2023-08-27 22:19:02 +02:00
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#include "cpu.h"
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void Cpu_state::setAF(u16 v)
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{
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A = (u8)(v >> 8);
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zero = (v & 0x80 != 0);
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subtract = (v & 0x40 != 0);
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halfcarry = (v & 0x20 != 0);
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carry = (v & 0x10 != 0);
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}
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u16 Cpu_state::getAF()
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{
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return ((u16)A << 8) |
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(zero ? 0x80 : 0) |
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(subtract ? 0x40 : 0) |
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(halfcarry ? 0x20 : 0) |
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(carry ? 0x10 : 0);
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}
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2023-08-28 21:56:33 +02:00
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Cpu::Cpu(Mem_device* bus)
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: bus(bus)
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{
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reset();
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}
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void Cpu::step()
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{
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handleInterrupts();
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executeInstruction();
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}
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void Cpu::reset()
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{
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state.BC = 0;
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state.DE = 0;
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state.HL = 0;
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state.A = 0;
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state.SP = 0;
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state.PC = 0;
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state.zero = false;
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state.subtract = false;
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state.halfcarry = false;
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state.carry = false;
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state.IME = IME_OFF;
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state.IE = 0;
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state.IF = 0;
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}
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u8 Cpu::readPC8()
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{
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u8 data = bus->read8(state.PC);
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state.PC++;
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return data;
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}
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u16 Cpu::readPC16()
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{
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u16 data = bus->read16(state.PC);
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state.PC+=2;
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return data;
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}
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void Cpu::pushStack8(u8 data)
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{
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bus->write8(state.SP, data);
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state.SP--;
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}
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u8 Cpu::popStack8()
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{
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u8 data = bus->read8(state.SP);
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state.SP++;
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return data;
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}
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void Cpu::pushStack16(u16 data)
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{
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bus->write16(state.SP,data);
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state.SP-=2;
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}
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u16 Cpu::popStack16()
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{
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u16 data = bus->read16(state.SP);
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state.SP+=2;
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return data;
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}
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void Cpu::doCall(u16 target)
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{
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pushStack16(state.PC);
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state.PC = target;
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}
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void Cpu::doRet()
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{
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state.PC = popStack16();
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}
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bool Cpu::decodeCond(u8 cc)
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{
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switch(cc)
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{
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case COND_NZ: return !state.zero; break;
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case COND_Z: return state.zero; break;
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case COND_NC: return !state.carry; break;
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case COND_C: return state.carry; break;
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}
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return false;
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}
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2023-08-27 22:19:02 +02:00
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void Cpu::aluop8(AluOp op, u8 lhs, u8 rhs, u8& out, bool update_carry)
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{
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u16 rhs16 = rhs;
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u16 res16;
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u8 res;
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if ((op == ADC || op == SBC) && state.carry)
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rhs16++;
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u16 lhs_lower = lhs & 0x0F;
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u16 lhs_upper = lhs & 0xF0;
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u16 rhs_lower = rhs16 & 0x0F;
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u16 rhs_upper = rhs16 & 0x1F0;
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switch(op)
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{
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case ADD:
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case ADC:
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res16 = lhs_lower + rhs_lower;
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break;
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case SUB:
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case SBC:
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case CP:
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res16 = lhs_lower - rhs_lower;
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break;
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case AND:
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res16 = lhs_lower & rhs_lower;
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break;
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case OR:
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res16 = lhs_lower | rhs_lower;
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break;
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case XOR:
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res16 = lhs_lower ^ rhs_lower;
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break;
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}
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state.halfcarry = (res16 & 0x10 != 0) || op == AND;
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state.subtract = (op == SUB) || (op == SBC) || (op == CP);
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switch(op)
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{
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case ADD:
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case ADC:
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res16 += lhs_upper + rhs_upper;
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break;
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case SUB:
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case SBC:
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case CP:
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res16 += lhs_upper - rhs_upper;
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break;
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case AND:
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res16 |= lhs_upper & rhs_upper;
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break;
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case OR:
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res16 |= lhs_upper | rhs_upper;
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break;
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case XOR:
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res16 |= lhs_upper ^ rhs_upper;
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break;
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}
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res = (u8)(res16 & 0xFF);
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if(update_carry)
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state.carry = (res16 & 0x100 != 0);
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state.zero = (res == 0);
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if (op != CP)
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out = res;
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}
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2023-08-28 21:56:33 +02:00
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void Cpu::handleInterrupts()
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{
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// servicable interrupts (assuming IME is on)
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u8 si = state.IE & state.IF & INT_MASK;
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if (state.IME == IME_SCHEDULED)
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state.IME = IME_DELAYED;
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else if (state.IME == IME_DELAYED)
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state.IME = IME_ON;
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else if (state.IME == IME_ON && si != 0)
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{
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u16 isr;
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InterruptType it;
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if (si & INT_VBlank) { it = INT_VBlank; isr = 0x40; }
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else if (si & INT_LCDSTAT) { it = INT_LCDSTAT; isr = 0x48; }
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else if (si & INT_Timer) { it = INT_Timer; isr = 0x50; }
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else if (si & INT_Serial) { it = INT_Serial; isr = 0x58; }
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else if (si & INT_Joypad) { it = INT_Joypad; isr = 0x60; }
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state.IME = IME_OFF; // Disable IME
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state.IF &= ~it; // clear interrupt in IF
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doCall(isr); // Call interrupt service routine
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processed_mcycles += 5;
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}
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}
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