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3ff0fbae34
The regression tests were written with the assumption that all cross assemblers would support 6502, 65C02, and 65816 code. There are a few that support 65816 partially (e.g. ACME) or not at all. To best support these, we need to split some of the tests into pieces, so that important 6502 tests aren't skipped simply because parts of the test also exercise 65816 code. The first step is to change the regression test naming scheme. The old system used 1xxx for tests without project files, and 2xxx for tests with project files. The new system uses 1xxxN / 2xxxN, where N indicates the CPU type: 0 for 6502, 1 for 65C02, and 2 for 65816. For the 1xxxN tests the new value determines which CPU is used, which allows us to move the "allops" 6502/65C02 tests into the no-project category. For 2xxxN it just allows the 6502 and 65816 versions to have the same base name and number. This change updates the first batch of tests. It involves minor changes to the test harness and a whole bunch of renaming.
275 lines
5.9 KiB
ArmAsm
275 lines
5.9 KiB
ArmAsm
; Copyright 2018 faddenSoft. All Rights Reserved.
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; See the LICENSE.txt file for distribution terms (Apache 2.0).
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;
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; Assembler: Merlin 32
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org $1000
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clc
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xce
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sep #$ff ;set all flags
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mx %11
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; clear individual flags with instructions
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; (this has no effect on the assembled output, but you can see the
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; effects on the "status" column in the display list)
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clv
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cld
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cli
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clc
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lda #$80 ;clear Z
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lda #$01 ;clear N
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sed
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sei
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sec
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lda #$ff ;set N
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adc #$00 ;set V, Z (actually scrambles NVZC)
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; clear individual flags with REP
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sep #$ff
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rep #$80
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rep #$40
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rep #$20
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rep #$10
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rep #$08
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rep #$04
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rep #$02
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rep #$01
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; exercise SEP/REP with #$00
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sep #$00
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sep #$ff
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rep #$00
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rep #$ff
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; confirm emulation behavior
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mx %00 ;long regs
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lda #$feed ;check it
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sec
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xce ;emulation mode
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lda #$ff ;check it
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rep #$30 ;should have no effect...
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mx %11 ;...but Merlin32 doesn't know that
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lda #$ff
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clc
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xce ;back to native, should set M/X=1
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lda #$ff ;check it
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; try one long, one short
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rep #$20 ;long a
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sep #$10 ;short x/y
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mx %01
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lda #$0000
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ldx #$01
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ldy #$02
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sep #$20 ;short a
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rep #$10 ;long x/y
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mx %10
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lda #$01
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ldx #$0000
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ldy #$0000
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; check branch instructions; NVMXDIZC
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sep #$30
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mx %11
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lda #$00
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pha
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plp ;without a nearby PHP, flags will be scrambled
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rep #$80
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bpl ok_bpl
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brk $00
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ok_bpl sep #$80
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bpl :bad ;branch never taken
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bmi ok_bmi
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:bad brk $00
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ok_bmi rep #$40
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bvc ok_bvc
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brk $00
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ok_bvc sep #$40
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bvs ok_bvs
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brk $00
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ok_bvs rep #$01
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bcc ok_bcc
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brk $00
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ok_bcc sep #$01
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bcs ok_bcs
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brk $00
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ok_bcs rep #$02
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bne ok_bne
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brk $00
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ok_bne sep #$02
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beq ok_beq
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brk $00
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ok_beq
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; check NZ flags set by immediate load
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sep #$ff ;set all
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mx %11
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lda #$01
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bne ok_nzero
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brk $db
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ok_nzero
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lda #$00
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beq ok_zero
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brk $db
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ok_zero
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bpl ok_pos
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brk $db
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ok_pos
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lda #$80
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bmi ok_neg
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brk $db
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ok_neg
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; check NZ flags set by immediate AND
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lda #$ff
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and #$00
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beq ok_andZ1
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brk $db
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ok_andZ1
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lda #$00
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ldx #$80
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and #$ff
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beq ok_andZ1A
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bne ok_andZ1A
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ok_andZ1A
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lda #$ff
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ldx #$00
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and #$7f
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beq ok_andZ0
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bne ok_andZ0
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ok_andZ0
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bpl ok_andN0
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brk $db
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ok_andN0
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lda #$ff
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and #$80
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bmi ok_andN1
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brk $db
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ok_andN1
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; check NZ flags set by immediate ORA
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lda #$00
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ldx #$80
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bne :next1
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brk $db
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:next1 ora #$00
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beq ok_oraZ1
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bne ok_oraZ1
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ok_oraZ1
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ora #$01
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bne ok_oraZ0
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brk $db
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ok_oraZ0
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lda #$00
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ldx #$80
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bmi :next2
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brk $db
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:next2 ora #$7f ;N-flag clear, but analyzer doesn't know
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bpl ok_oraN0 ;so both of these are considered viable
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bmi ok_oraN0
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brk $db
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ok_oraN0
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ora #$80
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bmi ok_oraN1
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brk $db
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ok_oraN1
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; check rol/ror
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:foo lda :foo ;scramble N/V
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sec
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ror A ;rotates the carry into the hi bit (N)
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bmi ok_ror1
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brk $dc
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ok_ror1
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clc
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ror A ;now try with carry clear
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bpl ok_ror2
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brk $dc
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ok_ror2
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lda #$00 ;set Z=1
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sec
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rol A ;set Z=0 (could also set C=0)
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bne ok_rol1
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brk $dc
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ok_rol1
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; check lsr
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lda #$ff
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lsr A ;lsr always clears the high bit
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bpl ok_lsr
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brk $dd
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ok_lsr
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; simple php/plp pair test
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clc
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php
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sec
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plp ;should restore cleared carry
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bcc ok_plp
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brk $00
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ok_plp
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; regression test for bug in analyzer
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sec ;here carry is clear
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bcs flg2
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flg1 clc
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flg2 lda $33
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beq flg1
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bcs flg3 ;this should NOT be branch-always
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lda $44
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flg3 nop
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; test tracking across subroutine calls
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rep #$20 ;long a
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sep #$10 ;short x/y
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mx %01
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jsr long_subr ;confirm flag propagation
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rep #$30
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mx %00
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jsr ambig_subr
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sep #$30
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mx %11
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jsr ambig_subr
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rep #$20 ;long a
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sep #$10 ;short x/y
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mx %01
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jsr long_subr ;call it again
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; leave the main routine with short flags set
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sep #$30
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mx %11
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rts
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; only called with longm/shortx
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mx %01
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long_subr
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lda #$1234
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ldx #$ff
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rts
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; this is called with different values for M/X, so it defaults to short
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mx %11
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ambig_subr
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lda #$ff
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ldx #$ee
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ldy #$dd
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rts
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