mirror of https://github.com/bsnes-emu/bsnes.git
120 lines
4.5 KiB
C++
120 lines
4.5 KiB
C++
#pragma once
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namespace nall { namespace mosaic {
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struct parser {
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//export from bitstream to canvas
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auto load(bitstream& stream, uint64_t offset, context& ctx, uint width, uint height) -> void {
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canvas.allocate(width, height);
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canvas.fill(ctx.paddingColor);
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parse(1, stream, offset, ctx, width, height);
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}
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//import from canvas to bitstream
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auto save(bitstream& stream, uint64_t offset, context& ctx) -> bool {
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if(stream.readonly) return false;
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parse(0, stream, offset, ctx, canvas.width(), canvas.height());
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return true;
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}
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private:
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auto read(uint x, uint y) const -> uint32_t {
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uint addr = y * canvas.width() + x;
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if(addr >= canvas.width() * canvas.height()) return 0u;
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auto buffer = (uint32_t*)canvas.data();
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return buffer[addr];
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}
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auto write(uint x, uint y, uint32_t data) -> void {
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uint addr = y * canvas.width() + x;
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if(addr >= canvas.width() * canvas.height()) return;
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auto buffer = (uint32_t*)canvas.data();
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buffer[addr] = data;
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}
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auto parse(bool load, bitstream& stream, uint64_t offset, context& ctx, uint width, uint height) -> void {
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stream.endian = ctx.endian;
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uint canvasWidth = width / (ctx.mosaicWidth * ctx.tileWidth * ctx.blockWidth + ctx.paddingWidth);
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uint canvasHeight = height / (ctx.mosaicHeight * ctx.tileHeight * ctx.blockHeight + ctx.paddingHeight);
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uint bitsPerBlock = ctx.depth * ctx.blockWidth * ctx.blockHeight;
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uint objectOffset = 0;
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for(uint objectY = 0; objectY < canvasHeight; objectY++) {
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for(uint objectX = 0; objectX < canvasWidth; objectX++) {
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if(objectOffset >= ctx.count && ctx.count > 0) break;
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uint objectIX = objectX * ctx.objectWidth();
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uint objectIY = objectY * ctx.objectHeight();
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objectOffset++;
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uint mosaicOffset = 0;
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for(uint mosaicY = 0; mosaicY < ctx.mosaicHeight; mosaicY++) {
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for(uint mosaicX = 0; mosaicX < ctx.mosaicWidth; mosaicX++) {
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uint mosaicData = ctx.mosaic(mosaicOffset, mosaicOffset);
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uint mosaicIX = (mosaicData % ctx.mosaicWidth) * (ctx.tileWidth * ctx.blockWidth);
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uint mosaicIY = (mosaicData / ctx.mosaicWidth) * (ctx.tileHeight * ctx.blockHeight);
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mosaicOffset++;
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uint tileOffset = 0;
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for(uint tileY = 0; tileY < ctx.tileHeight; tileY++) {
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for(uint tileX = 0; tileX < ctx.tileWidth; tileX++) {
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uint tileData = ctx.tile(tileOffset, tileOffset);
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uint tileIX = (tileData % ctx.tileWidth) * ctx.blockWidth;
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uint tileIY = (tileData / ctx.tileWidth) * ctx.blockHeight;
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tileOffset++;
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uint blockOffset = 0;
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for(uint blockY = 0; blockY < ctx.blockHeight; blockY++) {
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for(uint blockX = 0; blockX < ctx.blockWidth; blockX++) {
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if(load) {
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uint palette = 0;
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for(uint n = 0; n < ctx.depth; n++) {
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uint index = blockOffset++;
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if(ctx.order == 1) index = (index % ctx.depth) * ctx.blockWidth * ctx.blockHeight + (index / ctx.depth);
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palette |= stream.read(offset + ctx.block(index, index)) << n;
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}
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write(
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objectIX + mosaicIX + tileIX + blockX,
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objectIY + mosaicIY + tileIY + blockY,
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ctx.palette(palette, palette)
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);
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} else /* save */ {
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uint32_t palette = read(
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objectIX + mosaicIX + tileIX + blockX,
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objectIY + mosaicIY + tileIY + blockY
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);
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for(uint n = 0; n < ctx.depth; n++) {
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uint index = blockOffset++;
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if(ctx.order == 1) index = (index % ctx.depth) * ctx.blockWidth * ctx.blockHeight + (index / ctx.depth);
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stream.write(offset + ctx.block(index, index), palette & 1);
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palette >>= 1;
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}
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}
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} //blockX
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} //blockY
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offset += ctx.blockStride;
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} //tileX
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offset += ctx.blockOffset;
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} //tileY
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offset += ctx.tileStride;
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} //mosaicX
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offset += ctx.tileOffset;
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} //mosaicY
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offset += ctx.mosaicStride;
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} //objectX
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offset += ctx.mosaicOffset;
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} //objectY
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}
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image canvas;
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};
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}}
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