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6502bench/SourceGen/SGTestData/Expected/2000-allops-value-6502_64tass.S
Andy McFadden 32d1147eec Improve multi-encoding output in 64tass
Previously, we used the default character encoding from the project
properties to determine how strings and character constants in the
entire source file should be encoded.  Now we switch between
encodings as needed.  The default character encoding is no longer
relevant.

High ASCII is now an actual encoding, rather than acting like ASCII
that sometimes doesn't work.  Because we can do high ASCII character
operands with "| $80", we don't output a .enc to switch from ASCII
to high ASCII unless we need to generate a string.  (If we're
already in high ASCII mode, the "| $80" isn't required but won't
hurt anything.)

We now do a scan up front to see if ASCII or high ASCII is needed,
and only output the .cdefs for the encodings that are actually used.

The only gap in the matrix is high ASCII DCI strings -- the ".shift"
pseudo-op rejects text if the string doesn't start with the high
bit clear.
2019-08-21 13:46:05 -07:00

297 lines
5.8 KiB
ArmAsm

.cpu "6502i"
* = $1000
jsr L1035
jsr L1038
jsr L1059
jsr L107D
jsr L109E
jsr L10BD
jsr L10C0
jsr L10E1
jsr L1100
jsr L1103
jsr L1116
jsr L1124
jsr L1169
jsr L11AE
jsr L11F3
jsr L1238
nop
nop
nop
brk
.byte $ff
L1035 ora ($ff,x)
jam
L1038 slo ($ff,x)
.byte $04,$ff
ora $ff
asl $ff
slo $ff
php
ora #$ff
asl a
anc #$ff
.byte $0c,$ff,$fe
ora $feff
asl $feff
slo $feff
bpl L1056
L1056 ora ($ff),y
.byte $12
L1059 slo ($ff),y
.byte $14,$ff
ora $ff,x
asl $ff,x
slo $ff,x
clc
ora $feff,y
.byte $1a
slo $feff,y
.byte $1c,$ff,$fe
ora $feff,x
asl $feff,x
slo $feff,x
jsr $feff
and ($ff,x)
.byte $22
L107D rla ($ff,x)
bit $ff
and $ff
rol $ff
rla $ff
plp
and #$ff
rol a
.byte $2b,$ff
bit $feff
and $feff
rol $feff
rla $feff
bmi L109B
L109B and ($ff),y
.byte $32
L109E rla ($ff),y
.byte $34,$ff
and $ff,x
rol $ff,x
rla $ff,x
sec
and $feff,y
.byte $3a
rla $feff,y
.byte $3c,$ff,$fe
and $feff,x
rol $feff,x
rla $feff,x
rti
L10BD eor ($ff,x)
.byte $42
L10C0 sre ($ff,x)
.byte $44,$ff
eor $ff
lsr $ff
sre $ff
pha
eor #$ff
lsr a
alr #$ff
jmp L10D3
L10D3 eor $feff
lsr $feff
sre $feff
bvc L10DE
L10DE eor ($ff),y
.byte $52
L10E1 sre ($ff),y
.byte $54,$ff
eor $ff,x
lsr $ff,x
sre $ff,x
cli
eor $feff,y
.byte $5a
sre $feff,y
.byte $5c,$ff,$fe
eor $feff,x
lsr $feff,x
sre $feff,x
rts
L1100 adc ($ff,x)
.byte $62
L1103 rra ($ff,x)
.byte $64,$ff
adc $ff
ror $ff
rra $ff
pla
adc #$ff
ror a
arr #$ff
jmp ($feff)
L1116 adc $feff
ror $feff
rra $feff
bvs L1121
L1121 adc ($ff),y
.byte $72
L1124 rra ($ff),y
.byte $74,$ff
adc $ff,x
ror $ff,x
rra $ff,x
sei
adc $feff,y
.byte $7a
rra $feff,y
.byte $7c,$ff,$fe
adc $feff,x
ror $feff,x
rra $feff,x
.byte $80,$ff
sta ($ff,x)
.byte $82,$ff
sax ($ff,x)
sty $ff
sta $ff
stx $ff
sax $ff
dey
.byte $89,$ff
txa
ane #$ff
sty $feff
sta $feff
stx $feff
sax $feff
bcc L1166
L1166 sta ($ff),y
.byte $92
L1169 .byte $93,$ff
sty $ff,x
sta $ff,x
stx $ff,y
sax $ff,y
tya
sta $feff,y
txs
tas $feff,y
shy $feff,x
sta $feff,x
shx $feff,y
sha $feff,y
ldy #$ff
lda ($ff,x)
ldx #$ff
lax ($ff,x)
ldy $ff
lda $ff
ldx $ff
lax $ff
tay
lda #$ff
tax
lax #$ff
ldy $feff
lda $feff
ldx $feff
lax $feff
bcs L11AB
L11AB lda ($ff),y
.byte $b2
L11AE lax ($ff),y
ldy $ff,x
lda $ff,x
ldx $ff,y
lax $ff,y
clv
lda $feff,y
tsx
las $feff,y
ldy $feff,x
lda $feff,x
ldx $feff,y
lax $feff,y
cpy #$ff
cmp ($ff,x)
.byte $c2,$ff
dcp ($ff,x)
cpy $ff
cmp $ff
dec $ff
dcp $ff
iny
cmp #$ff
dex
sbx #$ff
cpy $feff
cmp $feff
dec $feff
dcp $feff
bne L11F0
L11F0 cmp ($ff),y
.byte $d2
L11F3 dcp ($ff),y
.byte $d4,$ff
cmp $ff,x
dec $ff,x
dcp $ff,x
cld
cmp $feff,y
.byte $da
dcp $feff,y
.byte $dc,$ff,$fe
cmp $feff,x
dec $feff,x
dcp $feff,x
cpx #$ff
sbc ($ff,x)
.byte $e2,$ff
isc ($ff,x)
cpx $ff
sbc $ff
inc $ff
isc $ff
inx
sbc #$ff
nop
.byte $eb,$ff
cpx $feff
sbc $feff
inc $feff
isc $feff
beq L1235
L1235 sbc ($ff),y
.byte $f2
L1238 isc ($ff),y
.byte $f4,$ff
sbc $ff,x
inc $ff,x
isc $ff,x
sed
sbc $feff,y
.byte $fa
isc $feff,y
.byte $fc,$ff,$fe
sbc $feff,x
inc $feff,x
isc $feff,x