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@ -208,6 +208,22 @@ void CPU::update() |
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case 0x8d: adc8(); break; |
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case 0x8d: adc8(); break; |
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case 0x8e: adc8(); break; |
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case 0x8e: adc8(); break; |
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case 0x8f: adc8(); break; |
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case 0x8f: adc8(); break; |
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case 0x90: sub8(); break; |
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case 0x91: sub8(); break; |
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case 0x92: sub8(); break; |
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case 0x93: sub8(); break; |
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case 0x94: sub8(); break; |
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case 0x95: sub8(); break; |
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case 0x96: sub8(); break; |
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case 0x97: sub8(); break; |
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case 0x98: sbc8(); break; |
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case 0x99: sbc8(); break; |
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case 0x9a: sbc8(); break; |
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case 0x9b: sbc8(); break; |
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case 0x9c: sbc8(); break; |
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case 0x9d: sbc8(); break; |
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case 0x9e: sbc8(); break; |
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case 0x9f: sbc8(); break; |
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case 0xa0: and8(); break; |
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case 0xa0: and8(); break; |
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case 0xa1: and8(); break; |
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case 0xa1: and8(); break; |
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case 0xa2: and8(); break; |
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case 0xa2: and8(); break; |
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@ -240,8 +256,10 @@ void CPU::update() |
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case 0xd1: pop(); break; |
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case 0xd1: pop(); break; |
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case 0xd4: call(); break; |
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case 0xd4: call(); break; |
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case 0xd5: push(); break; |
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case 0xd5: push(); break; |
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case 0xd6: sub8(); break; |
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case 0xd7: rst(); break; |
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case 0xd7: rst(); break; |
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case 0xdc: call(); break; |
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case 0xdc: call(); break; |
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case 0xde: sbc8(); break; |
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case 0xdf: rst(); break; |
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case 0xdf: rst(); break; |
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case 0xe0: ldffi8(); break; |
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case 0xe0: ldffi8(); break; |
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case 0xe1: pop(); break; |
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case 0xe1: pop(); break; |
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@ -420,6 +438,54 @@ void CPU::and8() |
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} |
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} |
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} |
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} |
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void CPU::cp() |
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{ |
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auto compare = [this](uint32_t register_) -> void { |
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// CP A,r8, flags: Z 1 H C
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m_wait_cycles += 4; |
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// Subtract the value in r8 from A and set flags accordingly,
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// but don't store the result
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// Set flags
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// Zero flag
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m_zf = ((m_a - register_) & 0xff) == 0; |
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m_nf = 1; |
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// Note: for negation between two positive numbers the carry result is flipped!
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m_hf = !isCarry(m_a, register_, 0x10); |
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m_cf = !isCarry(m_a, register_, 0x100); |
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}; |
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uint8_t opcode = pcRead(); |
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switch (opcode) { |
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case 0xb8: /* CP A,B */ compare(m_b); break; |
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case 0xb9: /* CP A,C */ compare(m_c); break; |
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case 0xba: /* CP A,D */ compare(m_d); break; |
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case 0xbb: /* CP A,E */ compare(m_e); break; |
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case 0xbc: /* CP A,H */ compare(m_h); break; |
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case 0xbd: /* CP A,L */ compare(m_l); break; |
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case 0xbe: /* CP A,(HL) */ { |
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m_wait_cycles += 4; // + 4 = 8 total
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// Subtract the byte pointed to by HL from A and set flags accordingly,
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// but don't store the result
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compare(read(hl())); |
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break; |
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} |
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case 0xbf: /* CP A,A */ compare(m_a); break; |
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case 0xfe: /* CP A,i8 */ { |
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m_wait_cycles += 4; // + 4 = 8 total
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// Subtract the value i8 from A and set flags accordingly,
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// but don't store the result
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compare(pcRead()); |
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break; |
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} |
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default: |
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VERIFY_NOT_REACHED(); |
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} |
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} |
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void CPU::dec8() |
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void CPU::dec8() |
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{ |
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{ |
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auto decrement = [this](uint32_t& register_) -> void { |
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auto decrement = [this](uint32_t& register_) -> void { |
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@ -500,6 +566,102 @@ void CPU::inc8() |
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} |
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} |
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} |
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} |
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void CPU::sbc8() |
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{ |
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auto subtract_carry = [this](uint32_t register_) -> void { |
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// SBC A,r8, flags: Z 1 H C
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m_wait_cycles += 4; |
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uint32_t old_carry = m_cf; |
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// Set flags
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m_nf = 1; |
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// Note: for negation between two positive numbers the carry result is flipped!
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m_hf = !isCarry(m_a, register_, 0x10); |
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m_cf = !isCarry(m_a, (register_ + (old_carry) ? 1 : 0), 0x100); |
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// Subtract the value in r8 and the carry flag from A
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m_a = (m_a - register_ - (old_carry) ? 1 : 0) & 0xff; |
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// Zero flag
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m_zf = m_a == 0; |
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}; |
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uint8_t opcode = pcRead(); |
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switch (opcode) { |
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case 0x98: /* SBC A,B */ subtract_carry(m_b); break; |
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case 0x99: /* SBC A,C */ subtract_carry(m_c); break; |
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case 0x9a: /* SBC A,D */ subtract_carry(m_d); break; |
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case 0x9b: /* SBC A,E */ subtract_carry(m_e); break; |
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case 0x9c: /* SBC A,H */ subtract_carry(m_h); break; |
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case 0x9d: /* SBC A,L */ subtract_carry(m_l); break; |
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case 0x9e: /* SBC A,(HL) */ { |
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m_wait_cycles += 4; // + 4 = 8 total
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// Subtract the byte pointed to by HL and the carry flag from A
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subtract_carry(read(hl())); |
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break; |
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} |
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case 0x9f: /* SBC A,A */ subtract_carry(m_a); break; |
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case 0xde: /* SBC A,i8 */ { |
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m_wait_cycles += 4; // + 4 = 8 total
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// Subtract the value i8 and the carry flag from A
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subtract_carry(pcRead()); |
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break; |
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} |
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default: |
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VERIFY_NOT_REACHED(); |
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} |
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} |
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void CPU::sub8() |
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{ |
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auto subtract = [this](uint32_t register_) -> void { |
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// SUB A,r8, flags: Z 1 H C
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m_wait_cycles += 4; |
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// Set flags
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m_nf = 1; |
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// Note: for negation between two positive numbers the carry result is flipped!
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m_hf = !isCarry(m_a, register_, 0x10); |
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m_cf = !isCarry(m_a, register_, 0x100); |
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// Subtract the value in r8 from A
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m_a = (m_a - register_) & 0xff; |
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// Zero flag
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m_zf = m_a == 0; |
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}; |
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uint8_t opcode = pcRead(); |
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switch (opcode) { |
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case 0x90: /* SUB A,B */ subtract(m_b); break; |
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case 0x91: /* SUB A,C */ subtract(m_c); break; |
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case 0x92: /* SUB A,D */ subtract(m_d); break; |
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case 0x93: /* SUB A,E */ subtract(m_e); break; |
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case 0x94: /* SUB A,H */ subtract(m_h); break; |
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case 0x95: /* SUB A,L */ subtract(m_l); break; |
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case 0x96: /* SUB A,(HL) */ { |
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m_wait_cycles += 4; // + 4 = 8 total
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// Subtract the byte pointed to by HL from A
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subtract(read(hl())); |
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break; |
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} |
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case 0x97: /* SUB A,A */ subtract(m_a); break; |
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case 0xd6: /* SUB A,i8 */ { |
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m_wait_cycles += 4; // + 4 = 8 total
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// Subtract the value i8 from A
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subtract(pcRead()); |
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break; |
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} |
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default: |
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VERIFY_NOT_REACHED(); |
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} |
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} |
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void CPU::xor8() |
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void CPU::xor8() |
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{ |
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{ |
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uint8_t opcode = pcRead(); |
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uint8_t opcode = pcRead(); |
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@ -935,45 +1097,6 @@ void CPU::ra() |
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m_hf = 0; |
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m_hf = 0; |
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} |
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} |
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void CPU::cp() |
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{ |
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uint8_t opcode = pcRead(); |
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uint8_t value = 0; |
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switch (opcode) { |
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case 0xb8: /* CP B */ value = m_b; break; |
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case 0xb9: /* CP C */ value = m_c; break; |
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case 0xba: /* CP D */ value = m_d; break; |
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case 0xbb: /* CP E */ value = m_e; break; |
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case 0xbc: /* CP H */ value = m_h; break; |
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case 0xbd: /* CP L */ value = m_l; break; |
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case 0xbe: // CP,(HL)
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m_wait_cycles += 4; |
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value = read(hl()); |
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break; |
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case 0xbf: // CP A, flags: 1 1 0 0
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m_wait_cycles += 4; |
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// A - A
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m_zf = m_nf = 1; |
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m_hf = m_cf = 0; |
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return; // Early return as we already set the flags
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case 0xfe: // CP i8
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m_wait_cycles += 4; |
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value = pcRead(); |
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break; |
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default: |
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VERIFY_NOT_REACHED(); |
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} |
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// CP r8, flags: Z 1 H C
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m_wait_cycles += 4; |
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// Set flags
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m_zf = ((m_a - value) & 0xff) == 0; |
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m_nf = 1; |
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m_hf = isCarry(m_a, value, 0x10); |
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m_cf = isCarry(m_a, value, 0x100); |
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} |
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void CPU::ldffi8() |
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void CPU::ldffi8() |
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{ |
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{ |
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uint8_t opcode = pcRead(); |
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uint8_t opcode = pcRead(); |
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