/* See LICENSE file for copyright and license details. */ #include "common.h" #ifndef TEST #if defined(__GNUC__) && !defined(__clang__) # pragma GCC diagnostic ignored "-Wunsuffixed-float-constants" #endif void libglitter_per_channel_desaturate_double(double **rasters, size_t nrasters, size_t rowsize, size_t cellsize, size_t width, size_t height, const double *restrict saturations, const double *restrict primary_ys) { size_t y, x, ch, raster_y, raster_i; double intensity; rowsize *= cellsize; if (nrasters == 3) { double *raster1 = rasters[0], saturation1 = saturations[0]; double *raster2 = rasters[1], saturation2 = saturations[1]; double *raster3 = rasters[2], saturation3 = saturations[2]; double primary1_y = primary_ys ? primary_ys[0] : (double)0.212673370378408277403536885686; double primary2_y = primary_ys ? primary_ys[1] : (double)0.715151730491031756287156895269; double primary3_y = primary_ys ? primary_ys[2] : (double)0.072174899130559869164791564344; for (y = 0, raster_y = 0; y < height; y++, raster_y += rowsize) { for (x = 0, raster_i = raster_y; x < width; x++, raster_i += cellsize) { intensity = raster1[raster_i] * primary1_y; intensity += raster2[raster_i] * primary2_y; intensity += raster3[raster_i] * primary3_y; raster1[raster_i] = fma(raster1[raster_i] - intensity, saturation1, intensity); raster2[raster_i] = fma(raster2[raster_i] - intensity, saturation2, intensity); raster3[raster_i] = fma(raster3[raster_i] - intensity, saturation3, intensity); } } } else { for (y = 0, raster_y = 0; y < height; y++, raster_y += rowsize) { for (x = 0, raster_i = raster_y; x < width; x++, raster_i += cellsize) { intensity = 0; for (ch = 0; ch < nrasters; ch++) intensity += rasters[ch][raster_i] * primary_ys[ch]; for (ch = 0; ch < nrasters; ch++) rasters[ch][raster_i] = fma(rasters[ch][raster_i] - intensity, saturations[ch], intensity); } } } } #else int main(void) { return 0; /* TODO add test */ } #endif