source/dng_gain_map.cpp - platform/external/dng_sdk - Git at Google

 /*****************************************************************************/
 // Copyright 2008-2009 Adobe Systems Incorporated
 // All Rights Reserved.
 //
 // NOTICE:  Adobe permits you to use, modify, and distribute this file in
 // accordance with the terms of the Adobe license agreement accompanying it.
 /*****************************************************************************/

 /* $Id: //mondo/dng_sdk_1_4/dng_sdk/source/dng_gain_map.cpp#1 $ */
 /* $DateTime: 2012/05/30 13:28:51 $ */
 /* $Change: 832332 $ */
 /* $Author: tknoll $ */

 /*****************************************************************************/

 #include "dng_gain_map.h"

 #include "dng_exceptions.h"
 #include "dng_globals.h"
 #include "dng_host.h"
 #include "dng_pixel_buffer.h"
 #include "dng_safe_arithmetic.h"
 #include "dng_stream.h"
 #include "dng_tag_values.h"

 /*****************************************************************************/

 class dng_gain_map_interpolator
 	{

 	private:

 		const dng_gain_map &fMap;

 		dng_point_real64 fScale;
 		dng_point_real64 fOffset;

 		int32 fColumn;
 		int32 fPlane;

 		uint32 fRowIndex1;
 		uint32 fRowIndex2;
 		real32 fRowFract;

 		int32 fResetColumn;

 		real32 fValueBase;
 		real32 fValueStep;
 		real32 fValueIndex;

 	public:

 		dng_gain_map_interpolator (const dng_gain_map &map,
 								   const dng_rect &mapBounds,
 								   int32 row,
 								   int32 column,
 								   uint32 plane);

 		real32 Interpolate () const
 			{

 			return fValueBase + fValueStep * fValueIndex;

 			}

 		void Increment ()
 			{

 			if (++fColumn >= fResetColumn)
 				{

 				ResetColumn ();

 				}

 			else
 				{

 				fValueIndex += 1.0f;

 				}

 			}

 	private:

 		real32 InterpolateEntry (uint32 colIndex);

 		void ResetColumn ();

 	};

 /*****************************************************************************/

 dng_gain_map_interpolator::dng_gain_map_interpolator (const dng_gain_map &map,
 													  const dng_rect &mapBounds,
 													  int32 row,
 													  int32 column,
 													  uint32 plane)

 	:	fMap (map)

 	,	fScale (1.0 / mapBounds.H (),
 				1.0 / mapBounds.W ())

 	,	fOffset (0.5 - mapBounds.t,
 				 0.5 - mapBounds.l)

 	,	fColumn (column)
 	,	fPlane  (plane)

 	,	fRowIndex1 (0)
 	,	fRowIndex2 (0)
 	,	fRowFract  (0.0f)

 	,	fResetColumn (0)

 	,	fValueBase  (0.0f)
 	,	fValueStep  (0.0f)
 	,	fValueIndex (0.0f)

 	{

 	real64 rowIndexF = (fScale.v * (row + fOffset.v) -
 						fMap.Origin ().v) / fMap.Spacing ().v;

 	if (rowIndexF <= 0.0)
 		{

 		fRowIndex1 = 0;
 		fRowIndex2 = 0;

 		fRowFract = 0.0f;

 		}

 	else
 		{

 		if (fMap.Points ().v < 1)
 			{
 			ThrowProgramError ("Empty gain map");
 			}
 		uint32 lastRow = static_cast<uint32> (fMap.Points ().v - 1);

 		if (rowIndexF >= static_cast<real64> (lastRow))
 			{

 			fRowIndex1 = lastRow;
 			fRowIndex2 = fRowIndex1;

 			fRowFract = 0.0f;

 			}

 		else
 			{

 			// If we got here, we know that rowIndexF can safely be converted to
 			// a uint32 and that static_cast<uint32> (rowIndexF) < lastRow. This
 			// implies fRowIndex2 <= lastRow below.
 			fRowIndex1 = static_cast<uint32> (rowIndexF);
 			fRowIndex2 = fRowIndex1 + 1;

 			fRowFract = (real32) (rowIndexF - (real64) fRowIndex1);

 			}

 		}

 	ResetColumn ();

 	}

 /*****************************************************************************/

 real32 dng_gain_map_interpolator::InterpolateEntry (uint32 colIndex)
 	{

 	return fMap.Entry (fRowIndex1, colIndex, fPlane) * (1.0f - fRowFract) +
 		   fMap.Entry (fRowIndex2, colIndex, fPlane) * (       fRowFract);

 	}

 /*****************************************************************************/

 void dng_gain_map_interpolator::ResetColumn ()
 	{

 	real64 colIndexF = ((fScale.h * (fColumn + fOffset.h)) -
 						fMap.Origin ().h) / fMap.Spacing ().h;

 	if (colIndexF <= 0.0)
 		{

 		fValueBase = InterpolateEntry (0);

 		fValueStep = 0.0f;

 		fResetColumn = (int32) ceil (fMap.Origin ().h / fScale.h - fOffset.h);

 		}

 	else
 		{

 		if (fMap.Points ().h < 1)
 			{
 			ThrowProgramError ("Empty gain map");
 			}
 		uint32 lastCol = static_cast<uint32> (fMap.Points ().h - 1);

 		if (colIndexF >= static_cast<real64> (lastCol))
 			{

 			fValueBase = InterpolateEntry (lastCol);

 			fValueStep = 0.0f;

 			fResetColumn = 0x7FFFFFFF;

 			}

 		else
 			{

 			// If we got here, we know that colIndexF can safely be converted to
 			// a uint32 and that static_cast<uint32> (colIndexF) < lastCol. This
 			// implies colIndex + 1 <= lastCol, i.e. the argument to
 			// InterpolateEntry() below is valid.
 			uint32 colIndex = static_cast<uint32> (colIndexF);
 			real64 base  = InterpolateEntry (colIndex);
 			real64 delta = InterpolateEntry (colIndex + 1) - base;

 			fValueBase = (real32) (base + delta * (colIndexF - (real64) colIndex));

 			fValueStep = (real32) ((delta * fScale.h) / fMap.Spacing ().h);

 			fResetColumn = (int32) ceil (((colIndex + 1) * fMap.Spacing ().h +
 										  fMap.Origin ().h) / fScale.h - fOffset.h);

 			}

 		}

 	fValueIndex = 0.0f;

 	}

 /*****************************************************************************/

 dng_gain_map::dng_gain_map (dng_memory_allocator &allocator,
 							const dng_point &points,
 							const dng_point_real64 &spacing,
 							const dng_point_real64 &origin,
 							uint32 planes)

 	:	fPoints  (points)
 	,	fSpacing (spacing)
 	,	fOrigin  (origin)
 	,	fPlanes  (planes)

 	,	fRowStep (SafeUint32Mult(planes, points.h))

 	,	fBuffer ()

 	{

 	fBuffer.Reset (allocator.Allocate (
 		ComputeBufferSize (ttFloat, fPoints, fPlanes, pad16Bytes)));

 	}

 /*****************************************************************************/

 real32 dng_gain_map::Interpolate (int32 row,
 								  int32 col,
 								  uint32 plane,
 								  const dng_rect &bounds) const
 	{

 	dng_gain_map_interpolator interp (*this,
 									  bounds,
 									  row,
 									  col,
 									  plane);

 	return interp.Interpolate ();

 	}

 /*****************************************************************************/

 uint32 dng_gain_map::PutStreamSize () const
 	{

 	return 44 + fPoints.v * fPoints.h * fPlanes * 4;

 	}

 /*****************************************************************************/

 void dng_gain_map::PutStream (dng_stream &stream) const
 	{

 	stream.Put_uint32 (fPoints.v);
 	stream.Put_uint32 (fPoints.h);

 	stream.Put_real64 (fSpacing.v);
 	stream.Put_real64 (fSpacing.h);

 	stream.Put_real64 (fOrigin.v);
 	stream.Put_real64 (fOrigin.h);

 	stream.Put_uint32 (fPlanes);

 	for (int32 rowIndex = 0; rowIndex < fPoints.v; rowIndex++)
 		{

 		for (int32 colIndex = 0; colIndex < fPoints.h; colIndex++)
 			{

 			for (uint32 plane = 0; plane < fPlanes; plane++)
 				{

 				stream.Put_real32 (Entry (rowIndex,
 										  colIndex,
 										  plane));

 				}

 			}

 		}

 	}

 /*****************************************************************************/

 dng_gain_map * dng_gain_map::GetStream (dng_host &host,
 										dng_stream &stream)
 	{

 	dng_point mapPoints;

 	mapPoints.v = stream.Get_uint32 ();
 	mapPoints.h = stream.Get_uint32 ();

 	dng_point_real64 mapSpacing;

 	mapSpacing.v = stream.Get_real64 ();
 	mapSpacing.h = stream.Get_real64 ();

 	dng_point_real64 mapOrigin;

 	mapOrigin.v = stream.Get_real64 ();
 	mapOrigin.h = stream.Get_real64 ();

 	uint32 mapPlanes = stream.Get_uint32 ();

 	#if qDNGValidate

 	if (gVerbose)
 		{

 		printf ("Points: v=%d, h=%d\n",
 				(int) mapPoints.v,
 				(int) mapPoints.h);

 		printf ("Spacing: v=%.6f, h=%.6f\n",
 				mapSpacing.v,
 				mapSpacing.h);

 		printf ("Origin: v=%.6f, h=%.6f\n",
 				mapOrigin.v,
 				mapOrigin.h);

 		printf ("Planes: %u\n",
 				(unsigned) mapPlanes);

 		}

 	#endif

 	if (mapPoints.v == 1)
 		{
 		mapSpacing.v = 1.0;
 		mapOrigin.v  = 0.0;
 		}

 	if (mapPoints.h == 1)
 		{
 		mapSpacing.h = 1.0;
 		mapOrigin.h  = 0.0;
 		}

 	if (mapPoints.v < 1 ||
 		mapPoints.h < 1 ||
 		mapSpacing.v <= 0.0 ||
 		mapSpacing.h <= 0.0 ||
 		mapPlanes < 1)
 		{
 		ThrowBadFormat ();
 		}

 	AutoPtr<dng_gain_map> map (new dng_gain_map (host.Allocator (),
 												 mapPoints,
 												 mapSpacing,
 												 mapOrigin,
 												 mapPlanes));

 	#if qDNGValidate

 	uint32 linesPrinted = 0;
 	uint32 linesSkipped = 0;

 	#endif

 	for (int32 rowIndex = 0; rowIndex < mapPoints.v; rowIndex++)
 		{

 		for (int32 colIndex = 0; colIndex < mapPoints.h; colIndex++)
 			{

 			for (uint32 plane = 0; plane < mapPlanes; plane++)
 				{

 				real32 x = stream.Get_real32 ();

 				map->Entry (rowIndex, colIndex, plane) = x;

 				#if qDNGValidate

 				if (gVerbose)
 					{

 					if (linesPrinted < gDumpLineLimit)
 						{

 						printf ("    Map [%3u] [%3u] [%u] = %.4f\n",
 								(unsigned) rowIndex,
 								(unsigned) colIndex,
 								(unsigned) plane,
 								x);

 						linesPrinted++;

 						}

 					else
 						linesSkipped++;

 					}

 				#endif

 				}

 			}

 		}

 	#if qDNGValidate

 	if (linesSkipped)
 		{

 		printf ("    ... %u map entries skipped\n", (unsigned) linesSkipped);

 		}

 	#endif

 	return map.Release ();

 	}

 /*****************************************************************************/

 dng_opcode_GainMap::dng_opcode_GainMap (const dng_area_spec &areaSpec,
 										AutoPtr<dng_gain_map> &gainMap)

 	:	dng_inplace_opcode (dngOpcode_GainMap,
 						    dngVersion_1_3_0_0,
 						    kFlag_None)

 	,	fAreaSpec (areaSpec)

 	,	fGainMap ()

 	{

 	fGainMap.Reset (gainMap.Release ());

 	}

 /*****************************************************************************/

 dng_opcode_GainMap::dng_opcode_GainMap (dng_host &host,
 										dng_stream &stream)

 	:	dng_inplace_opcode (dngOpcode_GainMap,
 							stream,
 							"GainMap")

 	,	fAreaSpec ()

 	,	fGainMap ()

 	{

 	uint32 byteCount = stream.Get_uint32 ();

 	uint64 startPosition = stream.Position ();

 	fAreaSpec.GetData (stream);

 	fGainMap.Reset (dng_gain_map::GetStream (host, stream));

 	if (stream.Position () != startPosition + byteCount)
 		{
 		ThrowBadFormat ();
 		}

 	}

 /*****************************************************************************/

 void dng_opcode_GainMap::PutData (dng_stream &stream) const
 	{

 	stream.Put_uint32 (dng_area_spec::kDataSize +
 					   fGainMap->PutStreamSize ());

 	fAreaSpec.PutData (stream);

 	fGainMap->PutStream (stream);

 	}

 /*****************************************************************************/

 void dng_opcode_GainMap::ProcessArea (dng_negative & /* negative */,
 									  uint32 /* threadIndex */,
 									  dng_pixel_buffer &buffer,
 									  const dng_rect &dstArea,
 									  const dng_rect &imageBounds)
 	{

 	dng_rect overlap = fAreaSpec.Overlap (dstArea);

 	if (overlap.NotEmpty ())
 		{

 		uint32 cols = overlap.W ();

 		uint32 colPitch = fAreaSpec.ColPitch ();

 		for (uint32 plane = fAreaSpec.Plane ();
 			 plane < fAreaSpec.Plane () + fAreaSpec.Planes () &&
 			 plane < buffer.Planes ();
 			 plane++)
 			{

 			uint32 mapPlane = Min_uint32 (plane, fGainMap->Planes () - 1);

 			for (int32 row = overlap.t; row < overlap.b; row += fAreaSpec.RowPitch ())
 				{

 				real32 *dPtr = buffer.DirtyPixel_real32 (row, overlap.l, plane);

 				dng_gain_map_interpolator interp (*fGainMap,
 												  imageBounds,
 												  row,
 												  overlap.l,
 												  mapPlane);

 				for (uint32 col = 0; col < cols; col += colPitch)
 					{

 					real32 gain = interp.Interpolate ();

 					dPtr [col] = Min_real32 (dPtr [col] * gain, 1.0f);

 					for (uint32 j = 0; j < colPitch; j++)
 						{
 						interp.Increment ();
 						}

 					}

 				}

 			}

 		}

 	}

 /*****************************************************************************/
	/*****************************************************************************/
	// Copyright 2008-2009 Adobe Systems Incorporated
	// All Rights Reserved.
	//
	// NOTICE: Adobe permits you to use, modify, and distribute this file in
	// accordance with the terms of the Adobe license agreement accompanying it.
	/*****************************************************************************/

	/* $Id: //mondo/dng_sdk_1_4/dng_sdk/source/dng_gain_map.cpp#1 $ */
	/* $DateTime: 2012/05/30 13:28:51 $ */
	/* $Change: 832332 $ */
	/* $Author: tknoll $ */

	/*****************************************************************************/

	#include "dng_gain_map.h"

	#include "dng_exceptions.h"
	#include "dng_globals.h"
	#include "dng_host.h"
	#include "dng_pixel_buffer.h"
	#include "dng_safe_arithmetic.h"
	#include "dng_stream.h"
	#include "dng_tag_values.h"

	/*****************************************************************************/

	class dng_gain_map_interpolator
	{

	private:

	const dng_gain_map &fMap;

	dng_point_real64 fScale;
	dng_point_real64 fOffset;

	int32 fColumn;
	int32 fPlane;

	uint32 fRowIndex1;
	uint32 fRowIndex2;
	real32 fRowFract;

	int32 fResetColumn;

	real32 fValueBase;
	real32 fValueStep;
	real32 fValueIndex;

	public:

	dng_gain_map_interpolator (const dng_gain_map &map,
	const dng_rect &mapBounds,
	int32 row,
	int32 column,
	uint32 plane);

	real32 Interpolate () const
	{

	return fValueBase + fValueStep * fValueIndex;

	}

	void Increment ()
	{

	if (++fColumn >= fResetColumn)
	{

	ResetColumn ();

	}

	else
	{

	fValueIndex += 1.0f;

	}

	}

	private:

	real32 InterpolateEntry (uint32 colIndex);

	void ResetColumn ();

	};

	/*****************************************************************************/

	dng_gain_map_interpolator::dng_gain_map_interpolator (const dng_gain_map &map,
	const dng_rect &mapBounds,
	int32 row,
	int32 column,
	uint32 plane)

	: fMap (map)

	, fScale (1.0 / mapBounds.H (),
	1.0 / mapBounds.W ())

	, fOffset (0.5 - mapBounds.t,
	0.5 - mapBounds.l)

	, fColumn (column)
	, fPlane (plane)

	, fRowIndex1 (0)
	, fRowIndex2 (0)
	, fRowFract (0.0f)

	, fResetColumn (0)

	, fValueBase (0.0f)
	, fValueStep (0.0f)
	, fValueIndex (0.0f)

	{

	real64 rowIndexF = (fScale.v * (row + fOffset.v) -
	fMap.Origin ().v) / fMap.Spacing ().v;

	if (rowIndexF <= 0.0)
	{

	fRowIndex1 = 0;
	fRowIndex2 = 0;

	fRowFract = 0.0f;

	}

	else
	{

	if (fMap.Points ().v < 1)
	{
	ThrowProgramError ("Empty gain map");
	}
	uint32 lastRow = static_cast<uint32> (fMap.Points ().v - 1);

	if (rowIndexF >= static_cast<real64> (lastRow))
	{

	fRowIndex1 = lastRow;
	fRowIndex2 = fRowIndex1;

	fRowFract = 0.0f;

	}

	else
	{

	// If we got here, we know that rowIndexF can safely be converted to
	// a uint32 and that static_cast<uint32> (rowIndexF) < lastRow. This
	// implies fRowIndex2 <= lastRow below.
	fRowIndex1 = static_cast<uint32> (rowIndexF);
	fRowIndex2 = fRowIndex1 + 1;

	fRowFract = (real32) (rowIndexF - (real64) fRowIndex1);

	}

	}

	ResetColumn ();

	}

	/*****************************************************************************/

	real32 dng_gain_map_interpolator::InterpolateEntry (uint32 colIndex)
	{

	return fMap.Entry (fRowIndex1, colIndex, fPlane) * (1.0f - fRowFract) +
	fMap.Entry (fRowIndex2, colIndex, fPlane) * ( fRowFract);

	}

	/*****************************************************************************/

	void dng_gain_map_interpolator::ResetColumn ()
	{

	real64 colIndexF = ((fScale.h * (fColumn + fOffset.h)) -
	fMap.Origin ().h) / fMap.Spacing ().h;

	if (colIndexF <= 0.0)
	{

	fValueBase = InterpolateEntry (0);

	fValueStep = 0.0f;

	fResetColumn = (int32) ceil (fMap.Origin ().h / fScale.h - fOffset.h);

	}

	else
	{

	if (fMap.Points ().h < 1)
	{
	ThrowProgramError ("Empty gain map");
	}
	uint32 lastCol = static_cast<uint32> (fMap.Points ().h - 1);

	if (colIndexF >= static_cast<real64> (lastCol))
	{

	fValueBase = InterpolateEntry (lastCol);

	fValueStep = 0.0f;

	fResetColumn = 0x7FFFFFFF;

	}

	else
	{

	// If we got here, we know that colIndexF can safely be converted to
	// a uint32 and that static_cast<uint32> (colIndexF) < lastCol. This
	// implies colIndex + 1 <= lastCol, i.e. the argument to
	// InterpolateEntry() below is valid.
	uint32 colIndex = static_cast<uint32> (colIndexF);
	real64 base = InterpolateEntry (colIndex);
	real64 delta = InterpolateEntry (colIndex + 1) - base;

	fValueBase = (real32) (base + delta * (colIndexF - (real64) colIndex));

	fValueStep = (real32) ((delta * fScale.h) / fMap.Spacing ().h);

	fResetColumn = (int32) ceil (((colIndex + 1) * fMap.Spacing ().h +
	fMap.Origin ().h) / fScale.h - fOffset.h);

	}

	}

	fValueIndex = 0.0f;

	}

	/*****************************************************************************/

	dng_gain_map::dng_gain_map (dng_memory_allocator &allocator,
	const dng_point &points,
	const dng_point_real64 &spacing,
	const dng_point_real64 &origin,
	uint32 planes)

	: fPoints (points)
	, fSpacing (spacing)
	, fOrigin (origin)
	, fPlanes (planes)

	, fRowStep (SafeUint32Mult(planes, points.h))

	, fBuffer ()

	{

	fBuffer.Reset (allocator.Allocate (
	ComputeBufferSize (ttFloat, fPoints, fPlanes, pad16Bytes)));

	}

	/*****************************************************************************/

	real32 dng_gain_map::Interpolate (int32 row,
	int32 col,
	uint32 plane,
	const dng_rect &bounds) const
	{

	dng_gain_map_interpolator interp (*this,
	bounds,
	row,
	col,
	plane);

	return interp.Interpolate ();

	}

	/*****************************************************************************/

	uint32 dng_gain_map::PutStreamSize () const
	{

	return 44 + fPoints.v * fPoints.h * fPlanes * 4;

	}

	/*****************************************************************************/

	void dng_gain_map::PutStream (dng_stream &stream) const
	{

	stream.Put_uint32 (fPoints.v);
	stream.Put_uint32 (fPoints.h);

	stream.Put_real64 (fSpacing.v);
	stream.Put_real64 (fSpacing.h);

	stream.Put_real64 (fOrigin.v);
	stream.Put_real64 (fOrigin.h);

	stream.Put_uint32 (fPlanes);

	for (int32 rowIndex = 0; rowIndex < fPoints.v; rowIndex++)
	{

	for (int32 colIndex = 0; colIndex < fPoints.h; colIndex++)
	{

	for (uint32 plane = 0; plane < fPlanes; plane++)
	{

	stream.Put_real32 (Entry (rowIndex,
	colIndex,
	plane));

	}

	}

	}

	}

	/*****************************************************************************/

	dng_gain_map * dng_gain_map::GetStream (dng_host &host,
	dng_stream &stream)
	{

	dng_point mapPoints;

	mapPoints.v = stream.Get_uint32 ();
	mapPoints.h = stream.Get_uint32 ();

	dng_point_real64 mapSpacing;

	mapSpacing.v = stream.Get_real64 ();
	mapSpacing.h = stream.Get_real64 ();

	dng_point_real64 mapOrigin;

	mapOrigin.v = stream.Get_real64 ();
	mapOrigin.h = stream.Get_real64 ();

	uint32 mapPlanes = stream.Get_uint32 ();

	#if qDNGValidate

	if (gVerbose)
	{

	printf ("Points: v=%d, h=%d\n",
	(int) mapPoints.v,
	(int) mapPoints.h);

	printf ("Spacing: v=%.6f, h=%.6f\n",
	mapSpacing.v,
	mapSpacing.h);

	printf ("Origin: v=%.6f, h=%.6f\n",
	mapOrigin.v,
	mapOrigin.h);

	printf ("Planes: %u\n",
	(unsigned) mapPlanes);

	}

	#endif

	if (mapPoints.v == 1)
	{
	mapSpacing.v = 1.0;
	mapOrigin.v = 0.0;
	}

	if (mapPoints.h == 1)
	{
	mapSpacing.h = 1.0;
	mapOrigin.h = 0.0;
	}

	if (mapPoints.v < 1 \|\|
	mapPoints.h < 1 \|\|
	mapSpacing.v <= 0.0 \|\|
	mapSpacing.h <= 0.0 \|\|
	mapPlanes < 1)
	{
	ThrowBadFormat ();
	}

	AutoPtr<dng_gain_map> map (new dng_gain_map (host.Allocator (),
	mapPoints,
	mapSpacing,
	mapOrigin,
	mapPlanes));

	#if qDNGValidate

	uint32 linesPrinted = 0;
	uint32 linesSkipped = 0;

	#endif

	for (int32 rowIndex = 0; rowIndex < mapPoints.v; rowIndex++)
	{

	for (int32 colIndex = 0; colIndex < mapPoints.h; colIndex++)
	{

	for (uint32 plane = 0; plane < mapPlanes; plane++)
	{

	real32 x = stream.Get_real32 ();

	map->Entry (rowIndex, colIndex, plane) = x;

	#if qDNGValidate

	if (gVerbose)
	{

	if (linesPrinted < gDumpLineLimit)
	{

	printf (" Map [%3u] [%3u] [%u] = %.4f\n",
	(unsigned) rowIndex,
	(unsigned) colIndex,
	(unsigned) plane,
	x);

	linesPrinted++;

	}

	else
	linesSkipped++;

	}

	#endif

	}

	}

	}

	#if qDNGValidate

	if (linesSkipped)
	{

	printf (" ... %u map entries skipped\n", (unsigned) linesSkipped);

	}

	#endif

	return map.Release ();

	}

	/*****************************************************************************/

	dng_opcode_GainMap::dng_opcode_GainMap (const dng_area_spec &areaSpec,
	AutoPtr<dng_gain_map> &gainMap)

	: dng_inplace_opcode (dngOpcode_GainMap,
	dngVersion_1_3_0_0,
	kFlag_None)

	, fAreaSpec (areaSpec)

	, fGainMap ()

	{

	fGainMap.Reset (gainMap.Release ());

	}

	/*****************************************************************************/

	dng_opcode_GainMap::dng_opcode_GainMap (dng_host &host,
	dng_stream &stream)

	: dng_inplace_opcode (dngOpcode_GainMap,
	stream,
	"GainMap")

	, fAreaSpec ()

	, fGainMap ()

	{

	uint32 byteCount = stream.Get_uint32 ();

	uint64 startPosition = stream.Position ();

	fAreaSpec.GetData (stream);

	fGainMap.Reset (dng_gain_map::GetStream (host, stream));

	if (stream.Position () != startPosition + byteCount)
	{
	ThrowBadFormat ();
	}

	}

	/*****************************************************************************/

	void dng_opcode_GainMap::PutData (dng_stream &stream) const
	{

	stream.Put_uint32 (dng_area_spec::kDataSize +
	fGainMap->PutStreamSize ());

	fAreaSpec.PutData (stream);

	fGainMap->PutStream (stream);

	}

	/*****************************************************************************/

	void dng_opcode_GainMap::ProcessArea (dng_negative & /* negative */,
	uint32 /* threadIndex */,
	dng_pixel_buffer &buffer,
	const dng_rect &dstArea,
	const dng_rect &imageBounds)
	{

	dng_rect overlap = fAreaSpec.Overlap (dstArea);

	if (overlap.NotEmpty ())
	{

	uint32 cols = overlap.W ();

	uint32 colPitch = fAreaSpec.ColPitch ();

	for (uint32 plane = fAreaSpec.Plane ();
	plane < fAreaSpec.Plane () + fAreaSpec.Planes () &&
	plane < buffer.Planes ();
	plane++)
	{

	uint32 mapPlane = Min_uint32 (plane, fGainMap->Planes () - 1);

	for (int32 row = overlap.t; row < overlap.b; row += fAreaSpec.RowPitch ())
	{

	real32 *dPtr = buffer.DirtyPixel_real32 (row, overlap.l, plane);

	dng_gain_map_interpolator interp (*fGainMap,
	imageBounds,
	row,
	overlap.l,
	mapPlane);

	for (uint32 col = 0; col < cols; col += colPitch)
	{

	real32 gain = interp.Interpolate ();

	dPtr [col] = Min_real32 (dPtr [col] * gain, 1.0f);

	for (uint32 j = 0; j < colPitch; j++)
	{
	interp.Increment ();
	}

	}

	}

	}

	}

	}

	/*****************************************************************************/