// 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_COLOR_ENCODING_INTERNAL_H_ #define LIB_JXL_COLOR_ENCODING_INTERNAL_H_ // Metadata for color space conversions. #include #include #include #include #include // std::abs #include #include #include #include "lib/jxl/base/compiler_specific.h" #include "lib/jxl/base/padded_bytes.h" #include "lib/jxl/base/status.h" #include "lib/jxl/field_encodings.h" namespace jxl { // (All CIE units are for the standard 1931 2 degree observer) // Color space the color pixel data is encoded in. The color pixel data is // 3-channel in all cases except in case of kGray, where it uses only 1 channel. // This also determines the amount of channels used in modular encoding. enum class ColorSpace : uint32_t { // Trichromatic color data. This also includes CMYK if a kBlack // ExtraChannelInfo is present. This implies, if there is an ICC profile, that // the ICC profile uses a 3-channel color space if no kBlack extra channel is // present, or uses color space 'CMYK' if a kBlack extra channel is present. kRGB, // Single-channel data. This implies, if there is an ICC profile, that the ICC // profile also represents single-channel data and has the appropriate color // space ('GRAY'). kGray, // Like kRGB, but implies fixed values for primaries etc. kXYB, // For non-RGB/gray data, e.g. from non-electro-optical sensors. Otherwise // the same conditions as kRGB apply. kUnknown }; static inline const char* EnumName(ColorSpace /*unused*/) { return "ColorSpace"; } static inline constexpr uint64_t EnumBits(ColorSpace /*unused*/) { using CS = ColorSpace; return MakeBit(CS::kRGB) | MakeBit(CS::kGray) | MakeBit(CS::kXYB) | MakeBit(CS::kUnknown); } // Values from CICP ColourPrimaries. enum class WhitePoint : uint32_t { kD65 = 1, // sRGB/BT.709/Display P3/BT.2020 kCustom = 2, // Actual values encoded in separate fields kE = 10, // XYZ kDCI = 11, // DCI-P3 }; static inline const char* EnumName(WhitePoint /*unused*/) { return "WhitePoint"; } static inline constexpr uint64_t EnumBits(WhitePoint /*unused*/) { return MakeBit(WhitePoint::kD65) | MakeBit(WhitePoint::kCustom) | MakeBit(WhitePoint::kE) | MakeBit(WhitePoint::kDCI); } // Values from CICP ColourPrimaries enum class Primaries : uint32_t { kSRGB = 1, // Same as BT.709 kCustom = 2, // Actual values encoded in separate fields k2100 = 9, // Same as BT.2020 kP3 = 11, }; static inline const char* EnumName(Primaries /*unused*/) { return "Primaries"; } static inline constexpr uint64_t EnumBits(Primaries /*unused*/) { using Pr = Primaries; return MakeBit(Pr::kSRGB) | MakeBit(Pr::kCustom) | MakeBit(Pr::k2100) | MakeBit(Pr::kP3); } // Values from CICP TransferCharacteristics enum class TransferFunction : uint32_t { k709 = 1, kUnknown = 2, kLinear = 8, kSRGB = 13, kPQ = 16, // from BT.2100 kDCI = 17, // from SMPTE RP 431-2 reference projector kHLG = 18, // from BT.2100 }; static inline const char* EnumName(TransferFunction /*unused*/) { return "TransferFunction"; } static inline constexpr uint64_t EnumBits(TransferFunction /*unused*/) { using TF = TransferFunction; return MakeBit(TF::k709) | MakeBit(TF::kLinear) | MakeBit(TF::kSRGB) | MakeBit(TF::kPQ) | MakeBit(TF::kDCI) | MakeBit(TF::kHLG) | MakeBit(TF::kUnknown); } enum class RenderingIntent : uint32_t { // Values match ICC sRGB encodings. kPerceptual = 0, // good for photos, requires a profile with LUT. kRelative, // good for logos. kSaturation, // perhaps useful for CG with fully saturated colors. kAbsolute, // leaves white point unchanged; good for proofing. }; static inline const char* EnumName(RenderingIntent /*unused*/) { return "RenderingIntent"; } static inline constexpr uint64_t EnumBits(RenderingIntent /*unused*/) { using RI = RenderingIntent; return MakeBit(RI::kPerceptual) | MakeBit(RI::kRelative) | MakeBit(RI::kSaturation) | MakeBit(RI::kAbsolute); } // Chromaticity (Y is omitted because it is 1 for primaries/white points) struct CIExy { double x = 0.0; double y = 0.0; }; struct PrimariesCIExy { CIExy r; CIExy g; CIExy b; }; // Serializable form of CIExy. struct Customxy : public Fields { Customxy(); JXL_FIELDS_NAME(Customxy) Status VisitFields(Visitor* JXL_RESTRICT visitor) override; CIExy Get() const; // Returns false if x or y do not fit in the encoding. Status Set(const CIExy& xy); int32_t x; int32_t y; }; struct CustomTransferFunction : public Fields { CustomTransferFunction(); JXL_FIELDS_NAME(CustomTransferFunction) // Sets fields and returns true if nonserialized_color_space has an implicit // transfer function, otherwise leaves fields unchanged and returns false. bool SetImplicit(); // Gamma: only used for PNG inputs bool IsGamma() const { return have_gamma_; } double GetGamma() const { JXL_ASSERT(IsGamma()); return gamma_ * 1E-7; // (0, 1) } Status SetGamma(double gamma); TransferFunction GetTransferFunction() const { JXL_ASSERT(!IsGamma()); return transfer_function_; } void SetTransferFunction(const TransferFunction tf) { have_gamma_ = false; transfer_function_ = tf; } bool IsUnknown() const { return !have_gamma_ && (transfer_function_ == TransferFunction::kUnknown); } bool IsSRGB() const { return !have_gamma_ && (transfer_function_ == TransferFunction::kSRGB); } bool IsLinear() const { return !have_gamma_ && (transfer_function_ == TransferFunction::kLinear); } bool IsPQ() const { return !have_gamma_ && (transfer_function_ == TransferFunction::kPQ); } bool IsHLG() const { return !have_gamma_ && (transfer_function_ == TransferFunction::kHLG); } bool Is709() const { return !have_gamma_ && (transfer_function_ == TransferFunction::k709); } bool IsDCI() const { return !have_gamma_ && (transfer_function_ == TransferFunction::kDCI); } bool IsSame(const CustomTransferFunction& other) const { if (have_gamma_ != other.have_gamma_) return false; if (have_gamma_) { if (gamma_ != other.gamma_) return false; } else { if (transfer_function_ != other.transfer_function_) return false; } return true; } Status VisitFields(Visitor* JXL_RESTRICT visitor) override; // Must be set before calling VisitFields! ColorSpace nonserialized_color_space = ColorSpace::kRGB; private: static constexpr uint32_t kGammaMul = 10000000; bool have_gamma_; // OETF exponent to go from linear to gamma-compressed. uint32_t gamma_; // Only used if have_gamma_. // Can be kUnknown. TransferFunction transfer_function_; // Only used if !have_gamma_. }; // Compact encoding of data required to interpret and translate pixels to a // known color space. Stored in Metadata. Thread-compatible. struct ColorEncoding : public Fields { ColorEncoding(); JXL_FIELDS_NAME(ColorEncoding) // Returns ready-to-use color encodings (initialized on-demand). static const ColorEncoding& SRGB(bool is_gray = false); static const ColorEncoding& LinearSRGB(bool is_gray = false); // Returns true if an ICC profile was successfully created from fields. // Must be called after modifying fields. Defined in color_management.cc. Status CreateICC(); // Returns non-empty and valid ICC profile, unless: // - between calling InternalRemoveICC() and CreateICC() in tests; // - WantICC() == true and SetICC() was not yet called; // - after a failed call to SetSRGB(), SetICC(), or CreateICC(). const PaddedBytes& ICC() const { return icc_; } // Internal only, do not call except from tests. void InternalRemoveICC() { icc_.clear(); } // Returns true if `icc` is assigned and decoded successfully. If so, // subsequent WantICC() will return true until DecideIfWantICC() changes it. // Returning false indicates data has been lost. Status SetICC(PaddedBytes&& icc) { if (icc.empty()) return false; icc_ = std::move(icc); if (!SetFieldsFromICC()) { InternalRemoveICC(); return false; } want_icc_ = true; return true; } // Sets the raw ICC profile bytes, without parsing the ICC, and without // updating the direct fields such as whitepoint, primaries and color // space. Functions to get and set fields, such as SetWhitePoint, cannot be // used anymore after this and functions such as IsSRGB return false no matter // what the contents of the icc profile. Status SetICCRaw(PaddedBytes&& icc) { if (icc.empty()) return false; icc_ = std::move(icc); want_icc_ = true; have_fields_ = false; return true; } // Returns whether to send the ICC profile in the codestream. bool WantICC() const { return want_icc_; } // Return whether the direct fields are set, if false but ICC is set, only // raw ICC bytes are known. bool HaveFields() const { return have_fields_; } // Causes WantICC() to return false if ICC() can be reconstructed from fields. // Defined in color_management.cc. void DecideIfWantICC(); bool IsGray() const { return color_space_ == ColorSpace::kGray; } bool IsCMYK() const { return cmyk_; } size_t Channels() const { return IsGray() ? 1 : 3; } // Returns false if the field is invalid and unusable. bool HasPrimaries() const { return !IsGray() && color_space_ != ColorSpace::kXYB; } // Returns true after setting the field to a value defined by color_space, // otherwise false and leaves the field unchanged. bool ImplicitWhitePoint() { if (color_space_ == ColorSpace::kXYB) { white_point = WhitePoint::kD65; return true; } return false; } // Returns whether the color space is known to be sRGB. If a raw unparsed ICC // profile is set without the fields being set, this returns false, even if // the content of the ICC profile would match sRGB. bool IsSRGB() const { if (!have_fields_) return false; if (!IsGray() && color_space_ != ColorSpace::kRGB) return false; if (white_point != WhitePoint::kD65) return false; if (primaries != Primaries::kSRGB) return false; if (!tf.IsSRGB()) return false; return true; } // Returns whether the color space is known to be linear sRGB. If a raw // unparsed ICC profile is set without the fields being set, this returns // false, even if the content of the ICC profile would match linear sRGB. bool IsLinearSRGB() const { if (!have_fields_) return false; if (!IsGray() && color_space_ != ColorSpace::kRGB) return false; if (white_point != WhitePoint::kD65) return false; if (primaries != Primaries::kSRGB) return false; if (!tf.IsLinear()) return false; return true; } Status SetSRGB(const ColorSpace cs, const RenderingIntent ri = RenderingIntent::kRelative) { InternalRemoveICC(); JXL_ASSERT(cs == ColorSpace::kGray || cs == ColorSpace::kRGB); color_space_ = cs; white_point = WhitePoint::kD65; primaries = Primaries::kSRGB; tf.SetTransferFunction(TransferFunction::kSRGB); rendering_intent = ri; return CreateICC(); } Status VisitFields(Visitor* JXL_RESTRICT visitor) override; // Accessors ensure tf.nonserialized_color_space is updated at the same time. ColorSpace GetColorSpace() const { return color_space_; } void SetColorSpace(const ColorSpace cs) { color_space_ = cs; tf.nonserialized_color_space = cs; } CIExy GetWhitePoint() const; Status SetWhitePoint(const CIExy& xy); PrimariesCIExy GetPrimaries() const; Status SetPrimaries(const PrimariesCIExy& xy); // Checks if the color spaces (including white point / primaries) are the // same, but ignores the transfer function, rendering intent and ICC bytes. bool SameColorSpace(const ColorEncoding& other) const { if (color_space_ != other.color_space_) return false; if (white_point != other.white_point) return false; if (white_point == WhitePoint::kCustom) { if (white_.x != other.white_.x || white_.y != other.white_.y) return false; } if (HasPrimaries() != other.HasPrimaries()) return false; if (HasPrimaries()) { if (primaries != other.primaries) return false; if (primaries == Primaries::kCustom) { if (red_.x != other.red_.x || red_.y != other.red_.y) return false; if (green_.x != other.green_.x || green_.y != other.green_.y) return false; if (blue_.x != other.blue_.x || blue_.y != other.blue_.y) return false; } } return true; } // Checks if the color space and transfer function are the same, ignoring // rendering intent and ICC bytes bool SameColorEncoding(const ColorEncoding& other) const { return SameColorSpace(other) && tf.IsSame(other.tf); } mutable bool all_default; // Only valid if HaveFields() WhitePoint white_point; Primaries primaries; // Only valid if HasPrimaries() CustomTransferFunction tf; RenderingIntent rendering_intent; private: // Returns true if all fields have been initialized (possibly to kUnknown). // Returns false if the ICC profile is invalid or decoding it fails. // Defined in enc_color_management.cc. Status SetFieldsFromICC(); // If true, the codestream contains an ICC profile and we do not serialize // fields. Otherwise, fields are serialized and we create an ICC profile. bool want_icc_; // When false, fields such as white_point and tf are invalid and must not be // used. This occurs after setting a raw bytes-only ICC profile, only the // ICC bytes may be used. The color_space_ field is still valid. bool have_fields_ = true; PaddedBytes icc_; // Valid ICC profile ColorSpace color_space_; // Can be kUnknown bool cmyk_ = false; // Only used if white_point == kCustom. Customxy white_; // Only used if primaries == kCustom. Customxy red_; Customxy green_; Customxy blue_; }; // Returns whether the two inputs are approximately equal. static inline bool ApproxEq(const double a, const double b, #if JPEGXL_ENABLE_SKCMS double max_l1 = 1E-3) { #else double max_l1 = 8E-5) { #endif // Threshold should be sufficient for ICC's 15-bit fixed-point numbers. // We have seen differences of 7.1E-5 with lcms2 and 1E-3 with skcms. return std::abs(a - b) <= max_l1; } // Returns a representation of the ColorEncoding fields (not icc). // Example description: "RGB_D65_SRG_Rel_Lin" std::string Description(const ColorEncoding& c); static inline std::ostream& operator<<(std::ostream& os, const ColorEncoding& c) { return os << Description(c); } void ConvertInternalToExternalColorEncoding(const jxl::ColorEncoding& internal, JxlColorEncoding* external); Status ConvertExternalToInternalColorEncoding(const JxlColorEncoding& external, jxl::ColorEncoding* internal); Status PrimariesToXYZ(float rx, float ry, float gx, float gy, float bx, float by, float wx, float wy, float matrix[9]); Status PrimariesToXYZD50(float rx, float ry, float gx, float gy, float bx, float by, float wx, float wy, float matrix[9]); Status AdaptToXYZD50(float wx, float wy, float matrix[9]); } // namespace jxl #endif // LIB_JXL_COLOR_ENCODING_INTERNAL_H_