diff --git a/apps/zasm/instr.asm b/apps/zasm/instr.asm index 2c911c0..0031792 100644 --- a/apps/zasm/instr.asm +++ b/apps/zasm/instr.asm @@ -2,7 +2,7 @@ ; Number of rows in the argspec table .equ ARGSPEC_TBL_CNT 33 ; Number of rows in the primary instructions table -.equ INSTR_TBL_CNT 162 +.equ INSTR_TBL_CNT 150 ; size in bytes of each row in the primary instructions table .equ INSTR_TBL_ROWSIZE 6 ; Instruction IDs They correspond to the index of the table in instrNames @@ -84,12 +84,18 @@ checkNOrM: cp 'M' ret -; Checks whether A is 'n', 'm', 'x' or 'y' -checknmxy: +; Checks whether A is 'n', 'm' +checknm: cp 'n' ret z cp 'm' + ret + +checklxy: + cp 'l' ret z +; Checks whether A is 'x', 'y' +checkxy: cp 'x' ret z cp 'y' @@ -330,6 +336,7 @@ findInGroup: ret ; Compare argspec from instruction table in A with argument in (HL). +; IX must point to argspec row. ; For constant args, it's easy: if A == (HL), it's a success. ; If it's not this, then we check if it's a numerical arg. ; If A is a group ID, we do something else: we check that (HL) exists in the @@ -342,11 +349,21 @@ matchArg: ; not an exact match. Before we continue: is A zero? Because if it is, ; we have to stop right here: no match possible. or a - jr nz, .skip ; not a zero, we can continue + jr nz, .skip1 ; not a zero, we can continue ; zero, stop here cp 1 ; unset Z ret -.skip: +.skip1: + ; If our argspec is 'l', then we also match 'x' and 'y' + cp 'l' + jr nz, .skip2 + ; Does it accept IX and IY? + bit 4, (ix+3) + ld a, (hl) + jp nz, checkxy ; bit set: our result is checkxy + ; doesn't accept? then we don't match + jp unsetZ +.skip2: ; Alright, let's start with a special case. Is it part of the special ; "BIT" group, 0xc? If yes, we actually expect a number, which will ; then be ORed like a regular group index. @@ -429,76 +446,17 @@ matchPrimaryRow: ; Handle like a regular "JP (IX+d)" except that we refuse any displacement: if ; a displacement is specified, we error out. -handleJPIX: - ld a, 0xdd - jr handleJPIXY -handleJPIY: - ld a, 0xfd handleJPIXY: - ld (INS_UPCODE), a ld a, (INS_CURARG1+1) - cp 0 ; numerical argument *must* be zero + or a ; numerical argument *must* be zero jr nz, .error ; ok, we're good ld a, 0xe9 ; second upcode - ld (INS_UPCODE+1), a - ld c, 2 - ret -.error: - ld c, 0 - ret - -; Handle the first argument of BIT. Sets Z if first argument is valid, unset it -; if there's an error. -handleBIT: - ld a, (INS_CURARG1+1) - cp 8 - jr nc, .error ; >= 8? error - ; We're good - cp a ; ensure Z + ld (INS_UPCODE), a + ld c, 1 ret .error: ld c, 0 - jp unsetZ - -handleBITIX: - ld a, 0xdd - ld b, 0b01000110 - jr _handleBITIXY -handleBITIY: - ld a, 0xfd - ld b, 0b01000110 - jr _handleBITIXY -handleSETIX: - ld a, 0xdd - ld b, 0b11000110 - jr _handleBITIXY -handleSETIY: - ld a, 0xfd - ld b, 0b11000110 - jr _handleBITIXY -handleRESIX: - ld a, 0xdd - ld b, 0b10000110 - jr _handleBITIXY -handleRESIY: - ld a, 0xfd - ld b, 0b10000110 -_handleBITIXY: - ld (INS_UPCODE), a ; first upcode - call handleBIT - ret nz ; error - ld a, 0xcb ; 2nd upcode - ld (INS_UPCODE+1), a - ld a, (INS_CURARG2+1) ; IXY displacement - ld (INS_UPCODE+2), a - ld a, (INS_CURARG1+1) ; 0-7 - rla - rla - rla - or b ; 4th upcode - ld (INS_UPCODE+3), a - ld c, 4 ret handleBITR: @@ -510,8 +468,6 @@ handleSETR: handleRESR: ld b, 0b10000000 _handleBITR: - call handleBIT - ret nz ; error ; get group value ld a, (INS_CURARG2+1) ; group value ld c, a @@ -520,7 +476,7 @@ _handleBITR: ld (INS_UPCODE), a ; get bit value ld a, (INS_CURARG1+1) ; 0-7 - rla + rlca ; clears cary if any rla rla ; Now we have group value in stack, bit value in A (properly shifted) @@ -531,6 +487,28 @@ _handleBITR: ld c, 2 ret +handleBITIXY: + ld b, 0b01000110 + jr _handleBITIXY +handleSETIXY: + ld b, 0b11000110 + jr _handleBITIXY +handleRESIXY: + ld b, 0b10000110 +_handleBITIXY: + ld a, 0xcb ; 1st upcode + ld (INS_UPCODE), a + ld a, (INS_CURARG2+1) ; IXY displacement + ld (INS_UPCODE+1), a + ld a, (INS_CURARG1+1) ; 0-7 + rlca ; clears cary if any + rla + rla + or b ; 4th upcode + ld (INS_UPCODE+2), a + ld c, 3 + ret + handleIM: ld a, (INS_CURARG1+1) cp 0 @@ -557,58 +535,40 @@ handleIM: ld c, 2 ret -handleLDIXn: - ld a, 0xdd - jr handleLDIXYn -handleLDIYn: - ld a, 0xfd handleLDIXYn: - ld (INS_UPCODE), a ld a, 0x36 ; second upcode - ld (INS_UPCODE+1), a + ld (INS_UPCODE), a ld a, (INS_CURARG1+1) ; IXY displacement - ld (INS_UPCODE+2), a + ld (INS_UPCODE+1), a ld a, (INS_CURARG2+1) ; N - ld (INS_UPCODE+3), a - ld c, 4 + ld (INS_UPCODE+2), a + ld c, 3 ret -handleLDIXr: - ld a, 0xdd - jr handleLDIXYr -handleLDIYr: - ld a, 0xfd handleLDIXYr: - ld (INS_UPCODE), a ld a, (INS_CURARG2+1) ; group value or 0b01110000 ; second upcode - ld (INS_UPCODE+1), a + ld (INS_UPCODE), a ld a, (INS_CURARG1+1) ; IXY displacement - ld (INS_UPCODE+2), a - ld c, 3 + ld (INS_UPCODE+1), a + ld c, 2 ret -handleLDrIX: - ld a, 0xdd - jr handleLDrIXY -handleLDrIY: - ld a, 0xfd handleLDrIXY: - ld (INS_UPCODE), a ld a, (INS_CURARG1+1) ; group value - rla \ rla \ rla + rlca \ rla \ rla or 0b01000110 ; second upcode - ld (INS_UPCODE+1), a + ld (INS_UPCODE), a ld a, (INS_CURARG2+1) ; IXY displacement - ld (INS_UPCODE+2), a - ld c, 3 + ld (INS_UPCODE+1), a + ld c, 2 ret handleLDrr: ; first argument is displaced by 3 bits, second argument is not ; displaced and we or that with a leading 0b01000000 ld a, (INS_CURARG1+1) ; group value - rla + rlca rla rla ld c, a ; store it @@ -630,6 +590,39 @@ spitUpcode: ; First, let's go in IX mode. It's easier to deal with offsets here. push de \ pop ix + ; before we begin, are we in a 'l' argspec? Is it flagged for IX/IY + ; acceptance? If yes, a 'x' or 'y' instruction? Check this on both + ; args and if we detect a 'x' or 'y', things are *always* the same: + ; the upcode is exactly the same as its (HL) counterpart except that + ; it is preceeded by 0xdd or 0xfd. If we're 'x' or 'y', then it means + ; that we've already been matched to a 'l' argspec, so after spitting + ; 0xdd or 0xfd, we can continue as normal. + ld a, (ix+1) + call checklxy + jr z, .isl + ld a, (ix+2) + call checklxy + jr nz, .begin ; no point in checking further. +.isl: + ld a, (INS_CURARG1) + cp 'x' + jr z, .isx + cp 'y' + jr z, .isy + ld a, (INS_CURARG2) + cp 'x' + jr z, .isx + cp 'y' + jr z, .isy + jr .begin +.isx: + ld a, 0xdd + call ioPutB + jr .begin +.isy: + ld a, 0xfd + call ioPutB +.begin: ; Are we a "special instruction"? bit 5, (ix+3) jr z, .normalInstr ; not set: normal instruction @@ -644,10 +637,9 @@ spitUpcode: ; we begin by writing our "base upcode", which can be one or two bytes ld a, (ix+4) ; first upcode ld (INS_UPCODE), a - ld de, INS_UPCODE ; from this point, DE points to "where we are" - ; in terms of upcode writing. - inc de ; make DE point to where we should write next. - + ; from this point, DE points to "where we are" in terms of upcode + ; writing. + ld de, INS_UPCODE+1 ld c, 1 ; C holds our upcode count ; Now, let's determine if we have one or two upcode. As a general rule, @@ -718,13 +710,19 @@ spitUpcode: ld hl, INS_CURARG1 call checkNOrM jr z, .withWord - call checknmxy + call checknm + jr z, .withByte + ld a, (INS_CURARG1) + call checkxy jr z, .withByte ld a, (ix+2) ; second argspec ld hl, INS_CURARG2 call checkNOrM jr z, .withWord - call checknmxy + call checknm + jr z, .withByte + ld a, (INS_CURARG2) + call checkxy jr z, .withByte ; nope, no number, alright, we're finished here jr .writeIO @@ -801,6 +799,8 @@ spitUpcode: ; to writeIO .writeIO: ; Let's write INS_UPCODE to IO + dec c \ inc c ; is C zero? + jr z, .numberTruncated ld b, c ; save output byte count ld hl, INS_UPCODE .loopWrite: @@ -809,7 +809,7 @@ spitUpcode: jr nz, .ioError inc hl djnz .loopWrite - ; Z is set by INC HL + cp a ; ensure Z jr .end .numberTruncated: ; Z already unset @@ -1066,48 +1066,41 @@ instrNames: ; Bit 5: Indicates that this row is handled very specially: the next two bytes ; aren't upcode bytes, but a routine address to call to handle this case with ; custom code. +; Bit 4: When in an 'l' argspec, this means "I accept IX and IY variants". instrTBl: .db I_ADC, 'A', 'l', 0, 0x8e , 0 ; ADC A, (HL) .db I_ADC, 'A', 0xb, 0, 0b10001000 , 0 ; ADC A, r .db I_ADC, 'A', 'n', 0, 0xce , 0 ; ADC A, n .db I_ADC, 'h', 0x3, 0x44, 0xed, 0b01001010 ; ADC HL, ss - .db I_ADD, 'A', 'l', 0, 0x86 , 0 ; ADD A, (HL) + .db I_ADD, 'A', 'l', 0x10, 0x86 , 0 ; ADD A, (HL) + (IX/Y) .db I_ADD, 'A', 0xb, 0, 0b10000000 , 0 ; ADD A, r .db I_ADD, 'A', 'n', 0, 0xc6 , 0 ; ADD A, n .db I_ADD, 'h', 0x3, 4, 0b00001001 , 0 ; ADD HL, ss .db I_ADD, 'X', 0x4, 0x44, 0xdd, 0b00001001 ; ADD IX, pp .db I_ADD, 'Y', 0x5, 0x44, 0xfd, 0b00001001 ; ADD IY, rr - .db I_ADD, 'A', 'x', 0, 0xdd, 0x86 ; ADD A, (IX+d) - .db I_ADD, 'A', 'y', 0, 0xfd, 0x86 ; ADD A, (IY+d) - .db I_AND, 'l', 0, 0, 0xa6 , 0 ; AND (HL) + .db I_AND, 'l', 0, 0x10, 0xa6 , 0 ; AND (HL) + (IX/Y) .db I_AND, 0xb, 0, 0, 0b10100000 , 0 ; AND r .db I_AND, 'n', 0, 0, 0xe6 , 0 ; AND n - .db I_AND, 'x', 0, 0, 0xdd, 0xa6 ; AND (IX+d) - .db I_AND, 'y', 0, 0, 0xfd, 0xa6 ; AND (IY+d) + .db I_BIT, 0xc, 'x', 0x20 \ .dw handleBITIXY ; BIT b, (IX+d) + .db I_BIT, 0xc, 'y', 0x20 \ .dw handleBITIXY ; BIT b, (IY+d) .db I_BIT, 0xc, 'l', 0x43, 0xcb, 0b01000110 ; BIT b, (HL) - .db I_BIT, 'n', 'x', 0x20 \ .dw handleBITIX ; BIT b, (IX+d) - .db I_BIT, 'n', 'y', 0x20 \ .dw handleBITIY ; BIT b, (IY+d) .db I_BIT, 'n', 0xb, 0x20 \ .dw handleBITR ; BIT b, r .db I_CALL,0xa, 'N', 3, 0b11000100 , 0 ; CALL cc, NN .db I_CALL,'N', 0, 0, 0xcd , 0 ; CALL NN .db I_CCF, 0, 0, 0, 0x3f , 0 ; CCF - .db I_CP, 'l', 0, 0, 0xbe , 0 ; CP (HL) + .db I_CP, 'l', 0, 0x10, 0xbe , 0 ; CP (HL) + (IX/Y) .db I_CP, 0xb, 0, 0, 0b10111000 , 0 ; CP r .db I_CP, 'n', 0, 0, 0xfe , 0 ; CP n - .db I_CP, 'x', 0, 0, 0xdd, 0xbe ; CP (IX+d) - .db I_CP, 'y', 0, 0, 0xfd, 0xbe ; CP (IY+d) .db I_CPD, 0, 0, 0, 0xed, 0xa9 ; CPD .db I_CPDR,0, 0, 0, 0xed, 0xb9 ; CPDR .db I_CPI, 0, 0, 0, 0xed, 0xa1 ; CPI .db I_CPIR,0, 0, 0, 0xed, 0xb1 ; CPIR .db I_CPL, 0, 0, 0, 0x2f , 0 ; CPL .db I_DAA, 0, 0, 0, 0x27 , 0 ; DAA - .db I_DEC, 'l', 0, 0, 0x35 , 0 ; DEC (HL) + .db I_DEC, 'l', 0, 0x10, 0x35 , 0 ; DEC (HL) + (IX/Y) .db I_DEC, 'X', 0, 0, 0xdd, 0x2b ; DEC IX - .db I_DEC, 'x', 0, 0, 0xdd, 0x35 ; DEC (IX+d) .db I_DEC, 'Y', 0, 0, 0xfd, 0x2b ; DEC IY - .db I_DEC, 'y', 0, 0, 0xfd, 0x35 ; DEC (IY+d) .db I_DEC, 0xb, 0, 3, 0b00000101 , 0 ; DEC r .db I_DEC, 0x3, 0, 4, 0b00001011 , 0 ; DEC ss .db I_DI, 0, 0, 0, 0xf3 , 0 ; DI @@ -1123,22 +1116,20 @@ instrTBl: .db I_IM, 'n', 0, 0x20 \ .dw handleIM ; IM {0,1,2} .db I_IN, 'A', 'm', 0, 0xdb , 0 ; IN A, (n) .db I_IN, 0xb, 'k', 0x43, 0xed, 0b01000000 ; IN r, (C) - .db I_INC, 'l', 0, 0, 0x34 , 0 ; INC (HL) + .db I_INC, 'l', 0, 0x10, 0x34 , 0 ; INC (HL) + (IX/Y) .db I_INC, 'X', 0, 0, 0xdd , 0x23 ; INC IX - .db I_INC, 'x', 0, 0, 0xdd , 0x34 ; INC (IX+d) .db I_INC, 'Y', 0, 0, 0xfd , 0x23 ; INC IY - .db I_INC, 'y', 0, 0, 0xfd , 0x34 ; INC (IY+d) .db I_INC, 0xb, 0, 3, 0b00000100 , 0 ; INC r .db I_INC, 0x3, 0, 4, 0b00000011 , 0 ; INC ss .db I_IND, 0, 0, 0, 0xed, 0xaa ; IND .db I_INDR,0, 0, 0, 0xed, 0xba ; INDR .db I_INI, 0, 0, 0, 0xed, 0xa2 ; INI .db I_INIR,0, 0, 0, 0xed, 0xb2 ; INIR + .db I_JP, 'x', 0, 0x20 \ .dw handleJPIXY ; JP (IX) + .db I_JP, 'y', 0, 0x20 \ .dw handleJPIXY ; JP (IY) .db I_JP, 'l', 0, 0, 0xe9 , 0 ; JP (HL) .db I_JP, 0xa, 'N', 3, 0b11000010 , 0 ; JP cc, NN .db I_JP, 'N', 0, 0, 0xc3 , 0 ; JP NN - .db I_JP, 'x', 0, 0x20 \ .dw handleJPIX ; JP (IX) - .db I_JP, 'y', 0, 0x20 \ .dw handleJPIY ; JP (IY) .db I_JR, 'n', 0, 0x80, 0x18 , 0 ; JR e .db I_JR, 'C', 'n', 0x80, 0x38 , 0 ; JR C, e .db I_JR, '=', 'n', 0x80, 0x30 , 0 ; JR NC, e @@ -1171,23 +1162,21 @@ instrTBl: .db I_LD, 'Y', 'M', 0, 0xfd, 0x2a ; LD IY, (NN) .db I_LD, 'M', 0x3, 0x44, 0xed, 0b01000011 ; LD (NN), dd .db I_LD, 0x3, 'M', 0x44, 0xed, 0b01001011 ; LD dd, (NN) - .db I_LD, 'x', 'n', 0x20 \ .dw handleLDIXn ; LD (IX+d), n - .db I_LD, 'y', 'n', 0x20 \ .dw handleLDIYn ; LD (IY+d), n - .db I_LD, 'x', 0xb, 0x20 \ .dw handleLDIXr ; LD (IX+d), r - .db I_LD, 'y', 0xb, 0x20 \ .dw handleLDIYr ; LD (IY+d), r - .db I_LD, 0xb, 'x', 0x20 \ .dw handleLDrIX ; LD r, (IX+d) - .db I_LD, 0xb, 'y', 0x20 \ .dw handleLDrIY ; LD r, (IY+d) + .db I_LD, 'x', 'n', 0x20 \ .dw handleLDIXYn ; LD (IX+d), n + .db I_LD, 'y', 'n', 0x20 \ .dw handleLDIXYn ; LD (IY+d), n + .db I_LD, 'x', 0xb, 0x20 \ .dw handleLDIXYr ; LD (IX+d), r + .db I_LD, 'y', 0xb, 0x20 \ .dw handleLDIXYr ; LD (IY+d), r + .db I_LD, 0xb, 'x', 0x20 \ .dw handleLDrIXY ; LD r, (IX+d) + .db I_LD, 0xb, 'y', 0x20 \ .dw handleLDrIXY ; LD r, (IY+d) .db I_LDD, 0, 0, 0, 0xed, 0xa8 ; LDD .db I_LDDR,0, 0, 0, 0xed, 0xb8 ; LDDR .db I_LDI, 0, 0, 0, 0xed, 0xa0 ; LDI .db I_LDIR,0, 0, 0, 0xed, 0xb0 ; LDIR .db I_NEG, 0, 0, 0, 0xed, 0x44 ; NEG .db I_NOP, 0, 0, 0, 0x00 , 0 ; NOP - .db I_OR, 'l', 0, 0, 0xb6 , 0 ; OR (HL) + .db I_OR, 'l', 0, 0x10, 0xb6 , 0 ; OR (HL) + (IX/Y) .db I_OR, 0xb, 0, 0, 0b10110000 , 0 ; OR r .db I_OR, 'n', 0, 0, 0xf6 , 0 ; OR n - .db I_OR, 'x', 0, 0, 0xdd, 0xb6 ; OR (IX+d) - .db I_OR, 'y', 0, 0, 0xfd, 0xb6 ; OR (IY+d) .db I_OTDR,0, 0, 0, 0xed, 0xbb ; OTDR .db I_OTIR,0, 0, 0, 0xed, 0xb3 ; OTIR .db I_OUT, 'm', 'A', 0, 0xd3 , 0 ; OUT (n), A @@ -1198,9 +1187,9 @@ instrTBl: .db I_PUSH,'X', 0, 0, 0xdd, 0xe5 ; PUSH IX .db I_PUSH,'Y', 0, 0, 0xfd, 0xe5 ; PUSH IY .db I_PUSH,0x1, 0, 4, 0b11000101 , 0 ; PUSH qq - .db I_RES, 0xc, 'l', 0x43, 0xcb, 0b10000110 ; RES b, (HL) - .db I_RES, 'n', 'x', 0x20 \ .dw handleRESIX ; RES b, (IX+d) - .db I_RES, 'n', 'y', 0x20 \ .dw handleRESIY ; RES b, (IY+d) + .db I_RES, 0xc, 'x', 0x20 \ .dw handleRESIXY ; RES b, (IX+d) + .db I_RES, 0xc, 'y', 0x20 \ .dw handleRESIXY ; RES b, (IY+d) + .db I_RES, 0xc, 'l', 0x53, 0xcb, 0b10000110 ; RES b, (HL) + (IX/Y) .db I_RES, 'n', 0xb, 0x20 \ .dw handleRESR ; RES b, r .db I_RET, 0, 0, 0, 0xc9 , 0 ; RET .db I_RET, 0xa, 0, 3, 0b11000000 , 0 ; RET cc @@ -1218,9 +1207,9 @@ instrTBl: .db I_SBC, 'A', 0xb, 0, 0b10011000 , 0 ; SBC A, r .db I_SBC,'h',0x3,0x44, 0xed, 0b01000010 ; SBC HL, ss .db I_SCF, 0, 0, 0, 0x37 , 0 ; SCF - .db I_SET, 0xc, 'l', 0x43, 0xcb, 0b11000110 ; SET b, (HL) - .db I_SET, 'n', 'x', 0x20 \ .dw handleSETIX ; SET b, (IX+d) - .db I_SET, 'n', 'y', 0x20 \ .dw handleSETIY ; SET b, (IY+d) + .db I_SET, 0xc, 'x', 0x20 \ .dw handleSETIXY ; SET b, (IX+d) + .db I_SET, 0xc, 'y', 0x20 \ .dw handleSETIXY ; SET b, (IY+d) + .db I_SET, 0xc, 'l', 0x53, 0xcb, 0b11000110 ; SET b, (HL) + (IX/Y) .db I_SET, 'n', 0xb, 0x20 \ .dw handleSETR ; SET b, r .db I_SLA, 0xb, 0,0x40, 0xcb, 0b00100000 ; SLA r .db I_SRL, 0xb, 0,0x40, 0xcb, 0b00111000 ; SRL r diff --git a/apps/zasm/io.asm b/apps/zasm/io.asm index 6607c01..fdf6445 100644 --- a/apps/zasm/io.asm +++ b/apps/zasm/io.asm @@ -142,19 +142,22 @@ ioPutBack: ret ioPutB: - push hl + push hl ; --> lvl 1 ld hl, (IO_PC) inc hl ld (IO_PC), hl - pop hl - push af + pop hl ; <-- lvl 1 + push af ; --> lvl 1 call zasmIsFirstPass jr z, .skip - pop af + pop af ; <-- lvl 1 + push ix ; --> lvl 1 ld ix, IO_OUT_BLK - jp _blkPutB + call _blkPutB + pop ix ; <-- lvl 1 + ret .skip: - pop af + pop af ; <-- lvl 1 cp a ; ensure Z ret diff --git a/tools/tests/unit/test_z_instr.asm b/tools/tests/unit/test_z_instr.asm new file mode 100644 index 0000000..662ab05 --- /dev/null +++ b/tools/tests/unit/test_z_instr.asm @@ -0,0 +1,177 @@ +jp runTests + +.inc "err.h" +.inc "core.asm" +.inc "parse.asm" +.inc "zasm/const.asm" +.inc "lib/util.asm" +.inc "zasm/util.asm" +.inc "lib/parse.asm" +.inc "zasm/parse.asm" +.inc "zasm/expr.asm" +.equ INS_RAMSTART RAMSTART +.inc "zasm/instr.asm" + +zasmGetPC: + ret + +zasmIsFirstPass: + jp unsetZ + +readWord: +readComma: +symFindVal: + xor a + ret + +ioPutB: + push hl + ld hl, SPITBOWL + push af + ld a, (SPITCNT) + call addHL + inc a + ld (SPITCNT), a + pop af + ld (hl), a + pop hl + cp a + ret + +runTests: + call testMatchArg + call testSpitUpcode + xor a + halt + +testSpitUpcode: + ld ix, .t1 + call .test + ld ix, .t2 + call .test + ld ix, .t3 + call .test + ld ix, .t4 + call .test + ld ix, .t5 + call .test + ret + +.test: + ; init spitbowl + xor a + ld (SPITCNT), a + ld (SPITBOWL), a + ld (SPITBOWL+1), a + ld (SPITBOWL+2), a + ld (SPITBOWL+3), a + push ix \ pop de + call intoDE + ld a, (ix+2) + ld (INS_CURARG1), a + ld a, (ix+3) + ld (INS_CURARG1+1), a + ld a, (ix+4) + ld (INS_CURARG1+2), a + ld a, (ix+5) + ld (INS_CURARG2), a + ld a, (ix+6) + ld (INS_CURARG2+1), a + ld a, (ix+7) + ld (INS_CURARG2+2), a + call spitUpcode + jp nz, fail + ld a, (SPITCNT) + cp (ix+8) + jp nz, fail + ld a, (SPITBOWL) + cp (ix+9) + jp nz, fail + ld a, (SPITBOWL+1) + cp (ix+10) + jp nz, fail + ld a, (SPITBOWL+2) + cp (ix+11) + jp nz, fail + ld a, (SPITBOWL+3) + cp (ix+12) + jp nz, fail + jp nexttest + +; Test data is a argspec pointer in instrTBl followed by 2*3 bytes of CURARG +; followed by the expected spit, 1 byte cnt + 4 bytes spits. +.t1: + .dw instrTBl+19*6 ; CCF + .db 0, 0, 0 + .db 0, 0, 0 + .db 1, 0x3f, 0, 0, 0 +.t2: + .dw instrTBl+10*6 ; AND (IX+0x42) + .db 'x', 0x42, 0 + .db 0, 0, 0 + .db 3, 0xdd, 0xa6, 0x42, 0 +.t3: + .dw instrTBl+13*6 ; BIT 4, (IX+3) + .db 'N', 4, 0 + .db 'x', 3, 0 + .db 4, 0xdd, 0xcb, 0x03, 0x66 +.t4: + .dw instrTBl+20*6 ; CP (IX+5) + .db 'x', 5, 0 + .db 0, 0, 0 + .db 3, 0xdd, 0xbe, 0x05, 0 +.t5: + .dw instrTBl+4*6 ; ADD A, (IX+5) + .db 'A', 0, 0 + .db 'x', 5, 0 + .db 3, 0xdd, 0x86, 0x05, 0 + +testMatchArg: + ld iy, .t1 + call .test + ret + +.test: + ld hl, SPITBOWL + ld a, (iy+2) + ld (hl), a + push iy \ pop de + call intoDE + push de \ pop ix + ld a, (ix+1) + call matchArg + jp nz, fail + ld a, (iy+3) + ld (hl), a + ld a, (ix+2) + call matchArg + jp nz, fail + jp nexttest + +; Test data is argspec pointer followed by two bytes: first bytes of our two +; CURARG. +.t1: + .dw instrTBl+4*6 ; ADD A, (IX) + .db 'A', 'x' + +nexttest: + ld a, (testNum) + inc a + ld (testNum), a + ret + +fail: + ld a, (testNum) + halt + +testNum: .db 1 + +SPITCNT: + .db 0 +SPITBOWL: + .db 0, 0, 0, 0 + +DIREC_LASTVAL: + .db 0, 0 + +RAMSTART: