// 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_DEC_XYB_H_ #define LIB_JXL_DEC_XYB_H_ // XYB -> linear sRGB. #include #include #include #include "lib/jxl/base/compiler_specific.h" #include "lib/jxl/base/data_parallel.h" #include "lib/jxl/base/matrix_ops.h" #include "lib/jxl/base/status.h" #include "lib/jxl/color_encoding_internal.h" #include "lib/jxl/image.h" #include "lib/jxl/image_metadata.h" namespace jxl { // Parameters for XYB->sRGB conversion. struct OpsinParams { float inverse_opsin_matrix[9 * 4]; float opsin_biases[4]; float opsin_biases_cbrt[4]; float quant_biases[4]; void Init(float intensity_target); }; struct OutputEncodingInfo { // // Fields depending only on image metadata // ColorEncoding orig_color_encoding; // Used for the HLG OOTF and PQ tone mapping. float orig_intensity_target; // Opsin inverse matrix taken from the metadata. Matrix3x3 orig_inverse_matrix; bool default_transform; bool xyb_encoded; // // Fields depending on output color encoding // // The requested color encoding. ColorEncoding color_encoding; // This is expected as the output of the conversion from XYB. // It is equal to `color_encoding`, but with a linear tone response curve. ColorEncoding linear_color_encoding; bool color_encoding_is_original; // Contains an opsin matrix that converts to the primaries of the output // encoding. OpsinParams opsin_params; bool all_default_opsin; // Used for Gamma and DCI transfer functions. float inverse_gamma; // Luminances of color_encoding's primaries, used for the HLG inverse OOTF and // for PQ tone mapping. // Default to sRGB's. Vector3 luminances; // Used for the HLG inverse OOTF and PQ tone mapping. float desired_intensity_target; bool cms_set = false; JxlCmsInterface color_management_system; Status SetFromMetadata(const CodecMetadata& metadata); Status MaybeSetColorEncoding(const ColorEncoding& c_desired); private: Status SetColorEncoding(const ColorEncoding& c_desired); }; // Converts `inout` (not padded) from opsin to linear sRGB in-place. Called from // per-pass postprocessing, hence parallelized. void OpsinToLinearInplace(Image3F* JXL_RESTRICT inout, ThreadPool* pool, const OpsinParams& opsin_params); // Converts `opsin:rect` (opsin may be padded, rect.x0 must be vector-aligned) // to linear sRGB. Called from whole-frame encoder, hence parallelized. void OpsinToLinear(const Image3F& opsin, const Rect& rect, ThreadPool* pool, Image3F* JXL_RESTRICT linear, const OpsinParams& opsin_params); // Bt.601 to match JPEG/JFIF. Inputs are _signed_ YCbCr values suitable for DCT, // see F.1.1.3 of T.81 (because our data type is float, there is no need to add // a bias to make the values unsigned). void YcbcrToRgb(const Image3F& ycbcr, Image3F* rgb, const Rect& rect); bool HasFastXYBTosRGB8(); void FastXYBTosRGB8(const float* input[4], uint8_t* output, bool is_rgba, size_t xsize); } // namespace jxl #endif // LIB_JXL_DEC_XYB_H_