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https://github.com/bsnes-emu/bsnes.git
synced 2025-02-23 22:52:34 +01:00
a512d14628
byuu says: This will easily be the biggest diff in the history of higan. And not in a good way. * target-higan and target-loki have been blown away completely * nall and ruby massively updated * phoenix replaced with hiro (pretty near a total rewrite) * target-higan restarted using hiro (just a window for now) * all emulation cores updated to compile again * installation changed to not require root privileges (installs locally) For the foreseeable future (maybe even permanently?), the new higan UI will only build under Linux/BSD with GTK+ 2.20+. Probably the most likely route for Windows/OS X will be to try and figure out how to build hiro/GTK on those platforms, as awful as that would be. The other alternative would be to produce new UIs for those platforms ... which would actually be a good opportunity to make something much more user friendly. Being that I just started on this a few hours ago, that means that for at least a few weeks, don't expect to be able to actually play any games. Right now, you can pretty much just compile the binary and that's it. It's quite possible that some nall changes didn't produce compilation errors, but will produce runtime errors. So until the UI can actually load games, we won't know if anything is broken. But we should mostly be okay. It was mostly just trim<1> -> trim changes, moving to Hash::SHA256 (much cleaner), and patching some reckless memory copy functions enough to compile. Progress isn't going to be like it was before: I'm now dividing my time much thinner between studying and other hobbies. My aim this time is not to produce a binary for everyone to play games on. Rather, it's to keep the emulator alive. I want to be able to apply critical patches again. And I would also like the base of the emulator to live on, for use in other emulator frontends that utilize higan.
335 lines
9.1 KiB
C++
335 lines
9.1 KiB
C++
#ifndef NALL_DECODE_PNG_HPP
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#define NALL_DECODE_PNG_HPP
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#include <nall/string.hpp>
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#include <nall/decode/inflate.hpp>
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namespace nall { namespace Decode {
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struct PNG {
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struct Info {
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unsigned width;
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unsigned height;
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unsigned bitDepth;
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//colorType:
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//0 = L (luma)
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//2 = R,G,B
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//3 = P (palette)
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//4 = L,A
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//6 = R,G,B,A
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unsigned colorType;
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unsigned compressionMethod;
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unsigned filterType;
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unsigned interlaceMethod;
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unsigned bytesPerPixel;
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unsigned pitch;
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uint8_t palette[256][3];
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} info;
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uint8_t* data = nullptr;
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unsigned size = 0;
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inline bool decode(const string& filename);
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inline bool decode(const uint8_t* sourceData, unsigned sourceSize);
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inline unsigned readbits(const uint8_t*& data);
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unsigned bitpos = 0;
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inline PNG();
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inline ~PNG();
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protected:
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enum class FourCC : unsigned {
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IHDR = 0x49484452,
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PLTE = 0x504c5445,
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IDAT = 0x49444154,
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IEND = 0x49454e44,
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};
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inline unsigned interlace(unsigned pass, unsigned index);
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inline unsigned inflateSize();
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inline bool deinterlace(const uint8_t*& inputData, unsigned pass);
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inline bool filter(uint8_t* outputData, const uint8_t* inputData, unsigned width, unsigned height);
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inline unsigned read(const uint8_t* data, unsigned length);
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};
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bool PNG::decode(const string& filename) {
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if(auto memory = file::read(filename)) {
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return decode(memory.data(), memory.size());
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}
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return false;
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}
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bool PNG::decode(const uint8_t* sourceData, unsigned sourceSize) {
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if(sourceSize < 8) return false;
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if(read(sourceData + 0, 4) != 0x89504e47) return false;
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if(read(sourceData + 4, 4) != 0x0d0a1a0a) return false;
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uint8_t* compressedData = nullptr;
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unsigned compressedSize = 0;
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unsigned offset = 8;
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while(offset < sourceSize) {
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unsigned length = read(sourceData + offset + 0, 4);
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unsigned fourCC = read(sourceData + offset + 4, 4);
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unsigned checksum = read(sourceData + offset + 8 + length, 4);
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if(fourCC == (unsigned)FourCC::IHDR) {
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info.width = read(sourceData + offset + 8, 4);
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info.height = read(sourceData + offset + 12, 4);
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info.bitDepth = read(sourceData + offset + 16, 1);
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info.colorType = read(sourceData + offset + 17, 1);
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info.compressionMethod = read(sourceData + offset + 18, 1);
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info.filterType = read(sourceData + offset + 19, 1);
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info.interlaceMethod = read(sourceData + offset + 20, 1);
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if(info.bitDepth == 0 || info.bitDepth > 16) return false;
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if(info.bitDepth & (info.bitDepth - 1)) return false; //not a power of two
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if(info.compressionMethod != 0) return false;
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if(info.filterType != 0) return false;
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if(info.interlaceMethod != 0 && info.interlaceMethod != 1) return false;
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switch(info.colorType) {
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case 0: info.bytesPerPixel = info.bitDepth * 1; break; //L
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case 2: info.bytesPerPixel = info.bitDepth * 3; break; //R,G,B
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case 3: info.bytesPerPixel = info.bitDepth * 1; break; //P
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case 4: info.bytesPerPixel = info.bitDepth * 2; break; //L,A
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case 6: info.bytesPerPixel = info.bitDepth * 4; break; //R,G,B,A
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default: return false;
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}
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if(info.colorType == 2 || info.colorType == 4 || info.colorType == 6) {
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if(info.bitDepth != 8 && info.bitDepth != 16) return false;
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}
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if(info.colorType == 3 && info.bitDepth == 16) return false;
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info.bytesPerPixel = (info.bytesPerPixel + 7) / 8;
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info.pitch = (int)info.width * info.bytesPerPixel;
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}
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if(fourCC == (unsigned)FourCC::PLTE) {
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if(length % 3) return false;
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for(unsigned n = 0, p = offset + 8; n < length / 3; n++) {
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info.palette[n][0] = sourceData[p++];
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info.palette[n][1] = sourceData[p++];
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info.palette[n][2] = sourceData[p++];
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}
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}
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if(fourCC == (unsigned)FourCC::IDAT) {
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compressedData = (uint8_t*)realloc(compressedData, compressedSize + length);
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memcpy(compressedData + compressedSize, sourceData + offset + 8, length);
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compressedSize += length;
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}
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if(fourCC == (unsigned)FourCC::IEND) {
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break;
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}
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offset += 4 + 4 + length + 4;
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}
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unsigned interlacedSize = inflateSize();
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uint8_t *interlacedData = new uint8_t[interlacedSize];
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bool result = inflate(interlacedData, interlacedSize, compressedData + 2, compressedSize - 6);
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free(compressedData);
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if(result == false) {
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delete[] interlacedData;
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return false;
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}
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size = info.width * info.height * info.bytesPerPixel;
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data = new uint8_t[size];
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if(info.interlaceMethod == 0) {
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if(filter(data, interlacedData, info.width, info.height) == false) {
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delete[] interlacedData;
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delete[] data;
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data = nullptr;
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return false;
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}
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} else {
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const uint8_t *passData = interlacedData;
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for(unsigned pass = 0; pass < 7; pass++) {
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if(deinterlace(passData, pass) == false) {
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delete[] interlacedData;
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delete[] data;
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data = nullptr;
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return false;
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}
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}
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}
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delete[] interlacedData;
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return true;
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}
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unsigned PNG::interlace(unsigned pass, unsigned index) {
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static const unsigned data[7][4] = {
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//x-distance, y-distance, x-origin, y-origin
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{8, 8, 0, 0},
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{8, 8, 4, 0},
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{4, 8, 0, 4},
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{4, 4, 2, 0},
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{2, 4, 0, 2},
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{2, 2, 1, 0},
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{1, 2, 0, 1},
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};
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return data[pass][index];
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}
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unsigned PNG::inflateSize() {
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if(info.interlaceMethod == 0) {
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return info.width * info.height * info.bytesPerPixel + info.height;
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}
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unsigned size = 0;
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for(unsigned pass = 0; pass < 7; pass++) {
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unsigned xd = interlace(pass, 0), yd = interlace(pass, 1);
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unsigned xo = interlace(pass, 2), yo = interlace(pass, 3);
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unsigned width = (info.width + (xd - xo - 1)) / xd;
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unsigned height = (info.height + (yd - yo - 1)) / yd;
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if(width == 0 || height == 0) continue;
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size += width * height * info.bytesPerPixel + height;
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}
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return size;
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}
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bool PNG::deinterlace(const uint8_t*& inputData, unsigned pass) {
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unsigned xd = interlace(pass, 0), yd = interlace(pass, 1);
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unsigned xo = interlace(pass, 2), yo = interlace(pass, 3);
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unsigned width = (info.width + (xd - xo - 1)) / xd;
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unsigned height = (info.height + (yd - yo - 1)) / yd;
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if(width == 0 || height == 0) return true;
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unsigned outputSize = width * height * info.bytesPerPixel;
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uint8_t* outputData = new uint8_t[outputSize];
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bool result = filter(outputData, inputData, width, height);
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const uint8_t* rd = outputData;
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for(unsigned y = yo; y < info.height; y += yd) {
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uint8_t* wr = data + y * info.pitch;
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for(unsigned x = xo; x < info.width; x += xd) {
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for(unsigned b = 0; b < info.bytesPerPixel; b++) {
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wr[x * info.bytesPerPixel + b] = *rd++;
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}
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}
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}
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inputData += outputSize + height;
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delete[] outputData;
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return result;
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}
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bool PNG::filter(uint8_t* outputData, const uint8_t* inputData, unsigned width, unsigned height) {
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uint8_t* wr = outputData;
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const uint8_t* rd = inputData;
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int bpp = info.bytesPerPixel, pitch = width * bpp;
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for(int y = 0; y < height; y++) {
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uint8_t filter = *rd++;
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switch(filter) {
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case 0x00: //None
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for(int x = 0; x < pitch; x++) {
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wr[x] = rd[x];
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}
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break;
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case 0x01: //Subtract
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for(int x = 0; x < pitch; x++) {
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wr[x] = rd[x] + (x - bpp < 0 ? 0 : wr[x - bpp]);
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}
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break;
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case 0x02: //Above
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for(int x = 0; x < pitch; x++) {
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wr[x] = rd[x] + (y - 1 < 0 ? 0 : wr[x - pitch]);
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}
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break;
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case 0x03: //Average
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for(int x = 0; x < pitch; x++) {
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short a = x - bpp < 0 ? 0 : wr[x - bpp];
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short b = y - 1 < 0 ? 0 : wr[x - pitch];
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wr[x] = rd[x] + (uint8_t)((a + b) / 2);
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}
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break;
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case 0x04: //Paeth
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for(int x = 0; x < pitch; x++) {
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short a = x - bpp < 0 ? 0 : wr[x - bpp];
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short b = y - 1 < 0 ? 0 : wr[x - pitch];
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short c = x - bpp < 0 || y - 1 < 0 ? 0 : wr[x - pitch - bpp];
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short p = a + b - c;
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short pa = p > a ? p - a : a - p;
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short pb = p > b ? p - b : b - p;
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short pc = p > c ? p - c : c - p;
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uint8_t paeth = (uint8_t)((pa <= pb && pa <= pc) ? a : (pb <= pc) ? b : c);
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wr[x] = rd[x] + paeth;
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}
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break;
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default: //Invalid
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return false;
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}
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rd += pitch;
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wr += pitch;
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}
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return true;
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}
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unsigned PNG::read(const uint8_t* data, unsigned length) {
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unsigned result = 0;
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while(length--) result = (result << 8) | (*data++);
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return result;
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}
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unsigned PNG::readbits(const uint8_t*& data) {
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unsigned result = 0;
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switch(info.bitDepth) {
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case 1:
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result = (*data >> bitpos) & 1;
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bitpos++;
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if(bitpos == 8) { data++; bitpos = 0; }
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break;
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case 2:
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result = (*data >> bitpos) & 3;
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bitpos += 2;
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if(bitpos == 8) { data++; bitpos = 0; }
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break;
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case 4:
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result = (*data >> bitpos) & 15;
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bitpos += 4;
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if(bitpos == 8) { data++; bitpos = 0; }
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break;
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case 8:
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result = *data++;
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break;
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case 16:
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result = (data[0] << 8) | (data[1] << 0);
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data += 2;
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break;
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}
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return result;
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}
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PNG::PNG() {
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}
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PNG::~PNG() {
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if(data) delete[] data;
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}
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}}
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#endif
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