.indexOfFirst { it===node }
             args[idx] = replacement as Expression
         }
         replacement.parent = this
@@ -819,7 +824,7 @@ class FunctionCall(override var target: IdentifierReference,
                 val exprfunc = func.constExpressionFunc
                 if(exprfunc!=null)
                     resultValue = exprfunc(args, position, program)
-                else if(func.returntype==null)
+                else if(func.known_returntype==null)
                     throw ExpressionError("builtin function ${target.nameInSource[0]} can't be used here because it doesn't return a value", position)
             }
 
@@ -849,7 +854,7 @@ class FunctionCall(override var target: IdentifierReference,
     override fun accept(visitor: IAstVisitor) = visitor.visit(this)
     override fun accept(visitor: AstWalker, parent: Node)= visitor.visit(this, parent)
 
-    override fun referencesIdentifiers(vararg name: String): Boolean = target.referencesIdentifiers(*name) || args.any{it.referencesIdentifiers(*name)}
+    override fun referencesIdentifier(vararg scopedName: String): Boolean = target.referencesIdentifier(*scopedName) || args.any{it.referencesIdentifier(*scopedName)}
 
     override fun inferType(program: Program): InferredTypes.InferredType {
         val constVal = constValue(program ,false)
@@ -869,6 +874,12 @@ class FunctionCall(override var target: IdentifierReference,
                     return InferredTypes.void()     // no return value
                 if(stmt.returntypes.size==1)
                     return InferredTypes.knownFor(stmt.returntypes[0])
+
+                // multiple return values. Can occur for asmsub routines. If there is exactly one register return value, take that.
+                val numRegisterReturns = stmt.asmReturnvaluesRegisters.count { it.registerOrPair!=null }
+                if(numRegisterReturns==1)
+                    return InferredTypes.InferredType.known(DataType.UBYTE)
+
                 return InferredTypes.unknown()     // has multiple return types... so not a single resulting datatype possible
             }
             else -> return InferredTypes.unknown()

compiler/src/prog8/ast/expressions/InferredTypes.kt

@@ -35,6 +35,13 @@ object InferredTypes {
         }
 
         override fun hashCode(): Int = Objects.hash(isVoid, datatype)
+
+        infix fun isAssignableTo(targetDt: InferredType): Boolean =
+                isKnown && targetDt.isKnown && (datatype!! isAssignableTo targetDt.datatype!!)
+        infix fun isAssignableTo(targetDt: DataType): Boolean =
+                isKnown && (datatype!! isAssignableTo targetDt)
+        infix fun isNotAssignableTo(targetDt: InferredType): Boolean = !this.isAssignableTo(targetDt)
+        infix fun isNotAssignableTo(targetDt: DataType): Boolean = !this.isAssignableTo(targetDt)
     }
 
     private val unknownInstance = InferredType.unknown()

compiler/src/prog8/ast/processing/AstChecker.kt

@@ -7,7 +7,9 @@ import prog8.ast.base.*
 import prog8.ast.expressions.*
 import prog8.ast.statements.*
 import prog8.compiler.CompilationOptions
+import prog8.compiler.target.C64Target
 import prog8.compiler.target.CompilationTarget
+import prog8.compiler.target.Cx16Target
 import prog8.functions.BuiltinFunctions
 import java.io.File
 
@@ -110,48 +112,52 @@ internal class AstChecker(private val program: Program,
     }
 
     override fun visit(forLoop: ForLoop) {
-        if(forLoop.body.containsNoCodeNorVars())
-            errors.warn("for loop body is empty", forLoop.position)
-
         val iterableDt = forLoop.iterable.inferType(program).typeOrElse(DataType.BYTE)
         if(iterableDt !in IterableDatatypes && forLoop.iterable !is RangeExpr) {
             errors.err("can only loop over an iterable type", forLoop.position)
         } else {
-            if (forLoop.loopRegister != null) {
-                // loop register
-                if (iterableDt != DataType.ARRAY_UB && iterableDt != DataType.ARRAY_B && iterableDt != DataType.STR)
-                    errors.err("register can only loop over bytes", forLoop.position)
-                if(forLoop.loopRegister!=Register.A)
-                    errors.err("it's only possible to use A as a loop register", forLoop.position)
+            val loopvar = forLoop.loopVar.targetVarDecl(program.namespace)
+            if(loopvar==null || loopvar.type== VarDeclType.CONST) {
+                errors.err("for loop requires a variable to loop with", forLoop.position)
             } else {
-                // loop variable
-                val loopvar = forLoop.loopVar!!.targetVarDecl(program.namespace)
-                if(loopvar==null || loopvar.type== VarDeclType.CONST) {
-                    errors.err("for loop requires a variable to loop with", forLoop.position)
-                } else {
-                    when (loopvar.datatype) {
-                        DataType.UBYTE -> {
-                            if(iterableDt!= DataType.UBYTE && iterableDt!= DataType.ARRAY_UB && iterableDt != DataType.STR)
-                                errors.err("ubyte loop variable can only loop over unsigned bytes or strings", forLoop.position)
-                        }
-                        DataType.UWORD -> {
-                            if(iterableDt!= DataType.UBYTE && iterableDt!= DataType.UWORD && iterableDt != DataType.STR &&
-                                    iterableDt != DataType.ARRAY_UB && iterableDt!= DataType.ARRAY_UW)
-                                errors.err("uword loop variable can only loop over unsigned bytes, words or strings", forLoop.position)
-                        }
-                        DataType.BYTE -> {
-                            if(iterableDt!= DataType.BYTE && iterableDt!= DataType.ARRAY_B)
-                                errors.err("byte loop variable can only loop over bytes", forLoop.position)
-                        }
-                        DataType.WORD -> {
-                            if(iterableDt!= DataType.BYTE && iterableDt!= DataType.WORD &&
-                                    iterableDt != DataType.ARRAY_B && iterableDt!= DataType.ARRAY_W)
-                                errors.err("word loop variable can only loop over bytes or words", forLoop.position)
-                        }
-                        DataType.FLOAT -> {
-                            errors.err("for loop only supports integers", forLoop.position)
-                        }
-                        else -> errors.err("loop variable must be numeric type", forLoop.position)
+                when (loopvar.datatype) {
+                    DataType.UBYTE -> {
+                        if(iterableDt!= DataType.UBYTE && iterableDt!= DataType.ARRAY_UB && iterableDt != DataType.STR)
+                            errors.err("ubyte loop variable can only loop over unsigned bytes or strings", forLoop.position)
+                    }
+                    DataType.UWORD -> {
+                        if(iterableDt!= DataType.UBYTE && iterableDt!= DataType.UWORD && iterableDt != DataType.STR &&
+                                iterableDt != DataType.ARRAY_UB && iterableDt!= DataType.ARRAY_UW)
+                            errors.err("uword loop variable can only loop over unsigned bytes, words or strings", forLoop.position)
+                    }
+                    DataType.BYTE -> {
+                        if(iterableDt!= DataType.BYTE && iterableDt!= DataType.ARRAY_B)
+                            errors.err("byte loop variable can only loop over bytes", forLoop.position)
+                    }
+                    DataType.WORD -> {
+                        if(iterableDt!= DataType.BYTE && iterableDt!= DataType.WORD &&
+                                iterableDt != DataType.ARRAY_B && iterableDt!= DataType.ARRAY_W)
+                            errors.err("word loop variable can only loop over bytes or words", forLoop.position)
+                    }
+                    DataType.FLOAT -> {
+                        errors.err("for loop only supports integers", forLoop.position)
+                    }
+                    else -> errors.err("loop variable must be numeric type", forLoop.position)
+                }
+                if(errors.isEmpty()) {
+                    // check loop range values
+                    val range = forLoop.iterable as? RangeExpr
+                    if(range!=null) {
+                        val from = range.from as? NumericLiteralValue
+                        val to = range.to as? NumericLiteralValue
+                        if(from != null)
+                            checkValueTypeAndRange(loopvar.datatype, from)
+                        else if(!range.from.inferType(program).istype(loopvar.datatype))
+                            errors.err("range start value is incompatible with loop variable type", range.position)
+                        if(to != null)
+                            checkValueTypeAndRange(loopvar.datatype, to)
+                        else if(!range.to.inferType(program).istype(loopvar.datatype))
+                            errors.err("range end value is incompatible with loop variable type", range.position)
                     }
                 }
             }
@@ -244,44 +250,45 @@ internal class AstChecker(private val program: Program,
                         err("parameter '${param.first.name}' should be ubyte")
                 }
             }
-            for(ret in subroutine.returntypes.withIndex().zip(subroutine.asmReturnvaluesRegisters)) {
-                if(ret.second.registerOrPair in setOf(RegisterOrPair.A, RegisterOrPair.X, RegisterOrPair.Y)) {
-                    if (ret.first.value != DataType.UBYTE && ret.first.value != DataType.BYTE)
-                        err("return value #${ret.first.index + 1} should be (u)byte")
+            subroutine.returntypes.zip(subroutine.asmReturnvaluesRegisters).forEachIndexed { index, pair ->
+                if(pair.second.registerOrPair in setOf(RegisterOrPair.A, RegisterOrPair.X, RegisterOrPair.Y)) {
+                    if (pair.first != DataType.UBYTE && pair.first != DataType.BYTE)
+                        err("return value #${index + 1} should be (u)byte")
                 }
-                else if(ret.second.registerOrPair in setOf(RegisterOrPair.AX, RegisterOrPair.AY, RegisterOrPair.XY)) {
-                    if (ret.first.value != DataType.UWORD && ret.first.value != DataType.WORD
-                            && ret.first.value != DataType.STR && ret.first.value !in ArrayDatatypes && ret.first.value != DataType.FLOAT)
-                        err("return value #${ret.first.index + 1} should be (u)word/address")
+                else if(pair.second.registerOrPair in setOf(RegisterOrPair.AX, RegisterOrPair.AY, RegisterOrPair.XY)) {
+                    if (pair.first != DataType.UWORD && pair.first != DataType.WORD
+                            && pair.first != DataType.STR && pair.first !in ArrayDatatypes && pair.first != DataType.FLOAT)
+                        err("return value #${index + 1} should be (u)word/address")
                 }
-                else if(ret.second.statusflag!=null) {
-                    if (ret.first.value != DataType.UBYTE)
-                        err("return value #${ret.first.index + 1} should be ubyte")
+                else if(pair.second.statusflag!=null) {
+                    if (pair.first != DataType.UBYTE)
+                        err("return value #${index + 1} should be ubyte")
                 }
             }
 
-            val regCounts = mutableMapOf<Register, Int>().withDefault { 0 }
+            val regCounts = mutableMapOf<CpuRegister, Int>().withDefault { 0 }
             val statusflagCounts = mutableMapOf<Statusflag, Int>().withDefault { 0 }
             fun countRegisters(from: Iterable<RegisterOrStatusflag>) {
                 regCounts.clear()
                 statusflagCounts.clear()
                 for(p in from) {
                     when(p.registerOrPair) {
-                        RegisterOrPair.A -> regCounts[Register.A]=regCounts.getValue(Register.A)+1
-                        RegisterOrPair.X -> regCounts[Register.X]=regCounts.getValue(Register.X)+1
-                        RegisterOrPair.Y -> regCounts[Register.Y]=regCounts.getValue(Register.Y)+1
+                        RegisterOrPair.A -> regCounts[CpuRegister.A]=regCounts.getValue(CpuRegister.A)+1
+                        RegisterOrPair.X -> regCounts[CpuRegister.X]=regCounts.getValue(CpuRegister.X)+1
+                        RegisterOrPair.Y -> regCounts[CpuRegister.Y]=regCounts.getValue(CpuRegister.Y)+1
                         RegisterOrPair.AX -> {
-                            regCounts[Register.A]=regCounts.getValue(Register.A)+1
-                            regCounts[Register.X]=regCounts.getValue(Register.X)+1
+                            regCounts[CpuRegister.A]=regCounts.getValue(CpuRegister.A)+1
+                            regCounts[CpuRegister.X]=regCounts.getValue(CpuRegister.X)+1
                         }
                         RegisterOrPair.AY -> {
-                            regCounts[Register.A]=regCounts.getValue(Register.A)+1
-                            regCounts[Register.Y]=regCounts.getValue(Register.Y)+1
+                            regCounts[CpuRegister.A]=regCounts.getValue(CpuRegister.A)+1
+                            regCounts[CpuRegister.Y]=regCounts.getValue(CpuRegister.Y)+1
                         }
                         RegisterOrPair.XY -> {
-                            regCounts[Register.X]=regCounts.getValue(Register.X)+1
-                            regCounts[Register.Y]=regCounts.getValue(Register.Y)+1
+                            regCounts[CpuRegister.X]=regCounts.getValue(CpuRegister.X)+1
+                            regCounts[CpuRegister.Y]=regCounts.getValue(CpuRegister.Y)+1
                         }
+                        RegisterOrPair.FAC1, RegisterOrPair.FAC2 -> { /* no sensible way to count this */ }
                         null ->
                             if(p.statusflag!=null)
                                 statusflagCounts[p.statusflag] = statusflagCounts.getValue(p.statusflag) + 1
@@ -316,43 +323,34 @@ internal class AstChecker(private val program: Program,
         } else {
             // Pass-by-reference datatypes can not occur as parameters to a subroutine directly
             // Instead, their reference (address) should be passed (as an UWORD).
-            // The language has no typed pointers at this time.
             if(subroutine.parameters.any{it.type in PassByReferenceDatatypes }) {
-                err("Pass-by-reference types (str, array) cannot occur as a parameter type directly. Instead, use an uword for their address, or access the variable from the outer scope directly.")
+                err("Pass-by-reference types (str, array) cannot occur as a parameter type directly. Instead, use an uword to receive their address, or access the variable from the outer scope directly.")
             }
         }
-
-        visitStatements(subroutine.statements)
     }
 
-    override fun visit(repeatLoop: RepeatLoop) {
-        if(repeatLoop.untilCondition.referencesIdentifiers("A", "X", "Y"))
-            errors.warn("using a register in the loop condition is risky (it could get clobbered)", repeatLoop.untilCondition.position)
-        if(repeatLoop.untilCondition.inferType(program).typeOrElse(DataType.STRUCT) !in IntegerDatatypes)
-            errors.err("condition value should be an integer type", repeatLoop.untilCondition.position)
-        super.visit(repeatLoop)
+    override fun visit(untilLoop: UntilLoop) {
+        if(untilLoop.condition.inferType(program).typeOrElse(DataType.STRUCT) !in IntegerDatatypes)
+            errors.err("condition value should be an integer type", untilLoop.condition.position)
+        super.visit(untilLoop)
     }
 
     override fun visit(whileLoop: WhileLoop) {
-        if(whileLoop.condition.referencesIdentifiers("A", "X", "Y"))
-            errors.warn("using a register in the loop condition is risky (it could get clobbered)", whileLoop.condition.position)
         if(whileLoop.condition.inferType(program).typeOrElse(DataType.STRUCT) !in IntegerDatatypes)
             errors.err("condition value should be an integer type", whileLoop.condition.position)
         super.visit(whileLoop)
     }
 
     override fun visit(assignment: Assignment) {
-        // assigning from a functioncall COULD return multiple values (from an asm subroutine)
         if(assignment.value is FunctionCall) {
             val stmt = (assignment.value as FunctionCall).target.targetStatement(program.namespace)
-            if (stmt is Subroutine && stmt.isAsmSubroutine) {
-                if(stmt.returntypes.size>1)
-                    errors.err("It's not possible to store the multiple results of this asmsub call; you should use a small block of custom inline assembly for this.", assignment.value.position)
-                else {
-                    val idt = assignment.target.inferType(program, assignment)
-                    if(!idt.isKnown || stmt.returntypes.single()!=idt.typeOrElse(DataType.BYTE)) {
-                         errors.err("return type mismatch", assignment.value.position)
-                    }
+            if (stmt is Subroutine) {
+                val idt = assignment.target.inferType(program)
+                if(!idt.isKnown) {
+                     errors.err("return type mismatch", assignment.value.position)
+                }
+                if(stmt.returntypes.size <= 1 && stmt.returntypes.single() isNotAssignableTo idt.typeOrElse(DataType.BYTE)) {
+                    errors.err("return type mismatch", assignment.value.position)
                 }
             }
         }
@@ -361,9 +359,9 @@ internal class AstChecker(private val program: Program,
         if(targetIdent!=null) {
             val targetVar = targetIdent.targetVarDecl(program.namespace)
             if(targetVar?.struct != null) {
-                val sourceStructLv = assignment.value as? StructLiteralValue
+                val sourceStructLv = assignment.value as? ArrayLiteralValue
                 if (sourceStructLv != null) {
-                    if (sourceStructLv.values.size != targetVar.struct?.numberOfElements)
+                    if (sourceStructLv.value.size != targetVar.struct?.numberOfElements)
                         errors.err("number of elements doesn't match struct definition", sourceStructLv.position)
                 } else {
                     val sourceIdent = assignment.value as? IdentifierReference
@@ -372,14 +370,28 @@ internal class AstChecker(private val program: Program,
                         if (sourceVar?.struct != null) {
                             if (sourceVar.struct !== targetVar.struct)
                                 errors.err("assignment of different struct types", assignment.position)
+                        } else if(sourceVar?.isArray==true) {
+                            if((sourceVar.value as ArrayLiteralValue).value.size != targetVar.struct?.numberOfElements)
+                                errors.err("number of elements doesn't match struct definition", sourceVar.position)
                         }
                     }
                 }
             }
         }
 
-        if(assignment.value.inferType(program) != assignment.target.inferType(program, assignment))
-            errors.err("assignment value is of different type as the target", assignment.value.position)
+        val targetDt = assignment.target.inferType(program)
+        val valueDt = assignment.value.inferType(program)
+        if(valueDt.isKnown && !(valueDt isAssignableTo targetDt)) {
+            if(targetDt.typeOrElse(DataType.STRUCT) in IterableDatatypes)
+                errors.err("cannot assign value to string or array", assignment.value.position)
+            else
+                errors.err("value's type doesn't match target", assignment.value.position)
+        }
+
+        if(assignment.value is TypecastExpression) {
+            if(assignment.isAugmentable && targetDt.istype(DataType.FLOAT))
+                errors.err("typecasting a float value in-place makes no sense", assignment.value.position)
+        }
 
         super.visit(assignment)
     }
@@ -397,8 +409,7 @@ internal class AstChecker(private val program: Program,
         val targetIdentifier = assignTarget.identifier
         if (targetIdentifier != null) {
             val targetName = targetIdentifier.nameInSource
-            val targetSymbol = program.namespace.lookup(targetName, assignment)
-            when (targetSymbol) {
+            when (val targetSymbol = program.namespace.lookup(targetName, assignment)) {
                 null -> {
                     errors.err("undefined symbol: ${targetIdentifier.nameInSource.joinToString(".")}", targetIdentifier.position)
                     return
@@ -423,19 +434,15 @@ internal class AstChecker(private val program: Program,
 
         if (assignment is Assignment) {
 
-            val targetDatatype = assignTarget.inferType(program, assignment)
+            val targetDatatype = assignTarget.inferType(program)
             if (targetDatatype.isKnown) {
                 val constVal = assignment.value.constValue(program)
                 if (constVal != null) {
                     checkValueTypeAndRange(targetDatatype.typeOrElse(DataType.BYTE), constVal)
                 } else {
                     val sourceDatatype = assignment.value.inferType(program)
-                    if (!sourceDatatype.isKnown) {
-                        if (assignment.value is FunctionCall) {
-                            val targetStmt = (assignment.value as FunctionCall).target.targetStatement(program.namespace)
-                            if (targetStmt != null)
-                                errors.err("function call doesn't return a suitable value to use in assignment", assignment.value.position)
-                        } else
+                    if (sourceDatatype.isUnknown) {
+                        if (assignment.value !is FunctionCall)
                             errors.err("assignment value is invalid or has no proper datatype", assignment.value.position)
                     } else {
                         checkAssignmentCompatible(targetDatatype.typeOrElse(DataType.BYTE), assignTarget,
@@ -451,21 +458,21 @@ internal class AstChecker(private val program: Program,
         if(variable==null)
             errors.err("pointer-of operand must be the name of a heap variable", addressOf.position)
         else {
-            if(variable.datatype !in ArrayDatatypes && variable.datatype != DataType.STR && variable.datatype!=DataType.STRUCT)
+            if(variable.datatype !in ArrayDatatypes
+                    && variable.type!=VarDeclType.MEMORY
+                    && variable.struct == null
+                    && variable.datatype != DataType.STR && variable.datatype!=DataType.STRUCT)
                 errors.err("invalid pointer-of operand type", addressOf.position)
         }
         super.visit(addressOf)
     }
 
     override fun visit(decl: VarDecl) {
-        fun err(msg: String, position: Position?=null) {
-            errors.err(msg, position ?: decl.position)
-        }
+        fun err(msg: String, position: Position?=null) = errors.err(msg, position ?: decl.position)
 
         // the initializer value can't refer to the variable itself (recursive definition)
-        if(decl.value?.referencesIdentifiers(decl.name) == true || decl.arraysize?.index?.referencesIdentifiers(decl.name) == true) {
+        if(decl.value?.referencesIdentifier(decl.name) == true || decl.arraysize?.indexVar?.referencesIdentifier(decl.name) == true)
             err("recursive var declaration")
-        }
 
         // CONST can only occur on simple types (byte, word, float)
         if(decl.type== VarDeclType.CONST) {
@@ -473,10 +480,12 @@ internal class AstChecker(private val program: Program,
                 err("const modifier can only be used on numeric types (byte, word, float)")
         }
 
-        // FLOATS
-        if(!compilerOptions.floats && decl.datatype in setOf(DataType.FLOAT, DataType.ARRAY_F) && decl.type!= VarDeclType.MEMORY) {
+        // FLOATS enabled?
+        if(!compilerOptions.floats && decl.datatype in setOf(DataType.FLOAT, DataType.ARRAY_F) && decl.type!= VarDeclType.MEMORY)
             err("floating point used, but that is not enabled via options")
-        }
+
+        if(decl.datatype == DataType.FLOAT && (decl.zeropage==ZeropageWish.REQUIRE_ZEROPAGE || decl.zeropage==ZeropageWish.PREFER_ZEROPAGE))
+            errors.warn("floating point values won't be placed in Zeropage due to size constraints", decl.position)
 
         // ARRAY without size specifier MUST have an iterable initializer value
         if(decl.isArray && decl.arraysize==null) {
@@ -509,29 +518,21 @@ internal class AstChecker(private val program: Program,
 
                 when(decl.value) {
                     null -> {
-                        // a vardecl without an initial value, don't bother with the rest
-                        return super.visit(decl)
+                        // a vardecl without an initial value, don't bother with it
                     }
                     is RangeExpr -> throw FatalAstException("range expression should have been converted to a true array value")
                     is StringLiteralValue -> {
                         checkValueTypeAndRangeString(decl.datatype, decl.value as StringLiteralValue)
                     }
                     is ArrayLiteralValue -> {
-                        val arraySpec = decl.arraysize ?: ArrayIndex.forArray(decl.value as ArrayLiteralValue)
-                        checkValueTypeAndRangeArray(decl.datatype, decl.struct, arraySpec, decl.value as ArrayLiteralValue)
-                    }
-                    is NumericLiteralValue -> {
-                        checkValueTypeAndRange(decl.datatype, decl.value as NumericLiteralValue)
-                    }
-                    is StructLiteralValue -> {
                         if(decl.datatype==DataType.STRUCT) {
                             val struct = decl.struct!!
-                            val structLv = decl.value as StructLiteralValue
-                            if(struct.numberOfElements != structLv.values.size) {
+                            val structLv = decl.value as ArrayLiteralValue
+                            if(struct.numberOfElements != structLv.value.size) {
                                 errors.err("struct value has incorrect number of elements", structLv.position)
                                 return
                             }
-                            for(value in structLv.values.zip(struct.statements)) {
+                            for(value in structLv.value.zip(struct.statements)) {
                                 val memberdecl = value.second as VarDecl
                                 val constValue = value.first.constValue(program)
                                 if(constValue==null) {
@@ -545,19 +546,25 @@ internal class AstChecker(private val program: Program,
                                 }
                             }
                         } else {
-                            errors.err("struct literal is wrong type to initialize this variable", decl.value!!.position)
+                            val arraySpec = decl.arraysize ?: ArrayIndex.forArray(decl.value as ArrayLiteralValue)
+                            checkValueTypeAndRangeArray(decl.datatype, decl.struct, arraySpec, decl.value as ArrayLiteralValue)
                         }
                     }
+                    is NumericLiteralValue -> {
+                        checkValueTypeAndRange(decl.datatype, decl.value as NumericLiteralValue)
+                    }
                     else -> {
-                        err("var/const declaration needs a compile-time constant initializer value, or range, instead found: ${decl.value!!.javaClass.simpleName}")
-                        super.visit(decl)
-                        return
+                        if(decl.type==VarDeclType.CONST) {
+                            err("const declaration needs a compile-time constant initializer value, or range")
+                            super.visit(decl)
+                            return
+                        }
                     }
                 }
             }
             VarDeclType.MEMORY -> {
                 if(decl.arraysize!=null) {
-                    val arraySize = decl.arraysize!!.size() ?: 1
+                    val arraySize = decl.arraysize!!.constIndex() ?: 1
                     when(decl.datatype) {
                         DataType.ARRAY_B, DataType.ARRAY_UB ->
                             if(arraySize > 256)
@@ -572,20 +579,58 @@ internal class AstChecker(private val program: Program,
                     }
                 }
 
-                if(decl.value !is NumericLiteralValue) {
-                    err("value of memory var decl is not a numeric literal (it is a ${decl.value!!.javaClass.simpleName}).", decl.value?.position)
-                } else {
+                if(decl.value is NumericLiteralValue) {
                     val value = decl.value as NumericLiteralValue
                     if (value.type !in IntegerDatatypes || value.number.toInt() < 0 || value.number.toInt() > 65535) {
                         err("memory address must be valid integer 0..\$ffff", decl.value?.position)
                     }
+                } else {
+                    err("value of memory mapped variable can only be a number, perhaps you meant to use an address pointer type instead?", decl.value?.position)
                 }
             }
         }
 
         val declValue = decl.value
-        if(declValue!=null && decl.type==VarDeclType.VAR && !declValue.inferType(program).istype(decl.datatype))
-            err("initialisation value has incompatible type (${declValue.inferType(program)}) for the variable (${decl.datatype})", declValue.position)
+        if(declValue!=null && decl.type==VarDeclType.VAR) {
+            if(decl.datatype==DataType.STRUCT) {
+                val valueIdt = declValue.inferType(program)
+                if(!valueIdt.isKnown)
+                    throw AstException("unknown dt")
+                val valueDt = valueIdt.typeOrElse(DataType.STRUCT)
+                if(valueDt !in ArrayDatatypes)
+                    err("initialisation of struct should be with array value", declValue.position)
+            } else if (!declValue.inferType(program).istype(decl.datatype)) {
+                err("initialisation value has incompatible type (${declValue.inferType(program)}) for the variable (${decl.datatype})", declValue.position)
+            }
+        }
+
+        // array length limits
+        if(decl.isArray) {
+            val length = decl.arraysize!!.constIndex() ?: 1
+            when (decl.datatype) {
+                DataType.STR, DataType.ARRAY_UB, DataType.ARRAY_B -> {
+                    if(length==0 || length>256)
+                        err("string and byte array length must be 1-256")
+                }
+                DataType.ARRAY_UW, DataType.ARRAY_W -> {
+                    if(length==0 || length>128)
+                        err("word array length must be 1-128")
+                }
+                DataType.ARRAY_F -> {
+                    if(length==0 || length>51)
+                        err("float array length must be 1-51")
+                }
+                else -> {}
+            }
+        }
+
+        // string assignment is not supported in a vard
+        if(decl.datatype==DataType.STR) {
+            if(decl.value==null)
+                err("string var must be initialized with a string literal")
+            else if (decl.type==VarDeclType.VAR && decl.value !is StringLiteralValue)
+                err("string var can only be initialized with a string literal")
+        }
 
         super.visit(decl)
     }
@@ -667,9 +712,17 @@ internal class AstChecker(private val program: Program,
                     err("this directive may only occur in a block or at module level")
                 if(directive.args.isEmpty())
                     err("missing option directive argument(s)")
-                else if(directive.args.map{it.name in setOf("enable_floats", "force_output")}.any { !it })
+                else if(directive.args.map{it.name in setOf("enable_floats", "force_output", "no_sysinit")}.any { !it })
                     err("invalid option directive argument(s)")
             }
+            "%target" -> {
+                if(directive.parent !is Block && directive.parent !is Module)
+                    err("this directive may only occur in a block or at module level")
+                if(directive.args.size != 1)
+                    err("directive requires one argument")
+                if(directive.args.single().name !in setOf(C64Target.name, Cx16Target.name))
+                    err("invalid compilation target")
+            }
             else -> throw SyntaxError("invalid directive ${directive.directive}", directive.position)
         }
         super.visit(directive)
@@ -692,6 +745,22 @@ internal class AstChecker(private val program: Program,
             checkValueTypeAndRangeArray(array.type.typeOrElse(DataType.STRUCT), null, arrayspec, array)
         }
 
+        fun isPassByReferenceElement(e: Expression): Boolean {
+            if(e is IdentifierReference) {
+                val decl = e.targetVarDecl(program.namespace)!!
+                return decl.datatype in PassByReferenceDatatypes
+            }
+            return e is StringLiteralValue
+        }
+
+        if(array.parent is VarDecl) {
+            if (!array.value.all { it is NumericLiteralValue || it is AddressOf || isPassByReferenceElement(it) })
+                errors.err("array literal for variable initialization contains invalid types", array.position)
+        } else if(array.parent is ForLoop) {
+            if (!array.value.all { it.constValue(program) != null })
+                errors.err("array literal for iteration must contain constants. Try using a separate array variable instead?", array.position)
+        }
+
         super.visit(array)
     }
 
@@ -701,16 +770,30 @@ internal class AstChecker(private val program: Program,
     }
 
     override fun visit(expr: PrefixExpression) {
+        val idt = expr.inferType(program)
+        if(!idt.isKnown)
+            return  // any error should be reported elsewhere
+
+        val dt = idt.typeOrElse(DataType.STRUCT)
         if(expr.operator=="-") {
-            val dt = expr.inferType(program).typeOrElse(DataType.STRUCT)
             if (dt != DataType.BYTE && dt != DataType.WORD && dt != DataType.FLOAT) {
                 errors.err("can only take negative of a signed number type", expr.position)
             }
         }
+        else if(expr.operator == "not") {
+            if(dt !in IntegerDatatypes)
+                errors.err("can only use boolean not on integer types", expr.position)
+        }
+        else if(expr.operator == "~") {
+            if(dt !in IntegerDatatypes)
+                errors.err("can only use bitwise invert on integer types", expr.position)
+        }
         super.visit(expr)
     }
 
     override fun visit(expr: BinaryExpression) {
+        super.visit(expr)
+
         val leftIDt = expr.left.inferType(program)
         val rightIDt = expr.right.inferType(program)
         if(!leftIDt.isKnown || !rightIDt.isKnown)
@@ -748,21 +831,14 @@ internal class AstChecker(private val program: Program,
                 if(leftDt !in IntegerDatatypes || rightDt !in IntegerDatatypes)
                     errors.err("bitwise operator can only be used on integer operands", expr.right.position)
             }
-            "<<", ">>" -> {
-                // for now, bit-shifts can only shift by a constant number
-                val constRight = expr.right.constValue(program)
-                if(constRight==null)
-                    errors.err("bit-shift can only be done by a constant number (for now)", expr.right.position)
-            }
         }
 
-        if(leftDt !in NumericDatatypes)
-            errors.err("left operand is not numeric", expr.left.position)
-        if(rightDt!in NumericDatatypes)
-            errors.err("right operand is not numeric", expr.right.position)
+        if(leftDt !in NumericDatatypes && leftDt != DataType.STR)
+            errors.err("left operand is not numeric or str", expr.left.position)
+        if(rightDt!in NumericDatatypes && rightDt != DataType.STR)
+            errors.err("right operand is not numeric or str", expr.right.position)
         if(leftDt!=rightDt)
             errors.err("left and right operands aren't the same type", expr.left.position)
-        super.visit(expr)
     }
 
     override fun visit(typecast: TypecastExpression) {
@@ -820,6 +896,32 @@ internal class AstChecker(private val program: Program,
                 errors.warn("sgn() of unsigned type is always 0 or 1, this is perhaps not what was intended", functionCall.args.first().position)
         }
 
+        val error = VerifyFunctionArgTypes.checkTypes(functionCall, functionCall.definingScope(), program)
+        if(error!=null)
+            errors.err(error, functionCall.position)
+
+        // check the functions that return multiple returnvalues.
+        val stmt = functionCall.target.targetStatement(program.namespace)
+        if (stmt is Subroutine) {
+            if (stmt.returntypes.size > 1) {
+                // Currently, it's only possible to handle ONE (or zero) return values from a subroutine.
+                // asmsub routines can have multiple return values, for instance in 2 different registers.
+                // It's not (yet) possible to handle these multiple return values because assignments
+                // are only to a single unique target at the same time.
+                //   EXCEPTION:
+                // if the asmsub returns multiple values and one of them is via a status register bit,
+                // it *is* possible to handle them by just actually assigning the register value and
+                // dealing with the status bit as just being that, the status bit after the call.
+                val (returnRegisters, returnStatusflags) = stmt.asmReturnvaluesRegisters.partition { rr -> rr.registerOrPair != null }
+                if (returnRegisters.isEmpty() || returnRegisters.size == 1) {
+                    if (returnStatusflags.any())
+                        errors.warn("this asmsub also has one or more return 'values' in one of the status flags", functionCall.position)
+                } else {
+                    errors.err("It's not possible to store the multiple result values of this asmsub call; you should use a small block of custom inline assembly for this.", functionCall.position)
+                }
+            }
+        }
+
         super.visit(functionCall)
     }
 
@@ -842,12 +944,18 @@ internal class AstChecker(private val program: Program,
             }
         }
 
-        if(functionCallStatement.target.nameInSource.last() in setOf("lsl", "lsr", "rol", "ror", "rol2", "ror2", "swap", "sort", "reverse")) {
+        if(functionCallStatement.target.nameInSource.last() in setOf("rol", "ror", "rol2", "ror2", "swap", "sort", "reverse")) {
             // in-place modification, can't be done on literals
-            if(functionCallStatement.args.any { it !is IdentifierReference && it !is RegisterExpr && it !is ArrayIndexedExpression && it !is DirectMemoryRead }) {
+            if(functionCallStatement.args.any { it !is IdentifierReference && it !is ArrayIndexedExpression && it !is DirectMemoryRead }) {
                 errors.err("invalid argument to a in-place modifying function", functionCallStatement.args.first().position)
             }
         }
+
+        val error = VerifyFunctionArgTypes.checkTypes(functionCallStatement, functionCallStatement.definingScope(), program)
+        if(error!=null) {
+            errors.err(error, functionCallStatement.args.firstOrNull()?.position ?: functionCallStatement.position)
+        }
+
         super.visit(functionCallStatement)
     }
 
@@ -856,79 +964,35 @@ internal class AstChecker(private val program: Program,
             errors.err("cannot use arguments when calling a label", position)
 
         if(target is BuiltinFunctionStatementPlaceholder) {
-            // it's a call to a builtin function.
-            val func = BuiltinFunctions.getValue(target.name)
-            if(args.size!=func.parameters.size)
-                errors.err("invalid number of arguments", position)
-            else {
-                val paramTypesForAddressOf = PassByReferenceDatatypes + DataType.UWORD
-                for (arg in args.withIndex().zip(func.parameters)) {
-                    val argDt=arg.first.value.inferType(program)
-                    if (argDt.isKnown
-                            && !(argDt.typeOrElse(DataType.STRUCT) isAssignableTo arg.second.possibleDatatypes)
-                            && (argDt.typeOrElse(DataType.STRUCT) != DataType.UWORD || arg.second.possibleDatatypes.intersect(paramTypesForAddressOf).isEmpty())) {
-                        errors.err("builtin function '${target.name}' argument ${arg.first.index + 1} has invalid type $argDt, expected ${arg.second.possibleDatatypes}", position)
-                    }
+            if(target.name=="swap") {
+                // swap() is a bit weird because this one is translated into a operations directly, instead of being a function call
+                val dt1 = args[0].inferType(program)
+                val dt2 = args[1].inferType(program)
+                if (dt1 != dt2)
+                    errors.err("swap requires 2 args of identical type", position)
+                else if (args[0].constValue(program) != null || args[1].constValue(program) != null)
+                    errors.err("swap requires 2 variables, not constant value(s)", position)
+                else if(args[0] isSameAs args[1])
+                    errors.err("swap should have 2 different args", position)
+                else if(dt1.typeOrElse(DataType.STRUCT) !in NumericDatatypes)
+                    errors.err("swap requires args of numerical type", position)
+            }
+            else if(target.name=="all" || target.name=="any") {
+                if((args[0] as? AddressOf)?.identifier?.targetVarDecl(program.namespace)?.datatype == DataType.STR) {
+                    errors.err("any/all on a string is useless (is always true unless the string is empty)", position)
                 }
-                if(target.name=="swap") {
-                    // swap() is a bit weird because this one is translated into a operations directly, instead of being a function call
-                    val dt1 = args[0].inferType(program)
-                    val dt2 = args[1].inferType(program)
-                    if (dt1 != dt2)
-                        errors.err("swap requires 2 args of identical type", position)
-                    else if (args[0].constValue(program) != null || args[1].constValue(program) != null)
-                        errors.err("swap requires 2 variables, not constant value(s)", position)
-                    else if(args[0] isSameAs args[1])
-                        errors.err("swap should have 2 different args", position)
-                    else if(dt1.typeOrElse(DataType.STRUCT) !in NumericDatatypes)
-                        errors.err("swap requires args of numerical type", position)
-                }
-                else if(target.name=="all" || target.name=="any") {
-                    if((args[0] as? AddressOf)?.identifier?.targetVarDecl(program.namespace)?.datatype == DataType.STR) {
-                        errors.err("any/all on a string is useless (is always true unless the string is empty)", position)
-                    }
-                    if(args[0].inferType(program).typeOrElse(DataType.STR) == DataType.STR) {
-                        errors.err("any/all on a string is useless (is always true unless the string is empty)", position)
-                    }
+                if(args[0].inferType(program).typeOrElse(DataType.STR) == DataType.STR) {
+                    errors.err("any/all on a string is useless (is always true unless the string is empty)", position)
                 }
             }
         } else if(target is Subroutine) {
             if(target.regXasResult())
                 errors.warn("subroutine call return value in X register is discarded and replaced by 0", position)
-            if(args.size!=target.parameters.size)
-                errors.err("invalid number of arguments", position)
-            else {
-                for (arg in args.withIndex().zip(target.parameters)) {
-                    val argIDt = arg.first.value.inferType(program)
-                    if(!argIDt.isKnown) {
+            if(target.isAsmSubroutine) {
+                for (arg in args.zip(target.parameters)) {
+                    val argIDt = arg.first.inferType(program)
+                    if (!argIDt.isKnown)
                         return
-                    }
-                    val argDt=argIDt.typeOrElse(DataType.STRUCT)
-                    if(!(argDt isAssignableTo arg.second.type)) {
-                        // for asm subroutines having STR param it's okay to provide a UWORD (address value)
-                        if(!(target.isAsmSubroutine && arg.second.type == DataType.STR && argDt == DataType.UWORD))
-                            errors.err("subroutine '${target.name}' argument ${arg.first.index + 1} has invalid type $argDt, expected ${arg.second.type}", position)
-                    }
-
-                    if(target.isAsmSubroutine) {
-                        if (target.asmParameterRegisters[arg.first.index].registerOrPair in setOf(RegisterOrPair.AX, RegisterOrPair.XY, RegisterOrPair.X)) {
-                            if (arg.first.value !is NumericLiteralValue && arg.first.value !is IdentifierReference)
-                                errors.warn("calling a subroutine that expects X as a parameter is problematic. If you see a compiler error/crash about this later, try to change this call", position)
-                        }
-
-                        // check if the argument types match the register(pairs)
-                        val asmParamReg = target.asmParameterRegisters[arg.first.index]
-                        if(asmParamReg.statusflag!=null) {
-                            if(argDt !in ByteDatatypes)
-                                errors.err("subroutine '${target.name}' argument ${arg.first.index + 1} must be byte type for statusflag", position)
-                        } else if(asmParamReg.registerOrPair in setOf(RegisterOrPair.A, RegisterOrPair.X, RegisterOrPair.Y)) {
-                            if(argDt !in ByteDatatypes)
-                                errors.err("subroutine '${target.name}' argument ${arg.first.index + 1} must be byte type for single register", position)
-                        } else if(asmParamReg.registerOrPair in setOf(RegisterOrPair.AX, RegisterOrPair.AY, RegisterOrPair.XY)) {
-                            if(argDt !in WordDatatypes + IterableDatatypes)
-                                errors.err("subroutine '${target.name}' argument ${arg.first.index + 1} must be word type for register pair", position)
-                        }
-                    }
                 }
             }
         }
@@ -949,7 +1013,7 @@ internal class AstChecker(private val program: Program,
                 }
             }
         } else if(postIncrDecr.target.arrayindexed != null) {
-            val target = postIncrDecr.target.arrayindexed?.identifier?.targetStatement(program.namespace)
+            val target = postIncrDecr.target.arrayindexed?.arrayvar?.targetStatement(program.namespace)
             if(target==null) {
                 errors.err("undefined symbol", postIncrDecr.position)
             }
@@ -964,32 +1028,38 @@ internal class AstChecker(private val program: Program,
     }
 
     override fun visit(arrayIndexedExpression: ArrayIndexedExpression) {
-        val target = arrayIndexedExpression.identifier.targetStatement(program.namespace)
+        val target = arrayIndexedExpression.arrayvar.targetStatement(program.namespace)
         if(target is VarDecl) {
             if(target.datatype !in IterableDatatypes)
                 errors.err("indexing requires an iterable variable", arrayIndexedExpression.position)
-            val arraysize = target.arraysize?.size()
+            val arraysize = target.arraysize?.constIndex()
             if(arraysize!=null) {
                 // check out of bounds
-                val index = (arrayIndexedExpression.arrayspec.index as? NumericLiteralValue)?.number?.toInt()
+                val index = arrayIndexedExpression.indexer.constIndex()
                 if(index!=null && (index<0 || index>=arraysize))
-                    errors.err("array index out of bounds", arrayIndexedExpression.arrayspec.position)
+                    errors.err("array index out of bounds", arrayIndexedExpression.indexer.position)
             } else if(target.datatype == DataType.STR) {
                 if(target.value is StringLiteralValue) {
                     // check string lengths for non-memory mapped strings
                     val stringLen = (target.value as StringLiteralValue).value.length
-                    val index = (arrayIndexedExpression.arrayspec.index as? NumericLiteralValue)?.number?.toInt()
+                    val index = arrayIndexedExpression.indexer.constIndex()
                     if (index != null && (index < 0 || index >= stringLen))
-                        errors.err("index out of bounds", arrayIndexedExpression.arrayspec.position)
+                        errors.err("index out of bounds", arrayIndexedExpression.indexer.position)
                 }
             }
         } else
             errors.err("indexing requires a variable to act upon", arrayIndexedExpression.position)
 
         // check index value 0..255
-        val dtx = arrayIndexedExpression.arrayspec.index.inferType(program).typeOrElse(DataType.STRUCT)
-        if(dtx!= DataType.UBYTE && dtx!= DataType.BYTE)
+        val dtxNum = arrayIndexedExpression.indexer.indexNum?.inferType(program)?.typeOrElse(DataType.STRUCT)
+        if(dtxNum!=null && dtxNum != DataType.UBYTE && dtxNum != DataType.BYTE)
             errors.err("array indexing is limited to byte size 0..255", arrayIndexedExpression.position)
+        val dtxVar = arrayIndexedExpression.indexer.indexVar?.inferType(program)?.typeOrElse(DataType.STRUCT)
+        if(dtxVar!=null && dtxVar != DataType.UBYTE && dtxVar != DataType.BYTE)
+            errors.err("array indexing is limited to byte size 0..255", arrayIndexedExpression.position)
+
+        if(arrayIndexedExpression.indexer.origExpression!=null)
+            throw FatalAstException("array indexer should have been replaced with a temp var @ ${arrayIndexedExpression.indexer.position}")
 
         super.visit(arrayIndexedExpression)
     }
@@ -1049,35 +1119,14 @@ internal class AstChecker(private val program: Program,
         }
     }
 
-    override fun visit(scope: AnonymousScope) {
-        visitStatements(scope.statements)
-    }
-
-    private fun visitStatements(statements: List<Statement>) {
-        for((index, stmt) in statements.withIndex()) {
-            if(index < statements.lastIndex && statements[index+1] !is Subroutine) {
-                when {
-                    stmt is FunctionCallStatement && stmt.target.nameInSource.last() == "exit" -> {
-                        errors.warn("unreachable code, preceding exit call will never return", statements[index + 1].position)
-                    }
-                    stmt is Return && statements[index + 1] !is Subroutine -> {
-                        errors.warn("unreachable code, preceding return statement", statements[index + 1].position)
-                    }
-                    stmt is Jump && statements[index + 1] !is Subroutine -> {
-                        errors.warn("unreachable code, preceding jump statement", statements[index + 1].position)
-                    }
-                }
-            }
-
-            stmt.accept(this)
-        }
-    }
-
     private fun checkFunctionOrLabelExists(target: IdentifierReference, statement: Statement): Statement? {
         val targetStatement = target.targetStatement(program.namespace)
         if(targetStatement is Label || targetStatement is Subroutine || targetStatement is BuiltinFunctionStatementPlaceholder)
             return targetStatement
-        errors.err("undefined function or subroutine: ${target.nameInSource.joinToString(".")}", statement.position)
+        else if(targetStatement==null)
+            errors.err("undefined function or subroutine: ${target.nameInSource.joinToString(".")}", statement.position)
+        else
+            errors.err("cannot call that: ${target.nameInSource.joinToString(".")}", statement.position)
         return null
     }
 
@@ -1101,7 +1150,7 @@ internal class AstChecker(private val program: Program,
         }
 
         if(value.type.isUnknown)
-            return err("attempt to check values of array with as yet unknown datatype")
+            return false
 
         when (targetDt) {
             DataType.STR -> return err("string value expected")
@@ -1110,15 +1159,12 @@ internal class AstChecker(private val program: Program,
                 if(value.type.istype(targetDt)) {
                     if(!checkArrayValues(value, targetDt))
                         return false
-                    val arraySpecSize = arrayspec.size()
+                    val arraySpecSize = arrayspec.constIndex()
                     val arraySize = value.value.size
                     if(arraySpecSize!=null && arraySpecSize>0) {
                         if(arraySpecSize<1 || arraySpecSize>256)
                             return err("byte array length must be 1-256")
-                        val constX = arrayspec.index.constValue(program)
-                        if(constX?.type !in IntegerDatatypes)
-                            return err("array size specifier must be constant integer value")
-                        val expectedSize = constX!!.number.toInt()
+                        val expectedSize = arrayspec.constIndex() ?: return err("array size specifier must be constant integer value")
                         if (arraySize != expectedSize)
                             return err("initializer array size mismatch (expecting $expectedSize, got $arraySize)")
                         return true
@@ -1132,15 +1178,12 @@ internal class AstChecker(private val program: Program,
                 if(value.type.istype(targetDt)) {
                     if(!checkArrayValues(value, targetDt))
                         return false
-                    val arraySpecSize = arrayspec.size()
+                    val arraySpecSize = arrayspec.constIndex()
                     val arraySize = value.value.size
                     if(arraySpecSize!=null && arraySpecSize>0) {
                         if(arraySpecSize<1 || arraySpecSize>128)
                             return err("word array length must be 1-128")
-                        val constX = arrayspec.index.constValue(program)
-                        if(constX?.type !in IntegerDatatypes)
-                            return err("array size specifier must be constant integer value")
-                        val expectedSize = constX!!.number.toInt()
+                        val expectedSize = arrayspec.constIndex() ?: return err("array size specifier must be constant integer value")
                         if (arraySize != expectedSize)
                             return err("initializer array size mismatch (expecting $expectedSize, got $arraySize)")
                         return true
@@ -1155,14 +1198,11 @@ internal class AstChecker(private val program: Program,
                     if(!checkArrayValues(value, targetDt))
                         return false
                     val arraySize = value.value.size
-                    val arraySpecSize = arrayspec.size()
+                    val arraySpecSize = arrayspec.constIndex()
                     if(arraySpecSize!=null && arraySpecSize>0) {
                         if(arraySpecSize < 1 || arraySpecSize>51)
                             return err("float array length must be 1-51")
-                        val constX = arrayspec.index.constValue(program)
-                        if(constX?.type !in IntegerDatatypes)
-                            return err("array size specifier must be constant integer value")
-                        val expectedSize = constX!!.number.toInt()
+                        val expectedSize = arrayspec.constIndex() ?: return err("array size specifier must be constant integer value")
                         if (arraySize != expectedSize)
                             return err("initializer array size mismatch (expecting $expectedSize, got $arraySize)")
                     } else
@@ -1170,7 +1210,7 @@ internal class AstChecker(private val program: Program,
 
                     // check if the floating point values are all within range
                     val doubles = value.value.map {it.constValue(program)?.number!!.toDouble()}.toDoubleArray()
-                    if(doubles.any { it < CompilationTarget.machine.FLOAT_MAX_NEGATIVE || it > CompilationTarget.machine.FLOAT_MAX_POSITIVE })
+                    if(doubles.any { it < CompilationTarget.instance.machine.FLOAT_MAX_NEGATIVE || it > CompilationTarget.instance.machine.FLOAT_MAX_POSITIVE })
                         return err("floating point value overflow")
                     return true
                 }
@@ -1183,7 +1223,7 @@ internal class AstChecker(private val program: Program,
                     for(elt in value.value.zip(struct.statements)) {
                         val vardecl = elt.second as VarDecl
                         val valuetype = elt.first.inferType(program)
-                        if (!valuetype.isKnown || !(valuetype.typeOrElse(DataType.STRUCT) isAssignableTo vardecl.datatype)) {
+                        if (!valuetype.isKnown || valuetype isNotAssignableTo vardecl.datatype) {
                             errors.err("invalid struct member init value type $valuetype, expected ${vardecl.datatype}", elt.first.position)
                             return false
                         }
@@ -1247,7 +1287,11 @@ internal class AstChecker(private val program: Program,
                 is AddressOf -> it.identifier.heapId(program.namespace)
                 is TypecastExpression -> {
                     val constVal = it.expression.constValue(program)
-                    constVal?.cast(it.type)?.number?.toInt() ?: -9999999
+                    val cast = constVal?.cast(it.type)
+                    if(cast==null || !cast.isValid)
+                        -9999999
+                    else
+                        cast.valueOrZero().number.toInt()
                 }
                 else -> -9999999
             }
@@ -1292,8 +1336,8 @@ internal class AstChecker(private val program: Program,
             DataType.STR -> sourceDatatype== DataType.STR
             DataType.STRUCT -> {
                 if(sourceDatatype==DataType.STRUCT) {
-                    val structLv = sourceValue as StructLiteralValue
-                    val numValues = structLv.values.size
+                    val structLv = sourceValue as ArrayLiteralValue
+                    val numValues = structLv.value.size
                     val targetstruct = target.identifier!!.targetVarDecl(program.namespace)!!.struct!!
                     return targetstruct.numberOfElements == numValues
                 }
@@ -1311,9 +1355,7 @@ internal class AstChecker(private val program: Program,
         else if(sourceDatatype== DataType.FLOAT && targetDatatype in IntegerDatatypes)
             errors.err("cannot assign float to ${targetDatatype.name.toLowerCase()}; possible loss of precision. Suggestion: round the value or revert to integer arithmetic", position)
         else {
-            if(targetDatatype==DataType.UWORD && sourceDatatype in PassByReferenceDatatypes)
-                errors.err("cannot assign ${sourceDatatype.name.toLowerCase()} to ${targetDatatype.name.toLowerCase()}, perhaps forgot '&' ?", position)
-            else
+            if(targetDatatype!=DataType.UWORD && sourceDatatype !in PassByReferenceDatatypes)
                 errors.err("cannot assign ${sourceDatatype.name.toLowerCase()} to ${targetDatatype.name.toLowerCase()}", position)
         }
 

compiler/src/prog8/ast/processing/AstIdentifiersChecker.kt

@@ -22,6 +22,9 @@ internal class AstIdentifiersChecker(private val program: Program, private val e
     }
 
     override fun visit(block: Block) {
+        if(block.name in CompilationTarget.instance.machine.opcodeNames)
+            errors.err("can't use a cpu opcode name as a symbol: '${block.name}'", block.position)
+
         val existing = blocks[block.name]
         if(existing!=null)
             nameError(block.name, block.position, existing)
@@ -31,13 +34,23 @@ internal class AstIdentifiersChecker(private val program: Program, private val e
         super.visit(block)
     }
 
+    override fun visit(directive: Directive) {
+        if(directive.directive=="%target") {
+            val compatibleTarget = directive.args.single().name
+            if (compatibleTarget != CompilationTarget.instance.name)
+                errors.err("module's compilation target ($compatibleTarget) differs from active target (${CompilationTarget.instance.name})", directive.position)
+        }
+
+        super.visit(directive)
+    }
+
     override fun visit(decl: VarDecl) {
         decl.datatypeErrors.forEach { errors.err(it.message, it.position) }
 
         if(decl.name in BuiltinFunctions)
             errors.err("builtin function cannot be redefined", decl.position)
 
-        if(decl.name in CompilationTarget.machine.opcodeNames)
+        if(decl.name in CompilationTarget.instance.machine.opcodeNames)
             errors.err("can't use a cpu opcode name as a symbol: '${decl.name}'", decl.position)
 
         if(decl.datatype==DataType.STRUCT) {
@@ -57,8 +70,8 @@ internal class AstIdentifiersChecker(private val program: Program, private val e
                 return super.visit(decl)
             }
 
-            if (decl.value != null && decl.value !is StructLiteralValue) {
-                errors.err("initializing requires struct literal value", decl.value?.position ?: decl.position)
+            if (decl.value != null && decl.value !is ArrayLiteralValue) {
+                errors.err("initializing a struct requires array literal value", decl.value?.position ?: decl.position)
                 return super.visit(decl)
             }
         }
@@ -67,11 +80,16 @@ internal class AstIdentifiersChecker(private val program: Program, private val e
         if (existing != null && existing !== decl)
             nameError(decl.name, decl.position, existing)
 
+        if(decl.definingBlock().name==decl.name)
+            nameError(decl.name, decl.position, decl.definingBlock())
+        if(decl.definingSubroutine()?.name==decl.name)
+            nameError(decl.name, decl.position, decl.definingSubroutine()!!)
+
         super.visit(decl)
     }
 
     override fun visit(subroutine: Subroutine) {
-        if(subroutine.name in CompilationTarget.machine.opcodeNames) {
+        if(subroutine.name in CompilationTarget.instance.machine.opcodeNames) {
             errors.err("can't use a cpu opcode name as a symbol: '${subroutine.name}'", subroutine.position)
         } else if(subroutine.name in BuiltinFunctions) {
             // the builtin functions can't be redefined
@@ -85,14 +103,6 @@ internal class AstIdentifiersChecker(private val program: Program, private val e
             if (existing != null && existing !== subroutine)
                 nameError(subroutine.name, subroutine.position, existing)
 
-            // does the parameter redefine a variable declared elsewhere?
-            for(param in subroutine.parameters) {
-                val existingVar = subroutine.lookup(listOf(param.name), subroutine)
-                if (existingVar != null && existingVar.parent !== subroutine) {
-                    nameError(param.name, param.position, existingVar)
-                }
-            }
-
             // check that there are no local variables, labels, or other subs that redefine the subroutine's parameters
             val symbolsInSub = subroutine.allDefinedSymbols()
             val namesInSub = symbolsInSub.map{ it.first }.toSet()
@@ -116,7 +126,7 @@ internal class AstIdentifiersChecker(private val program: Program, private val e
     }
 
     override fun visit(label: Label) {
-        if(label.name in CompilationTarget.machine.opcodeNames)
+        if(label.name in CompilationTarget.instance.machine.opcodeNames)
             errors.err("can't use a cpu opcode name as a symbol: '${label.name}'", label.position)
 
         if(label.name in BuiltinFunctions) {
@@ -137,24 +147,9 @@ internal class AstIdentifiersChecker(private val program: Program, private val e
         super.visit(label)
     }
 
-    override fun visit(forLoop: ForLoop) {
-        if (forLoop.loopRegister != null) {
-            if (forLoop.loopRegister == Register.X)
-                errors.warn("writing to the X register is dangerous, because it's used as an internal pointer", forLoop.position)
-        }
-
-        super.visit(forLoop)
-    }
-
-    override fun visit(assignTarget: AssignTarget) {
-        if(assignTarget.register== Register.X)
-            errors.warn("writing to the X register is dangerous, because it's used as an internal pointer", assignTarget.position)
-        super.visit(assignTarget)
-    }
-
     override fun visit(string: StringLiteralValue) {
-        if (string.value.length !in 1..255)
-            errors.err("string literal length must be between 1 and 255", string.position)
+        if (string.value.length > 255)
+            errors.err("string literal length max is 255", string.position)
 
         super.visit(string)
     }

compiler/src/prog8/ast/processing/AstRecursionChecker.kt

@@ -1,118 +0,0 @@
-package prog8.ast.processing
-
-import prog8.ast.INameScope
-import prog8.ast.base.ErrorReporter
-import prog8.ast.base.Position
-import prog8.ast.expressions.FunctionCall
-import prog8.ast.statements.FunctionCallStatement
-import prog8.ast.statements.Subroutine
-
-
-internal class AstRecursionChecker(private val namespace: INameScope,
-                                   private val errors: ErrorReporter) : IAstVisitor {
-    private val callGraph = DirectedGraph<INameScope>()
-
-    fun processMessages(modulename: String) {
-        val cycle = callGraph.checkForCycle()
-        if(cycle.isEmpty())
-            return
-        val chain = cycle.joinToString(" <-- ") { "${it.name} at ${it.position}" }
-        errors.err("Program contains recursive subroutine calls, this is not supported. Recursive chain:\n (a subroutine call in) $chain", Position.DUMMY)
-    }
-
-    override fun visit(functionCallStatement: FunctionCallStatement) {
-        val scope = functionCallStatement.definingScope()
-        val targetStatement = functionCallStatement.target.targetStatement(namespace)
-        if(targetStatement!=null) {
-            val targetScope = when (targetStatement) {
-                is Subroutine -> targetStatement
-                else -> targetStatement.definingScope()
-            }
-            callGraph.add(scope, targetScope)
-        }
-        super.visit(functionCallStatement)
-    }
-
-    override fun visit(functionCall: FunctionCall) {
-        val scope = functionCall.definingScope()
-        val targetStatement = functionCall.target.targetStatement(namespace)
-        if(targetStatement!=null) {
-            val targetScope = when (targetStatement) {
-                is Subroutine -> targetStatement
-                else -> targetStatement.definingScope()
-            }
-            callGraph.add(scope, targetScope)
-        }
-        super.visit(functionCall)
-    }
-
-    private class DirectedGraph<VT> {
-        private val graph = mutableMapOf<VT, MutableSet<VT>>()
-        private var uniqueVertices = mutableSetOf<VT>()
-        val numVertices : Int
-            get() = uniqueVertices.size
-
-        fun add(from: VT, to: VT) {
-            var targets = graph[from]
-            if(targets==null) {
-                targets = mutableSetOf()
-                graph[from] = targets
-            }
-            targets.add(to)
-            uniqueVertices.add(from)
-            uniqueVertices.add(to)
-        }
-
-        fun print() {
-            println("#vertices: $numVertices")
-            graph.forEach { (from, to) ->
-                println("$from   CALLS:")
-                to.forEach { println("   $it") }
-            }
-            val cycle = checkForCycle()
-            if(cycle.isNotEmpty()) {
-                println("CYCLIC!  $cycle")
-            }
-        }
-
-        fun checkForCycle(): MutableList<VT> {
-            val visited = uniqueVertices.associateWith { false }.toMutableMap()
-            val recStack = uniqueVertices.associateWith { false }.toMutableMap()
-            val cycle = mutableListOf<VT>()
-            for(node in uniqueVertices) {
-                if(isCyclicUntil(node, visited, recStack, cycle))
-                    return cycle
-            }
-            return mutableListOf()
-        }
-
-        private fun isCyclicUntil(node: VT,
-                                  visited: MutableMap<VT, Boolean>,
-                                  recStack: MutableMap<VT, Boolean>,
-                                  cycleNodes: MutableList<VT>): Boolean {
-
-            if(recStack[node]==true) return true
-            if(visited[node]==true) return false
-
-            // mark current node as visited and add to recursion stack
-            visited[node] = true
-            recStack[node] = true
-
-            // recurse for all neighbours
-            val neighbors = graph[node]
-            if(neighbors!=null) {
-                for (neighbour in neighbors) {
-                    if (isCyclicUntil(neighbour, visited, recStack, cycleNodes)) {
-                        cycleNodes.add(node)
-                        return true
-                    }
-                }
-            }
-
-            // pop node from recursion stack
-            recStack[node] = false
-            return false
-        }
-    }
-
-}

compiler/src/prog8/ast/processing/AstVariousTransforms.kt

@@ -10,58 +10,6 @@ import prog8.ast.statements.*
 internal class AstVariousTransforms(private val program: Program) : AstWalker() {
     private val noModifications = emptyList<IAstModification>()
 
-    override fun after(functionCallStatement: FunctionCallStatement, parent: Node): Iterable<IAstModification> {
-        if(functionCallStatement.target.nameInSource == listOf("swap")) {
-            // if x and y are both just identifiers, do not rewrite (there should be asm generation for that)
-            // otherwise:
-            // rewrite swap(x,y) as follows:
-            // - declare a temp variable of the same datatype
-            // - temp = x, x = y, y= temp
-            val first = functionCallStatement.args[0]
-            val second = functionCallStatement.args[1]
-            if(first !is IdentifierReference && second !is IdentifierReference) {
-                val dt = first.inferType(program).typeOrElse(DataType.STRUCT)
-                val tempname = "prog8_swaptmp_${functionCallStatement.hashCode()}"
-                val tempvardecl = VarDecl(VarDeclType.VAR, dt, ZeropageWish.DONTCARE, null, tempname, null, null, isArray = false, autogeneratedDontRemove = true, position = first.position)
-                val tempvar = IdentifierReference(listOf(tempname), first.position)
-                val assignTemp = Assignment(
-                        AssignTarget(null, tempvar, null, null, first.position),
-                        null,
-                        first,
-                        first.position
-                )
-                val assignFirst = Assignment(
-                        AssignTarget.fromExpr(first),
-                        null,
-                        second,
-                        first.position
-                )
-                val assignSecond = Assignment(
-                        AssignTarget.fromExpr(second),
-                        null,
-                        tempvar,
-                        first.position
-                )
-                val scope = AnonymousScope(mutableListOf(tempvardecl, assignTemp, assignFirst, assignSecond), first.position)
-                return listOf(IAstModification.ReplaceNode(functionCallStatement, scope, parent))
-            }
-        }
-
-        return noModifications
-    }
-
-    override fun before(functionCall: FunctionCall, parent: Node): Iterable<IAstModification> {
-        if(functionCall.target.nameInSource.size==1 && functionCall.target.nameInSource[0]=="lsb") {
-            // lsb(...) is just an alias for type cast to ubyte, so replace with "... as ubyte"
-            val typecast = TypecastExpression(functionCall.args.single(), DataType.UBYTE, false, functionCall.position)
-            return listOf(IAstModification.ReplaceNode(
-                    functionCall, typecast, parent
-            ))
-        }
-
-        return noModifications
-    }
-
     override fun before(decl: VarDecl, parent: Node): Iterable<IAstModification> {
         // is it a struct variable? then define all its struct members as mangled names,
         //    and include the original decl as well.
@@ -99,78 +47,59 @@ internal class AstVariousTransforms(private val program: Program) : AstWalker()
         return noModifications
     }
 
-    override fun before(expr: BinaryExpression, parent: Node): Iterable<IAstModification> {
-        when {
-            expr.left is StringLiteralValue ->
-                return listOf(IAstModification.ReplaceNode(
-                        expr,
-                        processBinaryExprWithString(expr.left as StringLiteralValue, expr.right, expr),
-                        parent
-                ))
-            expr.right is StringLiteralValue ->
-                return listOf(IAstModification.ReplaceNode(
-                        expr,
-                        processBinaryExprWithString(expr.right as StringLiteralValue, expr.left, expr),
-                        parent
-                ))
+    override fun after(expr: BinaryExpression, parent: Node): Iterable<IAstModification> {
+        val leftStr = expr.left as? StringLiteralValue
+        val rightStr = expr.right as? StringLiteralValue
+        if(expr.operator == "+") {
+            val concatenatedString = concatString(expr)
+            if(concatenatedString!=null)
+                return listOf(IAstModification.ReplaceNode(expr, concatenatedString, parent))
         }
-
-        return noModifications
-    }
-
-    override fun after(string: StringLiteralValue, parent: Node): Iterable<IAstModification> {
-        if(string.parent !is VarDecl) {
-            // replace the literal string by a identifier reference to a new local vardecl
-            val vardecl = VarDecl.createAuto(string)
-            val identifier = IdentifierReference(listOf(vardecl.name), vardecl.position)
-            return listOf(
-                    IAstModification.ReplaceNode(string, identifier, parent),
-                    IAstModification.InsertFirst(vardecl, string.definingScope() as Node)
-            )
-        }
-        return noModifications
-    }
-
-    override fun after(array: ArrayLiteralValue, parent: Node): Iterable<IAstModification> {
-        val vardecl = array.parent as? VarDecl
-        if(vardecl!=null) {
-            // adjust the datatype of the array (to an educated guess)
-            val arrayDt = array.type
-            if(!arrayDt.istype(vardecl.datatype)) {
-                val cast = array.cast(vardecl.datatype)
-                if (cast != null && cast!=array)
-                    return listOf(IAstModification.ReplaceNode(vardecl.value!!, cast, vardecl))
+        else if(expr.operator == "*") {
+            if (leftStr!=null) {
+                val amount = expr.right.constValue(program)
+                if(amount!=null) {
+                    val string = leftStr.value.repeat(amount.number.toInt())
+                    val strval = StringLiteralValue(string, leftStr.altEncoding, expr.position)
+                    return listOf(IAstModification.ReplaceNode(expr, strval, parent))
+                }
             }
-        } else {
-            val arrayDt = array.guessDatatype(program)
-            if(arrayDt.isKnown) {
-                // this array literal is part of an expression, turn it into an identifier reference
-                val litval2 = array.cast(arrayDt.typeOrElse(DataType.STRUCT))
-                if(litval2!=null && litval2!=array) {
-                    val vardecl2 = VarDecl.createAuto(litval2)
-                    val identifier = IdentifierReference(listOf(vardecl2.name), vardecl2.position)
-                    return listOf(
-                            IAstModification.ReplaceNode(array, identifier, parent),
-                            IAstModification.InsertFirst(vardecl2, array.definingScope() as Node)
-                    )
+            else if (rightStr!=null) {
+                val amount = expr.right.constValue(program)
+                if(amount!=null) {
+                    val string = rightStr.value.repeat(amount.number.toInt())
+                    val strval = StringLiteralValue(string, rightStr.altEncoding, expr.position)
+                    return listOf(IAstModification.ReplaceNode(expr, strval, parent))
                 }
             }
         }
+
         return noModifications
     }
 
-    private fun processBinaryExprWithString(string: StringLiteralValue, operand: Expression, expr: BinaryExpression): Expression {
-        val constvalue = operand.constValue(program)
-        if(constvalue!=null) {
-            if (expr.operator == "*") {
-                // repeat a string a number of times
-                return StringLiteralValue(string.value.repeat(constvalue.number.toInt()), string.altEncoding, expr.position)
+    private fun concatString(expr: BinaryExpression): StringLiteralValue? {
+        val rightStrval = expr.right as? StringLiteralValue
+        val leftStrval = expr.left as? StringLiteralValue
+        return when {
+            expr.operator!="+" -> null
+            expr.left is BinaryExpression && rightStrval!=null -> {
+                val subStrVal = concatString(expr.left as BinaryExpression)
+                if(subStrVal==null)
+                    null
+                else
+                    StringLiteralValue("${subStrVal.value}${rightStrval.value}", subStrVal.altEncoding, rightStrval.position)
             }
+            expr.right is BinaryExpression && leftStrval!=null -> {
+                val subStrVal = concatString(expr.right as BinaryExpression)
+                if(subStrVal==null)
+                    null
+                else
+                    StringLiteralValue("${leftStrval.value}${subStrVal.value}", subStrVal.altEncoding, leftStrval.position)
+            }
+            leftStrval!=null && rightStrval!=null -> {
+                StringLiteralValue("${leftStrval.value}${rightStrval.value}", leftStrval.altEncoding, leftStrval.position)
+            }
+            else -> null
         }
-        if(expr.operator == "+" && operand is StringLiteralValue) {
-            // concatenate two strings
-            return StringLiteralValue("${string.value}${operand.value}", string.altEncoding, expr.position)
-        }
-        return expr
     }
 }

compiler/src/prog8/ast/processing/AstWalker.kt

@@ -9,67 +9,60 @@ import prog8.ast.statements.*
 interface IAstModification {
     fun perform()
 
-    class Remove(val node: Node, val parent: Node) : IAstModification {
+    class Remove(val node: Node, val parent: INameScope) : IAstModification {
         override fun perform() {
-            if(parent is INameScope) {
-                if (!parent.statements.remove(node) && parent !is GlobalNamespace)
-                    throw FatalAstException("attempt to remove non-existing node $node")
-            } else {
-                throw FatalAstException("parent of a remove modification is not an INameScope")
-            }
+            if (!parent.statements.remove(node) && parent !is GlobalNamespace)
+                throw FatalAstException("attempt to remove non-existing node $node")
         }
     }
 
-    class SetExpression(val setter: (newExpr: Expression) -> Unit, val newExpr: Expression, val parent: Node) : IAstModification {
+    class SetExpression(private val setter: (newExpr: Expression) -> Unit, private val newExpr: Expression, private val parent: Node) : IAstModification {
         override fun perform() {
             setter(newExpr)
             newExpr.linkParents(parent)
         }
     }
 
-    class InsertFirst(val stmt: Statement, val parent: Node) : IAstModification {
+    class InsertFirst(private val stmt: Statement, private val parent: INameScope) : IAstModification {
         override fun perform() {
-            if(parent is INameScope) {
-                parent.statements.add(0, stmt)
-                stmt.linkParents(parent)
-            } else {
-                throw FatalAstException("parent of an insert modification is not an INameScope")
-            }
+            parent.statements.add(0, stmt)
+            stmt.linkParents(parent as Node)
         }
     }
 
-    class InsertLast(val stmt: Statement, val parent: Node) : IAstModification {
+    class InsertLast(private val stmt: Statement, private val parent: INameScope) : IAstModification {
         override fun perform() {
-            if(parent is INameScope) {
-                parent.statements.add(stmt)
-                stmt.linkParents(parent)
-            } else {
-                throw FatalAstException("parent of an insert modification is not an INameScope")
-            }
+            parent.statements.add(stmt)
+            stmt.linkParents(parent as Node)
         }
     }
 
-    class InsertAfter(val after: Statement, val stmt: Statement, val parent: Node) : IAstModification {
+    class InsertAfter(private val after: Statement, private val stmt: Statement, private val parent: INameScope) : IAstModification {
         override fun perform() {
-            if(parent is INameScope) {
-                val idx = parent.statements.withIndex().find { it.value===after }!!.index + 1
-                parent.statements.add(idx, stmt)
-                stmt.linkParents(parent)
-            } else {
-                throw FatalAstException("parent of an insert modification is not an INameScope")
-            }
+            val idx = parent.statements.indexOfFirst { it===after } + 1
+            parent.statements.add(idx, stmt)
+            stmt.linkParents(parent as Node)
         }
     }
 
-    class ReplaceNode(val node: Node, val replacement: Node, val parent: Node) : IAstModification {
+    class InsertBefore(private val before: Statement, private val stmt: Statement, private val parent: INameScope) : IAstModification {
+        override fun perform() {
+            val idx = parent.statements.indexOfFirst { it===before }
+            parent.statements.add(idx, stmt)
+            stmt.linkParents(parent as Node)
+        }
+    }
+
+    class ReplaceNode(private val node: Node, private val replacement: Node, private val parent: Node) : IAstModification {
         override fun perform() {
             parent.replaceChildNode(node, replacement)
             replacement.linkParents(parent)
         }
     }
 
-    class SwapOperands(val expr: BinaryExpression): IAstModification {
+    class SwapOperands(private val expr: BinaryExpression): IAstModification {
         override fun perform() {
+            require(expr.operator in associativeOperators)
             val tmp = expr.left
             expr.left = expr.right
             expr.right = tmp
@@ -88,13 +81,12 @@ abstract class AstWalker {
     open fun before(branchStatement: BranchStatement, parent: Node): Iterable<IAstModification> = emptyList()
     open fun before(breakStmt: Break, parent: Node): Iterable<IAstModification> = emptyList()
     open fun before(builtinFunctionStatementPlaceholder: BuiltinFunctionStatementPlaceholder, parent: Node): Iterable<IAstModification> = emptyList()
-    open fun before(contStmt: Continue, parent: Node): Iterable<IAstModification> = emptyList()
     open fun before(decl: VarDecl, parent: Node): Iterable<IAstModification> = emptyList()
     open fun before(directive: Directive, parent: Node): Iterable<IAstModification> = emptyList()
     open fun before(expr: BinaryExpression, parent: Node): Iterable<IAstModification> = emptyList()
     open fun before(expr: PrefixExpression, parent: Node): Iterable<IAstModification> = emptyList()
     open fun before(forLoop: ForLoop, parent: Node): Iterable<IAstModification> = emptyList()
-    open fun before(foreverLoop: ForeverLoop, parent: Node): Iterable<IAstModification> = emptyList()
+    open fun before(repeatLoop: RepeatLoop, parent: Node): Iterable<IAstModification> = emptyList()
     open fun before(functionCall: FunctionCall, parent: Node): Iterable<IAstModification> = emptyList()
     open fun before(functionCallStatement: FunctionCallStatement, parent: Node): Iterable<IAstModification> = emptyList()
     open fun before(identifier: IdentifierReference, parent: Node): Iterable<IAstModification> = emptyList()
@@ -110,13 +102,11 @@ abstract class AstWalker {
     open fun before(postIncrDecr: PostIncrDecr, parent: Node): Iterable<IAstModification> = emptyList()
     open fun before(program: Program, parent: Node): Iterable<IAstModification> = emptyList()
     open fun before(range: RangeExpr, parent: Node): Iterable<IAstModification> = emptyList()
-    open fun before(registerExpr: RegisterExpr, parent: Node): Iterable<IAstModification> = emptyList()
-    open fun before(repeatLoop: RepeatLoop, parent: Node): Iterable<IAstModification> = emptyList()
+    open fun before(untilLoop: UntilLoop, parent: Node): Iterable<IAstModification> = emptyList()
     open fun before(returnStmt: Return, parent: Node): Iterable<IAstModification> = emptyList()
     open fun before(scope: AnonymousScope, parent: Node): Iterable<IAstModification> = emptyList()
     open fun before(string: StringLiteralValue, parent: Node): Iterable<IAstModification> = emptyList()
     open fun before(structDecl: StructDecl, parent: Node): Iterable<IAstModification> = emptyList()
-    open fun before(structLv: StructLiteralValue, parent: Node): Iterable<IAstModification> = emptyList()
     open fun before(subroutine: Subroutine, parent: Node): Iterable<IAstModification> = emptyList()
     open fun before(typecast: TypecastExpression, parent: Node): Iterable<IAstModification> = emptyList()
     open fun before(whenChoice: WhenChoice, parent: Node): Iterable<IAstModification> = emptyList()
@@ -132,13 +122,12 @@ abstract class AstWalker {
     open fun after(branchStatement: BranchStatement, parent: Node): Iterable<IAstModification> = emptyList()
     open fun after(breakStmt: Break, parent: Node): Iterable<IAstModification> = emptyList()
     open fun after(builtinFunctionStatementPlaceholder: BuiltinFunctionStatementPlaceholder, parent: Node): Iterable<IAstModification> = emptyList()
-    open fun after(contStmt: Continue, parent: Node): Iterable<IAstModification> = emptyList()
     open fun after(decl: VarDecl, parent: Node): Iterable<IAstModification> = emptyList()
     open fun after(directive: Directive, parent: Node): Iterable<IAstModification> = emptyList()
     open fun after(expr: BinaryExpression, parent: Node): Iterable<IAstModification> = emptyList()
     open fun after(expr: PrefixExpression, parent: Node): Iterable<IAstModification> = emptyList()
     open fun after(forLoop: ForLoop, parent: Node): Iterable<IAstModification> = emptyList()
-    open fun after(foreverLoop: ForeverLoop, parent: Node): Iterable<IAstModification> = emptyList()
+    open fun after(repeatLoop: RepeatLoop, parent: Node): Iterable<IAstModification> = emptyList()
     open fun after(functionCall: FunctionCall, parent: Node): Iterable<IAstModification> = emptyList()
     open fun after(functionCallStatement: FunctionCallStatement, parent: Node): Iterable<IAstModification> = emptyList()
     open fun after(identifier: IdentifierReference, parent: Node): Iterable<IAstModification> = emptyList()
@@ -154,13 +143,11 @@ abstract class AstWalker {
     open fun after(postIncrDecr: PostIncrDecr, parent: Node): Iterable<IAstModification> = emptyList()
     open fun after(program: Program, parent: Node): Iterable<IAstModification> = emptyList()
     open fun after(range: RangeExpr, parent: Node): Iterable<IAstModification> = emptyList()
-    open fun after(registerExpr: RegisterExpr, parent: Node): Iterable<IAstModification> = emptyList()
-    open fun after(repeatLoop: RepeatLoop, parent: Node): Iterable<IAstModification> = emptyList()
+    open fun after(untilLoop: UntilLoop, parent: Node): Iterable<IAstModification> = emptyList()
     open fun after(returnStmt: Return, parent: Node): Iterable<IAstModification> = emptyList()
     open fun after(scope: AnonymousScope, parent: Node): Iterable<IAstModification> = emptyList()
     open fun after(string: StringLiteralValue, parent: Node): Iterable<IAstModification> = emptyList()
     open fun after(structDecl: StructDecl, parent: Node): Iterable<IAstModification> = emptyList()
-    open fun after(structLv: StructLiteralValue, parent: Node): Iterable<IAstModification> = emptyList()
     open fun after(subroutine: Subroutine, parent: Node): Iterable<IAstModification> = emptyList()
     open fun after(typecast: TypecastExpression, parent: Node): Iterable<IAstModification> = emptyList()
     open fun after(whenChoice: WhenChoice, parent: Node): Iterable<IAstModification> = emptyList()
@@ -222,6 +209,7 @@ abstract class AstWalker {
         track(before(decl, parent), decl, parent)
         decl.value?.accept(this, decl)
         decl.arraysize?.accept(this, decl)
+        decl.struct?.accept(this, decl)
         track(after(decl, parent), decl, parent)
     }
 
@@ -313,11 +301,6 @@ abstract class AstWalker {
         track(after(postIncrDecr, parent), postIncrDecr, parent)
     }
 
-    fun visit(contStmt: Continue, parent: Node) {
-        track(before(contStmt, parent), contStmt, parent)
-        track(after(contStmt, parent), contStmt, parent)
-    }
-
     fun visit(breakStmt: Break, parent: Node) {
         track(before(breakStmt, parent), breakStmt, parent)
         track(after(breakStmt, parent), breakStmt, parent)
@@ -325,7 +308,7 @@ abstract class AstWalker {
 
     fun visit(forLoop: ForLoop, parent: Node) {
         track(before(forLoop, parent), forLoop, parent)
-        forLoop.loopVar?.accept(this, forLoop)
+        forLoop.loopVar.accept(this, forLoop)
         forLoop.iterable.accept(this, forLoop)
         forLoop.body.accept(this, forLoop)
         track(after(forLoop, parent), forLoop, parent)
@@ -338,19 +321,20 @@ abstract class AstWalker {
         track(after(whileLoop, parent), whileLoop, parent)
     }
 
-    fun visit(foreverLoop: ForeverLoop, parent: Node) {
-        track(before(foreverLoop, parent), foreverLoop, parent)
-        foreverLoop.body.accept(this, foreverLoop)
-        track(after(foreverLoop, parent), foreverLoop, parent)
-    }
-
     fun visit(repeatLoop: RepeatLoop, parent: Node) {
         track(before(repeatLoop, parent), repeatLoop, parent)
-        repeatLoop.untilCondition.accept(this, repeatLoop)
+        repeatLoop.iterations?.accept(this, repeatLoop)
         repeatLoop.body.accept(this, repeatLoop)
         track(after(repeatLoop, parent), repeatLoop, parent)
     }
 
+    fun visit(untilLoop: UntilLoop, parent: Node) {
+        track(before(untilLoop, parent), untilLoop, parent)
+        untilLoop.condition.accept(this, untilLoop)
+        untilLoop.body.accept(this, untilLoop)
+        track(after(untilLoop, parent), untilLoop, parent)
+    }
+
     fun visit(returnStmt: Return, parent: Node) {
         track(before(returnStmt, parent), returnStmt, parent)
         returnStmt.value?.accept(this, returnStmt)
@@ -359,8 +343,8 @@ abstract class AstWalker {
 
     fun visit(arrayIndexedExpression: ArrayIndexedExpression, parent: Node) {
         track(before(arrayIndexedExpression, parent), arrayIndexedExpression, parent)
-        arrayIndexedExpression.identifier.accept(this, arrayIndexedExpression)
-        arrayIndexedExpression.arrayspec.accept(this, arrayIndexedExpression)
+        arrayIndexedExpression.arrayvar.accept(this, arrayIndexedExpression)
+        arrayIndexedExpression.indexer.accept(this, arrayIndexedExpression)
         track(after(arrayIndexedExpression, parent), arrayIndexedExpression, parent)
     }
 
@@ -407,11 +391,6 @@ abstract class AstWalker {
         track(after(inlineAssembly, parent), inlineAssembly, parent)
     }
 
-    fun visit(registerExpr: RegisterExpr, parent: Node) {
-        track(before(registerExpr, parent), registerExpr, parent)
-        track(after(registerExpr, parent), registerExpr, parent)
-    }
-
     fun visit(builtinFunctionStatementPlaceholder: BuiltinFunctionStatementPlaceholder, parent: Node) {
         track(before(builtinFunctionStatementPlaceholder, parent), builtinFunctionStatementPlaceholder, parent)
         track(after(builtinFunctionStatementPlaceholder, parent), builtinFunctionStatementPlaceholder, parent)
@@ -441,11 +420,5 @@ abstract class AstWalker {
         structDecl.statements.forEach { it.accept(this, structDecl) }
         track(after(structDecl, parent), structDecl, parent)
     }
-
-    fun visit(structLv: StructLiteralValue, parent: Node) {
-        track(before(structLv, parent), structLv, parent)
-        structLv.values.forEach { it.accept(this, structLv) }
-        track(after(structLv, parent), structLv, parent)
-    }
 }
 

compiler/src/prog8/ast/processing/IAstVisitor.kt

@@ -33,6 +33,7 @@ interface IAstVisitor {
     fun visit(decl: VarDecl) {
         decl.value?.accept(this)
         decl.arraysize?.accept(this)
+        decl.struct?.accept(this)
     }
 
     fun visit(subroutine: Subroutine) {
@@ -95,14 +96,11 @@ interface IAstVisitor {
         postIncrDecr.target.accept(this)
     }
 
-    fun visit(contStmt: Continue) {
-    }
-
     fun visit(breakStmt: Break) {
     }
 
     fun visit(forLoop: ForLoop) {
-        forLoop.loopVar?.accept(this)
+        forLoop.loopVar.accept(this)
         forLoop.iterable.accept(this)
         forLoop.body.accept(this)
     }
@@ -112,13 +110,14 @@ interface IAstVisitor {
         whileLoop.body.accept(this)
     }
 
-    fun visit(foreverLoop: ForeverLoop) {
-        foreverLoop.body.accept(this)
+    fun visit(repeatLoop: RepeatLoop) {
+        repeatLoop.iterations?.accept(this)
+        repeatLoop.body.accept(this)
     }
 
-    fun visit(repeatLoop: RepeatLoop) {
-        repeatLoop.untilCondition.accept(this)
-        repeatLoop.body.accept(this)
+    fun visit(untilLoop: UntilLoop) {
+        untilLoop.condition.accept(this)
+        untilLoop.body.accept(this)
     }
 
     fun visit(returnStmt: Return) {
@@ -126,8 +125,8 @@ interface IAstVisitor {
     }
 
     fun visit(arrayIndexedExpression: ArrayIndexedExpression) {
-        arrayIndexedExpression.identifier.accept(this)
-        arrayIndexedExpression.arrayspec.accept(this)
+        arrayIndexedExpression.arrayvar.accept(this)
+        arrayIndexedExpression.indexer.accept(this)
     }
 
     fun visit(assignTarget: AssignTarget) {
@@ -159,9 +158,6 @@ interface IAstVisitor {
     fun visit(inlineAssembly: InlineAssembly) {
     }
 
-    fun visit(registerExpr: RegisterExpr) {
-    }
-
     fun visit(builtinFunctionStatementPlaceholder: BuiltinFunctionStatementPlaceholder) {
     }
 
@@ -181,8 +177,4 @@ interface IAstVisitor {
     fun visit(structDecl: StructDecl) {
         structDecl.statements.forEach { it.accept(this) }
     }
-
-    fun visit(structLv: StructLiteralValue) {
-        structLv.values.forEach { it.accept(this) }
-    }
 }

compiler/src/prog8/ast/processing/ImportedModuleDirectiveRemover.kt

@@ -1,5 +1,6 @@
 package prog8.ast.processing
 
+import prog8.ast.INameScope
 import prog8.ast.Node
 import prog8.ast.statements.Directive
 
@@ -14,7 +15,7 @@ internal class ImportedModuleDirectiveRemover: AstWalker() {
 
     override fun before(directive: Directive, parent: Node): Iterable<IAstModification> {
         if(directive.directive in moduleLevelDirectives) {
-            return listOf(IAstModification.Remove(directive, parent))
+            return listOf(IAstModification.Remove(directive, parent as INameScope))
         }
         return noModifications
     }

compiler/src/prog8/ast/processing/LiteralsToAutoVars.kt

@@ -0,0 +1,53 @@
+package prog8.ast.processing
+
+import prog8.ast.Node
+import prog8.ast.Program
+import prog8.ast.base.*
+import prog8.ast.expressions.*
+import prog8.ast.statements.*
+
+
+internal class LiteralsToAutoVars(private val program: Program) : AstWalker() {
+    private val noModifications = emptyList<IAstModification>()
+
+    override fun after(string: StringLiteralValue, parent: Node): Iterable<IAstModification> {
+        if(string.parent !is VarDecl && string.parent !is WhenChoice) {
+            // replace the literal string by a identifier reference to a new local vardecl
+            val vardecl = VarDecl.createAuto(string)
+            val identifier = IdentifierReference(listOf(vardecl.name), vardecl.position)
+            return listOf(
+                    IAstModification.ReplaceNode(string, identifier, parent),
+                    IAstModification.InsertFirst(vardecl, string.definingScope())
+            )
+        }
+        return noModifications
+    }
+
+    override fun after(array: ArrayLiteralValue, parent: Node): Iterable<IAstModification> {
+        val vardecl = array.parent as? VarDecl
+        if(vardecl!=null) {
+            // adjust the datatype of the array (to an educated guess)
+            val arrayDt = array.type
+            if(!arrayDt.istype(vardecl.datatype)) {
+                val cast = array.cast(vardecl.datatype)
+                if (cast != null && cast !== array)
+                    return listOf(IAstModification.ReplaceNode(vardecl.value!!, cast, vardecl))
+            }
+        } else {
+            val arrayDt = array.guessDatatype(program)
+            if(arrayDt.isKnown) {
+                // this array literal is part of an expression, turn it into an identifier reference
+                val litval2 = array.cast(arrayDt.typeOrElse(DataType.STRUCT))
+                if(litval2!=null) {
+                    val vardecl2 = VarDecl.createAuto(litval2)
+                    val identifier = IdentifierReference(listOf(vardecl2.name), vardecl2.position)
+                    return listOf(
+                            IAstModification.ReplaceNode(array, identifier, parent),
+                            IAstModification.InsertFirst(vardecl2, array.definingScope())
+                    )
+                }
+            }
+        }
+        return noModifications
+    }
+}

compiler/src/prog8/ast/processing/StatementReorderer.kt

@@ -6,16 +6,16 @@ import prog8.ast.expressions.*
 import prog8.ast.statements.*
 
 
-internal class StatementReorderer(val program: Program) : AstWalker() {
+internal class StatementReorderer(val program: Program, val errors: ErrorReporter) : AstWalker() {
     // Reorders the statements in a way the compiler needs.
     // - 'main' block must be the very first statement UNLESS it has an address set.
     // - library blocks are put last.
     // - blocks are ordered by address, where blocks without address are placed last.
-    // - in every scope, most directives and vardecls are moved to the top.
+    // - in every block and module, most directives and vardecls are moved to the top. (not in subroutines!)
     // - the 'start' subroutine is moved to the top.
     // - (syntax desugaring) a vardecl with a non-const initializer value is split into a regular vardecl and an assignment statement.
-    // - (syntax desugaring) augmented assignment is turned into regular assignment.
     // - (syntax desugaring) struct value assignment is expanded into several struct member assignments.
+    // - in-place assignments are reordered a bit so that they are mostly of the form A = A <operator> <rest>
     // - sorts the choices in when statement.
     // - insert AddressOf (&) expression where required (string params to a UWORD function param etc).
 
@@ -71,22 +71,62 @@ internal class StatementReorderer(val program: Program) : AstWalker() {
         return noModifications
     }
 
-    override fun after(decl: VarDecl, parent: Node): Iterable<IAstModification> {
-        val declValue = decl.value
-        if(declValue!=null && decl.type== VarDeclType.VAR && decl.datatype in NumericDatatypes) {
-            val declConstValue = declValue.constValue(program)
-            if(declConstValue==null) {
-                // move the vardecl (without value) to the scope and replace this with a regular assignment
-                decl.value = null
-                val target = AssignTarget(null, IdentifierReference(listOf(decl.name), decl.position), null, null, decl.position)
-                val assign = Assignment(target, null, declValue, decl.position)
-                return listOf(
-                        IAstModification.ReplaceNode(decl, assign, parent),
-                        IAstModification.InsertFirst(decl, decl.definingScope() as Node)
-                )
+    override fun after(arrayIndexedExpression: ArrayIndexedExpression, parent: Node): Iterable<IAstModification> {
+        when (val expr2 = arrayIndexedExpression.indexer.origExpression) {
+            is NumericLiteralValue -> {
+                arrayIndexedExpression.indexer.indexNum = expr2
+                arrayIndexedExpression.indexer.origExpression = null
+                return noModifications
             }
+            is IdentifierReference -> {
+                arrayIndexedExpression.indexer.indexVar = expr2
+                arrayIndexedExpression.indexer.origExpression = null
+                return noModifications
+            }
+            is Expression -> {
+                // replace complex indexing with a temp variable
+                return getAutoIndexerVarFor(arrayIndexedExpression)
+            }
+            else -> return noModifications
         }
-        return noModifications
+    }
+
+    private fun getAutoIndexerVarFor(expr: ArrayIndexedExpression): MutableList<IAstModification> {
+        val modifications = mutableListOf<IAstModification>()
+        val subroutine = expr.definingSubroutine()!!
+        val statement = expr.containingStatement()
+        val indexerVarPrefix = "prog8_autovar_index_"
+        val repo = subroutine.asmGenInfo.usedAutoArrayIndexerForStatements
+
+        // TODO make this even smarter so that an indexerVar can be reused for a different following statement...  requires updating the partOfStatement?
+        var indexerVar = repo.firstOrNull { it.replaces isSameAs expr.indexer }
+        if(indexerVar==null) {
+            // add another loop index var to be used for this expression
+            val indexerVarName = "$indexerVarPrefix${expr.indexer.hashCode()}"
+            indexerVar = AsmGenInfo.ArrayIndexerInfo(indexerVarName, expr.indexer, statement)
+            repo.add(indexerVar)
+            // create the indexer var at block level scope
+            val vardecl = VarDecl(VarDeclType.VAR, DataType.UBYTE, ZeropageWish.PREFER_ZEROPAGE,
+                    null, indexerVarName, null, null, isArray = false, autogeneratedDontRemove = true, position = expr.position)
+            modifications.add(IAstModification.InsertFirst(vardecl, subroutine))
+        }
+        indexerVar.used++       // keep track of how many times it it used, to avoid assigning it multiple times
+
+        // replace the indexer with just the variable
+        // assign the indexing expression to the helper variable, but only if that hasn't been done already
+        val indexerExpression = expr.indexer.origExpression!!
+        val target = AssignTarget(IdentifierReference(listOf(indexerVar.name), indexerExpression.position), null, null, indexerExpression.position)
+        if(indexerVar.used==1) {
+            val assign = Assignment(target, indexerExpression, indexerExpression.position)
+            modifications.add(IAstModification.InsertBefore(statement, assign, statement.definingScope()))
+        }
+        modifications.add(IAstModification.SetExpression( {
+            expr.indexer.indexVar = it as IdentifierReference
+            expr.indexer.indexNum = null
+            expr.indexer.origExpression = null
+        }, target.identifier!!.copy(), expr.indexer))
+
+        return modifications
     }
 
     override fun after(whenStatement: WhenStatement, parent: Node): Iterable<IAstModification> {
@@ -98,52 +138,172 @@ internal class StatementReorderer(val program: Program) : AstWalker() {
         return noModifications
     }
 
+    override fun after(decl: VarDecl, parent: Node): Iterable<IAstModification> {
+        val declValue = decl.value
+        if(declValue!=null && decl.type== VarDeclType.VAR && decl.datatype in NumericDatatypes) {
+            val declConstValue = declValue.constValue(program)
+            if(declConstValue==null) {
+                // move the vardecl (without value) to the scope and replace this with a regular assignment
+                // Unless we're dealing with a floating point variable because that will actually make things less efficient at the moment (because floats are mostly calcualated via the stack)
+                if(decl.datatype!=DataType.FLOAT) {
+                    decl.value = null
+                    decl.allowInitializeWithZero = false
+                    val target = AssignTarget(IdentifierReference(listOf(decl.name), decl.position), null, null, decl.position)
+                    val assign = Assignment(target, declValue, decl.position)
+                    return listOf(
+                            IAstModification.ReplaceNode(decl, assign, parent),
+                            IAstModification.InsertFirst(decl, decl.definingScope())
+                    )
+                }
+            }
+        }
+        return noModifications
+    }
+
     override fun before(assignment: Assignment, parent: Node): Iterable<IAstModification> {
-        if(assignment.aug_op!=null) {
-            return listOf(IAstModification.ReplaceNode(assignment, assignment.asDesugaredNonaugmented(), parent))
+        val valueType = assignment.value.inferType(program)
+        val targetType = assignment.target.inferType(program)
+        var assignments = emptyList<Assignment>()
+
+        if(targetType.istype(DataType.STRUCT) && (valueType.istype(DataType.STRUCT) || valueType.typeOrElse(DataType.STRUCT) in ArrayDatatypes )) {
+            assignments = if (assignment.value is ArrayLiteralValue) {
+                flattenStructAssignmentFromStructLiteral(assignment)    //  'structvar = [ ..... ] '
+            } else {
+                flattenStructAssignmentFromIdentifier(assignment)    //   'structvar1 = structvar2'
+            }
         }
 
-        val valueType = assignment.value.inferType(program)
-        val targetType = assignment.target.inferType(program, assignment)
-        if(valueType.istype(DataType.STRUCT) && targetType.istype(DataType.STRUCT)) {
-            val assignments = if (assignment.value is StructLiteralValue) {
-                flattenStructAssignmentFromStructLiteral(assignment, program)    //  'structvar = { ..... } '
+        if(targetType.typeOrElse(DataType.STRUCT) in ArrayDatatypes && valueType.typeOrElse(DataType.STRUCT) in ArrayDatatypes ) {
+            assignments = if (assignment.value is ArrayLiteralValue) {
+                flattenArrayAssignmentFromArrayLiteral(assignment)    //  'arrayvar = [ ..... ] '
             } else {
-                flattenStructAssignmentFromIdentifier(assignment, program)    //   'structvar1 = structvar2'
+                flattenArrayAssignmentFromIdentifier(assignment)    //   'arrayvar1 = arrayvar2'
             }
-            if(assignments.isNotEmpty()) {
-                val modifications = mutableListOf<IAstModification>()
-                assignments.reversed().mapTo(modifications) { IAstModification.InsertAfter(assignment, it, parent) }
-                modifications.add(IAstModification.Remove(assignment, parent))
-                return modifications
+        }
+
+        if(assignments.isNotEmpty()) {
+            val modifications = mutableListOf<IAstModification>()
+            val scope = assignment.definingScope()
+            assignments.reversed().mapTo(modifications) { IAstModification.InsertAfter(assignment, it, scope) }
+            modifications.add(IAstModification.Remove(assignment, scope))
+            return modifications
+        }
+
+        return noModifications
+    }
+
+    override fun after(assignment: Assignment, parent: Node): Iterable<IAstModification> {
+        // rewrite in-place assignment expressions a bit so that the assignment target usually is the leftmost operand
+        val binExpr = assignment.value as? BinaryExpression
+        if(binExpr!=null) {
+            if(binExpr.left isSameAs assignment.target) {
+                // A = A <operator> 5, unchanged
+                return noModifications
+            }
+
+            if(binExpr.operator in associativeOperators) {
+                if (binExpr.right isSameAs assignment.target) {
+                    // A = v <associative-operator> A  ==>  A = A <associative-operator> v
+                    return listOf(IAstModification.SwapOperands(binExpr))
+                }
+
+                val leftBinExpr = binExpr.left as? BinaryExpression
+                if(leftBinExpr?.operator == binExpr.operator) {
+                    return if(leftBinExpr.left isSameAs assignment.target) {
+                        // A = (A <associative-operator> x) <same-operator> y ==> A = A <associative-operator> (x <same-operator> y)
+                        val newRight = BinaryExpression(leftBinExpr.right, binExpr.operator, binExpr.right, binExpr.position)
+                        val newValue = BinaryExpression(leftBinExpr.left, binExpr.operator, newRight, binExpr.position)
+                        listOf(IAstModification.ReplaceNode(binExpr, newValue, assignment))
+                    } else {
+                        // A = (x <associative-operator> A) <same-operator> y ==> A = A <associative-operator> (x <same-operator> y)
+                        val newRight = BinaryExpression(leftBinExpr.left, binExpr.operator, binExpr.right, binExpr.position)
+                        val newValue = BinaryExpression(leftBinExpr.right, binExpr.operator, newRight, binExpr.position)
+                        listOf(IAstModification.ReplaceNode(binExpr, newValue, assignment))
+                    }
+                }
+                val rightBinExpr = binExpr.right as? BinaryExpression
+                if(rightBinExpr?.operator == binExpr.operator) {
+                    return if(rightBinExpr.left isSameAs assignment.target) {
+                        // A = x <associative-operator> (A <same-operator> y) ==> A = A <associative-operator> (x <same-operator> y)
+                        val newRight = BinaryExpression(binExpr.left, binExpr.operator, rightBinExpr.right, binExpr.position)
+                        val newValue = BinaryExpression(rightBinExpr.left, binExpr.operator, newRight, binExpr.position)
+                        listOf(IAstModification.ReplaceNode(binExpr, newValue, assignment))
+                    } else {
+                        // A = x <associative-operator> (y <same-operator> A) ==> A = A <associative-operator> (x <same-operator> y)
+                        val newRight = BinaryExpression(binExpr.left, binExpr.operator, rightBinExpr.left, binExpr.position)
+                        val newValue = BinaryExpression(rightBinExpr.right, binExpr.operator, newRight, binExpr.position)
+                        listOf(IAstModification.ReplaceNode(binExpr, newValue, assignment))
+                    }
+                }
             }
         }
 
         return noModifications
     }
 
-    private fun flattenStructAssignmentFromStructLiteral(structAssignment: Assignment, program: Program): List<Assignment> {
+    private fun flattenArrayAssignmentFromArrayLiteral(assign: Assignment): List<Assignment> {
+        val identifier = assign.target.identifier!!
+        val targetVar = identifier.targetVarDecl(program.namespace)!!
+        val alv = assign.value as? ArrayLiteralValue
+        return flattenArrayAssign(targetVar, alv, identifier, assign.position)
+    }
+
+    private fun flattenArrayAssignmentFromIdentifier(assign: Assignment): List<Assignment> {
+        val identifier = assign.target.identifier!!
+        val targetVar = identifier.targetVarDecl(program.namespace)!!
+        val sourceIdent = assign.value as IdentifierReference
+        val sourceVar = sourceIdent.targetVarDecl(program.namespace)!!
+        if(!sourceVar.isArray) {
+            errors.err("value must be an array",  sourceIdent.position)
+            return emptyList()
+        }
+        val alv = sourceVar.value as? ArrayLiteralValue
+        return flattenArrayAssign(targetVar, alv, identifier, assign.position)
+    }
+
+    private fun flattenArrayAssign(targetVar: VarDecl, alv: ArrayLiteralValue?, identifier: IdentifierReference, position: Position): List<Assignment> {
+        if(targetVar.arraysize==null) {
+            errors.err("array has no defined size", identifier.position)
+            return emptyList()
+        }
+
+        if(alv==null || alv.value.size != targetVar.arraysize!!.constIndex()) {
+            errors.err("element count mismatch", position)
+            return emptyList()
+        }
+
+        // TODO use a pointer loop instead of individual assignments
+        return alv.value.mapIndexed { index, value ->
+            val idx = ArrayIndexedExpression(identifier, ArrayIndex(NumericLiteralValue(DataType.UBYTE, index, position), position), position)
+            Assignment(AssignTarget(null, idx, null, position), value, value.position)
+        }
+    }
+
+    private fun flattenStructAssignmentFromStructLiteral(structAssignment: Assignment): List<Assignment> {
         val identifier = structAssignment.target.identifier!!
         val identifierName = identifier.nameInSource.single()
         val targetVar = identifier.targetVarDecl(program.namespace)!!
         val struct = targetVar.struct!!
 
-        val slv = structAssignment.value as? StructLiteralValue
-        if(slv==null || slv.values.size != struct.numberOfElements)
-            throw FatalAstException("element count mismatch")
+        val slv = structAssignment.value as? ArrayLiteralValue
+        if(slv==null || slv.value.size != struct.numberOfElements) {
+            errors.err("element count mismatch", structAssignment.position)
+            return emptyList()
+        }
 
-        return struct.statements.zip(slv.values).map { (targetDecl, sourceValue) ->
+        return struct.statements.zip(slv.value).map { (targetDecl, sourceValue) ->
             targetDecl as VarDecl
             val mangled = mangledStructMemberName(identifierName, targetDecl.name)
             val idref = IdentifierReference(listOf(mangled), structAssignment.position)
-            val assign = Assignment(AssignTarget(null, idref, null, null, structAssignment.position),
-                    null, sourceValue, sourceValue.position)
+            val assign = Assignment(AssignTarget(idref, null, null, structAssignment.position),
+                    sourceValue, sourceValue.position)
             assign.linkParents(structAssignment)
             assign
         }
     }
 
-    private fun flattenStructAssignmentFromIdentifier(structAssignment: Assignment, program: Program): List<Assignment> {
+    private fun flattenStructAssignmentFromIdentifier(structAssignment: Assignment): List<Assignment> {
+        // TODO use memcopy beyond a certain number of elements
         val identifier = structAssignment.target.identifier!!
         val identifierName = identifier.nameInSource.single()
         val targetVar = identifier.targetVarDecl(program.namespace)!!
@@ -151,30 +311,50 @@ internal class StatementReorderer(val program: Program) : AstWalker() {
         when (structAssignment.value) {
             is IdentifierReference -> {
                 val sourceVar = (structAssignment.value as IdentifierReference).targetVarDecl(program.namespace)!!
-                if (sourceVar.struct == null)
-                    throw FatalAstException("can only assign arrays or structs to structs")
-                // struct memberwise copy
-                val sourceStruct = sourceVar.struct!!
-                if(sourceStruct!==targetVar.struct) {
-                    // structs are not the same in assignment
-                    return listOf()     // error will be printed elsewhere
-                }
-                return struct.statements.zip(sourceStruct.statements).map { member ->
-                    val targetDecl = member.first as VarDecl
-                    val sourceDecl = member.second as VarDecl
-                    if(targetDecl.name != sourceDecl.name)
-                        throw FatalAstException("struct member mismatch")
-                    val mangled = mangledStructMemberName(identifierName, targetDecl.name)
-                    val idref = IdentifierReference(listOf(mangled), structAssignment.position)
-                    val sourcemangled = mangledStructMemberName(sourceVar.name, sourceDecl.name)
-                    val sourceIdref = IdentifierReference(listOf(sourcemangled), structAssignment.position)
-                    val assign = Assignment(AssignTarget(null, idref, null, null, structAssignment.position),
-                            null, sourceIdref, member.second.position)
-                    assign.linkParents(structAssignment)
-                    assign
+                when {
+                    sourceVar.struct!=null -> {
+                        // struct memberwise copy
+                        val sourceStruct = sourceVar.struct!!
+                        if(sourceStruct!==targetVar.struct) {
+                            // structs are not the same in assignment
+                            return listOf()     // error will be printed elsewhere
+                        }
+                        if(struct.statements.size!=sourceStruct.statements.size)
+                            return listOf()     // error will be printed elsewhere
+                        return struct.statements.zip(sourceStruct.statements).map { member ->
+                            val targetDecl = member.first as VarDecl
+                            val sourceDecl = member.second as VarDecl
+                            if(targetDecl.name != sourceDecl.name)
+                                throw FatalAstException("struct member mismatch")
+                            val mangled = mangledStructMemberName(identifierName, targetDecl.name)
+                            val idref = IdentifierReference(listOf(mangled), structAssignment.position)
+                            val sourcemangled = mangledStructMemberName(sourceVar.name, sourceDecl.name)
+                            val sourceIdref = IdentifierReference(listOf(sourcemangled), structAssignment.position)
+                            val assign = Assignment(AssignTarget(idref, null, null, structAssignment.position), sourceIdref, member.second.position)
+                            assign.linkParents(structAssignment)
+                            assign
+                        }
+                    }
+                    sourceVar.isArray -> {
+                        val array = (sourceVar.value as ArrayLiteralValue).value
+                        if(struct.statements.size!=array.size)
+                            return listOf()     // error will be printed elsewhere
+                        return struct.statements.zip(array).map {
+                            val decl = it.first as VarDecl
+                            val mangled = mangledStructMemberName(identifierName, decl.name)
+                            val targetName = IdentifierReference(listOf(mangled), structAssignment.position)
+                            val target = AssignTarget(targetName, null, null, structAssignment.position)
+                            val assign = Assignment(target, it.second, structAssignment.position)
+                            assign.linkParents(structAssignment)
+                            assign
+                        }
+                    }
+                    else -> {
+                        throw FatalAstException("can only assign arrays or structs to structs")
+                    }
                 }
             }
-            is StructLiteralValue -> {
+            is ArrayLiteralValue -> {
                 throw IllegalArgumentException("not going to flatten a structLv assignment here")
             }
             else -> throw FatalAstException("strange struct value")

compiler/src/prog8/ast/processing/TypecastsAdder.kt

@@ -18,6 +18,26 @@ class TypecastsAdder(val program: Program, val errors: ErrorReporter) : AstWalke
 
     private val noModifications = emptyList<IAstModification>()
 
+    override fun after(decl: VarDecl, parent: Node): Iterable<IAstModification> {
+        val declValue = decl.value
+        if(decl.type==VarDeclType.VAR && declValue!=null && decl.struct==null) {
+            val valueDt = declValue.inferType(program)
+            if(!valueDt.istype(decl.datatype)) {
+
+                // don't add a typecast on an array initializer value
+                if(valueDt.typeOrElse(DataType.STRUCT) in IntegerDatatypes && decl.datatype in ArrayDatatypes)
+                    return noModifications
+
+                return listOf(IAstModification.ReplaceNode(
+                        declValue,
+                        TypecastExpression(declValue, decl.datatype, true, declValue.position),
+                        decl
+                ))
+            }
+        }
+        return noModifications
+    }
+
     override fun after(expr: BinaryExpression, parent: Node): Iterable<IAstModification> {
         val leftDt = expr.left.inferType(program)
         val rightDt = expr.right.inferType(program)
@@ -40,19 +60,27 @@ class TypecastsAdder(val program: Program, val errors: ErrorReporter) : AstWalke
     override fun after(assignment: Assignment, parent: Node): Iterable<IAstModification> {
         // see if a typecast is needed to convert the value's type into the proper target type
         val valueItype = assignment.value.inferType(program)
-        val targetItype = assignment.target.inferType(program, assignment)
+        val targetItype = assignment.target.inferType(program)
         if(targetItype.isKnown && valueItype.isKnown) {
             val targettype = targetItype.typeOrElse(DataType.STRUCT)
             val valuetype = valueItype.typeOrElse(DataType.STRUCT)
             if (valuetype != targettype) {
                 if (valuetype isAssignableTo targettype) {
+                    if(valuetype in IterableDatatypes && targettype==DataType.UWORD)
+                        // special case, don't typecast STR/arrays to UWORD, we support those assignments "directly"
+                        return noModifications
                     return listOf(IAstModification.ReplaceNode(
                             assignment.value,
                             TypecastExpression(assignment.value, targettype, true, assignment.value.position),
                             assignment))
                 } else {
-                    fun castLiteral(cvalue: NumericLiteralValue): List<IAstModification.ReplaceNode> =
-                        listOf(IAstModification.ReplaceNode(cvalue, cvalue.cast(targettype), cvalue.parent))
+                    fun castLiteral(cvalue: NumericLiteralValue): List<IAstModification.ReplaceNode> {
+                        val cast = cvalue.cast(targettype)
+                        return if(cast.isValid)
+                            listOf(IAstModification.ReplaceNode(cvalue, cast.valueOrZero(), cvalue.parent))
+                        else
+                            emptyList()
+                    }
                     val cvalue = assignment.value.constValue(program)
                     if(cvalue!=null) {
                         val number = cvalue.number.toDouble()
@@ -91,33 +119,32 @@ class TypecastsAdder(val program: Program, val errors: ErrorReporter) : AstWalke
 
         when(val sub = call.target.targetStatement(scope)) {
             is Subroutine -> {
-                for(arg in sub.parameters.zip(call.args.withIndex())) {
-                    val argItype = arg.second.value.inferType(program)
+                sub.parameters.zip(call.args).forEachIndexed { index, pair ->
+                    val argItype = pair.second.inferType(program)
                     if(argItype.isKnown) {
                         val argtype = argItype.typeOrElse(DataType.STRUCT)
-                        val requiredType = arg.first.type
+                        val requiredType = pair.first.type
                         if (requiredType != argtype) {
                             if (argtype isAssignableTo requiredType) {
                                 modifications += IAstModification.ReplaceNode(
-                                        call.args[arg.second.index],
-                                        TypecastExpression(arg.second.value, requiredType, true, arg.second.value.position),
+                                        call.args[index],
+                                        TypecastExpression(pair.second, requiredType, true, pair.second.position),
                                         call as Node)
                             } else if(requiredType == DataType.UWORD && argtype in PassByReferenceDatatypes) {
                                 // we allow STR/ARRAY values in place of UWORD parameters. Take their address instead.
-                                modifications += IAstModification.ReplaceNode(
-                                        call.args[arg.second.index],
-                                        AddressOf(arg.second.value as IdentifierReference, arg.second.value.position),
-                                        call as Node)
-                            } else if(arg.second.value is NumericLiteralValue) {
-                                try {
-                                    val castedValue = (arg.second.value as NumericLiteralValue).cast(requiredType)
+                                if(pair.second is IdentifierReference) {
                                     modifications += IAstModification.ReplaceNode(
-                                            call.args[arg.second.index],
-                                            castedValue,
+                                            call.args[index],
+                                            AddressOf(pair.second as IdentifierReference, pair.second.position),
                                             call as Node)
-                                } catch (x: ExpressionError) {
-                                    // no cast possible
                                 }
+                            } else if(pair.second is NumericLiteralValue) {
+                                val cast = (pair.second as NumericLiteralValue).cast(requiredType)
+                                if(cast.isValid)
+                                    modifications += IAstModification.ReplaceNode(
+                                            call.args[index],
+                                            cast.valueOrZero(),
+                                            call as Node)
                             }
                         }
                     }
@@ -125,25 +152,25 @@ class TypecastsAdder(val program: Program, val errors: ErrorReporter) : AstWalke
             }
             is BuiltinFunctionStatementPlaceholder -> {
                 val func = BuiltinFunctions.getValue(sub.name)
-                for (arg in func.parameters.zip(call.args.withIndex())) {
-                    val argItype = arg.second.value.inferType(program)
+                func.parameters.zip(call.args).forEachIndexed { index, pair ->
+                    val argItype = pair.second.inferType(program)
                     if (argItype.isKnown) {
                         val argtype = argItype.typeOrElse(DataType.STRUCT)
-                        if (arg.first.possibleDatatypes.any { argtype == it })
-                            continue
-                        for (possibleType in arg.first.possibleDatatypes) {
-                            if (argtype isAssignableTo possibleType) {
-                                modifications += IAstModification.ReplaceNode(
-                                        call.args[arg.second.index],
-                                        TypecastExpression(arg.second.value, possibleType, true, arg.second.value.position),
-                                        call as Node)
+                        if (pair.first.possibleDatatypes.all { argtype != it }) {
+                            for (possibleType in pair.first.possibleDatatypes) {
+                                if (argtype isAssignableTo possibleType) {
+                                    modifications += IAstModification.ReplaceNode(
+                                            call.args[index],
+                                            TypecastExpression(pair.second, possibleType, true, pair.second.position),
+                                            call as Node)
+                                    break
+                                }
                             }
                         }
                     }
                 }
             }
-            null -> { }
-            else -> throw FatalAstException("call to something weird $sub   ${call.target}")
+            else -> { }
         }
 
         return modifications
@@ -152,7 +179,7 @@ class TypecastsAdder(val program: Program, val errors: ErrorReporter) : AstWalke
     override fun after(typecast: TypecastExpression, parent: Node): Iterable<IAstModification> {
         // warn about any implicit type casts to Float, because that may not be intended
         if(typecast.implicit && typecast.type in setOf(DataType.FLOAT, DataType.ARRAY_F)) {
-            errors.warn("byte or word value implicitly converted to float. Suggestion: use explicit cast as float, a float number, or revert to integer arithmetic", typecast.position)
+            errors.warn("integer implicitly converted to float. Suggestion: use float literals, add an explicit cast, or revert to integer arithmetic", typecast.position)
         }
         return noModifications
     }
@@ -161,7 +188,7 @@ class TypecastsAdder(val program: Program, val errors: ErrorReporter) : AstWalke
         // make sure the memory address is an uword
         val dt = memread.addressExpression.inferType(program)
         if(dt.isKnown && dt.typeOrElse(DataType.UWORD)!=DataType.UWORD) {
-            val typecast = (memread.addressExpression as? NumericLiteralValue)?.cast(DataType.UWORD)
+            val typecast = (memread.addressExpression as? NumericLiteralValue)?.cast(DataType.UWORD)?.valueOrZero()
                     ?: TypecastExpression(memread.addressExpression, DataType.UWORD, true, memread.addressExpression.position)
             return listOf(IAstModification.ReplaceNode(memread.addressExpression, typecast, memread))
         }
@@ -172,58 +199,13 @@ class TypecastsAdder(val program: Program, val errors: ErrorReporter) : AstWalke
         // make sure the memory address is an uword
         val dt = memwrite.addressExpression.inferType(program)
         if(dt.isKnown && dt.typeOrElse(DataType.UWORD)!=DataType.UWORD) {
-            val typecast = (memwrite.addressExpression as? NumericLiteralValue)?.cast(DataType.UWORD)
+            val typecast = (memwrite.addressExpression as? NumericLiteralValue)?.cast(DataType.UWORD)?.valueOrZero()
                     ?: TypecastExpression(memwrite.addressExpression, DataType.UWORD, true, memwrite.addressExpression.position)
             return listOf(IAstModification.ReplaceNode(memwrite.addressExpression, typecast, memwrite))
         }
         return noModifications
     }
 
-    override fun after(structLv: StructLiteralValue, parent: Node): Iterable<IAstModification> {
-        // assignment of a struct literal value, some member values may need proper typecast
-
-        fun addTypecastsIfNeeded(struct: StructDecl): Iterable<IAstModification> {
-            val newValues = struct.statements.zip(structLv.values).map { (structMemberDecl, memberValue) ->
-                val memberDt = (structMemberDecl as VarDecl).datatype
-                val valueDt = memberValue.inferType(program)
-                if (valueDt.typeOrElse(memberDt) != memberDt)
-                    TypecastExpression(memberValue, memberDt, true, memberValue.position)
-                else
-                    memberValue
-            }
-
-            class StructLvValueReplacer(val targetStructLv: StructLiteralValue, val typecastValues: List<Expression>) : IAstModification {
-                override fun perform() {
-                    targetStructLv.values = typecastValues
-                    typecastValues.forEach { it.linkParents(targetStructLv) }
-                }
-            }
-
-            return if(structLv.values.zip(newValues).any { (v1, v2) -> v1 !== v2})
-                listOf(StructLvValueReplacer(structLv, newValues))
-            else
-                emptyList()
-        }
-
-        val decl = structLv.parent as? VarDecl
-        if(decl != null) {
-            val struct = decl.struct
-            if(struct != null)
-                return addTypecastsIfNeeded(struct)
-        } else {
-            val assign = structLv.parent as? Assignment
-            if (assign != null) {
-                val decl2 = assign.target.identifier?.targetVarDecl(program.namespace)
-                if(decl2 != null) {
-                    val struct = decl2.struct
-                    if(struct != null)
-                        return addTypecastsIfNeeded(struct)
-                }
-            }
-        }
-        return noModifications
-    }
-
     override fun after(returnStmt: Return, parent: Node): Iterable<IAstModification> {
         // add a typecast to the return type if it doesn't match the subroutine's signature
         val returnValue = returnStmt.value
@@ -234,7 +216,9 @@ class TypecastsAdder(val program: Program, val errors: ErrorReporter) : AstWalke
                 if (returnValue.inferType(program).istype(subReturnType))
                     return noModifications
                 if (returnValue is NumericLiteralValue) {
-                    returnStmt.value = returnValue.cast(subroutine.returntypes.single())
+                    val cast = returnValue.cast(subroutine.returntypes.single())
+                    if(cast.isValid)
+                        returnStmt.value = cast.valueOrZero()
                 } else {
                     return listOf(IAstModification.ReplaceNode(
                             returnValue,

compiler/src/prog8/ast/processing/VariousCleanups.kt

@@ -12,7 +12,7 @@ internal class VariousCleanups: AstWalker() {
     private val noModifications = emptyList<IAstModification>()
 
     override fun before(nopStatement: NopStatement, parent: Node): Iterable<IAstModification> {
-        return listOf(IAstModification.Remove(nopStatement, parent))
+        return listOf(IAstModification.Remove(nopStatement, parent as INameScope))
     }
 
     override fun before(scope: AnonymousScope, parent: Node): Iterable<IAstModification> {
@@ -35,7 +35,8 @@ internal class VariousCleanups: AstWalker() {
     override fun before(typecast: TypecastExpression, parent: Node): Iterable<IAstModification> {
         if(typecast.expression is NumericLiteralValue) {
             val value = (typecast.expression as NumericLiteralValue).cast(typecast.type)
-            return listOf(IAstModification.ReplaceNode(typecast, value, parent))
+            if(value.isValid)
+                return listOf(IAstModification.ReplaceNode(typecast, value.valueOrZero(), parent))
         }
 
         return noModifications

compiler/src/prog8/ast/processing/VerifyFunctionArgTypes.kt

@@ -4,39 +4,84 @@ import prog8.ast.IFunctionCall
 import prog8.ast.INameScope
 import prog8.ast.Program
 import prog8.ast.base.DataType
+import prog8.ast.base.FatalAstException
+import prog8.ast.expressions.Expression
 import prog8.ast.expressions.FunctionCall
-import prog8.ast.statements.BuiltinFunctionStatementPlaceholder
-import prog8.ast.statements.FunctionCallStatement
-import prog8.ast.statements.Subroutine
+import prog8.ast.statements.*
 import prog8.compiler.CompilerException
 import prog8.functions.BuiltinFunctions
 
 class VerifyFunctionArgTypes(val program: Program) : IAstVisitor {
 
-    override fun visit(functionCall: FunctionCall)
-            = checkTypes(functionCall as IFunctionCall, functionCall.definingScope())
+    override fun visit(functionCall: FunctionCall) {
+        val error = checkTypes(functionCall as IFunctionCall, functionCall.definingScope(), program)
+        if(error!=null)
+            throw CompilerException(error)
+    }
 
-    override fun visit(functionCallStatement: FunctionCallStatement)
-            = checkTypes(functionCallStatement as IFunctionCall, functionCallStatement.definingScope())
+    override fun visit(functionCallStatement: FunctionCallStatement) {
+        val error = checkTypes(functionCallStatement as IFunctionCall, functionCallStatement.definingScope(), program)
+        if (error!=null)
+            throw CompilerException(error)
+    }
 
-    private fun checkTypes(call: IFunctionCall, scope: INameScope) {
-        val argtypes = call.args.map { it.inferType(program).typeOrElse(DataType.STRUCT) }
-        val target = call.target.targetStatement(scope)
-        when(target) {
-            is Subroutine -> {
+    companion object {
+
+        private fun argTypeCompatible(argDt: DataType, paramDt: DataType): Boolean {
+            if(argDt==paramDt)
+                return true
+
+            // there are some exceptions that are considered compatible, such as STR <> UWORD
+            if(argDt==DataType.STR && paramDt==DataType.UWORD ||
+                    argDt==DataType.UWORD && paramDt==DataType.STR)
+                return true
+
+            return false
+        }
+
+        fun checkTypes(call: IFunctionCall, scope: INameScope, program: Program): String? {
+            val argITypes = call.args.map { it.inferType(program) }
+            if(argITypes.any { !it.isKnown })
+                throw FatalAstException("unknown dt")
+            val argtypes = argITypes.map { it.typeOrElse(DataType.STRUCT) }
+            val target = call.target.targetStatement(scope)
+            if (target is Subroutine) {
+                if(call.args.size != target.parameters.size)
+                    return "invalid number of arguments"
                 val paramtypes = target.parameters.map { it.type }
-                if(argtypes!=paramtypes)
-                    throw CompilerException("parameter type mismatch $call")
-            }
-            is BuiltinFunctionStatementPlaceholder -> {
-                val func = BuiltinFunctions.getValue(target.name)
-                val paramtypes = func.parameters.map { it.possibleDatatypes }
-                for(x in argtypes.zip(paramtypes)) {
-                    if(x.first !in x.second)
-                        throw CompilerException("parameter type mismatch $call")
+                val mismatch = argtypes.zip(paramtypes).indexOfFirst { !argTypeCompatible(it.first, it.second) }
+                if(mismatch>=0) {
+                    val actual = argtypes[mismatch].toString()
+                    val expected = paramtypes[mismatch].toString()
+                    return "argument ${mismatch + 1} type mismatch, was: $actual expected: $expected"
+                }
+                if(target.isAsmSubroutine) {
+                    if(target.asmReturnvaluesRegisters.size>1) {
+                        // multiple return values will NOT work inside an expression.
+                        // they MIGHT work in a regular assignment or just a function call statement.
+                        val parent = if(call is Statement) call.parent else if(call is Expression) call.parent else null
+                        if(call !is FunctionCallStatement && parent !is Assignment && parent !is VarDecl) {
+                            return "can't use subroutine call that returns multiple return values here (try moving it into a separate assignment)"
+                        }
+                    }
                 }
             }
-            else -> {}
+            else if (target is BuiltinFunctionStatementPlaceholder) {
+                val func = BuiltinFunctions.getValue(target.name)
+                if(call.args.size != func.parameters.size)
+                    return "invalid number of arguments"
+                val paramtypes = func.parameters.map { it.possibleDatatypes }
+                argtypes.zip(paramtypes).forEachIndexed { index, pair ->
+                    val anyCompatible = pair.second.any { argTypeCompatible(pair.first, it) }
+                    if (!anyCompatible) {
+                        val actual = pair.first.toString()
+                        val expected = pair.second.toString()
+                        return "argument ${index + 1} type mismatch, was: $actual expected: $expected"
+                    }
+                }
+            }
+
+            return null
         }
     }
 }

compiler/src/prog8/ast/statements/AstStatements.kt

@@ -5,6 +5,8 @@ import prog8.ast.base.*
 import prog8.ast.expressions.*
 import prog8.ast.processing.AstWalker
 import prog8.ast.processing.IAstVisitor
+import prog8.compiler.CompilerException
+import prog8.compiler.target.CompilationTarget
 
 
 sealed class Statement : Node {
@@ -28,12 +30,6 @@ sealed class Statement : Node {
             scope.add(name)
         return scope.joinToString(".")
     }
-
-    fun definingBlock(): Block {
-        if(this is Block)
-            return this
-        return findParentNode<Block>(this)!!
-    }
 }
 
 
@@ -48,7 +44,7 @@ class BuiltinFunctionStatementPlaceholder(val name: String, override val positio
     }
 }
 
-data class RegisterOrStatusflag(val registerOrPair: RegisterOrPair?, val statusflag: Statusflag?, val stack: Boolean)
+data class RegisterOrStatusflag(val registerOrPair: RegisterOrPair?, val statusflag: Statusflag?)
 
 class Block(override val name: String,
             val address: Int?,
@@ -64,7 +60,7 @@ class Block(override val name: String,
 
     override fun replaceChildNode(node: Node, replacement: Node) {
         require(replacement is Statement)
-        val idx = statements.withIndex().find { it.value===node }!!.index
+        val idx = statements.indexOfFirst { it ===node }
         statements[idx] = replacement
         replacement.parent = this
     }
@@ -139,27 +135,6 @@ open class Return(var value: Expression?, override val position: Position) : Sta
     }
 }
 
-class ReturnFromIrq(override val position: Position) : Return(null, position) {
-    override fun accept(visitor: IAstVisitor) = visitor.visit(this)
-
-    override fun toString(): String {
-        return "ReturnFromIrq(pos=$position)"
-    }
-    override fun replaceChildNode(node: Node, replacement: Node) = throw FatalAstException("can't replace here")
-}
-
-class Continue(override val position: Position) : Statement() {
-    override lateinit var parent: Node
-
-    override fun linkParents(parent: Node) {
-        this.parent=parent
-    }
-
-    override fun replaceChildNode(node: Node, replacement: Node) = throw FatalAstException("can't replace here")
-    override fun accept(visitor: IAstVisitor) = visitor.visit(this)
-    override fun accept(visitor: AstWalker, parent: Node) = visitor.visit(this, parent)
-}
-
 class Break(override val position: Position) : Statement() {
     override lateinit var parent: Node
 
@@ -196,6 +171,7 @@ open class VarDecl(val type: VarDeclType,
         private set
     var structHasBeenFlattened = false      // set later
         private set
+    var allowInitializeWithZero = true
 
     // prefix for literal values that are turned into a variable on the heap
 
@@ -210,7 +186,12 @@ open class VarDecl(val type: VarDeclType,
 
         fun createAuto(array: ArrayLiteralValue): VarDecl {
             val autoVarName = "auto_heap_value_${++autoHeapValueSequenceNumber}"
-            val declaredType = ArrayElementTypes.getValue(array.type.typeOrElse(DataType.STRUCT))
+            val arrayDt =
+                if(!array.type.isKnown)
+                    throw FatalAstException("unknown dt")
+                else
+                    array.type.typeOrElse(DataType.STRUCT)
+            val declaredType = ArrayElementTypes.getValue(arrayDt)
             val arraysize = ArrayIndex.forArray(array)
             return VarDecl(VarDeclType.VAR, declaredType, ZeropageWish.NOT_IN_ZEROPAGE, arraysize, autoVarName, null, array,
                     isArray = true, autogeneratedDontRemove = true, position = array.position)
@@ -235,8 +216,9 @@ open class VarDecl(val type: VarDeclType,
                 DataType.UWORD -> DataType.ARRAY_UW
                 DataType.WORD -> DataType.ARRAY_W
                 DataType.FLOAT -> DataType.ARRAY_F
+                DataType.STR -> DataType.ARRAY_UW       // use memory address of the string instead
                 else -> {
-                    datatypeErrors.add(SyntaxError("array can only contain bytes/words/floats", position))
+                    datatypeErrors.add(SyntaxError("array can only contain bytes/words/floats/strings(ptrs)", position))
                     DataType.ARRAY_UB
                 }
             }
@@ -253,7 +235,8 @@ open class VarDecl(val type: VarDeclType,
     }
 
     override fun replaceChildNode(node: Node, replacement: Node) {
-        require(replacement is Expression && node===value)
+        // TODO the check that node===value is too strict sometimes, but leaving it out allows for bugs to creep through ... :( Perhaps check when adding the replace if there is already a replace on the same node?
+        require(replacement is Expression)
         value = replacement
         replacement.parent = this
     }
@@ -265,12 +248,17 @@ open class VarDecl(val type: VarDeclType,
         return "VarDecl(name=$name, vartype=$type, datatype=$datatype, struct=$structName, value=$value, pos=$position)"
     }
 
-    fun zeroElementValue() = defaultZero(declaredDatatype, position)
+    fun zeroElementValue(): NumericLiteralValue {
+        if(allowInitializeWithZero)
+            return defaultZero(declaredDatatype, position)
+        else
+            throw CompilerException("attempt to get zero value for vardecl that shouldn't get it")
+    }
 
     fun flattenStructMembers(): MutableList<Statement> {
-        val result = struct!!.statements.withIndex().map {
-            val member = it.value as VarDecl
-            val initvalue = if(value!=null) (value as StructLiteralValue).values[it.index] else null
+        val result = struct!!.statements.mapIndexed { index, statement ->
+            val member = statement as VarDecl
+            val initvalue = if(value!=null) (value as ArrayLiteralValue).value[index] else null
             VarDecl(
                     VarDeclType.VAR,
                     member.datatype,
@@ -282,8 +270,8 @@ open class VarDecl(val type: VarDeclType,
                     member.isArray,
                     true,
                     member.position
-            ) as Statement
-        }.toMutableList()
+            )
+        }.toMutableList<Statement>()
         structHasBeenFlattened = true
         return result
     }
@@ -291,40 +279,84 @@ open class VarDecl(val type: VarDeclType,
 
 // a vardecl used only for subroutine parameters
 class ParameterVarDecl(name: String, declaredDatatype: DataType, position: Position)
-    : VarDecl(VarDeclType.VAR, declaredDatatype, ZeropageWish.NOT_IN_ZEROPAGE, null, name, null, null, false, true, position)
+    : VarDecl(VarDeclType.VAR, declaredDatatype, ZeropageWish.DONTCARE, null, name, null, null, false, true, position)
 
 
-class ArrayIndex(var index: Expression, override val position: Position) : Node {
+class ArrayIndex(var origExpression: Expression?,            // will be replaced later by either the number or the identifier
+                 override val position: Position) : Node {
+    // for code simplicity, either indexed via a constant number or via a variable (no arbitrary expressions)
     override lateinit var parent: Node
+    var indexNum: NumericLiteralValue? = origExpression as? NumericLiteralValue
+    var indexVar: IdentifierReference? = origExpression as? IdentifierReference
+
+    init {
+        if(indexNum!=null || indexVar!=null)
+            origExpression = null
+    }
 
     override fun linkParents(parent: Node) {
         this.parent = parent
-        index.linkParents(this)
+        origExpression?.linkParents(this)
+        indexNum?.linkParents(this)
+        indexVar?.linkParents(this)
     }
 
     override fun replaceChildNode(node: Node, replacement: Node) {
-        require(replacement is Expression && node===index)
-        index = replacement
-        replacement.parent = this
+        require(replacement is Expression)
+        when {
+            node===origExpression -> origExpression = replacement
+            node===indexVar -> {
+                when (replacement) {
+                    is NumericLiteralValue -> {
+                        indexVar = null
+                        indexNum = replacement
+                    }
+                    is IdentifierReference -> {
+                        indexVar = replacement
+                        indexNum = null
+                    }
+                    else -> {
+                        throw FatalAstException("invalid replace")
+                    }
+                }
+            }
+            else -> throw FatalAstException("invalid replace")
+        }
     }
 
     companion object {
         fun forArray(v: ArrayLiteralValue): ArrayIndex {
-            return ArrayIndex(NumericLiteralValue.optimalNumeric(v.value.size, v.position), v.position)
+            val indexnum = NumericLiteralValue.optimalNumeric(v.value.size, v.position)
+            return ArrayIndex(indexnum, v.position)
         }
     }
 
-    fun accept(visitor: IAstVisitor) = index.accept(visitor)
-    fun accept(visitor: AstWalker, parent: Node) = index.accept(visitor, this)
-
-    override fun toString(): String {
-        return("ArrayIndex($index, pos=$position)")
+    fun accept(visitor: IAstVisitor) {
+        origExpression?.accept(visitor)
+        indexNum?.accept(visitor)
+        indexVar?.accept(visitor)
+    }
+    fun accept(visitor: AstWalker, parent: Node) {
+        origExpression?.accept(visitor, this)
+        indexNum?.accept(visitor, this)
+        indexVar?.accept(visitor, this)
     }
 
-    fun size() = (index as? NumericLiteralValue)?.number?.toInt()
+    override fun toString(): String {
+        return("ArrayIndex($indexNum, $indexVar, pos=$position)")
+    }
+
+    fun constIndex() = indexNum?.number?.toInt()
+
+    infix fun isSameAs(other: ArrayIndex): Boolean {
+        return if(indexNum!=null || indexVar!=null)
+            indexNum==other.indexNum && indexVar == other.indexVar
+        else
+            other.origExpression!=null && origExpression!! isSameAs other.origExpression!!
+    }
 }
 
-open class Assignment(var target: AssignTarget, var aug_op : String?, var value: Expression, override val position: Position) : Statement() {
+open class Assignment(var target: AssignTarget, var value: Expression, override val position: Position) : Statement() {
     override lateinit var parent: Node
 
     override fun linkParents(parent: Node) {
@@ -346,36 +378,58 @@ open class Assignment(var target: AssignTarget, var aug_op : String?, var value:
     override fun accept(visitor: AstWalker, parent: Node) = visitor.visit(this, parent)
 
     override fun toString(): String {
-        return("Assignment(augop: $aug_op, target: $target, value: $value, pos=$position)")
+        return("Assignment(target: $target, value: $value, pos=$position)")
     }
 
-    fun asDesugaredNonaugmented(): Assignment {
-        val augmented = aug_op ?: return this
+    /**
+     * Is the assigment value an expression that references the assignment target itself?
+     * The expression can be a BinaryExpression, PrefixExpression or TypecastExpression (possibly with one sub-cast).
+     */
+    val isAugmentable: Boolean
+        get() {
+            val binExpr = value as? BinaryExpression
+            if(binExpr!=null) {
+                if(binExpr.left isSameAs target)
+                    return true  // A = A <operator> Something
 
-        val leftOperand: Expression =
-                when {
-                    target.register != null -> RegisterExpr(target.register!!, target.position)
-                    target.identifier != null -> target.identifier!!
-                    target.arrayindexed != null -> target.arrayindexed!!
-                    target.memoryAddress != null -> DirectMemoryRead(target.memoryAddress!!.addressExpression, value.position)
-                    else -> throw FatalAstException("strange this")
+                if(binExpr.operator in associativeOperators) {
+                    if (binExpr.left !is BinaryExpression && binExpr.right isSameAs target)
+                        return true  // A = v <associative-operator> A
+
+                    val leftBinExpr = binExpr.left as? BinaryExpression
+                    if(leftBinExpr?.operator == binExpr.operator) {
+                        // one of these?
+                        // A = (A <associative-operator> x) <same-operator> y
+                        // A = (x <associative-operator> A) <same-operator> y
+                        // A = (x <associative-operator> y) <same-operator> A
+                        return leftBinExpr.left isSameAs target || leftBinExpr.right isSameAs target || binExpr.right isSameAs target
+                    }
+                    val rightBinExpr = binExpr.right as? BinaryExpression
+                    if(rightBinExpr?.operator == binExpr.operator) {
+                        // one of these?
+                        // A = y <associative-operator> (A <same-operator> x)
+                        // A = y <associative-operator> (x <same-operator> y)
+                        // A = A <associative-operator> (x <same-operator> y)
+                        return rightBinExpr.left isSameAs target || rightBinExpr.right isSameAs target || binExpr.left isSameAs target
+                    }
                 }
-
-        val assignment =
-            if(augmented=="setvalue") {
-                Assignment(target, null, value, position)
-            } else {
-                val expression = BinaryExpression(leftOperand, augmented.substringBeforeLast('='), value, position)
-                Assignment(target, null, expression, position)
             }
-        assignment.linkParents(parent)
 
-        return assignment
-    }
+            val prefixExpr = value as? PrefixExpression
+            if(prefixExpr!=null)
+                return prefixExpr.expression isSameAs target
+
+            val castExpr = value as? TypecastExpression
+            if(castExpr!=null) {
+                val subCast = castExpr.expression as? TypecastExpression
+                return if(subCast!=null) subCast.expression isSameAs target else castExpr.expression isSameAs target
+            }
+
+            return false
+        }
 }
 
-data class AssignTarget(val register: Register?,
-                        var identifier: IdentifierReference?,
+data class AssignTarget(var identifier: IdentifierReference?,
                         var arrayindexed: ArrayIndexedExpression?,
                         val memoryAddress: DirectMemoryWrite?,
                         override val position: Position) : Node {
@@ -390,8 +444,8 @@ data class AssignTarget(val register: Register?,
 
     override fun replaceChildNode(node: Node, replacement: Node) {
         when {
-            node===identifier -> identifier = replacement as IdentifierReference
-            node===arrayindexed -> arrayindexed = replacement as ArrayIndexedExpression
+            node === identifier -> identifier = replacement as IdentifierReference
+            node === arrayindexed -> arrayindexed = replacement as ArrayIndexedExpression
             else -> throw FatalAstException("invalid replace")
         }
         replacement.parent = this
@@ -400,98 +454,111 @@ data class AssignTarget(val register: Register?,
     fun accept(visitor: IAstVisitor) = visitor.visit(this)
     fun accept(visitor: AstWalker, parent: Node) = visitor.visit(this, parent)
 
-    companion object {
-        fun fromExpr(expr: Expression): AssignTarget {
-            return when (expr) {
-                is RegisterExpr -> AssignTarget(expr.register, null, null, null, expr.position)
-                is IdentifierReference -> AssignTarget(null, expr, null, null, expr.position)
-                is ArrayIndexedExpression -> AssignTarget(null, null, expr, null, expr.position)
-                is DirectMemoryRead -> AssignTarget(null, null, null, DirectMemoryWrite(expr.addressExpression, expr.position), expr.position)
-                else -> throw FatalAstException("invalid expression object $expr")
-            }
-        }
-    }
-
-    fun inferType(program: Program, stmt: Statement): InferredTypes.InferredType {
-        if(register!=null)
-            return InferredTypes.knownFor(DataType.UBYTE)
-
-        if(identifier!=null) {
-            val symbol = program.namespace.lookup(identifier!!.nameInSource, stmt) ?: return InferredTypes.unknown()
+    fun inferType(program: Program): InferredTypes.InferredType {
+        if (identifier != null) {
+            val symbol = program.namespace.lookup(identifier!!.nameInSource, this) ?: return InferredTypes.unknown()
             if (symbol is VarDecl) return InferredTypes.knownFor(symbol.datatype)
         }
 
-        if(arrayindexed!=null) {
+        if (arrayindexed != null) {
             return arrayindexed!!.inferType(program)
         }
 
-        if(memoryAddress!=null)
+        if (memoryAddress != null)
             return InferredTypes.knownFor(DataType.UBYTE)
 
         return InferredTypes.unknown()
     }
 
+    fun toExpression(): Expression {
+        return when {
+            identifier != null -> identifier!!
+            arrayindexed != null -> arrayindexed!!
+            memoryAddress != null -> DirectMemoryRead(memoryAddress.addressExpression, memoryAddress.position)
+            else -> throw FatalAstException("invalid assignmenttarget $this")
+        }
+    }
+
     infix fun isSameAs(value: Expression): Boolean {
         return when {
-            this.memoryAddress!=null -> {
+            memoryAddress != null -> {
                 // if the target is a memory write, and the value is a memory read, they're the same if the address matches
-                if(value is DirectMemoryRead)
+                if (value is DirectMemoryRead)
                     this.memoryAddress.addressExpression isSameAs value.addressExpression
                 else
                     false
             }
-            this.register!=null -> value is RegisterExpr && value.register==register
-            this.identifier!=null -> value is IdentifierReference && value.nameInSource==identifier!!.nameInSource
-            this.arrayindexed!=null -> value is ArrayIndexedExpression &&
-                    value.identifier.nameInSource==arrayindexed!!.identifier.nameInSource &&
-                    value.arrayspec.size()!=null &&
-                    arrayindexed!!.arrayspec.size()!=null &&
-                    value.arrayspec.size()==arrayindexed!!.arrayspec.size()
+            identifier != null -> value is IdentifierReference && value.nameInSource == identifier!!.nameInSource
+            arrayindexed != null -> {
+                if(value is ArrayIndexedExpression && value.arrayvar.nameInSource == arrayindexed!!.arrayvar.nameInSource)
+                    arrayindexed!!.indexer isSameAs value.indexer
+                else
+                    false
+            }
             else -> false
         }
     }
 
     fun isSameAs(other: AssignTarget, program: Program): Boolean {
-        if(this===other)
+        if (this === other)
             return true
-        if(this.register!=null && other.register!=null)
-            return this.register==other.register
-        if(this.identifier!=null && other.identifier!=null)
-            return this.identifier!!.nameInSource==other.identifier!!.nameInSource
-        if(this.memoryAddress!=null && other.memoryAddress!=null) {
+        if (this.identifier != null && other.identifier != null)
+            return this.identifier!!.nameInSource == other.identifier!!.nameInSource
+        if (this.memoryAddress != null && other.memoryAddress != null) {
             val addr1 = this.memoryAddress.addressExpression.constValue(program)
             val addr2 = other.memoryAddress.addressExpression.constValue(program)
-            return addr1!=null && addr2!=null && addr1==addr2
+            return addr1 != null && addr2 != null && addr1 == addr2
         }
-        if(this.arrayindexed!=null && other.arrayindexed!=null) {
-            if(this.arrayindexed!!.identifier.nameInSource == other.arrayindexed!!.identifier.nameInSource) {
-                val x1 = this.arrayindexed!!.arrayspec.index.constValue(program)
-                val x2 = other.arrayindexed!!.arrayspec.index.constValue(program)
-                return x1!=null && x2!=null && x1==x2
+        if (this.arrayindexed != null && other.arrayindexed != null) {
+            if (this.arrayindexed!!.arrayvar.nameInSource == other.arrayindexed!!.arrayvar.nameInSource) {
+                val x1 = this.arrayindexed!!.indexer.constIndex()
+                val x2 = other.arrayindexed!!.indexer.constIndex()
+                return x1 != null && x2 != null && x1 == x2
             }
         }
         return false
     }
 
-    fun isNotMemory(namespace: INameScope): Boolean {
-        if(this.register!=null)
-            return true
-        if(this.memoryAddress!=null)
-            return false
-        if(this.arrayindexed!=null) {
-            val targetStmt = this.arrayindexed!!.identifier.targetVarDecl(namespace)
-            if(targetStmt!=null)
-                return targetStmt.type!= VarDeclType.MEMORY
+    fun isInRegularRAM(namespace: INameScope): Boolean {
+        when {
+            this.memoryAddress != null -> {
+                return when (this.memoryAddress.addressExpression) {
+                    is NumericLiteralValue -> {
+                        CompilationTarget.instance.machine.isRegularRAMaddress((this.memoryAddress.addressExpression as NumericLiteralValue).number.toInt())
+                    }
+                    is IdentifierReference -> {
+                        val decl = (this.memoryAddress.addressExpression as IdentifierReference).targetVarDecl(namespace)
+                        if ((decl?.type == VarDeclType.VAR || decl?.type == VarDeclType.CONST) && decl.value is NumericLiteralValue)
+                            CompilationTarget.instance.machine.isRegularRAMaddress((decl.value as NumericLiteralValue).number.toInt())
+                        else
+                            false
+                    }
+                    else -> false
+                }
+            }
+            this.arrayindexed != null -> {
+                val targetStmt = this.arrayindexed!!.arrayvar.targetVarDecl(namespace)
+                return if (targetStmt?.type == VarDeclType.MEMORY) {
+                    val addr = targetStmt.value as? NumericLiteralValue
+                    if (addr != null)
+                        CompilationTarget.instance.machine.isRegularRAMaddress(addr.number.toInt())
+                    else
+                        false
+                } else true
+            }
+            this.identifier != null -> {
+                val decl = this.identifier!!.targetVarDecl(namespace)!!
+                return if (decl.type == VarDeclType.MEMORY && decl.value is NumericLiteralValue)
+                    CompilationTarget.instance.machine.isRegularRAMaddress((decl.value as NumericLiteralValue).number.toInt())
+                else
+                    true
+            }
+            else -> return true
         }
-        if(this.identifier!=null) {
-            val targetStmt = this.identifier!!.targetVarDecl(namespace)
-            if(targetStmt!=null)
-                return targetStmt.type!= VarDeclType.MEMORY
-        }
-        return false
     }
 }
 
+
 class PostIncrDecr(var target: AssignTarget, val operator: String, override val position: Position) : Statement() {
     override lateinit var parent: Node
 
@@ -550,7 +617,7 @@ class FunctionCallStatement(override var target: IdentifierReference,
         if(node===target)
             target = replacement as IdentifierReference
         else {
-            val idx = args.withIndex().find { it.value===node }!!.index
+            val idx = args.indexOfFirst { it===node }
             args[idx] = replacement as Expression
         }
         replacement.parent = this
@@ -597,7 +664,7 @@ class AnonymousScope(override var statements: MutableList<Statement>,
 
     override fun replaceChildNode(node: Node, replacement: Node) {
         require(replacement is Statement)
-        val idx = statements.withIndex().find { it.value===node }!!.index
+        val idx = statements.indexOfFirst { it===node }
         statements[idx] = replacement
         replacement.parent = this
     }
@@ -616,14 +683,22 @@ class NopStatement(override val position: Position): Statement() {
     override fun replaceChildNode(node: Node, replacement: Node) = throw FatalAstException("can't replace here")
     override fun accept(visitor: IAstVisitor) = visitor.visit(this)
     override fun accept(visitor: AstWalker, parent: Node) = visitor.visit(this, parent)
+}
 
-    companion object {
-        fun insteadOf(stmt: Statement): NopStatement {
-            val nop = NopStatement(stmt.position)
-            nop.parent = stmt.parent
-            return nop
-        }
-    }
+
+class AsmGenInfo {
+    // This class contains various attributes that influence the assembly code generator.
+    // Conceptually it should be part of any INameScope.
+    // But because the resulting code only creates "real" scopes on a subroutine level,
+    // it's more consistent to only define these attributes on a Subroutine node.
+    var usedAutoArrayIndexerForStatements = mutableListOf<ArrayIndexerInfo>()
+    var usedRegsaveA = false
+    var usedRegsaveX = false
+    var usedRegsaveY = false
+    var usedFloatEvalResultVar1 = false
+    var usedFloatEvalResultVar2 = false
+
+    class ArrayIndexerInfo(val name: String, val replaces: ArrayIndex, val partOfStatement: Statement, var used: Int=0)
 }
 
 // the subroutine class covers both the normal user-defined subroutines,
@@ -634,14 +709,30 @@ class Subroutine(override val name: String,
                  val returntypes: List<DataType>,
                  val asmParameterRegisters: List<RegisterOrStatusflag>,
                  val asmReturnvaluesRegisters: List<RegisterOrStatusflag>,
-                 val asmClobbers: Set<Register>,
+                 val asmClobbers: Set<CpuRegister>,
                  val asmAddress: Int?,
                  val isAsmSubroutine: Boolean,
                  override var statements: MutableList<Statement>,
                  override val position: Position) : Statement(), INameScope {
 
-    var keepAlways: Boolean = false
+    constructor(name: String, parameters: List<SubroutineParameter>, returntypes: List<DataType>, statements: MutableList<Statement>, position: Position)
+            : this(name, parameters, returntypes, emptyList(), determineReturnRegisters(returntypes), emptySet(), null, false, statements, position)
+
+    companion object {
+        private fun determineReturnRegisters(returntypes: List<DataType>): List<RegisterOrStatusflag> {
+            // for non-asm subroutines, determine the return registers based on the type of the return value
+            return when(returntypes.singleOrNull()) {
+                in ByteDatatypes -> listOf(RegisterOrStatusflag(RegisterOrPair.A, null))
+                in WordDatatypes -> listOf(RegisterOrStatusflag(RegisterOrPair.AY, null))
+                DataType.FLOAT -> listOf(RegisterOrStatusflag(RegisterOrPair.AY, null))
+                null -> emptyList()
+                else -> listOf(RegisterOrStatusflag(RegisterOrPair.AY, null))
+            }
+        }
+    }
+
     override lateinit var parent: Node
+    val asmGenInfo = AsmGenInfo()
     val scopedname: String by lazy { makeScopedName(name) }
 
     override fun linkParents(parent: Node) {
@@ -652,7 +743,7 @@ class Subroutine(override val name: String,
 
     override fun replaceChildNode(node: Node, replacement: Node) {
         require(replacement is Statement)
-        val idx = statements.withIndex().find { it.value===node }!!.index
+        val idx = statements.indexOfFirst { it===node }
         statements[idx] = replacement
         replacement.parent = this
     }
@@ -665,38 +756,13 @@ class Subroutine(override val name: String,
     }
 
     fun regXasResult() = asmReturnvaluesRegisters.any { it.registerOrPair in setOf(RegisterOrPair.X, RegisterOrPair.AX, RegisterOrPair.XY) }
+    fun regXasParam() = asmParameterRegisters.any { it.registerOrPair in setOf(RegisterOrPair.X, RegisterOrPair.AX, RegisterOrPair.XY) }
 
     fun amountOfRtsInAsm(): Int = statements
             .asSequence()
             .filter { it is InlineAssembly }
             .map { (it as InlineAssembly).assembly }
             .count { " rti" in it || "\trti" in it || " rts" in it || "\trts" in it || " jmp" in it || "\tjmp" in it }
-
-    fun countStatements(): Int {
-        class StatementCounter: IAstVisitor {
-            var count = 0
-
-            override fun visit(block: Block) {
-                count += block.statements.size
-                super.visit(block)
-            }
-
-            override fun visit(subroutine: Subroutine) {
-                count += subroutine.statements.size
-                super.visit(subroutine)
-            }
-
-            override fun visit(scope: AnonymousScope) {
-                count += scope.statements.size
-                super.visit(scope)
-            }
-        }
-
-        // the (recursive) number of statements
-        val counter = StatementCounter()
-        counter.visit(this)
-        return counter.count
-    }
 }
 
 
@@ -768,8 +834,7 @@ class BranchStatement(var condition: BranchCondition,
 
 }
 
-class ForLoop(val loopRegister: Register?,
-              var loopVar: IdentifierReference?,
+class ForLoop(var loopVar: IdentifierReference,
               var iterable: Expression,
               var body: AnonymousScope,
               override val position: Position) : Statement() {
@@ -777,7 +842,7 @@ class ForLoop(val loopRegister: Register?,
 
     override fun linkParents(parent: Node) {
         this.parent=parent
-        loopVar?.linkParents(this)
+        loopVar.linkParents(this)
         iterable.linkParents(this)
         body.linkParents(this)
     }
@@ -796,14 +861,10 @@ class ForLoop(val loopRegister: Register?,
     override fun accept(visitor: AstWalker, parent: Node) = visitor.visit(this, parent)
 
     override fun toString(): String {
-        return "ForLoop(loopVar: $loopVar, loopReg: $loopRegister, iterable: $iterable, pos=$position)"
+        return "ForLoop(loopVar: $loopVar, iterable: $iterable, pos=$position)"
     }
 
-    fun loopVarDt(program: Program): InferredTypes.InferredType {
-        val lv = loopVar
-        return if(loopRegister!=null) InferredTypes.InferredType.known(DataType.UBYTE)
-                else lv?.inferType(program) ?: InferredTypes.InferredType.unknown()
-    }
+    fun loopVarDt(program: Program) = loopVar.inferType(program)
 }
 
 class WhileLoop(var condition: Expression,
@@ -830,17 +891,21 @@ class WhileLoop(var condition: Expression,
     override fun accept(visitor: AstWalker, parent: Node) = visitor.visit(this, parent)
 }
 
-class ForeverLoop(var body: AnonymousScope, override val position: Position) : Statement() {
+class RepeatLoop(var iterations: Expression?, var body: AnonymousScope, override val position: Position) : Statement() {
     override lateinit var parent: Node
 
     override fun linkParents(parent: Node) {
         this.parent = parent
+        iterations?.linkParents(this)
         body.linkParents(this)
     }
 
     override fun replaceChildNode(node: Node, replacement: Node) {
-        require(replacement is AnonymousScope && node===body)
-        body = replacement
+        when {
+            node===iterations -> iterations = replacement as Expression
+            node===body -> body = replacement as AnonymousScope
+            else -> throw FatalAstException("invalid replace")
+        }
         replacement.parent = this
     }
 
@@ -848,20 +913,20 @@ class ForeverLoop(var body: AnonymousScope, override val position: Position) : S
     override fun accept(visitor: AstWalker, parent: Node) = visitor.visit(this, parent)
 }
 
-class RepeatLoop(var body: AnonymousScope,
-                 var untilCondition: Expression,
-                 override val position: Position) : Statement() {
+class UntilLoop(var body: AnonymousScope,
+                var condition: Expression,
+                override val position: Position) : Statement() {
     override lateinit var parent: Node
 
     override fun linkParents(parent: Node) {
         this.parent = parent
-        untilCondition.linkParents(this)
+        condition.linkParents(this)
         body.linkParents(this)
     }
 
     override fun replaceChildNode(node: Node, replacement: Node) {
         when {
-            node===untilCondition -> untilCondition = replacement as Expression
+            node===condition -> condition = replacement as Expression
             node===body -> body = replacement as AnonymousScope
             else -> throw FatalAstException("invalid replace")
         }
@@ -900,11 +965,11 @@ class WhenStatement(var condition: Expression,
             if(choice.values==null)
                 result.add(null to choice)
             else {
-                val values = choice.values!!.map { it.constValue(program)?.number?.toInt() }
-                if(values.contains(null))
-                    result.add(null to choice)
-                else
-                    result.add(values.filterNotNull() to choice)
+                val values = choice.values!!.map {
+                    val cv = it.constValue(program)
+                    cv?.number?.toInt() ?: it.hashCode()       // the hashcode is a nonsensical number but it avoids weird AST validation errors later
+                }
+                result.add(values to choice)
             }
         }
         return result
@@ -926,9 +991,15 @@ class WhenChoice(var values: List<Expression>?,           // if null,  this is t
     }
 
     override fun replaceChildNode(node: Node, replacement: Node) {
-        require(replacement is AnonymousScope && node===statements)
-        statements = replacement
-        replacement.parent = this
+        val choiceValues = values
+        if(replacement is AnonymousScope && node===statements) {
+            statements = replacement
+            replacement.parent = this
+        } else if(choiceValues!=null && node in choiceValues) {
+            throw FatalAstException("cannot replace choice values")
+        } else {
+            throw FatalAstException("invalid replacement")
+        }
     }
 
     override fun toString(): String {
@@ -953,7 +1024,7 @@ class StructDecl(override val name: String,
 
     override fun replaceChildNode(node: Node, replacement: Node) {
         require(replacement is Statement)
-        val idx = statements.withIndex().find { it.value===node }!!.index
+        val idx = statements.indexOfFirst { it===node }
         statements[idx] = replacement
         replacement.parent = this
     }

compiler/src/prog8/compiler/BeforeAsmGenerationAstChanger.kt

@@ -1,5 +1,6 @@
 package prog8.compiler
 
+import prog8.ast.IFunctionCall
 import prog8.ast.Node
 import prog8.ast.Program
 import prog8.ast.base.*
@@ -14,43 +15,97 @@ internal class BeforeAsmGenerationAstChanger(val program: Program, val errors: E
     private val noModifications = emptyList<IAstModification>()
 
     override fun after(decl: VarDecl, parent: Node): Iterable<IAstModification> {
-        if (decl.value == null && decl.type == VarDeclType.VAR && decl.datatype in NumericDatatypes) {
-            // a numeric vardecl without an initial value is initialized with zero.
-            decl.value = decl.zeroElementValue()
+        subroutineVariables.add(decl.name to decl)
+        if (decl.value == null && !decl.autogeneratedDontRemove && decl.type == VarDeclType.VAR && decl.datatype in NumericDatatypes) {
+            // a numeric vardecl without an initial value is initialized with zero,
+            // unless there's already an assignment below, that initializes the value
+            if(decl.allowInitializeWithZero)
+            {
+                val nextAssign = decl.definingScope().nextSibling(decl) as? Assignment
+                if (nextAssign != null && nextAssign.target.isSameAs(IdentifierReference(listOf(decl.name), Position.DUMMY)))
+                    decl.value = null
+                else
+                    decl.value = decl.zeroElementValue()
+            }
         }
         return noModifications
     }
 
+    override fun after(assignment: Assignment, parent: Node): Iterable<IAstModification> {
+        // Try to replace A = B <operator> Something  by A= B, A = A <operator> Something
+        // this triggers the more efficent augmented assignment code generation more often.
+        // But it can only be done if the target variable IS NOT OCCURRING AS AN OPERAND ITSELF.
+        if(!assignment.isAugmentable
+                && assignment.target.identifier != null
+                && assignment.target.isInRegularRAM(program.namespace)) {
+            val binExpr = assignment.value as? BinaryExpression
+            if (binExpr != null && binExpr.operator !in comparisonOperators) {
+                if (binExpr.left !is BinaryExpression) {
+                    if (binExpr.right.referencesIdentifier(*assignment.target.identifier!!.nameInSource.toTypedArray())) {
+                        // the right part of the expression contains the target variable itself.
+                        // we can't 'split' it trivially because the variable will be changed halfway through.
+                        if(binExpr.operator in associativeOperators) {
+                            // A = <something-without-A>  <associativeoperator>  <otherthing-with-A>
+                            // use the other part of the expression to split.
+                            val assignRight = Assignment(assignment.target, binExpr.right, assignment.position)
+                            return listOf(
+                                    IAstModification.InsertBefore(assignment, assignRight, assignment.definingScope()),
+                                    IAstModification.ReplaceNode(binExpr.right, binExpr.left, binExpr),
+                                    IAstModification.ReplaceNode(binExpr.left, assignment.target.toExpression(), binExpr))
+                        }
+                    } else {
+                        val assignLeft = Assignment(assignment.target, binExpr.left, assignment.position)
+                        return listOf(
+                                IAstModification.InsertBefore(assignment, assignLeft, assignment.definingScope()),
+                                IAstModification.ReplaceNode(binExpr.left, assignment.target.toExpression(), binExpr))
+                    }
+                }
+            }
+        }
+        return noModifications
+    }
+
+    private val subroutineVariables = mutableListOf<Pair<String, VarDecl>>()
+
+    override fun before(subroutine: Subroutine, parent: Node): Iterable<IAstModification> {
+        subroutineVariables.clear()
+        return noModifications
+    }
+
     override fun after(scope: AnonymousScope, parent: Node): Iterable<IAstModification> {
         val decls = scope.statements.filterIsInstance<VarDecl>()
+        subroutineVariables.addAll(decls.map { it.name to it })
+
         val sub = scope.definingSubroutine()
         if (sub != null) {
-            val existingVariables = sub.statements.filterIsInstance<VarDecl>().associateBy { it.name }
-            var conflicts = false
-            decls.forEach {
-                val existing = existingVariables[it.name]
-                if (existing != null) {
-                    errors.err("variable ${it.name} already defined in subroutine ${sub.name} at ${existing.position}", it.position)
-                    conflicts = true
-                }
-            }
-            if (!conflicts) {
-                val numericVarsWithValue = decls.filter { it.value != null && it.datatype in NumericDatatypes }
-                return numericVarsWithValue.map {
-                    val initValue = it.value!!  // assume here that value has always been set by now
-                    it.value = null     // make sure no value init assignment for this vardecl will be created later (would be superfluous)
-                    val target = AssignTarget(null, IdentifierReference(listOf(it.name), it.position), null, null, it.position)
-                    val assign = Assignment(target, null, initValue, it.position)
-                    initValue.parent = assign
-                    IAstModification.InsertFirst(assign, scope)
-                } +  decls.map { IAstModification.ReplaceNode(it, NopStatement(it.position), scope) } +
-                     decls.map { IAstModification.InsertFirst(it, sub) }    // move it up to the subroutine
+            // move vardecls of the scope into the upper scope. Make sure the position remains the same!
+            val numericVarsWithValue = decls.filter { it.value != null && it.datatype in NumericDatatypes }
+            val replaceVardecls =numericVarsWithValue.map {
+                val initValue = it.value!!  // assume here that value has always been set by now
+                it.value = null     // make sure no value init assignment for this vardecl will be created later (would be superfluous)
+                val target = AssignTarget(IdentifierReference(listOf(it.name), it.position), null, null, it.position)
+                val assign = Assignment(target, initValue, it.position)
+                initValue.parent = assign
+                IAstModification.ReplaceNode(it, assign, scope)
             }
+            val moveVardeclsUp = decls.map { IAstModification.InsertFirst(it, sub) }
+            return replaceVardecls + moveVardeclsUp
         }
         return noModifications
     }
 
     override fun after(subroutine: Subroutine, parent: Node): Iterable<IAstModification> {
+        val firstDeclarations = mutableMapOf<String, VarDecl>()
+        for(decl in subroutineVariables) {
+            val existing = firstDeclarations[decl.first]
+            if(existing!=null && existing !== decl.second) {
+                errors.err("variable ${decl.first} already defined in subroutine ${subroutine.name} at ${existing.position}", decl.second.position)
+            } else {
+                firstDeclarations[decl.first] = decl.second
+            }
+        }
+
+
         // add the implicit return statement at the end (if it's not there yet), but only if it's not a kernel routine.
         // and if an assembly block doesn't contain a rts/rti, and some other situations.
         val mods = mutableListOf<IAstModification>()
@@ -72,9 +127,8 @@ internal class BeforeAsmGenerationAstChanger(val program: Program, val errors: E
                 && outerStatements[subroutineStmtIdx - 1] !is Subroutine
                 && outerStatements[subroutineStmtIdx - 1] !is Return
                 && outerScope !is Block) {
-            mods += IAstModification.InsertAfter(outerStatements[subroutineStmtIdx - 1], returnStmt, outerScope as Node)
+            mods += IAstModification.InsertAfter(outerStatements[subroutineStmtIdx - 1], returnStmt, outerScope)
         }
-
         return mods
     }
 
@@ -89,13 +143,40 @@ internal class BeforeAsmGenerationAstChanger(val program: Program, val errors: E
                 return listOf(IAstModification.ReplaceNode(typecast, typecast.expression, parent))
             }
         }
-        else if(sourceDt in PassByReferenceDatatypes) {
+
+
+        // Note: for various reasons (most importantly, code simplicity), the code generator assumes/requires
+        // that the types of assignment values and their target are the same,
+        // and that the types of both operands of a binaryexpression node are the same.
+        // So, it is not easily possible to remove the typecasts that are there to make these conditions true.
+        // The only place for now where we can do this is for:
+        //    asmsub register pair parameter.
+
+        if(typecast.type in WordDatatypes) {
+            val fcall = typecast.parent as? IFunctionCall
+            if (fcall != null) {
+                val sub = fcall.target.targetStatement(program.namespace) as? Subroutine
+                if (sub != null && sub.isAsmSubroutine) {
+                    return listOf(IAstModification.ReplaceNode(typecast, typecast.expression, parent))
+                }
+            }
+        }
+
+        if(sourceDt in PassByReferenceDatatypes) {
             if(typecast.type==DataType.UWORD) {
-                return listOf(IAstModification.ReplaceNode(
-                        typecast,
-                        AddressOf(typecast.expression as IdentifierReference, typecast.position),
-                        parent
-                ))
+                if(typecast.expression is IdentifierReference) {
+                    return listOf(IAstModification.ReplaceNode(
+                            typecast,
+                            AddressOf(typecast.expression as IdentifierReference, typecast.position),
+                            parent
+                    ))
+                } else if(typecast.expression is IFunctionCall) {
+                    return listOf(IAstModification.ReplaceNode(
+                            typecast,
+                            typecast.expression,
+                            parent
+                    ))
+                }
             } else {
                 errors.err("cannot cast pass-by-reference value to type ${typecast.type} (only to UWORD)", typecast.position)
             }
@@ -103,4 +184,34 @@ internal class BeforeAsmGenerationAstChanger(val program: Program, val errors: E
 
         return noModifications
     }
+
+    override fun after(ifStatement: IfStatement, parent: Node): Iterable<IAstModification> {
+        val binExpr = ifStatement.condition as? BinaryExpression
+        if(binExpr==null || binExpr.operator !in comparisonOperators) {
+            // if x  ->  if x!=0,    if x+5  ->  if x+5 != 0
+            val booleanExpr = BinaryExpression(ifStatement.condition, "!=", NumericLiteralValue.optimalInteger(0, ifStatement.condition.position), ifStatement.condition.position)
+            return listOf(IAstModification.ReplaceNode(ifStatement.condition, booleanExpr, ifStatement))
+        }
+        return noModifications
+    }
+
+    override fun after(untilLoop: UntilLoop, parent: Node): Iterable<IAstModification> {
+        val binExpr = untilLoop.condition as? BinaryExpression
+        if(binExpr==null || binExpr.operator !in comparisonOperators) {
+            // until x  ->  until x!=0,    until x+5  ->  until x+5 != 0
+            val booleanExpr = BinaryExpression(untilLoop.condition, "!=", NumericLiteralValue.optimalInteger(0, untilLoop.condition.position), untilLoop.condition.position)
+            return listOf(IAstModification.ReplaceNode(untilLoop.condition, booleanExpr, untilLoop))
+        }
+        return noModifications
+    }
+
+    override fun after(whileLoop: WhileLoop, parent: Node): Iterable<IAstModification> {
+        val binExpr = whileLoop.condition as? BinaryExpression
+        if(binExpr==null || binExpr.operator !in comparisonOperators) {
+            // while x  ->  while x!=0,    while x+5  ->  while x+5 != 0
+            val booleanExpr = BinaryExpression(whileLoop.condition, "!=", NumericLiteralValue.optimalInteger(0, whileLoop.condition.position), whileLoop.condition.position)
+            return listOf(IAstModification.ReplaceNode(whileLoop.condition, booleanExpr, whileLoop))
+        }
+        return noModifications
+    }
 }

compiler/src/prog8/compiler/Compiler.kt

@@ -27,7 +27,10 @@ data class CompilationOptions(val output: OutputType,
                               val launcher: LauncherType,
                               val zeropage: ZeropageType,
                               val zpReserved: List<IntRange>,
-                              val floats: Boolean)
+                              val floats: Boolean,
+                              val noSysInit: Boolean) {
+    var slowCodegenWarnings = false
+}
 
 
 class CompilerException(message: String?) : Exception(message)

compiler/src/prog8/compiler/Main.kt

@@ -4,7 +4,10 @@ import prog8.ast.AstToSourceCode
 import prog8.ast.Program
 import prog8.ast.base.*
 import prog8.ast.statements.Directive
+import prog8.compiler.target.C64Target
 import prog8.compiler.target.CompilationTarget
+import prog8.compiler.target.Cx16Target
+import prog8.optimizer.*
 import prog8.optimizer.UnusedCodeRemover
 import prog8.optimizer.constantFold
 import prog8.optimizer.optimizeStatements
@@ -13,6 +16,7 @@ import prog8.parser.ModuleImporter
 import prog8.parser.ParsingFailedError
 import prog8.parser.moduleName
 import java.nio.file.Path
+import kotlin.system.exitProcess
 import kotlin.system.measureTimeMillis
 
 
@@ -25,16 +29,28 @@ class CompilationResult(val success: Boolean,
 fun compileProgram(filepath: Path,
                    optimize: Boolean,
                    writeAssembly: Boolean,
+                   slowCodegenWarnings: Boolean,
+                   compilationTarget: String,
                    outputDir: Path): CompilationResult {
     var programName = ""
     lateinit var programAst: Program
     lateinit var importedFiles: List<Path>
     val errors = ErrorReporter()
 
+    when(compilationTarget) {
+        C64Target.name -> CompilationTarget.instance = C64Target
+        Cx16Target.name -> CompilationTarget.instance = Cx16Target
+        else -> {
+            System.err.println("invalid compilation target")
+            exitProcess(1)
+        }
+    }
+
     try {
         val totalTime = measureTimeMillis {
             // import main module and everything it needs
             val (ast, compilationOptions, imported) = parseImports(filepath, errors)
+            compilationOptions.slowCodegenWarnings = slowCodegenWarnings
             programAst = ast
             importedFiles = imported
             processAst(programAst, errors, compilationOptions)
@@ -78,8 +94,8 @@ fun compileProgram(filepath: Path,
 }
 
 private fun parseImports(filepath: Path, errors: ErrorReporter): Triple<Program, CompilationOptions, List<Path>> {
-    println("Parsing...")
-    val importer = ModuleImporter(errors)
+    println("Compiler target: ${CompilationTarget.instance.name}. Parsing...")
+    val importer = ModuleImporter()
     val programAst = Program(moduleName(filepath.fileName), mutableListOf())
     importer.importModule(programAst, filepath)
     errors.handle()
@@ -90,15 +106,12 @@ private fun parseImports(filepath: Path, errors: ErrorReporter): Triple<Program,
     if (compilerOptions.launcher == LauncherType.BASIC && compilerOptions.output != OutputType.PRG)
         throw ParsingFailedError("${programAst.modules.first().position} BASIC launcher requires output type PRG.")
 
-    // if we're producing a PRG or BASIC program, include the c64utils and c64lib libraries
-    if (compilerOptions.launcher == LauncherType.BASIC || compilerOptions.output == OutputType.PRG) {
-        importer.importLibraryModule(programAst, "c64lib")
-        importer.importLibraryModule(programAst, "c64utils")
-    }
+    // depending on the machine and compiler options we may have to include some libraries
+    CompilationTarget.instance.machine.importLibs(compilerOptions, importer, programAst)
 
-    // always import prog8lib and math
+    // always import prog8_lib and math
     importer.importLibraryModule(programAst, "math")
-    importer.importLibraryModule(programAst, "prog8lib")
+    importer.importLibraryModule(programAst, "prog8_lib")
     errors.handle()
     return Triple(programAst, compilerOptions, importedFiles)
 }
@@ -109,13 +122,12 @@ private fun determineCompilationOptions(program: Program): CompilationOptions {
             as? Directive)?.args?.single()?.name?.toUpperCase()
     val launcherType = (mainModule.statements.singleOrNull { it is Directive && it.directive == "%launcher" }
             as? Directive)?.args?.single()?.name?.toUpperCase()
-    mainModule.loadAddress = (mainModule.statements.singleOrNull { it is Directive && it.directive == "%address" }
-            as? Directive)?.args?.single()?.int ?: 0
     val zpoption: String? = (mainModule.statements.singleOrNull { it is Directive && it.directive == "%zeropage" }
             as? Directive)?.args?.single()?.name?.toUpperCase()
     val allOptions = program.modules.flatMap { it.statements }.filter { it is Directive && it.directive == "%option" }.flatMap { (it as Directive).args }.toSet()
     val floatsEnabled = allOptions.any { it.name == "enable_floats" }
-    val zpType: ZeropageType =
+    val noSysInit = allOptions.any { it.name == "no_sysinit" }
+    var zpType: ZeropageType =
             if (zpoption == null)
                 if(floatsEnabled) ZeropageType.FLOATSAFE else ZeropageType.KERNALSAFE
             else
@@ -125,6 +137,12 @@ private fun determineCompilationOptions(program: Program): CompilationOptions {
                     ZeropageType.KERNALSAFE
                     // error will be printed by the astchecker
                 }
+
+    if (zpType==ZeropageType.FLOATSAFE && CompilationTarget.instance.name == Cx16Target.name) {
+        System.err.println("Warning: Cx16 target must use zp option basicsafe instead of floatsafe")
+        zpType = ZeropageType.BASICSAFE
+    }
+
     val zpReserved = mainModule.statements
             .asSequence()
             .filter { it is Directive && it.directive == "%zpreserved" }
@@ -132,21 +150,31 @@ private fun determineCompilationOptions(program: Program): CompilationOptions {
             .map { it[0].int!!..it[1].int!! }
             .toList()
 
+    if(outputType!=null && !OutputType.values().any {it.name==outputType}) {
+        System.err.println("invalid output type $outputType")
+        exitProcess(1)
+    }
+    if(launcherType!=null && !LauncherType.values().any {it.name==launcherType}) {
+        System.err.println("invalid launcher type $launcherType")
+        exitProcess(1)
+    }
+
     return CompilationOptions(
             if (outputType == null) OutputType.PRG else OutputType.valueOf(outputType),
             if (launcherType == null) LauncherType.BASIC else LauncherType.valueOf(launcherType),
-            zpType, zpReserved, floatsEnabled
+            zpType, zpReserved, floatsEnabled, noSysInit
     )
 }
 
 private fun processAst(programAst: Program, errors: ErrorReporter, compilerOptions: CompilationOptions) {
     // perform initial syntax checks and processings
-    println("Processing...")
+    println("Processing for target ${CompilationTarget.instance.name}...")
     programAst.checkIdentifiers(errors)
     errors.handle()
     programAst.constantFold(errors)
     errors.handle()
-    programAst.reorderStatements()
+    programAst.reorderStatements(errors)
+    errors.handle()
     programAst.addTypecasts(errors)
     errors.handle()
     programAst.variousCleanups()
@@ -162,44 +190,46 @@ private fun optimizeAst(programAst: Program, errors: ErrorReporter) {
     while (true) {
         // keep optimizing expressions and statements until no more steps remain
         val optsDone1 = programAst.simplifyExpressions()
-        val optsDone2 = programAst.optimizeStatements(errors)
-        programAst.constantFold(errors) // because simplified statements and expressions could give rise to more constants that can be folded away:
+        val optsDone2 = programAst.splitBinaryExpressions()
+        val optsDone3 = programAst.optimizeStatements(errors)
+        programAst.constantFold(errors) // because simplified statements and expressions can result in more constants that can be folded away
         errors.handle()
-        if (optsDone1 + optsDone2 == 0)
+        if (optsDone1 + optsDone2 + optsDone3 == 0)
             break
     }
 
-    val remover = UnusedCodeRemover()
+    val remover = UnusedCodeRemover(programAst, errors)
     remover.visit(programAst)
     remover.applyModifications()
+    errors.handle()
 }
 
 private fun postprocessAst(programAst: Program, errors: ErrorReporter, compilerOptions: CompilationOptions) {
-    programAst.transformAssignments(errors)
-    errors.handle()
     programAst.addTypecasts(errors)
     errors.handle()
     programAst.variousCleanups()
     programAst.checkValid(compilerOptions, errors)          // check if final tree is still valid
     errors.handle()
-    programAst.checkRecursion(errors)         // check if there are recursive subroutine calls
+    val callGraph = CallGraph(programAst)
+    callGraph.checkRecursiveCalls(errors)
     errors.handle()
     programAst.verifyFunctionArgTypes()
+    programAst.moveMainAndStartToFirst()
 }
 
 private fun writeAssembly(programAst: Program, errors: ErrorReporter, outputDir: Path,
                           optimize: Boolean, compilerOptions: CompilationOptions): String {
     // asm generation directly from the Ast,
-    val zeropage = CompilationTarget.machine.getZeropage(compilerOptions)
     programAst.processAstBeforeAsmGeneration(errors)
     errors.handle()
 
     // printAst(programAst)
 
-    val assembly = CompilationTarget.asmGenerator(
+    CompilationTarget.instance.machine.initializeZeropage(compilerOptions)
+    val assembly = CompilationTarget.instance.asmGenerator(
             programAst,
             errors,
-            zeropage,
+            CompilationTarget.instance.machine.zeropage,
             compilerOptions,
             outputDir).compileToAssembly(optimize)
     assembly.assemble(compilerOptions)

compiler/src/prog8/compiler/Zeropage.kt

@@ -8,6 +8,12 @@ class ZeropageDepletedError(message: String) : Exception(message)
 
 abstract class Zeropage(protected val options: CompilationOptions) {
 
+    abstract val SCRATCH_B1 : Int      // temp storage for a single byte
+    abstract val SCRATCH_REG : Int     // temp storage for a register
+    abstract val SCRATCH_W1 : Int      // temp storage 1 for a word  $fb+$fc
+    abstract val SCRATCH_W2 : Int      // temp storage 2 for a word  $fb+$fc
+
+
     private val allocations = mutableMapOf<Int, Pair<String, DataType>>()
     val free = mutableListOf<Int>()     // subclasses must set this to the appropriate free locations.
 
@@ -16,7 +22,7 @@ abstract class Zeropage(protected val options: CompilationOptions) {
     fun available() = if(options.zeropage==ZeropageType.DONTUSE) 0 else free.size
 
     fun allocate(scopedname: String, datatype: DataType, position: Position?, errors: ErrorReporter): Int {
-        assert(scopedname.isEmpty() || !allocations.values.any { it.first==scopedname } ) {"isSameAs scopedname can't be allocated twice"}
+        assert(scopedname.isEmpty() || !allocations.values.any { it.first==scopedname } ) {"scopedname can't be allocated twice"}
 
         if(options.zeropage==ZeropageType.DONTUSE)
             throw CompilerException("zero page usage has been disabled")
@@ -39,13 +45,13 @@ abstract class Zeropage(protected val options: CompilationOptions) {
 
         if(free.size > 0) {
             if(size==1) {
-                for(candidate in free.min()!! .. free.max()!!+1) {
+                for(candidate in free.minOrNull()!! .. free.maxOrNull()!!+1) {
                     if(loneByte(candidate))
                         return makeAllocation(candidate, 1, datatype, scopedname)
                 }
                 return makeAllocation(free[0], 1, datatype, scopedname)
             }
-            for(candidate in free.min()!! .. free.max()!!+1) {
+            for(candidate in free.minOrNull()!! .. free.maxOrNull()!!+1) {
                 if (sequentialFree(candidate, size))
                     return makeAllocation(candidate, size, datatype, scopedname)
             }
@@ -58,18 +64,10 @@ abstract class Zeropage(protected val options: CompilationOptions) {
 
     private fun makeAllocation(address: Int, size: Int, datatype: DataType, name: String?): Int {
         free.removeAll(address until address+size)
-        allocations[address] = Pair(name ?: "<unnamed>", datatype)
+        allocations[address] = (name ?: "<unnamed>") to datatype
         return address
     }
 
     private fun loneByte(address: Int) = address in free && address-1 !in free && address+1 !in free
     private fun sequentialFree(address: Int, size: Int) = free.containsAll((address until address+size).toList())
-
-    enum class ExitProgramStrategy {
-        CLEAN_EXIT,
-        SYSTEM_RESET
-    }
-
-    abstract val exitProgramStrategy: ExitProgramStrategy
-
 }

compiler/src/prog8/compiler/target/CompilationTarget.kt

@@ -4,15 +4,44 @@ import prog8.ast.Program
 import prog8.ast.base.ErrorReporter
 import prog8.compiler.CompilationOptions
 import prog8.compiler.Zeropage
+import prog8.compiler.target.c64.C64MachineDefinition
+import prog8.compiler.target.c64.Petscii
+import prog8.compiler.target.c64.codegen.AsmGen
+import prog8.compiler.target.cx16.CX16MachineDefinition
 import java.nio.file.Path
 
 
 internal interface CompilationTarget {
+    val name: String
+    val machine: IMachineDefinition
+    fun encodeString(str: String, altEncoding: Boolean): List<Short>
+    fun decodeString(bytes: List<Short>, altEncoding: Boolean): String
+    fun asmGenerator(program: Program, errors: ErrorReporter, zp: Zeropage, options: CompilationOptions, path: Path): IAssemblyGenerator
+
     companion object {
-        lateinit var name: String
-        lateinit var machine: IMachineDefinition
-        lateinit var encodeString: (str: String, altEncoding: Boolean) -> List<Short>
-        lateinit var decodeString: (bytes: List<Short>, altEncoding: Boolean) -> String
-        lateinit var asmGenerator: (Program, ErrorReporter, Zeropage, CompilationOptions, Path) -> IAssemblyGenerator
+        lateinit var instance: CompilationTarget
     }
 }
+
+
+internal object C64Target: CompilationTarget {
+    override val name = "c64"
+    override val machine = C64MachineDefinition
+    override fun encodeString(str: String, altEncoding: Boolean) =
+            if(altEncoding) Petscii.encodeScreencode(str, true) else Petscii.encodePetscii(str, true)
+    override fun decodeString(bytes: List<Short>, altEncoding: Boolean) =
+            if(altEncoding) Petscii.decodeScreencode(bytes, true) else Petscii.decodePetscii(bytes, true)
+    override fun asmGenerator(program: Program, errors: ErrorReporter, zp: Zeropage, options: CompilationOptions, path: Path) =
+            AsmGen(program, errors, zp, options, path)
+}
+
+internal object Cx16Target: CompilationTarget {
+    override val name = "cx16"
+    override val machine = CX16MachineDefinition
+    override fun encodeString(str: String, altEncoding: Boolean) =
+            if(altEncoding) Petscii.encodeScreencode(str, true) else Petscii.encodePetscii(str, true)
+    override fun decodeString(bytes: List<Short>, altEncoding: Boolean) =
+            if(altEncoding) Petscii.decodeScreencode(bytes, true) else Petscii.decodePetscii(bytes, true)
+    override fun asmGenerator(program: Program, errors: ErrorReporter, zp: Zeropage, options: CompilationOptions, path: Path) =
+            AsmGen(program, errors, zp, options, path)
+}

compiler/src/prog8/compiler/target/IAssemblyGenerator.kt

@@ -7,6 +7,8 @@ internal interface IAssemblyGenerator {
 }
 
 internal const val generatedLabelPrefix = "_prog8_label_"
+internal const val subroutineFloatEvalResultVar1 = "_prog8_float_eval_result1"
+internal const val subroutineFloatEvalResultVar2 = "_prog8_float_eval_result2"
 
 internal interface IAssemblyProgram {
     val name: String

compiler/src/prog8/compiler/target/IMachineDefinition.kt

@@ -1,15 +1,39 @@
 package prog8.compiler.target
 
+import prog8.ast.Program
 import prog8.compiler.CompilationOptions
 import prog8.compiler.Zeropage
+import prog8.parser.ModuleImporter
 
 
-interface IMachineDefinition {
+internal interface IMachineFloat {
+    fun toDouble(): Double
+    fun makeFloatFillAsm(): String
+}
+
+internal enum class CpuType {
+    CPU6502,
+    CPU65c02
+}
+
+internal interface IMachineDefinition {
     val FLOAT_MAX_NEGATIVE: Double
     val FLOAT_MAX_POSITIVE: Double
     val FLOAT_MEM_SIZE: Int
+    val POINTER_MEM_SIZE: Int
+    val ESTACK_LO: Int
+    val ESTACK_HI: Int
+    val BASIC_LOAD_ADDRESS : Int
+    val RAW_LOAD_ADDRESS : Int
 
     val opcodeNames: Set<String>
+    var zeropage: Zeropage
+    val cpu: CpuType
 
-    fun getZeropage(compilerOptions: CompilationOptions): Zeropage
+    fun initializeZeropage(compilerOptions: CompilationOptions)
+    fun getFloat(num: Number): IMachineFloat
+    fun getFloatRomConst(number: Double): String?
+    fun importLibs(compilerOptions: CompilationOptions, importer: ModuleImporter, program: Program)
+    fun launchEmulator(programName: String)
+    fun isRegularRAMaddress(address: Int): Boolean
 }

compiler/src/prog8/compiler/target/c64/AssemblyProgram.kt

@@ -2,6 +2,7 @@ package prog8.compiler.target.c64
 
 import prog8.compiler.CompilationOptions
 import prog8.compiler.OutputType
+import prog8.compiler.target.CompilationTarget
 import prog8.compiler.target.IAssemblyProgram
 import prog8.compiler.target.generatedLabelPrefix
 import java.nio.file.Path
@@ -14,20 +15,20 @@ class AssemblyProgram(override val name: String, outputDir: Path) : IAssemblyPro
     private val viceMonListFile = outputDir.resolve("$name.vice-mon-list")
 
     override fun assemble(options: CompilationOptions) {
-        // add "-Wlong-branch"  to see warnings about conversion of branch instructions to jumps
+        // add "-Wlong-branch"  to see warnings about conversion of branch instructions to jumps (default = do this silently)
         val command = mutableListOf("64tass", "--ascii", "--case-sensitive", "--long-branch",
-                "-Wall", "-Wno-strict-bool", "-Wno-shadow", "-Werror", "-Wno-error=long-branch",
+                "-Wall", "-Wno-strict-bool", "-Wno-shadow", // "-Werror",
                 "--dump-labels", "--vice-labels", "-l", viceMonListFile.toString(), "--no-monitor")
 
         val outFile = when (options.output) {
             OutputType.PRG -> {
                 command.add("--cbm-prg")
-                println("\nCreating C-64 prg.")
+                println("\nCreating prg for target ${CompilationTarget.instance.name}.")
                 prgFile
             }
             OutputType.RAW -> {
                 command.add("--nostart")
-                println("\nCreating raw binary.")
+                println("\nCreating raw binary for target ${CompilationTarget.instance.name}.")
                 binFile
             }
         }

compiler/src/prog8/compiler/target/c64/C64MachineDefinition.kt

@@ -1,37 +1,99 @@
 package prog8.compiler.target.c64
 
-import prog8.compiler.CompilationOptions
-import prog8.compiler.CompilerException
-import prog8.compiler.Zeropage
-import prog8.compiler.ZeropageType
+import prog8.ast.Program
+import prog8.compiler.*
+import prog8.compiler.target.CpuType
 import prog8.compiler.target.IMachineDefinition
-import java.awt.Color
-import java.awt.image.BufferedImage
-import javax.imageio.ImageIO
+import prog8.compiler.target.IMachineFloat
+import prog8.parser.ModuleImporter
+import java.io.IOException
+import java.math.RoundingMode
 import kotlin.math.absoluteValue
 import kotlin.math.pow
 
-object C64MachineDefinition: IMachineDefinition {
+internal object C64MachineDefinition: IMachineDefinition {
+
+    override val cpu = CpuType.CPU6502
 
     // 5-byte cbm MFLPT format limitations:
     override val FLOAT_MAX_POSITIVE = 1.7014118345e+38         // bytes: 255,127,255,255,255
     override val FLOAT_MAX_NEGATIVE = -1.7014118345e+38        // bytes: 255,255,255,255,255
     override val FLOAT_MEM_SIZE = 5
-    const val BASIC_LOAD_ADDRESS = 0x0801
-    const val RAW_LOAD_ADDRESS = 0xc000
+    override val POINTER_MEM_SIZE = 2
+    override val BASIC_LOAD_ADDRESS = 0x0801
+    override val RAW_LOAD_ADDRESS = 0xc000
 
     // the 2*256 byte evaluation stack (on which bytes, words, and even floats are stored during calculations)
     // and some heavily used string constants derived from the two values above
-    const val ESTACK_LO_VALUE       = 0xce00        //  $ce00-$ceff inclusive
-    const val ESTACK_HI_VALUE       = 0xcf00        //  $cf00-$cfff inclusive
-    const val ESTACK_LO_HEX         = "\$ce00"
-    const val ESTACK_LO_PLUS1_HEX   = "\$ce01"
-    const val ESTACK_LO_PLUS2_HEX   = "\$ce02"
-    const val ESTACK_HI_HEX         = "\$cf00"
-    const val ESTACK_HI_PLUS1_HEX   = "\$cf01"
-    const val ESTACK_HI_PLUS2_HEX   = "\$cf02"
+    override val ESTACK_LO = 0xce00        //  $ce00-$ceff inclusive
+    override val ESTACK_HI = 0xcf00        //  $ce00-$ceff inclusive
 
-    override fun getZeropage(compilerOptions: CompilationOptions) = C64Zeropage(compilerOptions)
+    override lateinit var zeropage: Zeropage
+
+    override fun getFloat(num: Number) = Mflpt5.fromNumber(num)
+
+    override fun getFloatRomConst(number: Double): String? {
+        // try to match the ROM float constants to save memory
+        val mflpt5 = Mflpt5.fromNumber(number)
+        val floatbytes = shortArrayOf(mflpt5.b0, mflpt5.b1, mflpt5.b2, mflpt5.b3, mflpt5.b4)
+        when {
+            floatbytes.contentEquals(shortArrayOf(0x00, 0x00, 0x00, 0x00, 0x00)) -> return "floats.FL_ZERO_const"        // not a ROM const
+            floatbytes.contentEquals(shortArrayOf(0x81, 0x00, 0x00, 0x00, 0x00)) -> return "floats.FL_ONE_const"        // not a ROM const
+            floatbytes.contentEquals(shortArrayOf(0x82, 0x49, 0x0f, 0xda, 0xa1)) -> return "floats.FL_PIVAL"
+            floatbytes.contentEquals(shortArrayOf(0x90, 0x80, 0x00, 0x00, 0x00)) -> return "floats.FL_N32768"
+            floatbytes.contentEquals(shortArrayOf(0x81, 0x00, 0x00, 0x00, 0x00)) -> return "floats.FL_FONE"
+            floatbytes.contentEquals(shortArrayOf(0x80, 0x35, 0x04, 0xf3, 0x34)) -> return "floats.FL_SQRHLF"
+            floatbytes.contentEquals(shortArrayOf(0x81, 0x35, 0x04, 0xf3, 0x34)) -> return "floats.FL_SQRTWO"
+            floatbytes.contentEquals(shortArrayOf(0x80, 0x80, 0x00, 0x00, 0x00)) -> return "floats.FL_NEGHLF"
+            floatbytes.contentEquals(shortArrayOf(0x80, 0x31, 0x72, 0x17, 0xf8)) -> return "floats.FL_LOG2"
+            floatbytes.contentEquals(shortArrayOf(0x84, 0x20, 0x00, 0x00, 0x00)) -> return "floats.FL_TENC"
+            floatbytes.contentEquals(shortArrayOf(0x9e, 0x6e, 0x6b, 0x28, 0x00)) -> return "floats.FL_NZMIL"
+            floatbytes.contentEquals(shortArrayOf(0x80, 0x00, 0x00, 0x00, 0x00)) -> return "floats.FL_FHALF"
+            floatbytes.contentEquals(shortArrayOf(0x81, 0x38, 0xaa, 0x3b, 0x29)) -> return "floats.FL_LOGEB2"
+            floatbytes.contentEquals(shortArrayOf(0x81, 0x49, 0x0f, 0xda, 0xa2)) -> return "floats.FL_PIHALF"
+            floatbytes.contentEquals(shortArrayOf(0x83, 0x49, 0x0f, 0xda, 0xa2)) -> return "floats.FL_TWOPI"
+            floatbytes.contentEquals(shortArrayOf(0x7f, 0x00, 0x00, 0x00, 0x00)) -> return "floats.FL_FR4"
+            else -> {
+                // attempt to correct for a few rounding issues
+                when (number.toBigDecimal().setScale(10, RoundingMode.HALF_DOWN).toDouble()) {
+                    3.1415926536 -> return "floats.FL_PIVAL"
+                    1.4142135624 -> return "floats.FL_SQRTWO"
+                    0.7071067812 -> return "floats.FL_SQRHLF"
+                    0.6931471806 -> return "floats.FL_LOG2"
+                    else -> {}
+                }
+            }
+        }
+        return null
+    }
+
+    override fun importLibs(compilerOptions: CompilationOptions, importer: ModuleImporter, program: Program) {
+        if (compilerOptions.launcher == LauncherType.BASIC || compilerOptions.output == OutputType.PRG)
+            importer.importLibraryModule(program, "syslib")
+    }
+
+    override fun launchEmulator(programName: String) {
+        for(emulator in listOf("x64sc", "x64")) {
+            println("\nStarting C-64 emulator $emulator...")
+            val cmdline = listOf(emulator, "-silent", "-moncommands", "$programName.vice-mon-list",
+                    "-autostartprgmode", "1", "-autostart-warp", "-autostart", programName + ".prg")
+            val processb = ProcessBuilder(cmdline).inheritIO()
+            val process: Process
+            try {
+                process=processb.start()
+            } catch(x: IOException) {
+                continue  // try the next emulator executable
+            }
+            process.waitFor()
+            break
+        }
+    }
+
+    override fun isRegularRAMaddress(address: Int): Boolean = address<0xa000 || address in 0xc000..0xcfff
+
+    override fun initializeZeropage(compilerOptions: CompilationOptions) {
+        zeropage = C64Zeropage(compilerOptions)
+    }
 
     // 6502 opcodes (including aliases and illegal opcodes), these cannot be used as variable or label names
     override val opcodeNames = setOf("adc", "ahx", "alr", "anc", "and", "ane", "arr", "asl", "asr", "axs", "bcc", "bcs",
@@ -45,20 +107,12 @@ object C64MachineDefinition: IMachineDefinition {
             "sta", "stx", "sty", "tas", "tax", "tay", "tsx", "txa", "txs", "tya", "xaa")
 
 
-    class C64Zeropage(options: CompilationOptions) : Zeropage(options) {
+    internal class C64Zeropage(options: CompilationOptions) : Zeropage(options) {
 
-        companion object {
-            const val SCRATCH_B1 = 0x02
-            const val SCRATCH_REG = 0x03    // temp storage for a register
-            const val SCRATCH_REG_X = 0xfa    // temp storage for register X (the evaluation stack pointer)
-            const val SCRATCH_W1 = 0xfb     // $fb+$fc
-            const val SCRATCH_W2 = 0xfd     // $fd+$fe
-        }
-
-        override val exitProgramStrategy: ExitProgramStrategy = when (options.zeropage) {
-            ZeropageType.BASICSAFE, ZeropageType.DONTUSE -> ExitProgramStrategy.CLEAN_EXIT
-            ZeropageType.FLOATSAFE, ZeropageType.KERNALSAFE, ZeropageType.FULL -> ExitProgramStrategy.SYSTEM_RESET
-        }
+        override val SCRATCH_B1 = 0x02      // temp storage for a single byte
+        override val SCRATCH_REG = 0x03     // temp storage for a register, must be B1+1
+        override val SCRATCH_W1 = 0xfb      // temp storage 1 for a word  $fb+$fc
+        override val SCRATCH_W2 = 0xfd      // temp storage 2 for a word  $fb+$fc
 
 
         init {
@@ -68,12 +122,14 @@ object C64MachineDefinition: IMachineDefinition {
             if (options.zeropage == ZeropageType.FULL) {
                 free.addAll(0x04..0xf9)
                 free.add(0xff)
-                free.removeAll(listOf(SCRATCH_B1, SCRATCH_REG, SCRATCH_REG_X, SCRATCH_W1, SCRATCH_W1 + 1, SCRATCH_W2, SCRATCH_W2 + 1))
+                free.removeAll(listOf(SCRATCH_B1, SCRATCH_REG, SCRATCH_W1, SCRATCH_W1 + 1, SCRATCH_W2, SCRATCH_W2 + 1))
                 free.removeAll(listOf(0xa0, 0xa1, 0xa2, 0x91, 0xc0, 0xc5, 0xcb, 0xf5, 0xf6))        // these are updated by IRQ
             } else {
                 if (options.zeropage == ZeropageType.KERNALSAFE || options.zeropage == ZeropageType.FLOATSAFE) {
-                    free.addAll(listOf(0x09, 0x0a, 0x0b, 0x0c, 0x0d, 0x0e, 0x0f, 0x10, 0x11,
-                            0x14, 0x15, 0x16, 0x17, 0x18, 0x19, 0x1a, 0x1b, 0x1c, 0x1d, 0x1e, 0x1f, 0x20, 0x21,
+                    free.addAll(listOf(
+                            0x09, 0x0a, 0x0b, 0x0c, 0x0d, 0x0e, 0x0f, 0x10, 0x11,
+                            0x16, 0x17, 0x18, 0x19, 0x1a,
+                            0x1b, 0x1c, 0x1d, 0x1e, 0x1f, 0x20, 0x21,
                             0x22, 0x23, 0x24, 0x25,
                             0x39, 0x3a, 0x3b, 0x3c, 0x3d, 0x3e, 0x3f, 0x40, 0x41, 0x42, 0x43, 0x44, 0x45, 0x46,
                             0x47, 0x48, 0x4b, 0x4c, 0x4d, 0x4e, 0x4f, 0x51, 0x52, 0x53,
@@ -90,38 +146,36 @@ object C64MachineDefinition: IMachineDefinition {
                 if (options.zeropage == ZeropageType.FLOATSAFE) {
                     // remove the zero page locations used for floating point operations from the free list
                     free.removeAll(listOf(
-                            0x12, 0x26, 0x27, 0x28, 0x29, 0x2a,
+                            0x10, 0x11, 0x12, 0x26, 0x27, 0x28, 0x29, 0x2a,
                             0x57, 0x58, 0x59, 0x5a, 0x5b, 0x5c, 0x5d, 0x5e, 0x5f, 0x60,
                             0x61, 0x62, 0x63, 0x64, 0x65, 0x66, 0x67, 0x68,
                             0x69, 0x6a, 0x6b, 0x6c, 0x6d, 0x6e, 0x6f, 0x70, 0x71, 0x72,
-                            0x8b, 0x8c, 0x8d, 0x8e, 0x8f, 0xf
+                            0x8b, 0x8c, 0x8d, 0x8e, 0x8f, 0xff
                     ))
                 }
 
                 if(options.zeropage!=ZeropageType.DONTUSE) {
-                    // add the other free Zp addresses,
-                    // these are valid for the C-64 (when no RS232 I/O is performed) but to keep BASIC running fully:
+                    // add the free Zp addresses
+                    // these are valid for the C-64 but allow BASIC to keep running fully *as long as you don't use tape I/O*
                     free.addAll(listOf(0x04, 0x05, 0x06, 0x0a, 0x0e,
-                            0x94, 0x95, 0xa7, 0xa8, 0xa9, 0xaa,
-                            0xb5, 0xb6, 0xf7, 0xf8, 0xf9))
+                            0x92, 0x96, 0x9b, 0x9c, 0x9e, 0x9f, 0xa5, 0xa6,
+                            0xb0, 0xb1, 0xbe, 0xbf, 0xf9))
                 } else {
                     // don't use the zeropage at all
                     free.clear()
                 }
             }
-            assert(SCRATCH_B1 !in free)
-            assert(SCRATCH_REG !in free)
-            assert(SCRATCH_REG_X !in free)
-            assert(SCRATCH_W1 !in free)
-            assert(SCRATCH_W2 !in free)
+            require(SCRATCH_B1 !in free)
+            require(SCRATCH_REG !in free)
+            require(SCRATCH_W1 !in free)
+            require(SCRATCH_W2 !in free)
 
             for (reserved in options.zpReserved)
                 reserve(reserved)
         }
     }
 
-
-    data class Mflpt5(val b0: Short, val b1: Short, val b2: Short, val b3: Short, val b4: Short) {
+    internal data class Mflpt5(val b0: Short, val b1: Short, val b2: Short, val b3: Short, val b4: Short): IMachineFloat {
 
         companion object {
             val zero = Mflpt5(0, 0, 0, 0, 0)
@@ -168,7 +222,7 @@ object C64MachineDefinition: IMachineDefinition {
             }
         }
 
-        fun toDouble(): Double {
+        override fun toDouble(): Double {
             if (this == zero) return 0.0
             val exp = b0 - 128
             val sign = (b1.toInt() and 0x80) > 0
@@ -176,91 +230,14 @@ object C64MachineDefinition: IMachineDefinition {
             val result = number.toDouble() * (2.0).pow(exp) / 0x100000000
             return if (sign) -result else result
         }
-    }
 
-    object Charset {
-        private val normalImg = ImageIO.read(javaClass.getResource("/charset/c64/charset-normal.png"))
-        private val shiftedImg = ImageIO.read(javaClass.getResource("/charset/c64/charset-shifted.png"))
-
-        private fun scanChars(img: BufferedImage): Array<BufferedImage> {
-
-            val transparent = BufferedImage(img.width, img.height, BufferedImage.TYPE_INT_ARGB)
-            transparent.createGraphics().drawImage(img, 0, 0, null)
-
-            val black = Color(0, 0, 0).rgb
-            val nopixel = Color(0, 0, 0, 0).rgb
-            for (y in 0 until transparent.height) {
-                for (x in 0 until transparent.width) {
-                    val col = transparent.getRGB(x, y)
-                    if (col == black)
-                        transparent.setRGB(x, y, nopixel)
-                }
-            }
-
-            val numColumns = transparent.width / 8
-            val charImages = (0..255).map {
-                val charX = it % numColumns
-                val charY = it / numColumns
-                transparent.getSubimage(charX * 8, charY * 8, 8, 8)
-            }
-            return charImages.toTypedArray()
+        override fun makeFloatFillAsm(): String {
+            val b0 = "$" + b0.toString(16).padStart(2, '0')
+            val b1 = "$" + b1.toString(16).padStart(2, '0')
+            val b2 = "$" + b2.toString(16).padStart(2, '0')
+            val b3 = "$" + b3.toString(16).padStart(2, '0')
+            val b4 = "$" + b4.toString(16).padStart(2, '0')
+            return "$b0, $b1, $b2, $b3, $b4"
         }
-
-        val normalChars = scanChars(normalImg)
-        val shiftedChars = scanChars(shiftedImg)
-
-        private val coloredNormalChars = mutableMapOf<Short, Array<BufferedImage>>()
-
-        fun getColoredChar(screenCode: Short, color: Short): BufferedImage {
-            val colorIdx = (color % colorPalette.size).toShort()
-            val chars = coloredNormalChars[colorIdx]
-            if (chars != null)
-                return chars[screenCode.toInt()]
-
-            val coloredChars = mutableListOf<BufferedImage>()
-            val transparent = Color(0, 0, 0, 0).rgb
-            val rgb = colorPalette[colorIdx.toInt()].rgb
-            for (c in normalChars) {
-                val colored = c.copy()
-                for (y in 0 until colored.height)
-                    for (x in 0 until colored.width) {
-                        if (colored.getRGB(x, y) != transparent) {
-                            colored.setRGB(x, y, rgb)
-                        }
-                    }
-                coloredChars.add(colored)
-            }
-            coloredNormalChars[colorIdx] = coloredChars.toTypedArray()
-            return coloredNormalChars.getValue(colorIdx)[screenCode.toInt()]
-        }
-
     }
-
-    private fun BufferedImage.copy(): BufferedImage {
-        val bcopy = BufferedImage(this.width, this.height, this.type)
-        val g = bcopy.graphics
-        g.drawImage(this, 0, 0, null)
-        g.dispose()
-        return bcopy
-    }
-
-    val colorPalette = listOf(         // this is Pepto's Commodore-64 palette  http://www.pepto.de/projects/colorvic/
-            Color(0x000000),  // 0 = black
-            Color(0xFFFFFF),  // 1 = white
-            Color(0x813338),  // 2 = red
-            Color(0x75cec8),  // 3 = cyan
-            Color(0x8e3c97),  // 4 = purple
-            Color(0x56ac4d),  // 5 = green
-            Color(0x2e2c9b),  // 6 = blue
-            Color(0xedf171),  // 7 = yellow
-            Color(0x8e5029),  // 8 = orange
-            Color(0x553800),  // 9 = brown
-            Color(0xc46c71),  // 10 = light red
-            Color(0x4a4a4a),  // 11 = dark grey
-            Color(0x7b7b7b),  // 12 = medium grey
-            Color(0xa9ff9f),  // 13 = light green
-            Color(0x706deb),  // 14 = light blue
-            Color(0xb2b2b2)   // 15 = light grey
-    )
-
 }

compiler/src/prog8/compiler/target/c64/Petscii.kt

@@ -1054,11 +1054,16 @@ object Petscii {
         val lookup = if(lowercase) encodingPetsciiLowercase else encodingPetsciiUppercase
         return text.map {
             val petscii = lookup[it]
-            petscii?.toShort() ?: if(it=='\u0000')
-                0.toShort()
-            else {
-                val case = if (lowercase) "lower" else "upper"
-                throw CharConversionException("no ${case}case Petscii character for '$it' (${it.toShort()})")
+            petscii?.toShort() ?: when (it) {
+                '\u0000' -> 0.toShort()
+                in '\u8000'..'\u80ff' -> {
+                    // special case: take the lower 8 bit hex value directly
+                    (it.toInt() - 0x8000).toShort()
+                }
+                else -> {
+                    val case = if (lowercase) "lower" else "upper"
+                    throw CharConversionException("no ${case}case Petscii character for '$it' (${it.toShort()})")
+                }
             }
         }
     }
@@ -1072,11 +1077,16 @@ object Petscii {
         val lookup = if(lowercase) encodingScreencodeLowercase else encodingScreencodeUppercase
         return text.map{
             val screencode = lookup[it]
-            screencode?.toShort() ?: if(it=='\u0000')
-                0.toShort()
-            else {
-                val case = if (lowercase) "lower" else "upper"
-                throw CharConversionException("no ${case}Screencode character for '$it' (${it.toShort()})")
+            screencode?.toShort() ?: when (it) {
+                '\u0000' -> 0.toShort()
+                in '\u8000'..'\u80ff' -> {
+                    // special case: take the lower 8 bit hex value directly
+                    (it.toInt() - 0x8000).toShort()
+                }
+                else -> {
+                    val case = if (lowercase) "lower" else "upper"
+                    throw CharConversionException("no ${case}Screencode character for '$it' (${it.toShort()})")
+                }
             }
         }
     }

compiler/src/prog8/compiler/target/c64/codegen/AsmOptimizer.kt

@@ -1,8 +1,5 @@
 package prog8.compiler.target.c64.codegen
 
-import prog8.compiler.target.c64.C64MachineDefinition.ESTACK_LO_HEX
-import prog8.compiler.target.c64.C64MachineDefinition.ESTACK_LO_PLUS1_HEX
-
 
 // note: see https://wiki.nesdev.com/w/index.php/6502_assembly_optimisations
 
@@ -87,10 +84,10 @@ private fun optimizeCmpSequence(linesByFour: List<List<IndexedValue<String>>>):
     // the repeated lda can be removed
     val mods = mutableListOf<Modification>()
     for(lines in linesByFour) {
-        if(lines[0].value.trim()=="lda  $ESTACK_LO_PLUS1_HEX,x" &&
+        if(lines[0].value.trim()=="lda  P8ESTACK_LO+1,x" &&
                 lines[1].value.trim().startsWith("cmp ") &&
                 lines[2].value.trim().startsWith("beq ") &&
-                lines[3].value.trim()=="lda  $ESTACK_LO_PLUS1_HEX,x") {
+                lines[3].value.trim()=="lda  P8ESTACK_LO+1,x") {
             mods.add(Modification(lines[3].index, true, null)) // remove the second lda
         }
     }
@@ -102,10 +99,10 @@ private fun optimizeUselessStackByteWrites(linesByFour: List<List<IndexedValue<S
     // this is a lot harder for word values because the instruction sequence varies.
     val mods = mutableListOf<Modification>()
     for(lines in linesByFour) {
-        if(lines[0].value.trim()=="sta  $ESTACK_LO_HEX,x" &&
+        if(lines[0].value.trim()=="sta  P8ESTACK_LO,x" &&
                 lines[1].value.trim()=="dex" &&
                 lines[2].value.trim()=="inx" &&
-                lines[3].value.trim()=="lda  $ESTACK_LO_HEX,x") {
+                lines[3].value.trim()=="lda  P8ESTACK_LO,x") {
             mods.add(Modification(lines[1].index, true, null))
             mods.add(Modification(lines[2].index, true, null))
             mods.add(Modification(lines[3].index, true, null))
@@ -154,7 +151,8 @@ private fun optimizeSameAssignments(linesByFourteen: List<List<IndexedValue<Stri
         }
 
         if(first.startsWith("lda") && second.startsWith("ldy") && third.startsWith("sta") && fourth.startsWith("sty") &&
-                fifth.startsWith("lda") && sixth.startsWith("ldy") && seventh.startsWith("jsr  c64flt.copy_float")) {
+                fifth.startsWith("lda") && sixth.startsWith("ldy") &&
+                (seventh.startsWith("jsr  floats.copy_float") || seventh.startsWith("jsr  cx16flt.copy_float"))) {
 
             val nineth = pair[8].value.trimStart()
             val tenth = pair[9].value.trimStart()
@@ -164,7 +162,8 @@ private fun optimizeSameAssignments(linesByFourteen: List<List<IndexedValue<Stri
             val fourteenth = pair[13].value.trimStart()
 
             if(eighth.startsWith("lda") && nineth.startsWith("ldy") && tenth.startsWith("sta") && eleventh.startsWith("sty") &&
-                    twelveth.startsWith("lda") && thirteenth.startsWith("ldy") && fourteenth.startsWith("jsr  c64flt.copy_float")) {
+                    twelveth.startsWith("lda") && thirteenth.startsWith("ldy") &&
+                    (fourteenth.startsWith("jsr  floats.copy_float") || fourteenth.startsWith("jsr  cx16flt.copy_float"))) {
 
                 if(first.substring(4) == eighth.substring(4) && second.substring(4)==nineth.substring(4)) {
                     // identical float init
@@ -181,6 +180,7 @@ private fun optimizeSameAssignments(linesByFourteen: List<List<IndexedValue<Stri
 
 private fun optimizeStoreLoadSame(linesByFour: List<List<IndexedValue<String>>>): List<Modification> {
     // sta X + lda X,  sty X + ldy X,   stx X + ldx X  -> the second instruction can be eliminated
+    // TODO this is not true if X is not a regular RAM memory address (but instead mapped I/O or ROM)
     val mods = mutableListOf<Modification>()
     for (pair in linesByFour) {
         val first = pair[0].value.trimStart()
@@ -196,8 +196,8 @@ private fun optimizeStoreLoadSame(linesByFour: List<List<IndexedValue<String>>>)
                 (first.startsWith("sty ") && second.startsWith("ldy ")) ||
                 (first.startsWith("stx ") && second.startsWith("ldx "))
         ) {
-            val firstLoc = first.substring(4)
-            val secondLoc = second.substring(4)
+            val firstLoc = first.substring(4).trimStart()
+            val secondLoc = second.substring(4).trimStart()
             if (firstLoc == secondLoc) {
                 mods.add(Modification(pair[1].index, true, null))
             }

compiler/src/prog8/compiler/target/c64/codegen/FunctionCallAsmGen.kt

@@ -1,29 +1,38 @@
 package prog8.compiler.target.c64.codegen
 
 import prog8.ast.IFunctionCall
+import prog8.ast.Node
 import prog8.ast.Program
 import prog8.ast.base.*
 import prog8.ast.expressions.*
-import prog8.ast.statements.AssignTarget
+import prog8.ast.statements.RegisterOrStatusflag
 import prog8.ast.statements.Subroutine
 import prog8.ast.statements.SubroutineParameter
 import prog8.compiler.AssemblyError
-import prog8.compiler.target.c64.C64MachineDefinition.ESTACK_HI_HEX
-import prog8.compiler.target.c64.C64MachineDefinition.ESTACK_LO_HEX
-import prog8.compiler.toHex
+import prog8.compiler.target.c64.codegen.assignment.*
 
 
 internal class FunctionCallAsmGen(private val program: Program, private val asmgen: AsmGen) {
 
-    internal fun translateFunctionCall(stmt: IFunctionCall) {
+    internal fun translateFunctionCallStatement(stmt: IFunctionCall) {
+        val sub = stmt.target.targetSubroutine(program.namespace)!!
+        val preserveStatusRegisterAfterCall = sub.asmReturnvaluesRegisters.any {it.statusflag!=null}
+        translateFunctionCall(stmt, preserveStatusRegisterAfterCall)
+        // functioncalls no longer return results on the stack, so simply ignore the results in the registers
+        if(preserveStatusRegisterAfterCall)
+            asmgen.out("  plp\t; restore status flags from call")
+    }
+
+
+    internal fun translateFunctionCall(stmt: IFunctionCall, preserveStatusRegisterAfterCall: Boolean) {
         // output the code to setup the parameters and perform the actual call
         // does NOT output the code to deal with the result values!
         val sub = stmt.target.targetSubroutine(program.namespace) ?: throw AssemblyError("undefined subroutine ${stmt.target}")
-        val saveX = Register.X in sub.asmClobbers || sub.regXasResult()
+        val saveX = CpuRegister.X in sub.asmClobbers || sub.regXasResult() || sub.regXasParam()
         if(saveX)
-            asmgen.out("  stx  c64.SCRATCH_ZPREGX")        // we only save X for now (required! is the eval stack pointer), screw A and Y...
+            asmgen.saveRegister(CpuRegister.X, preserveStatusRegisterAfterCall, (stmt as Node).definingSubroutine()!!)
 
-        val subName = asmgen.asmIdentifierName(stmt.target)
+        val subName = asmgen.asmSymbolName(stmt.target)
         if(stmt.args.isNotEmpty()) {
             if(sub.asmParameterRegisters.isEmpty()) {
                 // via variables
@@ -34,14 +43,13 @@ internal class FunctionCallAsmGen(private val program: Program, private val asmg
                 // via registers
                 if(sub.parameters.size==1) {
                     // just a single parameter, no risk of clobbering registers
-                    argumentViaRegister(sub, sub.parameters.withIndex().single(), stmt.args[0])
+                    argumentViaRegister(sub, IndexedValue(0, sub.parameters.single()), stmt.args[0])
                 } else {
                     // multiple register arguments, risk of register clobbering.
                     // evaluate arguments onto the stack, and load the registers from the evaluated values on the stack.
                     when {
                         stmt.args.all {it is AddressOf ||
                                 it is NumericLiteralValue ||
-                                it is StructLiteralValue ||
                                 it is StringLiteralValue ||
                                 it is ArrayLiteralValue ||
                                 it is IdentifierReference} -> {
@@ -50,17 +58,9 @@ internal class FunctionCallAsmGen(private val program: Program, private val asmg
                                 argumentViaRegister(sub, arg.first, arg.second)
                             }
                         }
-                        stmt.args.all {it is RegisterExpr} -> {
-                            val argRegisters = stmt.args.map {(it as RegisterExpr).register.toString()}
-                            val paramRegisters = sub.asmParameterRegisters.map { it.registerOrPair?.toString() }
-                            if(argRegisters != paramRegisters) {
-                                // all args are registers but differ from the function params. Can't pass directly, work via stack.
-                                argsViaStackEvaluation(stmt, sub)
-                            }
-                        }
                         else -> {
                             // Risk of clobbering due to complex expression args. Work via the stack.
-                            argsViaStackEvaluation(stmt, sub)
+                            registerArgsViaStackEvaluation(stmt, sub)
                         }
                     }
                 }
@@ -68,122 +68,127 @@ internal class FunctionCallAsmGen(private val program: Program, private val asmg
         }
         asmgen.out("  jsr  $subName")
 
+        if(preserveStatusRegisterAfterCall) {
+            asmgen.out("  php\t; save status flags from call")
+            // note: the containing statement (such as the FunctionCallStatement or the Assignment or the Expression)
+            //       must take care of popping this value again at the end!
+        }
+
         if(saveX)
-            asmgen.out("  ldx  c64.SCRATCH_ZPREGX")        // restore X again
+            asmgen.restoreRegister(CpuRegister.X, preserveStatusRegisterAfterCall)
     }
 
-    private fun argsViaStackEvaluation(stmt: IFunctionCall, sub: Subroutine) {
+    private fun registerArgsViaStackEvaluation(stmt: IFunctionCall, sub: Subroutine) {
+        // this is called when one or more of the arguments are 'complex' and
+        // cannot be assigned to a register easily or risk clobbering other registers.
+
+        if(sub.parameters.isEmpty())
+            return
+
+        // 1. load all arguments reversed onto the stack: first arg goes last (is on top).
         for (arg in stmt.args.reversed())
             asmgen.translateExpression(arg)
-        for (regparam in sub.asmParameterRegisters) {
-            when (regparam.registerOrPair) {
-                RegisterOrPair.A -> asmgen.out(" inx |  lda  $ESTACK_LO_HEX,x")
-                RegisterOrPair.X -> throw AssemblyError("can't pop into X register - use a variable instead")
-                RegisterOrPair.Y -> asmgen.out(" inx |  ldy  $ESTACK_LO_HEX,x")
-                RegisterOrPair.AX -> throw AssemblyError("can't pop into X register - use a variable instead")
-                RegisterOrPair.AY -> asmgen.out(" inx |  lda  $ESTACK_LO_HEX,x |  ldy  $ESTACK_HI_HEX,x")
-                RegisterOrPair.XY -> throw AssemblyError("can't pop into X register - use a variable instead")
-                null -> {
+
+        var argForCarry: IndexedValue<Pair<Expression, RegisterOrStatusflag>>? = null
+        var argForXregister: IndexedValue<Pair<Expression, RegisterOrStatusflag>>? = null
+        var argForAregister: IndexedValue<Pair<Expression, RegisterOrStatusflag>>? = null
+
+        asmgen.out("  inx")     // align estack pointer
+
+        for(argi in stmt.args.zip(sub.asmParameterRegisters).withIndex()) {
+            when {
+                argi.value.second.statusflag == Statusflag.Pc -> {
+                    require(argForCarry == null)
+                    argForCarry = argi
                 }
-            }
-            when (regparam.statusflag) {
-                Statusflag.Pc -> asmgen.out("""
-                        inx
-                        pha
-                        lda  $ESTACK_LO_HEX,x
-                        beq  +
-                        sec  
-                        bcs  ++
-            +           clc
-            +           pla
-            """)
-                null -> {
+                argi.value.second.statusflag != null -> throw AssemblyError("can only use Carry as status flag parameter")
+                argi.value.second.registerOrPair in setOf(RegisterOrPair.X, RegisterOrPair.AX, RegisterOrPair.XY) -> {
+                    require(argForXregister==null)
+                    argForXregister = argi
                 }
-                else -> throw AssemblyError("can only use Carry as status flag parameter")
+                argi.value.second.registerOrPair in setOf(RegisterOrPair.A, RegisterOrPair.AY) -> {
+                    require(argForAregister == null)
+                    argForAregister = argi
+                }
+                argi.value.second.registerOrPair == RegisterOrPair.Y -> {
+                    asmgen.out("  ldy  P8ESTACK_LO+${argi.index},x")
+                }
+                else -> throw AssemblyError("weird argument")
             }
         }
+
+        if(argForCarry!=null) {
+            asmgen.out("""
+                lda  P8ESTACK_LO+${argForCarry.index},x
+                beq  +
+                sec
+                bcs  ++
++               clc
++               php""")             // push the status flags
+        }
+
+        if(argForAregister!=null) {
+            when(argForAregister.value.second.registerOrPair) {
+                RegisterOrPair.A -> asmgen.out("  lda  P8ESTACK_LO+${argForAregister.index},x")
+                RegisterOrPair.AY -> asmgen.out("  lda  P8ESTACK_LO+${argForAregister.index},x |  ldy  P8ESTACK_HI+${argForAregister.index},x")
+                else -> throw AssemblyError("weird arg")
+            }
+        }
+
+        if(argForXregister!=null) {
+
+            if(argForAregister!=null)
+                asmgen.out("  pha")
+            when(argForXregister.value.second.registerOrPair) {
+                RegisterOrPair.X -> asmgen.out("  lda  P8ESTACK_LO+${argForXregister.index},x |  tax")
+                RegisterOrPair.AX -> asmgen.out("  ldy  P8ESTACK_LO+${argForXregister.index},x |  lda  P8ESTACK_HI+${argForXregister.index},x |  tax |  tya")
+                RegisterOrPair.XY -> asmgen.out("  ldy  P8ESTACK_HI+${argForXregister.index},x |  lda  P8ESTACK_LO+${argForXregister.index},x |  tax")
+                else -> throw AssemblyError("weird arg")
+            }
+            if(argForAregister!=null)
+                asmgen.out("  pla")
+        } else {
+            repeat(sub.parameters.size - 1) { asmgen.out("  inx") }       // unwind stack
+        }
+
+        if(argForCarry!=null)
+            asmgen.out("  plp")       // set the carry flag back to correct value
     }
 
     private fun argumentViaVariable(sub: Subroutine, parameter: IndexedValue<SubroutineParameter>, value: Expression) {
         // pass parameter via a regular variable (not via registers)
         val valueIDt = value.inferType(program)
         if(!valueIDt.isKnown)
-            throw AssemblyError("arg type unknown")
+            throw AssemblyError("unknown dt")
         val valueDt = valueIDt.typeOrElse(DataType.STRUCT)
-        if(!argumentTypeCompatible(valueDt, parameter.value.type))
+        if(!isArgumentTypeCompatible(valueDt, parameter.value.type))
             throw AssemblyError("argument type incompatible")
 
-        val paramVar = parameter.value
-        val scopedParamVar = (sub.scopedname+"."+paramVar.name).split(".")
-        val target = AssignTarget(null, IdentifierReference(scopedParamVar, sub.position), null, null, sub.position)
-        target.linkParents(value.parent)
-        when (value) {
-            is NumericLiteralValue -> {
-                // optimize when the argument is a constant literal
-                when(parameter.value.type) {
-                    in ByteDatatypes -> asmgen.assignFromByteConstant(target, value.number.toShort())
-                    in WordDatatypes -> asmgen.assignFromWordConstant(target, value.number.toInt())
-                    DataType.FLOAT -> asmgen.assignFromFloatConstant(target, value.number.toDouble())
-                    in PassByReferenceDatatypes -> throw AssemblyError("can't pass string/array as argument via a variable?")    // TODO huh
-                    else -> throw AssemblyError("weird parameter datatype")
-                }
-            }
-            is IdentifierReference -> {
-                // optimize when the argument is a variable
-                when (parameter.value.type) {
-                    in ByteDatatypes -> asmgen.assignFromByteVariable(target, value)
-                    in WordDatatypes -> asmgen.assignFromWordVariable(target, value)
-                    DataType.FLOAT -> asmgen.assignFromFloatVariable(target, value)
-                    in PassByReferenceDatatypes -> throw AssemblyError("can't pass string/array as argument via a variable?")     // TODO huh
-                    else -> throw AssemblyError("weird parameter datatype")
-                }
-            }
-            is RegisterExpr -> {
-                asmgen.assignFromRegister(target, value.register)
-            }
-            is DirectMemoryRead -> {
-                when(value.addressExpression) {
-                    is NumericLiteralValue -> {
-                        val address = (value.addressExpression as NumericLiteralValue).number.toInt()
-                        asmgen.assignFromMemoryByte(target, address, null)
-                    }
-                    is IdentifierReference -> {
-                        asmgen.assignFromMemoryByte(target, null, value.addressExpression as IdentifierReference)
-                    }
-                    else -> {
-                        asmgen.translateExpression(value.addressExpression)
-                        asmgen.out("  jsr  prog8_lib.read_byte_from_address |  inx")
-                        asmgen.assignFromRegister(target, Register.A)
-                    }
-                }
-            }
-            else -> {
-                asmgen.translateExpression(value)
-                asmgen.assignFromEvalResult(target)
-            }
-        }
+        val varName = asmgen.asmVariableName(sub.scopedname+"."+parameter.value.name)
+        asmgen.assignExpressionToVariable(value, varName, parameter.value.type, sub)
     }
 
     private fun argumentViaRegister(sub: Subroutine, parameter: IndexedValue<SubroutineParameter>, value: Expression) {
         // pass argument via a register parameter
         val valueIDt = value.inferType(program)
         if(!valueIDt.isKnown)
-            throw AssemblyError("arg type unknown")
+            throw AssemblyError("unknown dt")
         val valueDt = valueIDt.typeOrElse(DataType.STRUCT)
-        if(!argumentTypeCompatible(valueDt, parameter.value.type))
+        if(!isArgumentTypeCompatible(valueDt, parameter.value.type))
             throw AssemblyError("argument type incompatible")
 
         val paramRegister = sub.asmParameterRegisters[parameter.index]
         val statusflag = paramRegister.statusflag
         val register = paramRegister.registerOrPair
-        val stack = paramRegister.stack
+        val requiredDt = parameter.value.type
+        if(requiredDt!=valueDt) {
+            if(valueDt largerThan requiredDt)
+                throw AssemblyError("can only convert byte values to word param types")
+        }
         when {
-            stack -> {
-                // push arg onto the stack
-                // note: argument order is reversed (first argument will be deepest on the stack)
-                asmgen.translateExpression(value)
-            }
             statusflag!=null -> {
+                if(requiredDt!=valueDt)
+                    throw AssemblyError("for statusflag, byte value is required")
                 if (statusflag == Statusflag.Pc) {
                     // this param needs to be set last, right before the jsr
                     // for now, this is already enforced on the subroutine definition by the Ast Checker
@@ -193,36 +198,10 @@ internal class FunctionCallAsmGen(private val program: Program, private val asmg
                             asmgen.out(if(carrySet) "  sec" else "  clc")
                         }
                         is IdentifierReference -> {
-                            val sourceName = asmgen.asmIdentifierName(value)
+                            val sourceName = asmgen.asmVariableName(value)
                             asmgen.out("""
-            lda  $sourceName
-            beq  +
-            sec  
-            bcs  ++
-+           clc
-+
-""")
-                        }
-                        is RegisterExpr -> {
-                            when(value.register) {
-                                Register.A -> asmgen.out("  cmp  #0")
-                                Register.X -> asmgen.out("  txa")
-                                Register.Y -> asmgen.out("  tya")
-                            }
-                            asmgen.out("""
-            beq  +
-            sec
-            bcs  ++
-+           clc
-+
-""")
-                        }
-                        else -> {
-                            asmgen.translateExpression(value)
-                            asmgen.out("""
-            inx
             pha
-            lda  $ESTACK_LO_HEX,x
+            lda  $sourceName
             beq  +
             sec  
             bcs  ++
@@ -230,87 +209,48 @@ internal class FunctionCallAsmGen(private val program: Program, private val asmg
 +           pla
 """)
                         }
+                        else -> {
+                            asmgen.assignExpressionToRegister(value, RegisterOrPair.A)
+                            asmgen.out("""
+                                beq  +
+                                sec
+                                bcs  ++
++                               clc
++""")
+                        }
                     }
                 }
                 else throw AssemblyError("can only use Carry as status flag parameter")
             }
-            register!=null && register.name.length==1 -> {
-                when (value) {
-                    is NumericLiteralValue -> {
-                        val target = AssignTarget(Register.valueOf(register.name), null, null, null, sub.position)
-                        target.linkParents(value.parent)
-                        asmgen.assignFromByteConstant(target, value.number.toShort())
-                    }
-                    is IdentifierReference -> {
-                        val target = AssignTarget(Register.valueOf(register.name), null, null, null, sub.position)
-                        target.linkParents(value.parent)
-                        asmgen.assignFromByteVariable(target, value)
-                    }
-                    else -> {
-                        asmgen.translateExpression(value)
-                        when(register) {
-                            RegisterOrPair.A -> asmgen.out("  inx | lda  $ESTACK_LO_HEX,x")
-                            RegisterOrPair.X -> throw AssemblyError("can't pop into X register - use a variable instead")
-                            RegisterOrPair.Y -> asmgen.out("  inx | ldy  $ESTACK_LO_HEX,x")
-                            else -> throw AssemblyError("cannot assign to register pair")
-                        }
-                    }
+            else -> {
+                // via register or register pair
+                register!!
+                if(requiredDt largerThan valueDt) {
+                    // we need to sign extend the source, do this via temporary word variable
+                    val scratchVar = asmgen.asmVariableName("P8ZP_SCRATCH_W1")
+                    asmgen.assignExpressionToVariable(value, scratchVar, DataType.UBYTE, sub)
+                    asmgen.signExtendVariableLsb(scratchVar, valueDt)
+                    asmgen.assignVariableToRegister(scratchVar, register)
                 }
-            }
-            register!=null && register.name.length==2 -> {
-                // register pair as a 16-bit value (only possible for subroutine parameters)
-                when (value) {
-                    is NumericLiteralValue -> {
-                        // optimize when the argument is a constant literal
-                        val hex = value.number.toHex()
-                        when (register) {
-                            RegisterOrPair.AX -> asmgen.out("  lda  #<$hex  |  ldx  #>$hex")
-                            RegisterOrPair.AY -> asmgen.out("  lda  #<$hex  |  ldy  #>$hex")
-                            RegisterOrPair.XY -> asmgen.out("  ldx  #<$hex  |  ldy  #>$hex")
-                            else -> {}
-                        }
-                    }
-                    is AddressOf -> {
-                        // optimize when the argument is an address of something
-                        val sourceName = asmgen.asmIdentifierName(value.identifier)
-                        when (register) {
-                            RegisterOrPair.AX -> asmgen.out("  lda  #<$sourceName  |  ldx  #>$sourceName")
-                            RegisterOrPair.AY -> asmgen.out("  lda  #<$sourceName  |  ldy  #>$sourceName")
-                            RegisterOrPair.XY -> asmgen.out("  ldx  #<$sourceName  |  ldy  #>$sourceName")
-                            else -> {}
-                        }
-                    }
-                    is IdentifierReference -> {
-                        val sourceName = asmgen.asmIdentifierName(value)
-                        if(valueDt in PassByReferenceDatatypes) {
-                            when (register) {
-                                RegisterOrPair.AX -> asmgen.out("  lda  #<$sourceName  |  ldx  #>$sourceName")
-                                RegisterOrPair.AY -> asmgen.out("  lda  #<$sourceName  |  ldy  #>$sourceName")
-                                RegisterOrPair.XY -> asmgen.out("  ldx  #<$sourceName  |  ldy  #>$sourceName")
-                                else -> {}
-                            }
+                else {
+                    val target = AsmAssignTarget.fromRegisters(register, sub, program, asmgen)
+                    val src = if(valueDt in PassByReferenceDatatypes) {
+                        if(value is IdentifierReference) {
+                            val addr = AddressOf(value, Position.DUMMY)
+                            AsmAssignSource.fromAstSource(addr, program, asmgen).adjustSignedUnsigned(target)
                         } else {
-                            when (register) {
-                                RegisterOrPair.AX -> asmgen.out("  lda  $sourceName  |  ldx  $sourceName+1")
-                                RegisterOrPair.AY -> asmgen.out("  lda  $sourceName  |  ldy  $sourceName+1")
-                                RegisterOrPair.XY -> asmgen.out("  ldx  $sourceName  |  ldy  $sourceName+1")
-                                else -> {}
-                            }
+                            AsmAssignSource.fromAstSource(value, program, asmgen).adjustSignedUnsigned(target)
                         }
+                    } else {
+                        AsmAssignSource.fromAstSource(value, program, asmgen).adjustSignedUnsigned(target)
                     }
-                    else -> {
-                        asmgen.translateExpression(value)
-                        if (register == RegisterOrPair.AX || register == RegisterOrPair.XY)
-                            throw AssemblyError("can't use X register here - use a variable")
-                        else if (register == RegisterOrPair.AY)
-                            asmgen.out("  inx |  lda  $ESTACK_LO_HEX,x  |  ldy  $ESTACK_HI_HEX,x")
-                    }
+                    asmgen.translateNormalAssignment(AsmAssignment(src, target, false, Position.DUMMY))
                 }
             }
         }
     }
 
-    private fun argumentTypeCompatible(argType: DataType, paramType: DataType): Boolean {
+    private fun isArgumentTypeCompatible(argType: DataType, paramType: DataType): Boolean {
         if(argType isAssignableTo paramType)
             return true
         if(argType in ByteDatatypes && paramType in ByteDatatypes)

compiler/src/prog8/compiler/target/c64/codegen/PostIncrDecrAsmGen.kt

@@ -4,10 +4,8 @@ import prog8.ast.Program
 import prog8.ast.base.*
 import prog8.ast.expressions.IdentifierReference
 import prog8.ast.expressions.NumericLiteralValue
-import prog8.ast.expressions.RegisterExpr
 import prog8.ast.statements.PostIncrDecr
 import prog8.compiler.AssemblyError
-import prog8.compiler.target.c64.C64MachineDefinition.C64Zeropage
 import prog8.compiler.toHex
 
 
@@ -17,28 +15,11 @@ internal class PostIncrDecrAsmGen(private val program: Program, private val asmg
         val targetIdent = stmt.target.identifier
         val targetMemory = stmt.target.memoryAddress
         val targetArrayIdx = stmt.target.arrayindexed
-        val targetRegister = stmt.target.register
+        val scope = stmt.definingSubroutine()
         when {
-            targetRegister!=null -> {
-                when(targetRegister) {
-                    Register.A -> {
-                        if(incr)
-                            asmgen.out("  clc |  adc  #1 ")
-                        else
-                            asmgen.out("  sec |  sbc  #1 ")
-                    }
-                    Register.X -> {
-                        if(incr) asmgen.out("  inx") else asmgen.out("  dex")
-                    }
-                    Register.Y -> {
-                        if(incr) asmgen.out("  iny") else asmgen.out("  dey")
-                    }
-                }
-            }
             targetIdent!=null -> {
-                val what = asmgen.asmIdentifierName(targetIdent)
-                val dt = stmt.target.inferType(program, stmt).typeOrElse(DataType.STRUCT)
-                when (dt) {
+                val what = asmgen.asmVariableName(targetIdent)
+                when (stmt.target.inferType(program).typeOrElse(DataType.STRUCT)) {
                     in ByteDatatypes -> asmgen.out(if (incr) "  inc  $what" else "  dec  $what")
                     in WordDatatypes -> {
                         if(incr)
@@ -53,7 +34,7 @@ internal class PostIncrDecrAsmGen(private val program: Program, private val asmg
                     }
                     DataType.FLOAT -> {
                         asmgen.out("  lda  #<$what |  ldy  #>$what")
-                        asmgen.out(if(incr) "  jsr  c64flt.inc_var_f" else "  jsr  c64flt.dec_var_f")
+                        asmgen.out(if(incr) "  jsr  floats.inc_var_f" else "  jsr  floats.dec_var_f")
                     }
                     else -> throw AssemblyError("need numeric type")
                 }
@@ -65,87 +46,82 @@ internal class PostIncrDecrAsmGen(private val program: Program, private val asmg
                         asmgen.out(if(incr) "  inc  $what" else "  dec  $what")
                     }
                     is IdentifierReference -> {
-                        val what = asmgen.asmIdentifierName(addressExpr)
+                        val what = asmgen.asmVariableName(addressExpr)
                         asmgen.out("  lda  $what |  sta  (+) +1 |  lda  $what+1 |  sta  (+) +2")
                         if(incr)
                             asmgen.out("+\tinc  ${'$'}ffff\t; modified")
                         else
                             asmgen.out("+\tdec  ${'$'}ffff\t; modified")
                     }
-                    else -> throw AssemblyError("weird target type $targetMemory")
+                    else -> {
+                        asmgen.assignExpressionToRegister(addressExpr, RegisterOrPair.AY)
+                        asmgen.out("  sta  (+) + 1 |  sty  (+) + 2")
+                        if(incr)
+                            asmgen.out("+\tinc  ${'$'}ffff\t; modified")
+                        else
+                            asmgen.out("+\tdec  ${'$'}ffff\t; modified")
+                    }
                 }
             }
             targetArrayIdx!=null -> {
-                val index = targetArrayIdx.arrayspec.index
-                val what = asmgen.asmIdentifierName(targetArrayIdx.identifier)
-                val arrayDt = targetArrayIdx.identifier.inferType(program).typeOrElse(DataType.STRUCT)
-                val elementDt = ArrayElementTypes.getValue(arrayDt)
-                when(index) {
-                    is NumericLiteralValue -> {
-                        val indexValue = index.number.toInt() * elementDt.memorySize()
-                        when(elementDt) {
-                            in ByteDatatypes -> asmgen.out(if (incr) "  inc  $what+$indexValue" else "  dec  $what+$indexValue")
-                            in WordDatatypes -> {
-                                if(incr)
-                                    asmgen.out(" inc  $what+$indexValue |  bne  + |  inc  $what+$indexValue+1 |+")
-                                else
-                                    asmgen.out("""
-        lda  $what+$indexValue
-        bne  +
-        dec  $what+$indexValue+1
-+       dec  $what+$indexValue 
+                val asmArrayvarname = asmgen.asmVariableName(targetArrayIdx.arrayvar)
+                val elementDt = targetArrayIdx.inferType(program).typeOrElse(DataType.STRUCT)
+                if(targetArrayIdx.indexer.indexNum!=null) {
+                    val indexValue = targetArrayIdx.indexer.constIndex()!! * elementDt.memorySize()
+                    when(elementDt) {
+                        in ByteDatatypes -> asmgen.out(if (incr) "  inc  $asmArrayvarname+$indexValue" else "  dec  $asmArrayvarname+$indexValue")
+                        in WordDatatypes -> {
+                            if(incr)
+                                asmgen.out(" inc  $asmArrayvarname+$indexValue |  bne  + |  inc  $asmArrayvarname+$indexValue+1 |+")
+                            else
+                                asmgen.out("""
+    lda  $asmArrayvarname+$indexValue
+    bne  +
+    dec  $asmArrayvarname+$indexValue+1
++       dec  $asmArrayvarname+$indexValue 
 """)
-                            }
-                            DataType.FLOAT -> {
-                                asmgen.out("  lda  #<$what+$indexValue |  ldy  #>$what+$indexValue")
-                                asmgen.out(if(incr) "  jsr  c64flt.inc_var_f" else "  jsr  c64flt.dec_var_f")
-                            }
-                            else -> throw AssemblyError("need numeric type")
                         }
-                    }
-                    is RegisterExpr -> {
-                        asmgen.translateArrayIndexIntoA(targetArrayIdx)
-                        incrDecrArrayvalueWithIndexA(incr, arrayDt, what)
-                    }
-                    is IdentifierReference -> {
-                        asmgen.translateArrayIndexIntoA(targetArrayIdx)
-                        incrDecrArrayvalueWithIndexA(incr, arrayDt, what)
-                    }
-                    else -> {
-                        asmgen.translateArrayIndexIntoA(targetArrayIdx)
-                        incrDecrArrayvalueWithIndexA(incr, arrayDt, what)
+                        DataType.FLOAT -> {
+                            asmgen.out("  lda  #<$asmArrayvarname+$indexValue |  ldy  #>$asmArrayvarname+$indexValue")
+                            asmgen.out(if(incr) "  jsr  floats.inc_var_f" else "  jsr  floats.dec_var_f")
+                        }
+                        else -> throw AssemblyError("need numeric type")
                     }
                 }
-            }
-            else -> throw AssemblyError("weird target type ${stmt.target}")
-        }
-    }
-
-    private fun incrDecrArrayvalueWithIndexA(incr: Boolean, arrayDt: DataType, arrayVarName: String) {
-        asmgen.out("  stx  ${C64Zeropage.SCRATCH_REG_X} |  tax")
-        when(arrayDt) {
-            DataType.STR,
-            DataType.ARRAY_UB, DataType.ARRAY_B -> {
-                asmgen.out(if(incr) "  inc  $arrayVarName,x" else "  dec  $arrayVarName,x")
-            }
-            DataType.ARRAY_UW, DataType.ARRAY_W -> {
-                if(incr)
-                    asmgen.out(" inc  $arrayVarName,x |  bne  + |  inc  $arrayVarName+1,x |+")
                 else
-                    asmgen.out("""
-        lda  $arrayVarName,x
-        bne  +
-        dec  $arrayVarName+1,x
-+       dec  $arrayVarName 
+                {
+                    asmgen.loadScaledArrayIndexIntoRegister(targetArrayIdx, elementDt, CpuRegister.A)
+                    asmgen.saveRegister(CpuRegister.X, false, scope!!)
+                    asmgen.out("  tax")
+                    when(elementDt) {
+                        in ByteDatatypes -> {
+                            asmgen.out(if(incr) "  inc  $asmArrayvarname,x" else "  dec  $asmArrayvarname,x")
+                        }
+                        in WordDatatypes -> {
+                            if(incr)
+                                asmgen.out(" inc  $asmArrayvarname,x |  bne  + |  inc  $asmArrayvarname+1,x |+")
+                            else
+                                asmgen.out("""
+    lda  $asmArrayvarname,x
+    bne  +
+    dec  $asmArrayvarname+1,x
++       dec  $asmArrayvarname 
 """)
+                        }
+                        DataType.FLOAT -> {
+                            asmgen.out("""
+                    ldy  #>$asmArrayvarname
+                    clc
+                    adc  #<$asmArrayvarname
+                    bcc  +
+                    iny
++                       jsr  floats.inc_var_f""")
+                        }
+                        else -> throw AssemblyError("weird array elt dt")
+                    }
+                    asmgen.restoreRegister(CpuRegister.X, false)
+                }
             }
-            DataType.ARRAY_F -> {
-                asmgen.out("  lda  #<$arrayVarName |  ldy  #>$arrayVarName")
-                asmgen.out(if(incr) "  jsr  c64flt.inc_indexed_var_f" else "  jsr  c64flt.dec_indexed_var_f")
-            }
-            else -> throw AssemblyError("weird array dt")
         }
-        asmgen.out("  ldx  ${C64Zeropage.SCRATCH_REG_X}")
     }
-
 }

compiler/src/prog8/compiler/target/c64/codegen/assignment/AsmAssignment.kt

@@ -0,0 +1,194 @@
+package prog8.compiler.target.c64.codegen.assignment
+
+import prog8.ast.Program
+import prog8.ast.base.*
+import prog8.ast.expressions.*
+import prog8.ast.statements.*
+import prog8.compiler.AssemblyError
+import prog8.compiler.target.c64.codegen.AsmGen
+
+
+internal enum class TargetStorageKind {
+    VARIABLE,
+    ARRAY,
+    MEMORY,
+    REGISTER,
+    STACK
+}
+
+internal enum class SourceStorageKind {
+    LITERALNUMBER,
+    VARIABLE,
+    ARRAY,
+    MEMORY,
+    REGISTER,
+    STACK,              // value is already present on stack
+    EXPRESSION,         // expression in ast-form, still to be evaluated
+}
+
+internal class AsmAssignTarget(val kind: TargetStorageKind,
+                               private val program: Program,
+                               private val asmgen: AsmGen,
+                               val datatype: DataType,
+                               val scope: Subroutine?,
+                               private val variableAsmName: String? = null,
+                               val array: ArrayIndexedExpression? = null,
+                               val memory: DirectMemoryWrite? = null,
+                               val register: RegisterOrPair? = null,
+                               val origAstTarget: AssignTarget? = null
+                               )
+{
+    val constMemoryAddress by lazy { memory?.addressExpression?.constValue(program)?.number?.toInt() ?: 0}
+    val constArrayIndexValue by lazy { array?.indexer?.constIndex() }
+    val asmVarname: String
+        get() = if(array==null)
+            variableAsmName!!
+        else
+            asmgen.asmVariableName(array.arrayvar)
+
+    lateinit var origAssign: AsmAssignment
+
+    init {
+        if(register!=null && datatype !in NumericDatatypes)
+            throw AssemblyError("register must be integer or float type")
+    }
+
+    companion object {
+        fun fromAstAssignment(assign: Assignment, program: Program, asmgen: AsmGen): AsmAssignTarget = with(assign.target) {
+            val idt = inferType(program)
+            if(!idt.isKnown)
+                throw AssemblyError("unknown dt")
+            val dt = idt.typeOrElse(DataType.STRUCT)
+            when {
+                identifier != null -> AsmAssignTarget(TargetStorageKind.VARIABLE, program, asmgen, dt, assign.definingSubroutine(), variableAsmName = asmgen.asmVariableName(identifier!!), origAstTarget =  this)
+                arrayindexed != null -> AsmAssignTarget(TargetStorageKind.ARRAY, program, asmgen, dt, assign.definingSubroutine(), array = arrayindexed, origAstTarget =  this)
+                memoryAddress != null -> AsmAssignTarget(TargetStorageKind.MEMORY, program, asmgen, dt, assign.definingSubroutine(), memory =  memoryAddress, origAstTarget =  this)
+                else -> throw AssemblyError("weird target")
+            }
+        }
+
+        fun fromRegisters(registers: RegisterOrPair, scope: Subroutine?, program: Program, asmgen: AsmGen): AsmAssignTarget =
+                when(registers) {
+                    RegisterOrPair.A,
+                    RegisterOrPair.X,
+                    RegisterOrPair.Y -> AsmAssignTarget(TargetStorageKind.REGISTER, program, asmgen, DataType.UBYTE, scope, register = registers)
+                    RegisterOrPair.AX,
+                    RegisterOrPair.AY,
+                    RegisterOrPair.XY -> AsmAssignTarget(TargetStorageKind.REGISTER, program, asmgen, DataType.UWORD, scope, register = registers)
+                    RegisterOrPair.FAC1,
+                    RegisterOrPair.FAC2 -> AsmAssignTarget(TargetStorageKind.REGISTER, program, asmgen, DataType.FLOAT, scope, register = registers)
+                }
+    }
+}
+
+internal class AsmAssignSource(val kind: SourceStorageKind,
+                               private val program: Program,
+                               private val asmgen: AsmGen,
+                               val datatype: DataType,
+                               private val variableAsmName: String? = null,
+                               val array: ArrayIndexedExpression? = null,
+                               val memory: DirectMemoryRead? = null,
+                               val register: CpuRegister? = null,
+                               val number: NumericLiteralValue? = null,
+                               val expression: Expression? = null
+)
+{
+    val constMemoryAddress by lazy { memory?.addressExpression?.constValue(program)?.number?.toInt() ?: 0}
+    val constArrayIndexValue by lazy { array?.indexer?.constIndex() }
+
+    val asmVarname: String
+        get() = if(array==null)
+            variableAsmName!!
+        else
+            asmgen.asmVariableName(array.arrayvar)
+
+    companion object {
+        fun fromAstSource(indexer: ArrayIndex, program: Program, asmgen: AsmGen): AsmAssignSource {
+            return when {
+                indexer.indexNum!=null -> fromAstSource(indexer.indexNum!!, program, asmgen)
+                indexer.indexVar!=null -> fromAstSource(indexer.indexVar!!, program, asmgen)
+                else -> throw AssemblyError("weird indexer")
+            }
+        }
+
+        fun fromAstSource(value: Expression, program: Program, asmgen: AsmGen): AsmAssignSource {
+            val cv = value.constValue(program)
+            if(cv!=null)
+                return AsmAssignSource(SourceStorageKind.LITERALNUMBER, program, asmgen, cv.type, number = cv)
+
+            return when(value) {
+                is NumericLiteralValue -> AsmAssignSource(SourceStorageKind.LITERALNUMBER, program, asmgen, value.type, number = cv)
+                is StringLiteralValue -> throw AssemblyError("string literal value should not occur anymore for asm generation")
+                is ArrayLiteralValue -> throw AssemblyError("array literal value should not occur anymore for asm generation")
+                is IdentifierReference -> {
+                    val dt = value.inferType(program).typeOrElse(DataType.STRUCT)
+                    AsmAssignSource(SourceStorageKind.VARIABLE, program, asmgen, dt, variableAsmName = asmgen.asmVariableName(value))
+                }
+                is DirectMemoryRead -> {
+                    AsmAssignSource(SourceStorageKind.MEMORY, program, asmgen, DataType.UBYTE, memory = value)
+                }
+                is ArrayIndexedExpression -> {
+                    val dt = value.inferType(program).typeOrElse(DataType.STRUCT)
+                    AsmAssignSource(SourceStorageKind.ARRAY, program, asmgen, dt, array = value)
+                }
+                is FunctionCall -> {
+                    when (val sub = value.target.targetStatement(program.namespace)) {
+                        is Subroutine -> {
+                            val returnType = sub.returntypes.zip(sub.asmReturnvaluesRegisters).firstOrNull { rr -> rr.second.registerOrPair != null }?.first
+                                    ?: throw AssemblyError("can't translate zero return values in assignment")
+
+                            AsmAssignSource(SourceStorageKind.EXPRESSION, program, asmgen, returnType, expression = value)
+                        }
+                        is BuiltinFunctionStatementPlaceholder -> {
+                            val returnType = value.inferType(program)
+                            if(!returnType.isKnown)
+                                throw AssemblyError("unknown dt")
+                            AsmAssignSource(SourceStorageKind.EXPRESSION, program, asmgen, returnType.typeOrElse(DataType.STRUCT), expression = value)
+                        }
+                        else -> {
+                            throw AssemblyError("weird call")
+                        }
+                    }
+                }
+                else -> {
+                    val dt = value.inferType(program)
+                    if(!dt.isKnown)
+                        throw AssemblyError("unknown dt")
+                    AsmAssignSource(SourceStorageKind.EXPRESSION, program, asmgen, dt.typeOrElse(DataType.STRUCT), expression = value)
+                }
+            }
+        }
+    }
+
+    fun adjustSignedUnsigned(target: AsmAssignTarget): AsmAssignSource {
+        // allow some signed/unsigned relaxations
+
+        fun withAdjustedDt(newType: DataType) =
+                AsmAssignSource(kind, program, asmgen, newType, variableAsmName, array, memory, register, number, expression)
+
+        if(target.datatype!=datatype) {
+            if(target.datatype in ByteDatatypes && datatype in ByteDatatypes) {
+                return withAdjustedDt(target.datatype)
+            } else if(target.datatype in WordDatatypes && datatype in WordDatatypes) {
+                return withAdjustedDt(target.datatype)
+            }
+        }
+        return this
+    }
+
+}
+
+
+internal class AsmAssignment(val source: AsmAssignSource,
+                             val target: AsmAssignTarget,
+                             val isAugmentable: Boolean,
+                             val position: Position) {
+
+    init {
+        if(target.register !in setOf(RegisterOrPair.XY, RegisterOrPair.AX, RegisterOrPair.AY))
+            require(source.datatype != DataType.STRUCT) { "must not be placeholder datatype" }
+            require(source.datatype.memorySize() <= target.datatype.memorySize()) {
+                "source storage size must be less or equal to target datatype storage size"
+            }
+    }
+}

compiler/src/prog8/compiler/target/cx16/CX16MachineDefinition.kt

@@ -0,0 +1,118 @@
+package prog8.compiler.target.cx16
+
+import prog8.ast.Program
+import prog8.compiler.*
+import prog8.compiler.target.CpuType
+import prog8.compiler.target.IMachineDefinition
+import prog8.compiler.target.c64.C64MachineDefinition
+import prog8.parser.ModuleImporter
+import java.io.IOException
+
+internal object CX16MachineDefinition: IMachineDefinition {
+
+    override val cpu = CpuType.CPU65c02
+
+    // 5-byte cbm MFLPT format limitations:
+    override val FLOAT_MAX_POSITIVE = 1.7014118345e+38         // bytes: 255,127,255,255,255
+    override val FLOAT_MAX_NEGATIVE = -1.7014118345e+38        // bytes: 255,255,255,255,255
+    override val FLOAT_MEM_SIZE = 5
+    override val POINTER_MEM_SIZE = 2
+    override val BASIC_LOAD_ADDRESS = 0x0801
+    override val RAW_LOAD_ADDRESS = 0x8000
+
+    // the 2*256 byte evaluation stack (on which bytes, words, and even floats are stored during calculations)
+    // and some heavily used string constants derived from the two values above
+    override val ESTACK_LO = 0x0400        //  $0400-$04ff inclusive
+    override val ESTACK_HI = 0x0500        //  $0500-$05ff inclusive
+
+    override lateinit var zeropage: Zeropage
+
+    override fun getFloat(num: Number) = C64MachineDefinition.Mflpt5.fromNumber(num)
+
+    override fun getFloatRomConst(number: Double): String? = null       // Cx16 has no pulblic ROM float locations
+    override fun importLibs(compilerOptions: CompilationOptions, importer: ModuleImporter, program: Program) {
+        if (compilerOptions.launcher == LauncherType.BASIC || compilerOptions.output == OutputType.PRG)
+            importer.importLibraryModule(program, "syslib")
+    }
+
+    override fun launchEmulator(programName: String) {
+        for(emulator in listOf("x16emu")) {
+            println("\nStarting Commander X16 emulator $emulator...")
+            val cmdline = listOf(emulator, "-rom", "/usr/share/x16-rom/rom.bin", "-scale", "2",
+                    "-run", "-prg", programName + ".prg")
+            val processb = ProcessBuilder(cmdline).inheritIO()
+            val process: Process
+            try {
+                process=processb.start()
+            } catch(x: IOException) {
+                continue  // try the next emulator executable
+            }
+            process.waitFor()
+            break
+        }
+    }
+
+    override fun isRegularRAMaddress(address: Int): Boolean = address < 0x9f00 || address in 0xa000..0xbfff
+
+    override fun initializeZeropage(compilerOptions: CompilationOptions) {
+        zeropage = CX16Zeropage(compilerOptions)
+    }
+
+    // 6502 opcodes (including aliases and illegal opcodes), these cannot be used as variable or label names
+    override val opcodeNames = setOf("adc", "and", "asl", "bcc", "bcs",
+            "beq", "bge", "bit", "blt", "bmi", "bne", "bpl", "brk", "bvc", "bvs", "clc",
+            "cld", "cli", "clv", "cmp", "cpx", "cpy", "dec", "dex", "dey",
+            "eor", "gcc", "gcs", "geq", "gge", "glt", "gmi", "gne", "gpl", "gvc", "gvs",
+            "inc", "inx", "iny", "jmp", "jsr",
+            "lda", "ldx", "ldy", "lsr", "nop", "ora", "pha", "php",
+            "pla", "plp", "rol", "ror", "rti", "rts", "sbc",
+            "sec", "sed", "sei",
+            "sta", "stx", "sty", "tax", "tay", "tsx", "txa", "txs", "tya",
+            "bra", "phx", "phy", "plx", "ply", "stz", "trb", "tsb", "bbr", "bbs",
+            "rmb", "smb", "stp", "wai")
+
+
+    internal class CX16Zeropage(options: CompilationOptions) : Zeropage(options) {
+
+        override val SCRATCH_B1 = 0x79      // temp storage for a single byte
+        override val SCRATCH_REG = 0x7a     // temp storage for a register, must be B1+1
+        override val SCRATCH_W1 = 0x7c      // temp storage 1 for a word  $7c+$7d
+        override val SCRATCH_W2 = 0x7e      // temp storage 2 for a word  $7e+$7f
+
+
+        init {
+            if (options.floats && options.zeropage !in setOf(ZeropageType.BASICSAFE, ZeropageType.DONTUSE ))
+                throw CompilerException("when floats are enabled, zero page type should be 'basicsafe' or 'dontuse'")
+
+            // the addresses 0x02 to 0x21 (inclusive) are taken for sixteen virtual 16-bit api registers.
+
+            when (options.zeropage) {
+                ZeropageType.FULL -> {
+                    free.addAll(0x22..0xff)
+                    free.removeAll(listOf(SCRATCH_B1, SCRATCH_REG, SCRATCH_W1, SCRATCH_W1 + 1, SCRATCH_W2, SCRATCH_W2 + 1))
+                }
+                ZeropageType.KERNALSAFE -> {
+                    free.addAll(0x22..0x7f)
+                    free.addAll(0xa9..0xff)
+                    free.removeAll(listOf(SCRATCH_B1, SCRATCH_REG, SCRATCH_W1, SCRATCH_W1 + 1, SCRATCH_W2, SCRATCH_W2 + 1))
+                }
+                ZeropageType.BASICSAFE -> {
+                    free.addAll(0x22..0x7f)
+                    free.removeAll(listOf(SCRATCH_B1, SCRATCH_REG, SCRATCH_W1, SCRATCH_W1 + 1, SCRATCH_W2, SCRATCH_W2 + 1))
+                }
+                ZeropageType.DONTUSE -> {
+                    free.clear() // don't use zeropage at all
+                }
+                else -> throw CompilerException("for this machine target, zero page type 'floatsafe' is not available. ${options.zeropage}")
+            }
+
+            require(SCRATCH_B1 !in free)
+            require(SCRATCH_REG !in free)
+            require(SCRATCH_W1 !in free)
+            require(SCRATCH_W2 !in free)
+
+            for (reserved in options.zpReserved)
+                reserve(reserved)
+        }
+    }
+}

compiler/src/prog8/functions/BuiltinFunctions.kt

@@ -3,6 +3,8 @@ package prog8.functions
 import prog8.ast.Program
 import prog8.ast.base.*
 import prog8.ast.expressions.*
+import prog8.ast.statements.StructDecl
+import prog8.ast.statements.VarDecl
 import prog8.compiler.CompilerException
 import kotlin.math.*
 
@@ -13,99 +15,168 @@ class FParam(val name: String, val possibleDatatypes: Set<DataType>)
 typealias ConstExpressionCaller = (args: List<Expression>, position: Position, program: Program) -> NumericLiteralValue
 
 
-class FSignature(val pure: Boolean,      // does it have side effects?
+class ReturnConvention(val dt: DataType, val reg: RegisterOrPair?, val floatFac1: Boolean)
+class ParamConvention(val dt: DataType, val reg: RegisterOrPair?, val variable: Boolean)
+class CallConvention(val params: List<ParamConvention>, val returns: ReturnConvention) {
+    override fun toString(): String {
+        val paramConvs =  params.mapIndexed { index, it ->
+            when {
+                it.reg!=null -> "$index:${it.reg}"
+                it.variable -> "$index:variable"
+                else -> "$index:???"
+            }
+        }
+        val returnConv =
+                when {
+                    returns.reg!=null -> returns.reg.toString()
+                    returns.floatFac1 -> "floatFAC1"
+                    else -> "<no returnvalue>"
+                }
+        return "CallConvention[" + paramConvs.joinToString() + " ; returns: $returnConv]"
+    }
+}
+
+
+class FSignature(val name: String,
+                 val pure: Boolean,      // does it have side effects?
                  val parameters: List<FParam>,
-                 val returntype: DataType?,
-                 val constExpressionFunc: ConstExpressionCaller? = null)
+                 val known_returntype: DataType?,     // specify return type if fixed, otherwise null if it depends on the arguments
+                 val constExpressionFunc: ConstExpressionCaller? = null) {
 
+    fun callConvention(actualParamTypes: List<DataType>): CallConvention {
+        val returns = when(known_returntype) {
+            DataType.UBYTE, DataType.BYTE -> ReturnConvention(known_returntype, RegisterOrPair.A, false)
+            DataType.UWORD, DataType.WORD -> ReturnConvention(known_returntype, RegisterOrPair.AY, false)
+            DataType.FLOAT -> ReturnConvention(known_returntype, null, true)
+            in PassByReferenceDatatypes -> ReturnConvention(known_returntype!!, RegisterOrPair.AY, false)
+            else -> {
+                val paramType = actualParamTypes.first()
+                if(pure)
+                    // return type depends on arg type
+                    when(paramType) {
+                        DataType.UBYTE, DataType.BYTE -> ReturnConvention(paramType, RegisterOrPair.A, false)
+                        DataType.UWORD, DataType.WORD -> ReturnConvention(paramType, RegisterOrPair.AY, false)
+                        DataType.FLOAT -> ReturnConvention(paramType, null, true)
+                        in PassByReferenceDatatypes -> ReturnConvention(paramType, RegisterOrPair.AY, false)
+                        else -> ReturnConvention(paramType, null, false)
+                    }
+                else {
+                    ReturnConvention(paramType, null, false)
+                }
+            }
+        }
+        return when {
+            actualParamTypes.isEmpty() -> CallConvention(emptyList(), returns)
+            actualParamTypes.size==1 -> {
+                // one parameter? via register/registerpair
+                val paramConv = when(val paramType = actualParamTypes[0]) {
+                    DataType.UBYTE, DataType.BYTE -> ParamConvention(paramType, RegisterOrPair.A, false)
+                    DataType.UWORD, DataType.WORD -> ParamConvention(paramType, RegisterOrPair.AY, false)
+                    DataType.FLOAT -> ParamConvention(paramType, RegisterOrPair.AY, false)
+                    in PassByReferenceDatatypes -> ParamConvention(paramType, RegisterOrPair.AY, false)
+                    else -> ParamConvention(paramType, null, false)
+                }
+                CallConvention(listOf(paramConv), returns)
+            }
+            else -> {
+                // multiple parameters? via variables
+                val paramConvs = actualParamTypes.map { ParamConvention(it, null, true) }
+                CallConvention(paramConvs, returns)
+            }
+        }
+    }
+}
 
-val BuiltinFunctions = mapOf(
+private val functionSignatures: List<FSignature> = listOf(
         // this set of function have no return value and operate in-place:
-    "rol"         to FSignature(false, listOf(FParam("item", setOf(DataType.UBYTE, DataType.UWORD))), null),
-    "ror"         to FSignature(false, listOf(FParam("item", setOf(DataType.UBYTE, DataType.UWORD))), null),
-    "rol2"        to FSignature(false, listOf(FParam("item", setOf(DataType.UBYTE, DataType.UWORD))), null),
-    "ror2"        to FSignature(false, listOf(FParam("item", setOf(DataType.UBYTE, DataType.UWORD))), null),
-    "lsl"         to FSignature(false, listOf(FParam("item", IntegerDatatypes)), null),
-    "lsr"         to FSignature(false, listOf(FParam("item", IntegerDatatypes)), null),
-    "sort"        to FSignature(false, listOf(FParam("array", ArrayDatatypes)), null),
-    "reverse"     to FSignature(false, listOf(FParam("array", ArrayDatatypes)), null),
+    FSignature("rol"         , false, listOf(FParam("item", setOf(DataType.UBYTE, DataType.UWORD))), null),
+    FSignature("ror"         , false, listOf(FParam("item", setOf(DataType.UBYTE, DataType.UWORD))), null),
+    FSignature("rol2"        , false, listOf(FParam("item", setOf(DataType.UBYTE, DataType.UWORD))), null),
+    FSignature("ror2"        , false, listOf(FParam("item", setOf(DataType.UBYTE, DataType.UWORD))), null),
+    FSignature("sort"        , false, listOf(FParam("array", ArrayDatatypes)), null),
+    FSignature("reverse"     , false, listOf(FParam("array", ArrayDatatypes)), null),
         // these few have a return value depending on the argument(s):
-    "max"         to FSignature(true, listOf(FParam("values", ArrayDatatypes)), null) { a, p, prg -> collectionArg(a, p, prg, ::builtinMax) },    // type depends on args
-    "min"         to FSignature(true, listOf(FParam("values", ArrayDatatypes)), null) { a, p, prg -> collectionArg(a, p, prg, ::builtinMin) },    // type depends on args
-    "sum"         to FSignature(true, listOf(FParam("values", ArrayDatatypes)), null) { a, p, prg -> collectionArg(a, p, prg, ::builtinSum) },      // type depends on args
-    "abs"         to FSignature(true, listOf(FParam("value", NumericDatatypes)), null, ::builtinAbs),      // type depends on argument
-    "len"         to FSignature(true, listOf(FParam("values", IterableDatatypes)), null, ::builtinLen),    // type is UBYTE or UWORD depending on actual length
+    FSignature("max"         , true, listOf(FParam("values", ArrayDatatypes)), null) { a, p, prg -> collectionArg(a, p, prg, ::builtinMax) },    // type depends on args
+    FSignature("min"         , true, listOf(FParam("values", ArrayDatatypes)), null) { a, p, prg -> collectionArg(a, p, prg, ::builtinMin) },    // type depends on args
+    FSignature("sum"         , true, listOf(FParam("values", ArrayDatatypes)), null) { a, p, prg -> collectionArg(a, p, prg, ::builtinSum) },      // type depends on args
+    FSignature("abs"         , true, listOf(FParam("value", NumericDatatypes)), null, ::builtinAbs),      // type depends on argument
+    FSignature("len"         , true, listOf(FParam("values", IterableDatatypes)), null, ::builtinLen),    // type is UBYTE or UWORD depending on actual length
+    FSignature("sizeof"      , true, listOf(FParam("object", DataType.values().toSet())), DataType.UBYTE, ::builtinSizeof),
         // normal functions follow:
-    "sgn"         to FSignature(true, listOf(FParam("value", NumericDatatypes)), DataType.BYTE, ::builtinSgn ),
-    "sin"         to FSignature(true, listOf(FParam("rads", setOf(DataType.FLOAT))), DataType.FLOAT) { a, p, prg -> oneDoubleArg(a, p, prg, Math::sin) },
-    "sin8"        to FSignature(true, listOf(FParam("angle8", setOf(DataType.UBYTE))), DataType.BYTE, ::builtinSin8 ),
-    "sin8u"       to FSignature(true, listOf(FParam("angle8", setOf(DataType.UBYTE))), DataType.UBYTE, ::builtinSin8u ),
-    "sin16"       to FSignature(true, listOf(FParam("angle8", setOf(DataType.UBYTE))), DataType.WORD, ::builtinSin16 ),
-    "sin16u"      to FSignature(true, listOf(FParam("angle8", setOf(DataType.UBYTE))), DataType.UWORD, ::builtinSin16u ),
-    "cos"         to FSignature(true, listOf(FParam("rads", setOf(DataType.FLOAT))), DataType.FLOAT) { a, p, prg -> oneDoubleArg(a, p, prg, Math::cos) },
-    "cos8"        to FSignature(true, listOf(FParam("angle8", setOf(DataType.UBYTE))), DataType.BYTE, ::builtinCos8 ),
-    "cos8u"       to FSignature(true, listOf(FParam("angle8", setOf(DataType.UBYTE))), DataType.UBYTE, ::builtinCos8u ),
-    "cos16"       to FSignature(true, listOf(FParam("angle8", setOf(DataType.UBYTE))), DataType.WORD, ::builtinCos16 ),
-    "cos16u"      to FSignature(true, listOf(FParam("angle8", setOf(DataType.UBYTE))), DataType.UWORD, ::builtinCos16u ),
-    "tan"         to FSignature(true, listOf(FParam("rads", setOf(DataType.FLOAT))), DataType.FLOAT) { a, p, prg -> oneDoubleArg(a, p, prg, Math::tan) },
-    "atan"        to FSignature(true, listOf(FParam("rads", setOf(DataType.FLOAT))), DataType.FLOAT) { a, p, prg -> oneDoubleArg(a, p, prg, Math::atan) },
-    "ln"          to FSignature(true, listOf(FParam("value", setOf(DataType.FLOAT))), DataType.FLOAT) { a, p, prg -> oneDoubleArg(a, p, prg, Math::log) },
-    "log2"        to FSignature(true, listOf(FParam("value", setOf(DataType.FLOAT))), DataType.FLOAT) { a, p, prg -> oneDoubleArg(a, p, prg, ::log2) },
-    "sqrt16"      to FSignature(true, listOf(FParam("value", setOf(DataType.UWORD))), DataType.UBYTE) { a, p, prg -> oneIntArgOutputInt(a, p, prg) { sqrt(it.toDouble()).toInt() } },
-    "sqrt"        to FSignature(true, listOf(FParam("value", setOf(DataType.FLOAT))), DataType.FLOAT) { a, p, prg -> oneDoubleArg(a, p, prg, Math::sqrt) },
-    "rad"         to FSignature(true, listOf(FParam("value", setOf(DataType.FLOAT))), DataType.FLOAT) { a, p, prg -> oneDoubleArg(a, p, prg, Math::toRadians) },
-    "deg"         to FSignature(true, listOf(FParam("value", setOf(DataType.FLOAT))), DataType.FLOAT) { a, p, prg -> oneDoubleArg(a, p, prg, Math::toDegrees) },
-    "round"       to FSignature(true, listOf(FParam("value", setOf(DataType.FLOAT))), DataType.FLOAT) { a, p, prg -> oneDoubleArgOutputWord(a, p, prg, Math::round) },
-    "floor"       to FSignature(true, listOf(FParam("value", setOf(DataType.FLOAT))), DataType.FLOAT) { a, p, prg -> oneDoubleArgOutputWord(a, p, prg, Math::floor) },
-    "ceil"        to FSignature(true, listOf(FParam("value", setOf(DataType.FLOAT))), DataType.FLOAT) { a, p, prg -> oneDoubleArgOutputWord(a, p, prg, Math::ceil) },
-    "any"         to FSignature(true, listOf(FParam("values", ArrayDatatypes)), DataType.UBYTE) { a, p, prg -> collectionArg(a, p, prg, ::builtinAny) },
-    "all"         to FSignature(true, listOf(FParam("values", ArrayDatatypes)), DataType.UBYTE) { a, p, prg -> collectionArg(a, p, prg, ::builtinAll) },
-    "lsb"         to FSignature(true, listOf(FParam("value", setOf(DataType.UWORD, DataType.WORD))), DataType.UBYTE) { a, p, prg -> oneIntArgOutputInt(a, p, prg) { x: Int -> x and 255 }},
-    "msb"         to FSignature(true, listOf(FParam("value", setOf(DataType.UWORD, DataType.WORD))), DataType.UBYTE) { a, p, prg -> oneIntArgOutputInt(a, p, prg) { x: Int -> x ushr 8 and 255}},
-    "mkword"      to FSignature(true, listOf(FParam("lsb", setOf(DataType.UBYTE)), FParam("msb", setOf(DataType.UBYTE))), DataType.UWORD, ::builtinMkword),
-    "rnd"         to FSignature(true, emptyList(), DataType.UBYTE),
-    "rndw"        to FSignature(true, emptyList(), DataType.UWORD),
-    "rndf"        to FSignature(true, emptyList(), DataType.FLOAT),
-    "exit"        to FSignature(false, listOf(FParam("returnvalue", setOf(DataType.UBYTE))), null),
-    "rsave"       to FSignature(false, emptyList(), null),
-    "rrestore"    to FSignature(false, emptyList(), null),
-    "set_carry"   to FSignature(false, emptyList(), null),
-    "clear_carry" to FSignature(false, emptyList(), null),
-    "set_irqd"    to FSignature(false, emptyList(), null),
-    "clear_irqd"  to FSignature(false, emptyList(), null),
-    "read_flags"  to FSignature(false, emptyList(), DataType.UBYTE),
-    "swap"        to FSignature(false, listOf(FParam("first", NumericDatatypes), FParam("second", NumericDatatypes)), null),
-    "memcopy"     to FSignature(false, listOf(
+    FSignature("sgn"         , true, listOf(FParam("value", NumericDatatypes)), DataType.BYTE, ::builtinSgn ),
+    FSignature("sin"         , true, listOf(FParam("rads", setOf(DataType.FLOAT))), DataType.FLOAT) { a, p, prg -> oneDoubleArg(a, p, prg, Math::sin) },
+    FSignature("sin8"        , true, listOf(FParam("angle8", setOf(DataType.UBYTE))), DataType.BYTE, ::builtinSin8 ),
+    FSignature("sin8u"       , true, listOf(FParam("angle8", setOf(DataType.UBYTE))), DataType.UBYTE, ::builtinSin8u ),
+    FSignature("sin16"       , true, listOf(FParam("angle8", setOf(DataType.UBYTE))), DataType.WORD, ::builtinSin16 ),
+    FSignature("sin16u"      , true, listOf(FParam("angle8", setOf(DataType.UBYTE))), DataType.UWORD, ::builtinSin16u ),
+    FSignature("cos"         , true, listOf(FParam("rads", setOf(DataType.FLOAT))), DataType.FLOAT) { a, p, prg -> oneDoubleArg(a, p, prg, Math::cos) },
+    FSignature("cos8"        , true, listOf(FParam("angle8", setOf(DataType.UBYTE))), DataType.BYTE, ::builtinCos8 ),
+    FSignature("cos8u"       , true, listOf(FParam("angle8", setOf(DataType.UBYTE))), DataType.UBYTE, ::builtinCos8u ),
+    FSignature("cos16"       , true, listOf(FParam("angle8", setOf(DataType.UBYTE))), DataType.WORD, ::builtinCos16 ),
+    FSignature("cos16u"      , true, listOf(FParam("angle8", setOf(DataType.UBYTE))), DataType.UWORD, ::builtinCos16u ),
+    FSignature("tan"         , true, listOf(FParam("rads", setOf(DataType.FLOAT))), DataType.FLOAT) { a, p, prg -> oneDoubleArg(a, p, prg, Math::tan) },
+    FSignature("atan"        , true, listOf(FParam("rads", setOf(DataType.FLOAT))), DataType.FLOAT) { a, p, prg -> oneDoubleArg(a, p, prg, Math::atan) },
+    FSignature("ln"          , true, listOf(FParam("value", setOf(DataType.FLOAT))), DataType.FLOAT) { a, p, prg -> oneDoubleArg(a, p, prg, Math::log) },
+    FSignature("log2"        , true, listOf(FParam("value", setOf(DataType.FLOAT))), DataType.FLOAT) { a, p, prg -> oneDoubleArg(a, p, prg, ::log2) },
+    FSignature("sqrt16"      , true, listOf(FParam("value", setOf(DataType.UWORD))), DataType.UBYTE) { a, p, prg -> oneIntArgOutputInt(a, p, prg) { sqrt(it.toDouble()).toInt() } },
+    FSignature("sqrt"        , true, listOf(FParam("value", setOf(DataType.FLOAT))), DataType.FLOAT) { a, p, prg -> oneDoubleArg(a, p, prg, Math::sqrt) },
+    FSignature("rad"         , true, listOf(FParam("value", setOf(DataType.FLOAT))), DataType.FLOAT) { a, p, prg -> oneDoubleArg(a, p, prg, Math::toRadians) },
+    FSignature("deg"         , true, listOf(FParam("value", setOf(DataType.FLOAT))), DataType.FLOAT) { a, p, prg -> oneDoubleArg(a, p, prg, Math::toDegrees) },
+    FSignature("round"       , true, listOf(FParam("value", setOf(DataType.FLOAT))), DataType.FLOAT) { a, p, prg -> oneDoubleArgOutputWord(a, p, prg, Math::round) },
+    FSignature("floor"       , true, listOf(FParam("value", setOf(DataType.FLOAT))), DataType.FLOAT) { a, p, prg -> oneDoubleArgOutputWord(a, p, prg, Math::floor) },
+    FSignature("ceil"        , true, listOf(FParam("value", setOf(DataType.FLOAT))), DataType.FLOAT) { a, p, prg -> oneDoubleArgOutputWord(a, p, prg, Math::ceil) },
+    FSignature("any"         , true, listOf(FParam("values", ArrayDatatypes)), DataType.UBYTE) { a, p, prg -> collectionArg(a, p, prg, ::builtinAny) },
+    FSignature("all"         , true, listOf(FParam("values", ArrayDatatypes)), DataType.UBYTE) { a, p, prg -> collectionArg(a, p, prg, ::builtinAll) },
+    FSignature("lsb"         , true, listOf(FParam("value", setOf(DataType.UWORD, DataType.WORD))), DataType.UBYTE) { a, p, prg -> oneIntArgOutputInt(a, p, prg) { x: Int -> x and 255 }},
+    FSignature("msb"         , true, listOf(FParam("value", setOf(DataType.UWORD, DataType.WORD))), DataType.UBYTE) { a, p, prg -> oneIntArgOutputInt(a, p, prg) { x: Int -> x ushr 8 and 255}},
+    FSignature("mkword"      , true, listOf(FParam("msb", setOf(DataType.UBYTE)), FParam("lsb", setOf(DataType.UBYTE))), DataType.UWORD, ::builtinMkword),
+    FSignature("rnd"         , false, emptyList(), DataType.UBYTE),
+    FSignature("rndw"        , false, emptyList(), DataType.UWORD),
+    FSignature("rndf"        , false, emptyList(), DataType.FLOAT),
+    FSignature("exit"        , false, listOf(FParam("returnvalue", setOf(DataType.UBYTE))), null),
+    FSignature("rsave"       , false, emptyList(), null),
+    FSignature("rrestore"    , false, emptyList(), null),
+    FSignature("set_carry"   , false, emptyList(), null),
+    FSignature("clear_carry" , false, emptyList(), null),
+    FSignature("set_irqd"    , false, emptyList(), null),
+    FSignature("clear_irqd"  , false, emptyList(), null),
+    FSignature("read_flags"  , false, emptyList(), DataType.UBYTE),
+    FSignature("swap"        , false, listOf(FParam("first", NumericDatatypes), FParam("second", NumericDatatypes)), null),
+    FSignature("memcopy"     , false, listOf(
                             FParam("from", IterableDatatypes + DataType.UWORD),
                             FParam("to", IterableDatatypes + DataType.UWORD),
-                            FParam("numbytes", setOf(DataType.UBYTE))), null),
-    "memset"      to FSignature(false, listOf(
+                            FParam("numbytes", setOf(DataType.UBYTE, DataType.UWORD))), null),
+    FSignature("memset"      , false, listOf(
                             FParam("address", IterableDatatypes + DataType.UWORD),
                             FParam("numbytes", setOf(DataType.UWORD)),
                             FParam("bytevalue", ByteDatatypes)), null),
-    "memsetw"     to FSignature(false, listOf(
+    FSignature("memsetw"     , false, listOf(
                             FParam("address", IterableDatatypes + DataType.UWORD),
                             FParam("numwords", setOf(DataType.UWORD)),
                             FParam("wordvalue", setOf(DataType.UWORD, DataType.WORD))), null),
-    "strlen"      to FSignature(true, listOf(FParam("string", setOf(DataType.STR))), DataType.UBYTE, ::builtinStrlen),
-    "substr"      to FSignature(false, listOf(
+    FSignature("strlen"      , true, listOf(FParam("string", setOf(DataType.STR))), DataType.UBYTE, ::builtinStrlen),
+    FSignature("substr"      , false, listOf(
             FParam("source", IterableDatatypes + DataType.UWORD),
             FParam("target", IterableDatatypes + DataType.UWORD),
             FParam("start", setOf(DataType.UBYTE)),
             FParam("length", setOf(DataType.UBYTE))), null),
-    "leftstr"      to FSignature(false, listOf(
+    FSignature("leftstr"     , false, listOf(
             FParam("source", IterableDatatypes + DataType.UWORD),
             FParam("target", IterableDatatypes + DataType.UWORD),
             FParam("length", setOf(DataType.UBYTE))), null),
-    "rightstr"      to FSignature(false, listOf(
+    FSignature("rightstr"    , false, listOf(
             FParam("source", IterableDatatypes + DataType.UWORD),
             FParam("target", IterableDatatypes + DataType.UWORD),
-            FParam("length", setOf(DataType.UBYTE))), null)
+            FParam("length", setOf(DataType.UBYTE))), null),
+    FSignature("strcmp"      , false, listOf(FParam("s1", IterableDatatypes + DataType.UWORD), FParam("s2", IterableDatatypes + DataType.UWORD)), DataType.BYTE, null)
 )
 
-fun builtinMax(array: List<Number>): Number = array.maxBy { it.toDouble() }!!
+val BuiltinFunctions = functionSignatures.associateBy { it.name }
 
-fun builtinMin(array: List<Number>): Number = array.minBy { it.toDouble() }!!
+
+fun builtinMax(array: List<Number>): Number = array.maxByOrNull { it.toDouble() }!!
+
+fun builtinMin(array: List<Number>): Number = array.minByOrNull { it.toDouble() }!!
 
 fun builtinSum(array: List<Number>): Number = array.sumByDouble { it.toDouble() }
 
@@ -142,17 +213,17 @@ fun builtinFunctionReturnType(function: String, args: List<Expression>, program:
     }
 
     val func = BuiltinFunctions.getValue(function)
-    if(func.returntype!=null)
-        return InferredTypes.knownFor(func.returntype)
-    // function has return values, but the return type depends on the arguments
+    if(func.known_returntype!=null)
+        return InferredTypes.knownFor(func.known_returntype)
 
+    // function has return values, but the return type depends on the arguments
     return when (function) {
         "abs" -> {
             val dt = args.single().inferType(program)
-            if(dt.typeOrElse(DataType.STRUCT) in NumericDatatypes)
-                return dt
+            return if(dt.typeOrElse(DataType.STRUCT) in NumericDatatypes)
+                dt
             else
-                throw FatalAstException("weird datatype passed to abs $dt")
+                InferredTypes.InferredType.unknown()
         }
         "max", "min" -> {
             when(val dt = datatypeFromIterableArg(args.single())) {
@@ -240,59 +311,88 @@ private fun builtinAbs(args: List<Expression>, position: Position, program: Prog
     }
 }
 
+private fun builtinSizeof(args: List<Expression>, position: Position, program: Program): NumericLiteralValue {
+    // 1 arg, type = anything, result type = ubyte
+    if(args.size!=1)
+        throw SyntaxError("sizeof requires one argument", position)
+    if(args[0] !is IdentifierReference)
+        throw SyntaxError("sizeof argument should be an identifier", position)
+
+    val dt = args[0].inferType(program)
+    if(dt.isKnown) {
+        val target = (args[0] as IdentifierReference).targetStatement(program.namespace)
+                ?: throw CannotEvaluateException("sizeof", "no target")
+
+        fun structSize(target: StructDecl) =
+                NumericLiteralValue(DataType.UBYTE, target.statements.map { (it as VarDecl).datatype.memorySize() }.sum(), position)
+
+        return when {
+            dt.typeOrElse(DataType.STRUCT) in ArrayDatatypes -> {
+                val length = (target as VarDecl).arraysize!!.constIndex() ?: throw CannotEvaluateException("sizeof", "unknown array size")
+                val elementDt = ArrayElementTypes.getValue(dt.typeOrElse(DataType.STRUCT))
+                numericLiteral(elementDt.memorySize() * length, position)
+            }
+            dt.istype(DataType.STRUCT) -> {
+                when (target) {
+                    is VarDecl -> structSize(target.struct!!)
+                    is StructDecl -> structSize(target)
+                    else -> throw CompilerException("weird struct type $target")
+                }
+            }
+            dt.istype(DataType.STR) -> throw SyntaxError("sizeof str is undefined, did you mean len?", position)
+            else -> NumericLiteralValue(DataType.UBYTE, dt.typeOrElse(DataType.STRUCT).memorySize(), position)
+        }
+    } else {
+        throw SyntaxError("sizeof invalid argument type", position)
+    }
+}
+
 private fun builtinStrlen(args: List<Expression>, position: Position, program: Program): NumericLiteralValue {
     if (args.size != 1)
         throw SyntaxError("strlen requires one argument", position)
-    val argument = args[0].constValue(program) ?: throw NotConstArgumentException()
-    if(argument.type != DataType.STR)
-        throw SyntaxError("strlen must have string argument", position)
-
-    throw NotConstArgumentException()       // this function is not considering the string argument a constant
+    val argument=args[0]
+    if(argument is StringLiteralValue)
+        return NumericLiteralValue.optimalInteger(argument.value.length, argument.position)
+    val vardecl = (argument as IdentifierReference).targetVarDecl(program.namespace)
+    if(vardecl!=null) {
+        if(vardecl.datatype!=DataType.STR && vardecl.datatype!=DataType.UWORD)
+            throw SyntaxError("strlen must have string argument", position)
+        if(vardecl.autogeneratedDontRemove && vardecl.value!=null) {
+            return NumericLiteralValue.optimalInteger((vardecl.value as StringLiteralValue).value.length, argument.position)
+        }
+    }
+    throw NotConstArgumentException()
 }
 
 private fun builtinLen(args: List<Expression>, position: Position, program: Program): NumericLiteralValue {
     // note: in some cases the length is > 255 and then we have to return a UWORD type instead of a UBYTE.
     if(args.size!=1)
         throw SyntaxError("len requires one argument", position)
-    val constArg = args[0].constValue(program)
-    if(constArg!=null)
-        throw SyntaxError("len of weird argument ${args[0]}", position)
 
     val directMemVar = ((args[0] as? DirectMemoryRead)?.addressExpression as? IdentifierReference)?.targetVarDecl(program.namespace)
-    var arraySize = directMemVar?.arraysize?.size()
+    var arraySize = directMemVar?.arraysize?.constIndex()
     if(arraySize != null)
         return NumericLiteralValue.optimalInteger(arraySize, position)
     if(args[0] is ArrayLiteralValue)
         return NumericLiteralValue.optimalInteger((args[0] as ArrayLiteralValue).value.size, position)
     if(args[0] !is IdentifierReference)
-        throw SyntaxError("len argument should be an identifier, but is ${args[0]}", position)
+        throw SyntaxError("len argument should be an identifier", position)
     val target = (args[0] as IdentifierReference).targetVarDecl(program.namespace)
             ?: throw CannotEvaluateException("len", "no target vardecl")
 
     return when(target.datatype) {
-        DataType.ARRAY_UB, DataType.ARRAY_B, DataType.ARRAY_UW, DataType.ARRAY_W -> {
-            arraySize = target.arraysize?.size()
+        DataType.ARRAY_UB, DataType.ARRAY_B, DataType.ARRAY_UW, DataType.ARRAY_W, DataType.ARRAY_F -> {
+            arraySize = target.arraysize?.constIndex()
             if(arraySize==null)
                 throw CannotEvaluateException("len", "arraysize unknown")
-            if(arraySize>256)
-                throw CompilerException("array length exceeds byte limit ${target.position}")
-            NumericLiteralValue.optimalInteger(arraySize, args[0].position)
-        }
-        DataType.ARRAY_F -> {
-            arraySize = target.arraysize?.size()
-            if(arraySize==null)
-                throw CannotEvaluateException("len", "arraysize unknown")
-            if(arraySize>256)
-                throw CompilerException("array length exceeds byte limit ${target.position}")
             NumericLiteralValue.optimalInteger(arraySize, args[0].position)
         }
         DataType.STR -> {
             val refLv = target.value as StringLiteralValue
-            if(refLv.value.length>255)
-                throw CompilerException("string length exceeds byte limit ${refLv.position}")
             NumericLiteralValue.optimalInteger(refLv.value.length, args[0].position)
         }
-        in NumericDatatypes -> throw SyntaxError("len of weird argument ${args[0]}", position)
+        DataType.STRUCT -> throw SyntaxError("cannot use len on struct, did you mean sizeof?", args[0].position)
+        in NumericDatatypes -> throw SyntaxError("cannot use len on numeric value, did you mean sizeof?", args[0].position)
         else -> throw CompilerException("weird datatype")
     }
 }
@@ -300,9 +400,9 @@ private fun builtinLen(args: List<Expression>, position: Position, program: Prog
 
 private fun builtinMkword(args: List<Expression>, position: Position, program: Program): NumericLiteralValue {
     if (args.size != 2)
-        throw SyntaxError("mkword requires lsb and msb arguments", position)
-    val constLsb = args[0].constValue(program) ?: throw NotConstArgumentException()
-    val constMsb = args[1].constValue(program) ?: throw NotConstArgumentException()
+        throw SyntaxError("mkword requires msb and lsb arguments", position)
+    val constMsb = args[0].constValue(program) ?: throw NotConstArgumentException()
+    val constLsb = args[1].constValue(program) ?: throw NotConstArgumentException()
     val result = (constMsb.number.toInt() shl 8) or constLsb.number.toInt()
     return NumericLiteralValue(DataType.UWORD, result, position)
 }
@@ -312,7 +412,7 @@ private fun builtinSin8(args: List<Expression>, position: Position, program: Pro
         throw SyntaxError("sin8 requires one argument", position)
     val constval = args[0].constValue(program) ?: throw NotConstArgumentException()
     val rad = constval.number.toDouble() /256.0 * 2.0 * PI
-    return NumericLiteralValue(DataType.BYTE, (127.0 * sin(rad)).toShort(), position)
+    return NumericLiteralValue(DataType.BYTE, (127.0 * sin(rad)).toInt().toShort(), position)
 }
 
 private fun builtinSin8u(args: List<Expression>, position: Position, program: Program): NumericLiteralValue {
@@ -320,7 +420,7 @@ private fun builtinSin8u(args: List<Expression>, position: Position, program: Pr
         throw SyntaxError("sin8u requires one argument", position)
     val constval = args[0].constValue(program) ?: throw NotConstArgumentException()
     val rad = constval.number.toDouble() /256.0 * 2.0 * PI
-    return NumericLiteralValue(DataType.UBYTE, (128.0 + 127.5 * sin(rad)).toShort(), position)
+    return NumericLiteralValue(DataType.UBYTE, (128.0 + 127.5 * sin(rad)).toInt().toShort(), position)
 }
 
 private fun builtinCos8(args: List<Expression>, position: Position, program: Program): NumericLiteralValue {
@@ -328,7 +428,7 @@ private fun builtinCos8(args: List<Expression>, position: Position, program: Pro
         throw SyntaxError("cos8 requires one argument", position)
     val constval = args[0].constValue(program) ?: throw NotConstArgumentException()
     val rad = constval.number.toDouble() /256.0 * 2.0 * PI
-    return NumericLiteralValue(DataType.BYTE, (127.0 * cos(rad)).toShort(), position)
+    return NumericLiteralValue(DataType.BYTE, (127.0 * cos(rad)).toInt().toShort(), position)
 }
 
 private fun builtinCos8u(args: List<Expression>, position: Position, program: Program): NumericLiteralValue {
@@ -336,7 +436,7 @@ private fun builtinCos8u(args: List<Expression>, position: Position, program: Pr
         throw SyntaxError("cos8u requires one argument", position)
     val constval = args[0].constValue(program) ?: throw NotConstArgumentException()
     val rad = constval.number.toDouble() /256.0 * 2.0 * PI
-    return NumericLiteralValue(DataType.UBYTE, (128.0 + 127.5 * cos(rad)).toShort(), position)
+    return NumericLiteralValue(DataType.UBYTE, (128.0 + 127.5 * cos(rad)).toInt().toShort(), position)
 }
 
 private fun builtinSin16(args: List<Expression>, position: Position, program: Program): NumericLiteralValue {
@@ -375,7 +475,7 @@ private fun builtinSgn(args: List<Expression>, position: Position, program: Prog
     if (args.size != 1)
         throw SyntaxError("sgn requires one argument", position)
     val constval = args[0].constValue(program) ?: throw NotConstArgumentException()
-    return NumericLiteralValue(DataType.BYTE, constval.number.toDouble().sign.toShort(), position)
+    return NumericLiteralValue(DataType.BYTE, constval.number.toDouble().sign.toInt().toShort(), position)
 }
 
 private fun numericLiteral(value: Number, position: Position): NumericLiteralValue {
@@ -387,8 +487,8 @@ private fun numericLiteral(value: Number, position: Position): NumericLiteralVal
                 floatNum
 
     return when(tweakedValue) {
-        is Int -> NumericLiteralValue.optimalNumeric(value.toInt(), position)
-        is Short -> NumericLiteralValue.optimalNumeric(value.toInt(), position)
+        is Int -> NumericLiteralValue.optimalInteger(value.toInt(), position)
+        is Short -> NumericLiteralValue.optimalInteger(value.toInt(), position)
         is Byte -> NumericLiteralValue(DataType.UBYTE, value.toShort(), position)
         is Double -> NumericLiteralValue(DataType.FLOAT, value.toDouble(), position)
         is Float -> NumericLiteralValue(DataType.FLOAT, value.toDouble(), position)

compiler/src/prog8/optimizer/AssignmentTransformer.kt

@@ -1,157 +0,0 @@
-package prog8.optimizer
-
-import prog8.ast.Node
-import prog8.ast.Program
-import prog8.ast.base.ErrorReporter
-import prog8.ast.expressions.BinaryExpression
-import prog8.ast.processing.AstWalker
-import prog8.ast.processing.IAstModification
-import prog8.ast.statements.Assignment
-import prog8.ast.statements.PostIncrDecr
-
-
-
-internal class AssignmentTransformer(val program: Program, val errors: ErrorReporter) : AstWalker() {
-
-    var optimizationsDone: Int = 0
-    private val noModifications = emptyList<IAstModification>()
-
-    override fun before(assignment: Assignment, parent: Node): Iterable<IAstModification> {
-        // modify A = A + 5 back into augmented form A += 5 for easier code generation for optimized in-place assignments
-        // also to put code generation stuff together, single value assignment (A = 5) is converted to a special
-        // augmented form as wel (with the operator "setvalue")
-        if (assignment.aug_op == null) {
-            val binExpr = assignment.value as? BinaryExpression
-            if (binExpr != null) {
-                if (assignment.target.isSameAs(binExpr.left)) {
-                    assignment.value = binExpr.right
-                    assignment.aug_op = binExpr.operator + "="
-                    assignment.value.parent = assignment
-                    optimizationsDone++
-                    return noModifications
-                }
-            }
-            assignment.aug_op = "setvalue"
-            optimizationsDone++
-        } else if(assignment.aug_op == "+=") {
-            val binExpr = assignment.value as? BinaryExpression
-            if (binExpr != null) {
-                val leftnum = binExpr.left.constValue(program)?.number?.toDouble()
-                val rightnum = binExpr.right.constValue(program)?.number?.toDouble()
-                if(binExpr.operator == "+") {
-                    when {
-                        leftnum == 1.0 -> {
-                            optimizationsDone++
-                            return listOf(IAstModification.SwapOperands(binExpr))
-                        }
-                        leftnum == 2.0 -> {
-                            optimizationsDone++
-                            return listOf(IAstModification.SwapOperands(binExpr))
-                        }
-                        rightnum == 1.0 -> {
-                            // x += y + 1  -> x += y ,  x++
-                            return listOf(
-                                    IAstModification.ReplaceNode(assignment.value, binExpr.left, assignment),
-                                    IAstModification.InsertAfter(assignment, PostIncrDecr(assignment.target, "++", assignment.position), parent)
-                            )
-                        }
-                        rightnum == 2.0 -> {
-                            // x += y + 2  -> x += y ,  x++,  x++
-                            return listOf(
-                                    IAstModification.ReplaceNode(assignment.value, binExpr.left, assignment),
-                                    IAstModification.InsertAfter(assignment, PostIncrDecr(assignment.target, "++", assignment.position), parent),
-                                    IAstModification.InsertAfter(assignment, PostIncrDecr(assignment.target, "++", assignment.position), parent)
-                            )
-                        }
-                    }
-                } else if(binExpr.operator == "-") {
-                    when {
-                        leftnum == 1.0 -> {
-                            optimizationsDone++
-                            return listOf(IAstModification.SwapOperands(binExpr))
-                        }
-                        leftnum == 2.0 -> {
-                            optimizationsDone++
-                            return listOf(IAstModification.SwapOperands(binExpr))
-                        }
-                        rightnum == 1.0 -> {
-                            // x += y - 1  -> x += y ,  x--
-                            return listOf(
-                                    IAstModification.ReplaceNode(assignment.value, binExpr.left, assignment),
-                                    IAstModification.InsertAfter(assignment, PostIncrDecr(assignment.target, "--", assignment.position), parent)
-                            )
-                        }
-                        rightnum == 2.0 -> {
-                            // x += y - 2  -> x += y ,  x--,  x--
-                            return listOf(
-                                    IAstModification.ReplaceNode(assignment.value, binExpr.left, assignment),
-                                    IAstModification.InsertAfter(assignment, PostIncrDecr(assignment.target, "--", assignment.position), parent),
-                                    IAstModification.InsertAfter(assignment, PostIncrDecr(assignment.target, "--", assignment.position), parent)
-                            )
-                        }
-                    }
-                }
-            }
-        } else if(assignment.aug_op == "-=") {
-            val binExpr = assignment.value as? BinaryExpression
-            if (binExpr != null) {
-                val leftnum = binExpr.left.constValue(program)?.number?.toDouble()
-                val rightnum = binExpr.right.constValue(program)?.number?.toDouble()
-                if(binExpr.operator == "+") {
-                    when {
-                        leftnum == 1.0 -> {
-                            optimizationsDone++
-                            return listOf(IAstModification.SwapOperands(binExpr))
-                        }
-                        leftnum == 2.0 -> {
-                            optimizationsDone++
-                            return listOf(IAstModification.SwapOperands(binExpr))
-                        }
-                        rightnum == 1.0 -> {
-                            // x -= y + 1  -> x -= y ,  x--
-                            return listOf(
-                                    IAstModification.ReplaceNode(assignment.value, binExpr.left, assignment),
-                                    IAstModification.InsertAfter(assignment, PostIncrDecr(assignment.target, "--", assignment.position), parent)
-                            )
-                        }
-                        rightnum == 2.0 -> {
-                            // x -= y + 2  -> x -= y ,  x--,  x--
-                            return listOf(
-                                    IAstModification.ReplaceNode(assignment.value, binExpr.left, assignment),
-                                    IAstModification.InsertAfter(assignment, PostIncrDecr(assignment.target, "--", assignment.position), parent),
-                                    IAstModification.InsertAfter(assignment, PostIncrDecr(assignment.target, "--", assignment.position), parent)
-                            )
-                        }
-                    }
-                } else if(binExpr.operator == "-") {
-                    when {
-                        leftnum == 1.0 -> {
-                            optimizationsDone++
-                            return listOf(IAstModification.SwapOperands(binExpr))
-                        }
-                        leftnum == 2.0 -> {
-                            optimizationsDone++
-                            return listOf(IAstModification.SwapOperands(binExpr))
-                        }
-                        rightnum == 1.0 -> {
-                            // x -= y - 1  -> x -= y ,  x++
-                            return listOf(
-                                    IAstModification.ReplaceNode(assignment.value, binExpr.left, assignment),
-                                    IAstModification.InsertAfter(assignment, PostIncrDecr(assignment.target, "++", assignment.position), parent)
-                            )
-                        }
-                        rightnum == 2.0 -> {
-                            // x -= y - 2  -> x -= y ,  x++,  x++
-                            return listOf(
-                                    IAstModification.ReplaceNode(assignment.value, binExpr.left, assignment),
-                                    IAstModification.InsertAfter(assignment, PostIncrDecr(assignment.target, "++", assignment.position), parent),
-                                    IAstModification.InsertAfter(assignment, PostIncrDecr(assignment.target, "++", assignment.position), parent)
-                            )
-                        }
-                    }
-                }
-            }
-        }
-        return noModifications
-    }
-}

compiler/src/prog8/optimizer/BinExprSplitter.kt

@@ -0,0 +1,87 @@
+package prog8.optimizer
+
+import prog8.ast.INameScope
+import prog8.ast.Node
+import prog8.ast.Program
+import prog8.ast.expressions.*
+import prog8.ast.processing.AstWalker
+import prog8.ast.processing.IAstModification
+import prog8.ast.statements.AssignTarget
+import prog8.ast.statements.Assignment
+
+
+internal class BinExprSplitter(private val program: Program) : AstWalker() {
+    private val noModifications = emptyList<IAstModification>()
+
+//    override fun after(decl: VarDecl, parent: Node): Iterable<IAstModification> {
+// TODO somehow if we do this, the resulting code for some programs (cube3d.p8) gets hundreds of bytes larger...:
+//        if(decl.type==VarDeclType.VAR ) {
+//            val binExpr = decl.value as? BinaryExpression
+//            if (binExpr != null && binExpr.operator in augmentAssignmentOperators) {
+//                // split into a vardecl with just the left expression, and an aug. assignment with the right expression.
+//                val augExpr = BinaryExpression(IdentifierReference(listOf(decl.name), decl.position), binExpr.operator, binExpr.right, binExpr.position)
+//                val target = AssignTarget(IdentifierReference(listOf(decl.name), decl.position), null, null, decl.position)
+//                val assign = Assignment(target, augExpr, binExpr.position)
+//                println("SPLIT VARDECL $decl")
+//                return listOf(
+//                        IAstModification.SetExpression({ decl.value = it }, binExpr.left, decl),
+//                        IAstModification.InsertAfter(decl, assign, parent)
+//                )
+//            }
+//        }
+//        return noModifications
+//    }
+
+    override fun after(assignment: Assignment, parent: Node): Iterable<IAstModification> {
+
+        val binExpr = assignment.value as? BinaryExpression
+        if (binExpr != null) {
+/*
+
+Reduce the complexity of a (binary) expression that has to be evaluated on the eval stack,
+by attempting to splitting it up into individual simple steps.
+We only consider a binary expression *one* level deep (so the operands must not be a combined expression)
+
+
+X =      BinExpr                                    X   =   LeftExpr
+        <operator>                                     followed by
+          /   \             IF 'X' not used         X   =   BinExpr
+         /     \             IN expression ==>             <operator>
+        /       \                                           /   \
+    LeftExpr.  RightExpr.                                  /     \
+                                                          X     RightExpr.
+
+
+ */
+            if(binExpr.operator in augmentAssignmentOperators && isSimpleTarget(assignment.target, program.namespace)) {
+                if(assignment.target isSameAs binExpr.left || assignment.target isSameAs binExpr.right)
+                    return noModifications
+
+                if(isSimpleExpression(binExpr.right) && !assignment.isAugmentable) {
+                    val firstAssign = Assignment(assignment.target, binExpr.left, binExpr.left.position)
+                    val targetExpr = assignment.target.toExpression()
+                    val augExpr = BinaryExpression(targetExpr, binExpr.operator, binExpr.right, binExpr.right.position)
+                    return listOf(
+                            IAstModification.InsertBefore(assignment, firstAssign, assignment.definingScope()),
+                            IAstModification.ReplaceNode(assignment.value, augExpr, assignment))
+                }
+            }
+
+            // TODO further unraveling of binary expression trees into flat statements.
+            // however this should probably be done in a more generic way to also service
+            // the expressiontrees that are not used in an assignment statement...
+        }
+
+        return noModifications
+    }
+
+    private fun isSimpleExpression(expr: Expression) =
+            expr is IdentifierReference || expr is NumericLiteralValue || expr is AddressOf || expr is DirectMemoryRead || expr is StringLiteralValue || expr is ArrayLiteralValue || expr is RangeExpr
+
+    private fun isSimpleTarget(target: AssignTarget, namespace: INameScope) =
+            if (target.identifier!=null || target.memoryAddress!=null)
+                target.isInRegularRAM(namespace)
+            else
+                false
+
+}

compiler/src/prog8/optimizer/CallGraph.kt

@@ -1,11 +1,10 @@
 package prog8.optimizer
 
-import prog8.ast.INameScope
-import prog8.ast.Module
-import prog8.ast.Node
-import prog8.ast.Program
+import prog8.ast.*
 import prog8.ast.base.DataType
+import prog8.ast.base.ErrorReporter
 import prog8.ast.base.ParentSentinel
+import prog8.ast.base.Position
 import prog8.ast.expressions.FunctionCall
 import prog8.ast.expressions.IdentifierReference
 import prog8.ast.processing.IAstVisitor
@@ -14,8 +13,7 @@ import prog8.compiler.loadAsmIncludeFile
 
 private val alwaysKeepSubroutines = setOf(
         Pair("main", "start"),
-        Pair("irq", "irq"),
-        Pair("prog8_lib", "init_system")
+        Pair("irq", "irq")
 )
 
 private val asmJumpRx = Regex("""[\-+a-zA-Z0-9_ \t]+(jmp|jsr)[ \t]+(\S+).*""", RegexOption.IGNORE_CASE)
@@ -26,7 +24,7 @@ class CallGraph(private val program: Program) : IAstVisitor {
 
     val imports = mutableMapOf<Module, List<Module>>().withDefault { mutableListOf() }
     val importedBy = mutableMapOf<Module, List<Module>>().withDefault { mutableListOf() }
-    val calls = mutableMapOf<INameScope, List<Subroutine>>().withDefault { mutableListOf() }
+    val calls = mutableMapOf<Subroutine, List<Subroutine>>().withDefault { mutableListOf() }
     val calledBy = mutableMapOf<Subroutine, List<Node>>().withDefault { mutableListOf() }
 
     // TODO  add dataflow graph: what statements use what variables - can be used to eliminate unused vars
@@ -80,8 +78,10 @@ class CallGraph(private val program: Program) : IAstVisitor {
             importedBy[importedModule] = importedBy.getValue(importedModule).plus(thisModule)
         } else if (directive.directive == "%asminclude") {
             val asm = loadAsmIncludeFile(directive.args[0].str!!, thisModule.source)
-            val scope = directive.definingScope()
-            scanAssemblyCode(asm, directive, scope)
+            val scope = directive.definingSubroutine()
+            if(scope!=null) {
+                scanAssemblyCode(asm, directive, scope)
+            }
         }
 
         super.visit(directive)
@@ -168,12 +168,12 @@ class CallGraph(private val program: Program) : IAstVisitor {
 
     override fun visit(inlineAssembly: InlineAssembly) {
         // parse inline asm for subroutine calls (jmp, jsr)
-        val scope = inlineAssembly.definingScope()
+        val scope = inlineAssembly.definingSubroutine()
         scanAssemblyCode(inlineAssembly.assembly, inlineAssembly, scope)
         super.visit(inlineAssembly)
     }
 
-    private fun scanAssemblyCode(asm: String, context: Statement, scope: INameScope) {
+    private fun scanAssemblyCode(asm: String, context: Statement, scope: Subroutine?) {
         asm.lines().forEach { line ->
             val matches = asmJumpRx.matchEntire(line)
             if (matches != null) {
@@ -181,13 +181,15 @@ class CallGraph(private val program: Program) : IAstVisitor {
                 if (jumptarget != null && (jumptarget[0].isLetter() || jumptarget[0] == '_')) {
                     val node = program.namespace.lookup(jumptarget.split('.'), context)
                     if (node is Subroutine) {
-                        calls[scope] = calls.getValue(scope).plus(node)
+                        if(scope!=null)
+                            calls[scope] = calls.getValue(scope).plus(node)
                         calledBy[node] = calledBy.getValue(node).plus(context)
                     } else if (jumptarget.contains('.')) {
                         // maybe only the first part already refers to a subroutine
                         val node2 = program.namespace.lookup(listOf(jumptarget.substringBefore('.')), context)
                         if (node2 is Subroutine) {
-                            calls[scope] = calls.getValue(scope).plus(node2)
+                            if(scope!=null)
+                                calls[scope] = calls.getValue(scope).plus(node2)
                             calledBy[node2] = calledBy.getValue(node2).plus(context)
                         }
                     }
@@ -200,7 +202,8 @@ class CallGraph(private val program: Program) : IAstVisitor {
                         if (target.contains('.')) {
                             val node = program.namespace.lookup(listOf(target.substringBefore('.')), context)
                             if (node is Subroutine) {
-                                calls[scope] = calls.getValue(scope).plus(node)
+                                if(scope!=null)
+                                    calls[scope] = calls.getValue(scope).plus(node)
                                 calledBy[node] = calledBy.getValue(node).plus(context)
                             }
                         }
@@ -209,4 +212,55 @@ class CallGraph(private val program: Program) : IAstVisitor {
             }
         }
     }
+
+    fun checkRecursiveCalls(errors: ErrorReporter) {
+        val cycles = recursionCycles()
+        if(cycles.any()) {
+            errors.warn("Program contains recursive subroutine calls. These only works in very specific limited scenarios!", Position.DUMMY)
+            val printed = mutableSetOf<Subroutine>()
+            for(chain in cycles) {
+                if(chain[0] !in printed) {
+                    val chainStr = chain.joinToString(" <-- ") { "${it.name} at ${it.position}" }
+                    errors.warn("Cycle in (a subroutine call in) $chainStr", Position.DUMMY)
+                    printed.add(chain[0])
+                }
+            }
+        }
+    }
+
+    private fun recursionCycles(): List<List<Subroutine>> {
+        val chains = mutableListOf<MutableList<Subroutine>>()
+        for(caller in calls.keys) {
+            val visited = calls.keys.associateWith { false }.toMutableMap()
+            val recStack = calls.keys.associateWith { false }.toMutableMap()
+            val chain = mutableListOf<Subroutine>()
+            if(hasCycle(caller, visited, recStack, chain))
+                chains.add(chain)
+        }
+        return chains
+    }
+
+    private fun hasCycle(sub: Subroutine, visited: MutableMap<Subroutine, Boolean>, recStack: MutableMap<Subroutine, Boolean>, chain: MutableList<Subroutine>): Boolean {
+        // mark current node as visited and add to recursion stack
+        if(recStack[sub]==true)
+            return true
+        if(visited[sub]==true)
+            return false
+
+        // mark visited and add to recursion stack
+        visited[sub] = true
+        recStack[sub] = true
+
+        // recurse for all neighbours
+        for(called in calls.getValue(sub)) {
+            if(hasCycle(called, visited, recStack, chain)) {
+                chain.add(called)
+                return true
+            }
+        }
+
+        // pop from recursion stack
+        recStack[sub] = false
+        return false
+    }
 }

compiler/src/prog8/optimizer/ConstExprEvaluator.kt

@@ -132,11 +132,11 @@ class ConstExprEvaluator {
     private fun bitwiseand(left: NumericLiteralValue, right: NumericLiteralValue): NumericLiteralValue {
         if(left.type== DataType.UBYTE) {
             if(right.type in IntegerDatatypes) {
-                return NumericLiteralValue(DataType.UBYTE, (left.number.toInt() or (right.number.toInt() and 255)).toShort(), left.position)
+                return NumericLiteralValue(DataType.UBYTE, (left.number.toInt() and (right.number.toInt() and 255)).toShort(), left.position)
             }
         } else if(left.type== DataType.UWORD) {
             if(right.type in IntegerDatatypes) {
-                return NumericLiteralValue(DataType.UWORD, left.number.toInt() or right.number.toInt(), left.position)
+                return NumericLiteralValue(DataType.UWORD, left.number.toInt() and right.number.toInt(), left.position)
             }
         }
         throw ExpressionError("cannot calculate $left & $right", left.position)
@@ -163,7 +163,7 @@ class ConstExprEvaluator {
         val error = "cannot add $left and $right"
         return when (left.type) {
             in IntegerDatatypes -> when (right.type) {
-                in IntegerDatatypes -> NumericLiteralValue.optimalNumeric(left.number.toInt() + right.number.toInt(), left.position)
+                in IntegerDatatypes -> NumericLiteralValue.optimalInteger(left.number.toInt() + right.number.toInt(), left.position)
                 DataType.FLOAT -> NumericLiteralValue(DataType.FLOAT, left.number.toInt() + right.number.toDouble(), left.position)
                 else -> throw ExpressionError(error, left.position)
             }
@@ -180,7 +180,7 @@ class ConstExprEvaluator {
         val error = "cannot subtract $left and $right"
         return when (left.type) {
             in IntegerDatatypes -> when (right.type) {
-                in IntegerDatatypes -> NumericLiteralValue.optimalNumeric(left.number.toInt() - right.number.toInt(), left.position)
+                in IntegerDatatypes -> NumericLiteralValue.optimalInteger(left.number.toInt() - right.number.toInt(), left.position)
                 DataType.FLOAT -> NumericLiteralValue(DataType.FLOAT, left.number.toInt() - right.number.toDouble(), left.position)
                 else -> throw ExpressionError(error, left.position)
             }
@@ -197,7 +197,7 @@ class ConstExprEvaluator {
         val error = "cannot multiply ${left.type} and ${right.type}"
         return when (left.type) {
             in IntegerDatatypes -> when (right.type) {
-                in IntegerDatatypes -> NumericLiteralValue.optimalNumeric(left.number.toInt() * right.number.toInt(), left.position)
+                in IntegerDatatypes -> NumericLiteralValue.optimalInteger(left.number.toInt() * right.number.toInt(), left.position)
                 DataType.FLOAT -> NumericLiteralValue(DataType.FLOAT, left.number.toInt() * right.number.toDouble(), left.position)
                 else -> throw ExpressionError(error, left.position)
             }
@@ -220,7 +220,7 @@ class ConstExprEvaluator {
                 in IntegerDatatypes -> {
                     if(right.number.toInt()==0) divideByZeroError(right.position)
                     val result: Int = left.number.toInt() / right.number.toInt()
-                    NumericLiteralValue.optimalNumeric(result, left.position)
+                    NumericLiteralValue.optimalInteger(result, left.position)
                 }
                 DataType.FLOAT -> {
                     if(right.number.toDouble()==0.0) divideByZeroError(right.position)

compiler/src/prog8/optimizer/ConstantFoldingOptimizer.kt

@@ -7,179 +7,9 @@ import prog8.ast.expressions.*
 import prog8.ast.processing.AstWalker
 import prog8.ast.processing.IAstModification
 import prog8.ast.statements.*
-import prog8.compiler.target.CompilationTarget
 
 
-// First thing to do is replace all constant identifiers with their actual value,
-// and the array var initializer values and sizes.
-// This is needed because further constant optimizations depend on those.
-internal class ConstantIdentifierReplacer(private val program: Program, private val errors: ErrorReporter) : AstWalker() {
-    private val noModifications = emptyList<IAstModification>()
-
-    override fun after(identifier: IdentifierReference, parent: Node): Iterable<IAstModification> {
-        // replace identifiers that refer to const value, with the value itself
-        // if it's a simple type and if it's not a left hand side variable
-        if(identifier.parent is AssignTarget)
-            return noModifications
-        var forloop = identifier.parent as? ForLoop
-        if(forloop==null)
-            forloop = identifier.parent.parent as? ForLoop
-        if(forloop!=null && identifier===forloop.loopVar)
-            return noModifications
-
-        val cval = identifier.constValue(program) ?: return noModifications
-        return when (cval.type) {
-            in NumericDatatypes -> listOf(IAstModification.ReplaceNode(identifier, NumericLiteralValue(cval.type, cval.number, identifier.position), identifier.parent))
-            in PassByReferenceDatatypes -> throw FatalAstException("pass-by-reference type should not be considered a constant")
-            else -> noModifications
-        }
-    }
-
-    override fun before(decl: VarDecl, parent: Node): Iterable<IAstModification> {
-        // the initializer value can't refer to the variable itself (recursive definition)
-        // TODO: use call graph for this?
-        if(decl.value?.referencesIdentifiers(decl.name) == true || decl.arraysize?.index?.referencesIdentifiers(decl.name) == true) {
-            errors.err("recursive var declaration", decl.position)
-            return noModifications
-        }
-
-        if(decl.type==VarDeclType.CONST || decl.type==VarDeclType.VAR) {
-            if(decl.isArray){
-                if(decl.arraysize==null) {
-                    // for arrays that have no size specifier (or a non-constant one) attempt to deduce the size
-                    val arrayval = decl.value as? ArrayLiteralValue
-                    if(arrayval!=null) {
-                        return listOf(IAstModification.SetExpression(
-                                { decl.arraysize = ArrayIndex(it, decl.position) },
-                                NumericLiteralValue.optimalInteger(arrayval.value.size, decl.position),
-                                decl
-                        ))
-                    }
-                }
-                else if(decl.arraysize?.size()==null) {
-                    val size = decl.arraysize!!.index.constValue(program)
-                    if(size!=null) {
-                        return listOf(IAstModification.SetExpression(
-                                { decl.arraysize = ArrayIndex(it, decl.position) },
-                                size, decl
-                        ))
-                    }
-                }
-            }
-
-            when(decl.datatype) {
-                DataType.FLOAT -> {
-                    // vardecl: for scalar float vars, promote constant integer initialization values to floats
-                    val litval = decl.value as? NumericLiteralValue
-                    if (litval!=null && litval.type in IntegerDatatypes) {
-                        val newValue = NumericLiteralValue(DataType.FLOAT, litval.number.toDouble(), litval.position)
-                        return listOf(IAstModification.ReplaceNode(decl.value!!, newValue, decl))
-                    }
-                }
-                DataType.ARRAY_UB, DataType.ARRAY_B, DataType.ARRAY_UW, DataType.ARRAY_W -> {
-                    val numericLv = decl.value as? NumericLiteralValue
-                    val rangeExpr = decl.value as? RangeExpr
-                    if(rangeExpr!=null) {
-                        // convert the initializer range expression to an actual array
-                        val declArraySize = decl.arraysize?.size()
-                        if(declArraySize!=null && declArraySize!=rangeExpr.size())
-                            errors.err("range expression size doesn't match declared array size", decl.value?.position!!)
-                        val constRange = rangeExpr.toConstantIntegerRange()
-                        if(constRange!=null) {
-                            val eltType = rangeExpr.inferType(program).typeOrElse(DataType.UBYTE)
-                            val newValue = if(eltType in ByteDatatypes) {
-                                ArrayLiteralValue(InferredTypes.InferredType.known(decl.datatype),
-                                        constRange.map { NumericLiteralValue(eltType, it.toShort(), decl.value!!.position) }.toTypedArray(),
-                                        position = decl.value!!.position)
-                            } else {
-                                ArrayLiteralValue(InferredTypes.InferredType.known(decl.datatype),
-                                        constRange.map { NumericLiteralValue(eltType, it, decl.value!!.position) }.toTypedArray(),
-                                        position = decl.value!!.position)
-                            }
-                            return listOf(IAstModification.ReplaceNode(decl.value!!, newValue, decl))
-                        }
-                    }
-                    if(numericLv!=null && numericLv.type==DataType.FLOAT)
-                        errors.err("arraysize requires only integers here", numericLv.position)
-                    val size = decl.arraysize?.size() ?: return noModifications
-                    if (rangeExpr==null && numericLv!=null) {
-                        // arraysize initializer is empty or a single int, and we know the size; create the arraysize.
-                        val fillvalue = numericLv.number.toInt()
-                        when(decl.datatype){
-                            DataType.ARRAY_UB -> {
-                                if(fillvalue !in 0..255)
-                                    errors.err("ubyte value overflow", numericLv.position)
-                            }
-                            DataType.ARRAY_B -> {
-                                if(fillvalue !in -128..127)
-                                    errors.err("byte value overflow", numericLv.position)
-                            }
-                            DataType.ARRAY_UW -> {
-                                if(fillvalue !in 0..65535)
-                                    errors.err("uword value overflow", numericLv.position)
-                            }
-                            DataType.ARRAY_W -> {
-                                if(fillvalue !in -32768..32767)
-                                    errors.err("word value overflow", numericLv.position)
-                            }
-                            else -> {}
-                        }
-                        // create the array itself, filled with the fillvalue.
-                        val array = Array(size) {fillvalue}.map { NumericLiteralValue(ArrayElementTypes.getValue(decl.datatype), it, numericLv.position) as Expression}.toTypedArray()
-                        val refValue = ArrayLiteralValue(InferredTypes.InferredType.known(decl.datatype), array, position = numericLv.position)
-                        return listOf(IAstModification.ReplaceNode(decl.value!!, refValue, decl))
-                    }
-                }
-                DataType.ARRAY_F  -> {
-                    val size = decl.arraysize?.size() ?: return noModifications
-                    val litval = decl.value as? NumericLiteralValue
-                    val rangeExpr = decl.value as? RangeExpr
-                    if(rangeExpr!=null) {
-                        // convert the initializer range expression to an actual array of floats
-                        val declArraySize = decl.arraysize?.size()
-                        if(declArraySize!=null && declArraySize!=rangeExpr.size())
-                            errors.err("range expression size doesn't match declared array size", decl.value?.position!!)
-                        val constRange = rangeExpr.toConstantIntegerRange()
-                        if(constRange!=null) {
-                            val newValue = ArrayLiteralValue(InferredTypes.InferredType.known(DataType.ARRAY_F),
-                                        constRange.map { NumericLiteralValue(DataType.FLOAT, it.toDouble(), decl.value!!.position) }.toTypedArray(),
-                                        position = decl.value!!.position)
-                            return listOf(IAstModification.ReplaceNode(decl.value!!, newValue, decl))
-                        }
-                    }
-                    if(rangeExpr==null && litval!=null) {
-                        // arraysize initializer is a single int, and we know the size.
-                        val fillvalue = litval.number.toDouble()
-                        if (fillvalue < CompilationTarget.machine.FLOAT_MAX_NEGATIVE || fillvalue > CompilationTarget.machine.FLOAT_MAX_POSITIVE)
-                            errors.err("float value overflow", litval.position)
-                        else {
-                            // create the array itself, filled with the fillvalue.
-                            val array = Array(size) {fillvalue}.map { NumericLiteralValue(DataType.FLOAT, it, litval.position) as Expression}.toTypedArray()
-                            val refValue = ArrayLiteralValue(InferredTypes.InferredType.known(DataType.ARRAY_F), array, position = litval.position)
-                            return listOf(IAstModification.ReplaceNode(decl.value!!, refValue, decl))
-                        }
-                    }
-                }
-                else -> {
-                    // nothing to do for this type
-                    // this includes strings and structs
-                }
-            }
-        }
-
-        val declValue = decl.value
-        if(declValue!=null && decl.type==VarDeclType.VAR
-                && declValue is NumericLiteralValue && !declValue.inferType(program).istype(decl.datatype)) {
-            // cast the numeric literal to the appropriate datatype of the variable
-            return listOf(IAstModification.ReplaceNode(decl.value!!, declValue.cast(decl.datatype), decl))
-        }
-
-        return noModifications
-    }
-}
-
-
-internal class ConstantFoldingOptimizer(private val program: Program, private val errors: ErrorReporter) : AstWalker() {
+internal class ConstantFoldingOptimizer(private val program: Program) : AstWalker() {
     private val noModifications = emptyList<IAstModification>()
 
     override fun before(memread: DirectMemoryRead, parent: Node): Iterable<IAstModification> {
@@ -203,7 +33,7 @@ internal class ConstantFoldingOptimizer(private val program: Program, private va
                 "-" -> when (subexpr.type) {
                     in IntegerDatatypes -> {
                         listOf(IAstModification.ReplaceNode(expr,
-                                NumericLiteralValue.optimalNumeric(-subexpr.number.toInt(), subexpr.position),
+                                NumericLiteralValue.optimalInteger(-subexpr.number.toInt(), subexpr.position),
                                 parent))
                     }
                     DataType.FLOAT -> {
@@ -214,9 +44,24 @@ internal class ConstantFoldingOptimizer(private val program: Program, private va
                     else -> throw ExpressionError("can only take negative of int or float", subexpr.position)
                 }
                 "~" -> when (subexpr.type) {
-                    in IntegerDatatypes -> {
+                    DataType.BYTE -> {
                         listOf(IAstModification.ReplaceNode(expr,
-                                NumericLiteralValue.optimalNumeric(subexpr.number.toInt().inv(), subexpr.position),
+                                NumericLiteralValue(DataType.BYTE, subexpr.number.toInt().inv(), subexpr.position),
+                                parent))
+                    }
+                    DataType.UBYTE -> {
+                        listOf(IAstModification.ReplaceNode(expr,
+                                NumericLiteralValue(DataType.UBYTE, subexpr.number.toInt().inv() and 255, subexpr.position),
+                                parent))
+                    }
+                    DataType.WORD -> {
+                        listOf(IAstModification.ReplaceNode(expr,
+                                NumericLiteralValue(DataType.WORD, subexpr.number.toInt().inv(), subexpr.position),
+                                parent))
+                    }
+                    DataType.UWORD -> {
+                        listOf(IAstModification.ReplaceNode(expr,
+                                NumericLiteralValue(DataType.UWORD, subexpr.number.toInt().inv() and 65535, subexpr.position),
                                 parent))
                     }
                     else -> throw ExpressionError("can only take bitwise inversion of int", subexpr.position)
@@ -273,11 +118,8 @@ internal class ConstantFoldingOptimizer(private val program: Program, private va
         // const fold when both operands are a const
         if(leftconst != null && rightconst != null) {
             val evaluator = ConstExprEvaluator()
-            return listOf(IAstModification.ReplaceNode(
-                    expr,
-                    evaluator.evaluate(leftconst, expr.operator, rightconst),
-                    parent
-            ))
+            val result = evaluator.evaluate(leftconst, expr.operator, rightconst)
+            return listOf(IAstModification.ReplaceNode(expr, result, parent))
         }
 
         return noModifications
@@ -319,21 +161,24 @@ internal class ConstantFoldingOptimizer(private val program: Program, private va
     }
 
     override fun after(forLoop: ForLoop, parent: Node): Iterable<IAstModification> {
-        fun adjustRangeDt(rangeFrom: NumericLiteralValue, targetDt: DataType, rangeTo: NumericLiteralValue, stepLiteral: NumericLiteralValue?, range: RangeExpr): RangeExpr {
-            val newFrom: NumericLiteralValue
-            val newTo: NumericLiteralValue
-            try {
-                newFrom = rangeFrom.cast(targetDt)
-                newTo = rangeTo.cast(targetDt)
-            } catch (x: ExpressionError) {
-                return range
-            }
-            val newStep: Expression = try {
-                stepLiteral?.cast(targetDt)?: range.step
-            } catch(ee: ExpressionError) {
-                range.step
-            }
-            return RangeExpr(newFrom, newTo, newStep, range.position)
+        fun adjustRangeDt(rangeFrom: NumericLiteralValue, targetDt: DataType, rangeTo: NumericLiteralValue, stepLiteral: NumericLiteralValue?, range: RangeExpr): RangeExpr? {
+            val fromCast = rangeFrom.cast(targetDt)
+            val toCast = rangeTo.cast(targetDt)
+            if(!fromCast.isValid || !toCast.isValid)
+                return null
+
+            val newStep =
+                if(stepLiteral!=null) {
+                    val stepCast = stepLiteral.cast(targetDt)
+                    if(stepCast.isValid)
+                        stepCast.valueOrZero()
+                    else
+                        range.step
+                } else {
+                    range.step
+                }
+
+            return RangeExpr(fromCast.valueOrZero(), toCast.valueOrZero(), newStep, range.position)
         }
 
         // adjust the datatype of a range expression in for loops to the loop variable.
@@ -342,45 +187,60 @@ internal class ConstantFoldingOptimizer(private val program: Program, private va
         val rangeTo = iterableRange.to as? NumericLiteralValue
         if(rangeFrom==null || rangeTo==null) return noModifications
 
-        val loopvar = forLoop.loopVar?.targetVarDecl(program.namespace)
-        if(loopvar!=null) {
-            val stepLiteral = iterableRange.step as? NumericLiteralValue
-            when(loopvar.datatype) {
-                DataType.UBYTE -> {
-                    if(rangeFrom.type!= DataType.UBYTE) {
-                        // attempt to translate the iterable into ubyte values
-                        val newIter = adjustRangeDt(rangeFrom, loopvar.datatype, rangeTo, stepLiteral, iterableRange)
+        val loopvar = forLoop.loopVar.targetVarDecl(program.namespace)!!
+        val stepLiteral = iterableRange.step as? NumericLiteralValue
+        when(loopvar.datatype) {
+            DataType.UBYTE -> {
+                if(rangeFrom.type!= DataType.UBYTE) {
+                    // attempt to translate the iterable into ubyte values
+                    val newIter = adjustRangeDt(rangeFrom, loopvar.datatype, rangeTo, stepLiteral, iterableRange)
+                    if(newIter!=null)
                         return listOf(IAstModification.ReplaceNode(forLoop.iterable, newIter, forLoop))
-                    }
                 }
-                DataType.BYTE -> {
-                    if(rangeFrom.type!= DataType.BYTE) {
-                        // attempt to translate the iterable into byte values
-                        val newIter = adjustRangeDt(rangeFrom, loopvar.datatype, rangeTo, stepLiteral, iterableRange)
-                        return listOf(IAstModification.ReplaceNode(forLoop.iterable, newIter, forLoop))
-                    }
-                }
-                DataType.UWORD -> {
-                    if(rangeFrom.type!= DataType.UWORD) {
-                        // attempt to translate the iterable into uword values
-                        val newIter = adjustRangeDt(rangeFrom, loopvar.datatype, rangeTo, stepLiteral, iterableRange)
-                        return listOf(IAstModification.ReplaceNode(forLoop.iterable, newIter, forLoop))
-                    }
-                }
-                DataType.WORD -> {
-                    if(rangeFrom.type!= DataType.WORD) {
-                        // attempt to translate the iterable into word values
-                        val newIter = adjustRangeDt(rangeFrom, loopvar.datatype, rangeTo, stepLiteral, iterableRange)
-                        return listOf(IAstModification.ReplaceNode(forLoop.iterable, newIter, forLoop))
-                    }
-                }
-                else -> throw FatalAstException("invalid loopvar datatype $loopvar")
             }
+            DataType.BYTE -> {
+                if(rangeFrom.type!= DataType.BYTE) {
+                    // attempt to translate the iterable into byte values
+                    val newIter = adjustRangeDt(rangeFrom, loopvar.datatype, rangeTo, stepLiteral, iterableRange)
+                    if(newIter!=null)
+                        return listOf(IAstModification.ReplaceNode(forLoop.iterable, newIter, forLoop))
+                }
+            }
+            DataType.UWORD -> {
+                if(rangeFrom.type!= DataType.UWORD) {
+                    // attempt to translate the iterable into uword values
+                    val newIter = adjustRangeDt(rangeFrom, loopvar.datatype, rangeTo, stepLiteral, iterableRange)
+                    if(newIter!=null)
+                        return listOf(IAstModification.ReplaceNode(forLoop.iterable, newIter, forLoop))
+                }
+            }
+            DataType.WORD -> {
+                if(rangeFrom.type!= DataType.WORD) {
+                    // attempt to translate the iterable into word values
+                    val newIter = adjustRangeDt(rangeFrom, loopvar.datatype, rangeTo, stepLiteral, iterableRange)
+                    if(newIter!=null)
+                        return listOf(IAstModification.ReplaceNode(forLoop.iterable, newIter, forLoop))
+                }
+            }
+            else -> throw FatalAstException("invalid loopvar datatype $loopvar")
         }
 
         return noModifications
     }
 
+    override fun after(decl: VarDecl, parent: Node): Iterable<IAstModification> {
+        val numval = decl.value as? NumericLiteralValue
+        if(decl.type== VarDeclType.CONST && numval!=null) {
+            val valueDt = numval.inferType(program)
+            if(!valueDt.istype(decl.datatype)) {
+                val cast = numval.cast(decl.datatype)
+                if(cast.isValid)
+                    return listOf(IAstModification.ReplaceNode(numval, cast.valueOrZero(), decl))
+            }
+        }
+        return noModifications
+    }
+
     private class ShuffleOperands(val expr: BinaryExpression,
                                   val exprOperator: String?,
                                   val subExpr: BinaryExpression,
@@ -408,8 +268,9 @@ internal class ConstantFoldingOptimizer(private val program: Program, private va
         // todo: this implements only a small set of possible reorderings at this time
         if(expr.operator==subExpr.operator) {
             // both operators are the same.
-            // If + or *,  we can simply shuffle the const operands around to optimize.
-            if(expr.operator=="+" || expr.operator=="*") {
+
+            // If associative,  we can simply shuffle the const operands around to optimize.
+            if(expr.operator in associativeOperators) {
                 return if(leftIsConst) {
                     if(subleftIsConst)
                         ShuffleOperands(expr, null, subExpr, subExpr.right, null, null, expr.left)

compiler/src/prog8/optimizer/ConstantIdentifierReplacer.kt

@@ -0,0 +1,192 @@
+package prog8.optimizer
+
+import prog8.ast.Node
+import prog8.ast.Program
+import prog8.ast.base.*
+import prog8.ast.expressions.*
+import prog8.ast.processing.AstWalker
+import prog8.ast.processing.IAstModification
+import prog8.ast.statements.ArrayIndex
+import prog8.ast.statements.AssignTarget
+import prog8.ast.statements.ForLoop
+import prog8.ast.statements.VarDecl
+import prog8.compiler.target.CompilationTarget
+
+// Fix up the literal value's type to match that of the vardecl
+internal class VarConstantValueTypeAdjuster(private val program: Program) : AstWalker() {
+    private val noModifications = emptyList<IAstModification>()
+
+    override fun after(decl: VarDecl, parent: Node): Iterable<IAstModification> {
+        val declConstValue = decl.value?.constValue(program)
+        if(declConstValue!=null && (decl.type==VarDeclType.VAR || decl.type==VarDeclType.CONST)
+                && !declConstValue.inferType(program).istype(decl.datatype)) {
+            // cast the numeric literal to the appropriate datatype of the variable
+            val cast = declConstValue.cast(decl.datatype)
+            if(cast.isValid)
+                return listOf(IAstModification.ReplaceNode(decl.value!!, cast.valueOrZero(), decl))
+        }
+        return noModifications
+    }
+}
+
+
+// Replace all constant identifiers with their actual value,
+// and the array var initializer values and sizes.
+// This is needed because further constant optimizations depend on those.
+internal class ConstantIdentifierReplacer(private val program: Program, private val errors: ErrorReporter) : AstWalker() {
+    private val noModifications = emptyList<IAstModification>()
+
+    override fun after(identifier: IdentifierReference, parent: Node): Iterable<IAstModification> {
+        // replace identifiers that refer to const value, with the value itself
+        // if it's a simple type and if it's not a left hand side variable
+        if(identifier.parent is AssignTarget)
+            return noModifications
+        var forloop = identifier.parent as? ForLoop
+        if(forloop==null)
+            forloop = identifier.parent.parent as? ForLoop
+        if(forloop!=null && identifier===forloop.loopVar)
+            return noModifications
+
+        val cval = identifier.constValue(program) ?: return noModifications
+        return when (cval.type) {
+            in NumericDatatypes -> listOf(IAstModification.ReplaceNode(identifier, NumericLiteralValue(cval.type, cval.number, identifier.position), identifier.parent))
+            in PassByReferenceDatatypes -> throw FatalAstException("pass-by-reference type should not be considered a constant")
+            else -> noModifications
+        }
+    }
+
+    override fun before(decl: VarDecl, parent: Node): Iterable<IAstModification> {
+        // the initializer value can't refer to the variable itself (recursive definition)
+        // TODO: use call graph for this?
+        if(decl.value?.referencesIdentifier(decl.name) == true || decl.arraysize?.indexVar?.referencesIdentifier(decl.name) == true) {
+            errors.err("recursive var declaration", decl.position)
+            return noModifications
+        }
+
+        if(decl.type== VarDeclType.CONST || decl.type== VarDeclType.VAR) {
+            if(decl.isArray){
+                val arraysize = decl.arraysize
+                if(arraysize==null) {
+                    // for arrays that have no size specifier attempt to deduce the size
+                    val arrayval = decl.value as? ArrayLiteralValue
+                    if(arrayval!=null) {
+                        return listOf(IAstModification.SetExpression(
+                                { decl.arraysize = ArrayIndex(it, decl.position) },
+                                NumericLiteralValue.optimalInteger(arrayval.value.size, decl.position),
+                                decl
+                        ))
+                    }
+                } else if(arraysize.constIndex()==null) {
+                    // see if we can calculate the size from other fields
+                    val cval = arraysize.indexVar?.constValue(program) ?: arraysize.origExpression?.constValue(program)
+                    if(cval!=null) {
+                        arraysize.indexVar = null
+                        arraysize.origExpression = null
+                        arraysize.indexNum = cval
+                    }
+                }
+            }
+
+            when(decl.datatype) {
+                DataType.FLOAT -> {
+                    // vardecl: for scalar float vars, promote constant integer initialization values to floats
+                    val litval = decl.value as? NumericLiteralValue
+                    if (litval!=null && litval.type in IntegerDatatypes) {
+                        val newValue = NumericLiteralValue(DataType.FLOAT, litval.number.toDouble(), litval.position)
+                        return listOf(IAstModification.ReplaceNode(decl.value!!, newValue, decl))
+                    }
+                }
+                DataType.ARRAY_UB, DataType.ARRAY_B, DataType.ARRAY_UW, DataType.ARRAY_W -> {
+                    val numericLv = decl.value as? NumericLiteralValue
+                    val rangeExpr = decl.value as? RangeExpr
+                    if(rangeExpr!=null) {
+                        // convert the initializer range expression to an actual array
+                        val declArraySize = decl.arraysize?.constIndex()
+                        if(declArraySize!=null && declArraySize!=rangeExpr.size())
+                            errors.err("range expression size doesn't match declared array size", decl.value?.position!!)
+                        val constRange = rangeExpr.toConstantIntegerRange()
+                        if(constRange!=null) {
+                            val eltType = rangeExpr.inferType(program).typeOrElse(DataType.UBYTE)
+                            val newValue = if(eltType in ByteDatatypes) {
+                                ArrayLiteralValue(InferredTypes.InferredType.known(decl.datatype),
+                                        constRange.map { NumericLiteralValue(eltType, it.toShort(), decl.value!!.position) }.toTypedArray(),
+                                        position = decl.value!!.position)
+                            } else {
+                                ArrayLiteralValue(InferredTypes.InferredType.known(decl.datatype),
+                                        constRange.map { NumericLiteralValue(eltType, it, decl.value!!.position) }.toTypedArray(),
+                                        position = decl.value!!.position)
+                            }
+                            return listOf(IAstModification.ReplaceNode(decl.value!!, newValue, decl))
+                        }
+                    }
+                    if(numericLv!=null && numericLv.type== DataType.FLOAT)
+                        errors.err("arraysize requires only integers here", numericLv.position)
+                    val size = decl.arraysize?.constIndex() ?: return noModifications
+                    if (rangeExpr==null && numericLv!=null) {
+                        // arraysize initializer is empty or a single int, and we know the size; create the arraysize.
+                        val fillvalue = numericLv.number.toInt()
+                        when(decl.datatype){
+                            DataType.ARRAY_UB -> {
+                                if(fillvalue !in 0..255)
+                                    errors.err("ubyte value overflow", numericLv.position)
+                            }
+                            DataType.ARRAY_B -> {
+                                if(fillvalue !in -128..127)
+                                    errors.err("byte value overflow", numericLv.position)
+                            }
+                            DataType.ARRAY_UW -> {
+                                if(fillvalue !in 0..65535)
+                                    errors.err("uword value overflow", numericLv.position)
+                            }
+                            DataType.ARRAY_W -> {
+                                if(fillvalue !in -32768..32767)
+                                    errors.err("word value overflow", numericLv.position)
+                            }
+                            else -> {}
+                        }
+                        // create the array itself, filled with the fillvalue.
+                        val array = Array(size) {fillvalue}.map { NumericLiteralValue(ArrayElementTypes.getValue(decl.datatype), it, numericLv.position) }.toTypedArray<Expression>()
+                        val refValue = ArrayLiteralValue(InferredTypes.InferredType.known(decl.datatype), array, position = numericLv.position)
+                        return listOf(IAstModification.ReplaceNode(decl.value!!, refValue, decl))
+                    }
+                }
+                DataType.ARRAY_F -> {
+                    val size = decl.arraysize?.constIndex() ?: return noModifications
+                    val litval = decl.value as? NumericLiteralValue
+                    val rangeExpr = decl.value as? RangeExpr
+                    if(rangeExpr!=null) {
+                        // convert the initializer range expression to an actual array of floats
+                        val declArraySize = decl.arraysize?.constIndex()
+                        if(declArraySize!=null && declArraySize!=rangeExpr.size())
+                            errors.err("range expression size doesn't match declared array size", decl.value?.position!!)
+                        val constRange = rangeExpr.toConstantIntegerRange()
+                        if(constRange!=null) {
+                            val newValue = ArrayLiteralValue(InferredTypes.InferredType.known(DataType.ARRAY_F),
+                                    constRange.map { NumericLiteralValue(DataType.FLOAT, it.toDouble(), decl.value!!.position) }.toTypedArray(),
+                                    position = decl.value!!.position)
+                            return listOf(IAstModification.ReplaceNode(decl.value!!, newValue, decl))
+                        }
+                    }
+                    if(rangeExpr==null && litval!=null) {
+                        // arraysize initializer is a single int, and we know the size.
+                        val fillvalue = litval.number.toDouble()
+                        if (fillvalue < CompilationTarget.instance.machine.FLOAT_MAX_NEGATIVE || fillvalue > CompilationTarget.instance.machine.FLOAT_MAX_POSITIVE)
+                            errors.err("float value overflow", litval.position)
+                        else {
+                            // create the array itself, filled with the fillvalue.
+                            val array = Array(size) {fillvalue}.map { NumericLiteralValue(DataType.FLOAT, it, litval.position) }.toTypedArray<Expression>()
+                            val refValue = ArrayLiteralValue(InferredTypes.InferredType.known(DataType.ARRAY_F), array, position = litval.position)
+                            return listOf(IAstModification.ReplaceNode(decl.value!!, refValue, decl))
+                        }
+                    }
+                }
+                else -> {
+                    // nothing to do for this type
+                    // this includes strings and structs
+                }
+            }
+        }
+
+        return noModifications
+    }
+}

compiler/src/prog8/optimizer/ExpressionSimplifier.kt

@@ -6,7 +6,6 @@ import prog8.ast.base.*
 import prog8.ast.expressions.*
 import prog8.ast.processing.AstWalker
 import prog8.ast.processing.IAstModification
-import prog8.ast.statements.Assignment
 import kotlin.math.abs
 import kotlin.math.log2
 import kotlin.math.pow
@@ -24,12 +23,6 @@ internal class ExpressionSimplifier(private val program: Program) : AstWalker()
     private val negativePowersOfTwo = powersOfTwo.map { -it }.toSet()
     private val noModifications = emptyList<IAstModification>()
 
-    override fun after(assignment: Assignment, parent: Node): Iterable<IAstModification> {
-        if (assignment.aug_op != null)
-            throw FatalAstException("augmented assignments should have been converted to normal assignments before this optimizer: $assignment")
-        return noModifications
-    }
-
     override fun after(typecast: TypecastExpression, parent: Node): Iterable<IAstModification> {
         val mods = mutableListOf<IAstModification>()
 
@@ -37,19 +30,22 @@ internal class ExpressionSimplifier(private val program: Program) : AstWalker()
         val literal = typecast.expression as? NumericLiteralValue
         if (literal != null) {
             val newLiteral = literal.cast(typecast.type)
-            if (newLiteral !== literal)
-                mods += IAstModification.ReplaceNode(typecast.expression, newLiteral, typecast)
+            if (newLiteral.isValid && newLiteral.valueOrZero() !== literal)
+                mods += IAstModification.ReplaceNode(typecast.expression, newLiteral.valueOrZero(), typecast)
         }
 
-        // remove redundant nested typecasts:
-        // if the typecast casts a value to the same type, remove the cast.
-        // if the typecast contains another typecast, remove the inner typecast.
+        // remove redundant nested typecasts
         val subTypecast = typecast.expression as? TypecastExpression
         if (subTypecast != null) {
-            mods += IAstModification.ReplaceNode(typecast.expression, subTypecast.expression, typecast)
+            // remove the sub-typecast if its datatype is larger than the outer typecast
+            if(subTypecast.type largerThan typecast.type) {
+                mods += IAstModification.ReplaceNode(typecast.expression, subTypecast.expression, typecast)
+            }
         } else {
-            if (typecast.expression.inferType(program).istype(typecast.type))
+            if (typecast.expression.inferType(program).istype(typecast.type)) {
+                // remove duplicate cast
                 mods += IAstModification.ReplaceNode(typecast, typecast.expression, parent)
+            }
         }
 
         return mods
@@ -179,28 +175,6 @@ internal class ExpressionSimplifier(private val program: Program) : AstWalker()
                 // unsigned >= 0 --> true
                 return listOf(IAstModification.ReplaceNode(expr, NumericLiteralValue.fromBoolean(true, expr.position), parent))
             }
-            when(leftDt) {
-                DataType.BYTE -> {
-                    // signed >=0   --> signed ^ $80
-                    return listOf(IAstModification.ReplaceNode(
-                            expr,
-                            BinaryExpression(expr.left, "^", NumericLiteralValue.optimalInteger(0x80, expr.position), expr.position),
-                            parent
-                    ))
-                }
-                DataType.WORD -> {
-                    // signedw >=0   --> msb(signedw) ^ $80
-                    return listOf(IAstModification.ReplaceNode(
-                            expr,
-                            BinaryExpression(FunctionCall(IdentifierReference(listOf("msb"), expr.position),
-                                    mutableListOf(expr.left),
-                                    expr.position
-                            ), "^", NumericLiteralValue.optimalInteger(0x80, expr.position), expr.position),
-                            parent
-                    ))
-                }
-                else -> {}
-            }
         }
 
         if(expr.operator == "<" && rightVal?.number == 0) {
@@ -301,6 +275,49 @@ internal class ExpressionSimplifier(private val program: Program) : AstWalker()
         return noModifications
     }
 
+    override fun after(functionCall: FunctionCall, parent: Node): Iterable<IAstModification> {
+        if(functionCall.target.nameInSource == listOf("lsb")) {
+            val arg = functionCall.args[0]
+            if(arg is TypecastExpression) {
+                val valueDt = arg.expression.inferType(program)
+                if (valueDt.istype(DataType.BYTE) || valueDt.istype(DataType.UBYTE)) {
+                    // useless lsb() of byte value that was casted to word
+                    return listOf(IAstModification.ReplaceNode(functionCall, arg.expression, parent))
+                }
+            } else {
+                val argDt = arg.inferType(program)
+                if (argDt.istype(DataType.BYTE) || argDt.istype(DataType.UBYTE)) {
+                    // useless lsb() of byte value
+                    return listOf(IAstModification.ReplaceNode(functionCall, arg, parent))
+                }
+            }
+        }
+        else if(functionCall.target.nameInSource == listOf("msb")) {
+            val arg = functionCall.args[0]
+            if(arg is TypecastExpression) {
+                val valueDt = arg.expression.inferType(program)
+                if (valueDt.istype(DataType.BYTE) || valueDt.istype(DataType.UBYTE)) {
+                    // useless msb() of byte value that was casted to word, replace with 0
+                    return listOf(IAstModification.ReplaceNode(
+                            functionCall,
+                            NumericLiteralValue(valueDt.typeOrElse(DataType.UBYTE), 0, arg.expression.position),
+                            parent))
+                }
+            } else {
+                val argDt = arg.inferType(program)
+                if (argDt.istype(DataType.BYTE) || argDt.istype(DataType.UBYTE)) {
+                    // useless msb() of byte value, replace with 0
+                    return listOf(IAstModification.ReplaceNode(
+                            functionCall,
+                            NumericLiteralValue(argDt.typeOrElse(DataType.UBYTE), 0, arg.position),
+                            parent))
+                }
+            }
+        }
+
+        return noModifications
+    }
+
     private fun determineY(x: Expression, subBinExpr: BinaryExpression): Expression? {
         return when {
             subBinExpr.left isSameAs x -> subBinExpr.right
@@ -334,6 +351,13 @@ internal class ExpressionSimplifier(private val program: Program) : AstWalker()
         }
         // no need to check for left val constant (because of associativity)
 
+        val rnum = rightVal?.number?.toDouble()
+        if(rnum!=null && rnum<0.0) {
+            expr.operator = "-"
+            expr.right = NumericLiteralValue(rightVal.type, -rnum, rightVal.position)
+            return expr
+        }
+
         return null
     }
 
@@ -348,12 +372,16 @@ internal class ExpressionSimplifier(private val program: Program) : AstWalker()
 
         if (rightVal != null) {
             // right value is a constant, see if we can optimize
-            val rightConst: NumericLiteralValue = rightVal
-            when (rightConst.number.toDouble()) {
-                0.0 -> {
-                    // left
-                    return expr.left
-                }
+            val rnum = rightVal.number.toDouble()
+            if (rnum == 0.0) {
+                // left
+                return expr.left
+            }
+
+            if(rnum<0.0) {
+                expr.operator = "+"
+                expr.right = NumericLiteralValue(rightVal.type, -rnum, rightVal.position)
+                return expr
             }
         }
         if (leftVal != null) {
@@ -366,6 +394,7 @@ internal class ExpressionSimplifier(private val program: Program) : AstWalker()
             }
         }
 
+
         return null
     }
 
@@ -448,7 +477,10 @@ internal class ExpressionSimplifier(private val program: Program) : AstWalker()
         when (expr.operator) {
             "%" -> {
                 if (cv == 1.0) {
-                    return NumericLiteralValue(expr.inferType(program).typeOrElse(DataType.STRUCT), 0, expr.position)
+                    val idt = expr.inferType(program)
+                    if(!idt.isKnown)
+                        throw FatalAstException("unknown dt")
+                    return NumericLiteralValue(idt.typeOrElse(DataType.STRUCT), 0, expr.position)
                 } else if (cv == 2.0) {
                     expr.operator = "&"
                     expr.right = NumericLiteralValue.optimalInteger(1, expr.position)
@@ -577,8 +609,10 @@ internal class ExpressionSimplifier(private val program: Program) : AstWalker()
         if (amount == 0) {
             return expr.left
         }
-        val targetDt = expr.left.inferType(program).typeOrElse(DataType.STRUCT)
-        when (targetDt) {
+        val targetIDt = expr.left.inferType(program)
+        if(!targetIDt.isKnown)
+            throw FatalAstException("unknown dt")
+        when (val targetDt = targetIDt.typeOrElse(DataType.STRUCT)) {
             DataType.UBYTE, DataType.BYTE -> {
                 if (amount >= 8) {
                     return NumericLiteralValue(targetDt, 0, expr.position)
@@ -588,12 +622,12 @@ internal class ExpressionSimplifier(private val program: Program) : AstWalker()
                 if (amount >= 16) {
                     return NumericLiteralValue(targetDt, 0, expr.position)
                 } else if (amount >= 8) {
-                    val lsb = TypecastExpression(expr.left, DataType.UBYTE, true, expr.position)
+                    val lsb = FunctionCall(IdentifierReference(listOf("lsb"), expr.position), mutableListOf(expr.left), expr.position)
                     if (amount == 8) {
-                        return FunctionCall(IdentifierReference(listOf("mkword"), expr.position), mutableListOf(NumericLiteralValue.optimalInteger(0, expr.position), lsb), expr.position)
+                        return FunctionCall(IdentifierReference(listOf("mkword"), expr.position), mutableListOf(lsb, NumericLiteralValue.optimalInteger(0, expr.position)), expr.position)
                     }
                     val shifted = BinaryExpression(lsb, "<<", NumericLiteralValue.optimalInteger(amount - 8, expr.position), expr.position)
-                    return FunctionCall(IdentifierReference(listOf("mkword"), expr.position), mutableListOf(NumericLiteralValue.optimalInteger(0, expr.position), shifted), expr.position)
+                    return FunctionCall(IdentifierReference(listOf("mkword"), expr.position), mutableListOf(shifted, NumericLiteralValue.optimalInteger(0, expr.position)), expr.position)
                 }
             }
             else -> {
@@ -610,8 +644,10 @@ internal class ExpressionSimplifier(private val program: Program) : AstWalker()
         if (amount == 0) {
             return expr.left
         }
-        val targetDt = expr.left.inferType(program).typeOrElse(DataType.STRUCT)
-        when (targetDt) {
+        val idt = expr.left.inferType(program)
+        if(!idt.isKnown)
+            throw FatalAstException("unknown dt")
+        when (idt.typeOrElse(DataType.STRUCT)) {
             DataType.UBYTE -> {
                 if (amount >= 8) {
                     return NumericLiteralValue.optimalInteger(0, expr.position)
@@ -628,8 +664,9 @@ internal class ExpressionSimplifier(private val program: Program) : AstWalker()
                     return NumericLiteralValue.optimalInteger(0, expr.position)
                 } else if (amount >= 8) {
                     val msb = FunctionCall(IdentifierReference(listOf("msb"), expr.position), mutableListOf(expr.left), expr.position)
-                    if (amount == 8)
-                        return msb
+                    if (amount == 8) {
+                        return TypecastExpression(msb, DataType.UWORD, true, expr.position)
+                    }
                     return BinaryExpression(msb, ">>", NumericLiteralValue.optimalInteger(amount - 8, expr.position), expr.position)
                 }
             }
@@ -637,14 +674,6 @@ internal class ExpressionSimplifier(private val program: Program) : AstWalker()
                 if (amount > 16) {
                     expr.right = NumericLiteralValue.optimalInteger(16, expr.right.position)
                     return null
-                } else if (amount >= 8) {
-                    val msbAsByte = TypecastExpression(
-                            FunctionCall(IdentifierReference(listOf("msb"), expr.position), mutableListOf(expr.left), expr.position),
-                            DataType.BYTE,
-                            true, expr.position)
-                    if (amount == 8)
-                        return msbAsByte
-                    return BinaryExpression(msbAsByte, ">>", NumericLiteralValue.optimalInteger(amount - 8, expr.position), expr.position)
                 }
             }
             else -> {

compiler/src/prog8/optimizer/Extensions.kt

@@ -5,20 +5,31 @@ import prog8.ast.base.ErrorReporter
 
 
 internal fun Program.constantFold(errors: ErrorReporter) {
-    val replacer = ConstantIdentifierReplacer(this, errors)
-    replacer.visit(this)
+    val valuetypefixer = VarConstantValueTypeAdjuster(this)
+    valuetypefixer.visit(this)
     if(errors.isEmpty()) {
-        replacer.applyModifications()
+        valuetypefixer.applyModifications()
 
-        val optimizer = ConstantFoldingOptimizer(this, errors)
-        optimizer.visit(this)
-        while (errors.isEmpty() && optimizer.applyModifications() > 0) {
-            optimizer.visit(this)
-        }
-
-        if(errors.isEmpty()) {
-            replacer.visit(this)
+        val replacer = ConstantIdentifierReplacer(this, errors)
+        replacer.visit(this)
+        if (errors.isEmpty()) {
             replacer.applyModifications()
+
+            valuetypefixer.visit(this)
+            if(errors.isEmpty()) {
+                valuetypefixer.applyModifications()
+
+                val optimizer = ConstantFoldingOptimizer(this)
+                optimizer.visit(this)
+                while (errors.isEmpty() && optimizer.applyModifications() > 0) {
+                    optimizer.visit(this)
+                }
+
+                if (errors.isEmpty()) {
+                    replacer.visit(this)
+                    replacer.applyModifications()
+                }
+            }
         }
     }
 
@@ -42,3 +53,9 @@ internal fun Program.simplifyExpressions() : Int {
     opti.visit(this)
     return opti.applyModifications()
 }
+
+internal fun Program.splitBinaryExpressions() : Int {
+    val opti = BinExprSplitter(this)
+    opti.visit(this)
+    return opti.applyModifications()
+}

compiler/src/prog8/optimizer/StatementOptimizer.kt

@@ -14,11 +14,6 @@ import prog8.functions.BuiltinFunctions
 import kotlin.math.floor
 
 
-/*
-    TODO: remove unreachable code after return and exit()
-*/
-
-
 internal class StatementOptimizer(private val program: Program,
                                   private val errors: ErrorReporter) : AstWalker() {
 
@@ -30,12 +25,12 @@ internal class StatementOptimizer(private val program: Program,
         if("force_output" !in block.options()) {
             if (block.containsNoCodeNorVars()) {
                 errors.warn("removing empty block '${block.name}'", block.position)
-                return listOf(IAstModification.Remove(block, parent))
+                return listOf(IAstModification.Remove(block, parent as INameScope))
             }
 
             if (block !in callgraph.usedSymbols) {
                 errors.warn("removing unused block '${block.name}'", block.position)
-                return listOf(IAstModification.Remove(block, parent))
+                return listOf(IAstModification.Remove(block, parent as INameScope))
             }
         }
         return noModifications
@@ -46,35 +41,29 @@ internal class StatementOptimizer(private val program: Program,
         if(subroutine.asmAddress==null && !forceOutput) {
             if(subroutine.containsNoCodeNorVars()) {
                 errors.warn("removing empty subroutine '${subroutine.name}'", subroutine.position)
-                return listOf(IAstModification.Remove(subroutine, parent))
+                val removals = callgraph.calledBy.getValue(subroutine).map {
+                    IAstModification.Remove(it, it.definingScope())
+                }.toMutableList()
+                removals += IAstModification.Remove(subroutine, subroutine.definingScope())
+                return removals
             }
         }
 
-        val linesToRemove = deduplicateAssignments(subroutine.statements)
-        if(linesToRemove.isNotEmpty()) {
-            linesToRemove.reversed().forEach{subroutine.statements.removeAt(it)}
-        }
-
         if(subroutine !in callgraph.usedSymbols && !forceOutput) {
             errors.warn("removing unused subroutine '${subroutine.name}'", subroutine.position)
-            return listOf(IAstModification.Remove(subroutine, parent))
+            return listOf(IAstModification.Remove(subroutine, subroutine.definingScope()))
         }
 
         return noModifications
     }
 
-    override fun after(scope: AnonymousScope, parent: Node): Iterable<IAstModification> {
-        val linesToRemove = deduplicateAssignments(scope.statements)
-        return linesToRemove.reversed().map { IAstModification.Remove(scope.statements[it], scope) }
-    }
-
     override fun after(decl: VarDecl, parent: Node): Iterable<IAstModification> {
         val forceOutput = "force_output" in decl.definingBlock().options()
         if(decl !in callgraph.usedSymbols && !forceOutput) {
             if(decl.type == VarDeclType.VAR)
                 errors.warn("removing unused variable '${decl.name}'", decl.position)
 
-            return listOf(IAstModification.Remove(decl, parent))
+            return listOf(IAstModification.Remove(decl, decl.definingScope()))
         }
 
         return noModifications
@@ -85,7 +74,7 @@ internal class StatementOptimizer(private val program: Program,
             val functionName = functionCallStatement.target.nameInSource[0]
             if (functionName in pureBuiltinFunctions) {
                 errors.warn("statement has no effect (function return value is discarded)", functionCallStatement.position)
-                return listOf(IAstModification.Remove(functionCallStatement, parent))
+                return listOf(IAstModification.Remove(functionCallStatement, functionCallStatement.definingScope()))
             }
         }
 
@@ -101,32 +90,34 @@ internal class StatementOptimizer(private val program: Program,
             }
             if(stringVar!=null) {
                 val vardecl = stringVar.targetVarDecl(program.namespace)!!
-                val string = vardecl.value!! as StringLiteralValue
-                val pos = functionCallStatement.position
-                if(string.value.length==1) {
-                    val firstCharEncoded = CompilationTarget.encodeString(string.value, string.altEncoding)[0]
-                    val chrout = FunctionCallStatement(
-                            IdentifierReference(listOf("c64", "CHROUT"), pos),
-                            mutableListOf(NumericLiteralValue(DataType.UBYTE, firstCharEncoded.toInt(), pos)),
-                            functionCallStatement.void, pos
-                    )
-                    return listOf(IAstModification.ReplaceNode(functionCallStatement, chrout, parent))
-                } else if(string.value.length==2) {
-                    val firstTwoCharsEncoded = CompilationTarget.encodeString(string.value.take(2), string.altEncoding)
-                    val chrout1 = FunctionCallStatement(
-                            IdentifierReference(listOf("c64", "CHROUT"), pos),
-                            mutableListOf(NumericLiteralValue(DataType.UBYTE, firstTwoCharsEncoded[0].toInt(), pos)),
-                            functionCallStatement.void, pos
-                    )
-                    val chrout2 = FunctionCallStatement(
-                            IdentifierReference(listOf("c64", "CHROUT"), pos),
-                            mutableListOf(NumericLiteralValue(DataType.UBYTE, firstTwoCharsEncoded[1].toInt(), pos)),
-                            functionCallStatement.void, pos
-                    )
-                    val anonscope = AnonymousScope(mutableListOf(), pos)
-                    anonscope.statements.add(chrout1)
-                    anonscope.statements.add(chrout2)
-                    return listOf(IAstModification.ReplaceNode(functionCallStatement, anonscope, parent))
+                val string = vardecl.value as? StringLiteralValue
+                if(string!=null) {
+                    val pos = functionCallStatement.position
+                    if (string.value.length == 1) {
+                        val firstCharEncoded = CompilationTarget.instance.encodeString(string.value, string.altEncoding)[0]
+                        val chrout = FunctionCallStatement(
+                                IdentifierReference(listOf("c64", "CHROUT"), pos),
+                                mutableListOf(NumericLiteralValue(DataType.UBYTE, firstCharEncoded.toInt(), pos)),
+                                functionCallStatement.void, pos
+                        )
+                        return listOf(IAstModification.ReplaceNode(functionCallStatement, chrout, parent))
+                    } else if (string.value.length == 2) {
+                        val firstTwoCharsEncoded = CompilationTarget.instance.encodeString(string.value.take(2), string.altEncoding)
+                        val chrout1 = FunctionCallStatement(
+                                IdentifierReference(listOf("c64", "CHROUT"), pos),
+                                mutableListOf(NumericLiteralValue(DataType.UBYTE, firstTwoCharsEncoded[0].toInt(), pos)),
+                                functionCallStatement.void, pos
+                        )
+                        val chrout2 = FunctionCallStatement(
+                                IdentifierReference(listOf("c64", "CHROUT"), pos),
+                                mutableListOf(NumericLiteralValue(DataType.UBYTE, firstTwoCharsEncoded[1].toInt(), pos)),
+                                functionCallStatement.void, pos
+                        )
+                        val anonscope = AnonymousScope(mutableListOf(), pos)
+                        anonscope.statements.add(chrout1)
+                        anonscope.statements.add(chrout2)
+                        return listOf(IAstModification.ReplaceNode(functionCallStatement, anonscope, parent))
+                    }
                 }
             }
         }
@@ -135,8 +126,8 @@ internal class StatementOptimizer(private val program: Program,
         val subroutine = functionCallStatement.target.targetSubroutine(program.namespace)
         if(subroutine!=null) {
             val first = subroutine.statements.asSequence().filterNot { it is VarDecl || it is Directive }.firstOrNull()
-            if(first is ReturnFromIrq || first is Return)
-                return listOf(IAstModification.Remove(functionCallStatement, parent))
+            if(first is Return)
+                return listOf(IAstModification.Remove(functionCallStatement, functionCallStatement.definingScope()))
         }
 
         return noModifications
@@ -159,7 +150,7 @@ internal class StatementOptimizer(private val program: Program,
     override fun after(ifStatement: IfStatement, parent: Node): Iterable<IAstModification> {
         // remove empty if statements
         if(ifStatement.truepart.containsNoCodeNorVars() && ifStatement.elsepart.containsNoCodeNorVars())
-            return listOf(IAstModification.Remove(ifStatement, parent))
+            return listOf(IAstModification.Remove(ifStatement, ifStatement.definingScope()))
 
         // empty true part? switch with the else part
         if(ifStatement.truepart.containsNoCodeNorVars() && ifStatement.elsepart.containsCodeOrVars()) {
@@ -191,13 +182,13 @@ internal class StatementOptimizer(private val program: Program,
 
     override fun after(forLoop: ForLoop, parent: Node): Iterable<IAstModification> {
         if(forLoop.body.containsNoCodeNorVars()) {
-            // remove empty for loop
-            return listOf(IAstModification.Remove(forLoop, parent))
+            errors.warn("removing empty for loop", forLoop.position)
+            return listOf(IAstModification.Remove(forLoop, forLoop.definingScope()))
         } else if(forLoop.body.statements.size==1) {
             val loopvar = forLoop.body.statements[0] as? VarDecl
-            if(loopvar!=null && loopvar.name==forLoop.loopVar?.nameInSource?.singleOrNull()) {
+            if(loopvar!=null && loopvar.name==forLoop.loopVar.nameInSource.singleOrNull()) {
                 // remove empty for loop (only loopvar decl in it)
-                return listOf(IAstModification.Remove(forLoop, parent))
+                return listOf(IAstModification.Remove(forLoop, forLoop.definingScope()))
             }
         }
 
@@ -207,7 +198,7 @@ internal class StatementOptimizer(private val program: Program,
                 // for loop over a (constant) range of just a single value-- optimize the loop away
                 // loopvar/reg = range value , follow by block
                 val scope = AnonymousScope(mutableListOf(), forLoop.position)
-                scope.statements.add(Assignment(AssignTarget(forLoop.loopRegister, forLoop.loopVar, null, null, forLoop.position), null, range.from, forLoop.position))
+                scope.statements.add(Assignment(AssignTarget(forLoop.loopVar, null, null, forLoop.position), range.from, forLoop.position))
                 scope.statements.addAll(forLoop.body.statements)
                 return listOf(IAstModification.ReplaceNode(forLoop, scope, parent))
             }
@@ -219,23 +210,23 @@ internal class StatementOptimizer(private val program: Program,
                 val size = sv.value.length
                 if(size==1) {
                     // loop over string of length 1 -> just assign the single character
-                    val character = CompilationTarget.encodeString(sv.value, sv.altEncoding)[0]
+                    val character = CompilationTarget.instance.encodeString(sv.value, sv.altEncoding)[0]
                     val byte = NumericLiteralValue(DataType.UBYTE, character, iterable.position)
                     val scope = AnonymousScope(mutableListOf(), forLoop.position)
-                    scope.statements.add(Assignment(AssignTarget(forLoop.loopRegister, forLoop.loopVar, null, null, forLoop.position), null, byte, forLoop.position))
+                    scope.statements.add(Assignment(AssignTarget(forLoop.loopVar, null, null, forLoop.position), byte, forLoop.position))
                     scope.statements.addAll(forLoop.body.statements)
                     return listOf(IAstModification.ReplaceNode(forLoop, scope, parent))
                 }
             }
             else if(iterable.datatype in ArrayDatatypes) {
-                val size = iterable.arraysize!!.size()
+                val size = iterable.arraysize!!.constIndex()
                 if(size==1) {
                     // loop over array of length 1 -> just assign the single value
                     val av = (iterable.value as ArrayLiteralValue).value[0].constValue(program)?.number
                     if(av!=null) {
                         val scope = AnonymousScope(mutableListOf(), forLoop.position)
                         scope.statements.add(Assignment(
-                                AssignTarget(forLoop.loopRegister, forLoop.loopVar, null, null, forLoop.position), null, NumericLiteralValue.optimalInteger(av.toInt(), iterable.position),
+                                AssignTarget(forLoop.loopVar, null, null, forLoop.position), NumericLiteralValue.optimalInteger(av.toInt(), iterable.position),
                                 forLoop.position))
                         scope.statements.addAll(forLoop.body.statements)
                         return listOf(IAstModification.ReplaceNode(forLoop, scope, parent))
@@ -247,18 +238,18 @@ internal class StatementOptimizer(private val program: Program,
         return noModifications
     }
 
-    override fun before(repeatLoop: RepeatLoop, parent: Node): Iterable<IAstModification> {
-        val constvalue = repeatLoop.untilCondition.constValue(program)
+    override fun before(untilLoop: UntilLoop, parent: Node): Iterable<IAstModification> {
+        val constvalue = untilLoop.condition.constValue(program)
         if(constvalue!=null) {
             if(constvalue.asBooleanValue) {
-                // always true -> keep only the statement block (if there are no continue and break statements)
-                errors.warn("condition is always true", repeatLoop.untilCondition.position)
-                if(!hasContinueOrBreak(repeatLoop.body))
-                    return listOf(IAstModification.ReplaceNode(repeatLoop, repeatLoop.body, parent))
+                // always true -> keep only the statement block (if there are no break statements)
+                errors.warn("condition is always true", untilLoop.condition.position)
+                if(!hasBreak(untilLoop.body))
+                    return listOf(IAstModification.ReplaceNode(untilLoop, untilLoop.body, parent))
             } else {
                 // always false
-                val forever = ForeverLoop(repeatLoop.body, repeatLoop.position)
-                return listOf(IAstModification.ReplaceNode(repeatLoop, forever, parent))
+                val forever = RepeatLoop(null, untilLoop.body, untilLoop.position)
+                return listOf(IAstModification.ReplaceNode(untilLoop, forever, parent))
             }
         }
         return noModifications
@@ -269,12 +260,32 @@ internal class StatementOptimizer(private val program: Program,
         if(constvalue!=null) {
             return if(constvalue.asBooleanValue) {
                 // always true
-                val forever = ForeverLoop(whileLoop.body, whileLoop.position)
+                val forever = RepeatLoop(null, whileLoop.body, whileLoop.position)
                 listOf(IAstModification.ReplaceNode(whileLoop, forever, parent))
             } else {
                 // always false -> remove the while statement altogether
                 errors.warn("condition is always false", whileLoop.condition.position)
-                listOf(IAstModification.Remove(whileLoop, parent))
+                listOf(IAstModification.Remove(whileLoop, whileLoop.definingScope()))
+            }
+        }
+        return noModifications
+    }
+
+    override fun after(repeatLoop: RepeatLoop, parent: Node): Iterable<IAstModification> {
+        val iter = repeatLoop.iterations
+        if(iter!=null) {
+            if(repeatLoop.body.containsNoCodeNorVars()) {
+                errors.warn("empty loop removed", repeatLoop.position)
+                return listOf(IAstModification.Remove(repeatLoop, repeatLoop.definingScope()))
+            }
+            val iterations = iter.constValue(program)?.number?.toInt()
+            if (iterations == 0) {
+                errors.warn("iterations is always 0, removed loop", iter.position)
+                return listOf(IAstModification.Remove(repeatLoop, repeatLoop.definingScope()))
+            }
+            if (iterations == 1) {
+                errors.warn("iterations is always 1", iter.position)
+                return listOf(IAstModification.ReplaceNode(repeatLoop, repeatLoop.body, parent))
             }
         }
         return noModifications
@@ -297,45 +308,98 @@ internal class StatementOptimizer(private val program: Program,
         val scope = jump.definingScope()
         val label = jump.identifier?.targetStatement(scope)
         if(label!=null && scope.statements.indexOf(label) == scope.statements.indexOf(jump)+1)
-            return listOf(IAstModification.Remove(jump, parent))
+            return listOf(IAstModification.Remove(jump, jump.definingScope()))
+
+        return noModifications
+    }
+
+    override fun before(assignment: Assignment, parent: Node): Iterable<IAstModification> {
+
+        val binExpr = assignment.value as? BinaryExpression
+        if(binExpr!=null) {
+            if(binExpr.left isSameAs assignment.target) {
+                val rExpr = binExpr.right as? BinaryExpression
+                if(rExpr!=null) {
+                    val op1 = binExpr.operator
+                    val op2 = rExpr.operator
+
+                    if(rExpr.left is NumericLiteralValue && op2 in setOf("+", "*", "&", "|")) {
+                        // associative operator, make sure the constant numeric value is second (right)
+                        return listOf(IAstModification.SwapOperands(rExpr))
+                    }
+
+                    val rNum = (rExpr.right as? NumericLiteralValue)?.number
+                    if(rNum!=null) {
+                        if (op1 == "+" || op1 == "-") {
+                            if (op2 == "+") {
+                                // A = A +/- B + N
+                                val expr2 = BinaryExpression(binExpr.left, binExpr.operator, rExpr.left, binExpr.position)
+                                val addConstant = Assignment(
+                                        assignment.target,
+                                        BinaryExpression(binExpr.left, "+", rExpr.right, rExpr.position),
+                                        assignment.position
+                                )
+                                return listOf(
+                                        IAstModification.ReplaceNode(binExpr, expr2, binExpr.parent),
+                                        IAstModification.InsertAfter(assignment, addConstant, assignment.definingScope()))
+                            } else if (op2 == "-") {
+                                // A = A +/- B - N
+                                val expr2 = BinaryExpression(binExpr.left, binExpr.operator, rExpr.left, binExpr.position)
+                                val subConstant = Assignment(
+                                        assignment.target,
+                                        BinaryExpression(binExpr.left, "-", rExpr.right, rExpr.position),
+                                        assignment.position
+                                )
+                                return listOf(
+                                        IAstModification.ReplaceNode(binExpr, expr2, binExpr.parent),
+                                        IAstModification.InsertAfter(assignment, subConstant, assignment.definingScope()))
+                            }
+                        }
+                    }
+                }
+            }
+
+            if(binExpr.operator in associativeOperators && binExpr.right isSameAs assignment.target) {
+                // associative operator, swap the operands so that the assignment target is first (left)
+                // unless the other operand is the same in which case we don't swap (endless loop!)
+                if (!(binExpr.left isSameAs binExpr.right))
+                    return listOf(IAstModification.SwapOperands(binExpr))
+            }
+
+        }
 
         return noModifications
     }
 
     override fun after(assignment: Assignment, parent: Node): Iterable<IAstModification> {
-        if(assignment.aug_op!=null)
-            throw FatalAstException("augmented assignments should have been converted to normal assignments before this optimizer: $assignment")
-
-        // remove assignments to self
         if(assignment.target isSameAs assignment.value) {
-            if(assignment.target.isNotMemory(program.namespace))
-                return listOf(IAstModification.Remove(assignment, parent))
+            // remove assignment to self
+            return listOf(IAstModification.Remove(assignment, assignment.definingScope()))
         }
 
-        val targetIDt = assignment.target.inferType(program, assignment)
+        val targetIDt = assignment.target.inferType(program)
         if(!targetIDt.isKnown)
             throw FatalAstException("can't infer type of assignment target")
 
-
         // optimize binary expressions a bit
         val targetDt = targetIDt.typeOrElse(DataType.STRUCT)
         val bexpr=assignment.value as? BinaryExpression
         if(bexpr!=null) {
-            val cv = bexpr.right.constValue(program)?.number?.toDouble()
-            if (cv != null && assignment.target isSameAs bexpr.left) {
+            val rightCv = bexpr.right.constValue(program)?.number?.toDouble()
+            if (rightCv != null && assignment.target isSameAs bexpr.left) {
                 // assignments of the form:  X = X <operator> <expr>
                 // remove assignments that have no effect (such as X=X+0)
                 // optimize/rewrite some other expressions
                 val vardeclDt = (assignment.target.identifier?.targetVarDecl(program.namespace))?.type
                 when (bexpr.operator) {
                     "+" -> {
-                        if (cv == 0.0) {
-                            return listOf(IAstModification.Remove(assignment, parent))
-                        } else if (targetDt in IntegerDatatypes && floor(cv) == cv) {
-                            if ((vardeclDt == VarDeclType.MEMORY && cv in 1.0..3.0) || (vardeclDt != VarDeclType.MEMORY && cv in 1.0..8.0)) {
-                                // replace by several INCs (a bit less when dealing with memory targets)
+                        if (rightCv == 0.0) {
+                            return listOf(IAstModification.Remove(assignment, assignment.definingScope()))
+                        } else if (targetDt in IntegerDatatypes && floor(rightCv) == rightCv) {
+                            if (vardeclDt != VarDeclType.MEMORY && rightCv in 1.0..4.0) {
+                                // replace by several INCs if it's not a memory address (inc on a memory mapped register doesn't work very well)
                                 val incs = AnonymousScope(mutableListOf(), assignment.position)
-                                repeat(cv.toInt()) {
+                                repeat(rightCv.toInt()) {
                                     incs.statements.add(PostIncrDecr(assignment.target, "++", assignment.position))
                                 }
                                 return listOf(IAstModification.ReplaceNode(assignment, incs, parent))
@@ -343,83 +407,41 @@ internal class StatementOptimizer(private val program: Program,
                         }
                     }
                     "-" -> {
-                        if (cv == 0.0) {
-                            return listOf(IAstModification.Remove(assignment, parent))
-                        } else if (targetDt in IntegerDatatypes && floor(cv) == cv) {
-                            if ((vardeclDt == VarDeclType.MEMORY && cv in 1.0..3.0) || (vardeclDt != VarDeclType.MEMORY && cv in 1.0..8.0)) {
-                                // replace by several DECs (a bit less when dealing with memory targets)
+                        if (rightCv == 0.0) {
+                            return listOf(IAstModification.Remove(assignment, assignment.definingScope()))
+                        } else if (targetDt in IntegerDatatypes && floor(rightCv) == rightCv) {
+                            if (vardeclDt != VarDeclType.MEMORY && rightCv in 1.0..4.0) {
+                                // replace by several DECs if it's not a memory address (dec on a memory mapped register doesn't work very well)
                                 val decs = AnonymousScope(mutableListOf(), assignment.position)
-                                repeat(cv.toInt()) {
+                                repeat(rightCv.toInt()) {
                                     decs.statements.add(PostIncrDecr(assignment.target, "--", assignment.position))
                                 }
                                 return listOf(IAstModification.ReplaceNode(assignment, decs, parent))
                             }
                         }
                     }
-                    "*" -> if (cv == 1.0) return listOf(IAstModification.Remove(assignment, parent))
-                    "/" -> if (cv == 1.0) return listOf(IAstModification.Remove(assignment, parent))
-                    "**" -> if (cv == 1.0) return listOf(IAstModification.Remove(assignment, parent))
-                    "|" -> if (cv == 0.0) return listOf(IAstModification.Remove(assignment, parent))
-                    "^" -> if (cv == 0.0) return listOf(IAstModification.Remove(assignment, parent))
+                    "*" -> if (rightCv == 1.0) return listOf(IAstModification.Remove(assignment, assignment.definingScope()))
+                    "/" -> if (rightCv == 1.0) return listOf(IAstModification.Remove(assignment, assignment.definingScope()))
+                    "**" -> if (rightCv == 1.0) return listOf(IAstModification.Remove(assignment, assignment.definingScope()))
+                    "|" -> if (rightCv == 0.0) return listOf(IAstModification.Remove(assignment, assignment.definingScope()))
+                    "^" -> if (rightCv == 0.0) return listOf(IAstModification.Remove(assignment, assignment.definingScope()))
                     "<<" -> {
-                        if (cv == 0.0)
-                            return listOf(IAstModification.Remove(assignment, parent))
-                        // replace by in-place lsl(...) call
-                        val scope = AnonymousScope(mutableListOf(), assignment.position)
-                        var numshifts = cv.toInt()
-                        while (numshifts > 0) {
-                            scope.statements.add(FunctionCallStatement(IdentifierReference(listOf("lsl"), assignment.position),
-                                    mutableListOf(bexpr.left), true, assignment.position))
-                            numshifts--
-                        }
-                        return listOf(IAstModification.ReplaceNode(assignment, scope, parent))
+                        if (rightCv == 0.0)
+                            return listOf(IAstModification.Remove(assignment, assignment.definingScope()))
                     }
                     ">>" -> {
-                        if (cv == 0.0)
-                            return listOf(IAstModification.Remove(assignment, parent))
-                        // replace by in-place lsr(...) call
-                        val scope = AnonymousScope(mutableListOf(), assignment.position)
-                        var numshifts = cv.toInt()
-                        while (numshifts > 0) {
-                            scope.statements.add(FunctionCallStatement(IdentifierReference(listOf("lsr"), assignment.position),
-                                    mutableListOf(bexpr.left), true, assignment.position))
-                            numshifts--
-                        }
-                        return listOf(IAstModification.ReplaceNode(assignment, scope, parent))
+                        if (rightCv == 0.0)
+                            return listOf(IAstModification.Remove(assignment, assignment.definingScope()))
                     }
                 }
 
             }
         }
+
         return noModifications
     }
 
-    private fun deduplicateAssignments(statements: List<Statement>): MutableList<Int> {
-        // removes 'duplicate' assignments that assign the isSameAs target
-        val linesToRemove = mutableListOf<Int>()
-        var previousAssignmentLine: Int? = null
-        for (i in statements.indices) {
-            val stmt = statements[i] as? Assignment
-            if (stmt != null && stmt.value is NumericLiteralValue) {
-                if (previousAssignmentLine == null) {
-                    previousAssignmentLine = i
-                    continue
-                } else {
-                    val prev = statements[previousAssignmentLine] as Assignment
-                    if (prev.target.isSameAs(stmt.target, program)) {
-                        // get rid of the previous assignment, if the target is not MEMORY
-                        if (prev.target.isNotMemory(program.namespace))
-                            linesToRemove.add(previousAssignmentLine)
-                    }
-                    previousAssignmentLine = i
-                }
-            } else
-                previousAssignmentLine = null
-        }
-        return linesToRemove
-    }
-
-    private fun hasContinueOrBreak(scope: INameScope): Boolean {
+    private fun hasBreak(scope: INameScope): Boolean {
 
         class Searcher: IAstVisitor
         {
@@ -428,10 +450,6 @@ internal class StatementOptimizer(private val program: Program,
             override fun visit(breakStmt: Break) {
                 count++
             }
-
-            override fun visit(contStmt: Continue) {
-                count++
-            }
         }
 
         val s=Searcher()

compiler/src/prog8/optimizer/UnusedCodeRemover.kt

@@ -1,13 +1,15 @@
 package prog8.optimizer
 
+import prog8.ast.INameScope
 import prog8.ast.Node
 import prog8.ast.Program
+import prog8.ast.base.ErrorReporter
 import prog8.ast.processing.AstWalker
 import prog8.ast.processing.IAstModification
-import prog8.ast.statements.Block
+import prog8.ast.statements.*
 
 
-internal class UnusedCodeRemover: AstWalker() {
+internal class UnusedCodeRemover(private val program: Program, private val errors: ErrorReporter): AstWalker() {
 
     override fun before(program: Program, parent: Node): Iterable<IAstModification> {
         val callgraph = CallGraph(program)
@@ -17,22 +19,85 @@ internal class UnusedCodeRemover: AstWalker() {
         val entrypoint = program.entrypoint()
         program.modules.forEach {
             callgraph.forAllSubroutines(it) { sub ->
-                if (sub !== entrypoint && !sub.keepAlways && (callgraph.calledBy[sub].isNullOrEmpty() || (sub.containsNoCodeNorVars() && !sub.isAsmSubroutine)))
-                    removals.add(IAstModification.Remove(sub, sub.definingScope() as Node))
+                if (sub !== entrypoint && !sub.isAsmSubroutine && (callgraph.calledBy[sub].isNullOrEmpty() || sub.containsNoCodeNorVars())) {
+                    removals.add(IAstModification.Remove(sub, sub.definingScope()))
+                }
             }
         }
 
         program.modules.flatMap { it.statements }.filterIsInstance<Block>().forEach { block ->
             if (block.containsNoCodeNorVars() && "force_output" !in block.options())
-                removals.add(IAstModification.Remove(block, block.definingScope() as Node))
+                removals.add(IAstModification.Remove(block, block.definingScope()))
         }
 
         // remove modules that are not imported, or are empty (unless it's a library modules)
         program.modules.forEach {
             if (!it.isLibraryModule && (it.importedBy.isEmpty() || it.containsNoCodeNorVars()))
-                removals.add(IAstModification.Remove(it, it.parent))
+                removals.add(IAstModification.Remove(it, it.definingScope()))
         }
 
         return removals
     }
+
+
+    override fun before(breakStmt: Break, parent: Node): Iterable<IAstModification> {
+        reportUnreachable(breakStmt, parent as INameScope)
+        return emptyList()
+    }
+
+    override fun before(jump: Jump, parent: Node): Iterable<IAstModification> {
+        reportUnreachable(jump, parent as INameScope)
+        return emptyList()
+    }
+
+    override fun before(returnStmt: Return, parent: Node): Iterable<IAstModification> {
+        reportUnreachable(returnStmt, parent as INameScope)
+        return emptyList()
+    }
+
+    override fun before(functionCallStatement: FunctionCallStatement, parent: Node): Iterable<IAstModification> {
+        if(functionCallStatement.target.nameInSource.last() == "exit")
+            reportUnreachable(functionCallStatement, parent as INameScope)
+        return emptyList()
+    }
+
+    private fun reportUnreachable(stmt: Statement, parent: INameScope) {
+        when(val next = parent.nextSibling(stmt)) {
+            null, is Label, is Directive, is VarDecl, is InlineAssembly, is Subroutine, is StructDecl -> {}
+            else -> errors.warn("unreachable code", next.position)
+        }
+    }
+
+    override fun after(scope: AnonymousScope, parent: Node): Iterable<IAstModification> {
+        val removeDoubleAssignments = deduplicateAssignments(scope.statements)
+        return removeDoubleAssignments.map { IAstModification.Remove(it, scope) }
+    }
+
+    override fun after(block: Block, parent: Node): Iterable<IAstModification> {
+        val removeDoubleAssignments = deduplicateAssignments(block.statements)
+        return removeDoubleAssignments.map { IAstModification.Remove(it, block) }
+    }
+
+    override fun after(subroutine: Subroutine, parent: Node): Iterable<IAstModification> {
+        val removeDoubleAssignments = deduplicateAssignments(subroutine.statements)
+        return removeDoubleAssignments.map { IAstModification.Remove(it, subroutine) }
+    }
+
+    private fun deduplicateAssignments(statements: List<Statement>): List<Assignment> {
+        // removes 'duplicate' assignments that assign the same target directly after another
+        val linesToRemove = mutableListOf<Assignment>()
+
+        for (stmtPairs in statements.windowed(2, step = 1)) {
+            val assign1 = stmtPairs[0] as? Assignment
+            val assign2 = stmtPairs[1] as? Assignment
+            if (assign1 != null && assign2 != null && !assign2.isAugmentable) {
+                if (assign1.target.isSameAs(assign2.target, program) && assign1.target.isInRegularRAM(program.namespace))  {
+                    if(assign2.target.identifier==null || !assign2.value.referencesIdentifier(*(assign2.target.identifier!!.nameInSource.toTypedArray())))
+                        linesToRemove.add(assign1)
+                }
+            }
+        }
+
+        return linesToRemove
+    }
 }

compiler/src/prog8/parser/ModuleParsing.kt

@@ -4,12 +4,12 @@ import org.antlr.v4.runtime.*
 import prog8.ast.Module
 import prog8.ast.Program
 import prog8.ast.antlr.toAst
-import prog8.ast.base.ErrorReporter
 import prog8.ast.base.Position
 import prog8.ast.base.SyntaxError
 import prog8.ast.base.checkImportedValid
 import prog8.ast.statements.Directive
 import prog8.ast.statements.DirectiveArg
+import prog8.compiler.target.CompilationTarget
 import prog8.pathFrom
 import java.io.InputStream
 import java.nio.file.Files
@@ -20,21 +20,13 @@ import java.nio.file.Paths
 internal class ParsingFailedError(override var message: String) : Exception(message)
 
 
-private class LexerErrorListener: BaseErrorListener() {
-    var  numberOfErrors: Int = 0
-    override fun syntaxError(p0: Recognizer<*, *>?, p1: Any?, p2: Int, p3: Int, p4: String?, p5: RecognitionException?) {
-        numberOfErrors++
-    }
-}
-
-
 internal class CustomLexer(val modulePath: Path, input: CharStream?) : prog8Lexer(input)
 
 
 internal fun moduleName(fileName: Path) = fileName.toString().substringBeforeLast('.')
 
 
-internal class ModuleImporter(private val errors: ErrorReporter) {
+internal class ModuleImporter {
 
     internal fun importModule(program: Program, filePath: Path): Module {
         print("importing '${moduleName(filePath.fileName)}'")
@@ -61,13 +53,28 @@ internal class ModuleImporter(private val errors: ErrorReporter) {
         return executeImportDirective(program, import, Paths.get(""))
     }
 
+    private class MyErrorListener: ConsoleErrorListener() {
+        var  numberOfErrors: Int = 0
+        override fun syntaxError(recognizer: Recognizer<*, *>?, offendingSymbol: Any?, line: Int, charPositionInLine: Int, msg: String, e: RecognitionException?) {
+            numberOfErrors++
+            when (recognizer) {
+                is CustomLexer -> System.err.println("${recognizer.modulePath}:$line:$charPositionInLine: $msg")
+                is prog8Parser -> System.err.println("${recognizer.inputStream.sourceName}:$line:$charPositionInLine: $msg")
+                else -> System.err.println("$line:$charPositionInLine $msg")
+            }
+        }
+    }
+
     private fun importModule(program: Program, stream: CharStream, modulePath: Path, isLibrary: Boolean): Module {
         val moduleName = moduleName(modulePath.fileName)
         val lexer = CustomLexer(modulePath, stream)
-        val lexerErrors = LexerErrorListener()
+        lexer.removeErrorListeners()
+        val lexerErrors = MyErrorListener()
         lexer.addErrorListener(lexerErrors)
         val tokens = CommentHandlingTokenStream(lexer)
         val parser = prog8Parser(tokens)
+        parser.removeErrorListeners()
+        parser.addErrorListener(MyErrorListener())
         val parseTree = parser.module()
         val numberOfErrors = parser.numberOfSyntaxErrors + lexerErrors.numberOfErrors
         if(numberOfErrors > 0)
@@ -85,7 +92,7 @@ internal class ModuleImporter(private val errors: ErrorReporter) {
         // accept additional imports
         val lines = moduleAst.statements.toMutableList()
         lines.asSequence()
-                .mapIndexed { i, it -> Pair(i, it) }
+                .mapIndexed { i, it -> i to it }
                 .filter { (it.second as? Directive)?.directive == "%import" }
                 .forEach { executeImportDirective(program, it.second as Directive, modulePath) }
 
@@ -95,7 +102,7 @@ internal class ModuleImporter(private val errors: ErrorReporter) {
 
     private fun discoverImportedModuleFile(name: String, source: Path, position: Position?): Path {
         val fileName = "$name.p8"
-        val locations = mutableListOf(source.parent)
+        val locations = if(source.toString().isEmpty()) mutableListOf<Path>() else mutableListOf(source.parent)
 
         val propPath = System.getProperty("prog8.libdir")
         if(propPath!=null)
@@ -110,7 +117,7 @@ internal class ModuleImporter(private val errors: ErrorReporter) {
             if (Files.isReadable(file)) return file
         }
 
-        throw ParsingFailedError("$position Import: no module source file '$fileName' found  (I've looked in: $locations)")
+        throw ParsingFailedError("$position Import: no module source file '$fileName' found  (I've looked in: embedded libs and $locations)")
     }
 
     private fun executeImportDirective(program: Program, import: Directive, source: Path): Module? {
@@ -124,16 +131,14 @@ internal class ModuleImporter(private val errors: ErrorReporter) {
         if(existing!=null)
             return null
 
-        val resource = tryGetEmbeddedResource("$moduleName.p8")
+        val rsc = tryGetEmbeddedResource("$moduleName.p8")
         val importedModule =
-                if(resource!=null) {
+                if(rsc!=null) {
                     // load the module from the embedded resource
+                    val (resource, resourcePath) = rsc
                     resource.use {
-                        if(import.args[0].int==42)
-                            println("importing '$moduleName' (library, auto)")
-                        else
-                            println("importing '$moduleName' (library)")
-                        importModule(program, CharStreams.fromStream(it), Paths.get("@embedded@/$moduleName"), true)
+                        println("importing '$moduleName' (library)")
+                        importModule(program, CharStreams.fromStream(it), Paths.get("@embedded@/$resourcePath"), true)
                     }
                 } else {
                     val modulePath = discoverImportedModuleFile(moduleName, source, import.position)
@@ -144,7 +149,18 @@ internal class ModuleImporter(private val errors: ErrorReporter) {
         return importedModule
     }
 
-    private fun tryGetEmbeddedResource(name: String): InputStream? {
-        return object{}.javaClass.getResourceAsStream("/prog8lib/$name")
+    private fun tryGetEmbeddedResource(name: String): Pair<InputStream, String>? {
+        val target = CompilationTarget.instance.name
+        val targetSpecificPath = "/prog8lib/$target/$name"
+        val targetSpecificResource = object{}.javaClass.getResourceAsStream(targetSpecificPath)
+        if(targetSpecificResource!=null)
+            return Pair(targetSpecificResource, targetSpecificPath)
+
+        val generalPath = "/prog8lib/$name"
+        val generalResource = object{}.javaClass.getResourceAsStream(generalPath)
+        if(generalResource!=null)
+            return Pair(generalResource, generalPath)
+
+        return null
     }
 }

compiler/test/UnitTests.kt

@@ -5,17 +5,18 @@ import org.hamcrest.Matchers.closeTo
 import org.hamcrest.Matchers.equalTo
 import org.junit.jupiter.api.Test
 import org.junit.jupiter.api.TestInstance
-import prog8.ast.base.DataType
-import prog8.ast.base.ErrorReporter
-import prog8.ast.base.Position
-import prog8.ast.expressions.NumericLiteralValue
-import prog8.ast.expressions.StringLiteralValue
+import prog8.ast.base.*
+import prog8.ast.expressions.*
+import prog8.ast.statements.*
 import prog8.compiler.*
+import prog8.compiler.target.C64Target
+import prog8.compiler.target.CompilationTarget
 import prog8.compiler.target.c64.C64MachineDefinition.C64Zeropage
 import prog8.compiler.target.c64.C64MachineDefinition.FLOAT_MAX_NEGATIVE
 import prog8.compiler.target.c64.C64MachineDefinition.FLOAT_MAX_POSITIVE
 import prog8.compiler.target.c64.C64MachineDefinition.Mflpt5
 import prog8.compiler.target.c64.Petscii
+import prog8.compiler.target.cx16.CX16MachineDefinition
 import java.io.CharConversionException
 import kotlin.test.*
 
@@ -123,13 +124,13 @@ class TestCompiler {
 
 
 @TestInstance(TestInstance.Lifecycle.PER_CLASS)
-class TestZeropage {
+class TestC64Zeropage {
 
     private val errors = ErrorReporter()
 
     @Test
     fun testNames() {
-        val zp = C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.BASICSAFE, emptyList(), false))
+        val zp = C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.BASICSAFE, emptyList(), false, false))
 
         zp.allocate("", DataType.UBYTE, null, errors)
         zp.allocate("", DataType.UBYTE, null, errors)
@@ -142,37 +143,37 @@ class TestZeropage {
 
     @Test
     fun testZpFloatEnable() {
-        val zp = C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.FULL, emptyList(), false))
+        val zp = C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.FULL, emptyList(), false, false))
         assertFailsWith<CompilerException> {
             zp.allocate("", DataType.FLOAT, null, errors)
         }
-        val zp2 = C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.DONTUSE, emptyList(), true))
+        val zp2 = C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.DONTUSE, emptyList(), true, false))
         assertFailsWith<CompilerException> {
             zp2.allocate("", DataType.FLOAT, null, errors)
         }
-        val zp3 = C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.FLOATSAFE, emptyList(), true))
+        val zp3 = C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.FLOATSAFE, emptyList(), true, false))
         zp3.allocate("", DataType.FLOAT, null, errors)
     }
 
     @Test
     fun testZpModesWithFloats() {
-        C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.FULL, emptyList(), false))
-        C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.KERNALSAFE, emptyList(), false))
-        C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.BASICSAFE, emptyList(), false))
-        C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.FLOATSAFE, emptyList(), false))
-        C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.BASICSAFE, emptyList(), true))
-        C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.FLOATSAFE, emptyList(), true))
+        C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.FULL, emptyList(), false, false))
+        C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.KERNALSAFE, emptyList(), false, false))
+        C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.BASICSAFE, emptyList(), false, false))
+        C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.FLOATSAFE, emptyList(), false, false))
+        C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.BASICSAFE, emptyList(), true, false))
+        C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.FLOATSAFE, emptyList(), true, false))
         assertFailsWith<CompilerException> {
-            C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.FULL, emptyList(), true))
+            C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.FULL, emptyList(), true, false))
         }
         assertFailsWith<CompilerException> {
-            C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.KERNALSAFE, emptyList(), true))
+            C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.KERNALSAFE, emptyList(), true, false))
         }
     }
 
     @Test
     fun testZpDontuse() {
-        val zp = C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.DONTUSE, emptyList(), false))
+        val zp = C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.DONTUSE, emptyList(), false, false))
         println(zp.free)
         assertEquals(0, zp.available())
         assertFailsWith<CompilerException> {
@@ -182,19 +183,19 @@ class TestZeropage {
 
     @Test
     fun testFreeSpaces() {
-        val zp1 = C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.BASICSAFE, emptyList(), true))
-        assertEquals(16, zp1.available())
-        val zp2 = C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.FLOATSAFE, emptyList(), false))
-        assertEquals(91, zp2.available())
-        val zp3 = C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.KERNALSAFE, emptyList(), false))
+        val zp1 = C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.BASICSAFE, emptyList(), true, false))
+        assertEquals(18, zp1.available())
+        val zp2 = C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.FLOATSAFE, emptyList(), false, false))
+        assertEquals(89, zp2.available())
+        val zp3 = C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.KERNALSAFE, emptyList(), false, false))
         assertEquals(125, zp3.available())
-        val zp4 = C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.FULL, emptyList(), false))
+        val zp4 = C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.FULL, emptyList(), false, false))
         assertEquals(238, zp4.available())
     }
 
     @Test
     fun testReservedSpace() {
-        val zp1 = C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.FULL, emptyList(), false))
+        val zp1 = C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.FULL, emptyList(), false, false))
         assertEquals(238, zp1.available())
         assertTrue(50 in zp1.free)
         assertTrue(100 in zp1.free)
@@ -203,7 +204,7 @@ class TestZeropage {
         assertTrue(200 in zp1.free)
         assertTrue(255 in zp1.free)
         assertTrue(199 in zp1.free)
-        val zp2 = C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.FULL, listOf(50 .. 100, 200..255), false))
+        val zp2 = C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.FULL, listOf(50 .. 100, 200..255), false, false))
         assertEquals(139, zp2.available())
         assertFalse(50 in zp2.free)
         assertFalse(100 in zp2.free)
@@ -216,8 +217,8 @@ class TestZeropage {
 
     @Test
     fun testBasicsafeAllocation() {
-        val zp = C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.BASICSAFE, emptyList(), true))
-        assertEquals(16, zp.available())
+        val zp = C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.BASICSAFE, emptyList(), true, false))
+        assertEquals(18, zp.available())
 
         assertFailsWith<ZeropageDepletedError> {
             // in regular zp there aren't 5 sequential bytes free
@@ -239,7 +240,7 @@ class TestZeropage {
 
     @Test
     fun testFullAllocation() {
-        val zp = C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.FULL, emptyList(), false))
+        val zp = C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.FULL, emptyList(), false, false))
         assertEquals(238, zp.available())
         val loc = zp.allocate("", DataType.UWORD, null, errors)
         assertTrue(loc > 3)
@@ -269,20 +270,38 @@ class TestZeropage {
 
     @Test
     fun testEfficientAllocation() {
-        val zp = C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.BASICSAFE, emptyList(),  true))
-        assertEquals(16, zp.available())
+        val zp = C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.BASICSAFE, emptyList(),  true, false))
+        assertEquals(18, zp.available())
         assertEquals(0x04, zp.allocate("", DataType.WORD, null, errors))
         assertEquals(0x06, zp.allocate("", DataType.UBYTE, null, errors))
         assertEquals(0x0a, zp.allocate("", DataType.UBYTE, null, errors))
-        assertEquals(0x94, zp.allocate("", DataType.UWORD, null, errors))
-        assertEquals(0xa7, zp.allocate("", DataType.UWORD, null, errors))
-        assertEquals(0xa9, zp.allocate("", DataType.UWORD, null, errors))
-        assertEquals(0xb5, zp.allocate("", DataType.UWORD, null, errors))
-        assertEquals(0xf7, zp.allocate("", DataType.UWORD, null, errors))
+        assertEquals(0x9b, zp.allocate("", DataType.UWORD, null, errors))
+        assertEquals(0x9e, zp.allocate("", DataType.UWORD, null, errors))
+        assertEquals(0xa5, zp.allocate("", DataType.UWORD, null, errors))
+        assertEquals(0xb0, zp.allocate("", DataType.UWORD, null, errors))
+        assertEquals(0xbe, zp.allocate("", DataType.UWORD, null, errors))
         assertEquals(0x0e, zp.allocate("", DataType.UBYTE, null, errors))
+        assertEquals(0x92, zp.allocate("", DataType.UBYTE, null, errors))
+        assertEquals(0x96, zp.allocate("", DataType.UBYTE, null, errors))
         assertEquals(0xf9, zp.allocate("", DataType.UBYTE, null, errors))
         assertEquals(0, zp.available())
     }
+
+    @Test
+    fun testReservedLocations() {
+        val zp = C64Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.BASICSAFE, emptyList(), false, false))
+        assertEquals(zp.SCRATCH_REG, zp.SCRATCH_B1+1, "zp _B1 and _REG must be next to each other to create a word")
+    }
+}
+
+
+@TestInstance(TestInstance.Lifecycle.PER_CLASS)
+class TestCx16Zeropage {
+    @Test
+    fun testReservedLocations() {
+        val zp = CX16MachineDefinition.CX16Zeropage(CompilationOptions(OutputType.RAW, LauncherType.NONE, ZeropageType.BASICSAFE, emptyList(), false, false))
+        assertEquals(zp.SCRATCH_REG, zp.SCRATCH_B1+1, "zp _B1 and _REG must be next to each other to create a word")
+    }
 }
 
 
@@ -379,3 +398,169 @@ class TestPetscii {
         assertFalse(abc!=abc)
     }
 }
+
+
+class TestMemory {
+    @Test
+    fun testInValidRamC64_memory_addresses() {
+        CompilationTarget.instance = C64Target
+
+        var memexpr = NumericLiteralValue.optimalInteger(0x0000, Position.DUMMY)
+        var target = AssignTarget(null, null, DirectMemoryWrite(memexpr, Position.DUMMY), Position.DUMMY)
+        var scope = AnonymousScope(mutableListOf(), Position.DUMMY)
+        assertTrue(target.isInRegularRAM(scope))
+
+        memexpr = NumericLiteralValue.optimalInteger(0x1000, Position.DUMMY)
+        target = AssignTarget(null, null, DirectMemoryWrite(memexpr, Position.DUMMY), Position.DUMMY)
+        scope = AnonymousScope(mutableListOf(), Position.DUMMY)
+        assertTrue(target.isInRegularRAM(scope))
+
+        memexpr = NumericLiteralValue.optimalInteger(0x9fff, Position.DUMMY)
+        target = AssignTarget(null, null, DirectMemoryWrite(memexpr, Position.DUMMY), Position.DUMMY)
+        scope = AnonymousScope(mutableListOf(), Position.DUMMY)
+        assertTrue(target.isInRegularRAM(scope))
+
+        memexpr = NumericLiteralValue.optimalInteger(0xc000, Position.DUMMY)
+        target = AssignTarget(null, null, DirectMemoryWrite(memexpr, Position.DUMMY), Position.DUMMY)
+        scope = AnonymousScope(mutableListOf(), Position.DUMMY)
+        assertTrue(target.isInRegularRAM(scope))
+
+        memexpr = NumericLiteralValue.optimalInteger(0xcfff, Position.DUMMY)
+        target = AssignTarget(null, null, DirectMemoryWrite(memexpr, Position.DUMMY), Position.DUMMY)
+        scope = AnonymousScope(mutableListOf(), Position.DUMMY)
+        assertTrue(target.isInRegularRAM(scope))
+    }
+
+    @Test
+    fun testNotInValidRamC64_memory_addresses() {
+        CompilationTarget.instance = C64Target
+
+        var memexpr = NumericLiteralValue.optimalInteger(0xa000, Position.DUMMY)
+        var target = AssignTarget(null, null, DirectMemoryWrite(memexpr, Position.DUMMY), Position.DUMMY)
+        var scope = AnonymousScope(mutableListOf(), Position.DUMMY)
+        assertFalse(target.isInRegularRAM(scope))
+
+        memexpr = NumericLiteralValue.optimalInteger(0xafff, Position.DUMMY)
+        target = AssignTarget(null, null, DirectMemoryWrite(memexpr, Position.DUMMY), Position.DUMMY)
+        scope = AnonymousScope(mutableListOf(), Position.DUMMY)
+        assertFalse(target.isInRegularRAM(scope))
+
+        memexpr = NumericLiteralValue.optimalInteger(0xd000, Position.DUMMY)
+        target = AssignTarget(null, null, DirectMemoryWrite(memexpr, Position.DUMMY), Position.DUMMY)
+        scope = AnonymousScope(mutableListOf(), Position.DUMMY)
+        assertFalse(target.isInRegularRAM(scope))
+
+        memexpr = NumericLiteralValue.optimalInteger(0xffff, Position.DUMMY)
+        target = AssignTarget(null, null, DirectMemoryWrite(memexpr, Position.DUMMY), Position.DUMMY)
+        scope = AnonymousScope(mutableListOf(), Position.DUMMY)
+        assertFalse(target.isInRegularRAM(scope))
+    }
+
+    @Test
+    fun testInValidRamC64_memory_identifiers() {
+        CompilationTarget.instance = C64Target
+        var target = createTestProgramForMemoryRefViaVar(0x1000, VarDeclType.VAR)
+        assertTrue(target.isInRegularRAM(target.definingScope()))
+        target = createTestProgramForMemoryRefViaVar(0xd020, VarDeclType.VAR)
+        assertFalse(target.isInRegularRAM(target.definingScope()))
+        target = createTestProgramForMemoryRefViaVar(0x1000, VarDeclType.CONST)
+        assertTrue(target.isInRegularRAM(target.definingScope()))
+        target = createTestProgramForMemoryRefViaVar(0xd020, VarDeclType.CONST)
+        assertFalse(target.isInRegularRAM(target.definingScope()))
+        target = createTestProgramForMemoryRefViaVar(0x1000, VarDeclType.MEMORY)
+        assertFalse(target.isInRegularRAM(target.definingScope()))
+    }
+
+    @Test
+    private fun createTestProgramForMemoryRefViaVar(address: Int, vartype: VarDeclType): AssignTarget {
+        val decl = VarDecl(vartype, DataType.BYTE, ZeropageWish.DONTCARE, null, "address", null, NumericLiteralValue.optimalInteger(address, Position.DUMMY), false, false, Position.DUMMY)
+        val memexpr = IdentifierReference(listOf("address"), Position.DUMMY)
+        val target = AssignTarget(null, null, DirectMemoryWrite(memexpr, Position.DUMMY), Position.DUMMY)
+        val assignment = Assignment(target, NumericLiteralValue.optimalInteger(0, Position.DUMMY), Position.DUMMY)
+        val subroutine = Subroutine("test", emptyList(), emptyList(), emptyList(), emptyList(), emptySet(), null, false, mutableListOf(decl, assignment), Position.DUMMY)
+        subroutine.linkParents(ParentSentinel)
+        return target
+    }
+
+    @Test
+    fun testInValidRamC64_memory_expression() {
+        CompilationTarget.instance = C64Target
+        val memexpr = PrefixExpression("+", NumericLiteralValue.optimalInteger(0x1000, Position.DUMMY), Position.DUMMY)
+        val target = AssignTarget(null, null, DirectMemoryWrite(memexpr, Position.DUMMY), Position.DUMMY)
+        val scope = AnonymousScope(mutableListOf(), Position.DUMMY)
+        assertFalse(target.isInRegularRAM(scope))
+    }
+
+    @Test
+    fun testInValidRamC64_variable() {
+        CompilationTarget.instance = C64Target
+        val decl = VarDecl(VarDeclType.VAR, DataType.BYTE, ZeropageWish.DONTCARE, null, "address", null, null, false, false, Position.DUMMY)
+        val target = AssignTarget(IdentifierReference(listOf("address"), Position.DUMMY), null, null, Position.DUMMY)
+        val assignment = Assignment(target, NumericLiteralValue.optimalInteger(0, Position.DUMMY), Position.DUMMY)
+        val subroutine = Subroutine("test", emptyList(), emptyList(), emptyList(), emptyList(), emptySet(), null, false, mutableListOf(decl, assignment), Position.DUMMY)
+        subroutine.linkParents(ParentSentinel)
+        assertTrue(target.isInRegularRAM(target.definingScope()))
+    }
+
+    @Test
+    fun testInValidRamC64_memmap_variable() {
+        CompilationTarget.instance = C64Target
+        val address = 0x1000
+        val decl = VarDecl(VarDeclType.MEMORY, DataType.UBYTE, ZeropageWish.DONTCARE, null, "address", null, NumericLiteralValue.optimalInteger(address, Position.DUMMY), false, false, Position.DUMMY)
+        val target = AssignTarget(IdentifierReference(listOf("address"), Position.DUMMY), null, null, Position.DUMMY)
+        val assignment = Assignment(target, NumericLiteralValue.optimalInteger(0, Position.DUMMY), Position.DUMMY)
+        val subroutine = Subroutine("test", emptyList(), emptyList(), emptyList(), emptyList(), emptySet(), null, false, mutableListOf(decl, assignment), Position.DUMMY)
+        subroutine.linkParents(ParentSentinel)
+        assertTrue(target.isInRegularRAM(target.definingScope()))
+    }
+
+    @Test
+    fun testNotInValidRamC64_memmap_variable() {
+        CompilationTarget.instance = C64Target
+        val address = 0xd020
+        val decl = VarDecl(VarDeclType.MEMORY, DataType.UBYTE, ZeropageWish.DONTCARE, null, "address", null, NumericLiteralValue.optimalInteger(address, Position.DUMMY), false, false, Position.DUMMY)
+        val target = AssignTarget(IdentifierReference(listOf("address"), Position.DUMMY), null, null, Position.DUMMY)
+        val assignment = Assignment(target, NumericLiteralValue.optimalInteger(0, Position.DUMMY), Position.DUMMY)
+        val subroutine = Subroutine("test", emptyList(), emptyList(), emptyList(), emptyList(), emptySet(), null, false, mutableListOf(decl, assignment), Position.DUMMY)
+        subroutine.linkParents(ParentSentinel)
+        assertFalse(target.isInRegularRAM(target.definingScope()))
+    }
+
+    @Test
+    fun testInValidRamC64_array() {
+        CompilationTarget.instance = C64Target
+        val decl = VarDecl(VarDeclType.VAR, DataType.ARRAY_UB, ZeropageWish.DONTCARE, null, "address", null, null, false, false, Position.DUMMY)
+        val arrayindexed = ArrayIndexedExpression(IdentifierReference(listOf("address"), Position.DUMMY), ArrayIndex(NumericLiteralValue.optimalInteger(1, Position.DUMMY), Position.DUMMY), Position.DUMMY)
+        val target = AssignTarget(null, arrayindexed, null, Position.DUMMY)
+        val assignment = Assignment(target, NumericLiteralValue.optimalInteger(0, Position.DUMMY), Position.DUMMY)
+        val subroutine = Subroutine("test", emptyList(), emptyList(), emptyList(), emptyList(), emptySet(), null, false, mutableListOf(decl, assignment), Position.DUMMY)
+        subroutine.linkParents(ParentSentinel)
+        assertTrue(target.isInRegularRAM(target.definingScope()))
+    }
+
+    @Test
+    fun testInValidRamC64_array_memmapped() {
+        CompilationTarget.instance = C64Target
+        val address = 0x1000
+        val decl = VarDecl(VarDeclType.MEMORY, DataType.ARRAY_UB, ZeropageWish.DONTCARE, null, "address", null, NumericLiteralValue.optimalInteger(address, Position.DUMMY), false, false, Position.DUMMY)
+        val arrayindexed = ArrayIndexedExpression(IdentifierReference(listOf("address"), Position.DUMMY), ArrayIndex(NumericLiteralValue.optimalInteger(1, Position.DUMMY), Position.DUMMY), Position.DUMMY)
+        val target = AssignTarget(null, arrayindexed, null, Position.DUMMY)
+        val assignment = Assignment(target, NumericLiteralValue.optimalInteger(0, Position.DUMMY), Position.DUMMY)
+        val subroutine = Subroutine("test", emptyList(), emptyList(), emptyList(), emptyList(), emptySet(), null, false, mutableListOf(decl, assignment), Position.DUMMY)
+        subroutine.linkParents(ParentSentinel)
+        assertTrue(target.isInRegularRAM(target.definingScope()))
+    }
+
+    @Test
+    fun testNotValidRamC64_array_memmapped() {
+        CompilationTarget.instance = C64Target
+        val address = 0xe000
+        val decl = VarDecl(VarDeclType.MEMORY, DataType.ARRAY_UB, ZeropageWish.DONTCARE, null, "address", null, NumericLiteralValue.optimalInteger(address, Position.DUMMY), false, false, Position.DUMMY)
+        val arrayindexed = ArrayIndexedExpression(IdentifierReference(listOf("address"), Position.DUMMY), ArrayIndex(NumericLiteralValue.optimalInteger(1, Position.DUMMY), Position.DUMMY), Position.DUMMY)
+        val target = AssignTarget(null, arrayindexed, null, Position.DUMMY)
+        val assignment = Assignment(target, NumericLiteralValue.optimalInteger(0, Position.DUMMY), Position.DUMMY)
+        val subroutine = Subroutine("test", emptyList(), emptyList(), emptyList(), emptyList(), emptySet(), null, false, mutableListOf(decl, assignment), Position.DUMMY)
+        subroutine.linkParents(ParentSentinel)
+        assertFalse(target.isInRegularRAM(target.definingScope()))
+    }
+}

docs/source/building.rst

@@ -41,7 +41,7 @@ of that build task, you can start the compiler with:
 
 (You should probably make an alias...)
 
-.. note::
+.. hint::
     Development and testing is done on Linux, but the compiler should run on most
     operating systems. If you do have trouble building or running
     the compiler on another operating system, please let me know!
@@ -83,7 +83,7 @@ For normal use the compiler is invoked with the command:
 By default, assembly code is generated and written to ``sourcefile.asm``.
 It is then (automatically) fed to the `64tass <https://sourceforge.net/projects/tass64/>`_ cross assembler tool
 that assembles it into the final program.
-If you use the option to let the compiler auto-start a C-64 emulator, it will do so after
+If you use the option to let the compiler auto-start an emulator, it will do so after
 a successful compilation. This will load your program and the symbol and breakpoint lists
 (for the machine code monitor) into the emulator.
 
@@ -93,6 +93,8 @@ Almost instant compilation times (less than a second) can be achieved when using
 Start the compiler with the ``-watch`` argument to enable this.
 It will compile your program and then instead of exiting, it waits for any changes in the module source files.
 As soon as a change happens, the program gets compiled again.
+It is possible to use the watch mode with multiple modules as well, but it will
+recompile everything in that list even if only of the files got updated.
 
 Other options
 ^^^^^^^^^^^^^
@@ -109,8 +111,8 @@ A module source file is a text file with the ``.p8`` suffix, containing the prog
 It consists of compilation options and other directives, imports of other modules,
 and source code for one or more code blocks.
 
-Prog8 has a couple of *LIBRARY* modules that are defined in special internal files provided by the compiler:
-``c64lib``, ``c64utils``, ``c64flt`` and ``prog8lib``. You should not overwrite these or reuse their names.
+Prog8 has various *LIBRARY* modules that are defined in special internal files provided by the compiler.
+You should not overwrite these or reuse their names.
 They are embedded into the packaged release version of the compiler so you don't have to worry about
 where they are, but their names are still reserved.
 
@@ -149,10 +151,10 @@ If your running program hits one of the breakpoints, Vice will halt execution an
 Troubleshooting
 ---------------
 
-Getting an assembler error about undefined symbols such as ``not defined 'c64flt'``?
-This happens when your program uses floating point values, and you forgot to import ``c64flt`` library.
+Getting an assembler error about undefined symbols such as ``not defined 'floats'``?
+This happens when your program uses floating point values, and you forgot to import ``floats`` library.
 If you use floating points, the compiler needs routines from that library.
-Fix it by adding an ``%import c64flt``.
+Fix it by adding an ``%import floats``.
 
 
 Examples

docs/source/index.rst

@@ -12,6 +12,7 @@ What is Prog8?
 
 This is an experimental compiled programming language targeting the 8-bit
 `6502 <https://en.wikipedia.org/wiki/MOS_Technology_6502>`_ /
+`65c02 <https://en.wikipedia.org/wiki/MOS_Technology_65C02>`_ /
 `6510 <https://en.wikipedia.org/wiki/MOS_Technology_6510>`_ microprocessor.
 This CPU is from the late 1970's and early 1980's and was used in many home computers from that era,
 such as the `Commodore-64 <https://en.wikipedia.org/wiki/Commodore_64>`_.
@@ -37,49 +38,70 @@ This software is licensed under the GNU GPL 3.0, see https://www.gnu.org/license
     :alt: Fully playable tetris clone
 
 
-Code examples
--------------
+Language features
+-----------------
+
+- It is a cross-compiler running on modern machines (Linux, MacOS, Windows, ...)
+  The generated output is a machine code program runnable on actual 8-bit 6502 hardware.
+- Provide a very convenient edit/compile/run cycle by being able to directly launch
+  the compiled program in an emulator and provide debugging information to this emulator.
+- Based on simple and familiar imperative structured programming (it looks like a mix of C and Python)
+- Modular programming and scoping via modules, code blocks, and subroutines.
+- Provide high level programming constructs but at the same time stay close to the metal;
+  still able to directly use memory addresses and ROM subroutines,
+  and inline assembly to have full control when every register, cycle or byte matters
+- Arbitrary number of subroutine parameters, Complex nested expressions are possible
+- No stack frame allocations because parameters and local variables are automatically allocated statically
+- Nested subroutines can access variables from outer scopes to avoids the overhead to pass everything via parameters
+- Variable data types include signed and unsigned bytes and words, arrays, strings and floats.
+- High-level code optimizations, such as const-folding, expression and statement simplifications/rewriting.
+- Many built-in functions, such as ``sin``, ``cos``, ``rnd``, ``abs``, ``min``, ``max``, ``sqrt``, ``msb``, ``rol``, ``ror``, ``swap``, ``memset``, ``memcopy``, ``substr``, ``sort`` and ``reverse`` (and others)
+- If you only use standard kernel and prog8 library routines, it is possible to compile the *exact same program* for both machines (just change the compiler target flag)!
+
+
+Code example
+------------
 
 This code calculates prime numbers using the Sieve of Eratosthenes algorithm::
 
-    %import c64utils
+    %import textio
     %zeropage basicsafe
 
     main {
-
         ubyte[256] sieve
-        ubyte candidate_prime = 2
+        ubyte candidate_prime = 2       ; is increased in the loop
 
         sub start() {
+            ; clear the sieve, to reset starting situation on subsequent runs
             memset(sieve, 256, false)
-
-            c64scr.print("prime numbers up to 255:\n\n")
+            ; calculate primes
+            txt.print("prime numbers up to 255:\n\n")
             ubyte amount=0
-            while true {
+            repeat {
                 ubyte prime = find_next_prime()
                 if prime==0
                     break
-                c64scr.print_ub(prime)
-                c64scr.print(", ")
+                txt.print_ub(prime)
+                txt.print(", ")
                 amount++
             }
-            c64.CHROUT('\n')
-            c64scr.print("number of primes (expected 54): ")
-            c64scr.print_ub(amount)
-            c64.CHROUT('\n')
+            txt.chrout('\n')
+            txt.print("number of primes (expected 54): ")
+            txt.print_ub(amount)
+            txt.chrout('\n')
         }
 
-
         sub find_next_prime() -> ubyte {
-
             while sieve[candidate_prime] {
                 candidate_prime++
                 if candidate_prime==0
-                    return 0
+                    return 0        ; we wrapped; no more primes available in the sieve
             }
 
+            ; found next one, mark the multiples and return it.
             sieve[candidate_prime] = true
             uword multiple = candidate_prime
+
             while multiple < len(sieve) {
                 sieve[lsb(multiple)] = true
                 multiple += candidate_prime
@@ -95,69 +117,12 @@ when compiled an ran on a C-64 you get this:
     :align: center
     :alt: result when run on C-64
 
+when the exact same program is compiled for the Commander X16 target, and run on the emulator, you get this:
 
-The following programs shows a use of the high level ``struct`` type::
+.. image:: _static/primes_cx16.png
+    :align: center
+    :alt: result when run on CX16 emulator
 
-    %import c64utils
-    %zeropage basicsafe
-
-    main {
-
-        struct Color {
-            ubyte red
-            ubyte green
-            ubyte blue
-        }
-
-        sub start() {
-
-            Color purple = {255, 0, 255}
-            Color other
-            other = purple
-            other.red /= 2
-            other.green = 10 + other.green / 2
-            other.blue = 99
-
-            c64scr.print_ub(other.red)
-            c64.CHROUT(',')
-            c64scr.print_ub(other.green)
-            c64.CHROUT(',')
-            c64scr.print_ub(other.blue)
-            c64.CHROUT('\n')
-        }
-    }
-
-when compiled and ran, it prints  ``127,10,99`` on the screen.
-
-
-Design principles and features
-------------------------------
-
-- It is a cross-compiler running on modern machines (Linux, MacOS, Windows, ...)
-  The generated output is a machine code program runnable on actual 8-bit 6502 hardware.
-- Based on simple and familiar imperative structured programming (it looks like a mix of C and Python)
-- 'One statement per line' code, resulting in clear readable programs.
-- Modular programming and scoping via modules, code blocks, and subroutines.
-- Provide high level programming constructs but at the same time stay close to the metal;
-  still able to directly use memory addresses, CPU registers and ROM subroutines,
-  and inline assembly to have full control when every cycle or byte matters
-- Arbitrary number of subroutine parameters
-- Complex nested expressions are possible
-- Nested subroutines can access variables from outer scopes to avoids the overhead to pass everything via parameters
-- Values are typed. Available data types include signed and unsigned bytes and words, arrays, strings and floats.
-- No dynamic memory allocation or sizing! All variables stay fixed size as determined at compile time.
-- Provide various quality of life language features and library subroutines specifically for the target platform.
-- Provide a very convenient edit/compile/run cycle by being able to directly launch
-  the compiled program in an emulator and provide debugging information to this emulator.
-- Arbitrary control flow jumps and branches are possible,
-  and will usually translate directly into the appropriate single 6502 jump/branch instruction.
-- There are no complicated built-in error handling or overflow checks, you'll have to take care
-  of this yourself if required. This keeps the language and code simple and efficient.
-- The compiler tries to optimize the program and generated code a bit, but hand-tuning of the
-  performance or space-critical parts will likely still be required. This is supported by
-  the ability to easily write embedded assembly code directly in the program source code.
-- There are many built-in functions, such as ``sin``, ``cos``, ``rnd``, ``abs``, ``min``, ``max``, ``sqrt``, ``msb``, ``rol``, ``ror``, ``swap``, ``memset``, ``memcopy``, ``substr``, ``sort`` and ``reverse`` (and others)
-- Assembling the generated code into a program wil be done by an external cross-assembler tool.
 
 
 .. _requirements:
@@ -168,13 +133,17 @@ Required tools
 `64tass <https://sourceforge.net/projects/tass64/>`_ - cross assembler. Install this on your shell path.
 It's very easy to compile yourself.
 A recent precompiled .exe for Windows can be obtained from my `clone <https://github.com/irmen/64tass/releases>`_ of this project.
+*You need at least version 1.55.2257 of this assembler to correctly use the breakpoints feature.*
+It's possible to use older versions, but it is very likely that the automatic Vice breakpoints won't work with them.
 
-A **Java runtime (jre or jdk), version 8 or newer**  is required to run the prog8 compiler itself.
-If you're scared of Oracle's licensing terms, most Linux distributions ship OpenJDK instead.
-Fnd for Windows it's possible to get that as well. Check out `AdoptOpenJDK <https://adoptopenjdk.net/>`_ .
+A **Java runtime (jre or jdk), version 11 or newer**  is required to run the prog8 compiler itself.
+If you're scared of Oracle's licensing terms, most Linux distributions ship OpenJDK in their packages repository instead.
+For Windows it's possible to get that as well; check out `AdoptOpenJDK <https://adoptopenjdk.net/>`_ .
+For MacOS you can use the Homebrew system to install a recent version of OpenJDK.
 
-Finally: a **C-64 emulator** (or a real C-64 ofcourse) can be nice to test and run your programs on.
-The compiler assumes the presence of the `Vice emulator <http://vice-emu.sourceforge.net/>`_.
+Finally: an **emulator** (or a real machine ofcourse) to test and run your programs on.
+In C64 mode, thhe compiler assumes the presence of the `Vice emulator <http://vice-emu.sourceforge.net/>`_.
+If you're targeting the CommanderX16 instead, there's the `x16emu <https://github.com/commanderx16/x16-emulator>`_.
 
 .. important::
     **Building the compiler itself:** (*Only needed if you have not downloaded a pre-built 'fat-jar'*)
@@ -195,6 +164,7 @@ The compiler assumes the presence of the `Vice emulator <http://vice-emu.sourcef
     building.rst
     programming.rst
     syntaxreference.rst
+    libraries.rst
     todo.rst
 
 

docs/source/libraries.rst

@@ -0,0 +1,94 @@
+************************
+Compiler library modules
+************************
+
+The compiler provides several "built-in" library modules with useful subroutine and variables.
+
+Some of these may be specific for a certain compilation target, or work slightly different,
+but some effort is put into making them available across compilation targets.
+
+This means that as long as your program is only using the subroutines from these
+libraries and not using hardware- and/or system dependent code, and isn't hardcoding certain
+assumptions like the screen size, the exact same source program can
+be compiled for multiple different target platforms. Many of the example programs that come
+with Prog8 are written like this.
+
+You can ``%import`` and use these modules explicitly, but the compiler may also import one or more
+of these library modules automatically as required.
+
+.. caution::
+    The resulting compiled binary program *only works on the target machine it was compiled for*.
+    You must recompile the program for every target you want to run it on.
+
+
+
+syslib
+------
+The "system library" for your target machine. It contains many system-specific definitions such
+as ROM/kernal subroutine definitions, memory location constants, and utility subroutines.
+
+Many of these definitions overlap for the C64 and Commander X16 targets so it is still possible
+to write programs that work on both targets without modifications.
+
+conv
+----
+Routines to convert strings to numbers or vice versa.
+
+- numbers to strings, in various formats (binary, hex, decimal)
+- strings in decimal, hex and binary format into numbers
+
+
+textio (txt.*)
+--------------
+This will probably be the most used library module. It contains a whole lot of routines
+dealing with text-based input and output (to the screen). Such as
+
+- printing strings and numbers
+- reading text input from the user via the keyboard
+- filling or clearing the screen and colors
+- scrolling the text on the screen
+- placing individual characters on the screen
+
+
+diskio
+------
+Provides several routines that deal with disk drive I/O, such as:
+
+- show directory
+- display disk drive status
+- load and save data from and to the disk
+- delete and rename files on the disk
+
+
+floats
+------
+Provides definitions for the ROM/kernel subroutines and utility routines dealing with floating
+point variables.  This includes ``print_f``, the routine used to print floating point numbers.
+
+
+graphics
+--------
+High-res monochrome bitmap graphics routines:
+
+- clearing the screen
+- drawing lines
+- drawing circles and discs (filled circles)
+- plotting individual pixels
+
+
+math
+----
+Low level math routines. You should not normally have to bother with this directly.
+The compiler needs it to implement most of the math operations in your programs.
+
+
+cx16logo
+--------
+A 'fun' module that contains the Commander X16 logo and that allows you
+to print it anywhere on the screen.
+
+
+prog8_lib
+---------
+Low level language support. You should not normally have to bother with this directly.
+The compiler needs it for verious built-in system routines.

docs/source/programming.rst

@@ -50,7 +50,7 @@ Code
     There are different kinds of instructions ('statements' is a better name) such as:
 
     - value assignment
-    - looping  (for, while, repeat, unconditional jumps)
+    - looping  (for, while, do-until, repeat, unconditional jumps)
     - conditional execution (if - then - else, when, and conditional jumps)
     - subroutine calls
     - label definition
@@ -137,7 +137,7 @@ Scopes are created using either of these two statements:
 
 .. important::
     Unlike most other programming languages, a new scope is *not* created inside
-    for, while and repeat statements, the if statement, and the branching conditionals.
+    for, while, repeat, and do-until statements, the if statement, and the branching conditionals.
     These all share the same scope from the subroutine they're defined in.
     You can define variables in these blocks, but these will be treated as if they
     were defined in the subroutine instead.
@@ -204,13 +204,6 @@ Example::
     byte  @zp  zeropageCounter = 42
 
 
-Variables that represent CPU hardware registers
-^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
-
-The following variables are reserved
-and map directly (read/write) to a CPU hardware register: ``A``, ``X``, ``Y``.
-
-
 Integers
 ^^^^^^^^
 
@@ -233,7 +226,7 @@ This is because routines in the C-64 BASIC and KERNAL ROMs are used for that.
 So floating point operations will only work if the C-64 BASIC ROM (and KERNAL ROM)
 are banked in.
 
-Also your code needs to import the ``c64flt`` library to enable floating point support
+Also your code needs to import the ``floats`` library to enable floating point support
 in the compiler, and to gain access to the floating point routines.
 (this library contains the directive to enable floating points, you don't have
 to worry about this yourself)
@@ -243,12 +236,15 @@ The largest 5-byte MFLPT float that can be stored is: **1.7014118345e+38**   (ne
 
 Arrays
 ^^^^^^
-Array types are also supported. They can be made of bytes, words or floats::
+Array types are also supported. They can be made of bytes, words or floats, strings, and other arrays
+(although the usefulness of the latter is very limited for now)::
 
     byte[10]  array                   ; array of 10 bytes, initially set to 0
     byte[]  array = [1, 2, 3, 4]      ; initialize the array, size taken from value
     byte[99] array = 255              ; initialize array with 99 times 255 [255, 255, 255, 255, ...]
     byte[] array = 100 to 199         ; initialize array with [100, 101, ..., 198, 199]
+    str[] names = ["ally", "pete"]    ; array of string pointers/addresses (equivalent to uword)
+    uword[] others = [names, array]   ; array of pointers/addresses to other arrays
 
     value = array[3]            ; the fourth value in the array (index is 0-based)
     char = string[4]            ; the fifth character (=byte) in the string
@@ -265,6 +261,22 @@ can't be used as *identifiers* elsewhere. You can't make a variable, block or su
 for instance.
 
 
+It's possible to assign a new array to another array, this will overwrite all elements in the original
+array with those in the value array. The number and types of elements have to match.
+For large arrays this is a slow operation because every element is copied over. It should probably be avoided.
+
+
+**Arrays at a specific memory location:**
+Using the memory-mapped syntax it is possible to define an array to be located at a specific memory location.
+For instance to reference the first 5 rows of the Commodore 64's screen matrix as an array, you can define::
+
+    &ubyte[5*40]  top5screenrows = $0400
+
+This way you can set the second character on the second row from the top like this::
+
+    top5screenrows[41] = '!'
+
+
 Strings
 ^^^^^^^
 
@@ -281,7 +293,7 @@ This @-prefix can also be used for character byte values.
 You can concatenate two string literals using '+' (not very useful though) or repeat
 a string literal a given number of times using '*'. You can also assign a new string
 value to another string. No bounds check is done so be sure the destination string is
-large enough to contain the new value::
+large enough to contain the new value (it is overwritten in memory)::
 
     str string1 = "first part" + "second part"
     str string2 = "hello!" * 10
@@ -290,6 +302,18 @@ large enough to contain the new value::
     string1 = "new value"
 
 
+There are several 'escape sequences' to help you put special characters into strings, such
+as newlines, quote characters themselves, and so on. The ones used most often are
+``\\``, ``\"``, ``\n``, ``\r``.  For a detailed description of all of them and what they mean,
+read the syntax reference on strings.
+
+
+.. hint::
+    Strings and uwords (=memory address) can often be interchanged.
+    An array of strings is actually an array of uwords where every element is the memory
+    address of the string. You can pass a memory address to assembly functions
+    that require a string as an argument.
+
 .. caution::
     It's probably best to avoid changing strings after they've been created. This
     includes changing certain letters by index, or by assigning a new value, or by
@@ -324,7 +348,7 @@ and then create a variable with it::
         ubyte blue
     }
 
-    Color rgb = {255,122,0}     ; note the curly braces here instead of brackets
+    Color rgb = [255,122,0]     ; note that struct initializer value is same as an array
     Color another               ; the init value is optional, like arrays
 
     another = rgb           ; assign all of the values of rgb to another
@@ -349,13 +373,6 @@ address you specified, and setting the varible will directly modify that memory
 	&word  SCREENCOLORS = $d020             ; a 16-bit word at the addres $d020-$d021
 
 
-.. note::
-    Directly accessing random memory locations is not yet supported without the
-    intermediate step of declaring a memory-mapped variable for the memory location.
-    The advantages of this however, is that it's clearer what the memory location
-    stands for, and the compiler also knows the data type.
-
-
 Converting types into other types
 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
 
@@ -393,21 +410,21 @@ expected when the program is restarted.
 Loops
 -----
 
-The *for*-loop is used to let a variable (or register) iterate over a range of values. Iteration is done in steps of 1, but you can change this.
+The *for*-loop is used to let a variable iterate over a range of values. Iteration is done in steps of 1, but you can change this.
 The loop variable must be declared as byte or word earlier so you can reuse it for multiple occasions.
 Iterating with a floating point variable is not supported. If you want to loop over a floating-point array, use a loop with an integer index variable instead.
 
 The *while*-loop is used to repeat a piece of code while a certain condition is still true.
-The *repeat--until* loop is used to repeat a piece of code until a certain condition is true.
-
-The *forever*-loop is used to simply run a piece of code in a loop, forever. You can still
-break out of this loop if desired. A "while true" or "until false" loop is equivalent to
-a forever-loop.
+The *do--until* loop is used to repeat a piece of code until a certain condition is true.
+The *repeat* loop is used as a short notation of a for loop where the loop variable doesn't matter and you're only interested in the number of iterations.
+(without iteration count specified it simply loops forever).
 
 You can also create loops by using the ``goto`` statement, but this should usually be avoided.
 
+Breaking out of a loop prematurely is possible with the ``break`` statement.
+
 .. attention::
-    The value of the loop variable or register after executing the loop *is undefined*. Don't use it immediately
+    The value of the loop variable after executing the loop *is undefined*. Don't use it immediately
     after the loop without first assigning a new value to it!
     (this is an optimization issue to avoid having to deal with mostly useless post-loop logic to adjust the loop variable's value)
 
@@ -421,15 +438,15 @@ if statements
 Conditional execution means that the flow of execution changes based on certiain conditions,
 rather than having fixed gotos or subroutine calls::
 
-	if A>4 goto overflow
+	if aa>4 goto overflow
 
-	if X==3  Y = 4
-	if X==3  Y = 4 else  A = 2
+	if xx==3  yy = 4
+	if xx==3  yy = 4 else  aa = 2
 
-	if X==5 {
-		Y = 99
+	if xx==5 {
+		yy = 99
 	} else {
-		A = 3
+		aa = 3
 	}
 
 
@@ -493,16 +510,16 @@ Assignments
 -----------
 
 Assignment statements assign a single value to a target variable or memory location.
-Augmented assignments (such as ``A += X``) are also available, but these are just shorthands
-for normal assignments (``A = A + X``).
+Augmented assignments (such as ``aa += xx``) are also available, but these are just shorthands
+for normal assignments (``aa = aa + xx``).
 
-Only register variables and variables of type byte, word and float can be assigned a new value.
+Only variables of type byte, word and float can be assigned a new value.
 It's not possible to set a new value to string or array variables etc, because they get allocated
-a fixed amount of memory which will not change.
+a fixed amount of memory which will not change.  (You *can* change the value of elements in a string or array though).
 
 .. attention::
     **Data type conversion (in assignments):**
-    When assigning a value with a 'smaller' datatype to a register or variable with a 'larger' datatype,
+    When assigning a value with a 'smaller' datatype to variable with a 'larger' datatype,
     the value will be automatically converted to the target datatype:  byte --> word --> float.
     So assigning a byte to a word variable, or a word to a floating point variable, is fine.
     The reverse is *not* true: it is *not* possible to assign a value of a 'larger' datatype to
@@ -518,7 +535,7 @@ as the memory mapped address $d021.
 If you want to access a memory location directly (by using the address itself), without defining
 a memory mapped location, you can do so by enclosing the address in ``@(...)``::
 
-    A = @($d020)      ; set the A register to the current c64 screen border color ("peek(53280)")
+    color = @($d020)  ; set the variable 'color' to the current c64 screen border color ("peek(53280)")
     @($d020) = 0      ; set the c64 screen border to black ("poke 53280,0")
     @(vic+$20) = 6    ; you can also use expressions to 'calculate' the address
 
@@ -575,25 +592,24 @@ within parentheses will be evaluated first. So ``(4 + 8) * 2`` is 24 and not 20,
 and ``(true or false) and false`` is false instead of true.
 
 .. attention::
-    **calculations keep their datatype:**
+    **calculations keep their datatype even if the target variable is larger:**
     When you do calculations on a BYTE type, the result will remain a BYTE.
     When you do calculations on a WORD type, the result will remain a WORD.
     For instance::
 
         byte b = 44
         word w = b*55   ; the result will be 116! (even though the target variable is a word)
-        w *= 999        ; the result will be -15188  (the multiplication stays within a word)
+        w *= 999        ; the result will be -15188  (the multiplication stays within a word, but overflows)
 
-    The compiler will NOT give a warning about this! It's doing this for
+    *The compiler does NOT warn about this!* It's doing this for
     performance reasons - so you won't get sudden 16 bit (or even float)
     calculations where you needed only simple fast byte arithmetic.
     If you do need the extended resulting value, cast at least one of the
-    operands of an operator to the larger datatype. For example::
+    operands explicitly to the larger datatype. For example::
 
         byte b = 44
-        word w = b*55.w     ; the result will be 2420
-        w = (b as word)*55  ; same result
-
+        w = (b as word)*55
+        w = b*(55 as word)
 
 
 
@@ -634,23 +650,20 @@ There's a set of predefined functions in the language. These are fixed and can't
 You can use them in expressions and the compiler will evaluate them at compile-time if possible.
 
 
-sin(x)
-	Sine.  (floating point version)
+Math
+^^^^
+
+abs(x)
+    Absolute value.
+
+atan(x)
+    Arctangent.
+
+ceil(x)
+    Rounds the floating point up to an integer towards positive infinity.
 
 cos(x)
-	Cosine.  (floating point version)
-
-sin8u(x)
-    Fast 8-bit ubyte sine of angle 0..255, result is in range 0..255
-
-sin8(x)
-    Fast 8-bit byte sine of angle 0..255, result is in range -127..127
-
-sin16u(x)
-    Fast 16-bit uword sine of angle 0..255, result is in range 0..65535
-
-sin16(x)
-    Fast 16-bit word sine of angle 0..255, result is in range -32767..32767
+    Cosine.  (floating point version)
 
 cos8u(x)
     Fast 8-bit ubyte cosine of angle 0..255, result is in range 0..255
@@ -664,14 +677,11 @@ cos16u(x)
 cos16(x)
    Fast 16-bit word cosine of angle 0..255, result is in range -32767..32767
 
-abs(x)
-    Absolute value.
+deg(x)
+    Radians to degrees.
 
-tan(x)
-    Tangent.
-
-atan(x)
-    Arctangent.
+floor (x)
+    Rounds the floating point down to an integer towards minus infinity.
 
 ln(x)
     Natural logarithm (base e).
@@ -679,26 +689,55 @@ ln(x)
 log2(x)
     Base 2 logarithm.
 
+rad(x)
+    Degrees to radians.
+
+round(x)
+    Rounds the floating point to the closest integer.
+
+sin(x)
+    Sine.  (floating point version)
+
+sgn(x)
+    Get the sign of the value. Result is -1, 0 or 1 (negative, zero, positive).
+
+sin8u(x)
+    Fast 8-bit ubyte sine of angle 0..255, result is in range 0..255
+
+sin8(x)
+    Fast 8-bit byte sine of angle 0..255, result is in range -127..127
+
+sin16u(x)
+    Fast 16-bit uword sine of angle 0..255, result is in range 0..65535
+
+sin16(x)
+    Fast 16-bit word sine of angle 0..255, result is in range -32767..32767
+
 sqrt16(w)
     16 bit unsigned integer Square root. Result is unsigned byte.
 
 sqrt(x)
     Floating point Square root.
 
-round(x)
-    Rounds the floating point to the closest integer.
+tan(x)
+    Tangent.
 
-floor (x)
-    Rounds the floating point down to an integer towards minus infinity.
 
-ceil(x)
-    Rounds the floating point up to an integer towards positive infinity.
+Array operations
+^^^^^^^^^^^^^^^^
 
-rad(x)
-    Degrees to radians.
+any(x)
+    1 ('true') if any of the values in the array value x is 'true' (not zero), else 0 ('false')
 
-deg(x)
-    Radians to degrees.
+all(x)
+    1 ('true') if all of the values in the array value x are 'true' (not zero), else 0 ('false')
+
+len(x)
+    Number of values in the array value x, or the number of characters in a string (excluding the size or 0-byte).
+    Note: this can be different from the number of *bytes* in memory if the datatype isn't a byte. See sizeof().
+    Note: lengths of strings and arrays are determined at compile-time! If your program modifies the actual
+    length of the string during execution, the value of len(string) may no longer be correct!
+    (use strlen function if you want to dynamically determine the length)
 
 max(x)
     Maximum of the values in the array value x
@@ -706,29 +745,77 @@ max(x)
 min(x)
     Minimum of the values in the array value x
 
+reverse(array)
+    Reverse the values in the array (in-place).
+    Can be used after sort() to sort an array in descending order.
+
 sum(x)
     Sum of the values in the array value x
 
 sort(array)
     Sort the array in ascending order (in-place)
-    Note: sorting a floating-point array is not supported right now, as a general sorting routine for this will
-    be extremely slow. Either build one yourself or find another solution that doesn't require sorting
-    floating point values.
+    Supported are arrays of bytes or word values.
+    Sorting a floating-point array is not supported right now, as a general sorting routine for this will
+    be extremely slow. Either build one yourself or find another solution that doesn't require sorting.
+    Finally, note that sorting an array with strings in it will not do what you might think;
+    it considers the array as just an array of integer words and sorts the string *pointers* accordingly.
+    Sorting strings alphabetically has to be programmed yourself if you need it.
 
-reverse(array)
-    Reverse the values in the array (in-place). Supports all data types including floats.
-    Can be used after sort() to sort an array in descending order.
 
-len(x)
-    Number of values in the array value x, or the number of characters in a string (excluding the size or 0-byte).
-    Note: this can be different from the number of *bytes* in memory if the datatype isn't a byte.
-    Note: lengths of strings and arrays are determined at compile-time! If your program modifies the actual
-    length of the string during execution, the value of len(string) may no longer be correct!
-    (use strlen function if you want to dynamically determine the length)
+Strings and memory blocks
+^^^^^^^^^^^^^^^^^^^^^^^^^
+memcopy(from, to, numbytes)
+    Efficiently copy a number of bytes from a memory location to another.
+    NOTE: 'to' must NOT overlap with 'from', unless it is *before* 'from'.
+    Because this function imposes some overhead to handle the parameters,
+    it is only faster if the number of bytes is larger than a certain threshold.
+    Compare the generated code to see if it was beneficial or not.
+    The most efficient will often be to write a specialized copy routine in assembly yourself!
+
+memset(address, numbytes, bytevalue)
+    Efficiently set a part of memory to the given (u)byte value.
+    But the most efficient will always be to write a specialized fill routine in assembly yourself!
+    Note that for clearing the screen, very fast specialized subroutines are
+    available in the ``textio`` and ``graphics`` library modules.
+
+memsetw(address, numwords, wordvalue)
+    Efficiently set a part of memory to the given (u)word value.
+    But the most efficient will always be to write a specialized fill routine in assembly yourself!
+
+leftstr(source, target, length)
+    Copies the left side of the source string of the given length to target string.
+    It is assumed the target string buffer is large enough to contain the result.
+    Also, you have to make sure yourself that length is smaller or equal to the length of the source string.
+    Modifies in-place, doesn't return a value (so can't be used in an expression).
+
+rightstr(source, target, length)
+    Copies the right side of the source string of the given length to target string.
+    It is assumed the target string buffer is large enough to contain the result.
+    Also, you have to make sure yourself that length is smaller or equal to the length of the source string.
+    Modifies in-place, doesn't return a value (so can't be used in an expression).
 
 strlen(str)
     Number of bytes in the string. This value is determined during runtime and counts upto
     the first terminating 0 byte in the string, regardless of the size of the string during compilation time.
+    Don't confuse this with ``len`` and ``sizeof``
+
+strcmp(string1, string2)
+    Returns -1, 0 or 1 depeding on wether string1 sorts before, equal or after string2.
+    Note that you can also directly compare strings and string values with eachother
+    using ``==``, ``<`` etcetera (it will use strcmp for you under water automatically).
+
+substr(source, target, start, length)
+    Copies a segment from the source string, starting at the given index,
+    and of the given length to target string.
+    It is assumed the target string buffer is large enough to contain the result.
+    Also, you have to make sure yourself that start and length are within bounds of the strings.
+    Modifies in-place, doesn't return a value (so can't be used in an expression).
+
+Miscellaneous
+^^^^^^^^^^^^^
+exit(returncode)
+    Immediately stops the program and exits it, with the returncode in the A register.
+    Note: custom interrupt handlers remain active unless manually cleared first!
 
 lsb(x)
     Get the least significant byte of the word x. Equivalent to the cast "x as ubyte".
@@ -736,17 +823,9 @@ lsb(x)
 msb(x)
     Get the most significant byte of the word x.
 
-sgn(x)
-    Get the sign of the value. Result is -1, 0 or 1 (negative, zero, positive).
-
-mkword(lsb, msb)
-    Efficiently create a word value from two bytes (the lsb and the msb). Avoids multiplication and shifting.
-
-any(x)
-    1 ('true') if any of the values in the array value x is 'true' (not zero), else 0 ('false')
-
-all(x)
-	1 ('true') if all of the values in the array value x are 'true' (not zero), else 0 ('false')
+mkword(msb, lsb)
+    Efficiently create a word value from two bytes (the msb and the lsb). Avoids multiplication and shifting.
+    So mkword($80, $22) results in $8022.
 
 rnd()
     returns a pseudo-random byte from 0..255
@@ -757,16 +836,6 @@ rndw()
 rndf()
     returns a pseudo-random float between 0.0 and 1.0
 
-lsl(x)
-    Shift the bits in x (byte or word) one position to the left.
-    Bit 0 is set to 0 (and the highest bit is shifted into the status register's Carry flag)
-    Modifies in-place, doesn't return a value (so can't be used in an expression).
-
-lsr(x)
-    Shift the bits in x (byte or word) one position to the right.
-    The highest bit is set to 0 (and bit 0 is shifted into the status register's Carry flag)
-    Modifies in-place, doesn't return a value (so can't be used in an expression).
-
 rol(x)
     Rotate the bits in x (byte or word) one position to the left.
     This uses the CPU's rotate semantics: bit 0 will be set to the current value of the Carry flag,
@@ -791,51 +860,6 @@ ror2(x)
     It uses some extra logic to not consider the carry flag as extra rotation bit.
     Modifies in-place, doesn't return a value (so can't be used in an expression).
 
-memcopy(from, to, numbytes)
-    Efficiently copy a number of bytes (1 - 256) from a memory location to another.
-    NOTE: 'to' must NOT overlap with 'from', unless it is *before* 'from'.
-    Because this function imposes some overhead to handle the parameters,
-    it is only faster if the number of bytes is larger than a certain threshold.
-    Compare the generated code to see if it was beneficial or not.
-    The most efficient will always be to write a specialized copy routine in assembly yourself!
-
-memset(address, numbytes, bytevalue)
-    Efficiently set a part of memory to the given (u)byte value.
-    But the most efficient will always be to write a specialized fill routine in assembly yourself!
-    Note that for clearing the character screen, very fast specialized subroutines are
-    available in the ``c64scr`` block (part of the ``c64utils`` module)
-
-memsetw(address, numwords, wordvalue)
-    Efficiently set a part of memory to the given (u)word value.
-    But the most efficient will always be to write a specialized fill routine in assembly yourself!
-
-leftstr(source, target, length)
-    Copies the left side of the source string of the given length to target string.
-    It is assumed the target string buffer is large enough to contain the result.
-    Modifies in-place, doesn't return a value (so can't be used in an expression).
-
-rightstr(source, target, length)
-    Copies the right side of the source string of the given length to target string.
-    It is assumed the target string buffer is large enough to contain the result.
-    Modifies in-place, doesn't return a value (so can't be used in an expression).
-
-substr(source, target, start, length)
-    Copies a segment from the source string, starting at the given index,
-    and of the given length to target string.
-    It is assumed the target string buffer is large enough to contain the result.
-    Modifies in-place, doesn't return a value (so can't be used in an expression).
-
-swap(x, y)
-    Swap the values of numerical variables (or memory locations) x and y in a fast way.
-
-set_carry()  /  clear_carry()
-    Set (or clear) the CPU status register Carry flag. No result value.
-    (translated into ``SEC`` or ``CLC`` cpu instruction)
-
-set_irqd()  /  clear_irqd()
-    Set (or clear) the CPU status register Interrupt Disable flag. No result value.
-    (translated into ``SEI`` or ``CLI`` cpu instruction)
-
 rsave()
     Saves the CPU registers and the status flags.
     You can now more or less 'safely' use the registers directly, until you
@@ -850,10 +874,22 @@ rrestore()
 read_flags()
     Returns the current value of the CPU status register.
 
-exit(returncode)
-    Immediately stops the program and exits it, with the returncode in the A register.
-    Note: custom interrupt handlers remain active unless manually cleared first!
+sizeof(name)
+    Number of bytes that the object 'name' occupies in memory. This is a constant determined by the data type of
+    the object. For instance, for a variable of type uword, the sizeof is 2.
+    For an 10 element array of floats, it is 50 (on the C-64, where a float is 5 bytes).
+    Note: usually you will be interested in the number of elements in an array, use len() for that.
 
+set_carry()  /  clear_carry()
+    Set (or clear) the CPU status register Carry flag. No result value.
+    (translated into ``SEC`` or ``CLC`` cpu instruction)
+
+set_irqd()  /  clear_irqd()
+    Set (or clear) the CPU status register Interrupt Disable flag. No result value.
+    (translated into ``SEI`` or ``CLI`` cpu instruction)
+
+swap(x, y)
+    Swap the values of numerical variables (or memory locations) x and y in a fast way.
 
 
 Library routines

docs/source/syntaxreference.rst

@@ -24,7 +24,7 @@ Everything after a semicolon ``;`` is a comment and is ignored.
 If the whole line is just a comment, it will be copied into the resulting assembly source code.
 This makes it easier to understand and relate the generated code. Examples::
 
-	A = 42    ; set the initial value to 42
+	counter = 42    ; set the initial value to 42
 	; next is the code that...
 
 
@@ -33,6 +33,13 @@ This makes it easier to understand and relate the generated code. Examples::
 Directives
 -----------
 
+.. data:: %target <target>
+
+    Level: module.
+    Global setting, specifies that this module can only work for the given compiler target.
+    If compiled with a different target, compilation is aborted with an error message.
+
+
 .. data:: %output <type>
 
 	Level: module.
@@ -60,7 +67,8 @@ Directives
     - style ``kernalsafe`` -- use the part of the ZP that is 'free' or only used by BASIC routines,
       and don't change anything else.  This allows full use of KERNAL ROM routines (but not BASIC routines),
       including default IRQs during normal system operation.
-      When the program exits, a system reset is performed (because BASIC will be in a corrupt state).
+      It's not possible to return cleanly to BASIC when the program exits. The only choice is
+      to perform a system reset. (A ``system_reset`` subroutine is available in the syslib to help you do this)
     - style ``floatsafe`` -- like the previous one but also reserves the addresses that
       are required to perform floating point operations (from the BASIC kernel). No clean exit is possible.
     - style ``basicsafe`` -- the most restricted mode; only use the handful 'free' addresses in the ZP, and don't
@@ -70,10 +78,11 @@ Directives
     - style ``full`` -- claim the whole ZP for variables for the program, overwriting everything,
       except the few addresses mentioned above that are used by the system's IRQ routine.
       Even though the default IRQ routine is still active, it is impossible to use most BASIC and KERNAL ROM routines.
-      This includes many floating point operations and several utility routines that do I/O, such as ``print_string``.
-      As with ``kernalsafe``, it is not possible to cleanly exit the program, other than to reset the machine.
+      This includes many floating point operations and several utility routines that do I/O, such as ``print``.
       This option makes programs smaller and faster because even more variables can
       be stored in the ZP (which allows for more efficient assembly code).
+      It's not possible to return cleanly to BASIC when the program exits. The only choice is
+      to perform a system reset. (A ``system_reset`` subroutine is available in the syslib to help you do this)
     - style ``dontuse`` -- don't use *any* location in the zeropage.
 
     Also read :ref:`zeropage`.
@@ -110,33 +119,39 @@ Directives
 
 	Level: module, block.
 	Sets special compiler options.
-	For a module option, only the ``enable_floats`` option is recognised, which will tell the compiler
-	to deal with floating point numbers (by using various subroutines from the Commodore-64 kernal).
-	Otherwise, floating point support is not enabled.
-	When used in a block with the ``force_output`` option, it will force the block to be outputted
-	in the final program. Can be useful to make sure some
-	data is generated that would otherwise be discarded because it's not referenced (such as sprite data).
+
+    - For a module option, there is ``enable_floats``, which will tell the compiler
+      to deal with floating point numbers (by using various subroutines from the Commodore-64 kernal).
+      Otherwise, floating point support is not enabled. Normally you don't have to use this yourself as
+      importing the ``floats`` library is required anyway and that will enable it for you automatically.
+    - There's also ``no_sysinit`` which cause the resulting program to *not* include
+      the system re-initialization logic of clearing the screen, resetting I/O config etc. You'll have to
+      take care of that yourself. The program will just start running from whatever state the machine is in when the
+      program was launched.
+    - When used in a block with the ``force_output`` option, it will force the block to be outputted
+      in the final program. Can be useful to make sure some
+      data is generated that would otherwise be discarded because it's not referenced (such as sprite data).
 
 
 .. data:: %asmbinary "<filename>" [, <offset>[, <length>]]
 
-	Level: block.
-        This directive can only be used inside a block.
-        The assembler will include the file as binary bytes at this point, prog8 will not process this at all.
-        The optional offset and length can be used to select a particular piece of the file.
-        The file is located relative to the current working directory!
+    Level: block.
+    This directive can only be used inside a block.
+    The assembler will include the file as binary bytes at this point, prog8 will not process this at all.
+    The optional offset and length can be used to select a particular piece of the file.
+    The file is located relative to the current working directory!
 
 .. data:: %asminclude "<filename>", "scopelabel"
 
-	Level: block.
-        This directive can only be used inside a block.
-        The assembler will include the file as raw assembly source text at this point,
-        prog8 will not process this at all, with one exception: the labels.
-        The scopelabel argument will be used as a prefix to access the labels from the included source code,
-        otherwise you would risk symbol redefinitions or duplications.
-        If you know what you are doing you can leave it as an empty string to not have a scope prefix.
-        The compiler first looks for the file relative to the same directory as the module containing this statement is in,
-        if the file can't be found there it is searched relative to the current directory.
+    Level: block.
+    This directive can only be used inside a block.
+    The assembler will include the file as raw assembly source text at this point,
+    prog8 will not process this at all, with one exception: the labels.
+    The scopelabel argument will be used as a prefix to access the labels from the included source code,
+    otherwise you would risk symbol redefinitions or duplications.
+    If you know what you are doing you can leave it as an empty string to not have a scope prefix.
+    The compiler first looks for the file relative to the same directory as the module containing this statement is in,
+    if the file can't be found there it is searched relative to the current directory.
 
 .. data:: %breakpoint
 
@@ -157,7 +172,7 @@ Directives
 Identifiers
 -----------
 
-Naming things in Prog8 is done via valid *identifiers*. They start with a letter or underscore,
+Naming things in Prog8 is done via valid *identifiers*. They start with a letter,
 and after that, a combination of letters, numbers, or underscores. Examples of valid identifiers::
 
 	a
@@ -165,7 +180,7 @@ and after that, a combination of letters, numbers, or underscores. Examples of v
 	monkey
 	COUNTER
 	Better_Name_2
-	_something_strange_
+	something_strange__
 
 
 Code blocks
@@ -267,6 +282,7 @@ type identifier  type                     storage size       example var declara
 ``word[]``       signed word array        depends on value   ``word[] myvar = [1, 2, 3, 4]``
 ``uword[]``      unsigned word array      depends on value   ``uword[] myvar = [1, 2, 3, 4]``
 ``float[]``      floating-point array     depends on value   ``float[] myvar = [1.1, 2.2, 3.3, 4.4]``
+``str[]``        array with string ptrs   2*x bytes + strs   ``str[] names = ["ally", "pete"]``
 ``str``          string (petscii)         varies             ``str myvar = "hello."``
                                                              implicitly terminated by a 0-byte
 ===============  =======================  =================  =========================================
@@ -289,7 +305,8 @@ of something with an operand starting with 1 or 0, you'll have to add a space in
 - When an integer value ranges from 256..65535 the compiler sees it as a ``uword``.  For -32768..32767 it's a ``word``.
 - When a hex number has 3 or 4 digits, for example ``$0004``, it is seen as a ``word`` otherwise as a ``byte``.
 - When a binary number has 9 to 16 digits, for example ``%1100110011``, it is seen as a ``word`` otherwise as a ``byte``.
-- You can force a byte value into a word value by adding the ``.w`` datatype suffix to the number: ``$2a.w`` is equivalent to ``$002a``.
+- If the number fits in a byte but you really require it as a word value, you'll have to explicitly cast it: ``60 as uword``
+  or you can use the full word hexadecimal notation ``$003c``.
 
 
 Data type conversion
@@ -306,6 +323,7 @@ should be allocated by the compiler. Instead, the (mandatory) value assigned to
 should be the *memory address* where the value is located::
 
 	&byte BORDERCOLOR = $d020
+    &ubyte[5*40]  top5screenrows = $0400        ; works for array as well
 
 
 Direct access to memory locations
@@ -313,7 +331,7 @@ Direct access to memory locations
 Instead of defining a memory mapped name for a specific memory location, you can also
 directly access the memory. Enclose a numeric expression or literal with ``@(...)`` to do that::
 
-    A = @($d020)      ; set the A register to the current c64 screen border color ("peek(53280)")
+    color = @($d020)  ; set the variable 'color' to the current c64 screen border color ("peek(53280)")
     @($d020) = 0      ; set the c64 screen border to black ("poke 53280,0")
     @(vic+$20) = 6    ; a dynamic expression to 'calculate' the address
 
@@ -333,8 +351,6 @@ Reserved names
 
 The following names are reserved, they have a special meaning::
 
-	A     X    Y              ; 6502 hardware registers
-	Pc    Pz   Pn  Pv         ; 6502 status register flags
 	true  false              ; boolean values 1 and 0
 
 
@@ -384,7 +400,25 @@ After defining a struct you can use the name of the struct as a data type to dec
 
 Struct variables can be assigned a struct literal value (also in their declaration as initial value)::
 
-    Color rgb = {255, 100, 0}          ; curly braces instead of brackets
+    Color rgb = [255, 100, 0]          ; note that the value is an array
+
+
+String
+^^^^^^
+
+``"hello"``   is a string translated into the default character encoding (PETSCII)
+
+``@"hello"``  is a string translated into the alternate character encoding (Screencodes/pokes)
+
+There are several escape sequences available to put special characters into your string value:
+
+- ``\\`` - the backslash itself, has to be escaped because it is the escape symbol by itself
+- ``\n`` - newline character (move cursor down and to beginning of next line)
+- ``\r`` - carriage return character (more or less the same as newline if printing to the screen)
+- ``\"`` - quote character (otherwise it would terminate the string)
+- ``\'`` - apostrophe character (has to be escaped in character literals, is okay inside a string)
+- ``\uHHHH`` - a unicode codepoint \u0000 - \uffff (16-bit hexadecimal)
+- ``\xHH`` - 8-bit hex value that will be copied verbatim *without encoding*
 
 
 Operators
@@ -406,10 +440,10 @@ assignment: ``=``
     Note that an assignment sometimes is not possible or supported.
 
 augmented assignment: ``+=``  ``-=``  ``*=``  ``/=``  ``**=``  ``&=``  ``|=``  ``^=``  ``<<=``  ``>>=``
-	Syntactic sugar; ``A += X`` is equivalent to ``A = A + X``
+	This is syntactic sugar; ``aa += xx`` is equivalent to ``aa = aa + xx``
 
 postfix increment and decrement: ``++``  ``--``
-	Syntactic sugar; ``A++`` is equivalent to ``A = A + 1``, and ``A--`` is equivalent to ``A = A - 1``.
+	Syntactic sugar; ``aa++`` is equivalent to ``aa = aa + 1``, and ``aa--`` is equivalent to ``aa = aa - 1``.
 	Because these operations are so common, we have these short forms.
 
 comparison: ``!=``  ``<``  ``>``  ``<=``  ``>=``
@@ -427,9 +461,9 @@ range creation:  ``to``
 
 		0 to 7		; range of values 0, 1, 2, 3, 4, 5, 6, 7  (constant)
 
-		A = 5
-		X = 10
-		A to X		; range of 5, 6, 7, 8, 9, 10
+		aa = 5
+		aa = 10
+	    aa to xx		; range of 5, 6, 7, 8, 9, 10
 
 		byte[] array = 10 to 13   ; sets the array to [1, 2, 3, 4]
 
@@ -471,6 +505,8 @@ takes no parameters.  If the subroutine returns a value, usually you assign it t
 If you're not interested in the return value, prefix the function call with the ``void`` keyword.
 Otherwise the compiler will warn you about discarding the result of the call.
 
+Multiple return values
+^^^^^^^^^^^^^^^^^^^^^^
 Normal subroutines can only return zero or one return values.
 However, the special ``asmsub`` routines (implemented in assembly code) or ``romsub`` routines
 (referencing a routine in kernel ROM) can return more than one return value.
@@ -478,9 +514,16 @@ For example a status in the carry bit and a number in A, or a 16-bit value in A/
 It is not possible to process the results of a call to these kind of routines
 directly from the language, because only single value assignments are possible.
 You can still call the subroutine and not store the results.
-But if you want to do something with the values it returns, you'll have to write
-a small block of custom inline assembly that does the call and stores the values
-appropriately. Don't forget to save/restore the registers if required.
+
+**There is an exception:** if there's just one return value in a register, and one or more others that are returned
+as bits in the status register (such as the Carry bit), the compiler allows you to call the subroutine.
+It will then store the result value in a variable if required, and *keep the status register untouched
+after the call* so you can use a conditional branch statement for that.
+Note that this makes no sense inside an expression, so the compiler will still give an error for that.
+
+If there really are multiple return values (other than a combined 16 bit return value in 2 registers),
+you'll have to write a small block of custom inline assembly that does the call and stores the values
+appropriately. Don't forget to save/restore any registers that are modified.
 
 
 Subroutine definitions
@@ -515,18 +558,20 @@ and returning stuff in several registers as well. The ``clobbers`` clause is use
 what CPU registers are clobbered by the call instead of being unchanged or returning a meaningful result value.
 
 
-Subroutines that are implemented purely in assembly code and which have an assembly calling convention (i.e.
-the parameters are strictly passed via cpu registers), are defined like this::
+User subroutines in the program source code that are implemented purely in assembly and which have an assembly calling convention (i.e.
+the parameters are strictly passed via cpu registers), are defined with ``asmsub`` like this::
 
-    asmsub  FREADS32() clobbers(A,X,Y)  {
+    asmsub  clear_screenchars (ubyte char @ A) clobbers(Y)  {
         %asm {{
-            lda  $62
-            eor  #$ff
-            asl  a
-            lda  #0
-            ldx  #$a0
-            jmp  $bc4f
-        }}
+            ldy  #0
+    _loop   sta  c64.Screen,y
+            sta  c64.Screen+$0100,y
+            sta  c64.Screen+$0200,y
+            sta  c64.Screen+$02e8,y
+            iny
+            bne  _loop
+            rts
+            }}
     }
 
 the statement body of such a subroutine should consist of just an inline assembly block.
@@ -551,7 +596,7 @@ Loops
 for loop
 ^^^^^^^^
 
-The loop variable must be a register or a byte/word variable,
+The loop variable must be a byte or word variable,
 and must be defined first in the local scope of the for loop.
 The expression that you loop over can be anything that supports iteration (such as ranges like ``0 to 100``,
 array variables and strings) *except* floating-point arrays (because a floating-point loop variable is not supported).
@@ -561,7 +606,6 @@ You can use a single statement, or a statement block like in the example below::
 	for <loopvar>  in  <expression>  [ step <amount> ]   {
 		; do something...
 		break		; break out of the loop
-		continue	; immediately enter next iteration
 	}
 
 For example, this is a for loop using a byte variable ``i``, defined before, to loop over a certain range of numbers::
@@ -594,35 +638,35 @@ You can use a single statement, or a statement block like in the example below::
 	while  <condition>  {
 		; do something...
 		break		; break out of the loop
-		continue	; immediately enter next iteration
 	}
 
 
-repeat-until loop
-^^^^^^^^^^^^^^^^^
+do-until loop
+^^^^^^^^^^^^^
 
 Until the given condition is true (1), repeat the given statement(s).
 You can use a single statement, or a statement block like in the example below::
 
-	repeat  {
+	do  {
 		; do something...
 		break		; break out of the loop
-		continue	; immediately enter next iteration
 	} until  <condition>
 
 
-forever loop
-^^^^^^^^^^^^
+repeat loop
+^^^^^^^^^^^
 
-Simply run the code in a loop, forever. It's the same as a while true or until false loop,
-or just a jump back to a previous label. You can still break out of this loop as well, if you want::
+When you're only interested in repeating something a given number of times.
+It's a short hand for a for loop without an explicit loop variable::
 
-    forever {
-        ; .. do stuff
-        if something
-            break        ; you can exit the loop if you want
+    repeat 15 {
+        ; do something...
+        break		; you can break out of the loop
     }
 
+If you omit the iteration count, it simply loops forever.
+You can still ``break`` out of such a loop if you want though.
+
 
 Conditional Execution and Jumps
 -------------------------------
@@ -702,3 +746,4 @@ case you have to use { } to enclose them::
         }
         else -> c64scr.print("don't know")
     }
+

docs/source/targetsystem.rst

@@ -4,12 +4,21 @@ Target system specification
 
 Prog8 targets the following hardware:
 
-- 8 bit MOS 6502/6510 CPU
+- 8 bit MOS 6502/65c02/6510 CPU
 - 64 Kb addressable memory (RAM or ROM)
-- memory mapped I/O registers
+- optional use of memory mapped I/O registers
+- optional use of system ROM routines
 
-The main target machine is the Commodore-64, which is an example of this.
-This chapter explains the relevant system details of such a machine.
+Currently there are two machines that are supported as compiler target (selectable via the ``-target`` compiler argument):
+
+- 'c64': the well-known Commodore-64, premium support
+- 'cx16': the `CommanderX16 <https://www.commanderx16.com/>`_ a project from the 8-Bit Guy. Support for this is still experimental.
+
+This chapter explains the relevant system details of these machines.
+
+.. hint::
+    If you only use standard kernel and prog8 library routines,
+    it is possible to compile the *exact same program* for both machines (just change the compiler target flag)!
 
 
 Memory Model
@@ -113,22 +122,14 @@ CPU
 Directly Usable Registers
 -------------------------
 
-The following 6502 CPU hardware registers are directly usable in program code (and are reserved symbols):
+The hardware CPU registers are not directly accessible from regular Prog8 code.
+If you need to mess with them, you'll have to use inline assembly.
+Be extra wary of the ``X`` register because it is used as an evaluation stack pointer and
+changing its value you will destroy the evaluation stack and likely crash the program.
 
-- ``A``, ``X``, ``Y``  the three main cpu registers (8 bits)
-- the status register (P) carry flag and interrupt disable flag can be written via a couple of special
-  builtin functions (``set_carry()``, ``clear_carry()``, ``set_irqd()``,  ``clear_irqd()``),
-  and read via the ``read_flags()`` function.
-
-However, you must assume that the 3 hardware registers ``A``, ``X`` and ``Y``
-are volatile. Their values cannot be depended upon, the compiler will use them as required.
-Even simple assignments may require modification of one or more of the registers (for instance, when using arrays).
-
-Even more important, the ``X`` register is used as an evaluation stack pointer.
-If you mess with it, you will destroy the evaluation stack and likely crash your program.
-In some cases the compiler will warn you about this, but you should really avoid to use
-this register. It's possible to store/restore the register's value (using special built in functions)
-for the cases you really really need to use it directly.
+The status register (P) carry flag and interrupt disable flag can be written via a couple of special
+builtin functions (``set_carry()``, ``clear_carry()``, ``set_irqd()``,  ``clear_irqd()``),
+and read via the ``read_flags()`` function.
 
 
 Subroutine Calling Conventions
@@ -155,15 +156,15 @@ You can however install your own IRQ handler.
 This is possible ofcourse by doing it all using customized inline assembly,
 but there are a few library routines available to make setting up C-64 IRQs and raster IRQs a lot easier (no assembly code required).
 
-These routines are::
+For the C64 these routines are::
 
-    c64utils.set_irqvec()
-    c64utils.set_irqvec_excl()
+    c64.set_irqvec()
+    c64.set_irqvec_excl()
 
-    c64utils.set_rasterirq( <raster line> )
-    c64utils.set_rasterirq_excl( <raster line> )
+    c64.set_rasterirq( <raster line> )
+    c64.set_rasterirq_excl( <raster line> )
 
-    c64utils.restore_irqvec()     ; set it back to the systems default irq handler
+    c64.restore_irqvec()     ; set it back to the systems default irq handler
 
 If you activate an IRQ handler with one of these, it expects the handler to be defined
 as a subroutine ``irq`` in the module ``irq`` so like this::
@@ -173,3 +174,4 @@ as a subroutine ``irq`` in the module ``irq`` so like this::
             ; ... irq handling here ...
         }
     }
+

docs/source/todo.rst

@@ -2,28 +2,27 @@
 TODO
 ====
 
-- finalize (most) of the still missing "new" assignment asm code generation
-- aliases for imported symbols for example perhaps '%alias print = c64scr.print'
-- option to load library files from a directory instead of the embedded ones (easier library development/debugging)
-- investigate support for 8bitguy's Commander X16 platform https://www.commanderx16.com  and https://github.com/commanderx16/x16-docs
 - see if we can group some errors together for instance the (now single) errors about unidentified symbols
-
+- Cx16 target: support full-screen 640x480 and 320x240 graphics? That requires our own custom graphics routines though to draw lines.
+- make it possible to use cpu opcodes such as 'nop' as variable names by prefixing all asm vars with something such as '_'
+- option to load the built-in library files from a directory instead of the embedded ones (for easier library development/debugging)
+- use VIC banking to move up the graphics bitmap memory location. Move it to $e000 under the kernal rom?
+- some support for recursive subroutines?
+    - via %option recursive?: allocate all params and local vars on estack, don't allow nested subroutines, can begin by first not allowing any local variables just fixing the parameters
+    - Or via a special recursive call operation that copies the current values of all local vars (including arguments) to the stack, replaces the arguments, jsr subroutine, and after returning copy the stack back to the local variables
+- get rid of all other TODO's in the code ;-)
 
 More optimizations
 ^^^^^^^^^^^^^^^^^^
 
 Add more compiler optimizations to the existing ones.
 
-- more targeted optimizations for assigment asm code, such as the following:
-- subroutine calling convention? like: 1 byte arg -> pass in A, 2 bytes -> pass in A+Y, return value likewise.
-- remove unreachable code after an exit(), return or goto
-- add a compiler option to not include variable initialization code (useful if the program is expected to run only once, such as a game)
-  the program will then rely solely on the values as they are in memory at the time of program startup.
-- Also some library routines and code patterns could perhaps be optimized further
-- can the parameter passing to subroutines be optimized to avoid copying?
+- further optimize assignment codegeneration, such as the following:
+- binexpr splitting (beware self-referencing expressions and asm code ballooning though)
+- detect var->var argument passing to subroutines and avoid the second variable and copying of the value
 - more optimizations on the language AST level
 - more optimizations on the final assembly source level
-- note: abandoned subroutine inlining because of problems referencing non-local stuff. Can't move everything around.
+- note: subroutine inlining is abandoned because of problems referencing non-local stuff. Can't move everything around.
 
 
 Eval stack redesign? (lot of work)

examples/arithmetic/aggregates.p8

@@ -1,7 +1,6 @@
-%import c64lib
-%import c64utils
-%import c64flt
-%zeropage dontuse
+%import floats
+%import textio
+%zeropage basicsafe
 
 main {
 
@@ -20,101 +19,90 @@ main {
 
         ; LEN/STRLEN
         ubyte length = len(name)
-        if length!=5 c64scr.print("error len1\n")
+        if length!=5 txt.print("error len1\n")
         length = len(uwarr)
-        if length!=5 c64scr.print("error len2\n")
+        if length!=5 txt.print("error len2\n")
         length=strlen(name)
-        if length!=5 c64scr.print("error strlen1\n")
+        if length!=5 txt.print("error strlen1\n")
         name[3] = 0
         length=strlen(name)
-        if length!=3 c64scr.print("error strlen2\n")
+        if length!=3 txt.print("error strlen2\n")
 
         ; MAX
         ub = max(ubarr)
-        if ub!=199 c64scr.print("error max1\n")
+        if ub!=199 txt.print("error max1\n")
         bb = max(barr)
-        if bb!=99 c64scr.print("error max2\n")
+        if bb!=99 txt.print("error max2\n")
         uw = max(uwarr)
-        if uw!=4444 c64scr.print("error max3\n")
+        if uw!=4444 txt.print("error max3\n")
         ww = max(warr)
-        if ww!=999 c64scr.print("error max4\n")
+        if ww!=999 txt.print("error max4\n")
         ff = max(farr)
-        if ff!=999.9 c64scr.print("error max5\n")
+        if ff!=999.9 txt.print("error max5\n")
 
         ; MIN
         ub = min(ubarr)
-        if ub!=0 c64scr.print("error min1\n")
+        if ub!=0 txt.print("error min1\n")
         bb = min(barr)
-        if bb!=-122 c64scr.print("error min2\n")
+        if bb!=-122 txt.print("error min2\n")
         uw = min(uwarr)
-        if uw!=0 c64scr.print("error min3\n")
+        if uw!=0 txt.print("error min3\n")
         ww = min(warr)
-        if ww!=-4444 c64scr.print("error min4\n")
+        if ww!=-4444 txt.print("error min4\n")
         ff = min(farr)
-        if ff!=-4444.4 c64scr.print("error min5\n")
+        if ff!=-4444.4 txt.print("error min5\n")
 
         ; SUM
         uw = sum(ubarr)
-        if uw!=420 c64scr.print("error sum1\n")
+        if uw!=420 txt.print("error sum1\n")
         ww = sum(barr)
-        if ww!=-101 c64scr.print("error sum2\n")
+        if ww!=-101 txt.print("error sum2\n")
         uw = sum(uwarr)
-        if uw!=6665 c64scr.print("error sum3\n")
+        if uw!=6665 txt.print("error sum3\n")
         ww = sum(warr)
-        if ww!=-4223 c64scr.print("error sum4\n")
+        if ww!=-4223 txt.print("error sum4\n")
         ff = sum(farr)
-        if ff!=-4222.4 c64scr.print("error sum5\n")
+        if ff!=-4222.4 txt.print("error sum5\n")
 
         ; ANY
         ub = any(ubarr)
-        if ub==0 c64scr.print("error any1\n")
+        if ub==0 txt.print("error any1\n")
         ub = any(barr)
-        if ub==0 c64scr.print("error any2\n")
+        if ub==0 txt.print("error any2\n")
         ub = any(uwarr)
-        if ub==0 c64scr.print("error any3\n")
+        if ub==0 txt.print("error any3\n")
         ub = any(warr)
-        if ub==0 c64scr.print("error any4\n")
+        if ub==0 txt.print("error any4\n")
         ub = any(farr)
-        if ub==0 c64scr.print("error any5\n")
+        if ub==0 txt.print("error any5\n")
 
         ; ALL
         ub = all(ubarr)
-        if ub==1 c64scr.print("error all1\n")
+        if ub==1 txt.print("error all1\n")
         ub = all(barr)
-        if ub==1 c64scr.print("error all2\n")
+        if ub==1 txt.print("error all2\n")
         ub = all(uwarr)
-        if ub==1 c64scr.print("error all3\n")
+        if ub==1 txt.print("error all3\n")
         ub = all(warr)
-        if ub==1 c64scr.print("error all4\n")
+        if ub==1 txt.print("error all4\n")
         ub = all(farr)
-        if ub==1 c64scr.print("error all5\n")
+        if ub==1 txt.print("error all5\n")
         ubarr[1]=$40
         barr[1]=$40
         uwarr[1]=$4000
         warr[1]=$4000
         farr[1]=1.1
         ub = all(ubarr)
-        if ub==0 c64scr.print("error all6\n")
+        if ub==0 txt.print("error all6\n")
         ub = all(barr)
-        if ub==0 c64scr.print("error all7\n")
+        if ub==0 txt.print("error all7\n")
         ub = all(uwarr)
-        if ub==0 c64scr.print("error all8\n")
+        if ub==0 txt.print("error all8\n")
         ub = all(warr)
-        if ub==0 c64scr.print("error all9\n")
+        if ub==0 txt.print("error all9\n")
         ub = all(farr)
-        if ub==0 c64scr.print("error all10\n")
+        if ub==0 txt.print("error all10\n")
 
-        check_eval_stack()
-
-        c64scr.print("\nyou should see no errors printed above (only at first run).")
+        txt.print("\nyou should see no errors printed above (only at first run).")
     }
-
-    sub check_eval_stack() {
-        if X!=255 {
-            c64scr.print("x=")
-            c64scr.print_ub(X)
-            c64scr.print(" error!\n")
-        }
-    }
-
 }

examples/arithmetic/bitshift.p8

@@ -1,383 +1,385 @@
-%import c64utils
-%zeropage dontuse
+%import textio
+%zeropage basicsafe
 
 
 main {
 
     sub start() {
-        c64scr.print("ubyte shift left\n")
+        ubyte A
+
+        txt.print("ubyte shift left\n")
         A = shiftlb0()
-        c64scr.print_ubbin(A, true)
+        txt.print_ubbin(A, true)
         c64.CHROUT('\n')
         A = shiftlb1()
-        c64scr.print_ubbin(A, true)
+        txt.print_ubbin(A, true)
         c64.CHROUT('\n')
         A = shiftlb2()
-        c64scr.print_ubbin(A, true)
+        txt.print_ubbin(A, true)
         c64.CHROUT('\n')
         A = shiftlb3()
-        c64scr.print_ubbin(A, true)
+        txt.print_ubbin(A, true)
         c64.CHROUT('\n')
         A = shiftlb4()
-        c64scr.print_ubbin(A, true)
+        txt.print_ubbin(A, true)
         c64.CHROUT('\n')
         A = shiftlb5()
-        c64scr.print_ubbin(A, true)
+        txt.print_ubbin(A, true)
         c64.CHROUT('\n')
         A = shiftlb6()
-        c64scr.print_ubbin(A, true)
+        txt.print_ubbin(A, true)
         c64.CHROUT('\n')
         A = shiftlb7()
-        c64scr.print_ubbin(A, true)
+        txt.print_ubbin(A, true)
         c64.CHROUT('\n')
         A = shiftlb8()
-        c64scr.print_ubbin(A, true)
+        txt.print_ubbin(A, true)
         c64.CHROUT('\n')
         A = shiftlb9()
-        c64scr.print_ubbin(A, true)
+        txt.print_ubbin(A, true)
         c64.CHROUT('\n')
-        c64scr.print("enter to continue:\n")
+        txt.print("enter to continue:\n")
         void c64.CHRIN()
 
-        c64scr.print("ubyte shift right\n")
+        txt.print("ubyte shift right\n")
         A = shiftrb0()
-        c64scr.print_ubbin(A, true)
+        txt.print_ubbin(A, true)
         c64.CHROUT('\n')
         A = shiftrb1()
-        c64scr.print_ubbin(A, true)
+        txt.print_ubbin(A, true)
         c64.CHROUT('\n')
         A = shiftrb2()
-        c64scr.print_ubbin(A, true)
+        txt.print_ubbin(A, true)
         c64.CHROUT('\n')
         A = shiftrb3()
-        c64scr.print_ubbin(A, true)
+        txt.print_ubbin(A, true)
         c64.CHROUT('\n')
         A = shiftrb4()
-        c64scr.print_ubbin(A, true)
+        txt.print_ubbin(A, true)
         c64.CHROUT('\n')
         A = shiftrb5()
-        c64scr.print_ubbin(A, true)
+        txt.print_ubbin(A, true)
         c64.CHROUT('\n')
         A = shiftrb6()
-        c64scr.print_ubbin(A, true)
+        txt.print_ubbin(A, true)
         c64.CHROUT('\n')
         A = shiftrb7()
-        c64scr.print_ubbin(A, true)
+        txt.print_ubbin(A, true)
         c64.CHROUT('\n')
         A = shiftrb8()
-        c64scr.print_ubbin(A, true)
+        txt.print_ubbin(A, true)
         c64.CHROUT('\n')
         A = shiftrb9()
-        c64scr.print_ubbin(A, true)
+        txt.print_ubbin(A, true)
         c64.CHROUT('\n')
-        c64scr.print("enter to continue:\n")
+        txt.print("enter to continue:\n")
         void c64.CHRIN()
 
 
 
 
-        c64scr.print("signed byte shift left\n")
+        txt.print("signed byte shift left\n")
         byte signedb
         signedb = shiftlsb0()
-        c64scr.print_ubbin(signedb as ubyte, true)
+        txt.print_ubbin(signedb as ubyte, true)
         c64.CHROUT('\n')
         signedb = shiftlsb1()
-        c64scr.print_ubbin(signedb as ubyte, true)
+        txt.print_ubbin(signedb as ubyte, true)
         c64.CHROUT('\n')
         signedb = shiftlsb2()
-        c64scr.print_ubbin(signedb as ubyte, true)
+        txt.print_ubbin(signedb as ubyte, true)
         c64.CHROUT('\n')
         signedb = shiftlsb3()
-        c64scr.print_ubbin(signedb as ubyte, true)
+        txt.print_ubbin(signedb as ubyte, true)
         c64.CHROUT('\n')
         signedb = shiftlsb4()
-        c64scr.print_ubbin(signedb as ubyte, true)
+        txt.print_ubbin(signedb as ubyte, true)
         c64.CHROUT('\n')
         signedb = shiftlsb5()
-        c64scr.print_ubbin(signedb as ubyte, true)
+        txt.print_ubbin(signedb as ubyte, true)
         c64.CHROUT('\n')
         signedb = shiftlsb6()
-        c64scr.print_ubbin(signedb as ubyte, true)
+        txt.print_ubbin(signedb as ubyte, true)
         c64.CHROUT('\n')
         signedb = shiftlsb7()
-        c64scr.print_ubbin(signedb as ubyte, true)
+        txt.print_ubbin(signedb as ubyte, true)
         c64.CHROUT('\n')
         signedb = shiftlsb8()
-        c64scr.print_ubbin(signedb as ubyte, true)
+        txt.print_ubbin(signedb as ubyte, true)
         c64.CHROUT('\n')
         signedb = shiftlsb9()
-        c64scr.print_ubbin(signedb as ubyte, true)
+        txt.print_ubbin(signedb as ubyte, true)
         c64.CHROUT('\n')
-        c64scr.print("enter to continue:\n")
+        txt.print("enter to continue:\n")
         void c64.CHRIN()
 
-        c64scr.print("signed byte shift right\n")
+        txt.print("signed byte shift right\n")
         signedb = shiftrsb0()
-        c64scr.print_ubbin(signedb as ubyte, true)
+        txt.print_ubbin(signedb as ubyte, true)
         c64.CHROUT('\n')
         signedb = shiftrsb1()
-        c64scr.print_ubbin(signedb as ubyte, true)
+        txt.print_ubbin(signedb as ubyte, true)
         c64.CHROUT('\n')
         signedb = shiftrsb2()
-        c64scr.print_ubbin(signedb as ubyte, true)
+        txt.print_ubbin(signedb as ubyte, true)
         c64.CHROUT('\n')
         signedb = shiftrsb3()
-        c64scr.print_ubbin(signedb as ubyte, true)
+        txt.print_ubbin(signedb as ubyte, true)
         c64.CHROUT('\n')
         signedb = shiftrsb4()
-        c64scr.print_ubbin(signedb as ubyte, true)
+        txt.print_ubbin(signedb as ubyte, true)
         c64.CHROUT('\n')
         signedb = shiftrsb5()
-        c64scr.print_ubbin(signedb as ubyte, true)
+        txt.print_ubbin(signedb as ubyte, true)
         c64.CHROUT('\n')
         signedb = shiftrsb6()
-        c64scr.print_ubbin(signedb as ubyte, true)
+        txt.print_ubbin(signedb as ubyte, true)
         c64.CHROUT('\n')
         signedb = shiftrsb7()
-        c64scr.print_ubbin(signedb as ubyte, true)
+        txt.print_ubbin(signedb as ubyte, true)
         c64.CHROUT('\n')
         signedb = shiftrsb8()
-        c64scr.print_ubbin(signedb as ubyte, true)
+        txt.print_ubbin(signedb as ubyte, true)
         c64.CHROUT('\n')
         signedb = shiftrsb9()
-        c64scr.print_ubbin(signedb as ubyte, true)
+        txt.print_ubbin(signedb as ubyte, true)
         c64.CHROUT('\n')
-        c64scr.print("enter to continue:\n")
+        txt.print("enter to continue:\n")
         void c64.CHRIN()
 
 
 
 
-        c64scr.print("uword shift left\n")
+        txt.print("uword shift left\n")
         uword uw
         uw = shiftluw0()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
         uw = shiftluw1()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
         uw = shiftluw2()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
         uw = shiftluw3()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
         uw = shiftluw4()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
         uw = shiftluw5()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
         uw = shiftluw6()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
         uw = shiftluw7()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
         uw = shiftluw8()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
         uw = shiftluw9()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
         uw = shiftluw10()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
         uw = shiftluw11()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
         uw = shiftluw12()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
         uw = shiftluw13()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
         uw = shiftluw14()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
         uw = shiftluw15()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
         uw = shiftluw16()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
         uw = shiftluw17()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
-        c64scr.print("enter to continue:\n")
+        txt.print("enter to continue:\n")
         void c64.CHRIN()
 
-        c64scr.print("uword shift right\n")
+        txt.print("uword shift right\n")
         uw = shiftruw0()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
         uw = shiftruw1()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
         uw = shiftruw2()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
         uw = shiftruw3()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
         uw = shiftruw4()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
         uw = shiftruw5()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
         uw = shiftruw6()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
         uw = shiftruw7()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
         uw = shiftruw8()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
         uw = shiftruw9()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
         uw = shiftruw10()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
         uw = shiftruw11()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
         uw = shiftruw12()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
         uw = shiftruw13()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
         uw = shiftruw14()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
         uw = shiftruw15()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
         uw = shiftruw16()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
         uw = shiftruw17()
-        c64scr.print_uwbin(uw, true)
+        txt.print_uwbin(uw, true)
         c64.CHROUT('\n')
-        c64scr.print("enter to continue:\n")
+        txt.print("enter to continue:\n")
         void c64.CHRIN()
 
-        c64scr.print("signed word shift left\n")
+        txt.print("signed word shift left\n")
         word sw
         sw = shiftlsw0()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
         sw = shiftlsw1()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
         sw = shiftlsw2()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
         sw = shiftlsw3()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
         sw = shiftlsw4()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
         sw = shiftlsw5()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
         sw = shiftlsw6()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
         sw = shiftlsw7()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
         sw = shiftlsw8()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
         sw = shiftlsw9()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
         sw = shiftlsw10()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
         sw = shiftlsw11()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
         sw = shiftlsw12()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
         sw = shiftlsw13()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
         sw = shiftlsw14()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
         sw = shiftlsw15()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
         sw = shiftlsw16()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
         sw = shiftlsw17()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
-        c64scr.print("enter to continue:\n")
+        txt.print("enter to continue:\n")
         void c64.CHRIN()
 
-        c64scr.print("signed word shift right\n")
+        txt.print("signed word shift right\n")
         sw = shiftrsw0()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
         sw = shiftrsw1()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
         sw = shiftrsw2()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
         sw = shiftrsw3()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
         sw = shiftrsw4()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
         sw = shiftrsw5()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
         sw = shiftrsw6()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
         sw = shiftrsw7()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
         sw = shiftrsw8()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
         sw = shiftrsw9()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
         sw = shiftrsw10()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
         sw = shiftrsw11()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
         sw = shiftrsw12()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
         sw = shiftrsw13()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
         sw = shiftrsw14()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
         sw = shiftrsw15()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
         sw = shiftrsw16()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
         sw = shiftrsw17()
-        c64scr.print_uwbin(sw as uword, true)
+        txt.print_uwbin(sw as uword, true)
         c64.CHROUT('\n')
 
     }

examples/arithmetic/builtins.p8

@@ -0,0 +1,836 @@
+%import textio
+%import floats
+%import syslib
+%import test_stack
+%zeropage basicsafe
+
+main {
+
+    sub start() {
+        rotations()
+        strings()
+        integers()
+        floatingpoint()
+
+        test_stack.test()
+    }
+
+    sub rotations() {
+        ubyte[] ubarr = [%11000111]
+        uword[] uwarr = [%1100111110101010]
+
+        repeat(10) {
+            txt.chrout('\n')
+        }
+
+        txt.print_uwbin(uwarr[0], true)
+        txt.chrout('\n')
+        set_carry()
+        rol(uwarr[0])
+        txt.print_uwbin(uwarr[0], true)
+        txt.chrout('\n')
+        set_carry()
+        rol(uwarr[0])
+        txt.print_uwbin(uwarr[0], true)
+        txt.chrout('\n')
+        set_carry()
+        rol(uwarr[0])
+        txt.print_uwbin(uwarr[0], true)
+        txt.chrout('\n')
+        set_carry()
+        rol(uwarr[0])
+        txt.print_uwbin(uwarr[0], true)
+        txt.chrout('\n')
+        txt.chrout('\n')
+
+        uwarr[0] = %1100111110101010
+        ror(uwarr[0])
+        txt.print_uwbin(uwarr[0], true)
+        txt.chrout('\n')
+        set_carry()
+        ror(uwarr[0])
+        txt.print_uwbin(uwarr[0], true)
+        txt.chrout('\n')
+        set_carry()
+        ror(uwarr[0])
+        txt.print_uwbin(uwarr[0], true)
+        txt.chrout('\n')
+        set_carry()
+        ror(uwarr[0])
+        txt.print_uwbin(uwarr[0], true)
+        txt.chrout('\n')
+        set_carry()
+        ror(uwarr[0])
+        txt.print_uwbin(uwarr[0], true)
+        txt.chrout('\n')
+        txt.chrout('\n')
+
+        clear_carry()
+        txt.print_uwbin(uwarr[0], true)
+        txt.chrout('\n')
+        rol2(uwarr[0])
+        txt.print_uwbin(uwarr[0], true)
+        txt.chrout('\n')
+        rol2(uwarr[0])
+        txt.print_uwbin(uwarr[0], true)
+        txt.chrout('\n')
+        rol2(uwarr[0])
+        txt.print_uwbin(uwarr[0], true)
+        txt.chrout('\n')
+        rol2(uwarr[0])
+        txt.print_uwbin(uwarr[0], true)
+        txt.chrout('\n')
+        txt.chrout('\n')
+
+        txt.print_uwbin(uwarr[0], true)
+        txt.chrout('\n')
+        ror2(uwarr[0])
+        txt.print_uwbin(uwarr[0], true)
+        txt.chrout('\n')
+        ror2(uwarr[0])
+        txt.print_uwbin(uwarr[0], true)
+        txt.chrout('\n')
+        ror2(uwarr[0])
+        txt.print_uwbin(uwarr[0], true)
+        txt.chrout('\n')
+        ror2(uwarr[0])
+        txt.print_uwbin(uwarr[0], true)
+        txt.chrout('\n')
+        txt.chrout('\n')
+
+        txt.print_ubbin(ubarr[0], true)
+        txt.chrout('\n')
+        set_carry()
+        rol(ubarr[0])
+        txt.print_ubbin(ubarr[0], true)
+        txt.chrout('\n')
+        set_carry()
+        rol(ubarr[0])
+        txt.print_ubbin(ubarr[0], true)
+        txt.chrout('\n')
+        set_carry()
+        rol(ubarr[0])
+        txt.print_ubbin(ubarr[0], true)
+        txt.chrout('\n')
+        set_carry()
+        rol(ubarr[0])
+        txt.print_ubbin(ubarr[0], true)
+        txt.chrout('\n')
+        txt.chrout('\n')
+
+        set_carry()
+        ror(ubarr[0])
+        txt.print_ubbin(ubarr[0], true)
+        txt.chrout('\n')
+        set_carry()
+        ror(ubarr[0])
+        txt.print_ubbin(ubarr[0], true)
+        txt.chrout('\n')
+        set_carry()
+        ror(ubarr[0])
+        txt.print_ubbin(ubarr[0], true)
+        txt.chrout('\n')
+        set_carry()
+        ror(ubarr[0])
+        txt.print_ubbin(ubarr[0], true)
+        txt.chrout('\n')
+        set_carry()
+        ror(ubarr[0])
+        txt.print_ubbin(ubarr[0], true)
+        txt.chrout('\n')
+        txt.chrout('\n')
+
+
+        txt.print_ubbin(ubarr[0], true)
+        txt.chrout('\n')
+        rol2(ubarr[0])
+        txt.print_ubbin(ubarr[0], true)
+        txt.chrout('\n')
+        rol2(ubarr[0])
+        txt.print_ubbin(ubarr[0], true)
+        txt.chrout('\n')
+        rol2(ubarr[0])
+        txt.print_ubbin(ubarr[0], true)
+        txt.chrout('\n')
+        rol2(ubarr[0])
+        txt.print_ubbin(ubarr[0], true)
+        txt.chrout('\n')
+        txt.chrout('\n')
+
+        txt.print_ubbin(ubarr[0], true)
+        txt.chrout('\n')
+        ror2(ubarr[0])
+        txt.print_ubbin(ubarr[0], true)
+        txt.chrout('\n')
+        ror2(ubarr[0])
+        txt.print_ubbin(ubarr[0], true)
+        txt.chrout('\n')
+        ror2(ubarr[0])
+        txt.print_ubbin(ubarr[0], true)
+        txt.chrout('\n')
+        ror2(ubarr[0])
+        txt.print_ubbin(ubarr[0], true)
+        txt.chrout('\n')
+        txt.chrout('\n')
+
+        &ubyte  membyte = $c000
+        uword addr = $c000
+
+        @(addr) = %10110101
+        txt.print_ubbin(@(addr), true)
+        txt.chrout('\n')
+        set_carry()
+        rol(@(addr))
+        txt.print_ubbin(@(addr), true)
+        txt.chrout('\n')
+        set_carry()
+        rol(@(addr))
+        txt.print_ubbin(@(addr), true)
+        txt.chrout('\n')
+        set_carry()
+        rol(@(addr))
+        txt.print_ubbin(@(addr), true)
+        txt.chrout('\n')
+        set_carry()
+        rol(@(addr))
+        txt.print_ubbin(@(addr), true)
+        txt.chrout('\n')
+        txt.chrout('\n')
+
+        @(addr) = %10110101
+        txt.print_ubbin(@(addr), true)
+        txt.chrout('\n')
+        set_carry()
+        ror(@(addr))
+        txt.print_ubbin(@(addr), true)
+        txt.chrout('\n')
+        set_carry()
+        ror(@(addr))
+        txt.print_ubbin(@(addr), true)
+        txt.chrout('\n')
+        set_carry()
+        ror(@(addr))
+        txt.print_ubbin(@(addr), true)
+        txt.chrout('\n')
+        set_carry()
+        ror(@(addr))
+        txt.print_ubbin(@(addr), true)
+        txt.chrout('\n')
+        txt.chrout('\n')
+
+        @(addr) = %10110101
+        txt.print_ubbin(@(addr), true)
+        txt.chrout('\n')
+        rol2(@(addr))
+        txt.print_ubbin(@(addr), true)
+        txt.chrout('\n')
+        rol2(@(addr))
+        txt.print_ubbin(@(addr), true)
+        txt.chrout('\n')
+        rol2(@(addr))
+        txt.print_ubbin(@(addr), true)
+        txt.chrout('\n')
+        rol2(@(addr))
+        txt.print_ubbin(@(addr), true)
+        txt.chrout('\n')
+        txt.chrout('\n')
+
+        @(addr) = %10110101
+        txt.print_ubbin(@(addr), true)
+        txt.chrout('\n')
+        ror2(@(addr))
+        txt.print_ubbin(@(addr), true)
+        txt.chrout('\n')
+        ror2(@(addr))
+        txt.print_ubbin(@(addr), true)
+        txt.chrout('\n')
+        ror2(@(addr))
+        txt.print_ubbin(@(addr), true)
+        txt.chrout('\n')
+        ror2(@(addr))
+        txt.print_ubbin(@(addr), true)
+        txt.chrout('\n')
+        txt.chrout('\n')
+
+        test_stack.test()
+
+    }
+
+    sub strings() {
+        const uword ADDR = $8400
+        const uword ADDR2 = $8000
+
+        memset(ADDR2, 40*25, '*')
+        memset(ADDR2, 40, '1')
+        memset(ADDR2+24*40, 39, '2')
+        memsetw(ADDR2, 40*25/2, $3132)
+        memsetw(ADDR2, 20, $4142)
+        memsetw(ADDR2+24*40, 19, $4241)
+        memcopy(ADDR2, ADDR, 200)
+
+        str result = "?" *10
+        str s1 = "irmen"
+        str s2 = "hello"
+        str dots = "....."
+
+        ubyte ub
+        byte bb
+        ubyte zero=0
+
+        bb = strcmp(s1, s2)
+        txt.print_b(bb)
+        txt.chrout('\n')
+        bb = strcmp(s2, s1)
+        txt.print_b(bb)
+        txt.chrout('\n')
+        txt.print_ub(s1==s2)
+        txt.chrout('\n')
+        txt.print_ub(s1<s2)
+        txt.chrout('\n')
+        txt.print_ub(s1>s2)
+        txt.chrout('\n')
+        bb = zero+strcmp(s1,s2)*1+zero
+        txt.print_b(bb)
+        txt.chrout('\n')
+        bb = zero+strcmp(s2,s1)*1+zero
+        txt.print_b(bb)
+        txt.chrout('\n')
+
+        ub = strlen(s1)
+        txt.print_ub(ub)
+        txt.chrout('\n')
+        ub = zero+strlen(s1)*1+zero
+        txt.print_ub(ub)
+        txt.chrout('\n')
+
+        leftstr(s1, result, 3)
+        txt.print(result)
+        txt.chrout('\n')
+        leftstr(s1, result, len(s1))
+        txt.print(result)
+        txt.chrout('\n')
+        txt.chrout('\n')
+
+        result = "x"*8
+        rightstr(s2, result, 3)
+        txt.print(result)
+        txt.chrout('\n')
+        rightstr(s2, result, len(s1))
+        txt.print(result)
+        txt.chrout('\n')
+
+        result = "y"*10
+        substr(s2, result, 1, 3)
+        txt.print(result)
+        txt.chrout('\n')
+
+        test_stack.test()
+
+    }
+
+    sub integers() {
+        ubyte[]  ubarr = [1,2,3,4,5,0,4,3,2,1, 255, 255, 255]
+        byte[]  barr = [1,2,3,4,5,-4,0,-3,2,1, -128, -128, -127]
+        uword[]  uwarr = [100,200,300,400,0,500,400,300,200,100]
+        word[] warr = [100,200,300,400,500,0,-400,-300,200,100,-99, -4096]
+
+        ubyte zero=0
+        ubyte ub
+        ubyte ub2
+        byte bb
+        uword uw
+        word ww
+
+        repeat(20) {
+            txt.chrout('\n')
+        }
+
+        ub = read_flags()
+        txt.print_ub(ub)
+        txt.chrout('\n')
+        ub = zero+read_flags()*1+zero
+        txt.print_ub(ub)
+        txt.chrout('\n')
+
+
+        ub = rnd()
+        txt.print_ub(ub)
+        txt.chrout('\n')
+        ub = zero+rnd()*1+zero
+        txt.print_ub(ub)
+        txt.chrout('\n')
+
+        uw = rndw()
+        txt.print_uw(uw)
+        txt.chrout('\n')
+        uw = zero+rndw()*1+zero
+        txt.print_uw(uw)
+        txt.chrout('\n')
+
+
+        uw = 50000
+        ub = sqrt16(uw)
+        txt.print_ub(ub)
+        txt.chrout('\n')
+        ub = zero+sqrt16(uw)*1+zero
+        txt.print_ub(ub)
+        txt.chrout('\n')
+
+        bb = -100
+        bb = sgn(bb)
+        txt.print_b(bb)
+        txt.chrout('\n')
+        bb = -100
+        bb = zero+sgn(bb)*1+zero
+        txt.print_b(bb)
+        txt.chrout('\n')
+
+        ub = 100
+        bb = sgn(ub)
+        txt.print_b(bb)
+        txt.chrout('\n')
+        ub = 100
+        bb = zero+sgn(ub)*1+zero
+        txt.print_b(bb)
+        txt.chrout('\n')
+
+        ww = -1000
+        bb = sgn(ww)
+        txt.print_b(bb)
+        txt.chrout('\n')
+        bb = zero+sgn(ww)*1+zero
+        txt.print_b(bb)
+        txt.chrout('\n')
+
+        uw = 1000
+        bb = sgn(uw)
+        txt.print_b(bb)
+        txt.chrout('\n')
+        bb = zero+sgn(uw)*1+zero
+        txt.print_b(bb)
+        txt.chrout('\n')
+
+        ub = 0
+        uw = sin16u(ub)
+        txt.print_uw(uw)
+        txt.chrout('\n')
+        uw = zero+sin16u(ub)*1+zero
+        txt.print_uw(uw)
+        txt.chrout('\n')
+
+        ub = 0
+        uw = cos16u(ub)
+        txt.print_uw(uw)
+        txt.chrout('\n')
+        uw = zero+cos16u(ub)*1+zero
+        txt.print_uw(uw)
+        txt.chrout('\n')
+
+        ub = 0
+        ww = sin16(ub)
+        txt.print_w(ww)
+        txt.chrout('\n')
+        ww = zero+sin16(ub)*1+zero
+        txt.print_w(ww)
+        txt.chrout('\n')
+
+        ub = 0
+        ww = cos16(ub)
+        txt.print_w(ww)
+        txt.chrout('\n')
+        uw = 0
+        ww = zero+cos16(ub)*1+zero
+        txt.print_w(ww)
+        txt.chrout('\n')
+
+        ub2 = 0
+        ub = sin8u(ub2)
+        txt.print_ub(ub)
+        txt.chrout('\n')
+        ub = zero+sin8u(ub2)*1+zero
+        txt.print_ub(ub)
+        txt.chrout('\n')
+
+        ub2 = 0
+        ub = cos8u(ub2)
+        txt.print_ub(ub)
+        txt.chrout('\n')
+        ub = zero+cos8u(ub2)*1+zero
+        txt.print_ub(ub)
+        txt.chrout('\n')
+
+        ub2 = 0
+        bb = sin8(ub2)
+        txt.print_b(bb)
+        txt.chrout('\n')
+        bb = zero+sin8(ub2)*1+zero
+        txt.print_b(bb)
+        txt.chrout('\n')
+
+        ub2 = 0
+        bb = cos8(ub2)
+        txt.print_b(bb)
+        txt.chrout('\n')
+        bb = zero+cos8(ub2)*1+zero
+        txt.print_b(bb)
+        txt.chrout('\n')
+
+        bb = -100
+        bb = abs(bb)
+        txt.print_b(bb)
+        txt.chrout('\n')
+        bb = -100
+        bb = zero+abs(bb)*1+zero
+        txt.print_b(bb)
+        txt.chrout('\n')
+
+        ww = -1000
+        ww = abs(ww)
+        txt.print_w(ww)
+        txt.chrout('\n')
+        ww = -1000
+        ww = zero+abs(ww)*1+zero
+        txt.print_w(ww)
+        txt.chrout('\n')
+
+        ub = min(ubarr)
+        txt.print_ub(ub)
+        txt.chrout('\n')
+        ub = zero+min(ubarr)*1+zero
+        txt.print_ub(ub)
+        txt.chrout('\n')
+
+        bb = min(barr)
+        txt.print_b(bb)
+        txt.chrout('\n')
+        bb = zero+min(barr)*1+zero
+        txt.print_b(bb)
+        txt.chrout('\n')
+
+        uw = min(uwarr)
+        txt.print_uw(uw)
+        txt.chrout('\n')
+        uw = zero+min(uwarr)*1+zero
+        txt.print_uw(uw)
+        txt.chrout('\n')
+
+        ww = min(warr)
+        txt.print_w(ww)
+        txt.chrout('\n')
+        ww = zero+min(warr)*1+zero
+        txt.print_w(ww)
+        txt.chrout('\n')
+
+        ub = max(ubarr)
+        txt.print_ub(ub)
+        txt.chrout('\n')
+        ub = zero+max(ubarr)*1+zero
+        txt.print_ub(ub)
+        txt.chrout('\n')
+
+        bb = max(barr)
+        txt.print_b(bb)
+        txt.chrout('\n')
+        bb = zero+max(barr)*1+zero
+        txt.print_b(bb)
+        txt.chrout('\n')
+
+        uw = max(uwarr)
+        txt.print_uw(uw)
+        txt.chrout('\n')
+        uw = zero+max(uwarr)*1+zero
+        txt.print_uw(uw)
+        txt.chrout('\n')
+
+        ww = max(warr)
+        txt.print_w(ww)
+        txt.chrout('\n')
+        ww = zero+max(warr)*1+zero
+        txt.print_w(ww)
+        txt.chrout('\n')
+
+        ub = any(ubarr)
+        txt.print_ub(ub)
+        txt.chrout('\n')
+        ub = zero+any(ubarr)*1+zero
+        txt.print_ub(ub)
+        txt.chrout('\n')
+
+        ub = any(barr)
+        txt.print_ub(ub)
+        txt.chrout('\n')
+        ub = zero+any(barr)*1+zero
+        txt.print_ub(ub)
+        txt.chrout('\n')
+
+        ub = any(uwarr)
+        txt.print_ub(ub)
+        txt.chrout('\n')
+        ub = zero+any(uwarr)*1+zero
+        txt.print_ub(ub)
+        txt.chrout('\n')
+
+        ub = any(warr)
+        txt.print_ub(ub)
+        txt.chrout('\n')
+        ub = zero+any(warr)*1+zero
+        txt.print_ub(ub)
+        txt.chrout('\n')
+
+        ub = all(ubarr)
+        txt.print_ub(ub)
+        txt.chrout('\n')
+        ub = zero+all(ubarr)*1+zero
+        txt.print_ub(ub)
+        txt.chrout('\n')
+
+        ub = all(barr)
+        txt.print_ub(ub)
+        txt.chrout('\n')
+        ub = zero+all(barr)*1+zero
+        txt.print_ub(ub)
+        txt.chrout('\n')
+
+        ub = all(uwarr)
+        txt.print_ub(ub)
+        txt.chrout('\n')
+        ub = zero+all(uwarr)*1+zero
+        txt.print_ub(ub)
+        txt.chrout('\n')
+
+        ub = all(warr)
+        txt.print_ub(ub)
+        txt.chrout('\n')
+        ub = zero+all(warr)*1+zero
+        txt.print_ub(ub)
+        txt.chrout('\n')
+
+
+        uw = sum(ubarr)
+        txt.print_uw(uw)
+        txt.chrout('\n')
+        uw = zero+sum(ubarr)*1+zero
+        txt.print_uw(uw)
+        txt.chrout('\n')
+
+        ww = sum(barr)
+        txt.print_w(ww)
+        txt.chrout('\n')
+        ww = zero+sum(barr)*1+zero
+        txt.print_w(ww)
+        txt.chrout('\n')
+
+        uw = sum(uwarr)
+        txt.print_uw(uw)
+        txt.chrout('\n')
+        uw = zero+sum(uwarr)*1+zero
+        txt.print_uw(uw)
+        txt.chrout('\n')
+
+        ww = sum(warr)
+        txt.print_w(ww)
+        txt.chrout('\n')
+        ww = zero+sum(warr)*1+zero
+        txt.print_w(ww)
+        txt.chrout('\n')
+
+        sort(ubarr)
+        sort(barr)
+        sort(uwarr)
+        sort(warr)
+        reverse(ubarr)
+        reverse(barr)
+        reverse(uwarr)
+        reverse(warr)
+
+        test_stack.test()
+    }
+
+    sub floatingpoint() {
+        ubyte[]  barr = [1,2,3,4,5,0,4,3,2,1]
+        float[] flarr = [1.1, 2.2, 3.3, 0.0, -9.9, 5.5, 4.4]
+
+        ubyte zero=0
+        ubyte ub
+        byte bb
+        uword uw
+        float fl
+        float fzero=0.0
+
+        fl = -9.9
+        fl = abs(fl)
+        floats.print_f(fl)
+        txt.chrout('\n')
+        fl = -9.9
+        fl = fzero+abs(fl)*1.0+fzero
+        floats.print_f(fl)
+        txt.chrout('\n')
+
+        fl = 9.9
+        fl = atan(fl)
+        floats.print_f(fl)
+        txt.chrout('\n')
+        fl = 9.9
+        fl = fzero+atan(fl)*1.0+fzero
+        floats.print_f(fl)
+        txt.chrout('\n')
+
+        fl = -9.9
+        fl = ceil(fl)
+        floats.print_f(fl)
+        txt.chrout('\n')
+        fl = -9.9
+        fl = fzero+ceil(fl)*1.0+fzero
+        floats.print_f(fl)
+        txt.chrout('\n')
+
+        fl = -9.9
+        fl = cos(fl)
+        floats.print_f(fl)
+        txt.chrout('\n')
+        fl = -9.9
+        fl = fzero+cos(fl)*1.0+fzero
+        floats.print_f(fl)
+        txt.chrout('\n')
+
+        fl = -9.9
+        fl = sin(fl)
+        floats.print_f(fl)
+        txt.chrout('\n')
+        fl = -9.9
+        fl = fzero+sin(fl)*1.0+fzero
+        floats.print_f(fl)
+        txt.chrout('\n')
+
+        fl = 9.9
+        fl = tan(fl)
+        floats.print_f(fl)
+        txt.chrout('\n')
+        fl = 9.9
+        fl = fzero+tan(fl)*1.0+fzero
+        floats.print_f(fl)
+        txt.chrout('\n')
+
+        fl = 3.1415927
+        fl = deg(fl)
+        floats.print_f(fl)
+        txt.chrout('\n')
+        fl = 3.1415927
+        fl = fzero+deg(fl)*1.0+fzero
+        floats.print_f(fl)
+        txt.chrout('\n')
+
+        fl = 90
+        fl = rad(fl)
+        floats.print_f(fl)
+        txt.chrout('\n')
+        fl = 90
+        fl = fzero+rad(fl)*1.0+fzero
+        floats.print_f(fl)
+        txt.chrout('\n')
+
+        fl = -9.9
+        fl = floor(fl)
+        floats.print_f(fl)
+        txt.chrout('\n')
+        fl = -9.9
+        fl = fzero+floor(fl)*1.0+fzero
+        floats.print_f(fl)
+        txt.chrout('\n')
+
+        fl = 3.1415927
+        fl = ln(fl)
+        floats.print_f(fl)
+        txt.chrout('\n')
+        fl = 3.1415927
+        fl = fzero+ln(fl)*1.0+fzero
+        floats.print_f(fl)
+        txt.chrout('\n')
+
+        fl = 3.1415927
+        fl = log2(fl)
+        floats.print_f(fl)
+        txt.chrout('\n')
+        fl = 3.1415927
+        fl = fzero+log2(fl)*1.0+fzero
+        floats.print_f(fl)
+        txt.chrout('\n')
+
+        fl = -9.9
+        fl = round(fl)
+        floats.print_f(fl)
+        txt.chrout('\n')
+        fl = -9.9
+        fl = fzero+round(fl)*1.0+fzero
+        floats.print_f(fl)
+        txt.chrout('\n')
+
+        fl = -9.9
+        bb = sgn(fl)
+        txt.print_b(bb)
+        txt.chrout('\n')
+        fl = -9.9
+        bb = zero+sgn(fl)*1+zero
+        txt.print_b(bb)
+        txt.chrout('\n')
+
+        fl = 3.1415927
+        fl = sqrt(fl)
+        floats.print_f(fl)
+        txt.chrout('\n')
+        fl = 3.1415927
+        fl = fzero+sqrt(fl)*1.0+fzero
+        floats.print_f(fl)
+        txt.chrout('\n')
+
+        fl = rndf()
+        floats.print_f(fl)
+        txt.chrout('\n')
+        fl = fzero+rndf()*1.0+fzero
+        floats.print_f(fl)
+        txt.chrout('\n')
+
+        swap(fl, fzero)
+        swap(fzero, fl)
+
+        ub = any(flarr)
+        txt.print_ub(ub)
+        txt.chrout('\n')
+        ub = zero+any(flarr)*1+zero
+        txt.print_ub(ub)
+        txt.chrout('\n')
+        ub = all(flarr)
+        txt.print_ub(ub)
+        txt.chrout('\n')
+        ub = zero+all(flarr)*1+zero
+        txt.print_ub(ub)
+        txt.chrout('\n')
+
+        reverse(flarr)
+        for ub in 0 to len(flarr)-1 {
+            floats.print_f(flarr[ub])
+            txt.chrout(',')
+        }
+        txt.chrout('\n')
+        fl = max(flarr)
+        floats.print_f(fl)
+        txt.chrout('\n')
+        fl = fzero+max(flarr)*1.0+fzero
+        floats.print_f(fl)
+        txt.chrout('\n')
+        fl = min(flarr)
+        floats.print_f(fl)
+        txt.chrout('\n')
+        fl = fzero+min(flarr)*1.0+fzero
+        floats.print_f(fl)
+        txt.chrout('\n')
+        fl = sum(flarr)
+        floats.print_f(fl)
+        txt.chrout('\n')
+        fl = fzero+sum(flarr)*1.0+fzero
+        floats.print_f(fl)
+        txt.chrout('\n')
+
+        test_stack.test()
+    }
+}