bsnes/higan/sfc/ppu/screen/screen.cpp

181 lines
6.3 KiB
C++

auto PPU::Screen::scanline() -> void {
lineA = ppu.output + ppu.vcounter() * 1024;
lineB = lineA + (ppu.display.interlace ? 0 : 512);
if(ppu.display.interlace && ppu.field()) lineA += 512, lineB += 512;
//the first hires pixel of each scanline is transparent
//note: exact value initializations are not confirmed on hardware
math.above.color = paletteColor(0);
math.below.color = math.above.color;
math.above.colorEnable = !(ppu.window.io.col.aboveMask & 1);
math.below.colorEnable = !(ppu.window.io.col.belowMask & 1) && io.back.colorEnable;
math.transparent = true;
math.blendMode = false;
math.colorHalve = io.colorHalve && !io.blendMode && math.above.colorEnable;
}
auto PPU::Screen::run() -> void {
if(ppu.vcounter() == 0) return;
bool hires = ppu.io.pseudoHires || ppu.io.bgMode == 5 || ppu.io.bgMode == 6;
auto belowColor = below(hires);
auto aboveColor = above();
*lineA++ = *lineB++ = ppu.io.displayBrightness << 15 | (hires ? belowColor : aboveColor);
*lineA++ = *lineB++ = ppu.io.displayBrightness << 15 | (aboveColor);
}
auto PPU::Screen::below(bool hires) -> uint16 {
if(ppu.io.displayDisable || (!ppu.io.overscan && ppu.vcounter() >= 225)) return 0;
uint priority = 0;
if(ppu.bg1.output.below.priority) {
priority = ppu.bg1.output.below.priority;
if(io.directColor && (ppu.io.bgMode == 3 || ppu.io.bgMode == 4 || ppu.io.bgMode == 7)) {
math.below.color = directColor(ppu.bg1.output.below.palette, ppu.bg1.output.below.tile);
} else {
math.below.color = paletteColor(ppu.bg1.output.below.palette);
}
}
if(ppu.bg2.output.below.priority > priority) {
priority = ppu.bg2.output.below.priority;
math.below.color = paletteColor(ppu.bg2.output.below.palette);
}
if(ppu.bg3.output.below.priority > priority) {
priority = ppu.bg3.output.below.priority;
math.below.color = paletteColor(ppu.bg3.output.below.palette);
}
if(ppu.bg4.output.below.priority > priority) {
priority = ppu.bg4.output.below.priority;
math.below.color = paletteColor(ppu.bg4.output.below.palette);
}
if(ppu.obj.output.below.priority > priority) {
priority = ppu.obj.output.below.priority;
math.below.color = paletteColor(ppu.obj.output.below.palette);
}
if(math.transparent = (priority == 0)) math.below.color = paletteColor(0);
if(!hires) return 0;
if(!math.below.colorEnable) return math.above.colorEnable ? math.below.color : (uint15)0;
return blend(
math.above.colorEnable ? math.below.color : (uint15)0,
math.blendMode ? math.above.color : fixedColor()
);
}
auto PPU::Screen::above() -> uint16 {
if(ppu.io.displayDisable || (!ppu.io.overscan && ppu.vcounter() >= 225)) return 0;
uint priority = 0;
if(ppu.bg1.output.above.priority) {
priority = ppu.bg1.output.above.priority;
if(io.directColor && (ppu.io.bgMode == 3 || ppu.io.bgMode == 4 || ppu.io.bgMode == 7)) {
math.above.color = directColor(ppu.bg1.output.above.palette, ppu.bg1.output.above.tile);
} else {
math.above.color = paletteColor(ppu.bg1.output.above.palette);
}
math.below.colorEnable = io.bg1.colorEnable;
}
if(ppu.bg2.output.above.priority > priority) {
priority = ppu.bg2.output.above.priority;
math.above.color = paletteColor(ppu.bg2.output.above.palette);
math.below.colorEnable = io.bg2.colorEnable;
}
if(ppu.bg3.output.above.priority > priority) {
priority = ppu.bg3.output.above.priority;
math.above.color = paletteColor(ppu.bg3.output.above.palette);
math.below.colorEnable = io.bg3.colorEnable;
}
if(ppu.bg4.output.above.priority > priority) {
priority = ppu.bg4.output.above.priority;
math.above.color = paletteColor(ppu.bg4.output.above.palette);
math.below.colorEnable = io.bg4.colorEnable;
}
if(ppu.obj.output.above.priority > priority) {
priority = ppu.obj.output.above.priority;
math.above.color = paletteColor(ppu.obj.output.above.palette);
math.below.colorEnable = io.obj.colorEnable && ppu.obj.output.above.palette >= 192;
}
if(priority == 0) {
math.above.color = paletteColor(0);
math.below.colorEnable = io.back.colorEnable;
}
if(!ppu.window.output.below.colorEnable) math.below.colorEnable = false;
math.above.colorEnable = ppu.window.output.above.colorEnable;
if(!math.below.colorEnable) return math.above.colorEnable ? math.above.color : (uint15)0;
if(io.blendMode && math.transparent) {
math.blendMode = false;
math.colorHalve = false;
} else {
math.blendMode = io.blendMode;
math.colorHalve = io.colorHalve && math.above.colorEnable;
}
return blend(
math.above.colorEnable ? math.above.color : (uint15)0,
math.blendMode ? math.below.color : fixedColor()
);
}
auto PPU::Screen::blend(uint x, uint y) const -> uint15 {
if(!io.colorMode) {
if(!math.colorHalve) {
uint sum = x + y;
uint carry = (sum - ((x ^ y) & 0x0421)) & 0x8420;
return (sum - carry) | (carry - (carry >> 5));
} else {
return (x + y - ((x ^ y) & 0x0421)) >> 1;
}
} else {
uint diff = x - y + 0x8420;
uint borrow = (diff - ((x ^ y) & 0x8420)) & 0x8420;
if(!math.colorHalve) {
return (diff - borrow) & (borrow - (borrow >> 5));
} else {
return (((diff - borrow) & (borrow - (borrow >> 5))) & 0x7bde) >> 1;
}
}
}
auto PPU::Screen::paletteColor(uint8 palette) const -> uint15 {
ppu.latch.cgramAddress = palette;
return cgram[palette];
}
auto PPU::Screen::directColor(uint palette, uint tile) const -> uint15 {
//palette = -------- BBGGGRRR
//tile = ---bgr-- --------
//output = 0BBb00GG Gg0RRRr0
return ((palette << 7) & 0x6000) + ((tile >> 0) & 0x1000)
+ ((palette << 4) & 0x0380) + ((tile >> 5) & 0x0040)
+ ((palette << 2) & 0x001c) + ((tile >> 9) & 0x0002);
}
auto PPU::Screen::fixedColor() const -> uint15 {
return io.colorBlue << 10 | io.colorGreen << 5 | io.colorRed << 0;
}
auto PPU::Screen::power() -> void {
random.array((uint8*)cgram, sizeof(cgram));
for(auto& word : cgram) word &= 0x7fff;
io.blendMode = random();
io.directColor = random();
io.colorMode = random();
io.colorHalve = random();
io.bg1.colorEnable = random();
io.bg2.colorEnable = random();
io.bg3.colorEnable = random();
io.bg4.colorEnable = random();
io.obj.colorEnable = random();
io.back.colorEnable = random();
io.colorBlue = random();
io.colorGreen = random();
io.colorRed = random();
}