// // SPDX-License-Identifier: BSD-3-Clause // Copyright (c) Contributors to the OpenEXR Project. // #ifndef INCLUDED_IMF_CHANNEL_LIST_H #define INCLUDED_IMF_CHANNEL_LIST_H //----------------------------------------------------------------------------- // // class Channel // class ChannelList // //----------------------------------------------------------------------------- #include "ImfForward.h" #include "ImfName.h" #include "ImfPixelType.h" #include #include #include OPENEXR_IMF_INTERNAL_NAMESPACE_HEADER_ENTER struct IMF_EXPORT_TYPE Channel { //------------------------------ // Data type; see ImfPixelType.h //------------------------------ PixelType type; //-------------------------------------------- // Subsampling: pixel (x, y) is present in the // channel only if // // x % xSampling == 0 && y % ySampling == 0 // //-------------------------------------------- int xSampling; int ySampling; //-------------------------------------------------------------- // Hint to lossy compression methods that indicates whether // human perception of the quantity represented by this channel // is closer to linear or closer to logarithmic. Compression // methods may optimize image quality by adjusting pixel data // quantization according to this hint. // For example, perception of red, green, blue and luminance is // approximately logarithmic; the difference between 0.1 and 0.2 // is perceived to be roughly the same as the difference between // 1.0 and 2.0. Perception of chroma coordinates tends to be // closer to linear than logarithmic; the difference between 0.1 // and 0.2 is perceived to be roughly the same as the difference // between 1.0 and 1.1. //-------------------------------------------------------------- bool pLinear; //------------ // Constructor //------------ IMF_EXPORT Channel ( PixelType type = HALF, int xSampling = 1, int ySampling = 1, bool pLinear = false); //------------ // Operator == //------------ IMF_EXPORT bool operator== (const Channel& other) const; }; class IMF_EXPORT_TYPE ChannelList { public: //-------------- // Add a channel //-------------- IMF_EXPORT void insert (const char name[], const Channel& channel); IMF_EXPORT void insert (const std::string& name, const Channel& channel); //------------------------------------------------------------------ // Access to existing channels: // // [n] Returns a reference to the channel with name n. // If no channel with name n exists, an IEX_NAMESPACE::ArgExc // is thrown. // // findChannel(n) Returns a pointer to the channel with name n, // or 0 if no channel with name n exists. // //------------------------------------------------------------------ IMF_EXPORT Channel& operator[] (const char name[]); IMF_EXPORT const Channel& operator[] (const char name[]) const; IMF_EXPORT Channel& operator[] (const std::string& name); IMF_EXPORT const Channel& operator[] (const std::string& name) const; IMF_EXPORT Channel* findChannel (const char name[]); IMF_EXPORT const Channel* findChannel (const char name[]) const; IMF_EXPORT Channel* findChannel (const std::string& name); IMF_EXPORT const Channel* findChannel (const std::string& name) const; //------------------------------------------- // Iterator-style access to existing channels //------------------------------------------- typedef std::map ChannelMap; class Iterator; class ConstIterator; IMF_EXPORT Iterator begin (); IMF_EXPORT ConstIterator begin () const; IMF_EXPORT Iterator end (); IMF_EXPORT ConstIterator end () const; IMF_EXPORT Iterator find (const char name[]); IMF_EXPORT ConstIterator find (const char name[]) const; IMF_EXPORT Iterator find (const std::string& name); IMF_EXPORT ConstIterator find (const std::string& name) const; //----------------------------------------------------------------- // Support for image layers: // // In an image file with many channels it is sometimes useful to // group the channels into "layers", that is, into sets of channels // that logically belong together. Grouping channels into layers // is done using a naming convention: channel C in layer L is // called "L.C". // // For example, a computer graphic image may contain separate // R, G and B channels for light that originated at each of // several different virtual light sources. The channels in // this image might be called "light1.R", "light1.G", "light1.B", // "light2.R", "light2.G", "light2.B", etc. // // Note that this naming convention allows layers to be nested; // for example, "light1.specular.R" identifies the "R" channel // in the "specular" sub-layer of layer "light1". // // Channel names that don't contain a "." or that contain a // "." only at the beginning or at the end are not considered // to be part of any layer. // // layers(lns) sorts the channels in this ChannelList // into layers and stores the names of // all layers, sorted alphabetically, // into string set lns. // // channelsInLayer(ln,f,l) stores a pair of iterators in f and l // such that the loop // // for (ConstIterator i = f; i != l; ++i) // ... // // iterates over all channels in layer ln. // channelsInLayer (ln, l, p) calls // channelsWithPrefix (ln + ".", l, p). // //----------------------------------------------------------------- IMF_EXPORT void layers (std::set& layerNames) const; IMF_EXPORT void channelsInLayer ( const std::string& layerName, Iterator& first, Iterator& last); IMF_EXPORT void channelsInLayer ( const std::string& layerName, ConstIterator& first, ConstIterator& last) const; //------------------------------------------------------------------- // Find all channels whose name begins with a given prefix: // // channelsWithPrefix(p,f,l) stores a pair of iterators in f and l // such that the following loop iterates over all channels whose name // begins with string p: // // for (ConstIterator i = f; i != l; ++i) // ... // //------------------------------------------------------------------- IMF_EXPORT void channelsWithPrefix (const char prefix[], Iterator& first, Iterator& last); IMF_EXPORT void channelsWithPrefix ( const char prefix[], ConstIterator& first, ConstIterator& last) const; IMF_EXPORT void channelsWithPrefix ( const std::string& prefix, Iterator& first, Iterator& last); IMF_EXPORT void channelsWithPrefix ( const std::string& prefix, ConstIterator& first, ConstIterator& last) const; //------------ // Operator == //------------ IMF_EXPORT bool operator== (const ChannelList& other) const; private: ChannelMap _map; }; //---------- // Iterators //---------- class IMF_EXPORT_TYPE ChannelList::Iterator { public: IMF_EXPORT Iterator (); IMF_EXPORT Iterator (const ChannelList::ChannelMap::iterator& i); IMF_EXPORT Iterator& operator++ (); IMF_EXPORT Iterator operator++ (int); IMF_EXPORT const char* name () const; IMF_EXPORT Channel& channel () const; private: friend class ChannelList::ConstIterator; ChannelList::ChannelMap::iterator _i; }; class IMF_EXPORT_TYPE ChannelList::ConstIterator { public: IMF_EXPORT ConstIterator (); IMF_EXPORT ConstIterator (const ChannelList::ChannelMap::const_iterator& i); IMF_EXPORT ConstIterator (const ChannelList::Iterator& other); IMF_EXPORT ConstIterator& operator++ (); IMF_EXPORT ConstIterator operator++ (int); IMF_EXPORT const char* name () const; IMF_EXPORT const Channel& channel () const; private: friend bool operator== (const ConstIterator&, const ConstIterator&); friend bool operator!= (const ConstIterator&, const ConstIterator&); ChannelList::ChannelMap::const_iterator _i; }; //----------------- // Inline Functions //----------------- inline ChannelList::Iterator::Iterator () : _i () { // empty } inline ChannelList::Iterator::Iterator ( const ChannelList::ChannelMap::iterator& i) : _i (i) { // empty } inline ChannelList::Iterator& ChannelList::Iterator::operator++ () { ++_i; return *this; } inline ChannelList::Iterator ChannelList::Iterator::operator++ (int) { Iterator tmp = *this; ++_i; return tmp; } inline const char* ChannelList::Iterator::name () const { return *_i->first; } inline Channel& ChannelList::Iterator::channel () const { return _i->second; } inline ChannelList::ConstIterator::ConstIterator () : _i () { // empty } inline ChannelList::ConstIterator::ConstIterator ( const ChannelList::ChannelMap::const_iterator& i) : _i (i) { // empty } inline ChannelList::ConstIterator::ConstIterator ( const ChannelList::Iterator& other) : _i (other._i) { // empty } inline ChannelList::ConstIterator& ChannelList::ConstIterator::operator++ () { ++_i; return *this; } inline ChannelList::ConstIterator ChannelList::ConstIterator::operator++ (int) { ConstIterator tmp = *this; ++_i; return tmp; } inline const char* ChannelList::ConstIterator::name () const { return *_i->first; } inline const Channel& ChannelList::ConstIterator::channel () const { return _i->second; } inline bool operator== ( const ChannelList::ConstIterator& x, const ChannelList::ConstIterator& y) { return x._i == y._i; } inline bool operator!= ( const ChannelList::ConstIterator& x, const ChannelList::ConstIterator& y) { return !(x == y); } OPENEXR_IMF_INTERNAL_NAMESPACE_HEADER_EXIT #endif