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

 /*****************************************************************************/
 // Copyright 2011 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_jpeg_image.cpp#1 $ */
 /* $DateTime: 2012/05/30 13:28:51 $ */
 /* $Change: 832332 $ */
 /* $Author: tknoll $ */

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

 #include "dng_jpeg_image.h"

 #include "dng_abort_sniffer.h"
 #include "dng_area_task.h"
 #include "dng_assertions.h"
 #include "dng_host.h"
 #include "dng_ifd.h"
 #include "dng_image.h"
 #include "dng_image_writer.h"
 #include "dng_memory_stream.h"
 #include "dng_mutex.h"
 #include "dng_safe_arithmetic.h"

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

 dng_jpeg_image::dng_jpeg_image ()

 	:	fImageSize  ()
 	,	fTileSize   ()
 	,	fUsesStrips (false)
 	,	fJPEGTables ()
 	,	fJPEGData   ()

 	{

 	}

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

 class dng_jpeg_image_encode_task : public dng_area_task
 	{

 	private:

 		dng_host &fHost;

 		dng_image_writer &fWriter;

 		const dng_image &fImage;

 		dng_jpeg_image &fJPEGImage;

 		uint32 fTileCount;

 		const dng_ifd &fIFD;

 		dng_mutex fMutex;

 		uint32 fNextTileIndex;

 	public:

 		dng_jpeg_image_encode_task (dng_host &host,
 									dng_image_writer &writer,
 									const dng_image &image,
 									dng_jpeg_image &jpegImage,
 									uint32 tileCount,
 									const dng_ifd &ifd)

 			:	fHost			  (host)
 			,	fWriter			  (writer)
 			,	fImage			  (image)
 			,	fJPEGImage        (jpegImage)
 			,	fTileCount		  (tileCount)
 			,	fIFD		      (ifd)
 			,	fMutex			  ("dng_jpeg_image_encode_task")
 			,	fNextTileIndex	  (0)

 			{

 			fMinTaskArea = 16 * 16;
 			fUnitCell    = dng_point (16, 16);
 			fMaxTileSize = dng_point (16, 16);

 			}

 		void Process (uint32 /* threadIndex */,
 					  const dng_rect & /* tile */,
 					  dng_abort_sniffer *sniffer)
 			{

 			AutoPtr<dng_memory_block> compressedBuffer;
 			AutoPtr<dng_memory_block> uncompressedBuffer;
 			AutoPtr<dng_memory_block> subTileBlockBuffer;
 			AutoPtr<dng_memory_block> tempBuffer;

 			uint32 uncompressedSize = SafeUint32Mult (
 				fIFD.fTileLength, fIFD.fTileWidth, fIFD.fSamplesPerPixel);

 			uncompressedBuffer.Reset (fHost.Allocate (uncompressedSize));

 			uint32 tilesAcross = fIFD.TilesAcross ();

 			while (true)
 				{

 				uint32 tileIndex;

 					{

 					dng_lock_mutex lock (&fMutex);

 					if (fNextTileIndex == fTileCount)
 						{
 						return;
 						}

 					tileIndex = fNextTileIndex++;

 					}

 				dng_abort_sniffer::SniffForAbort (sniffer);

 				uint32 rowIndex = tileIndex / tilesAcross;
 				uint32 colIndex = tileIndex % tilesAcross;

 				dng_rect tileArea = fIFD.TileArea (rowIndex, colIndex);

 				dng_memory_stream stream (fHost.Allocator ());

 				fWriter.WriteTile (fHost,
 								   fIFD,
 								   stream,
 								   fImage,
 								   tileArea,
 								   1,
 								   compressedBuffer,
 								   uncompressedBuffer,
 								   subTileBlockBuffer,
 								   tempBuffer);

 				fJPEGImage.fJPEGData [tileIndex].Reset (stream.AsMemoryBlock (fHost.Allocator ()));

 				}

 			}

 	private:

 		// Hidden copy constructor and assignment operator.

 		dng_jpeg_image_encode_task (const dng_jpeg_image_encode_task &);

 		dng_jpeg_image_encode_task & operator= (const dng_jpeg_image_encode_task &);

 	};

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

 void dng_jpeg_image::Encode (dng_host &host,
 							 const dng_negative &negative,
 							 dng_image_writer &writer,
 							 const dng_image &image)
 	{

 	#if qDNGValidate
 	dng_timer timer ("Encode JPEG Proxy time");
 	#endif

 	DNG_ASSERT (image.PixelType () == ttByte, "Cannot JPEG encode non-byte image");

 	fImageSize = image.Bounds ().Size ();

 	dng_ifd ifd;

 	ifd.fImageWidth  = fImageSize.h;
 	ifd.fImageLength = fImageSize.v;

 	ifd.fSamplesPerPixel = image.Planes ();

 	ifd.fBitsPerSample [0] = 8;
 	ifd.fBitsPerSample [1] = 8;
 	ifd.fBitsPerSample [2] = 8;
 	ifd.fBitsPerSample [3] = 8;

 	ifd.fPhotometricInterpretation = piLinearRaw;

 	ifd.fCompression = ccLossyJPEG;

 	ifd.FindTileSize (512 * 512 * ifd.fSamplesPerPixel);

 	fTileSize.h = ifd.fTileWidth;
 	fTileSize.v = ifd.fTileLength;

 	// Need a higher quality for raw proxies than non-raw proxies,
 	// since users often perform much greater color changes.  Also, use
 	// we are targeting a "large" size proxy (larger than 5MP pixels), or this
 	// is a full size proxy, then use a higher quality.

 	bool useHigherQuality = (uint64) ifd.fImageWidth *
 							(uint64) ifd.fImageLength > 5000000 ||
 							image.Bounds ().Size () == negative.OriginalDefaultFinalSize ();

 	if (negative.ColorimetricReference () == crSceneReferred)
 		{
 		ifd.fCompressionQuality = useHigherQuality ? 11 : 10;
 		}
 	else
 		{
 		ifd.fCompressionQuality = useHigherQuality ? 10 : 8;
 		}

 	uint32 tilesAcross = ifd.TilesAcross ();
 	uint32 tilesDown   = ifd.TilesDown   ();

 	uint32 tileCount = tilesAcross * tilesDown;

 	fJPEGData.Reset (tileCount);

 	uint32 threadCount = Min_uint32 (tileCount,
 									 host.PerformAreaTaskThreads ());

 	dng_jpeg_image_encode_task task (host,
 									 writer,
 									 image,
 									 *this,
 									 tileCount,
 									 ifd);

 	host.PerformAreaTask (task,
 						  dng_rect (0, 0, 16, 16 * threadCount));

 	}

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

 class dng_jpeg_image_find_digest_task : public dng_area_task
 	{

 	private:

 		const dng_jpeg_image &fJPEGImage;

 		uint32 fTileCount;

 		dng_fingerprint *fDigests;

 		dng_mutex fMutex;

 		uint32 fNextTileIndex;

 	public:

 		dng_jpeg_image_find_digest_task (const dng_jpeg_image &jpegImage,
 										 uint32 tileCount,
 										 dng_fingerprint *digests)

 			:	fJPEGImage        (jpegImage)
 			,	fTileCount		  (tileCount)
 			,	fDigests		  (digests)
 			,	fMutex			  ("dng_jpeg_image_find_digest_task")
 			,	fNextTileIndex	  (0)

 			{

 			fMinTaskArea = 16 * 16;
 			fUnitCell    = dng_point (16, 16);
 			fMaxTileSize = dng_point (16, 16);

 			}

 		void Process (uint32 /* threadIndex */,
 					  const dng_rect & /* tile */,
 					  dng_abort_sniffer *sniffer)
 			{

 			while (true)
 				{

 				uint32 tileIndex;

 					{

 					dng_lock_mutex lock (&fMutex);

 					if (fNextTileIndex == fTileCount)
 						{
 						return;
 						}

 					tileIndex = fNextTileIndex++;

 					}

 				dng_abort_sniffer::SniffForAbort (sniffer);

 				dng_md5_printer printer;

 				printer.Process (fJPEGImage.fJPEGData [tileIndex]->Buffer      (),
 								 fJPEGImage.fJPEGData [tileIndex]->LogicalSize ());

 				fDigests [tileIndex] = printer.Result ();

 				}

 			}

 	private:

 		// Hidden copy constructor and assignment operator.

 		dng_jpeg_image_find_digest_task (const dng_jpeg_image_find_digest_task &);

 		dng_jpeg_image_find_digest_task & operator= (const dng_jpeg_image_find_digest_task &);

 	};

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

 dng_fingerprint dng_jpeg_image::FindDigest (dng_host &host) const
 	{

 	uint32 tileCount = TileCount ();

 	uint32 arrayCount = tileCount + (fJPEGTables.Get () ? 1 : 0);

 	AutoArray<dng_fingerprint> digests (arrayCount);

 	// Compute digest of each compressed tile.

 		{

 		uint32 threadCount = Min_uint32 (tileCount,
 										 host.PerformAreaTaskThreads ());

 		dng_jpeg_image_find_digest_task task (*this,
 											  tileCount,
 											  digests.Get ());

 		host.PerformAreaTask (task,
 							  dng_rect (0, 0, 16, 16 * threadCount));

 		}

 	// Compute digest of JPEG tables, if any.

 	if (fJPEGTables.Get ())
 		{

 		dng_md5_printer printer;

 		printer.Process (fJPEGTables->Buffer      (),
 						 fJPEGTables->LogicalSize ());

 		digests [tileCount] = printer.Result ();

 		}

 	// Combine digests into a single digest.

 		{

 		dng_md5_printer printer;

 		for (uint32 k = 0; k < arrayCount; k++)
 			{

 			printer.Process (digests [k].data,
 							 dng_fingerprint::kDNGFingerprintSize);

 			}

 		return printer.Result ();

 		}

 	}

 /*****************************************************************************/
	/*****************************************************************************/
	// Copyright 2011 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_jpeg_image.cpp#1 $ */
	/* $DateTime: 2012/05/30 13:28:51 $ */
	/* $Change: 832332 $ */
	/* $Author: tknoll $ */

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

	#include "dng_jpeg_image.h"

	#include "dng_abort_sniffer.h"
	#include "dng_area_task.h"
	#include "dng_assertions.h"
	#include "dng_host.h"
	#include "dng_ifd.h"
	#include "dng_image.h"
	#include "dng_image_writer.h"
	#include "dng_memory_stream.h"
	#include "dng_mutex.h"
	#include "dng_safe_arithmetic.h"

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

	dng_jpeg_image::dng_jpeg_image ()

	: fImageSize ()
	, fTileSize ()
	, fUsesStrips (false)
	, fJPEGTables ()
	, fJPEGData ()

	{

	}

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

	class dng_jpeg_image_encode_task : public dng_area_task
	{

	private:

	dng_host &fHost;

	dng_image_writer &fWriter;

	const dng_image &fImage;

	dng_jpeg_image &fJPEGImage;

	uint32 fTileCount;

	const dng_ifd &fIFD;

	dng_mutex fMutex;

	uint32 fNextTileIndex;

	public:

	dng_jpeg_image_encode_task (dng_host &host,
	dng_image_writer &writer,
	const dng_image &image,
	dng_jpeg_image &jpegImage,
	uint32 tileCount,
	const dng_ifd &ifd)

	: fHost (host)
	, fWriter (writer)
	, fImage (image)
	, fJPEGImage (jpegImage)
	, fTileCount (tileCount)
	, fIFD (ifd)
	, fMutex ("dng_jpeg_image_encode_task")
	, fNextTileIndex (0)

	{

	fMinTaskArea = 16 * 16;
	fUnitCell = dng_point (16, 16);
	fMaxTileSize = dng_point (16, 16);

	}

	void Process (uint32 /* threadIndex */,
	const dng_rect & /* tile */,
	dng_abort_sniffer *sniffer)
	{

	AutoPtr<dng_memory_block> compressedBuffer;
	AutoPtr<dng_memory_block> uncompressedBuffer;
	AutoPtr<dng_memory_block> subTileBlockBuffer;
	AutoPtr<dng_memory_block> tempBuffer;

	uint32 uncompressedSize = SafeUint32Mult (
	fIFD.fTileLength, fIFD.fTileWidth, fIFD.fSamplesPerPixel);

	uncompressedBuffer.Reset (fHost.Allocate (uncompressedSize));

	uint32 tilesAcross = fIFD.TilesAcross ();

	while (true)
	{

	uint32 tileIndex;

	{

	dng_lock_mutex lock (&fMutex);

	if (fNextTileIndex == fTileCount)
	{
	return;
	}

	tileIndex = fNextTileIndex++;

	}

	dng_abort_sniffer::SniffForAbort (sniffer);

	uint32 rowIndex = tileIndex / tilesAcross;
	uint32 colIndex = tileIndex % tilesAcross;

	dng_rect tileArea = fIFD.TileArea (rowIndex, colIndex);

	dng_memory_stream stream (fHost.Allocator ());

	fWriter.WriteTile (fHost,
	fIFD,
	stream,
	fImage,
	tileArea,
	1,
	compressedBuffer,
	uncompressedBuffer,
	subTileBlockBuffer,
	tempBuffer);

	fJPEGImage.fJPEGData [tileIndex].Reset (stream.AsMemoryBlock (fHost.Allocator ()));

	}

	}

	private:

	// Hidden copy constructor and assignment operator.

	dng_jpeg_image_encode_task (const dng_jpeg_image_encode_task &);

	dng_jpeg_image_encode_task & operator= (const dng_jpeg_image_encode_task &);

	};

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

	void dng_jpeg_image::Encode (dng_host &host,
	const dng_negative &negative,
	dng_image_writer &writer,
	const dng_image &image)
	{

	#if qDNGValidate
	dng_timer timer ("Encode JPEG Proxy time");
	#endif

	DNG_ASSERT (image.PixelType () == ttByte, "Cannot JPEG encode non-byte image");

	fImageSize = image.Bounds ().Size ();

	dng_ifd ifd;

	ifd.fImageWidth = fImageSize.h;
	ifd.fImageLength = fImageSize.v;

	ifd.fSamplesPerPixel = image.Planes ();

	ifd.fBitsPerSample [0] = 8;
	ifd.fBitsPerSample [1] = 8;
	ifd.fBitsPerSample [2] = 8;
	ifd.fBitsPerSample [3] = 8;

	ifd.fPhotometricInterpretation = piLinearRaw;

	ifd.fCompression = ccLossyJPEG;

	ifd.FindTileSize (512 * 512 * ifd.fSamplesPerPixel);

	fTileSize.h = ifd.fTileWidth;
	fTileSize.v = ifd.fTileLength;

	// Need a higher quality for raw proxies than non-raw proxies,
	// since users often perform much greater color changes. Also, use
	// we are targeting a "large" size proxy (larger than 5MP pixels), or this
	// is a full size proxy, then use a higher quality.

	bool useHigherQuality = (uint64) ifd.fImageWidth *
	(uint64) ifd.fImageLength > 5000000 \|\|
	image.Bounds ().Size () == negative.OriginalDefaultFinalSize ();

	if (negative.ColorimetricReference () == crSceneReferred)
	{
	ifd.fCompressionQuality = useHigherQuality ? 11 : 10;
	}
	else
	{
	ifd.fCompressionQuality = useHigherQuality ? 10 : 8;
	}

	uint32 tilesAcross = ifd.TilesAcross ();
	uint32 tilesDown = ifd.TilesDown ();

	uint32 tileCount = tilesAcross * tilesDown;

	fJPEGData.Reset (tileCount);

	uint32 threadCount = Min_uint32 (tileCount,
	host.PerformAreaTaskThreads ());

	dng_jpeg_image_encode_task task (host,
	writer,
	image,
	*this,
	tileCount,
	ifd);

	host.PerformAreaTask (task,
	dng_rect (0, 0, 16, 16 * threadCount));

	}

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

	class dng_jpeg_image_find_digest_task : public dng_area_task
	{

	private:

	const dng_jpeg_image &fJPEGImage;

	uint32 fTileCount;

	dng_fingerprint *fDigests;

	dng_mutex fMutex;

	uint32 fNextTileIndex;

	public:

	dng_jpeg_image_find_digest_task (const dng_jpeg_image &jpegImage,
	uint32 tileCount,
	dng_fingerprint *digests)

	: fJPEGImage (jpegImage)
	, fTileCount (tileCount)
	, fDigests (digests)
	, fMutex ("dng_jpeg_image_find_digest_task")
	, fNextTileIndex (0)

	{

	fMinTaskArea = 16 * 16;
	fUnitCell = dng_point (16, 16);
	fMaxTileSize = dng_point (16, 16);

	}

	void Process (uint32 /* threadIndex */,
	const dng_rect & /* tile */,
	dng_abort_sniffer *sniffer)
	{

	while (true)
	{

	uint32 tileIndex;

	{

	dng_lock_mutex lock (&fMutex);

	if (fNextTileIndex == fTileCount)
	{
	return;
	}

	tileIndex = fNextTileIndex++;

	}

	dng_abort_sniffer::SniffForAbort (sniffer);

	dng_md5_printer printer;

	printer.Process (fJPEGImage.fJPEGData [tileIndex]->Buffer (),
	fJPEGImage.fJPEGData [tileIndex]->LogicalSize ());

	fDigests [tileIndex] = printer.Result ();

	}

	}

	private:

	// Hidden copy constructor and assignment operator.

	dng_jpeg_image_find_digest_task (const dng_jpeg_image_find_digest_task &);

	dng_jpeg_image_find_digest_task & operator= (const dng_jpeg_image_find_digest_task &);

	};

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

	dng_fingerprint dng_jpeg_image::FindDigest (dng_host &host) const
	{

	uint32 tileCount = TileCount ();

	uint32 arrayCount = tileCount + (fJPEGTables.Get () ? 1 : 0);

	AutoArray<dng_fingerprint> digests (arrayCount);

	// Compute digest of each compressed tile.

	{

	uint32 threadCount = Min_uint32 (tileCount,
	host.PerformAreaTaskThreads ());

	dng_jpeg_image_find_digest_task task (*this,
	tileCount,
	digests.Get ());

	host.PerformAreaTask (task,
	dng_rect (0, 0, 16, 16 * threadCount));

	}

	// Compute digest of JPEG tables, if any.

	if (fJPEGTables.Get ())
	{

	dng_md5_printer printer;

	printer.Process (fJPEGTables->Buffer (),
	fJPEGTables->LogicalSize ());

	digests [tileCount] = printer.Result ();

	}

	// Combine digests into a single digest.

	{

	dng_md5_printer printer;

	for (uint32 k = 0; k < arrayCount; k++)
	{

	printer.Process (digests [k].data,
	dng_fingerprint::kDNGFingerprintSize);

	}

	return printer.Result ();

	}

	}

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