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6502bench/SourceGen/SGTestData/Expected/2002-allops-value-65C02_cc65.S
Andy McFadden 2065f4ef9e Attempt to generate segment names for cc65
This worked, sort of.  The problem is that SourceGen will revert to
hex output in certain situations, such as a broken symbolic
reference.  There happens to be one in the ZIPPY example, and it's
on a relative branch.

The goal with the segment stuff is to allow cc65 to treat the
source as relocatable code.  In that context, a relative branch to
an absolute address doesn't make any sense, so the assembler reports
a range error.

We don't currently have a mechanism that guarantees no references
are broken (and no affordance for finding them), so we can't make
this mode the default yet.

Instead, we continue to use the generic config, but generate the
correct set of lines as comments.

(issue #39)
2018-11-18 15:11:29 -08:00

275 lines
5.6 KiB
ArmAsm

.setcpu "65C02"
; .segment "SEG000"
.org $1000
jsr L1014
jsr L108A
jsr L10C4
jsr L10D8
jsr L10F6
nop
nop
nop
.byte $00,$ff
L1014: ora ($ff,x)
.byte $02,$ff
.byte $03
tsb $ff
ora $ff
asl $ff
.byte $07
php
ora #$ff
asl A
.byte $0b
tsb $feff
ora $feff
asl $feff
.byte $0f
bpl L1031
L1031: ora ($ff),y
ora ($ff)
.byte $13
trb $ff
ora $ff,x
asl $ff,x
.byte $17
clc
ora $feff,y
inc A
.byte $1b
trb $feff
ora $feff,x
asl $feff,x
.byte $1f
jsr $feff
and ($ff,x)
.byte $22,$ff
.byte $23
bit $ff
and $ff
rol $ff
.byte $27
plp
and #$ff
rol A
.byte $2b
bit $feff
and $feff
rol $feff
.byte $2f
bmi L106D
L106D: and ($ff),y
and ($ff)
.byte $33
bit $ff,x
and $ff,x
rol $ff,x
.byte $37
sec
and $feff,y
dec A
.byte $3b
bit $feff,x
and $feff,x
rol $feff,x
.byte $3f
rti
L108A: eor ($ff,x)
.byte $42,$ff
.byte $43
.byte $44,$ff
eor $ff
lsr $ff
.byte $47
pha
eor #$ff
lsr A
.byte $4b
jmp L109E
L109E: eor $feff
lsr $feff
.byte $4f
bvc L10A7
L10A7: eor ($ff),y
eor ($ff)
.byte $53
.byte $54,$ff
eor $ff,x
lsr $ff,x
.byte $57
cli
eor $feff,y
phy
.byte $5b
.byte $5c,$ff,$fe
eor $feff,x
lsr $feff,x
.byte $5f
rts
L10C4: adc ($ff,x)
.byte $62,$ff
.byte $63
stz $ff
adc $ff
ror $ff
.byte $67
pla
adc #$ff
ror A
.byte $6b
jmp ($feff)
L10D8: adc $feff
ror $feff
.byte $6f
bvs L10E1
L10E1: adc ($ff),y
adc ($ff)
.byte $73
stz $ff,x
adc $ff,x
ror $ff,x
.byte $77
sei
adc $feff,y
ply
.byte $7b
jmp ($feff,x)
L10F6: adc $feff,x
ror $feff,x
.byte $7f
bra L10FF
L10FF: sta ($ff,x)
.byte $82,$ff
.byte $83
sty $ff
sta $ff
stx $ff
.byte $87
dey
bit #$ff
txa
.byte $8b
sty $feff
sta $feff
stx $feff
.byte $8f
bcc L111C
L111C: sta ($ff),y
sta ($ff)
.byte $93
sty $ff,x
sta $ff,x
stx $ff,y
.byte $97
tya
sta $feff,y
txs
.byte $9b
stz $feff
sta $feff,x
stz $feff,x
.byte $9f
ldy #$ff
lda ($ff,x)
ldx #$ff
.byte $a3
ldy $ff
lda $ff
ldx $ff
.byte $a7
tay
lda #$ff
tax
.byte $ab
ldy $feff
lda $feff
ldx $feff
.byte $af
bcs L1157
L1157: lda ($ff),y
lda ($ff)
.byte $b3
ldy $ff,x
lda $ff,x
ldx $ff,y
.byte $b7
clv
lda $feff,y
tsx
.byte $bb
ldy $feff,x
lda $feff,x
ldx $feff,y
.byte $bf
cpy #$ff
cmp ($ff,x)
.byte $c2,$ff
.byte $c3
cpy $ff
cmp $ff
dec $ff
.byte $c7
iny
cmp #$ff
dex
.byte $cb
cpy $feff
cmp $feff
dec $feff
.byte $cf
bne L1192
L1192: cmp ($ff),y
cmp ($ff)
.byte $d3
.byte $d4,$ff
cmp $ff,x
dec $ff,x
.byte $d7
cld
cmp $feff,y
phx
.byte $db
.byte $dc,$ff,$fe
cmp $feff,x
dec $feff,x
.byte $df
cpx #$ff
sbc ($ff,x)
.byte $e2,$ff
.byte $e3
cpx $ff
sbc $ff
inc $ff
.byte $e7
inx
sbc #$ff
nop
.byte $eb
cpx $feff
sbc $feff
inc $feff
.byte $ef
beq L11CD
L11CD: sbc ($ff),y
sbc ($ff)
.byte $f3
.byte $f4,$ff
sbc $ff,x
inc $ff,x
.byte $f7
sed
sbc $feff,y
plx
.byte $fb
.byte $fc,$ff,$fe
sbc $feff,x
inc $feff,x
.byte $ff