// Copyright (c) the JPEG XL Project Authors. All rights reserved. // // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. #include "lib/jxl/enc_comparator.h" #include #include #include #include "lib/jxl/base/compiler_specific.h" #include "lib/jxl/base/profiler.h" #include "lib/jxl/color_management.h" #include "lib/jxl/enc_gamma_correct.h" #include "lib/jxl/enc_image_bundle.h" namespace jxl { namespace { // color is linear, but blending happens in gamma-compressed space using // (gamma-compressed) grayscale background color, alpha image represents // weights of the sRGB colors in the [0 .. (1 << bit_depth) - 1] interval, // output image is in linear space. void AlphaBlend(const Image3F& in, const size_t c, float background_linear, const ImageF& alpha, Image3F* out) { const float background = LinearToSrgb8Direct(background_linear); for (size_t y = 0; y < out->ysize(); ++y) { const float* JXL_RESTRICT row_a = alpha.ConstRow(y); const float* JXL_RESTRICT row_i = in.ConstPlaneRow(c, y); float* JXL_RESTRICT row_o = out->PlaneRow(c, y); for (size_t x = 0; x < out->xsize(); ++x) { const float a = row_a[x]; if (a <= 0.f) { row_o[x] = background_linear; } else if (a >= 1.f) { row_o[x] = row_i[x]; } else { const float w_fg = a; const float w_bg = 1.0f - w_fg; const float fg = w_fg * LinearToSrgb8Direct(row_i[x]); const float bg = w_bg * background; row_o[x] = Srgb8ToLinearDirect(fg + bg); } } } } const Image3F* AlphaBlend(const ImageBundle& ib, const Image3F& linear, float background_linear, Image3F* copy) { // No alpha => all opaque. if (!ib.HasAlpha()) return &linear; *copy = Image3F(linear.xsize(), linear.ysize()); for (size_t c = 0; c < 3; ++c) { AlphaBlend(linear, c, background_linear, ib.alpha(), copy); } return copy; } void AlphaBlend(float background_linear, ImageBundle* io_linear_srgb) { // No alpha => all opaque. if (!io_linear_srgb->HasAlpha()) return; for (size_t c = 0; c < 3; ++c) { AlphaBlend(*io_linear_srgb->color(), c, background_linear, *io_linear_srgb->alpha(), io_linear_srgb->color()); } } float ComputeScoreImpl(const ImageBundle& rgb0, const ImageBundle& rgb1, Comparator* comparator, ImageF* distmap) { JXL_CHECK(comparator->SetReferenceImage(rgb0)); float score; JXL_CHECK(comparator->CompareWith(rgb1, distmap, &score)); return score; } } // namespace float ComputeScore(const ImageBundle& rgb0, const ImageBundle& rgb1, Comparator* comparator, const JxlCmsInterface& cms, ImageF* diffmap, ThreadPool* pool) { PROFILER_FUNC; // Convert to linear sRGB (unless already in that space) ImageMetadata metadata0 = *rgb0.metadata(); ImageBundle store0(&metadata0); const ImageBundle* linear_srgb0; JXL_CHECK(TransformIfNeeded(rgb0, ColorEncoding::LinearSRGB(rgb0.IsGray()), cms, pool, &store0, &linear_srgb0)); ImageMetadata metadata1 = *rgb1.metadata(); ImageBundle store1(&metadata1); const ImageBundle* linear_srgb1; JXL_CHECK(TransformIfNeeded(rgb1, ColorEncoding::LinearSRGB(rgb1.IsGray()), cms, pool, &store1, &linear_srgb1)); // No alpha: skip blending, only need a single call to Butteraugli. if (!rgb0.HasAlpha() && !rgb1.HasAlpha()) { return ComputeScoreImpl(*linear_srgb0, *linear_srgb1, comparator, diffmap); } // Blend on black and white backgrounds const float black = 0.0f; ImageBundle blended_black0 = linear_srgb0->Copy(); ImageBundle blended_black1 = linear_srgb1->Copy(); AlphaBlend(black, &blended_black0); AlphaBlend(black, &blended_black1); const float white = 1.0f; ImageBundle blended_white0 = linear_srgb0->Copy(); ImageBundle blended_white1 = linear_srgb1->Copy(); AlphaBlend(white, &blended_white0); AlphaBlend(white, &blended_white1); ImageF diffmap_black, diffmap_white; const float dist_black = ComputeScoreImpl(blended_black0, blended_black1, comparator, &diffmap_black); const float dist_white = ComputeScoreImpl(blended_white0, blended_white1, comparator, &diffmap_white); // diffmap and return values are the max of diffmap_black/white. if (diffmap != nullptr) { const size_t xsize = rgb0.xsize(); const size_t ysize = rgb0.ysize(); *diffmap = ImageF(xsize, ysize); for (size_t y = 0; y < ysize; ++y) { const float* JXL_RESTRICT row_black = diffmap_black.ConstRow(y); const float* JXL_RESTRICT row_white = diffmap_white.ConstRow(y); float* JXL_RESTRICT row_out = diffmap->Row(y); for (size_t x = 0; x < xsize; ++x) { row_out[x] = std::max(row_black[x], row_white[x]); } } } return std::max(dist_black, dist_white); } } // namespace jxl