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3rdparty: update OpenEXR 2.3.0 (#14725) * openexr 2.2.1 * openexr 2.3.0 * openexr: build fixes * openexr: build dwa tables on-demand
479 lines
16 KiB
C++
479 lines
16 KiB
C++
///////////////////////////////////////////////////////////////////////////
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//
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// Copyright (c) 2002, Industrial Light & Magic, a division of Lucas
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// Digital Ltd. LLC
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//
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// All rights reserved.
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//
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// Redistribution and use in source and binary forms, with or without
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// modification, are permitted provided that the following conditions are
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// met:
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// * Redistributions of source code must retain the above copyright
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// notice, this list of conditions and the following disclaimer.
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// * Redistributions in binary form must reproduce the above
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// copyright notice, this list of conditions and the following disclaimer
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// in the documentation and/or other materials provided with the
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// distribution.
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// * Neither the name of Industrial Light & Magic nor the names of
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// its contributors may be used to endorse or promote products derived
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// from this software without specific prior written permission.
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//
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
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// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
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// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
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// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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//
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///////////////////////////////////////////////////////////////////////////
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#ifndef INCLUDED_IMF_MISC_H
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#define INCLUDED_IMF_MISC_H
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//-----------------------------------------------------------------------------
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//
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// Miscellaneous helper functions for OpenEXR image file I/O
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//
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//-----------------------------------------------------------------------------
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#include "ImfPixelType.h"
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#include "ImfCompressor.h"
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#include "ImfArray.h"
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#include "ImfNamespace.h"
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#include "ImfExport.h"
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#include "ImfForward.h"
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#include <cstddef>
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#include <vector>
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OPENEXR_IMF_INTERNAL_NAMESPACE_HEADER_ENTER
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//
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// Return the size of a single value of the indicated type,
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// in the machine's native format.
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//
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IMF_EXPORT
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int pixelTypeSize (PixelType type);
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//
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// Return the number of samples a channel with subsampling rate
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// s has in the interval [a, b]. For example, a channel with
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// subsampling rate 2 (and samples at 0, 2, 4, 6, 8, etc.) has
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// 2 samples in the interval [1, 5] and three samples in the
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// interval [2, 6].
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//
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IMF_EXPORT
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int numSamples (int s, int a, int b);
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//
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// Build a table that lists, for each scanline in a file's
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// data window, how many bytes are required to store all
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// pixels in all channels in that scanline (assuming that
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// the pixel data are tightly packed).
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//
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IMF_EXPORT
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size_t bytesPerLineTable (const Header &header,
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std::vector<size_t> &bytesPerLine);
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//
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// Get the sample count for pixel (x, y) using the array base
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// pointer, xStride and yStride.
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//
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inline
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int&
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sampleCount(char* base, int xStride, int yStride, int x, int y)
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{
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char* ptr = base + y * yStride + x * xStride;
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int* intPtr = (int*) ptr;
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return *intPtr;
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}
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inline
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const int&
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sampleCount(const char* base, int xStride, int yStride, int x, int y)
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{
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const char* ptr = base + y * yStride + x * xStride;
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int* intPtr = (int*) ptr;
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return *intPtr;
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}
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//
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// Build a table that lists, for each scanline in a DEEP file's
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// data window, how many bytes are required to store all
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// pixels in all channels in scanlines ranged in [minY, maxY]
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// (assuming that the pixel data are tightly packed).
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//
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IMF_EXPORT
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size_t bytesPerDeepLineTable (const Header &header,
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int minY, int maxY,
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const char* base,
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int xStride,
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int yStride,
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std::vector<size_t> &bytesPerLine);
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//
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// Build a table that lists, for each scanline in a DEEP file's
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// data window, how many bytes are required to store all
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// pixels in all channels in every scanline (assuming that
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// the pixel data are tightly packed).
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//
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IMF_EXPORT
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size_t bytesPerDeepLineTable (const Header &header,
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char* base,
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int xStride,
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int yStride,
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std::vector<size_t> &bytesPerLine);
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//
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// For scanline-based files, pixels are read or written in
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// in multi-scanline blocks. Internally, class OutputFile
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// and class ScanLineInputFile store a block of scan lines
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// in a "line buffer". Function offsetInLineBufferTable()
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// builds a table that lists, scanlines within range
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// [scanline1, scanline2], the location of the pixel data
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// for the scanline relative to the beginning of the line buffer,
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// where scanline1 = 0 represents the first line in the DATA WINDOW.
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// The one without specifying the range will make scanline1 = 0
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// and scanline2 = bytesPerLine.size().
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//
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IMF_EXPORT
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void offsetInLineBufferTable (const std::vector<size_t> &bytesPerLine,
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int scanline1, int scanline2,
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int linesInLineBuffer,
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std::vector<size_t> &offsetInLineBuffer);
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IMF_EXPORT
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void offsetInLineBufferTable (const std::vector<size_t> &bytesPerLine,
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int linesInLineBuffer,
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std::vector<size_t> &offsetInLineBuffer);
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//
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// For a scanline-based file, compute the range of scanlines
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// that occupy the same line buffer as a given scanline, y.
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// (minY is the minimum y coordinate of the file's data window.)
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//
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IMF_EXPORT int lineBufferMinY (int y, int minY, int linesInLineBuffer);
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IMF_EXPORT int lineBufferMaxY (int y, int minY, int linesInLineBuffer);
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//
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// Return a compressor's data format (Compressor::NATIVE or Compressor::XDR).
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// If compressor is 0, return Compressor::XDR.
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//
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IMF_EXPORT
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Compressor::Format defaultFormat (Compressor *compressor);
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//
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// Return the number of scan lines a compressor wants to compress
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// or uncompress at once. If compressor is 0, return 1.
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//
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IMF_EXPORT
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int numLinesInBuffer (Compressor *compressor);
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//
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// Copy a single channel of a horizontal row of pixels from an
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// input file's internal line buffer or tile buffer into a
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// frame buffer slice. If necessary, perform on-the-fly data
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// type conversion.
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//
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// readPtr initially points to the beginning of the
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// data in the line or tile buffer. readPtr
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// is advanced as the pixel data are copied;
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// when copyIntoFrameBuffer() returns,
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// readPtr points just past the end of the
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// copied data.
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//
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// writePtr, endPtr point to the lefmost and rightmost pixels
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// in the frame buffer slice
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//
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// xStride the xStride for the frame buffer slice
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//
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// format indicates if the line or tile buffer is
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// in NATIVE or XDR format.
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//
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// typeInFrameBuffer the pixel data type of the frame buffer slice
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//
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// typeInFile the pixel data type in the input file's channel
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//
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IMF_EXPORT
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void copyIntoFrameBuffer (const char *&readPtr,
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char *writePtr,
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char *endPtr,
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size_t xStride,
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bool fill,
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double fillValue,
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Compressor::Format format,
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PixelType typeInFrameBuffer,
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PixelType typeInFile);
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//
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// Copy a single channel of a horizontal row of pixels from an
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// input file's internal line buffer or tile buffer into a
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// frame buffer slice. If necessary, perform on-the-fly data
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// type conversion.
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//
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// readPtr initially points to the beginning of the
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// data in the line or tile buffer. readPtr
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// is advanced as the pixel data are copied;
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// when copyIntoFrameBuffer() returns,
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// readPtr points just past the end of the
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// copied data.
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//
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// base point to each pixel in the framebuffer
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//
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// sampleCountBase, provide the number of samples in each pixel
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// sampleCountXStride,
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// sampleCountYStride
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//
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// y the scanline to copy. The coordinate is
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// relative to the datawindow.min.y.
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//
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// minX, maxX used to indicate which pixels in the scanline
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// will be copied.
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//
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// xOffsetForSampleCount, used to offset the sample count array
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// yOffsetForSampleCount, and the base array.
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// xOffsetForData,
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// yOffsetForData
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//
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// xStride the xStride for the frame buffer slice
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//
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// format indicates if the line or tile buffer is
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// in NATIVE or XDR format.
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//
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// typeInFrameBuffer the pixel data type of the frame buffer slice
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//
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// typeInFile the pixel data type in the input file's channel
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//
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IMF_EXPORT
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void copyIntoDeepFrameBuffer (const char *& readPtr,
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char * base,
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const char* sampleCountBase,
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ptrdiff_t sampleCountXStride,
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ptrdiff_t sampleCountYStride,
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int y, int minX, int maxX,
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int xOffsetForSampleCount,
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int yOffsetForSampleCount,
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int xOffsetForData,
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int yOffsetForData,
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ptrdiff_t xStride,
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ptrdiff_t xPointerStride,
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ptrdiff_t yPointerStride,
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bool fill,
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double fillValue,
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Compressor::Format format,
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PixelType typeInFrameBuffer,
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PixelType typeInFile);
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//
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// Given a pointer into a an input file's line buffer or tile buffer,
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// skip over the data for xSize pixels of type typeInFile.
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// readPtr initially points to the beginning of the data to be skipped;
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// when skipChannel() returns, readPtr points just past the end of the
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// skipped data.
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//
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IMF_EXPORT
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void skipChannel (const char *&readPtr,
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PixelType typeInFile,
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size_t xSize);
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//
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// Convert an array of pixel data from the machine's native
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// representation to XDR format.
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//
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// toPtr, fromPtr initially point to the beginning of the input
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// and output pixel data arrays; when convertInPlace()
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// returns, toPtr and fromPtr point just past the
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// end of the input and output arrays.
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// If the native representation of the data has the
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// same size as the XDR data, then the conversion
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// can take in place, without an intermediate
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// temporary buffer (toPtr and fromPtr can point
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// to the same location).
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//
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// type the pixel data type
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//
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// numPixels number of pixels in the input and output arrays
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//
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IMF_EXPORT
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void convertInPlace (char *&toPtr,
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const char *&fromPtr,
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PixelType type,
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size_t numPixels);
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//
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// Copy a single channel of a horizontal row of pixels from a
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// a frame buffer into an output file's internal line buffer or
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// tile buffer.
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//
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// writePtr initially points to the beginning of the
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// data in the line or tile buffer. writePtr
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// is advanced as the pixel data are copied;
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// when copyFromFrameBuffer() returns,
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// writePtr points just past the end of the
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// copied data.
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//
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// readPtr, endPtr point to the lefmost and rightmost pixels
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// in the frame buffer slice
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//
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// xStride the xStride for the frame buffer slice
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//
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// format indicates if the line or tile buffer is
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// in NATIVE or XDR format.
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//
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// type the pixel data type in the frame buffer
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// and in the output file's channel (function
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// copyFromFrameBuffer() doesn't do on-the-fly
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// data type conversion)
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//
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IMF_EXPORT
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void copyFromFrameBuffer (char *&writePtr,
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const char *&readPtr,
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const char *endPtr,
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size_t xStride,
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Compressor::Format format,
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PixelType type);
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//
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// Copy a single channel of a horizontal row of pixels from a
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// a frame buffer in a deep data file into an output file's
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// internal line buffer or tile buffer.
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//
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// writePtr initially points to the beginning of the
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// data in the line or tile buffer. writePtr
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// is advanced as the pixel data are copied;
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// when copyFromDeepFrameBuffer() returns,
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// writePtr points just past the end of the
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// copied data.
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//
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// base the start pointer of each pixel in this channel.
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// It points to the real data in FrameBuffer.
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// It is different for different channels.
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// dataWindowMinX and dataWindowMinY are involved in
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// locating for base.
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//
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// sampleCountBase, used to locate the position to get
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// sampleCountXStride, the number of samples for each pixel.
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// sampleCountYStride Used to determine how far we should
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// read based on the pointer provided by base.
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//
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// y the scanline to copy. If we are dealing
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// with a tiled deep file, then probably a portion
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// of the scanline is copied.
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//
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// xMin, xMax used to indicate which pixels in the scanline
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// will be copied.
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//
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// xOffsetForSampleCount, used to offset the sample count array
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// yOffsetForSampleCount, and the base array.
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// xOffsetForData,
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// yOffsetForData
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//
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// xStride the xStride for the frame buffer slice
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//
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// format indicates if the line or tile buffer is
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// in NATIVE or XDR format.
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//
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// type the pixel data type in the frame buffer
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// and in the output file's channel (function
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// copyFromFrameBuffer() doesn't do on-the-fly
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// data type conversion)
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//
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IMF_EXPORT
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void copyFromDeepFrameBuffer (char *& writePtr,
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const char * base,
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char* sampleCountBase,
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ptrdiff_t sampleCountXStride,
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ptrdiff_t sampleCountYStride,
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int y, int xMin, int xMax,
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int xOffsetForSampleCount,
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int yOffsetForSampleCount,
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int xOffsetForData,
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int yOffsetForData,
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ptrdiff_t sampleStride,
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ptrdiff_t xStrideForData,
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ptrdiff_t yStrideForData,
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Compressor::Format format,
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PixelType type);
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//
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// Fill part of an output file's line buffer or tile buffer with
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// zeroes. This routine is called when an output file contains
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// a channel for which the frame buffer contains no corresponding
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// slice.
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//
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// writePtr initially points to the beginning of the
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// data in the line or tile buffer. When
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// fillChannelWithZeroes() returns, writePtr
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// points just past the end of the zeroed
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// data.
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//
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// format indicates if the line or tile buffer is
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// in NATIVE or XDR format.
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//
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// type the pixel data type in the line or frame buffer.
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//
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// xSize number of pixels to be filled with zeroes.
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//
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IMF_EXPORT
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void fillChannelWithZeroes (char *&writePtr,
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Compressor::Format format,
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PixelType type,
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size_t xSize);
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IMF_EXPORT
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bool usesLongNames (const Header &header);
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//
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// compute size of chunk offset table - if ignore_attribute set to true
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// will compute from the image size and layout, rather than the attribute
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// The default behaviour is to read the attribute
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//
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IMF_EXPORT
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int getChunkOffsetTableSize(const Header& header,bool ignore_attribute=false);
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OPENEXR_IMF_INTERNAL_NAMESPACE_HEADER_EXIT
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#endif
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