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ORCA-C
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ORCA-C/ObjOut.asm

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mcopy objout.macros
****************************************************************
*
* CnOut - write a byte to the constant buffer
*
* Inputs:
* i - byte to write
*
****************************************************************
*
CnOut start
maxCBuffLen equ 191 max index into the constant buffer
lda cBuffLen if cBuffLen = maxCBuffLen then
cmp #maxCBuffLen
bne lb1
jsl Purge Purge;
lb1 phb cBuff[cBuffLen] := i;
plx
ply
pla
phy
phx
plb
ldx cBuffLen
short M
sta cBuff,X
long M
inc cBuffLen cBuffLen := cBuffLen+1;
rtl
end
****************************************************************
*
* CnOut2 - write a word to the constant buffer
*
* Inputs:
* i - word to write
*
****************************************************************
*
CnOut2 start
maxCBuffLen equ 191 max index into the constant buffer
lda cBuffLen if cBuffLen+1 >= maxCBuffLen then
inc A
cmp #maxCBuffLen
blt lb1
jsl Purge Purge;
lb1 phb cBuff[cBuffLen] := i;
plx
ply
pla
phy
phx
plb
ldx cBuffLen
sta cBuff,X
inx cBuffLen := cBuffLen+2;
inx
stx cBuffLen
rtl
end
****************************************************************
*
* COut - write a code byte to the object file
*
* Inputs:
* b - byte to write (on stack)
*
****************************************************************
*
COut start
phb OutByte(b);
pla
ply
plx
phy
pha
plb
jsr OutByte
inc4 blkcnt blkcnt := blkcnt+1;
inc4 pc pc := pc+1;
rtl
end
****************************************************************
*
* Out2 - write a word to the output file
*
* Inputs:
* w - word to write (on stack)
*
****************************************************************
*
Out2 start
phb OutWord(w);
pla
ply
plx
phy
pha
plb
jsr OutWord
add4 blkcnt,#2 blkcnt := blkcnt+2;
rtl
end
****************************************************************
*
* Out - write a byte to the output file
*
* Inputs:
* b - byte to write (on stack)
*
****************************************************************
*
Out start
phb OutByte(b);
pla
ply
plx
phy
pha
plb
jsr OutByte
inc4 blkcnt blkcnt := blkcnt+1;
rtl
end
****************************************************************
*
* OutByte - write a byte to the object file
*
* Inputs:
* X - byte to write
*
****************************************************************
*
OutByte private
lda objLen if objLen+segDisp = buffSize then
clc
adc segDisp
lda objLen+2
adc segDisp+2
and #$FFFE
beq lb2
phx PurgeObjBuffer;
jsl PurgeObjBuffer
plx
lda objLen check for segment overflow
clc
adc segDisp
lda objLen+2
adc segDisp+2
and #$FFFE
bne lb2a
lb2 anop carry must be clear
lda objPtr+2 p := pointer(ord4(objPtr)+segDisp);
adc segDisp+2
pha
lda objPtr
pha
tsc p^ := b;
phd
tcd
ldy segDisp
short M
txa
sta [1],Y
long M
inc4 segDisp segDisp := segDisp+1;
pld
tsc
clc
adc #4
tcs
rts
lb2a lda #$8000 handle a segment overflow
sta segDisp
stz segDisp+2
ph2 #112
jsl Error
rts
end
****************************************************************
*
* OutWord - write a word to the object file
*
* Inputs:
* X - word to write
*
****************************************************************
*
OutWord private
lda objLen if objLen+segDisp+1 = buffSize then
sec
adc segDisp
lda objLen+2
adc segDisp+2
and #$FFFE
beq lb2
phx PurgeObjBuffer;
jsl PurgeObjBuffer
plx
lda objLen check for segment overflow
sec
adc segDisp
lda objLen+2
adc segDisp+2
and #$FFFE
bne lb3
lb2 anop carry must be clear
lda objPtr+2 p := pointer(ord4(objPtr)+segDisp);
adc segDisp+2
pha
lda objPtr
pha
tsc p^ := b;
phd
tcd
ldy segDisp
txa
sta [1],Y
add4 segDisp,#2 segDisp := segDisp+2;
pld
tsc
clc
adc #4
tcs
rts
lb3 ph2 #112 flag segment overflow error
jsl Error
lda #$8000
sta segDisp
stz segDisp+2
rts
end
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