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ORA indirect
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parent
b7b199129d
commit
686ba9b601
27
cpu.c
27
cpu.c
@ -62,7 +62,7 @@ void ORA(State6502 * state, byte operand) {
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}
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}
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//load accumulator
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//load accumulator
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void LDA(State6502* state, byte operand) {
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void LDA(State6502 * state, byte operand) {
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state->a = operand;
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state->a = operand;
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set_NV_flags(state, state->a);
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set_NV_flags(state, state->a);
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}
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}
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@ -86,24 +86,29 @@ int emulate_6502_op(State6502 * state) {
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break; //BRK
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break; //BRK
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case NOP: break; //NOP
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case NOP: break; //NOP
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case ORA_IND_X: //ORA, indirect, x
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case ORA_IND_X: //ORA, indirect, x
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unimplemented_instruction(state);
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//The address to be accessed by an instruction using X register indexed absolute addressing is computed by taking the 16 bit address
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//from the instruction and added the contents of the X register.
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//For example if X contains $92 then an STA $2000,X instruction will store the accumulator at $2092 (e.g. $2000 + $92). (STA)
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{
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word address_indirect = pop_word(state) + state->x;
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word address = get_word(state, address_indirect);
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ORA(state, state->memory[address]);
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break;
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break;
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}
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case ORA_ZP: //ORA, zero page
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case ORA_ZP: //ORA, zero page
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{
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{
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byte address = pop_byte(state);
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byte address = pop_byte(state);
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ORA(state, state->memory[address]);
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ORA(state, state->memory[address]);
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break;
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break;
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}
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}
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case ORA_IND_Y:
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case ORA_IND_Y: //ORA, indirect, y (post_indexed)
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//The value in Y is added to the address at the little-endian address stored at the two-byte pair of the specified address (LSB) and the specified address plus one (MSB).
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{
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//The value at the sum address is used to perform the computation. Indeed addressing mode actually repeats exactly the accumulator register's digits.
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word address_indirect = pop_word(state);
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// Example
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word address = get_word(state, address_indirect) + state->y;
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//The value $03 in Y is added to the address $C235 at addresses $002A and $002B for a sum of $C238. The value $2F at $C238 is shifted right (yielding $17) and written back to $C238.
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ORA(state, state->memory[address]);
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//word address = pop_word(state) + state->y;
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//word value = get_word(state, address);
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//ORA(state, state->memory[value]);
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unimplemented_instruction(state);
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unimplemented_instruction(state);
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break;
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break;
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}
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case ORA_IMM:
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case ORA_IMM:
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ORA(state, pop_byte(state));
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ORA(state, pop_byte(state));
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break;
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break;
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@ -133,7 +138,7 @@ int emulate_6502_op(State6502 * state) {
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}
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}
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case LDA_IMM:
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case LDA_IMM:
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{
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{
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LDA(state,pop_byte(state));
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LDA(state, pop_byte(state));
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break;
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break;
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}
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}
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break;
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break;
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