// 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_IMAGE_BUNDLE_H_ #define LIB_JXL_IMAGE_BUNDLE_H_ // The main image or frame consists of a bundle of associated images. #include #include #include #include #include "lib/jxl/base/compiler_specific.h" #include "lib/jxl/base/data_parallel.h" #include "lib/jxl/base/status.h" #include "lib/jxl/color_encoding_internal.h" #include "lib/jxl/common.h" #include "lib/jxl/dec_bit_reader.h" #include "lib/jxl/dec_xyb.h" #include "lib/jxl/field_encodings.h" #include "lib/jxl/frame_header.h" #include "lib/jxl/headers.h" #include "lib/jxl/image.h" #include "lib/jxl/image_metadata.h" #include "lib/jxl/jpeg/jpeg_data.h" #include "lib/jxl/opsin_params.h" #include "lib/jxl/quantizer.h" namespace jxl { // A bundle of color/alpha/depth/plane images. class ImageBundle { public: // Uninitialized state for use as output parameter. ImageBundle() : metadata_(nullptr) {} // Caller is responsible for setting metadata before calling Set*. explicit ImageBundle(const ImageMetadata* metadata) : metadata_(metadata) {} // Move-only (allows storing in std::vector). ImageBundle(ImageBundle&&) = default; ImageBundle& operator=(ImageBundle&&) = default; ImageBundle Copy() const { ImageBundle copy(metadata_); copy.color_ = CopyImage(color_); copy.c_current_ = c_current_; copy.extra_channels_.reserve(extra_channels_.size()); for (const ImageF& plane : extra_channels_) { copy.extra_channels_.emplace_back(CopyImage(plane)); } copy.jpeg_data = jpeg_data ? make_unique(*jpeg_data) : nullptr; copy.color_transform = color_transform; copy.chroma_subsampling = chroma_subsampling; return copy; } // -- SIZE size_t xsize() const { if (IsJPEG()) return jpeg_data->width; if (color_.xsize() != 0) return color_.xsize(); return extra_channels_.empty() ? 0 : extra_channels_[0].xsize(); } size_t ysize() const { if (IsJPEG()) return jpeg_data->height; if (color_.ysize() != 0) return color_.ysize(); return extra_channels_.empty() ? 0 : extra_channels_[0].ysize(); } void ShrinkTo(size_t xsize, size_t ysize); // sizes taking orientation into account size_t oriented_xsize() const { if (static_cast(metadata_->GetOrientation()) > 4) { return ysize(); } else { return xsize(); } } size_t oriented_ysize() const { if (static_cast(metadata_->GetOrientation()) > 4) { return xsize(); } else { return ysize(); } } // -- COLOR // Whether color() is valid/usable. Returns true in most cases. Even images // with spot colors (one example of when !planes().empty()) typically have a // part that can be converted to RGB. bool HasColor() const { return color_.xsize() != 0; } // For resetting the size when switching from a reference to main frame. void RemoveColor() { color_ = Image3F(); } // Do not use if !HasColor(). const Image3F& color() const { // If this fails, Set* was not called - perhaps because decoding failed? JXL_DASSERT(HasColor()); return color_; } // Do not use if !HasColor(). Image3F* color() { JXL_DASSERT(HasColor()); return &color_; } // If c_current.IsGray(), all planes must be identical. NOTE: c_current is // independent of metadata()->color_encoding, which is the original, whereas // a decoder might return pixels in a different c_current. // This only sets the color channels, you must also make extra channels // match the amount that is in the metadata. void SetFromImage(Image3F&& color, const ColorEncoding& c_current); // -- COLOR ENCODING const ColorEncoding& c_current() const { return c_current_; } // Returns whether the color image has identical planes. Once established by // Set*, remains unchanged until a subsequent Set* or TransformTo. bool IsGray() const { return c_current_.IsGray(); } bool IsSRGB() const { return c_current_.IsSRGB(); } bool IsLinearSRGB() const { return c_current_.white_point == WhitePoint::kD65 && c_current_.primaries == Primaries::kSRGB && c_current_.tf.IsLinear(); } // Set the c_current profile without doing any transformation, e.g. if the // transformation was already applied. void OverrideProfile(const ColorEncoding& new_c_current) { c_current_ = new_c_current; } // TODO(lode): TransformTo and CopyTo are implemented in enc_image_bundle.cc, // move these functions out of this header file and class, to // enc_image_bundle.h. // Transforms color to c_desired and sets c_current to c_desired. Alpha and // metadata remains unchanged. Status TransformTo(const ColorEncoding& c_desired, const JxlCmsInterface& cms, ThreadPool* pool = nullptr); // Copies this:rect, converts to c_desired, and allocates+fills out. Status CopyTo(const Rect& rect, const ColorEncoding& c_desired, const JxlCmsInterface& cms, Image3F* out, ThreadPool* pool = nullptr) const; // Detect 'real' bit depth, which can be lower than nominal bit depth // (this is common in PNG), returns 'real' bit depth size_t DetectRealBitdepth() const; // -- ALPHA void SetAlpha(ImageF&& alpha); bool HasAlpha() const { return metadata_->Find(ExtraChannel::kAlpha) != nullptr; } bool AlphaIsPremultiplied() const { const ExtraChannelInfo* eci = metadata_->Find(ExtraChannel::kAlpha); return (eci == nullptr) ? false : eci->alpha_associated; } const ImageF& alpha() const; ImageF* alpha(); // -- EXTRA CHANNELS bool HasBlack() const { return metadata_->Find(ExtraChannel::kBlack) != nullptr; } const ImageF& black() const; // Extra channels of unknown interpretation (e.g. spot colors). void SetExtraChannels(std::vector&& extra_channels); void ClearExtraChannels() { extra_channels_.clear(); } bool HasExtraChannels() const { return !extra_channels_.empty(); } const std::vector& extra_channels() const { return extra_channels_; } std::vector& extra_channels() { return extra_channels_; } const ImageMetadata* metadata() const { return metadata_; } void VerifyMetadata() const; void SetDecodedBytes(size_t decoded_bytes) { decoded_bytes_ = decoded_bytes; } size_t decoded_bytes() const { return decoded_bytes_; } // -- JPEG transcoding: // Returns true if image does or will represent quantized DCT-8 coefficients, // stored in 8x8 pixel regions. bool IsJPEG() const { #if JPEGXL_ENABLE_TRANSCODE_JPEG return jpeg_data != nullptr; #else // JPEGXL_ENABLE_TRANSCODE_JPEG return false; #endif // JPEGXL_ENABLE_TRANSCODE_JPEG } std::unique_ptr jpeg_data; // these fields are used to signal the input JPEG color space // NOTE: JPEG doesn't actually provide a way to determine whether YCbCr was // applied or not. ColorTransform color_transform = ColorTransform::kNone; YCbCrChromaSubsampling chroma_subsampling; FrameOrigin origin{0, 0}; // Animation-related information, corresponding to the timecode and duration // fields of the jxl::AnimationFrame of the jxl::FrameHeader. // TODO(lode): ImageBundle is used here to carry the information from // jxl::FrameHeader, consider instead passing a jxl::FrameHeader directly to // EncodeFrame or having a field of that type here. uint32_t duration = 0; uint32_t timecode = 0; // TODO(lode): these fields do not match the JXL frame header, it should be // possible to specify up to 4 (3 if nonzero duration) slots to save this // frame as reference (see save_as_reference). bool use_for_next_frame = false; bool blend = false; BlendMode blendmode = BlendMode::kBlend; std::string name; private: // Called after any Set* to ensure their sizes are compatible. void VerifySizes() const; // Required for TransformTo so that an ImageBundle is self-sufficient. Always // points to the same thing, but cannot be const-pointer because that prevents // the compiler from generating a move ctor. const ImageMetadata* metadata_; // Initialized by Set*: Image3F color_; // If empty, planes_ is not; all planes equal if IsGray(). ColorEncoding c_current_; // of color_ // Initialized by SetPlanes; size = ImageMetadata.num_extra_channels std::vector extra_channels_; // How many bytes of the input were actually read. size_t decoded_bytes_ = 0; }; } // namespace jxl #endif // LIB_JXL_IMAGE_BUNDLE_H_