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emu6502/memory.c

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C
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#include "memory.h"
byte fetch_byte(State6502* state) {
return state->memory[state->pc++];
}
word fetch_word(State6502* state) {
byte low = fetch_byte(state);
byte high = fetch_byte(state);
word result = (high << 8) | low;
return result;
}
word read_word(State6502 * state, word address) {
return state->memory[address] | state->memory[address + 1] << 8;
}
word read_word_wrap(State6502 * state, word address) {
word address_low = address;
//page wraparound
word address_high = (address_low & 0xFF) == 0xFF ? address - 0xFF : address_low + 1;
return state->memory[address_low] | state->memory[address_high] << 8;
}
word get_address_zero_page(State6502 * state) {
return fetch_byte(state);
}
byte get_byte_zero_page(State6502 * state) {
//8 bit addressing, only the first 256 bytes of the memory
return state->memory[get_address_zero_page(state)];
}
word get_address_zero_page_x(State6502 * state) {
//address is zero page, so wraparound byte
byte address = fetch_byte(state) + state->x;
return address;
}
byte get_byte_zero_page_x(State6502 * state) {
return state->memory[get_address_zero_page_x(state)];
}
word get_address_zero_page_y(State6502 * state) {
//address is zero page, so wraparound byte
byte address = fetch_byte(state) + state->y;
return address;
}
byte get_byte_zero_page_y(State6502 * state) {
return state->memory[get_address_zero_page_y(state)];
}
word get_address_absolute(State6502 * state) {
//absolute indexed, 16 bits
word address = fetch_word(state);
return address;
}
byte get_byte_absolute(State6502 * state)
{
//absolute indexed, 16 bits
return state->memory[get_address_absolute(state)];
}
word get_address_absolute_x(State6502 * state) {
//absolute added with the contents of x register
word address = fetch_word(state) + state->x;
return address;
}
byte get_byte_absolute_x(State6502 * state) {
return state->memory[get_address_absolute_x(state)];
}
word get_address_absolute_y(State6502 * state) {
//absolute added with the contents of x register
word address = fetch_word(state) + state->y;
return address;
}
byte get_byte_absolute_y(State6502 * state) {
//absolute added with the contents of y register
return state->memory[get_address_absolute_y(state)];
}
word get_address_indirect_jmp(State6502 * state) {
word indirect_address = fetch_word(state);
//AN INDIRECT JUMP MUST NEVER USE A VECTOR BEGINNING ON THE LAST BYTE OF A PAGE
return read_word_wrap(state, indirect_address);
}
word get_address_indirect_x(State6502 * state) {
//pre-indexed indirect with the X register
//zero-page address is added to x register
byte indirect_address = fetch_byte(state) + state->x;
//pointing to address of a word holding the address of the operand
word address = read_word_wrap(state, indirect_address);
return address;
}
byte get_byte_indirect_x(State6502 * state) {
//pre-indexed indirect with the X register
return state->memory[get_address_indirect_x(state)];
}
word get_address_indirect_y(State6502 * state) {
//post-indexed indirect
//zero-page address as an argument
byte indirect_address = fetch_byte(state);
//the address and the following byte is read as a word, adding Y register
word address = read_word(state, indirect_address) + state->y;
return address;
}
byte get_byte_indirect_y(State6502 * state) {
return state->memory[get_address_indirect_y(state)];
}
word get_address_relative(State6502 * state) {
int8_t address = (int8_t)fetch_byte(state);
return state->pc + address;
}