nesemu/cpu/memory.c

//
// Created by william on 10/15/23.
//

#include <assert.h>
#include "log.h"
#include "memory.h"
#include "../include/rom.h"
#include "cpu.h"


#define RAM_SIZE 0x0800
#define RAM_MAX_ADDR 0x2000
#define PPU_MAX_ADDR 0x4000
#define APU_MAX_ADDR 0x4020
#define UNMAPPED_MAX_ADDR 0x6000
#define CARTRIDGE_RAM_MAX_ADDR 0x8000
#define MEM_ADDR_MAX 0xffff

byte ram[RAM_SIZE];

byte *mem_get_ptr(address addr) {
    assert(addr <= RAM_MAX_ADDR);

    if (addr < RAM_MAX_ADDR) {
        address ram_addr = addr % RAM_SIZE;   // There is four mirror of RAM
        return &ram[ram_addr];
    }

    // Only supported for RAM
    assert(false);
}

byte mem_get_byte(address addr) {
    assert(addr <= MEM_ADDR_MAX);

    if (addr < RAM_MAX_ADDR) {
        address ram_addr = addr % RAM_SIZE;
        return ram[ram_addr];
    } else if (addr < PPU_MAX_ADDR) {
        address relative_addr = addr - RAM_MAX_ADDR;
        byte ppu_reg = relative_addr % 8;
        return ppu_read_reg(ppu_reg);
    } else if (addr < APU_MAX_ADDR) {
        // TODO NES API and I/O registers
        return 0;
    } else if (addr < UNMAPPED_MAX_ADDR) {
        // Unmapped
        assert(false);
    } else if (addr < CARTRIDGE_RAM_MAX_ADDR) {
        // TODO Cartridge RAM
        return 0;
    } else {
        address rom_addr = addr - CARTRIDGE_RAM_MAX_ADDR;

        Mapper *mapper = system_get_mapper();
        return *(mapper->mem_read(rom_addr));
    }
}

word mem_get_word(address addr) {
    assert(addr <= MEM_ADDR_MAX - 1);

    byte data1;
    byte data2;

    if (addr < RAM_MAX_ADDR - 1) {
        address ram_addr = addr % RAM_SIZE;
        data1 = ram[ram_addr];
        data2 = ram[ram_addr + 1];
    } else if (addr < UNMAPPED_MAX_ADDR) {
        // Unsupported
        assert(false);
    } else if (addr < CARTRIDGE_RAM_MAX_ADDR) {
        // TODO Cartridge RAM
        return 0;
    } else {
        address rom_addr = addr - CARTRIDGE_RAM_MAX_ADDR;

        Mapper *mapper = system_get_mapper();
        byte *location = mapper->mem_read(rom_addr);

        data1 = *location;
        data2 = *(location + 1);
    }

    return data1 + (data2 << 8);
}

void mem_set_byte(address addr, byte data) {
    assert(addr < MEM_ADDR_MAX);

    if (addr < RAM_MAX_ADDR) {
        address ram_addr = addr % RAM_SIZE;
        ram[ram_addr] = data;
    } else if (addr < PPU_MAX_ADDR) {
        address relative_addr = addr - RAM_MAX_ADDR;
        byte ppu_reg = relative_addr % 8;
        ppu_write_reg(ppu_reg, data);
    } else if (addr == PPU_REGISTER_OAM_DMA_ADDR) {
        ppu_write_oamaddr(data);

        // Writing to this address triggers an upload to the PPU memory
        cpu_trigger_oam_dma();
    } else if (addr < APU_MAX_ADDR) {
        // TODO NES API and I/O registers
    } else if (addr < UNMAPPED_MAX_ADDR) {
        // Unmapped
        assert(false);
    } else if (addr < CARTRIDGE_RAM_MAX_ADDR) {
        // TODO Cartridge RAM
    } else {
        // ROM is read-only
        assert(false);
    }
}
Cpu opcodes implementation 2023-11-26 12:11:49 -05:00			`//`
			`// Created by william on 10/15/23.`
			`//`

Things 2024-01-06 14:27:09 -05:00			`#include <assert.h>`
Fix build system 2024-04-30 12:28:43 -04:00			`#include "log.h"`
Cpu opcodes implementation 2023-11-26 12:11:49 -05:00			`#include "memory.h"`
Load and execute first instruction 2023-12-23 16:35:23 -05:00			`#include "../include/rom.h"`
Move states to global variables 2024-05-06 20:23:44 -04:00			`#include "cpu.h"`
Cpu opcodes implementation 2023-11-26 12:11:49 -05:00
Fix memory mapping 2024-05-23 23:52:04 -04:00
			`#define RAM_SIZE 0x0800`
Things 2024-01-06 14:27:09 -05:00			`#define RAM_MAX_ADDR 0x2000`
			`#define PPU_MAX_ADDR 0x4000`
			`#define APU_MAX_ADDR 0x4020`
Fix memory mapping 2024-05-23 23:52:04 -04:00			`#define UNMAPPED_MAX_ADDR 0x6000`
			`#define CARTRIDGE_RAM_MAX_ADDR 0x8000`
			`#define MEM_ADDR_MAX 0xffff`
Load and execute first instruction 2023-12-23 16:35:23 -05:00
Move states to global variables 2024-05-06 20:23:44 -04:00			`byte ram[RAM_SIZE];`

Fix memory mapping 2024-05-23 23:52:04 -04:00			`byte *mem_get_ptr(address addr) {`
			`assert(addr <= RAM_MAX_ADDR);`
Things 2024-01-06 14:27:09 -05:00
Fix memory mapping 2024-05-23 23:52:04 -04:00			`if (addr < RAM_MAX_ADDR) {`
			`address ram_addr = addr % RAM_SIZE; // There is four mirror of RAM`
			`return &ram[ram_addr];`
Things 2024-01-06 14:27:09 -05:00			`}`

Fix memory mapping 2024-05-23 23:52:04 -04:00			`// Only supported for RAM`
			`assert(false);`
Move states to global variables 2024-05-06 20:23:44 -04:00			`}`
Load and execute first instruction 2023-12-23 16:35:23 -05:00
Fix memory mapping 2024-05-23 23:52:04 -04:00			`byte mem_get_byte(address addr) {`
			`assert(addr <= MEM_ADDR_MAX);`

			`if (addr < RAM_MAX_ADDR) {`
			`address ram_addr = addr % RAM_SIZE;`
			`return ram[ram_addr];`
			`} else if (addr < PPU_MAX_ADDR) {`
			`address relative_addr = addr - RAM_MAX_ADDR;`
			`byte ppu_reg = relative_addr % 8;`
			`return ppu_read_reg(ppu_reg);`
			`} else if (addr < APU_MAX_ADDR) {`
			`// TODO NES API and I/O registers`
			`return 0;`
			`} else if (addr < UNMAPPED_MAX_ADDR) {`
			`// Unmapped`
			`assert(false);`
			`} else if (addr < CARTRIDGE_RAM_MAX_ADDR) {`
			`// TODO Cartridge RAM`
			`return 0;`
			`} else {`
			`address rom_addr = addr - CARTRIDGE_RAM_MAX_ADDR;`
Move states to global variables 2024-05-06 20:23:44 -04:00
Fix memory mapping 2024-05-23 23:52:04 -04:00			`Mapper *mapper = system_get_mapper();`
			`return *(mapper->mem_read(rom_addr));`
			`}`
Cpu opcodes implementation 2023-11-26 12:11:49 -05:00			`}`

Move states to global variables 2024-05-06 20:23:44 -04:00			`word mem_get_word(address addr) {`
Fix memory mapping 2024-05-23 23:52:04 -04:00			`assert(addr <= MEM_ADDR_MAX - 1);`
Load and execute first instruction 2023-12-23 16:35:23 -05:00
Fix memory mapping 2024-05-23 23:52:04 -04:00			`byte data1;`
			`byte data2;`
Cpu opcodes implementation 2023-11-26 12:11:49 -05:00
Fix memory mapping 2024-05-23 23:52:04 -04:00			`if (addr < RAM_MAX_ADDR - 1) {`
			`address ram_addr = addr % RAM_SIZE;`
			`data1 = ram[ram_addr];`
			`data2 = ram[ram_addr + 1];`
			`} else if (addr < UNMAPPED_MAX_ADDR) {`
			`// Unsupported`
			`assert(false);`
			`} else if (addr < CARTRIDGE_RAM_MAX_ADDR) {`
			`// TODO Cartridge RAM`
			`return 0;`
			`} else {`
			`address rom_addr = addr - CARTRIDGE_RAM_MAX_ADDR;`
Things 2024-01-06 14:27:09 -05:00
Fix memory mapping 2024-05-23 23:52:04 -04:00			`Mapper *mapper = system_get_mapper();`
			`byte *location = mapper->mem_read(rom_addr);`
Things 2024-01-06 14:27:09 -05:00
Fix memory mapping 2024-05-23 23:52:04 -04:00			`data1 = *location;`
			`data2 = *(location + 1);`
			`}`
Things 2024-01-06 14:27:09 -05:00
Fix memory mapping 2024-05-23 23:52:04 -04:00			`return data1 + (data2 << 8);`
			`}`

			`void mem_set_byte(address addr, byte data) {`
			`assert(addr < MEM_ADDR_MAX);`

			`if (addr < RAM_MAX_ADDR) {`
			`address ram_addr = addr % RAM_SIZE;`
			`ram[ram_addr] = data;`
Things 2024-01-06 14:27:09 -05:00			`} else if (addr < PPU_MAX_ADDR) {`
Fix memory mapping 2024-05-23 23:52:04 -04:00			`address relative_addr = addr - RAM_MAX_ADDR;`
			`byte ppu_reg = relative_addr % 8;`
			`ppu_write_reg(ppu_reg, data);`
			`} else if (addr == PPU_REGISTER_OAM_DMA_ADDR) {`
PPU rewrite 2024-06-21 13:47:28 -04:00			`ppu_write_oamaddr(data);`
PPU debugging 2024-05-29 21:38:52 -04:00
Fix memory mapping 2024-05-23 23:52:04 -04:00			`// Writing to this address triggers an upload to the PPU memory`
			`cpu_trigger_oam_dma();`
			`} else if (addr < APU_MAX_ADDR) {`
			`// TODO NES API and I/O registers`
			`} else if (addr < UNMAPPED_MAX_ADDR) {`
			`// Unmapped`
			`assert(false);`
			`} else if (addr < CARTRIDGE_RAM_MAX_ADDR) {`
			`// TODO Cartridge RAM`
Things 2024-01-06 14:27:09 -05:00			`} else {`
Fix memory mapping 2024-05-23 23:52:04 -04:00			`// ROM is read-only`
			`assert(false);`
Things 2024-01-06 14:27:09 -05:00			`}`
Cpu opcodes implementation 2023-11-26 12:11:49 -05:00			`}`