mirror of https://github.com/bsnes-emu/bsnes.git
225 lines
5.7 KiB
C++
225 lines
5.7 KiB
C++
//SUNSOFT-5B
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struct Sunsoft5B : Board {
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Sunsoft5B(Markup::Node& document) : Board(document) {
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}
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struct Pulse {
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auto clock() -> void {
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if(--counter == 0) {
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counter = frequency << 4;
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duty ^= 1;
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}
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output = duty ? volume : (uint4)0;
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if(disable) output = 0;
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}
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auto reset() -> void {
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disable = 1;
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frequency = 1;
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volume = 0;
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counter = 0;
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duty = 0;
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output = 0;
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}
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auto serialize(serializer& s) -> void {
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s.integer(disable);
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s.integer(frequency);
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s.integer(volume);
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s.integer(counter);
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s.integer(duty);
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s.integer(output);
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}
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bool disable;
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uint12 frequency;
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uint4 volume;
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uint16 counter; //12-bit countdown + 4-bit phase
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uint1 duty;
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uint4 output;
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} pulse[3];
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auto main() -> void {
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while(true) {
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if(scheduler.sync == Scheduler::SynchronizeMode::All) {
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scheduler.exit(Scheduler::ExitReason::SynchronizeEvent);
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}
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if(irq_counter_enable) {
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if(--irq_counter == 0xffff) {
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cpu.set_irq_line(irq_enable);
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}
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}
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pulse[0].clock();
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pulse[1].clock();
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pulse[2].clock();
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int16 output = dac[pulse[0].output] + dac[pulse[1].output] + dac[pulse[2].output];
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apu.set_sample(-output);
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tick();
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}
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}
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auto prg_read(uint addr) -> uint8 {
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if(addr < 0x6000) return cpu.mdr();
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uint8 bank = 0x3f; //((addr & 0xe000) == 0xe000
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if((addr & 0xe000) == 0x6000) bank = prg_bank[0];
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if((addr & 0xe000) == 0x8000) bank = prg_bank[1];
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if((addr & 0xe000) == 0xa000) bank = prg_bank[2];
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if((addr & 0xe000) == 0xc000) bank = prg_bank[3];
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bool ram_enable = bank & 0x80;
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bool ram_select = bank & 0x40;
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bank &= 0x3f;
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if(ram_select) {
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if(ram_enable == false) return cpu.mdr();
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return prgram.data[addr & 0x1fff];
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}
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addr = (bank << 13) | (addr & 0x1fff);
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return prgrom.read(addr);
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}
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auto prg_write(uint addr, uint8 data) -> void {
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if((addr & 0xe000) == 0x6000) {
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prgram.data[addr & 0x1fff] = data;
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}
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if(addr == 0x8000) {
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mmu_port = data & 0x0f;
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}
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if(addr == 0xa000) {
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switch(mmu_port) {
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case 0: chr_bank[0] = data; break;
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case 1: chr_bank[1] = data; break;
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case 2: chr_bank[2] = data; break;
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case 3: chr_bank[3] = data; break;
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case 4: chr_bank[4] = data; break;
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case 5: chr_bank[5] = data; break;
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case 6: chr_bank[6] = data; break;
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case 7: chr_bank[7] = data; break;
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case 8: prg_bank[0] = data; break;
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case 9: prg_bank[1] = data; break;
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case 10: prg_bank[2] = data; break;
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case 11: prg_bank[3] = data; break;
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case 12: mirror = data & 3; break;
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case 13:
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irq_enable = data & 0x80;
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irq_counter_enable = data & 0x01;
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if(irq_enable == 0) cpu.set_irq_line(0);
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break;
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case 14: irq_counter = (irq_counter & 0xff00) | (data << 0); break;
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case 15: irq_counter = (irq_counter & 0x00ff) | (data << 8); break;
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}
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}
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if(addr == 0xc000) {
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apu_port = data & 0x0f;
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}
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if(addr == 0xe000) {
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switch(apu_port) {
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case 0: pulse[0].frequency = (pulse[0].frequency & 0xff00) | (data << 0); break;
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case 1: pulse[0].frequency = (pulse[0].frequency & 0x00ff) | (data << 8); break;
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case 2: pulse[1].frequency = (pulse[1].frequency & 0xff00) | (data << 0); break;
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case 3: pulse[1].frequency = (pulse[1].frequency & 0x00ff) | (data << 8); break;
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case 4: pulse[2].frequency = (pulse[2].frequency & 0xff00) | (data << 0); break;
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case 5: pulse[2].frequency = (pulse[2].frequency & 0x00ff) | (data << 8); break;
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case 7:
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pulse[0].disable = data & 0x01;
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pulse[1].disable = data & 0x02;
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pulse[2].disable = data & 0x04;
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break;
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case 8: pulse[0].volume = data & 0x0f; break;
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case 9: pulse[1].volume = data & 0x0f; break;
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case 10: pulse[2].volume = data & 0x0f; break;
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}
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}
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}
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auto chr_addr(uint addr) -> uint {
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uint8 bank = (addr >> 10) & 7;
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return (chr_bank[bank] << 10) | (addr & 0x03ff);
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}
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auto ciram_addr(uint addr) -> uint {
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switch(mirror) {
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case 0: return ((addr & 0x0400) >> 0) | (addr & 0x03ff); //vertical
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case 1: return ((addr & 0x0800) >> 1) | (addr & 0x03ff); //horizontal
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case 2: return 0x0000 | (addr & 0x03ff); //first
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case 3: return 0x0400 | (addr & 0x03ff); //second
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}
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}
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auto chr_read(uint addr) -> uint8 {
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if(addr & 0x2000) return ppu.ciram_read(ciram_addr(addr));
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return Board::chr_read(chr_addr(addr));
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}
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auto chr_write(uint addr, uint8 data) -> void {
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if(addr & 0x2000) return ppu.ciram_write(ciram_addr(addr), data);
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return Board::chr_write(chr_addr(addr), data);
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}
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auto power() -> void {
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for(signed n : range(16)) {
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double volume = 1.0 / pow(2, 1.0 / 2 * (15 - n));
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dac[n] = volume * 8192.0;
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}
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}
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auto reset() -> void {
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mmu_port = 0;
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apu_port = 0;
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for(auto& n : prg_bank) n = 0;
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for(auto& n : chr_bank) n = 0;
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mirror = 0;
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irq_enable = 0;
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irq_counter_enable = 0;
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irq_counter = 0;
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pulse[0].reset();
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pulse[1].reset();
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pulse[2].reset();
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}
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auto serialize(serializer& s) -> void {
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Board::serialize(s);
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s.integer(mmu_port);
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s.integer(apu_port);
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s.array(prg_bank);
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s.array(chr_bank);
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s.integer(mirror);
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s.integer(irq_enable);
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s.integer(irq_counter_enable);
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s.integer(irq_counter);
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pulse[0].serialize(s);
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pulse[1].serialize(s);
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pulse[2].serialize(s);
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}
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uint4 mmu_port;
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uint4 apu_port;
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uint8 prg_bank[4];
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uint8 chr_bank[8];
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uint2 mirror;
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bool irq_enable;
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bool irq_counter_enable;
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uint16 irq_counter;
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int16 dac[16];
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};
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