acme/docs/cputypes/cpu 65ce02.txt
2019-03-19 00:37:46 +00:00

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65ce02 opcode table
There are no more undocumented opcodes.
All differences to the r65c02 are marked using '+' or '!' signs:
'!' marks (backward-compatible) changes to existing instructions.
'+' marks new instructions.
00 brk 01 ora (zp, x) 02+ cle 03+ see
04 tsb zp 05 ora zp 06 asl zp 07 rmb0 zp
08 php 09 ora #imm8 0a asl 0b+ tsy
0c tsb abs16 0d ora abs16 0e asl abs16 0f bbr0 zp, rel8
10 bpl rel8 11 ora (zp), y 12! ora (zp), z 13+ bpl rel16
14 trb zp 15 ora zp, x 16 asl zp, x 17 rmb1 zp
18 clc 19 ora abs16, y 1a inc 1b+ inz
1c trb abs16 1d ora abs16, x 1e asl abs16, x 1f bbr1 zp, rel8
20 jsr abs16 21 and (zp, x) 22+ jsr (abs16) 23+ jsr (abs16, x)
24 bit zp 25 and zp 26 rol zp 27 rmb2 zp
28 plp 29 and #imm8 2a rol 2b+ tys
2c bit abs16 2d and abs16 2e rol abs16 2f bbr2 zp, rel8
30 bmi rel8 31 and (zp), y 32! and (zp), z 33+ bmi rel16
34 bit zp, x 35 and zp, x 36 rol zp, x 37 rmb3 zp
38 sec 39 and abs16, y 3a dec 3b+ dez
3c bit abs16, x 3d and abs16, x 3e rol abs16, x 3f bbr3 zp, rel8
40 rti 41 eor (zp, x) 42+ neg 43+ asr
44+ asr zp 45 eor zp 46 lsr zp 47 rmb4 zp
48 pha 49 eor #imm8 4a lsr 4b+ taz
4c jmp abs16 4d eor abs16 4e lsr abs16 4f bbr4 zp, rel8
50 bvc rel8 51 eor (zp), y 52! eor (zp), z 53+ bvc rel16
54+ asr zp, x 55 eor zp, x 56 lsr zp, x 57 rmb5 zp
58 cli 59 eor abs16, y 5a phy 5b+ tab
5c+ aug 5d eor abs16, x 5e lsr abs16, x 5f bbr5 zp, rel8
60 rts 61 adc (zp, x) 62+ rtn #imm8 63+ bsr rel16
64! stz zp 65 adc zp 66 ror zp 67 rmb6 zp
68 pla 69 adc #imm8 6a ror 6b+ tza
6c jmp (abs16) 6d adc abs16 6e ror abs16 6f bbr6 zp, rel8
70 bvs rel8 71 adc (zp), y 72! adc (zp), z 73+ bvs rel16
74! stz zp, x 75 adc zp, x 76 ror zp, x 77 rmb7 zp
78 sei 79 adc abs16, y 7a ply 7b+ tba
7c jmp (abs16, x) 7d adc abs16, x 7e ror abs16, x 7f bbr7 zp, rel8
80 bra rel8 81 sta (zp, x) 82+ sta (o8, s), y 83+ bra rel16
84 sty zp 85 sta zp 86 stx zp 87 smb0 zp
88 dey 89 bit #imm8 8a txa 8b+ sty abs16, x
8c sty abs16 8d sta abs16 8e stx abs16 8f bbs0 zp, rel8
90 bcc rel8 91 sta (zp), y 92! sta (zp), z 93+ bcc rel16
94 sty zp, x 95 sta zp, x 96 stx zp, y 97 smb1 zp
98 tya 99 sta abs16, y 9a txs 9b+ stx abs16, y
9c! stz abs16 9d sta abs16, x 9e! stz abs16, x 9f bbs1 zp, rel8
a0 ldy #imm8 a1 lda (zp, x) a2 ldx #imm8 a3+ ldz #imm8
a4 ldy zp a5 lda zp a6 ldx zp a7 smb2 zp
a8 tay a9 lda #imm8 aa tax ab+ ldz abs16
ac ldy abs16 ad lda abs16 ae ldx abs16 af bbs2 zp, rel8
b0 bcs rel8 b1 lda (zp), y b2! lda (zp), z b3+ bcs rel16
b4 ldy zp, x b5 lda zp, x b6 ldx zp, y b7 smb3 zp
b8 clv b9 lda abs16, y ba tsx bb+ ldz abs16, x
bc ldy abs16, x bd lda abs16, x be ldx abs16, y bf bbs3 zp, rel8
c0 cpy #imm8 c1 cmp (zp, x) c2+ cpz #imm8 c3+ dew zp
c4 cpy zp c5 cmp zp c6 dec zp c7 smb4 zp
c8 iny c9 cmp #imm8 ca dex cb+ asw abs16
cc cpy abs16 cd cmp abs16 ce dec abs16 cf bbs4 zp, rel8
d0 bne rel8 d1 cmp (zp), y d2! cmp (zp), z d3+ bne rel16
d4+ cpz zp d5 cmp zp, x d6 dec zp, x d7 smb5 zp
d8 cld d9 cmp abs16, y da phx db+ phz
dc+ cpz abs16 dd cmp abs16, x de dec abs16, x df bbs5 zp, rel8
e0 cpx #imm8 e1 sbc (zp, x) e2+ lda (o8, s), y e3+ inw zp
e4 cpx zp e5 sbc zp e6 inc zp e7 smb6 zp
e8 inx e9 sbc #imm8 ea nop eb+ row abs16
ec cpx abs16 ed sbc abs16 ee inc abs16 ef bbs6 zp, rel8
f0 beq rel8 f1 sbc (zp), y f2! sbc (zp), z f3+ beq rel16
f4+ phw #imm16 f5 sbc zp, x f6 inc zp, x f7 smb7 zp
f8 sed f9 sbc abs16, y fa plx fb+ plz
fc+ phw abs16 fd sbc abs16, x fe inc abs16, x ff bbs7 zp, rel8
#imm8: 8-bit immediate value
#imm16: 16-bit immediate value (only for opcode f4)
zp: 8-bit zeropage address
abs16: 16-bit absolute address
rel8: 8-bit relative address offset
rel16: 16-bit relative address offset
o8: 8-bit offset (for stack-relative addressing, see opcodes 82 and e2)
The 65ce02 is a superset of the r65c02. It has several improvements:
new Z register
--------------
The "stz" mnemonic no longer means "store zero", but "store Z register"
(see opcodes 64, 74, 9c, 9e)
The "(zp)" addressing mode now becomes "(zp), z"
(see opcodes 12, 32, 52, 72, 92, b2, d2, f2)
Z defaults to zero after reset, so these changes are backward compatible
until Z is loaded with a non-zero value.
New instructions for this register:
1b inz increment Z
3b dez decrement Z
4b taz transfer A to Z
6b tza transfer Z to A
a3 ldz #imm8
ab ldz abs16
bb ldz abs16, x
c2 cpz #imm8
d4 cpz zp
db phz push Z
dc cpz abs16
fb plz pull Z
16-bit stack pointer
--------------------
02 cle clear stack extend disable
03 see set stack extend disable
0b tsy transfer stack_ptr_high to Y
2b tys transfer Y to stack_ptr_high
16-bit branches
---------------
13 bpl rel16
33 bmi rel16
53 bvc rel16
63 bsr rel16 relative jsr, "branch to subroutine"
73 bvs rel16
83 bra rel16 relative jmp
93 bcc rel16
b3 bcs rel16
d3 bne rel16
f3 beq rel16
To use these in ACME, use the mnemonics lbpl, lbmi, lbvc, ...
(except for "bsr", because there is no 8-bit version of it anyway)
new addressing modes for existing instructions
----------------------------------------------
22 jsr (abs16)
23 jsr (abs16, x)
82 sta (offset8, s), y
8b sty abs16, x
9b stx abs16, y
e2 lda (offset8, s), y
new instructions
----------------
42 neg negate A
43 asr
44 asr zp
54 asr zp, x
5b tab
5c aug "4-byte NOP reserved for future expansion"
62 rtn #imm8
7b tba
c3 dew zp
cb asw abs16
e3 inw zp
eb row abs16
f4 phw #imm16
fc phw abs16