2019-04-16 16:49:47 -04:00
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#include "user.inc"
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.org USER_CODE
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call parseLine
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ld b, 0
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ld c, a ; written bytes
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2019-04-16 13:36:57 -04:00
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ret
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2019-04-16 16:49:47 -04:00
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2019-04-16 19:40:37 -04:00
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; Sets Z is A is ';', CR, LF, or null.
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isLineEnd:
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cp ';'
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2019-04-16 16:49:47 -04:00
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ret z
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cp 0
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ret z
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cp 0x0d
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ret z
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cp 0x0a
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ret
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2019-04-16 19:40:37 -04:00
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; Sets Z is A is ' ' or ','
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isSep:
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cp ' '
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ret z
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cp ','
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ret
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; Sets Z is A is ' ', ',', ';', CR, LF, or null.
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isSepOrLineEnd:
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call isSep
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ret z
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call isLineEnd
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ret
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; read word in (HL) and put it in (DE), null terminated. A is the read
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; length. HL is advanced to the next separator char.
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2019-04-16 16:49:47 -04:00
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readWord:
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push bc
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ld b, 4
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.loop:
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ld a, (hl)
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2019-04-16 19:40:37 -04:00
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call isSepOrLineEnd
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jr z, .success
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2019-04-16 17:00:19 -04:00
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call JUMP_UPCASE
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2019-04-16 16:49:47 -04:00
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ld (de), a
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inc hl
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inc de
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djnz .loop
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.success:
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xor a
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ld (de), a
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ld a, 4
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sub a, b
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jr .end
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.error:
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xor a
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ld (de), a
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.end:
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pop bc
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ret
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2019-04-16 19:40:37 -04:00
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; (HL) being a string, advance it to the next non-sep character.
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; Set Z if we could do it before the line ended, reset Z if we couldn't.
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toWord:
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.loop:
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ld a, (hl)
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call isLineEnd
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jr z, .error
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call isSep
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jr nz, .success
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inc hl
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jr .loop
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.error:
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; we need the Z flag to be unset and it is set now. Let's CP with
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; something it can't be equal to, something not a line end.
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cp 'a' ; Z flag unset
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ret
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.success:
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; We need the Z flag to be set and it is unset. Let's compare it with
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; itself to return a set Z
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cp a
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ret
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readLine:
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push de
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xor a
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ld (curWord), a
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ld (curArg1), a
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ld (curArg2), a
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ld de, curWord
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call readWord
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call toWord
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jr nz, .end
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ld de, curArg1
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call readWord
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call toWord
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jr nz, .end
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ld de, curArg2
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call readWord
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.end:
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pop de
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ret
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; match argument string at (HL) with argspec A.
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; Set Z/NZ on match
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matchArg:
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cp 0
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jr z, .matchnone
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; Z is unset. TODO: implement rest
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jr .end
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.matchnone:
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ld a, (hl)
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cp 0 ; arg must be null to match
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.end:
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ret
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2019-04-16 16:49:47 -04:00
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; Compare primary row at (DE) with string at curWord. Sets Z flag if there's a
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; match, reset if not.
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matchPrimaryRow:
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push hl
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2019-04-16 19:40:37 -04:00
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push ix
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2019-04-16 16:49:47 -04:00
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ld hl, curWord
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ld a, 4
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call JUMP_STRNCMP
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jr nz, .end
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; name matches, let's see the rest
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ld ixh, d
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ld ixl, e
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ld hl, curArg1
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ld a, (ix+4)
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call matchArg
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jr nz, .end
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ld hl, curArg2
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ld a, (ix+5)
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call matchArg
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.end:
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pop ix
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pop hl
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ret
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; Parse line at (HL) and write resulting opcode(s) in (DE). Returns the number
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; of bytes written in A.
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parseLine:
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2019-04-16 19:40:37 -04:00
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call readLine
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push de
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ld de, instTBlPrimary
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.loop:
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ld a, (de)
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cp 0
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jr z, .nomatch ; we reached last entry
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call matchPrimaryRow
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jr z, .match
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ld a, 7
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2019-04-16 17:00:19 -04:00
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call JUMP_ADDDE
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jr .loop
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.nomatch:
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xor a
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pop de
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ret
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.match:
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ld a, 6 ; upcode is on 7th byte
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2019-04-16 17:00:19 -04:00
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call JUMP_ADDDE
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2019-04-16 16:49:47 -04:00
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ld a, (de)
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pop de
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ld (de), a
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ld a, 1
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ret
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2019-04-16 19:40:37 -04:00
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; In instruction metadata below, argument types arge indicated with a single
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; char mnemonic that is called "argspec". This is the table of correspondance.
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; Single letters are represented by themselves, so we don't need as much
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; metadata.
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argspecsSingle:
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.db "ABCDEHL", 0
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; Format: 1 byte argspec + 4 chars string
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argspecTbl:
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.db 'h', "HL", 0, 0
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.db 'l', "(HL)"
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.db 'd', "DE", 0, 0
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.db 'e', "(DE)"
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.db 'b', "BC", 0, 0
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.db 'c', "(BC)"
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.db 'a', "AF", 0, 0
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.db 'f', "AF'", 0
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.db 'x', "(IX)"
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.db 'y', "(IY)"
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.db 's', "SP", 0, 0
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.db 'p', "(SP)"
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.db 0
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2019-04-16 16:49:47 -04:00
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; This is a list of primary instructions (single upcode) that lead to a
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; constant (no group code to insert).
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; That doesn't mean that they don't take any argument though. For example,
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; "DEC IX" leads to a special upcode. These kind of constants are indicated
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; as a single byte to save space. Meaning:
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;
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; All single char registers (A/B/C etc) -> themselves
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; HL -> h
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; (HL) -> l
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; DE -> d
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; (DE) -> e
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; BC -> b
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; (BC) -> c
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; IX -> X
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; (IX) -> x
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; IY -> Y
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; (IY) -> y
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; AF -> a
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; AF' -> f
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; SP -> s
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; (SP) -> p
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; None -> 0
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;
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; This is a sorted list of "primary" (single byte) instructions along with
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; metadata
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; 4 bytes for the name (fill with zero)
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; 1 byte for arg constant
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; 1 byte for 2nd arg constant
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; 1 byte for upcode
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instTBlPrimary:
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.db "ADD", 0, 'A', 'h', 0x86 ; ADD A, HL
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.db "CCF", 0, 0, 0, 0x3f ; CCF
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.db "CPL", 0, 0, 0, 0x2f ; CPL
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.db "DAA", 0, 0, 0, 0x27 ; DAA
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.db "DI",0,0, 0, 0, 0xf3 ; DI
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.db "EI",0,0, 0, 0, 0xfb ; EI
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.db "EX",0,0, 'p', 'h', 0xe3 ; EX (SP), HL
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.db "EX",0,0, 'a', 'f', 0x08 ; EX AF, AF'
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.db "EX",0,0, 'd', 'h', 0xeb ; EX DE, HL
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.db "EXX", 0, 0, 0, 0xd9 ; EXX
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.db "HALT", 0, 0, 0x76 ; HALT
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.db "INC", 0, 'l', 0, 0x34 ; INC (HL)
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.db "JP",0,0, 'l', 0, 0xe9 ; JP (HL)
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.db "LD",0,0, 'c', 'A', 0x02 ; LD (BC), A
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.db "LD",0,0, 'e', 'A', 0x12 ; LD (DE), A
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.db "LD",0,0, 'A', 'c', 0x0a ; LD A, (BC)
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.db "LD",0,0, 'A', 'e', 0x0a ; LD A, (DE)
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.db "LD",0,0, 's', 'h', 0x0a ; LD SP, HL
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.db "NOP", 0, 0, 0, 0x00 ; NOP
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.db "RET", 0, 0, 0, 0xc9 ; RET
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.db "RLA", 0, 0, 0, 0x17 ; RLA
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.db "RLCA", 0, 0, 0x07 ; RLCA
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.db "RRA", 0, 0, 0, 0x1f ; RRA
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.db "RRCA", 0, 0, 0x0f ; RRCA
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.db "SCF", 0, 0, 0, 0x37 ; SCF
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.db 0
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; *** Variables ***
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; enough space for 4 chars and a null
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curWord:
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.db 0, 0, 0, 0, 0
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curArg1:
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.db 0, 0, 0, 0, 0
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curArg2:
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.db 0, 0, 0, 0, 0
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2019-04-16 16:49:47 -04:00
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