opencv/3rdparty/openexr/IlmImf/ImfPxr24Compressor.cpp

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/////////////////////////////////////////////////////////////////////////////
//
// Copyright (c) 2004, Pixar Animation Studios
//
// 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 Pixar Animation Studios 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.
//
/////////////////////////////////////////////////////////////////////////////
//-----------------------------------------------------------------------------
//
// class Pxr24Compressor
//
// This compressor is based on source code that was contributed to
// OpenEXR by Pixar Animation Studios. The compression method was
// developed by Loren Carpenter.
//
// The compressor preprocesses the pixel data to reduce entropy,
// and then calls zlib.
//
// Compression of HALF and UINT channels is lossless, but compressing
// FLOAT channels is lossy: 32-bit floating-point numbers are converted
// to 24 bits by rounding the significand to 15 bits.
//
// When the compressor is invoked, the caller has already arranged
// the pixel data so that the values for each channel appear in a
// contiguous block of memory. The compressor converts the pixel
// values to unsigned integers: For UINT, this is a no-op. HALF
// values are simply re-interpreted as 16-bit integers. FLOAT
// values are converted to 24 bits, and the resulting bit patterns
// are interpreted as integers. The compressor then replaces each
// value with the difference between the value and its left neighbor.
// This turns flat fields in the image into zeroes, and ramps into
// strings of similar values. Next, each difference is split into
// 2, 3 or 4 bytes, and the bytes are transposed so that all the
// most significant bytes end up in a contiguous block, followed
// by the second most significant bytes, and so on. The resulting
// string of bytes is compressed with zlib.
//
//-----------------------------------------------------------------------------
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//#define ZLIB_WINAPI
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#include <ImfPxr24Compressor.h>
#include <ImfHeader.h>
#include <ImfChannelList.h>
#include <ImfMisc.h>
#include <ImfCheckedArithmetic.h>
#include <ImathFun.h>
#include <Iex.h>
#include <half.h>
#include <zlib.h>
#include <assert.h>
#include <algorithm>
using namespace std;
using namespace Imath;
namespace Imf {
namespace {
//
// Conversion from 32-bit to 24-bit floating-point numbers.
// Conversion back to 32 bits is simply an 8-bit shift to the left.
//
inline unsigned int
floatToFloat24 (float f)
{
union
{
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float f;
unsigned int i;
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} u;
u.f = f;
//
// Disassemble the 32-bit floating point number, f,
// into sign, s, exponent, e, and significand, m.
//
unsigned int s = u.i & 0x80000000;
unsigned int e = u.i & 0x7f800000;
unsigned int m = u.i & 0x007fffff;
unsigned int i;
if (e == 0x7f800000)
{
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if (m)
{
//
// F is a NAN; we preserve the sign bit and
// the 15 leftmost bits of the significand,
// with one exception: If the 15 leftmost
// bits are all zero, the NAN would turn
// into an infinity, so we have to set at
// least one bit in the significand.
//
m >>= 8;
i = (e >> 8) | m | (m == 0);
}
else
{
//
// F is an infinity.
//
i = e >> 8;
}
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}
else
{
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//
// F is finite, round the significand to 15 bits.
//
i = ((e | m) + (m & 0x00000080)) >> 8;
if (i >= 0x7f8000)
{
//
// F was close to FLT_MAX, and the significand was
// rounded up, resulting in an exponent overflow.
// Avoid the overflow by truncating the significand
// instead of rounding it.
//
i = (e | m) >> 8;
}
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}
return (s >> 8) | i;
}
void
notEnoughData ()
{
throw Iex::InputExc ("Error decompressing data "
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"(input data are shorter than expected).");
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}
void
tooMuchData ()
{
throw Iex::InputExc ("Error decompressing data "
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"(input data are longer than expected).");
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}
} // namespace
Pxr24Compressor::Pxr24Compressor (const Header &hdr,
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size_t maxScanLineSize,
size_t numScanLines)
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:
Compressor (hdr),
_maxScanLineSize (maxScanLineSize),
_numScanLines (numScanLines),
_tmpBuffer (0),
_outBuffer (0),
_channels (hdr.channels())
{
size_t maxInBytes =
uiMult (maxScanLineSize, numScanLines);
size_t maxOutBytes =
uiAdd (uiAdd (maxInBytes,
size_t (ceil (maxInBytes * 0.01))),
size_t (100));
_tmpBuffer = new unsigned char [maxInBytes];
_outBuffer = new char [maxOutBytes];
const Box2i &dataWindow = hdr.dataWindow();
_minX = dataWindow.min.x;
_maxX = dataWindow.max.x;
_maxY = dataWindow.max.y;
}
Pxr24Compressor::~Pxr24Compressor ()
{
delete [] _tmpBuffer;
delete [] _outBuffer;
}
int
Pxr24Compressor::numScanLines () const
{
return _numScanLines;
}
Compressor::Format
Pxr24Compressor::format () const
{
return NATIVE;
}
int
Pxr24Compressor::compress (const char *inPtr,
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int inSize,
int minY,
const char *&outPtr)
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{
return compress (inPtr,
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inSize,
Box2i (V2i (_minX, minY),
V2i (_maxX, minY + _numScanLines - 1)),
outPtr);
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}
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int
Pxr24Compressor::compressTile (const char *inPtr,
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int inSize,
Box2i range,
const char *&outPtr)
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{
return compress (inPtr, inSize, range, outPtr);
}
int
Pxr24Compressor::uncompress (const char *inPtr,
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int inSize,
int minY,
const char *&outPtr)
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{
return uncompress (inPtr,
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inSize,
Box2i (V2i (_minX, minY),
V2i (_maxX, minY + _numScanLines - 1)),
outPtr);
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}
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int
Pxr24Compressor::uncompressTile (const char *inPtr,
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int inSize,
Box2i range,
const char *&outPtr)
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{
return uncompress (inPtr, inSize, range, outPtr);
}
int
Pxr24Compressor::compress (const char *inPtr,
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int inSize,
Box2i range,
const char *&outPtr)
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{
if (inSize == 0)
{
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outPtr = _outBuffer;
return 0;
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}
int minX = range.min.x;
int maxX = min (range.max.x, _maxX);
int minY = range.min.y;
int maxY = min (range.max.y, _maxY);
unsigned char *tmpBufferEnd = _tmpBuffer;
for (int y = minY; y <= maxY; ++y)
{
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for (ChannelList::ConstIterator i = _channels.begin();
i != _channels.end();
++i)
{
const Channel &c = i.channel();
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if (modp (y, c.ySampling) != 0)
continue;
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int n = numSamples (c.xSampling, minX, maxX);
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unsigned char *ptr[4];
unsigned int previousPixel = 0;
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switch (c.type)
{
case UINT:
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ptr[0] = tmpBufferEnd;
ptr[1] = ptr[0] + n;
ptr[2] = ptr[1] + n;
ptr[3] = ptr[2] + n;
tmpBufferEnd = ptr[3] + n;
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for (int j = 0; j < n; ++j)
{
unsigned int pixel;
char *pPtr = (char *) &pixel;
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for (int k = 0; k < sizeof (pixel); ++k)
*pPtr++ = *inPtr++;
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unsigned int diff = pixel - previousPixel;
previousPixel = pixel;
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*(ptr[0]++) = diff >> 24;
*(ptr[1]++) = diff >> 16;
*(ptr[2]++) = diff >> 8;
*(ptr[3]++) = diff;
}
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break;
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case HALF:
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ptr[0] = tmpBufferEnd;
ptr[1] = ptr[0] + n;
tmpBufferEnd = ptr[1] + n;
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for (int j = 0; j < n; ++j)
{
half pixel;
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pixel = *(const half *) inPtr;
inPtr += sizeof (half);
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unsigned int diff = pixel.bits() - previousPixel;
previousPixel = pixel.bits();
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*(ptr[0]++) = diff >> 8;
*(ptr[1]++) = diff;
}
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break;
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case FLOAT:
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ptr[0] = tmpBufferEnd;
ptr[1] = ptr[0] + n;
ptr[2] = ptr[1] + n;
tmpBufferEnd = ptr[2] + n;
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for (int j = 0; j < n; ++j)
{
float pixel;
char *pPtr = (char *) &pixel;
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for (int k = 0; k < sizeof (pixel); ++k)
*pPtr++ = *inPtr++;
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unsigned int pixel24 = floatToFloat24 (pixel);
unsigned int diff = pixel24 - previousPixel;
previousPixel = pixel24;
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*(ptr[0]++) = diff >> 16;
*(ptr[1]++) = diff >> 8;
*(ptr[2]++) = diff;
}
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break;
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default:
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assert (false);
}
}
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}
uLongf outSize = int (ceil ((tmpBufferEnd - _tmpBuffer) * 1.01)) + 100;
if (Z_OK != ::compress ((Bytef *) _outBuffer,
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&outSize,
(const Bytef *) _tmpBuffer,
tmpBufferEnd - _tmpBuffer))
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{
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throw Iex::BaseExc ("Data compression (zlib) failed.");
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}
outPtr = _outBuffer;
return outSize;
}
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int
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Pxr24Compressor::uncompress (const char *inPtr,
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int inSize,
Box2i range,
const char *&outPtr)
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{
if (inSize == 0)
{
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outPtr = _outBuffer;
return 0;
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}
uLongf tmpSize = _maxScanLineSize * _numScanLines;
if (Z_OK != ::uncompress ((Bytef *)_tmpBuffer,
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&tmpSize,
(const Bytef *) inPtr,
inSize))
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{
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throw Iex::InputExc ("Data decompression (zlib) failed.");
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}
int minX = range.min.x;
int maxX = min (range.max.x, _maxX);
int minY = range.min.y;
int maxY = min (range.max.y, _maxY);
const unsigned char *tmpBufferEnd = _tmpBuffer;
char *writePtr = _outBuffer;
for (int y = minY; y <= maxY; ++y)
{
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for (ChannelList::ConstIterator i = _channels.begin();
i != _channels.end();
++i)
{
const Channel &c = i.channel();
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if (modp (y, c.ySampling) != 0)
continue;
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int n = numSamples (c.xSampling, minX, maxX);
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const unsigned char *ptr[4];
unsigned int pixel = 0;
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switch (c.type)
{
case UINT:
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ptr[0] = tmpBufferEnd;
ptr[1] = ptr[0] + n;
ptr[2] = ptr[1] + n;
ptr[3] = ptr[2] + n;
tmpBufferEnd = ptr[3] + n;
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if (tmpBufferEnd - _tmpBuffer > tmpSize)
notEnoughData();
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for (int j = 0; j < n; ++j)
{
unsigned int diff = (*(ptr[0]++) << 24) |
(*(ptr[1]++) << 16) |
(*(ptr[2]++) << 8) |
*(ptr[3]++);
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pixel += diff;
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char *pPtr = (char *) &pixel;
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for (int k = 0; k < sizeof (pixel); ++k)
*writePtr++ = *pPtr++;
}
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break;
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case HALF:
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ptr[0] = tmpBufferEnd;
ptr[1] = ptr[0] + n;
tmpBufferEnd = ptr[1] + n;
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if (tmpBufferEnd - _tmpBuffer > tmpSize)
notEnoughData();
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for (int j = 0; j < n; ++j)
{
unsigned int diff = (*(ptr[0]++) << 8) |
*(ptr[1]++);
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pixel += diff;
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half * hPtr = (half *) writePtr;
hPtr->setBits ((unsigned short) pixel);
writePtr += sizeof (half);
}
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break;
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case FLOAT:
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ptr[0] = tmpBufferEnd;
ptr[1] = ptr[0] + n;
ptr[2] = ptr[1] + n;
tmpBufferEnd = ptr[2] + n;
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if (tmpBufferEnd - _tmpBuffer > tmpSize)
notEnoughData();
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for (int j = 0; j < n; ++j)
{
unsigned int diff = (*(ptr[0]++) << 24) |
(*(ptr[1]++) << 16) |
(*(ptr[2]++) << 8);
pixel += diff;
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char *pPtr = (char *) &pixel;
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for (int k = 0; k < sizeof (pixel); ++k)
*writePtr++ = *pPtr++;
}
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break;
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default:
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assert (false);
}
}
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}
if (tmpBufferEnd - _tmpBuffer < tmpSize)
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tooMuchData();
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outPtr = _outBuffer;
return writePtr - _outBuffer;
}
} // namespace Imf