// 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. #ifndef LIB_JXL_ALPHA_H_ #define LIB_JXL_ALPHA_H_ #include #include #include #include "lib/jxl/base/compiler_specific.h" namespace jxl { // A very small value to avoid divisions by zero when converting to // unpremultiplied alpha. Page 21 of the technical introduction to OpenEXR // (https://www.openexr.com/documentation/TechnicalIntroduction.pdf) recommends // "a power of two" that is "less than half of the smallest positive 16-bit // floating-point value". That smallest value happens to be the denormal number // 2^-24, so 2^-26 should be a good choice. static constexpr float kSmallAlpha = 1.f / (1u << 26u); struct AlphaBlendingInputLayer { const float* r; const float* g; const float* b; const float* a; }; struct AlphaBlendingOutput { float* r; float* g; float* b; float* a; }; // Note: The pointers in `out` are allowed to alias those in `bg` or `fg`. // No pointer shall be null. void PerformAlphaBlending(const AlphaBlendingInputLayer& bg, const AlphaBlendingInputLayer& fg, const AlphaBlendingOutput& out, size_t num_pixels, bool alpha_is_premultiplied, bool clamp); // Single plane alpha blending void PerformAlphaBlending(const float* bg, const float* bga, const float* fg, const float* fga, float* out, size_t num_pixels, bool alpha_is_premultiplied, bool clamp); void PerformAlphaWeightedAdd(const float* bg, const float* fg, const float* fga, float* out, size_t num_pixels, bool clamp); void PerformMulBlending(const float* bg, const float* fg, float* out, size_t num_pixels, bool clamp); void PremultiplyAlpha(float* JXL_RESTRICT r, float* JXL_RESTRICT g, float* JXL_RESTRICT b, const float* JXL_RESTRICT a, size_t num_pixels); void UnpremultiplyAlpha(float* JXL_RESTRICT r, float* JXL_RESTRICT g, float* JXL_RESTRICT b, const float* JXL_RESTRICT a, size_t num_pixels); } // namespace jxl #endif // LIB_JXL_ALPHA_H_