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Refactor GetOpcodeCyclesForRead()/Write() to make then consistent & consolidate common code.
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parent
9f508d1b7e
commit
910313f176
211
source/6522.cpp
211
source/6522.cpp
@ -411,9 +411,8 @@ BYTE SY6522::Read(BYTE nReg)
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// TODO: RMW opcodes: dec,inc,asl,lsr,rol,ror (abs16 & abs16,x) + 65C02 trb,tsb (abs16)
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UINT SY6522::GetOpcodeCyclesForRead(BYTE reg)
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{
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UINT opcodeCycles = 0;
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BYTE opcode = 0;
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bool abs16 = false;
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UINT zpOpcodeCycles = 0, opcodeCycles = 0;
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BYTE zpOpcode = 0, opcode = 0; // these double-up as flags to indicate validity
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bool abs16x = false;
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bool abs16y = false;
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bool indx = false;
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@ -422,172 +421,173 @@ UINT SY6522::GetOpcodeCyclesForRead(BYTE reg)
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const BYTE opcodeMinus3 = mem[(::regs.pc - 3) & 0xffff];
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const BYTE opcodeMinus2 = mem[(::regs.pc - 2) & 0xffff];
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// Check 2-byte opcodes
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if (((opcodeMinus2 & 0x0f) == 0x01) && ((opcodeMinus2 & 0x10) == 0x00)) // ora (zp,x), and (zp,x), ..., sbc (zp,x)
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{
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// NB. this is for read, so don't need to exclude 0x81 / sta (zp,x)
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opcodeCycles = 6;
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opcode = opcodeMinus2;
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zpOpcodeCycles = 6;
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zpOpcode = opcodeMinus2;
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indx = true;
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}
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else if (((opcodeMinus2 & 0x0f) == 0x01) && ((opcodeMinus2 & 0x10) == 0x10)) // ora (zp),y, and (zp),y, ..., sbc (zp),y
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{
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// NB. this is for read, so don't need to exclude 0x91 / sta (zp),y
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opcodeCycles = 5;
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opcode = opcodeMinus2;
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zpOpcodeCycles = 5;
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zpOpcode = opcodeMinus2;
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indy = true;
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}
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else if (((opcodeMinus2 & 0x0f) == 0x02) && ((opcodeMinus2 & 0x10) == 0x10) && GetMainCpu() == CPU_65C02) // ora (zp), and (zp), ..., sbc (zp) : 65C02-only
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{
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// NB. this is for read, so don't need to exclude 0x92 / sta (zp)
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opcodeCycles = 5;
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opcode = opcodeMinus2;
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zpOpcodeCycles = 5;
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zpOpcode = opcodeMinus2;
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}
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else
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{
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if ((((opcodeMinus3 & 0x0f) == 0x0D) && ((opcodeMinus3 & 0x10) == 0x00)) || // ora abs16, and abs16, ..., sbc abs16
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(opcodeMinus3 == 0x2C) || // bit abs16
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(opcodeMinus3 == 0xAC) || // ldy abs16
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(opcodeMinus3 == 0xAE) || // ldx abs16
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(opcodeMinus3 == 0xCC) || // cpy abs16
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(opcodeMinus3 == 0xEC)) // cpx abs16
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{
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}
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else if ((opcodeMinus3 == 0xBC) || // ldy abs16,x
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((opcodeMinus3 == 0x3C) && GetMainCpu() == CPU_65C02)) // bit abs16,x : 65C02-only
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{
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abs16x = true;
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}
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else if ((opcodeMinus3 == 0xBE)) // ldx abs16,y
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{
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abs16y = true;
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}
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else if ((opcodeMinus3 & 0x10) == 0x10)
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{
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if ((opcodeMinus3 & 0x0f) == 0x0D) // ora abs16,x, and abs16,x, ..., sbc abs16,x
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abs16x = true;
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else if ((opcodeMinus3 & 0x0f) == 0x09) // ora abs16,y, and abs16,y, ..., sbc abs16,y
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abs16y = true;
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}
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else
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{
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_ASSERT(0);
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opcodeCycles = 0;
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return 0;
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}
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// Check 3-byte opcodes
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if ((((opcodeMinus3 & 0x0f) == 0x0D) && ((opcodeMinus3 & 0x10) == 0x00)) || // ora abs16, and abs16, ..., sbc abs16
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(opcodeMinus3 == 0x2C) || // bit abs16
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(opcodeMinus3 == 0xAC) || // ldy abs16
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(opcodeMinus3 == 0xAE) || // ldx abs16
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(opcodeMinus3 == 0xCC) || // cpy abs16
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(opcodeMinus3 == 0xEC)) // cpx abs16
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{
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opcodeCycles = 4;
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opcode = opcodeMinus3;
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abs16 = true;
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}
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else if ((opcodeMinus3 == 0xBC) || // ldy abs16,x
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((opcodeMinus3 == 0x3C) && GetMainCpu() == CPU_65C02)) // bit abs16,x : 65C02-only
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{
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opcodeCycles = 4;
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opcode = opcodeMinus3;
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abs16x = true;
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}
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else if ((opcodeMinus3 == 0xBE)) // ldx abs16,y
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{
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opcodeCycles = 4;
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opcode = opcodeMinus3;
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abs16y = true;
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}
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else if ((opcodeMinus3 & 0x10) == 0x10)
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{
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if ((opcodeMinus3 & 0x0f) == 0x0D) // ora abs16,x, and abs16,x, ..., sbc abs16,x
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{
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opcodeCycles = 4;
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opcode = opcodeMinus3;
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abs16x = true;
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}
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else if ((opcodeMinus3 & 0x0f) == 0x09) // ora abs16,y, and abs16,y, ..., sbc abs16,y
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{
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opcodeCycles = 4;
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opcode = opcodeMinus3;
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abs16y = true;
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}
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}
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//
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WORD addr16 = 0;
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if (!abs16)
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{
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BYTE zp = mem[(::regs.pc - 1) & 0xffff];
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if (indx) zp += ::regs.x;
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addr16 = (mem[zp] | (mem[(zp + 1) & 0xff] << 8));
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if (indy) addr16 += ::regs.y;
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}
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else
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{
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addr16 = mem[(::regs.pc - 2) & 0xffff] | (mem[(::regs.pc - 1) & 0xffff] << 8);
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if (abs16y) addr16 += ::regs.y;
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if (abs16x) addr16 += ::regs.x;
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}
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// Check we've reverse looked-up the 6502 opcode correctly
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if ((addr16 & 0xF80F) != (0xC000 + reg))
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if (!opcode && !zpOpcode) // Unsupported opcode
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{
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_ASSERT(0);
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return 0;
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}
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return opcodeCycles;
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return GetOpcodeCycles(reg, zpOpcodeCycles, opcodeCycles, zpOpcode, opcode, abs16x, abs16y, indx, indy);
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}
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// TODO: RMW opcodes: dec,inc,asl,lsr,rol,ror (abs16 & abs16,x) + 65C02 trb,tsb (abs16)
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UINT SY6522::GetOpcodeCyclesForWrite(BYTE reg)
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{
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UINT zpOpcodeCycles = 0, opcodeCycles = 0;
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BYTE zpOpcode = 0, opcode = 0;
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bool isZP = false, isAbs16 = false;
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BYTE zpOpcode = 0, opcode = 0; // these double-up as flags to indicate validity
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bool abs16x = false;
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bool abs16y = false;
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bool indx = false;
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bool indy = false;
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const BYTE opcodeMinus3 = mem[(::regs.pc - 3) & 0xffff];
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const BYTE opcodeMinus2 = mem[(::regs.pc - 2) & 0xffff];
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if ((opcodeMinus3 == 0x8C) || // sty abs16
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(opcodeMinus3 == 0x8D) || // sta abs16
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(opcodeMinus3 == 0x8E)) // stx abs16
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{ // Eg. FT demos: CHIP, MADEF, MAD2
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opcodeCycles = 4;
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opcode = opcodeMinus3;
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isAbs16 = true;
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}
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else if ((opcodeMinus3 == 0x99) || // sta abs16,y
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(opcodeMinus3 == 0x9D)) // sta abs16,x
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{ // Eg. Paleotronic microTracker demo
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opcodeCycles = 5;
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opcode = opcodeMinus3;
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isAbs16 = true;
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}
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else if (opcodeMinus3 == 0x9C && GetMainCpu() == CPU_65C02) // stz abs16 : 65C02-only
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{
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opcodeCycles = 4;
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opcode = opcodeMinus3;
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isAbs16 = true;
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}
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else if (opcodeMinus3 == 0x9E && GetMainCpu() == CPU_65C02) // stz abs16,x : 65C02-only
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{
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opcodeCycles = 5;
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opcode = opcodeMinus3;
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isAbs16 = true;
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}
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if (opcodeMinus2 == 0x81) // sta (zp,x)
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// Check 2-byte opcodes
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if (opcodeMinus2 == 0x81) // sta (zp,x)
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{
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zpOpcodeCycles = 6;
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zpOpcode = opcodeMinus2;
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isZP = true;
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indx = true;
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}
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else if (opcodeMinus2 == 0x91) // sta (zp),y
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{ // Eg. FT demos: OMT, PLS
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zpOpcodeCycles = 6;
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zpOpcode = opcodeMinus2;
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isZP = true;
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indy = true;
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}
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else if (opcodeMinus2 == 0x92 && GetMainCpu() == CPU_65C02) // sta (zp) : 65C02-only
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{
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zpOpcodeCycles = 5;
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zpOpcode = opcodeMinus2;
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isZP = true;
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}
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if (!isAbs16 && !isZP) // Unsupported opcode
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// Check 3-byte opcodes
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if ((opcodeMinus3 == 0x8C) || // sty abs16
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(opcodeMinus3 == 0x8D) || // sta abs16
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(opcodeMinus3 == 0x8E)) // stx abs16
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{ // Eg. FT demos: CHIP, MADEF, MAD2
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opcodeCycles = 4;
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opcode = opcodeMinus3;
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}
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else if (opcodeMinus3 == 0x99) // sta abs16,y
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{
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opcodeCycles = 5;
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opcode = opcodeMinus3;
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abs16y = true;
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}
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else if (opcodeMinus3 == 0x9D) // sta abs16,x
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{ // Eg. Paleotronic microTracker demo
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opcodeCycles = 5;
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opcode = opcodeMinus3;
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abs16x = true;
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}
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else if (opcodeMinus3 == 0x9C && GetMainCpu() == CPU_65C02) // stz abs16 : 65C02-only
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{
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opcodeCycles = 4;
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opcode = opcodeMinus3;
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}
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else if (opcodeMinus3 == 0x9E && GetMainCpu() == CPU_65C02) // stz abs16,x : 65C02-only
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{
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opcodeCycles = 5;
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opcode = opcodeMinus3;
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abs16x = true;
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}
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//
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if (!opcode && !zpOpcode) // Unsupported opcode
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{
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_ASSERT(0);
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return 0;
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}
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//
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return GetOpcodeCycles(reg, zpOpcodeCycles, opcodeCycles, zpOpcode, opcode, abs16x, abs16y, indx, indy);
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}
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UINT SY6522::GetOpcodeCycles(BYTE reg, UINT zpOpcodeCycles, UINT opcodeCycles,
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BYTE zpOpcode, BYTE opcode,
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bool abs16x, bool abs16y, bool indx, bool indy)
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{
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WORD zpAddr16 = 0, addr16 = 0;
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if (isZP)
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if (zpOpcode)
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{
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BYTE zp = mem[(::regs.pc - 1) & 0xffff];
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if (zpOpcode == 0x81) zp += ::regs.x;
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if (indx) zp += ::regs.x;
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zpAddr16 = (mem[zp] | (mem[(zp + 1) & 0xff] << 8));
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if (zpOpcode == 0x91) zpAddr16 += ::regs.y;
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if (indy) zpAddr16 += ::regs.y;
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}
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if (isAbs16)
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if (opcode)
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{
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addr16 = mem[(::regs.pc - 2) & 0xffff] | (mem[(::regs.pc - 1) & 0xffff] << 8);
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if (opcode == 0x99) addr16 += ::regs.y;
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if (opcode == 0x9D || opcode == 0x9E) addr16 += ::regs.x;
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if (abs16y) addr16 += ::regs.y;
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if (abs16x) addr16 += ::regs.x;
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}
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// Check we've reverse looked-up the 6502 opcode correctly
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@ -601,10 +601,7 @@ UINT SY6522::GetOpcodeCyclesForWrite(BYTE reg)
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return 0;
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}
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if (isZpAddrValid && !isAbs16AddrValid)
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opcodeCycles = zpOpcodeCycles;
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return opcodeCycles;
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return isZpAddrValid ? zpOpcodeCycles : opcodeCycles;
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}
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//=============================================================================
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@ -97,6 +97,7 @@ private:
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UINT GetOpcodeCyclesForRead(BYTE reg);
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UINT GetOpcodeCyclesForWrite(BYTE reg);
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UINT GetOpcodeCycles(BYTE reg, UINT zpOpcodeCycles, UINT opcodeCycles, BYTE zpOpcode, BYTE opcode, bool abs16x, bool abs16y, bool indx, bool indy);
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void StartTimer2(void);
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void StartTimer1_LoadStateV1(void);
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