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364 lines
18 KiB
Plaintext
364 lines
18 KiB
Plaintext
AS65 Assembler for R6502 [1.42]. Copyright 1994-2007, Frank A. Kingswood Page 1
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----------------------------------------------------- 6502_decimal_test.a65 ------------------------------------------------------
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355 lines read, no errors in pass 1.
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; Verify decimal mode behavior
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; Written by Bruce Clark. This code is public domain.
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; see http://www.6502.org/tutorials/decimal_mode.html
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;
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; Returns:
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; ERROR = 0 if the test passed
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; ERROR = 1 if the test failed
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; modify the code at the DONE label for desired program end
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;
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; This routine requires 17 bytes of RAM -- 1 byte each for:
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; AR, CF, DA, DNVZC, ERROR, HA, HNVZC, N1, N1H, N1L, N2, N2L, NF, VF, and ZF
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; and 2 bytes for N2H
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;
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; Variables:
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; N1 and N2 are the two numbers to be added or subtracted
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; N1H, N1L, N2H, and N2L are the upper 4 bits and lower 4 bits of N1 and N2
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; DA and DNVZC are the actual accumulator and flag results in decimal mode
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; HA and HNVZC are the accumulator and flag results when N1 and N2 are
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; added or subtracted using binary arithmetic
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; AR, NF, VF, ZF, and CF are the predicted decimal mode accumulator and
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; flag results, calculated using binary arithmetic
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;
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; This program takes approximately 1 minute at 1 MHz (a few seconds more on
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; a 65C02 than a 6502 or 65816)
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;
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; Configuration:
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0001 = cputype = 1 ; 0 = 6502, 1 = 65C02, 2 = 65C816
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0000 = vld_bcd = 0 ; 0 = allow invalid bcd, 1 = valid bcd only
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0001 = chk_a = 1 ; check accumulator
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0000 = chk_n = 0 ; check sign (negative) flag
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0000 = chk_v = 0 ; check overflow flag
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0000 = chk_z = 0 ; check zero flag
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0000 = chk_c = 0 ; check carry flag
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end_of_test macro
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db $db ;execute 65C02 stop instruction
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endm
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bss
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0000 = org 0
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; operands - register Y = carry in
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0000 = N1 ds 1
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0001 = N2 ds 1
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; binary result
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0002 = HA ds 1
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0003 = HNVZC ds 1
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;04
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; decimal result
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0004 = DA ds 1
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0005 = DNVZC ds 1
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; predicted results
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0006 = AR ds 1
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0007 = NF ds 1
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;08
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0008 = VF ds 1
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0009 = ZF ds 1
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000a = CF ds 1
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000b = ERROR ds 1
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;0C
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; workspace
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000c = N1L ds 1
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000d = N1H ds 1
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000e = N2L ds 1
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000f = N2H ds 2
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code
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0200 = org $200
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0200 : a001 TEST ldy #1 ; initialize Y (used to loop through carry flag values)
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0202 : 840b sty ERROR ; store 1 in ERROR until the test passes
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0204 : a900 lda #0 ; initialize N1 and N2
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0206 : 8500 sta N1
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0208 : 8501 sta N2
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020a : a501 LOOP1 lda N2 ; N2L = N2 & $0F
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020c : 290f and #$0F ; [1] see text
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if vld_bcd = 1
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cmp #$0a
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bcs NEXT2
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endif
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020e : 850e sta N2L
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0210 : a501 lda N2 ; N2H = N2 & $F0
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0212 : 29f0 and #$F0 ; [2] see text
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if vld_bcd = 1
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cmp #$a0
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bcs NEXT2
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endif
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0214 : 850f sta N2H
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0216 : 090f ora #$0F ; N2H+1 = (N2 & $F0) + $0F
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0218 : 8510 sta N2H+1
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021a : a500 LOOP2 lda N1 ; N1L = N1 & $0F
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021c : 290f and #$0F ; [3] see text
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if vld_bcd = 1
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cmp #$0a
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bcs NEXT1
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endif
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021e : 850c sta N1L
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0220 : a500 lda N1 ; N1H = N1 & $F0
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0222 : 29f0 and #$F0 ; [4] see text
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if vld_bcd = 1
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cmp #$a0
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bcs NEXT1
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endif
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0224 : 850d sta N1H
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0226 : 204102 jsr ADD
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0229 : 20c602 jsr A6502
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022c : 20bf02 jsr COMPARE
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022f : d00f bne DONE
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; jsr SUB
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; jsr S6502
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; jsr COMPARE
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; bne DONE
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0231 : e600 NEXT1 inc N1 ; [5] see text
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0233 : d0e5 bne LOOP2 ; loop through all 256 values of N1
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0235 : e601 NEXT2 inc N2 ; [6] see text
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0237 : d0d1 bne LOOP1 ; loop through all 256 values of N2
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0239 : 88 dey
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023a : 10ce bpl LOOP1 ; loop through both values of the carry flag
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023c : a900 lda #0 ; test passed, so store 0 in ERROR
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023e : 850b sta ERROR
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0240 : DONE
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end_of_test
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0240 : db > db $db ;execute 65C02 stop instruction
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; Calculate the actual decimal mode accumulator and flags, the accumulator
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; and flag results when N1 is added to N2 using binary arithmetic, the
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; predicted accumulator result, the predicted carry flag, and the predicted
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; V flag
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;
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0241 : f8 ADD sed ; decimal mode
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0242 : c001 cpy #1 ; set carry if Y = 1, clear carry if Y = 0
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0244 : a500 lda N1
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0246 : 6501 adc N2
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0248 : 8504 sta DA ; actual accumulator result in decimal mode
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024a : 08 php
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024b : 68 pla
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024c : 8505 sta DNVZC ; actual flags result in decimal mode
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024e : d8 cld ; binary mode
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024f : c001 cpy #1 ; set carry if Y = 1, clear carry if Y = 0
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0251 : a500 lda N1
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0253 : 6501 adc N2
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0255 : 8502 sta HA ; accumulator result of N1+N2 using binary arithmetic
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0257 : 08 php
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0258 : 68 pla
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0259 : 8503 sta HNVZC ; flags result of N1+N2 using binary arithmetic
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025b : c001 cpy #1
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025d : a50c lda N1L
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025f : 650e adc N2L
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0261 : c90a cmp #$0A
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0263 : a200 ldx #0
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0265 : 9006 bcc A1
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0267 : e8 inx
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0268 : 6905 adc #5 ; add 6 (carry is set)
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026a : 290f and #$0F
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026c : 38 sec
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026d : 050d A1 ora N1H
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;
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; if N1L + N2L < $0A, then add N2 & $F0
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; if N1L + N2L >= $0A, then add (N2 & $F0) + $0F + 1 (carry is set)
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;
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026f : 750f adc N2H,x
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0271 : 08 php
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0272 : b004 bcs A2
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0274 : c9a0 cmp #$A0
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0276 : 9003 bcc A3
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0278 : 695f A2 adc #$5F ; add $60 (carry is set)
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027a : 38 sec
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027b : 8506 A3 sta AR ; predicted accumulator result
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027d : 08 php
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027e : 68 pla
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027f : 850a sta CF ; predicted carry result
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0281 : 68 pla
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;
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; note that all 8 bits of the P register are stored in VF
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;
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0282 : 8508 sta VF ; predicted V flags
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0284 : 60 rts
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; Calculate the actual decimal mode accumulator and flags, and the
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; accumulator and flag results when N2 is subtracted from N1 using binary
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; arithmetic
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;
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0285 : f8 SUB sed ; decimal mode
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0286 : c001 cpy #1 ; set carry if Y = 1, clear carry if Y = 0
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0288 : a500 lda N1
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028a : e501 sbc N2
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028c : 8504 sta DA ; actual accumulator result in decimal mode
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028e : 08 php
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028f : 68 pla
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0290 : 8505 sta DNVZC ; actual flags result in decimal mode
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0292 : d8 cld ; binary mode
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0293 : c001 cpy #1 ; set carry if Y = 1, clear carry if Y = 0
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0295 : a500 lda N1
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0297 : e501 sbc N2
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0299 : 8502 sta HA ; accumulator result of N1-N2 using binary arithmetic
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029b : 08 php
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029c : 68 pla
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029d : 8503 sta HNVZC ; flags result of N1-N2 using binary arithmetic
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029f : 60 rts
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if cputype != 1
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; Calculate the predicted SBC accumulator result for the 6502 and 65816
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;
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SUB1 cpy #1 ; set carry if Y = 1, clear carry if Y = 0
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lda N1L
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sbc N2L
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ldx #0
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bcs S11
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inx
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sbc #5 ; subtract 6 (carry is clear)
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and #$0F
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clc
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S11 ora N1H
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;
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; if N1L - N2L >= 0, then subtract N2 & $F0
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; if N1L - N2L < 0, then subtract (N2 & $F0) + $0F + 1 (carry is clear)
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;
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sbc N2H,x
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bcs S12
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sbc #$5F ; subtract $60 (carry is clear)
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S12 sta AR
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rts
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endif
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if cputype = 1
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; Calculate the predicted SBC accumulator result for the 6502 and 65C02
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;
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02a0 : c001 SUB2 cpy #1 ; set carry if Y = 1, clear carry if Y = 0
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02a2 : a50c lda N1L
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02a4 : e50e sbc N2L
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02a6 : a200 ldx #0
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02a8 : b004 bcs S21
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02aa : e8 inx
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02ab : 290f and #$0F
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02ad : 18 clc
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02ae : 050d S21 ora N1H
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;
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; if N1L - N2L >= 0, then subtract N2 & $F0
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; if N1L - N2L < 0, then subtract (N2 & $F0) + $0F + 1 (carry is clear)
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;
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02b0 : f50f sbc N2H,x
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02b2 : b002 bcs S22
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02b4 : e95f sbc #$5F ; subtract $60 (carry is clear)
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02b6 : e000 S22 cpx #0
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02b8 : f002 beq S23
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02ba : e906 sbc #6
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02bc : 8506 S23 sta AR ; predicted accumulator result
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02be : 60 rts
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endif
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; Compare accumulator actual results to predicted results
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;
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; Return:
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; Z flag = 1 (BEQ branch) if same
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; Z flag = 0 (BNE branch) if different
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;
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02bf : COMPARE
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if chk_a = 1
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02bf : a504 lda DA
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02c1 : c506 cmp AR
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02c3 : d000 bne C1
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endif
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if chk_n = 1
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lda DNVZC ; [7] see text
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eor NF
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and #$80 ; mask off N flag
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bne C1
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endif
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if chk_v = 1
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lda DNVZC ; [8] see text
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eor VF
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and #$40 ; mask off V flag
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bne C1 ; [9] see text
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endif
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if chk_z = 1
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lda DNVZC
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eor ZF ; mask off Z flag
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and #2
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bne C1 ; [10] see text
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endif
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if chk_c = 1
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lda DNVZC
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eor CF
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and #1 ; mask off C flag
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endif
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02c5 : 60 C1 rts
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; These routines store the predicted values for ADC and SBC for the 6502,
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; 65C02, and 65816 in AR, CF, NF, VF, and ZF
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if cputype = 0
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A6502 lda VF ; 6502
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;
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; since all 8 bits of the P register were stored in VF, bit 7 of VF contains
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; the N flag for NF
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;
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sta NF
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lda HNVZC
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sta ZF
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rts
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S6502 jsr SUB1
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lda HNVZC
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sta NF
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sta VF
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sta ZF
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sta CF
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rts
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endif
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if cputype = 1
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02c6 : a506 A6502 lda AR ; 65C02
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02c8 : 08 php
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02c9 : 68 pla
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02ca : 8507 sta NF
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02cc : 8509 sta ZF
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02ce : 60 rts
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02cf : 20a002 S6502 jsr SUB2
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02d2 : a506 lda AR
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02d4 : 08 php
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02d5 : 68 pla
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02d6 : 8507 sta NF
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02d8 : 8509 sta ZF
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02da : a503 lda HNVZC
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02dc : 8508 sta VF
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02de : 850a sta CF
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02e0 : 60 rts
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endif
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if cputype = 2
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A6502 lda AR ; 65C816
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php
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pla
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sta NF
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sta ZF
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rts
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S6502 jsr SUB1
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lda AR
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php
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pla
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sta NF
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sta ZF
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lda HNVZC
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sta VF
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sta CF
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rts
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endif
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02cf = end TEST
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No errors in pass 2.
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