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Fixing and adding to x65macro.i

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- Adding shift operations to macros
- Adding README.MD to macros
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Carl-Henrik Skårstedt 2015-12-04 22:10:27 -08:00
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279
macros/README.MD Normal file
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# x65 macro library
Macros are useful for a variety of custom purposes, x65macro.i aims to provide useful common functions that function like a template library.
These macros deal with simple math, assignments, memory copy and loops.
### Operations
The base operations provided by these macros include
* *set*: Assign a value to the contents of an address
* *move*: Move the contents of an address to another address
* *add*: addition
* *sub*: subtraction
* *asrm*: arithmetic shift right
* *aslm*: arithmetic shift left
* *neg*: negate a number
* *abs*: make a number positive
* *copy*: copy memory from one location to another
* *for*: iterate between two numbers with optional step size
* *mnop*: insert multiple nop at this point
### Decorations
Letter codes following the operations have the following meaning
* **b**: byte
* **w**: word (2 bytes)
* **t**: triple (3 bytes)
* **l**: long (4 bytes)
* **n**: number of bytes in value
* **c**: copy result to target
* **i**: immediate, for example add a value to the contents of an address
* **x**: use the x register for operation as a counter or an offset
* **y**: use the y register for operation
* **r**: relative; ry=(zp),y
* **a**: use the contents of an address for operation (16 bits)
* **s**: custom step size (instead of +1 or -1) for loops
* **p**: positive
* **m**: negative
* **o**: use label pool for counter
## Examples
```
; $fc = CopyCode
; for ($fe=$2000; $fe<$4000; $fe += (CodeEnd-CopyCode)) {
; memcpy($fe, $fc, CodeEnd-CopyCode)
; }
set.w CopyCode, $fc
for.wsp $2000, $4000, $fe, CodeSegLen
copy.ry128 $fc, $fe, CodeSegLen
forend
```
```
; int $fc
; $fc >>= 1
asrm.n $fc,4
```
```
ldx #$fc
aslm.nx $fc,4
```
```
; int $fc
; $fc = -$fc
neg.n $fc,4
```
```
; int $fc = abs($fc)
abs.n $fc, 4
```
## List of macros and args
```
set.b / .w / .t / .l Value, Target
```
- set the contents of an 1-4 byte location to a value
- uses accumulator
```
move.b / .w / .t / .l / .n Src,Trg
```
- copy 1-4 (or n) bytes from Src location to Trg location
- uses accumulator
```
asrm.n Target, Size
```
- shift a signed multi byte number right
- uses accumulator
```
asrm.nx Target, Size
```
- shift a signed multi byte number right offset by the x register
- no registers touched
```
aslm.n Target, Size
```
- shift a multi byte number left
- no registers touched
```
aslm.nx Target, Size
```
- shift a multi byte number left offset by the x register
- no registers changed
```
neg.cn Source, Target, Size
```
- negate and copy a multi byte number
- uses accumulator
```
neg.n Target, Size
```
- negate a number in place
- uses accumulator
```
abs.n Trg, Size
```
- make a number absolute
- uses accumulator
```
neg.nx Trg, Size
```
- negate a number in place offset by the x register
- uses accumulator
```
add.n Address1, Address2, Target, Bytes
```
- add contents of two memory locations into a target lcoation
- uses accumulator
```
sub.n Address1, Address2, Target, Bytes
```
- Target = Address1 - Address2
- uses accumulator
```
add.ni Address, Value, Target, Bytes
```
- add a fixed value to a memory location into a target
- uses accumulator
```
sub.ni Address, Value, Target, Bytes
```
- Target = Address - Value
- uses accumulator
```
add.wi Address, Value, Target
```
- Subtract 16 bit Value from contents of Address and store at Target
- uses accumulator
```
sub.wi Address1, Address2, Target
```
- add contents of two 16 bit addresses into a target 16 bit location
- uses accumulator
```
mnop Count
```
- add Count nops
```
copy.x Source, Target, Size
```
- copy up to 256 bytes using the x register as a counter
- uses accumulator and x register
```
copy.y Source, Target, Size
```
- copy up to 256 bytes using the y register as a counter
- uses accumulator and y register
```
copy.ry zpSrcPtr,zpTrgPtr,Size
```
- copy up to 256 bytes using the y register
```
copy.ry128 zpSrcPtr,zpTrgPtr,Size
```
- copy up to 128 bytes using the y register
```
copy.o Src,Trg,Size,PoolZP
```
- copy more than 256 bytes using zero page label pool addresses
- uses accumulator, x and y register
```
copy.a Src,Trg,Size
```
- copy more than 256 bytes using absolute indexed in a loop
- uses accumulator, x and y register
```
copy.zp Src,Trg,Size,zpTmp1,zpTmp2
```
- copy more than 256 bytes using two pairs of zero page values
- uses accumulator, x and y register
```
for.x Start, End
```
- iterate using the x register from Start to End, End is not inclusive
so to iterate from 31 to 0 use for.x 31, -1
- uses x register
- end for loop with forend macro
```
for.y Start, End
```
- same as for.x but with the y register
- uses y register
- end for loop with forend macro
```
copy.ry zpSrcPtr,zpTrgPtr,Size
```
- copy a fixed length buffer using relative zp y indexing
- size is up to a page, changing Y and A
```
copy.ry128 zpSrcPtr,zpTrgPtr,Size
```
- copy up to 128 bytes using the y register
```
for.w Start, End, Counter
```
- for loop for 16 bit counter
- uses accumulator
- end for loop with forend macro
```
for.ws Start, End, Counter, Step
```
- for loop for 16 bit counter with a step value
- uses accumulator
- end for loop with forend macro
```
for.wsp Start, End, Counter, Step {
```
- for (word Counter=start; Counter<end; Counter += Step), Step>0
- uses accumulator
```
for.wsm Start, End, Counter, Step {
```
- for (word Counter=start; Counter<end; Counter += Step), Step<0
- uses accumulator
```
forend
```
- terminates for loops

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macros/x65macro.i
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@ -1,7 +1,40 @@
;x65macros.i ;x65macros.i
; ;
; set.b / .w / .t / .l Trg, Value ; letter definition
; -----------------
; The letters after the period has the following meanings:
; - b: byte
; - w: word (2 bytes)
; - t: triple (3 bytes)
; - l: long (4 bytes)
; - n: number of bytes in value
; - c: copy result to target
; - i: immediate, for example add a value to the contents of an address
; - x: use the x register for operation as a counter or an offset
; - y: use the y register for operation
; - r: relative; ry=(zp),y
; - a: use the contents of an address for operation (16 bits)
; - s: custom step size (instead of +1 or -1) for loops
; - p: positive
; - m: negative
; - o: use label pool for counter
;
; operations
; ----------
; The base operations provided by these macros are:
; - set: Assign a value to the contents of an address
; - move: Move the contents of an address to another address
; - add: addition
; - sub: subtraction
; - asrm: arithmetic shift right
; - aslm: arithmetic shift left
; - neg: negate a number
; - abs: make a number positive
; - copy: copy memory from one location to another
; - for: iterate between two numbers with optional step size
; - mnop: insert multiple nop at this point
;
; set.b / .w / .t / .l Value, Target
; - set the contents of an 1-4 byte location to a value ; - set the contents of an 1-4 byte location to a value
; - uses accumulator ; - uses accumulator
; ;
@ -9,6 +42,38 @@
; - copy 1-4 (or n) bytes from Src location to Trg location ; - copy 1-4 (or n) bytes from Src location to Trg location
; - uses accumulator ; - uses accumulator
; ;
; asrm.n Target, Size
; - shift a signed multi byte number right
; - uses accumulator
;
; asrm.nx Target, Size
; - shift a signed multi byte number right offset by the x register
; - no registers touched
;
; aslm.n Target, Size
; - shift a multi byte number left
; - no registers touched
;
; aslm.nx Target, Size
; - shift a multi byte number left offset by the x register
; - no registers changed
;
; neg.cn Source, Target, Size
; - negate and copy a multi byte number
; - uses accumulator
;
; neg.n Target, Size
; - negate a number in place
; - uses accumulator
;
; abs.n Trg, Size
; - make a number absolute
; - uses accumulator
;
; neg.nx Trg, Size
; - negate a number in place offset by the x register
; - uses accumulator
;
; add.n Address1, Address2, Target, Bytes ; add.n Address1, Address2, Target, Bytes
; - add contents of two memory locations into a target lcoation ; - add contents of two memory locations into a target lcoation
; - uses accumulator ; - uses accumulator
@ -25,11 +90,11 @@
; - Target = Address - Value ; - Target = Address - Value
; - uses accumulator ; - uses accumulator
; ;
; addw.i Address, Value, Target ; add.wi Address, Value, Target
; - Subtract 16 bit Value from contents of Address and store at Target ; - Subtract 16 bit Value from contents of Address and store at Target
; - uses accumulator ; - uses accumulator
; ;
; subw.i Address1, Address2, Target ; sub.wi Address1, Address2, Target
; - add contents of two 16 bit addresses into a target 16 bit location ; - add contents of two 16 bit addresses into a target 16 bit location
; - uses accumulator ; - uses accumulator
; ;
@ -44,7 +109,14 @@
; - copy up to 256 bytes using the y register as a counter ; - copy up to 256 bytes using the y register as a counter
; - uses accumulator and y register ; - uses accumulator and y register
; ;
; copy.p Src,Trg,Size,PoolZP ; copy.ry zpSrcPtr,zpTrgPtr,Size
; - copy a fixed length buffer using relative zp y indexing
; - size is up to a page, changing Y and A
;
; copy.ry128 zpSrcPtr,zpTrgPtr,Size
; - copy up to 128 bytes using the y register
;
; copy.o Src,Trg,Size,PoolZP
; - copy more than 256 bytes using zero page label pool addresses ; - copy more than 256 bytes using zero page label pool addresses
; - uses accumulator, x and y register ; - uses accumulator, x and y register
; ;
@ -77,6 +149,15 @@
; - uses accumulator ; - uses accumulator
; - end for loop with forend macro ; - end for loop with forend macro
; ;
;
; for.wsp Start, End, Counter, Step {
; - for (word Counter=start; Counter<end; Counter += Step), Step>0
; - uses accumulator
;
; for.wsm Start, End, Counter, Step {
; - for (word Counter=start; Counter<end; Counter += Step), Step<0
; - uses accumulator
;
; forend ; forend
; - terminates for loops ; - terminates for loops
; ;
@ -152,6 +233,90 @@ macro move.n Src,Trg,Size
} }
} }
; shift a signed multi byte number right
macro asrm.n Trg,Size
{
lda Trg+Size-1
asl
rept Size {
ror (Trg - 1 + Size - rept)
}
}
; shift a signed multi byte number right offset by the x register
macro asrm.nx Trg,Size
{
lda Trg+Size-1,x
asl
rept Size {
ror (Trg + Size - 1 - rept), x
}
}
; shift a multi byte number left
macro aslm.n Trg,Size
{
asl Trg
rept Size-1 {
rol Trg+1+rept
}
}
; shift a multi byte number left offset by the x register
macro aslm.nx Trg,Size
{
asl Trg,x
rept Size-1 {
rol Trg+1+rept,x
}
}
; negate and copy a multi byte number
macro neg.cn Src, Trg, Size
{
sec
rept Size {
lda #0
sbc Src + rept
sta Trg + rept
}
}
; negate a number in place
macro neg.n Trg, Size
{
sec
rept Size {
lda #0
sbc Trg + rept
sta Trg + rept
}
}
; negate a number in place offset by the x register
macro neg.nx Trg, Size
{
sec
rept Size {
lda #0
sbc Trg + rept,x
sta Trg + rept,x
}
}
; make a number absolute
macro abs.n Trg, Size
{
lda Trg+Size-1
bpl %
sec
rept Size {
lda #0
sbc Trg + rept
sta Trg + rept
}
}
; add two numbers together (A and B and Trg are addresses) ; add two numbers together (A and B and Trg are addresses)
macro add.n A,B,Trg,NumSize macro add.n A,B,Trg,NumSize
{ {
@ -197,7 +362,7 @@ macro sub.ni Src,Value,Trg,NumSize
} }
; add a fixed value to a two byte number and store at Trg ; add a fixed value to a two byte number and store at Trg
macro addw.i Src,Value,Trg macro add.wi Src,Value,Trg
{ {
clc clc
lda #<Value lda #<Value
@ -209,7 +374,7 @@ macro addw.i Src,Value,Trg
} }
; add a fixed value to a two byte number and store at Trg ; add a fixed value to a two byte number and store at Trg
macro subw.i Src,Value,Trg macro sub.wi Src,Value,Trg
{ {
sec sec
lda Src lda Src
@ -309,10 +474,22 @@ macro copy.ry zpSrcPtr,zpTrgPtr,Size
endif endif
} }
; copy up to 128 bytes using the y register
macro copy.ry128 zpSrcPtr,zpTrgPtr,Size
{
ldy #Size-1
{
lda (zpSrcPtr),y
sta (zpTrgPtr),y
dey
bpl !
}
}
; copy pages using temp zero page registers ; copy pages using temp zero page registers
; falls back on CopyF if less than or equal to a page ; falls back on CopyF if less than or equal to a page
; changes x, y and A ; changes x, y and A
macro copy.p Src,Trg,Size,PoolZP macro copy.o Src,Trg,Size,PoolZP
{ {
if (Size<256) if (Size<256)
copy.x Src,Trg,Size copy.x Src,Trg,Size
@ -491,7 +668,7 @@ macro forend {
undef _ForEnd undef _ForEnd
} }
; for (Counter=start; Counter<end; Counter += Step) ; for (word Counter=start; Counter<end; Counter += Step), check Step sign to determine direction
macro for.ws Start, End, Counter, Step { macro for.ws Start, End, Counter, Step {
set.w Start, Counter set.w Start, Counter
if Start < End if Start < End
@ -510,7 +687,22 @@ macro for.ws Start, End, Counter, Step {
_ForLoop _ForLoop
} }
; for (word Counter=start; Counter<end; Counter += Step), Step>0
macro for.wsp Start, End, Counter, Step {
set.w Start, Counter
string _ForEnd = "clc\nlda #<Step\nadc Counter\nsta Counter\nlda #>Step\n adc Counter+1\nsta Counter+1\ncmp #>End\nbcc _ForLoop\nlda Counter\ncmp #<End\nbcc _ForLoop"
_ForLoop
}
; for (word Counter=start; Counter<end; Counter += Step), Step<0
macro for.wsm Start, End, Counter, Step {
set.w Start, Counter
string _ForEnd = "sec\nlda Counter\n sbc #<(-Step)\nsta Counter\nlda Counter+1\nsbc #>(-Step)\nsta Counter+1\ncmp #(>End)+1\nbcs _ForLoop\nlda Counter\ncmp #(<End)+1\n\nbcs _ForLoop"
_ForLoop
}
macro forend { macro forend {
_ForEnd _ForEnd
undef _ForEnd undef _ForEnd
undef _ForLoop
} }