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@ -233,7 +233,21 @@ void CPU::update()
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case 0xa6: and8(); break; |
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case 0xa7: and8(); break; |
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case 0xa8: xor8(); break; |
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case 0xa9: xor8(); break; |
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case 0xaa: xor8(); break; |
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case 0xab: xor8(); break; |
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case 0xac: xor8(); break; |
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case 0xad: xor8(); break; |
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case 0xae: xor8(); break; |
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case 0xaf: xor8(); break; |
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case 0xb0: or8(); break; |
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case 0xb1: or8(); break; |
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case 0xb2: or8(); break; |
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case 0xb3: or8(); break; |
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case 0xb4: or8(); break; |
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case 0xb5: or8(); break; |
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case 0xb6: or8(); break; |
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case 0xb7: or8(); break; |
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case 0xb8: cp(); break; |
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case 0xb9: cp(); break; |
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case 0xba: cp(); break; |
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@ -269,11 +283,13 @@ void CPU::update()
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case 0xe7: rst(); break; |
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case 0xe8: adds8(); break; |
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case 0xea: ldr8(); break; |
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case 0xee: xor8(); break; |
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case 0xef: rst(); break; |
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case 0xf0: ldffi8(); break; |
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case 0xf1: pop(); break; |
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case 0xf2: lda8(); break; |
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case 0xf5: push(); break; |
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case 0xf6: or8(); break; |
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case 0xf7: rst(); break; |
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case 0xf8: ldr16(); break; |
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case 0xf9: ldr16(); break; |
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@ -566,6 +582,50 @@ void CPU::inc8()
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} |
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} |
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void CPU::or8() |
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{ |
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auto bitwise_or = [this](uint32_t register_) { |
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// OR r8, flags: Z 0 0 0
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m_wait_cycles += 4; |
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// Set flags
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m_nf = m_hf = m_cf = 0; |
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// Store into A the bitwise OR of the value in r8 and A
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m_a = m_a | register_; |
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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 0xb0: /* OR A,B */ bitwise_or(m_b); break; |
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case 0xb1: /* OR A,C */ bitwise_or(m_c); break; |
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case 0xb2: /* OR A,D */ bitwise_or(m_d); break; |
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case 0xb3: /* OR A,E */ bitwise_or(m_e); break; |
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case 0xb4: /* OR A,H */ bitwise_or(m_h); break; |
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case 0xb5: /* OR A,L */ bitwise_or(m_l); break; |
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case 0xb6: /* OR A,(HL) */ { |
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m_wait_cycles += 4; // + 4 = 8 total
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// Store into A the bitwise OR of the byte pointed to by HL and A
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bitwise_or(read(hl())); |
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break; |
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} |
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case 0xb7: /* OR A,A */ bitwise_or(m_a); break; |
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case 0xf6: /* OR A,i8 */ { |
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m_wait_cycles += 4; // + 4 = 8 total
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// Store into A the bitwise OR of i8 and A
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bitwise_or(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::sbc8() |
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{ |
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auto subtract_carry = [this](uint32_t register_) -> void { |
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@ -664,18 +724,43 @@ void CPU::sub8()
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void CPU::xor8() |
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{ |
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uint8_t opcode = pcRead(); |
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switch (opcode) { |
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case 0xa8: // XOR B, flags: Z 0 0 0
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auto bitwise_xor = [this](uint32_t register_) { |
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// XOR r8, flags: Z 0 0 0
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m_wait_cycles += 4; |
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// Set flags
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m_nf = m_hf = m_cf = 0; |
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m_a ^= m_b; |
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// Bitwise XOR between the value in r8 and A
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m_a = m_a ^ register_; |
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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 0xa8: /* XOR A,B */ bitwise_xor(m_b); break; |
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case 0xa9: /* XOR A,C */ bitwise_xor(m_c); break; |
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case 0xaa: /* XOR A,D */ bitwise_xor(m_d); break; |
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case 0xab: /* XOR A,E */ bitwise_xor(m_e); break; |
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case 0xac: /* XOR A,H */ bitwise_xor(m_h); break; |
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case 0xad: /* XOR A,L */ bitwise_xor(m_l); break; |
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case 0xae: /* XOR A,(HL) */ { |
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m_wait_cycles += 4; // + 4 = 8 total
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// Bitwise XOR between the byte pointed to by HL and A
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bitwise_xor(read(hl())); |
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break; |
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case 0xaf: // XOR A, flags: 1 0 0 0
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// A ^ A will always be 0
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m_a = m_nf = m_hf = m_cf = 0; |
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m_zf = 1; |
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} |
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case 0xaf: /* XOR A,A */ bitwise_xor(m_a); break; |
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case 0xee: /* XOR A,i8 */ { |
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m_wait_cycles += 4; // + 4 = 8 total
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// Bitwise XOR between the value in i8 and A
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bitwise_xor(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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