/////////////////////////////////////////////////////////////////////////// // // Copyright (c) 2014, Industrial Light & Magic, a division of Lucas // Digital Ltd. LLC // // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Industrial Light & Magic nor the names of // its contributors may be used to endorse or promote products derived // from this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // /////////////////////////////////////////////////////////////////////////// #ifndef INCLUDED_IMF_SAMPLE_COUNT_CHANNEL_H #define INCLUDED_IMF_SAMPLE_COUNT_CHANNEL_H //---------------------------------------------------------------------------- // // class SampleCountChannel // // For an explanation of images, levels and channels, // see the comments in header file Image.h. // //---------------------------------------------------------------------------- #include "ImfImageChannel.h" #include "ImfExport.h" OPENEXR_IMF_INTERNAL_NAMESPACE_HEADER_ENTER class DeepImageLevel; // // Sample count channel for a deep image level: // // Each deep image level has a number of samples channel. For each // pixel location (x,y) within the data window of the level, the sample // count channel stores a single integer, n(x,y). A deep channel, c, // in the level as the sample count channel stores n(x,y) samples at // location (x,y) if // // x % c.xSampling() == 0 and y % c.ySampling() == 0. // // The deep channel stores no samples at location (x,y) if // // x % c.xSampling() != 0 or y % c.ySampling() != 0, // class IMF_EXPORT SampleCountChannel : public ImageChannel { public: // // The OpenEXR pixel type of this channel (HALF, FLOAT or UINT). // virtual PixelType pixelType () const; // // Construct an OpenEXR frame buffer slice for this channel. // This function is needed reading an image from an OpenEXR // file and for saving an image in an OpenEXR file. // Slice slice () const; // // Access to the image level to which this channel belongs. // DeepImageLevel & deepLevel (); const DeepImageLevel & deepLevel () const; // // Access to n(x,y), without bounds checking. Accessing a location // outside the data window of the image level results in undefined // behavior. // const unsigned int & operator () (int x, int y) const; // // Access to n(x,y), with bounds checking. Accessing a location outside // the data window of the image level throws an Iex::ArgExc exception. // const unsigned int & at (int x, int y) const; // // Faster access to n(x,y) for all pixels in a single horizontal row of // the channel. Rows are numbered from 0 to pixelsPerColumn()-1, and // each row contains pixelsPerRow() values. // Access is not bounds checked; accessing out of bounds rows or pixels // results in undefined behavior. // const unsigned int * row (int r) const; // // Change the sample counts in one or more pixels: // // set(x,y,m) sets n(x,y) to m. // // set(r,m) sets n(x,y) for all pixels in row r according to the // values in array m. The array must contain pixelsPerRow() // entries, and the row number must be in the range from 0 // to pixelsPerColumn()-1. // // clear() sets n(x,y) to 0 for all pixels within the data window // of the level. // // If the sample count for a pixel is increased, then new samples are // appended at the end of the sample list of each deep channel. The // new samples are initialized to zero. If the sample count in a pixel // is decreased, then sample list of each deep channel is truncated by // discarding samples at the end of the list. // // Access is bounds-checked; attempting to set the number of samples of // a pixel outside the data window throws an Iex::ArgExc exception. // // Memory allocation for the sample lists is not particularly clever; // repeatedly increasing and decreasing the number of samples in the // pixels of a level is likely to result in serious memory fragmentation. // // Setting the number of samples for one or more pixels may cause the // program to run out of memory. If this happens, the image is resized // to zero by zero pixels and an exception is thrown. Note that the // resizing operation deletes this sample count channel and the image // level to which it belongs. // void set(int x, int y, unsigned int newNumSamples); void set(int r, unsigned int newNumSamples[]); void clear(); // // OpenEXR file reading support / make sample counts editable: // // beginEdit() frees all memory that has been allocated for samples // in the deep channels, and returns a pointer to an // array of pixelsPerRow() by pixelsPerColumn() sample // counts in row-major order. // // After beginEdit() returns, application code is // free to change the values in the sample count array. // In particular, the application can fill the array by // reading the sample counts from an OpenEXR file. // // However, since memory for the samples in the deep // channels has been freed, attempting to access any // sample in a deep channel results in undefined // behavior, most likely a program crash. // // endEdit() allocates new memory for all samples in the deep // channels of the layer, according to the current // sample counts, and sets the samples to zero. // // Application code must take make sure that each call to beginEdit() // is followed by a corresponding endEdit() call, even if an // exception occurs while the sample counts are acessed. In order to // do that, application code may want to create a temporary Edit // object instead of calling beginEdit() and endEdit() directly. // // Setting the number of samples for all pixels in the image may // cause the program to run out of memory. If this happens, the image // is resized to zero by zero pixels and an exception is thrown. // Note that the resizing operation deletes this sample count channel // and the image level to which it belongs. // unsigned int * beginEdit(); void endEdit(); class Edit { public: // // Constructor calls level->beginEdit(), // destructor calls level->endEdit(). // Edit (SampleCountChannel& level); ~Edit (); // // Access to the writable sample count array. // unsigned int * sampleCounts () const; private: SampleCountChannel & _channel; unsigned int * _sampleCounts; }; // // Functions that support the implementation of deep image channels. // const unsigned int * numSamples () const; const unsigned int * sampleListSizes () const; const size_t * sampleListPositions () const; size_t sampleBufferSize () const; private: friend class DeepImageLevel; // // The constructor and destructor are not public because // image channels exist only as parts of a deep image level. // SampleCountChannel (DeepImageLevel &level); virtual ~SampleCountChannel(); virtual void resize (); void resetBasePointer (); unsigned int * _numSamples; // Array of per-pixel sample counts unsigned int * _base; // Base pointer for faster access // to entries in _numSamples unsigned int * _sampleListSizes; // Array of allocated sizes of // per-pixel sample lists size_t * _sampleListPositions; // Array of positions of per-pixel // sample lists within sample list // buffer size_t _totalNumSamples; // Sum of all entries in the // _numSamples array size_t _totalSamplesOccupied; // Total number of samples within // sample list buffer that have // either been allocated for sample // lists or lost to fragmentation size_t _sampleBufferSize; // Size of the sample list buffer. }; //----------------------------------------------------------------------------- // Implementation of templates and inline functions //----------------------------------------------------------------------------- inline SampleCountChannel::Edit::Edit (SampleCountChannel &channel): _channel (channel), _sampleCounts (channel.beginEdit()) { // empty } inline SampleCountChannel::Edit::~Edit () { _channel.endEdit(); } inline unsigned int * SampleCountChannel::Edit::sampleCounts () const { return _sampleCounts; } inline const unsigned int * SampleCountChannel::numSamples () const { return _numSamples; } inline const unsigned int * SampleCountChannel::sampleListSizes () const { return _sampleListSizes; } inline const size_t * SampleCountChannel::sampleListPositions () const { return _sampleListPositions; } inline size_t SampleCountChannel::sampleBufferSize () const { return _sampleBufferSize; } inline const unsigned int & SampleCountChannel::operator () (int x, int y) const { return _base[y * pixelsPerRow() + x]; } inline const unsigned int & SampleCountChannel::at (int x, int y) const { boundsCheck (x, y); return _base[y * pixelsPerRow() + x]; } inline const unsigned int * SampleCountChannel::row (int n) const { return _base + n * pixelsPerRow(); } OPENEXR_IMF_INTERNAL_NAMESPACE_HEADER_EXIT #endif