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subroutines can now be defined even within regular code and will not disrupt the generated code anymore (they are moved to the end of their scope by the compiler)

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Irmen de Jong 2020-12-23 01:55:15 +01:00
parent 583af3bd4f
commit ae648b8a0a
4 changed files with 231 additions and 181 deletions
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8
compiler/src/prog8/ast/processing/StatementReorderer.kt
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@ -69,6 +69,14 @@ internal class StatementReorderer(val program: Program, val errors: ErrorReporte
)
}
}
val subs = subroutine.statements.filterIsInstance<Subroutine>()
if(subs.isNotEmpty()) {
// all subroutines defined within this subroutine are moved to the end
return subs.map { IAstModification.Remove(it, subroutine) } +
subs.map { IAstModification.InsertLast(it, subroutine) }
}
return noModifications
}

2
compiler/src/prog8/compiler/Main.kt
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@ -223,7 +223,7 @@ private fun writeAssembly(programAst: Program, errors: ErrorReporter, outputDir:
programAst.processAstBeforeAsmGeneration(errors)
errors.handle()
// printAst(programAst)
printAst(programAst)
CompilationTarget.instance.machine.initializeZeropage(compilerOptions)
val assembly = CompilationTarget.instance.asmGenerator(

207
examples/cx16/gfx2.p8 Normal file
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@ -0,0 +1,207 @@
%import textio
%import diskio
%import floats
%import graphics
%import test_stack
%zeropage basicsafe
%option no_sysinit
main {
sub start () {
gfx2.set_mode(128)
gfx2.clear_screen()
uword offset
ubyte angle
uword x
uword y
when gfx2.active_mode {
0, 1 -> {
for offset in 0 to 90 step 3 {
for angle in 0 to 255 {
x = $0008+sin8u(angle)/2
y = $0008+cos8u(angle)/2
gfx2.plot(x+offset*2,y+offset, lsb(x+y))
}
}
}
128 -> {
for offset in 0 to 190 step 6 {
for angle in 0 to 255 {
x = $0008+sin8u(angle)
y = $0008+cos8u(angle)
gfx2.plot(x+offset*2,y+offset, 1)
}
}
}
}
}
}
gfx2 {
ubyte active_mode = 255
uword width = 0
uword height = 0
ubyte bpp = 0
sub set_mode(ubyte mode) {
; mode 0 = bitmap 320 x 240 x 1c monochrome
; mode 1 = bitmap 320 x 240 x 256c
; mode 128 = bitmap 640 x 480 x 1c monochrome
; ...other modes?
when mode {
0 -> {
; 320 x 240 x 1c
cx16.VERA_DC_VIDEO = (cx16.VERA_DC_VIDEO & %11001111) | %00100000 ; enable only layer 1
cx16.VERA_DC_HSCALE = 64
cx16.VERA_DC_VSCALE = 64
cx16.VERA_L1_CONFIG = %00000100
cx16.VERA_L1_MAPBASE = 0
cx16.VERA_L1_TILEBASE = 0
width = 320
height = 240
bpp = 1
}
1 -> {
; 320 x 240 x 256c
cx16.VERA_DC_VIDEO = (cx16.VERA_DC_VIDEO & %11001111) | %00100000 ; enable only layer 1
cx16.VERA_DC_HSCALE = 64
cx16.VERA_DC_VSCALE = 64
cx16.VERA_L1_CONFIG = %00000111
cx16.VERA_L1_MAPBASE = 0
cx16.VERA_L1_TILEBASE = 0
width = 320
height = 240
bpp = 8
}
128 -> {
; 640 x 480 x 1c
cx16.VERA_DC_VIDEO = (cx16.VERA_DC_VIDEO & %11001111) | %00100000 ; enable only layer 1
cx16.VERA_DC_HSCALE = 128
cx16.VERA_DC_VSCALE = 128
cx16.VERA_L1_CONFIG = %00000100
cx16.VERA_L1_MAPBASE = 0
cx16.VERA_L1_TILEBASE = %00000001
width = 640
height = 480
bpp = 1
}
}
active_mode = mode
}
sub clear_screen() {
when active_mode {
0 -> {
; 320 x 240 x 1c
cx16.VERA_CTRL = 0
cx16.VERA_ADDR_H = %00010000
cx16.VERA_ADDR_M = 0
cx16.VERA_ADDR_L = 0
repeat 240/2/8
cs_innerloop640()
}
1 -> {
; 320 x 240 x 256c
cx16.VERA_CTRL = 0
cx16.VERA_ADDR_H = %00010000
cx16.VERA_ADDR_M = 0
cx16.VERA_ADDR_L = 0
repeat 240/2
cs_innerloop640()
}
128 -> {
; 640 x 480 x 1c
cx16.VERA_CTRL = 0
cx16.VERA_ADDR_H = %00010000
cx16.VERA_ADDR_M = 0
cx16.VERA_ADDR_L = 0
repeat 480/8
cs_innerloop640()
}
}
}
sub plot(uword x, uword y, ubyte color) {
ubyte[8] bits = [128, 64, 32, 16, 8, 4, 2, 1]
when active_mode {
0 -> {
cx16.vpoke_or(0, y*(320/8) + x/8, bits[lsb(x)&7]) ; TODO !?!? if the &7 remains, the code at the '128' label is wrong!!! if changed or removed, the code at 128 works fine!
}
1 -> {
void addr_mul_320_add_24(y, x) ; 24 bits result is in r0 and r1L
cx16.vpoke(lsb(cx16.r1), cx16.r0, color)
}
128 -> {
cx16.vpoke_or(0, y*(640/8) + x/8, bits[lsb(x)&7])
}
}
return
asmsub addr_mul_320_add_24(uword address @R0, uword value @AY) -> uword @R0, ubyte @R1 {
%asm {{
sta P8ZP_SCRATCH_W1
sty P8ZP_SCRATCH_W1+1
lda cx16.r0
sta P8ZP_SCRATCH_B1
lda cx16.r0+1
sta cx16.r1
sta P8ZP_SCRATCH_REG
lda cx16.r0
asl a
rol P8ZP_SCRATCH_REG
asl a
rol P8ZP_SCRATCH_REG
asl a
rol P8ZP_SCRATCH_REG
asl a
rol P8ZP_SCRATCH_REG
asl a
rol P8ZP_SCRATCH_REG
asl a
rol P8ZP_SCRATCH_REG
sta cx16.r0
lda P8ZP_SCRATCH_B1
clc
adc P8ZP_SCRATCH_REG
sta cx16.r0+1
bcc +
inc cx16.r1
+ ; now add the value to this 24-bits number
lda cx16.r0
clc
adc P8ZP_SCRATCH_W1
sta cx16.r0
lda cx16.r0+1
adc P8ZP_SCRATCH_W1+1
sta cx16.r0+1
bcc +
inc cx16.r1
+ lda cx16.r1
rts
}}
}
}
asmsub cs_innerloop640() {
%asm {{
ldy #80
- stz cx16.VERA_DATA0
stz cx16.VERA_DATA0
stz cx16.VERA_DATA0
stz cx16.VERA_DATA0
stz cx16.VERA_DATA0
stz cx16.VERA_DATA0
stz cx16.VERA_DATA0
stz cx16.VERA_DATA0
dey
bne -
rts
}}
}
}

195
examples/test.p8
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@ -8,188 +8,23 @@
main {
; uword adres
; ubyte adreshi
sub start () {
txt.print("hello\n")
ubyte value = 100
ubyte add = 1
gfx2.set_mode(128)
gfx2.clear_screen()
uword offset
ubyte angle
uword x
uword y
when gfx2.active_mode {
0 -> {
for offset in 0 to 90 step 3 {
for angle in 0 to 255 {
x = $0008+sin8u(angle)/2
y = $0008+cos8u(angle)/2
gfx2.plot(x+offset*2,y+offset, lsb(x+y))
}
}
}
128 -> {
for offset in 0 to 190 step 6 {
for angle in 0 to 255 {
x = $0008+sin8u(angle)
y = $0008+cos8u(angle)
gfx2.plot(x+offset*2,y+offset, 1)
}
}
}
}
}
}
gfx2 {
ubyte active_mode = 255
uword width = 0
uword height = 0
ubyte bpp = 0
sub set_mode(ubyte mode) {
; mode 0 = bitmap 320 x 240 x 256c
; mode 128 = bitmap 640 x 480 x 1c monochrome
; ...
when mode {
0 -> {
; 320 x 240 x 256c
cx16.VERA_DC_VIDEO = (cx16.VERA_DC_VIDEO & %11001111) | %00100000 ; enable only layer 1
cx16.VERA_DC_HSCALE = 64
cx16.VERA_DC_VSCALE = 64
cx16.VERA_L1_CONFIG = %00000111
cx16.VERA_L1_MAPBASE = 0
cx16.VERA_L1_TILEBASE = 0
width = 320
height = 240
bpp = 8
}
128 -> {
; 640 x 480 x 1c
cx16.VERA_DC_VIDEO = (cx16.VERA_DC_VIDEO & %11001111) | %00100000 ; enable only layer 1
cx16.VERA_DC_HSCALE = 128
cx16.VERA_DC_VSCALE = 128
cx16.VERA_L1_CONFIG = %00000100
cx16.VERA_L1_MAPBASE = 0
cx16.VERA_L1_TILEBASE = %00000001
width = 640
height = 480
bpp = 1
}
}
active_mode = mode
}
sub clear_screen() {
when active_mode {
0 -> {
; 320 x 240 x 256c
cx16.VERA_CTRL = 0
cx16.VERA_ADDR_H = %00010000
cx16.VERA_ADDR_M = 0
cx16.VERA_ADDR_L = 0
repeat 240/4
cs_innerloop1280()
}
128 -> {
; 640 x 480 x 1c
cx16.VERA_CTRL = 0
cx16.VERA_ADDR_H = %00010000
cx16.VERA_ADDR_M = 0
cx16.VERA_ADDR_L = 0
repeat 480/16
cs_innerloop1280()
}
}
}
asmsub cs_innerloop1280() {
%asm {{
ldy #160
- stz cx16.VERA_DATA0
stz cx16.VERA_DATA0
stz cx16.VERA_DATA0
stz cx16.VERA_DATA0
stz cx16.VERA_DATA0
stz cx16.VERA_DATA0
stz cx16.VERA_DATA0
stz cx16.VERA_DATA0
dey
bne -
rts
}}
}
sub plot(uword x, uword y, ubyte color) {
uword addr
ubyte addrhi
when active_mode {
0 -> {
addr = y
addr_mul_24_320()
addr_add_word_24(x)
cx16.vpoke(addrhi, addr, color)
}
128 -> {
ubyte[8] bits = [128, 64, 32, 16, 8, 4, 2, 1]
cx16.vpoke_or(0, y*(640/8) + x/8, bits[lsb(x)&7])
}
}
; TODO when subs are in front of real code, they generate in place and fuck up the code. Move them to the bottom?
asmsub addr_mul_24_320() {
; addr = addr * 256 + addr * 64, bits 16-23 into addrhi
%asm {{
lda addr
sta P8ZP_SCRATCH_B1
lda addr+1
sta addrhi
sta P8ZP_SCRATCH_REG
lda addr
asl a
rol P8ZP_SCRATCH_REG
asl a
rol P8ZP_SCRATCH_REG
asl a
rol P8ZP_SCRATCH_REG
asl a
rol P8ZP_SCRATCH_REG
asl a
rol P8ZP_SCRATCH_REG
asl a
rol P8ZP_SCRATCH_REG
sta addr
lda P8ZP_SCRATCH_B1
clc
adc P8ZP_SCRATCH_REG
sta addr+1
bcc +
inc addrhi
+ rts
}}
}
asmsub addr_add_word_24(uword w @ AY) {
%asm {{
clc
adc addr
sta addr
tya
adc addr+1
sta addr+1
bcc +
inc addrhi
+ rts
}}
sub dinges() {
value+=add
}
sub dinges2() {
value+=add
}
txt.print_ub(value)
txt.chrout('\n')
dinges()
dinges2()
txt.print_ub(value)
txt.chrout('\n')
}
}