ea1a60faa3
git-svn-id: svn://kolibrios.org@9837 a494cfbc-eb01-0410-851d-a64ba20cac60
716 lines
13 KiB
C++
716 lines
13 KiB
C++
/********************************************************************************/
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/* */
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/* CZ80 XY opcode include source file */
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/* C Z80 emulator version 0.91 */
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/* Copyright 2004-2005 Stephane Dallongeville */
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/* */
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/********************************************************************************/
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#if CZ80_USE_JUMPTABLE
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goto *JumpTableXY[Opcode];
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#else
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switch (Opcode)
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{
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#endif
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OPXY(0x00): // NOP
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// 8 BITS LOAD
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OPXY(0x40): // LD B,B
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OPXY(0x49): // LD C,C
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OPXY(0x52): // LD D,D
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OPXY(0x5b): // LD E,E
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OPXY(0x64): // LD H,H
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OPXY(0x6d): // LD L,L
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OPXY(0x7f): // LD A,A
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goto OP_NOP;
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OPXY(0x41): // LD B,C
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OPXY(0x42): // LD B,D
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OPXY(0x43): // LD B,E
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OPXY(0x47): // LD B,A
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OPXY(0x48): // LD C,B
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OPXY(0x4a): // LD C,D
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OPXY(0x4b): // LD C,E
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OPXY(0x4f): // LD C,A
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OPXY(0x50): // LD D,B
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OPXY(0x51): // LD D,C
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OPXY(0x53): // LD D,E
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OPXY(0x57): // LD D,A
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OPXY(0x58): // LD E,B
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OPXY(0x59): // LD E,C
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OPXY(0x5a): // LD E,D
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OPXY(0x5f): // LD E,A
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OPXY(0x78): // LD A,B
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OPXY(0x79): // LD A,C
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OPXY(0x7a): // LD A,D
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OPXY(0x7b): // LD A,E
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goto OP_LD_R_R;
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OPXY(0x44): // LD B,HX
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OPXY(0x4c): // LD C,HX
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OPXY(0x54): // LD D,HX
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OPXY(0x5c): // LD E,HX
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OPXY(0x7c): // LD A,HX
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zR8((Opcode >> 3) & 7) = data->B.H;
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RET(4)
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OPXY(0x45): // LD B,LX
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OPXY(0x4d): // LD C,LX
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OPXY(0x55): // LD D,LX
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OPXY(0x5d): // LD E,LX
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OPXY(0x7d): // LD A,LX
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zR8((Opcode >> 3) & 7) = data->B.L;
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RET(4)
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OPXY(0x60): // LD HX,B
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OPXY(0x61): // LD HX,C
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OPXY(0x62): // LD HX,D
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OPXY(0x63): // LD HX,E
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OPXY(0x67): // LD HX,A
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data->B.H = zR8(Opcode & 7);
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RET(4)
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OPXY(0x68): // LD LX,B
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OPXY(0x69): // LD LX,C
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OPXY(0x6a): // LD LX,D
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OPXY(0x6b): // LD LX,E
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OPXY(0x6f): // LD LX,A
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data->B.L = zR8(Opcode & 7);
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RET(4)
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OPXY(0x65): // LD HX,LX
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data->B.H = data->B.L;
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RET(4)
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OPXY(0x6c): // LD LX,HX
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data->B.L = data->B.H;
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RET(4)
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OPXY(0x06): // LD B,#imm
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OPXY(0x0e): // LD C,#imm
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OPXY(0x16): // LD D,#imm
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OPXY(0x1e): // LD E,#imm
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OPXY(0x3e): // LD A,#imm
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goto OP_LD_R_imm;
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OPXY(0x26): // LD HX,#imm
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data->B.H = FETCH_BYTE;
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RET(7)
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OPXY(0x2e): // LD LX,#imm
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data->B.L = FETCH_BYTE;
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RET(7)
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OPXY(0x0a): // LD A,(BC)
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goto OP_LOAD_A_mBC;
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OPXY(0x1a): // LD A,(DE)
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goto OP_LOAD_A_mDE;
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OPXY(0x3a): // LD A,(nn)
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goto OP_LOAD_A_mNN;
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OPXY(0x02): // LD (BC),A
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goto OP_LOAD_mBC_A;
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OPXY(0x12): // LD (DE),A
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goto OP_LOAD_mDE_A;
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OPXY(0x32): // LD (nn),A
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goto OP_LOAD_mNN_A;
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{
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uint16_t adr;
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OPXY(0x46): // LD B,(IX+o)
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OPXY(0x56): // LD D,(IX+o)
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OPXY(0x5e): // LD E,(IX+o)
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OPXY(0x66): // LD H,(IX+o)
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OPXY(0x6e): // LD L,(IX+o)
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OPXY(0x4e): // LD C,(IX+o)
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OPXY(0x7e): // LD A,(IX+o)
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PRE_IO
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adr = data->W + FETCH_BYTE_S;
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READ_BYTE(adr, zR8((Opcode >> 3) & 7))
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POST_IO
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RET(15)
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OPXY(0x70): // LD (IX+o),B
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OPXY(0x71): // LD (IX+o),C
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OPXY(0x72): // LD (IX+o),D
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OPXY(0x73): // LD (IX+o),E
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OPXY(0x74): // LD (IX+o),H
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OPXY(0x75): // LD (IX+o),L
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OPXY(0x77): // LD (IX+o),A
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PRE_IO
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adr = data->W + FETCH_BYTE_S;
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WRITE_BYTE(adr, zR8(Opcode & 7))
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POST_IO
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RET(15)
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OPXY(0x36): // LD (IX+o),#imm
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PRE_IO
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adr = data->W + FETCH_BYTE_S;
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WRITE_BYTE(adr, FETCH_BYTE)
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POST_IO
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RET(15)
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}
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// 16 BITS LOAD
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OPXY(0x01): // LD BC,nn
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OPXY(0x11): // LD DE,nn
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goto OP_LOAD_RR_imm16;
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OPXY(0x21): // LD IX,nn
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FETCH_WORD(data->W)
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RET(10)
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OPXY(0x31): // LD SP,nn
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goto OP_LOAD_SP_imm16;
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OPXY(0x2a): // LD IX,(w)
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goto OP_LD_xx_mNN;
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OPXY(0x22): // LD (w),IX
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goto OP_LD_mNN_xx;
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OPXY(0xf9): // LD SP,IX
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goto OP_LD_SP_xx;
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// PUSH / POP
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OPXY(0xf1): // POP AF
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goto OP_POP_AF;
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OPXY(0xc1): // POP BC
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OPXY(0xd1): // POP DE
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goto OP_POP_RR;
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OPXY(0xe1): // POP IX
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goto OP_POP;
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OPXY(0xf5): // PUSH AF
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goto OP_PUSH_AF;
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OPXY(0xc5): // PUSH BC
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OPXY(0xd5): // PUSH DE
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goto OP_PUSH_RR;
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OPXY(0xe5): // PUSH IX
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goto OP_PUSH;
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// EXCHANGE
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OPXY(0x08): // EX AF,AF'
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goto OP_EX_AF_AF2;
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OPXY(0xeb): // EX DE,HL
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goto OP_EX_DE_HL;
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OPXY(0xd9): // EXX
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goto OP_EXX;
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OPXY(0xe3): // EX (SP),IX
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goto OP_EX_xx_mSP;
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// 8 BITS ARITHMETIC
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// INC
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OPXY(0x04): // INC B
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OPXY(0x0c): // INC C
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OPXY(0x14): // INC D
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OPXY(0x1c): // INC E
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OPXY(0x3c): // INC A
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goto OP_INC_R;
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OPXY(0x24): // INC HX
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data->B.H++;
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zF = (zF & CZ80_CF) | SZXYHV_inc[data->B.H];
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RET(4)
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OPXY(0x2c): // INC LX
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data->B.L++;
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zF = (zF & CZ80_CF) | SZXYHV_inc[data->B.L];
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RET(4)
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OPXY(0x34): // INC (IX+o)
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goto OP_INC_mIx;
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// DEC
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OPXY(0x05): // DEC B
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OPXY(0x0d): // DEC C
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OPXY(0x15): // DEC D
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OPXY(0x1d): // DEC E
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OPXY(0x3d): // DEC A
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goto OP_DEC_R;
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OPXY(0x25): // DEC HX
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data->B.H--;
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zF = (zF & CZ80_CF) | SZXYHV_dec[data->B.H];
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RET(4)
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OPXY(0x2d): // DEC LX
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data->B.L--;
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zF = (zF & CZ80_CF) | SZXYHV_dec[data->B.L];
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RET(4)
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OPXY(0x35): // DEC (IX+o)
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goto OP_DEC_mIx;
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// ADD
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OPXY(0x80): // ADD A,B
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OPXY(0x81): // ADD A,C
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OPXY(0x82): // ADD A,D
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OPXY(0x83): // ADD A,E
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OPXY(0x87): // ADD A,A
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goto OP_ADD_R;
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OPXY(0x84): // ADD A,HX
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goto OP_ADD_IxH;
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OPXY(0x85): // ADD A,LX
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goto OP_ADD_IxL;
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OPXY(0xc6): // ADD A,n
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goto OP_ADD_imm;
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OPXY(0x86): // ADD A,(IX+o)
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goto OP_ADD_mIx;
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// ADC
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OPXY(0x88): // ADC A,B
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OPXY(0x89): // ADC A,C
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OPXY(0x8a): // ADC A,D
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OPXY(0x8b): // ADC A,E
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OPXY(0x8f): // ADC A,A
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goto OP_ADC_R;
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OPXY(0xce): // ADC A,n
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goto OP_ADC_imm;
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OPXY(0x8c): // ADC A,HX
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goto OP_ADC_IxH;
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OPXY(0x8d): // ADC A,LX
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goto OP_ADC_IxL;
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OPXY(0x8e): // ADC A,(IX+o)
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goto OP_ADC_mIx;
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// SUB
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OPXY(0x90): // SUB B
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OPXY(0x91): // SUB C
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OPXY(0x92): // SUB D
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OPXY(0x93): // SUB E
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OPXY(0x97): // SUB A
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goto OP_SUB_R;
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OPXY(0x94): // SUB HX
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goto OP_SUB_IxH;
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OPXY(0x95): // SUB LX
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goto OP_SUB_IxL;
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OPXY(0xd6): // SUB A,n
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goto OP_SUB_imm;
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OPXY(0x96): // SUB (IX+o)
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goto OP_SUB_mIx;
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// SBC
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OPXY(0x98): // SBC A,B
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OPXY(0x99): // SBC A,C
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OPXY(0x9a): // SBC A,D
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OPXY(0x9b): // SBC A,E
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OPXY(0x9f): // SBC A,A
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goto OP_SBC_R;
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OPXY(0x9c): // SBC A,HX
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goto OP_SBC_IxH;
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OPXY(0x9d): // SBC A,LX
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goto OP_SBC_IxL;
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OPXY(0xde): // SBC A,n
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goto OP_SBC_imm;
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OPXY(0x9e): // SBC A,(IX+o)
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goto OP_SBC_mIx;
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// CP
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OPXY(0xb8): // CP B
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OPXY(0xb9): // CP C
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OPXY(0xba): // CP D
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OPXY(0xbb): // CP E
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OPXY(0xbf): // CP A
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goto OP_CP_R;
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OPXY(0xbc): // CP HX
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goto OP_CP_IxH;
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OPXY(0xbd): // CP LX
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goto OP_CP_IxL;
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OPXY(0xfe): // CP n
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goto OP_CP_imm;
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OPXY(0xbe): // CP (IX+o)
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goto OP_CP_mIx;
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// AND
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OPXY(0xa0): // AND B
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OPXY(0xa1): // AND C
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OPXY(0xa2): // AND D
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OPXY(0xa3): // AND E
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goto OP_AND_R;
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OPXY(0xa7): // AND A
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goto OP_AND_A;
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OPXY(0xa4): // AND HX
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goto OP_AND_IxH;
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OPXY(0xa5): // AND LX
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goto OP_AND_IxL;
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OPXY(0xe6): // AND A,n
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goto OP_AND_imm;
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OPXY(0xa6): // AND (IX+o)
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{
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uint8_t val;
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PRE_IO
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READ_BYTE(data->W + FETCH_BYTE_S, val)
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POST_IO
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zA = zA & val;
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zF = SZXYP[zA] | CZ80_HF;
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RET(15)
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}
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// XOR
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OPXY(0xa8): // XOR B
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OPXY(0xa9): // XOR C
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OPXY(0xaa): // XOR D
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OPXY(0xab): // XOR E
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goto OP_XOR_R;
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OPXY(0xaf): // XOR A
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goto OP_XOR_A;
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OPXY(0xac): // XOR HX
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goto OP_XOR_IxH;
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OPXY(0xad): // XOR LX
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goto OP_XOR_IxL;
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OPXY(0xee): // XOR A,n
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goto OP_XOR_imm;
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OPXY(0xae): // XOR (IX+o)
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{
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uint8_t val;
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PRE_IO
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READ_BYTE(data->W + FETCH_BYTE_S, val)
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POST_IO
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zA = zA ^ val;
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zF = SZXYP[zA];
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RET(15)
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}
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// OR
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OPXY(0xb0): // OR B
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OPXY(0xb1): // OR C
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OPXY(0xb2): // OR D
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OPXY(0xb3): // OR E
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goto OP_OR_R;
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OPXY(0xb7): // OR A
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goto OP_OR_A;
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OPXY(0xb4): // OR HX
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goto OP_OR_IxH;
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OPXY(0xb5): // OR LX
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goto OP_OR_IxL;
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OPXY(0xf6): // OR A,n
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goto OP_OR_imm;
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OPXY(0xb6): // OR (IX+o)
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{
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uint8_t val;
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PRE_IO
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READ_BYTE(data->W + FETCH_BYTE_S, val)
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POST_IO
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zA = zA | val;
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zF = SZXYP[zA];
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RET(15)
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}
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// MISC ARITHMETIC & CPU CONTROL
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OPXY(0x27): // DAA
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goto OP_DAA;
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OPXY(0x2f): // CPL
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goto OP_CPL;
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OPXY(0x37): // SCF
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goto OP_SCF;
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OPXY(0x3f): // CCF
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goto OP_CCF;
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OPXY(0x76): // HALT
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goto OP_HALT;
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OPXY(0xf3): // DI
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goto OP_DI;
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OPXY(0xfb): // EI
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goto OP_EI;
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// 16 BITS ARITHMETIC
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OPXY(0x03): // INC BC
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goto OP_INC_BC;
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OPXY(0x13): // INC DE
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goto OP_INC_DE;
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OPXY(0x23): // INC IX
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goto OP_INC_xx;
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OPXY(0x33): // INC SP
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goto OP_INC_SP;
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OPXY(0x0b): // DEC BC
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goto OP_DEC_BC;
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OPXY(0x1b): // DEC DE
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goto OP_DEC_DE;
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OPXY(0x2b): // DEC IX
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goto OP_DEC_xx;
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OPXY(0x3b): // DEC SP
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goto OP_DEC_SP;
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// ADD16
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OPXY(0x09): // ADD IX,BC
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goto OP_ADD16_xx_BC;
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OPXY(0x19): // ADD IX,DE
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goto OP_ADD16_xx_DE;
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OPXY(0x29): // ADD IX,IX
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goto OP_ADD16_xx_xx;
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OPXY(0x39): // ADD IX,SP
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goto OP_ADD16_xx_SP;
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// ROTATE
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OPXY(0x07): // RLCA
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goto OP_RLCA;
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OPXY(0x0f): // RRCA
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goto OP_RRCA;
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OPXY(0x17): // RLA
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goto OP_RLA;
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|
|
OPXY(0x1f): // RRA
|
|
goto OP_RRA;
|
|
|
|
|
|
// JUMP
|
|
|
|
OPXY(0xc3): // JP nn
|
|
goto OP_JP;
|
|
|
|
OPXY(0xe9): // JP (IX)
|
|
goto OP_JP_xx;
|
|
|
|
|
|
OPXY(0xd2): // JP NC,nn
|
|
goto OP_JP_NC;
|
|
|
|
OPXY(0xda): // JP C,nn
|
|
goto OP_JP_C;
|
|
|
|
OPXY(0xe2): // JP PO,nn
|
|
goto OP_JP_PO;
|
|
|
|
OPXY(0xea): // JP PE,nn
|
|
goto OP_JP_PE;
|
|
|
|
OPXY(0xf2): // JP P,nn
|
|
goto OP_JP_P;
|
|
|
|
OPXY(0xfa): // JP M,nn
|
|
goto OP_JP_M;
|
|
|
|
OPXY(0xca): // JP Z,nn
|
|
goto OP_JP_Z;
|
|
|
|
OPXY(0xc2): // JP NZ,nn
|
|
goto OP_JP_NZ;
|
|
|
|
|
|
OPXY(0x18): // JR n
|
|
goto OP_JR;
|
|
|
|
|
|
OPXY(0x38): // JR C,n
|
|
goto OP_JR_C;
|
|
|
|
OPXY(0x30): // JR NC,n
|
|
goto OP_JR_NC;
|
|
|
|
OPXY(0x28): // JR Z,n
|
|
goto OP_JR_Z;
|
|
|
|
OPXY(0x20): // JR NZ,n
|
|
goto OP_JR_NZ;
|
|
|
|
|
|
OPXY(0x10): // DJNZ n
|
|
goto OP_DJNZ;
|
|
|
|
|
|
// CALL & RETURN
|
|
|
|
OPXY(0xcd): // CALL nn
|
|
goto OP_CALL;
|
|
|
|
|
|
OPXY(0xd4): // CALL NC,nn
|
|
goto OP_CALL_NC;
|
|
|
|
OPXY(0xdc): // CALL C,nn
|
|
goto OP_CALL_C;
|
|
|
|
OPXY(0xe4): // CALL PO,nn
|
|
goto OP_CALL_PO;
|
|
|
|
OPXY(0xec): // CALL PE,nn
|
|
goto OP_CALL_PE;
|
|
|
|
OPXY(0xf4): // CALL P,nn
|
|
goto OP_CALL_P;
|
|
|
|
OPXY(0xfc): // CALL M,nn
|
|
goto OP_CALL_M;
|
|
|
|
OPXY(0xcc): // CALL Z,nn
|
|
goto OP_CALL_Z;
|
|
|
|
OPXY(0xc4): // CALL NZ,nn
|
|
goto OP_CALL_NZ;
|
|
|
|
|
|
OPXY(0xc9): // RET
|
|
goto OP_RET;
|
|
|
|
|
|
OPXY(0xd0): // RET NC
|
|
goto OP_RET_NC;
|
|
|
|
OPXY(0xd8): // RET C
|
|
goto OP_RET_C;
|
|
|
|
OPXY(0xe0): // RET PO
|
|
goto OP_RET_PO;
|
|
|
|
OPXY(0xe8): // RET PE
|
|
goto OP_RET_PE;
|
|
|
|
OPXY(0xf0): // RET P
|
|
goto OP_RET_P;
|
|
|
|
OPXY(0xf8): // RET M
|
|
goto OP_RET_M;
|
|
|
|
OPXY(0xc0): // RET NZ
|
|
goto OP_RET_NZ;
|
|
|
|
OPXY(0xc8): // RET Z
|
|
goto OP_RET_Z;
|
|
|
|
|
|
OPXY(0xc7): // RST 0
|
|
OPXY(0xcf): // RST 1
|
|
OPXY(0xd7): // RST 2
|
|
OPXY(0xdf): // RST 3
|
|
OPXY(0xe7): // RST 4
|
|
OPXY(0xef): // RST 5
|
|
OPXY(0xf7): // RST 6
|
|
OPXY(0xff): // RST 7
|
|
goto OP_RST;
|
|
|
|
|
|
// INPUT & OUTPUT
|
|
|
|
OPXY(0xd3): // OUT (n),A
|
|
goto OP_OUT_mN_A;
|
|
|
|
OPXY(0xdb): // IN A,(n)
|
|
goto OP_IN_A_mN;
|
|
|
|
|
|
// PREFIXE
|
|
|
|
OPXY(0xcb): // XYCB PREFIXE
|
|
{
|
|
uint16_t adr;
|
|
uint8_t src;
|
|
uint8_t res;
|
|
|
|
adr = data->W + FETCH_BYTE_S;
|
|
Opcode = FETCH_BYTE;
|
|
#include "cz80_opxycb.inc"
|
|
}
|
|
|
|
OPXY(0xed): // ED PREFIXE
|
|
goto ED_PREFIXE;
|
|
|
|
OPXY(0xdd): // DD PREFIXE (IX)
|
|
goto DD_PREFIXE;
|
|
|
|
OPXY(0xfd): // FD PREFIXE (IY)
|
|
goto FD_PREFIXE;
|
|
|
|
#if CZ80_USE_JUMPTABLE
|
|
#else
|
|
}
|
|
#endif
|
|
|