#include "trop.h" // TnzCore includes #include "tpixelgr.h" #include "trandom.h" #include "tpixelutils.h" //****************************************************************** // Conversion functions //****************************************************************** static void do_convert(const TRaster64P &dst, const TRaster32P &src) { assert(dst->getSize() == src->getSize()); int lx = src->getLx(); for (int y = 0; y < src->getLy(); y++) { TPixel64 *outPix = dst->pixels(y); TPixel32 *inPix = src->pixels(y); TPixel32 *inEndPix = inPix + lx; for (; inPix < inEndPix; ++outPix, ++inPix) { outPix->r = ushortFromByte(inPix->r); outPix->g = ushortFromByte(inPix->g); outPix->b = ushortFromByte(inPix->b); outPix->m = ushortFromByte(inPix->m); } } } //----------------------------------------------------------------------------- static void do_convert(const TRasterGR8P &dst, const TRaster32P &src) { assert(dst->getSize() == src->getSize()); int lx = src->getLx(); for (int y = 0; y < src->getLy(); ++y) { TPixelGR8 *outPix = dst->pixels(y); TPixel32 *inPix = src->pixels(y), *inEndPix = inPix + lx; for (; inPix < inEndPix; ++outPix, ++inPix) *outPix = TPixelGR8::from(overPix(TPixel32::White, *inPix)); } } //----------------------------------------------------------------------------- static void do_convert(const TRasterGR16P &dst, const TRaster32P &src) { assert(dst->getSize() == src->getSize()); int lx = src->getLx(); for (int y = 0; y < src->getLy(); ++y) { TPixelGR16 *outPix = dst->pixels(y); TPixel32 *inPix = src->pixels(y), *inEndPix = inPix + lx; for (; inPix < inEndPix; ++outPix, ++inPix) outPix->value = 257 * (TPixelGR8::from(overPix(TPixel32::White, *inPix))).value; } } //----------------------------------------------------------------------------- static void do_convert(const TRasterGR16P &dst, const TRaster64P &src) { assert(dst->getSize() == src->getSize()); int lx = src->getLx(); for (int y = 0; y < src->getLy(); y++) { TPixelGR16 *outPix = dst->pixels(y); TPixel64 *inPix = src->pixels(y); TPixel64 *inEndPix = inPix + lx; while (inPix < inEndPix) { outPix->value = (inPix->r + 2 * inPix->g + inPix->b) >> 2; outPix++; inPix++; } } } //----------------------------------------------------------------------------- static void do_convert(const TRaster32P &dst, const TRasterGR8P &src) { assert(dst->getSize() == src->getSize()); int lx = src->getLx(); for (int y = 0; y < src->getLy(); y++) { TPixel32 *outPix = dst->pixels(y); TPixelGR8 *inPix = src->pixels(y); TPixelGR8 *inEndPix = inPix + lx; while (inPix < inEndPix) { outPix->r = inPix->value; outPix->g = inPix->value; outPix->b = inPix->value; outPix->m = 0xff; outPix++; inPix++; } } } //----------------------------------------------------------------------------- #define USHORT2BYTE_MAGICFAC (256U * 255U + 1U) inline UCHAR ditherUcharFromUshort(USHORT in, UINT rndNum) { return ((((in * USHORT2BYTE_MAGICFAC) - ((in * USHORT2BYTE_MAGICFAC) >> 24)) + rndNum) >> 24); } inline void ditherRgbmFromRgbm64(TPixel32 &out, const TPixel64 &in, TRandom &rnd) { UINT randomRound; randomRound = rnd.getUInt() & ((1U << 24) - 1); out.r = ditherUcharFromUshort(in.r, randomRound); out.g = ditherUcharFromUshort(in.g, randomRound); out.b = ditherUcharFromUshort(in.b, randomRound); out.m = ditherUcharFromUshort(in.m, randomRound); } //----------------------------------------------------------------------------- inline void ditherConvert(TRaster64P inRas, TRaster32P outRas) { int inWrap = inRas->getWrap(); int outWrap = outRas->getWrap(); TPixel64 *inPix = 0, *inRow = inRas->pixels(); TPixel32 *outPix, *outRow = outRas->pixels(); TPixel64 *endPix; int inLx = inRas->getLx(); TPixel64 *lastPix = inRow + inWrap * (inRas->getLy() - 1) + inLx; TRandom rnd(130266); while (inPix < lastPix) { inPix = inRow; outPix = outRow; endPix = inPix + inLx; while (inPix < endPix) { ditherRgbmFromRgbm64(*outPix, *inPix, rnd); inPix++; outPix++; } inRow += inWrap; outRow += outWrap; } } //****************************************************************** // Obsolete conversion functions //****************************************************************** static void do_convert(const TRasterCM32P &dst, const TRasterGR8P &src) { assert(dst->getSize() == src->getSize()); TPixelCM32 bg = TPixelCM32(0, 0, TPixelCM32::getMaxTone()); int lx = src->getLx(); for (int y = 0; y < src->getLy(); y++) { TPixelCM32 *outPix = dst->pixels(y); TPixelGR8 *inPix = src->pixels(y); TPixelGR8 *inEndPix = inPix + lx; while (inPix < inEndPix) { *outPix = (inPix->value == 255) ? bg : TPixelCM32(1, 0, inPix->value); outPix++; inPix++; } } } //----------------------------------------------------------------------------- static void do_convert(const TRasterCM32P &dst, const TRaster32P &src) { assert(dst->getSize() == src->getSize()); TPixelCM32 bg = TPixelCM32(0, 0, TPixelCM32::getMaxTone()); int lx = src->getLx(); bool isOverlay = false; for (int y = 0; y < src->getLy(); y++) // if it is an overlay, I use the // matte value for inks, otherwise I // use the brightness. { TPixel32 *inPix = src->pixels(y); TPixel32 *inEndPix = inPix + lx; while (inPix < inEndPix) { if (inPix->m != 255) { isOverlay = true; break; } inPix++; } if (isOverlay) break; } if (isOverlay) for (int y = 0; y < src->getLy(); y++) { TPixelCM32 *outPix = dst->pixels(y); TPixel32 *inPix = src->pixels(y); TPixel32 *inEndPix = inPix + lx; while (inPix < inEndPix) { *outPix = (inPix->m == 0) ? bg : TPixelCM32(1, 0, 255 - inPix->m); outPix++; inPix++; } } else for (int y = 0; y < src->getLy(); y++) { TPixelCM32 *outPix = dst->pixels(y); TPixel32 *inPix = src->pixels(y); TPixel32 *inEndPix = inPix + lx; while (inPix < inEndPix) { UCHAR val = TPixelGR8::from(*inPix).value; *outPix = (val == 255) ? bg : TPixelCM32(1, 0, val); outPix++; inPix++; } } } //----------------------------------------------------------------------------- static void do_convert(const TRasterYUV422P &dst, const TRaster32P &src) { assert(src->getLx() & 0); long y1, y2, u, v, u1, u2, v1, v2; TPixel32 *pix = (TPixel32 *)src->pixels(); TPixel32 *lastPix = &(src->pixels(src->getLy() - 1)[src->getLx() - 1]); UCHAR *out = dst->getRawData(); while (pix < lastPix) { /* first pixel gives Y and 0.5 of chroma */ y1 = 16829 * pix->r + 33039 * pix->g + 6416 * pix->b; u1 = -4831 * pix->r + -9488 * pix->g + 14319 * pix->b; v1 = 14322 * pix->r + -11992 * pix->g + -2330 * pix->b; /* second pixel gives Y and 0.5 of chroma */ ++pix; y2 = 16829 * pix->r + 33039 * pix->g + 6416 * pix->b; u2 = -4831 * pix->r + -9488 * pix->g + 14319 * pix->b; v2 = 14322 * pix->r + -11992 * pix->g + -2330 * pix->b; /* average the chroma */ u = u1 + u2; v = v1 + v2; /* round the chroma */ u1 = (u + 0x008000) >> 16; v1 = (v + 0x008000) >> 16; /* limit the chroma */ if (u1 < -112) u1 = -112; if (u1 > 111) u1 = 111; if (v1 < -112) v1 = -112; if (v1 > 111) v1 = 111; /* limit the lum */ if (y1 > 0x00dbffff) y1 = 0x00dbffff; if (y2 > 0x00dbffff) y2 = 0x00dbffff; /* save the results */ *out++ = (UCHAR)(u1 + 128); *out++ = (UCHAR)((y1 >> 16) + 16); *out++ = (UCHAR)(v1 + 128); *out++ = (UCHAR)((y2 >> 16) + 16); ++pix; } } //----------------------------------------------------------------------------- static void do_convert(const TRaster32P &dst, const TRasterYUV422P &src) { int long r, g, b, y1, y2, u, v; TPixel32 *buf = dst->pixels(); const UCHAR *in = src->getRawData(); const UCHAR *last = in + src->getRowSize() * src->getLy() - 1; while (in < last) { u = *in; u -= 128; in++; y1 = *in; y1 -= 16; in++; v = *in; v -= 128; in++; y2 = *in; y2 -= 16; in++; r = 76310 * y1 + 104635 * v; if (r > 0xFFFFFF) r = 0xFFFFFF; if (r <= 0xFFFF) r = 0; g = 76310 * y1 + -25690 * u + -53294 * v; if (g > 0xFFFFFF) g = 0xFFFFFF; if (g <= 0xFFFF) g = 0; b = 76310 * y1 + 132278 * u; if (b > 0xFFFFFF) b = 0xFFFFFF; if (b <= 0xFFFF) b = 0; buf->r = (UCHAR)(r >> 16); buf->g = (UCHAR)(g >> 16); buf->b = (UCHAR)(b >> 16); buf->m = (UCHAR)255; buf++; r = 76310 * y2 + 104635 * v; if (r > 0xFFFFFF) r = 0xFFFFFF; if (r <= 0xFFFF) r = 0; g = 76310 * y2 + -25690 * u + -53294 * v; if (g > 0xFFFFFF) g = 0xFFFFFF; if (g <= 0xFFFF) g = 0; b = 76310 * y2 + 132278 * u; if (b > 0xFFFFFF) b = 0xFFFFFF; if (b <= 0xFFFF) b = 0; buf->r = (UCHAR)(r >> 16); buf->g = (UCHAR)(g >> 16); buf->b = (UCHAR)(b >> 16); buf->m = (UCHAR)255; buf++; } } //****************************************************************** // Main conversion function //****************************************************************** void TRop::convert(TRasterP dst, const TRasterP &src) { if (dst->getSize() != src->getSize()) throw TRopException("convert: size mismatch"); TRaster32P dst32 = dst; TRasterGR8P dst8 = dst; TRasterGR16P dst16 = dst; TRaster64P dst64 = dst; TRasterCM32P dstCm = dst; TRaster32P src32 = src; TRasterGR8P src8 = src; TRaster64P src64 = src; TRasterYUV422P srcYUV = src; TRasterYUV422P dstYUV = dst; src->lock(); dst->lock(); if (dst64 && src32) do_convert(dst64, src32); else if (dst8 && src32) do_convert(dst8, src32); else if (dst16 && src32) do_convert(dst16, src32); else if (dst32 && src64) ditherConvert(src64, dst32); else if (dst16 && src64) do_convert(dst16, src64); else if (dst32 && src8) do_convert(dst32, src8); else if (dstYUV && src32) do_convert(dstYUV, src32); // Obsolete conversions else if (dst32 && srcYUV) do_convert(dst32, srcYUV); // else if (dstCm && src32) do_convert(dstCm, src32); // else if (dstCm && src8) do_convert(dstCm, src8); // else { dst->unlock(); src->unlock(); throw TRopException("unsupported pixel type"); } dst->unlock(); src->unlock(); }