// **************************************************************************** // * This file is part of the xBRZ project. It is distributed under * // * GNU General Public License: https://www.gnu.org/licenses/gpl-3.0 * // * Copyright (C) Zenju (zenju AT gmx DOT de) - All Rights Reserved * // * * // * Additionally and as a special exception, the author gives permission * // * to link the code of this program with the following libraries * // * (or with modified versions that use the same licenses), and distribute * // * linked combinations including the two: MAME, FreeFileSync, Snes9x, ePSXe * // * * // * You must obey the GNU General Public License in all respects for all of * // * the code used other than MAME, FreeFileSync, Snes9x, ePSXe. * // * If you modify this file, you may extend this exception to your version * // * of the file, but you are not obligated to do so. If you do not wish to * // * do so, delete this exception statement from your version. * // **************************************************************************** #ifndef XBRZ_TOOLS_H_825480175091875 #define XBRZ_TOOLS_H_825480175091875 #include #include #include #include namespace xbrz { template inline unsigned char getByte(uint32_t val) { return static_cast((val >> (8 * N)) & 0xff); } inline unsigned char getAlpha(uint32_t pix) { return getByte<3>(pix); } inline unsigned char getRed (uint32_t pix) { return getByte<2>(pix); } inline unsigned char getGreen(uint32_t pix) { return getByte<1>(pix); } inline unsigned char getBlue (uint32_t pix) { return getByte<0>(pix); } inline uint32_t makePixel(uint32_t a, uint32_t r, uint32_t g, uint32_t b) { return (a << 24) | (r << 16) | (g << 8) | b; } inline uint32_t makePixel( uint32_t r, uint32_t g, uint32_t b) { return (r << 16) | (g << 8) | b; } inline uint32_t rgb555to888(uint16_t pix) { return ((pix & 0x7C00) << 9) | ((pix & 0x03E0) << 6) | ((pix & 0x001F) << 3); } inline uint32_t rgb565to888(uint16_t pix) { return ((pix & 0xF800) << 8) | ((pix & 0x07E0) << 5) | ((pix & 0x001F) << 3); } inline uint16_t rgb888to555(uint32_t pix) { return static_cast(((pix & 0xF80000) >> 9) | ((pix & 0x00F800) >> 6) | ((pix & 0x0000F8) >> 3)); } inline uint16_t rgb888to565(uint32_t pix) { return static_cast(((pix & 0xF80000) >> 8) | ((pix & 0x00FC00) >> 5) | ((pix & 0x0000F8) >> 3)); } using BytePixel = unsigned char[4]; //unspecified byte order static_assert(std::alignment_of_v == 1); // :) template inline void unscaledCopy(PixReader srcReader /* (int x, int y, BytePixel& pix) */, PixWriter trgWriter /* (const BytePixel& pix) */, int width, int height) { for (int y = 0; y < height; ++y) for (int x = 0; x < width; ++x) { BytePixel pix; //uninitialized srcReader(x, y, pix); trgWriter(pix); } } //nearest-neighbor (going over target image - slow for upscaling, since source is read multiple times missing out on cache! Fast for similar image sizes!) template void nearestNeighborScale(PixReader srcReader /* (int x, int y, BytePixel& pix) */, int srcWidth, int srcHeight, PixWriter trgWriter /* (const BytePixel& pix) */, int trgWidth, int trgHeight, int yFirst, int yLast) { yFirst = std::max(yFirst, 0); yLast = std::min(yLast, trgHeight); if (yFirst >= yLast || srcHeight <= 0 || srcWidth <= 0) return; for (int y = yFirst; y < yLast; ++y) { const int ySrc = srcHeight * y / trgHeight; for (int x = 0; x < trgWidth; ++x) { const int xSrc = srcWidth * x / trgWidth; BytePixel pix; //uninitialized srcReader(xSrc, ySrc, pix); trgWriter(pix); } } } inline unsigned int uintDivRound(unsigned int num, unsigned int den) { assert(den != 0); return (num + den / 2) / den; } inline unsigned char premultiply(unsigned char c, unsigned char alpha) { return static_cast(uintDivRound(static_cast(c) * alpha, 255)); //premultiply/demultiply using int div round is more accurate than int div floor/ceil pair } inline unsigned char demultiply(unsigned char c, unsigned char alpha) { return static_cast(alpha == 0 ? 0 : std::min(uintDivRound(static_cast(c) * 255, alpha), 255U)); } //caveat: treats alpha channel like regular color! => caller needs to pre/de-multiply alpha! template void bilinearScaleSimple(PixReader srcReader /* (int x, int y, BytePixel& pix) */, int srcWidth, int srcHeight, PixWriter trgWriter /* (const BytePixel& pix) */, int trgWidth, int trgHeight, int yFirst, int yLast) { yFirst = std::max(yFirst, 0); yLast = std::min(yLast, trgHeight); if (yFirst >= yLast || srcHeight <= 0 || srcWidth <= 0) return; const double scaleX = static_cast(trgWidth ) / srcWidth; const double scaleY = static_cast(trgHeight) / srcHeight; //perf notes: // -> double-based calculation is (slightly) faster than float // -> pre-calculation gives significant boost; std::vector<> memory allocation is negligible! struct CoeffsX { int x1 = 0; int x2 = 0; double xx1 = 0; double x2x = 0; }; std::vector buf(trgWidth); for (int x = 0; x < trgWidth; ++x) { const int x1 = srcWidth * x / trgWidth; int x2 = x1 + 1; if (x2 == srcWidth) --x2; const double xx1 = x / scaleX - x1; const double x2x = 1 - xx1; buf[x] = {x1, x2, xx1, x2x}; } for (int y = yFirst; y < yLast; ++y) { const int y1 = srcHeight * y / trgHeight; int y2 = y1 + 1; if (y2 == srcHeight) --y2; const double yy1 = y / scaleY - y1; const double y2y = 1 - yy1; for (int x = 0; x < trgWidth; ++x) { //perf: do NOT "simplify" the variable layout without measurement! const CoeffsX& bufX = buf[x]; const int x1 = bufX.x1; const int x2 = bufX.x2; const double xx1 = bufX.xx1; const double x2x = bufX.x2x; const double x2xy2y = x2x * y2y; const double xx1y2y = xx1 * y2y; const double x2xyy1 = x2x * yy1; const double xx1yy1 = xx1 * yy1; BytePixel pix11; // BytePixel pix21; //uninitialized BytePixel pix12; // BytePixel pix22; // srcReader(x1, y1, pix11); // srcReader(x2, y1, pix21); //perf: srcReader has to (re-)calculate row using y srcReader(x1, y2, pix12); // => ~7% additional runtime srcReader(x2, y2, pix22); // const auto interpolate = [&](int offset) { /* https://en.wikipedia.org/wiki/Bilinear_interpolation (c11(x2 - x) + c21(x - x1)) * (y2 - y ) + (c12(x2 - x) + c22(x - x1)) * (y - y1) */ return static_cast(pix11[offset] * x2xy2y + pix21[offset] * xx1y2y + pix12[offset] * x2xyy1 + pix22[offset] * xx1yy1 + 0.5); }; trgWriter(BytePixel{interpolate(0), interpolate(1), interpolate(2), interpolate(3)}); } } } #if 0 //nearest-neighbor (going over source image - fast for upscaling, since source is read only once template void nearestNeighborScaleOverSource(const PixSrc* src, int srcWidth, int srcHeight, int srcPitch /*[bytes]*/, /**/ PixTrg* trg, int trgWidth, int trgHeight, int trgPitch /*[bytes]*/, int yFirst, int yLast, PixConverter pixCvrt /*convert PixSrc to PixTrg*/) { static_assert(std::is_integral_v, "PixSrc* is expected to be cast-able to char*"); static_assert(std::is_integral_v, "PixTrg* is expected to be cast-able to char*"); static_assert(std::is_same_v, "PixConverter returning wrong pixel format"); if (srcPitch < srcWidth * static_cast(sizeof(PixSrc)) || trgPitch < trgWidth * static_cast(sizeof(PixTrg))) { assert(false); return; } yFirst = std::max(yFirst, 0); yLast = std::min(yLast, srcHeight); if (yFirst >= yLast || trgWidth <= 0 || trgHeight <= 0) return; for (int y = yFirst; y < yLast; ++y) { //mathematically: ySrc = floor(srcHeight * yTrg / trgHeight) // => search for integers in: [ySrc, ySrc + 1) * trgHeight / srcHeight //keep within for loop to support MT input slices! const int yTrgFirst = ( y * trgHeight + srcHeight - 1) / srcHeight; //=ceil(y * trgHeight / srcHeight) const int yTrgLast = ((y + 1) * trgHeight + srcHeight - 1) / srcHeight; //=ceil(((y + 1) * trgHeight) / srcHeight) const int blockHeight = yTrgLast - yTrgFirst; if (blockHeight > 0) { const PixSrc* srcLine = byteAdvance(src, y * srcPitch); /**/ PixTrg* trgLine = byteAdvance(trg, yTrgFirst * trgPitch); int xTrgFirst = 0; for (int x = 0; x < srcWidth; ++x) { const int xTrgLast = ((x + 1) * trgWidth + srcWidth - 1) / srcWidth; const int blockWidth = xTrgLast - xTrgFirst; if (blockWidth > 0) { xTrgFirst = xTrgLast; const auto trgPix = pixCvrt(srcLine[x]); fillBlock(trgLine, trgPitch, trgPix, blockWidth, blockHeight); trgLine += blockWidth; } } } } } #endif } #endif //XBRZ_TOOLS_H_825480175091875