bsnes/higan/gb/cpu/mmio.cpp

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#ifdef CPU_CPP
unsigned CPU::wram_addr(uint16 addr) const {
addr &= 0x1fff;
if(addr < 0x1000) return addr;
auto bank = status.wram_bank + (status.wram_bank == 0);
return (bank * 0x1000) + (addr & 0x0fff);
}
void CPU::mmio_joyp_poll() {
unsigned button = 0, dpad = 0;
button |= interface->inputPoll(0, 0, (unsigned)Input::Start) << 3;
button |= interface->inputPoll(0, 0, (unsigned)Input::Select) << 2;
button |= interface->inputPoll(0, 0, (unsigned)Input::B) << 1;
button |= interface->inputPoll(0, 0, (unsigned)Input::A) << 0;
dpad |= interface->inputPoll(0, 0, (unsigned)Input::Down) << 3;
dpad |= interface->inputPoll(0, 0, (unsigned)Input::Up) << 2;
dpad |= interface->inputPoll(0, 0, (unsigned)Input::Left) << 1;
dpad |= interface->inputPoll(0, 0, (unsigned)Input::Right) << 0;
status.joyp = 0x0f;
if(status.p15 == 1 && status.p14 == 1) status.joyp -= status.mlt_req;
if(status.p15 == 0) status.joyp &= button ^ 0x0f;
if(status.p14 == 0) status.joyp &= dpad ^ 0x0f;
if(status.joyp != 0x0f) interrupt_raise(Interrupt::Joypad);
}
uint8 CPU::mmio_read(uint16 addr) {
if(addr >= 0xc000 && addr <= 0xfdff) return wram[wram_addr(addr)];
if(addr >= 0xff80 && addr <= 0xfffe) return hram[addr & 0x7f];
if(addr == 0xff00) { //JOYP
return (status.p15 << 5)
| (status.p14 << 4)
| (status.joyp << 0);
}
if(addr == 0xff01) { //SB
return 0xff;
}
if(addr == 0xff02) { //SC
return (status.serial_transfer << 7)
| (status.serial_clock << 0);
}
if(addr == 0xff04) { //DIV
return status.div;
}
if(addr == 0xff05) { //TIMA
return status.tima;
}
if(addr == 0xff06) { //TMA
return status.tma;
}
if(addr == 0xff07) { //TAC
return (status.timer_enable << 2)
| (status.timer_clock << 0);
}
if(addr == 0xff0f) { //IF
return (status.interrupt_request_joypad << 4)
| (status.interrupt_request_serial << 3)
| (status.interrupt_request_timer << 2)
| (status.interrupt_request_stat << 1)
| (status.interrupt_request_vblank << 0);
}
if(addr == 0xff4d) { //KEY1
return (status.speed_double << 7);
}
if(addr == 0xff55) { //HDMA5
return (status.dma_length / 16) - 1;
}
if(addr == 0xff56) { //RP
return 0x02;
}
if(addr == 0xff6c) { //???
return 0xfe | status.ff6c;
}
if(addr == 0xff70) { //SVBK
return status.wram_bank;
}
if(addr == 0xff72) { //???
return status.ff72;
}
if(addr == 0xff73) { //???
return status.ff73;
}
if(addr == 0xff74) { //???
return status.ff74;
}
if(addr == 0xff75) { //???
return 0x8f | status.ff75;
}
if(addr == 0xff76) { //???
return 0x00;
}
if(addr == 0xff77) { //???
return 0x00;
}
if(addr == 0xffff) { //IE
return (status.interrupt_enable_joypad << 4)
| (status.interrupt_enable_serial << 3)
| (status.interrupt_enable_timer << 2)
| (status.interrupt_enable_stat << 1)
| (status.interrupt_enable_vblank << 0);
}
return 0x00;
}
void CPU::mmio_write(uint16 addr, uint8 data) {
if(addr >= 0xc000 && addr <= 0xfdff) { wram[wram_addr(addr)] = data; return; }
if(addr >= 0xff80 && addr <= 0xfffe) { hram[addr & 0x7f] = data; return; }
if(addr == 0xff00) { //JOYP
status.p15 = data & 0x20;
status.p14 = data & 0x10;
interface->joypWrite(status.p15, status.p14);
mmio_joyp_poll();
return;
}
if(addr == 0xff01) { //SB
status.serial_data = data;
return;
}
if(addr == 0xff02) { //SC
status.serial_transfer = data & 0x80;
status.serial_clock = data & 0x01;
if(status.serial_transfer) status.serial_bits = 8;
return;
}
if(addr == 0xff04) { //DIV
status.div = 0;
return;
}
if(addr == 0xff05) { //TIMA
status.tima = data;
return;
}
if(addr == 0xff06) { //TMA
status.tma = data;
return;
}
if(addr == 0xff07) { //TAC
status.timer_enable = data & 0x04;
status.timer_clock = data & 0x03;
return;
}
if(addr == 0xff0f) { //IF
status.interrupt_request_joypad = data & 0x10;
status.interrupt_request_serial = data & 0x08;
status.interrupt_request_timer = data & 0x04;
status.interrupt_request_stat = data & 0x02;
status.interrupt_request_vblank = data & 0x01;
return;
}
if(addr == 0xff46) { //DMA
for(unsigned n = 0x00; n <= 0x9f; n++) {
bus.write(0xfe00 + n, bus.read((data << 8) + n));
add_clocks(4);
}
return;
}
if(addr == 0xff4d) { //KEY1
status.speed_switch = data & 0x01;
return;
}
if(addr == 0xff51) { //HDMA1
status.dma_source = (status.dma_source & 0x00ff) | (data << 8);
return;
}
if(addr == 0xff52) { //HDMA2
status.dma_source = (status.dma_source & 0xff00) | (data << 0);
return;
}
if(addr == 0xff53) { //HDMA3
status.dma_target = (status.dma_target & 0x00ff) | (data << 8);
return;
}
if(addr == 0xff54) { //HDMA4
status.dma_target = (status.dma_target & 0xff00) | (data << 0);
return;
}
if(addr == 0xff55) { //HDMA5
status.dma_mode = data & 0x80;
status.dma_length = ((data & 0x7f) + 1) * 16;
if(status.dma_mode == 0) do {
bus.write(status.dma_target++, bus.read(status.dma_source++));
add_clocks(4 << status.speed_double);
} while(--status.dma_length);
return;
}
if(addr == 0xff56) { //RP
return;
}
if(addr == 0xff6c) { //???
status.ff6c = data & 0x01;
return;
}
if(addr == 0xff72) { //???
status.ff72 = data;
return;
}
if(addr == 0xff73) { //???
status.ff73 = data;
return;
}
if(addr == 0xff74) { //???
status.ff74 = data;
return;
}
if(addr == 0xff75) { //???
status.ff75 = data & 0x70;
return;
}
if(addr == 0xff70) { //SVBK
status.wram_bank = data & 0x07;
return;
}
if(addr == 0xffff) { //IE
status.interrupt_enable_joypad = data & 0x10;
status.interrupt_enable_serial = data & 0x08;
status.interrupt_enable_timer = data & 0x04;
status.interrupt_enable_stat = data & 0x02;
status.interrupt_enable_vblank = data & 0x01;
return;
}
}
#endif