/usr/include/CharLS/processline.h is in libcharls-dev 1.0-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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// (C) Jan de Vaan 2007-2010, all rights reserved. See the accompanying "License.txt" for licensed use.
//
#ifndef CHARLS_PROCESSLINE
#define CHARLS_PROCESSLINE
#include "colortransform.h"
//
// This file defines the ProcessLine base class, its derivitives and helper functions.
// During coding/decoding, CharLS process one line at a time. The different Processline implementations
// convert the uncompressed format to and from the internal format for encoding.
// Conversions include color transforms, line interleaved vs sample interleaved, masking out unused bits,
// accounting for line padding etc.
// This mechanism could be used to encode/decode images as they are received.
//
class ProcessLine
{
public:
virtual ~ProcessLine() {}
virtual void NewLineDecoded(const void* pSrc, int pixelCount, int bytesperline) = 0;
virtual void NewLineRequested(void* pSrc, int pixelCount, int bytesperline) = 0;
};
class PostProcesSingleComponent : public ProcessLine
{
public:
PostProcesSingleComponent(void* pbyteOutput, const JlsParameters& info, int bytesPerPixel) :
_pbyteOutput((BYTE*)pbyteOutput),
_bytesPerPixel(bytesPerPixel),
_bytesPerLine(info.bytesperline)
{
}
void NewLineRequested(void* pDst, int pixelCount, int /*byteStride*/)
{
::memcpy(pDst, _pbyteOutput, pixelCount * _bytesPerPixel);
_pbyteOutput += _bytesPerLine;
}
void NewLineDecoded(const void* pSrc, int pixelCount, int /*byteStride*/)
{
::memcpy(_pbyteOutput, pSrc, pixelCount * _bytesPerPixel);
_pbyteOutput += _bytesPerLine;
}
private:
BYTE* _pbyteOutput;
int _bytesPerPixel;
int _bytesPerLine;
};
template<class TRANSFORM, class SAMPLE>
void TransformLineToQuad(const SAMPLE* ptypeInput, LONG pixelStrideIn, Quad<SAMPLE>* pbyteBuffer, LONG pixelStride, TRANSFORM& transform)
{
int cpixel = MIN(pixelStride, pixelStrideIn);
Quad<SAMPLE>* ptypeBuffer = (Quad<SAMPLE>*)pbyteBuffer;
for (int x = 0; x < cpixel; ++x)
{
Quad<SAMPLE> pixel(transform(ptypeInput[x], ptypeInput[x + pixelStrideIn], ptypeInput[x + 2*pixelStrideIn]),ptypeInput[x + 3*pixelStrideIn]) ;
ptypeBuffer[x] = pixel;
}
}
template<class TRANSFORM, class SAMPLE>
void TransformQuadToLine(const Quad<SAMPLE>* pbyteInput, LONG pixelStrideIn, SAMPLE* ptypeBuffer, LONG pixelStride, TRANSFORM& transform)
{
int cpixel = MIN(pixelStride, pixelStrideIn);
const Quad<SAMPLE>* ptypeBufferIn = (Quad<SAMPLE>*)pbyteInput;
for (int x = 0; x < cpixel; ++x)
{
Quad<SAMPLE> color = ptypeBufferIn[x];
Quad<SAMPLE> colorTranformed(transform(color.v1, color.v2, color.v3), color.v4);
ptypeBuffer[x] = colorTranformed.v1;
ptypeBuffer[x + pixelStride] = colorTranformed.v2;
ptypeBuffer[x + 2 *pixelStride] = colorTranformed.v3;
ptypeBuffer[x + 3 *pixelStride] = colorTranformed.v4;
}
}
template<class SAMPLE>
void TransformRgbToBgr(SAMPLE* pDest, int samplesPerPixel, int pixelCount)
{
for (int i = 0; i < pixelCount; ++i)
{
std::swap(pDest[0], pDest[2]);
pDest += samplesPerPixel;
}
}
template<class TRANSFORM, class SAMPLE>
void TransformLine(Triplet<SAMPLE>* pDest, const Triplet<SAMPLE>* pSrc, int pixelCount, TRANSFORM& transform)
{
for (int i = 0; i < pixelCount; ++i)
{
pDest[i] = transform(pSrc[i].v1, pSrc[i].v2, pSrc[i].v3);
}
}
template<class TRANSFORM, class SAMPLE>
void TransformLineToTriplet(const SAMPLE* ptypeInput, LONG pixelStrideIn, Triplet<SAMPLE>* pbyteBuffer, LONG pixelStride, TRANSFORM& transform)
{
int cpixel = MIN(pixelStride, pixelStrideIn);
Triplet<SAMPLE>* ptypeBuffer = (Triplet<SAMPLE>*)pbyteBuffer;
for (int x = 0; x < cpixel; ++x)
{
ptypeBuffer[x] = transform(ptypeInput[x], ptypeInput[x + pixelStrideIn], ptypeInput[x + 2*pixelStrideIn]);
}
}
template<class TRANSFORM, class SAMPLE>
void TransformTripletToLine(const Triplet<SAMPLE>* pbyteInput, LONG pixelStrideIn, SAMPLE* ptypeBuffer, LONG pixelStride, TRANSFORM& transform)
{
int cpixel = MIN(pixelStride, pixelStrideIn);
const Triplet<SAMPLE>* ptypeBufferIn = (Triplet<SAMPLE>*)pbyteInput;
for (int x = 0; x < cpixel; ++x)
{
Triplet<SAMPLE> color = ptypeBufferIn[x];
Triplet<SAMPLE> colorTranformed = transform(color.v1, color.v2, color.v3);
ptypeBuffer[x] = colorTranformed.v1;
ptypeBuffer[x + pixelStride] = colorTranformed.v2;
ptypeBuffer[x + 2 *pixelStride] = colorTranformed.v3;
}
}
template<class TRANSFORM>
class ProcessTransformed : public ProcessLine
{
typedef typename TRANSFORM::SAMPLE SAMPLE;
ProcessTransformed(const ProcessTransformed&) {}
public:
ProcessTransformed(void* pbyteOutput, const JlsParameters& info, TRANSFORM transform) :
_pbyteOutput((BYTE*)pbyteOutput),
_info(info),
_templine(info.width * info.components),
_transform(transform),
_inverseTransform(transform)
{
// ASSERT(_info.components == sizeof(TRIPLET)/sizeof(TRIPLET::SAMPLE));
}
void NewLineRequested(void* pDst, int pixelCount, int stride)
{
SAMPLE* pLine = (SAMPLE*)_pbyteOutput;
if (_info.outputBgr)
{
pLine = &_templine[0];
memcpy(pLine, _pbyteOutput, sizeof(Triplet<SAMPLE>)*pixelCount);
TransformRgbToBgr(pLine, _info.components, pixelCount);
}
if (_info.components == 3)
{
if (_info.ilv == ILV_SAMPLE)
{
TransformLine((Triplet<SAMPLE>*)pDst, (const Triplet<SAMPLE>*)pLine, pixelCount, _transform);
}
else
{
TransformTripletToLine((const Triplet<SAMPLE>*)pLine, pixelCount, (SAMPLE*)pDst, stride, _transform);
}
}
else if (_info.components == 4 && _info.ilv == ILV_LINE)
{
TransformQuadToLine((const Quad<SAMPLE>*)pLine, pixelCount, (SAMPLE*)pDst, stride, _transform);
}
_pbyteOutput += _info.bytesperline;
}
void NewLineDecoded(const void* pSrc, int pixelCount, int byteStride)
{
if (_info.components == 3)
{
if (_info.ilv == ILV_SAMPLE)
{
TransformLine((Triplet<SAMPLE>*)_pbyteOutput, (const Triplet<SAMPLE>*)pSrc, pixelCount, _inverseTransform);
}
else
{
TransformLineToTriplet((const SAMPLE*)pSrc, byteStride, (Triplet<SAMPLE>*)_pbyteOutput, pixelCount, _inverseTransform);
}
}
else if (_info.components == 4 && _info.ilv == ILV_LINE)
{
TransformLineToQuad((const SAMPLE*)pSrc, byteStride, (Quad<SAMPLE>*)_pbyteOutput, pixelCount, _inverseTransform);
}
if (_info.outputBgr)
{
TransformRgbToBgr(_pbyteOutput, _info.components, pixelCount);
}
_pbyteOutput += _info.bytesperline;
}
private:
BYTE* _pbyteOutput;
const JlsParameters& _info;
std::vector<SAMPLE> _templine;
TRANSFORM _transform;
typename TRANSFORM::INVERSE _inverseTransform;
};
#endif
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