bsnes/higan/sfc/ppu/ppu.cpp

232 lines
4.4 KiB
C++

#include <sfc/sfc.hpp>
namespace SuperFamicom {
PPU ppu;
#include "io.cpp"
#include "background/background.cpp"
#include "object/object.cpp"
#include "window/window.cpp"
#include "screen/screen.cpp"
#include "serialization.cpp"
PPU::PPU() :
bg1(Background::ID::BG1),
bg2(Background::ID::BG2),
bg3(Background::ID::BG3),
bg4(Background::ID::BG4) {
ppu1.version = 1; //allowed values: 1
ppu2.version = 3; //allowed values: 1, 2, 3
output = new uint32[512 * 512];
output += 16 * 512; //overscan offset
}
PPU::~PPU() {
output -= 16 * 512;
delete[] output;
}
auto PPU::step(uint clocks) -> void {
clocks >>= 1;
while(clocks--) {
tick(2);
Thread::step(2);
synchronize(cpu);
}
}
auto PPU::Enter() -> void {
while(true) scheduler.synchronize(), ppu.main();
}
auto PPU::main() -> void {
scanline();
step(28);
bg1.begin();
bg2.begin();
bg3.begin();
bg4.begin();
if(vcounter() <= 239) {
for(int pixel = -7; pixel <= 255; pixel++) {
bg1.run(1);
bg2.run(1);
bg3.run(1);
bg4.run(1);
step(2);
bg1.run(0);
bg2.run(0);
bg3.run(0);
bg4.run(0);
if(pixel >= 0) {
obj.run();
window.run();
screen.run();
}
step(2);
}
step(14);
obj.tilefetch();
} else {
step(1052 + 14 + 136);
}
step(lineclocks() - 28 - 1052 - 14 - 136);
}
auto PPU::load(Markup::Node node) -> bool {
ppu1.version = max(1, min(1, node["ppu1/version"].natural()));
ppu2.version = max(1, min(3, node["ppu2/version"].natural()));
ppu.vram.mask = node["ppu1/ram/size"].natural() - 1;
if(ppu.vram.mask != 0xffff) ppu.vram.mask = 0x7fff;
return true;
}
auto PPU::power() -> void {
create(Enter, system.colorburst() * 6.0);
PPUcounter::reset();
memory::fill(output, 512 * 480 * sizeof(uint32));
function<auto (uint24, uint8) -> uint8> reader{&PPU::readIO, this};
function<auto (uint24, uint8) -> void> writer{&PPU::writeIO, this};
bus.map(reader, writer, "00-3f,80-bf:2100-213f");
for(auto& n : vram.data) n = random(0x0000);
ppu1.mdr = random(0xff);
ppu2.mdr = random(0xff);
latch.vram = random(0x0000);
latch.oam = random(0x00);
latch.cgram = random(0x00);
latch.bgofs = random(0x00);
latch.mode7 = random(0x00);
latch.counters = false;
latch.hcounter = 0;
latch.vcounter = 0;
latch.oamAddress = 0x0000;
latch.cgramAddress = 0x00;
//$2100 INIDISP
io.displayDisable = true;
io.displayBrightness = 0;
//$2102 OAMADDL
//$2103 OAMADDH
io.oamBaseAddress = random(0x0000);
io.oamAddress = random(0x0000);
io.oamPriority = random(false);
//$2105 BGMODE
io.bgPriority = false;
io.bgMode = 0;
//$210d BG1HOFS
io.hoffsetMode7 = random(0x0000);
//$210e BG1VOFS
io.voffsetMode7 = random(0x0000);
//$2115 VMAIN
io.vramIncrementMode = random(1);
io.vramMapping = random(0);
io.vramIncrementSize = 1;
//$2116 VMADDL
//$2117 VMADDH
io.vramAddress = random(0x0000);
//$211a M7SEL
io.repeatMode7 = random(0);
io.vflipMode7 = random(false);
io.hflipMode7 = random(false);
//$211b M7A
io.m7a = random(0x0000);
//$211c M7B
io.m7b = random(0x0000);
//$211d M7C
io.m7c = random(0x0000);
//$211e M7D
io.m7d = random(0x0000);
//$211f M7X
io.m7x = random(0x0000);
//$2120 M7Y
io.m7y = random(0x0000);
//$2121 CGADD
io.cgramAddress = random(0x00);
io.cgramAddressLatch = random(0);
//$2133 SETINI
io.extbg = random(false);
io.pseudoHires = random(false);
io.overscan = false;
io.interlace = false;
//$213c OPHCT
io.hcounter = 0;
//$213d OPVCT
io.vcounter = 0;
bg1.power();
bg2.power();
bg3.power();
bg4.power();
obj.power();
window.power();
screen.power();
frame();
}
auto PPU::scanline() -> void {
if(vcounter() == 0) {
frame();
bg1.frame();
bg2.frame();
bg3.frame();
bg4.frame();
}
bg1.scanline();
bg2.scanline();
bg3.scanline();
bg4.scanline();
obj.scanline();
window.scanline();
screen.scanline();
if(vcounter() == 241) {
scheduler.exit(Scheduler::Event::Frame);
}
}
auto PPU::frame() -> void {
obj.frame();
display.interlace = io.interlace;
display.overscan = io.overscan;
}
auto PPU::refresh() -> void {
auto output = this->output;
if(!overscan()) output -= 14 * 512;
auto pitch = 512;
auto width = 512;
auto height = 480;
Emulator::video.refresh(output, pitch * sizeof(uint32), width, height);
}
}