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

 /*****************************************************************************/
 // Copyright 2006-2012 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_area_task.cpp#1 $ */
 /* $DateTime: 2012/05/30 13:28:51 $ */
 /* $Change: 832332 $ */
 /* $Author: tknoll $ */

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

 #include "dng_area_task.h"

 #include "dng_abort_sniffer.h"
 #include "dng_flags.h"
 #include "dng_sdk_limits.h"
 #include "dng_tile_iterator.h"
 #include "dng_utils.h"

 #if qImagecore
 extern bool gPrintTimings;
 #endif

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

 dng_area_task::dng_area_task ()

 	:	fMaxThreads   (kMaxMPThreads)

 	,	fMinTaskArea  (256 * 256)

 	,	fUnitCell	  (1, 1)

 	,	fMaxTileSize  (256, 256)

 	{

 	}

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

 dng_area_task::~dng_area_task ()
 	{

 	}

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

 dng_rect dng_area_task::RepeatingTile1 () const
 	{

 	return dng_rect ();

 	}

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

 dng_rect dng_area_task::RepeatingTile2 () const
 	{

 	return dng_rect ();

 	}

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

 dng_rect dng_area_task::RepeatingTile3 () const
 	{

 	return dng_rect ();

 	}

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

 void dng_area_task::Start (uint32 /* threadCount */,
 						   const dng_point & /* tileSize */,
 						   dng_memory_allocator * /* allocator */,
 						   dng_abort_sniffer * /* sniffer */)
 	{

 	}

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

 void dng_area_task::Finish (uint32 /* threadCount */)
 	{

 	}

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

 dng_point dng_area_task::FindTileSize (const dng_rect &area) const
 	{

 	dng_rect repeatingTile1 = RepeatingTile1 ();
 	dng_rect repeatingTile2 = RepeatingTile2 ();
 	dng_rect repeatingTile3 = RepeatingTile3 ();

 	if (repeatingTile1.IsEmpty ())
 		{
 		repeatingTile1 = area;
 		}

 	if (repeatingTile2.IsEmpty ())
 		{
 		repeatingTile2 = area;
 		}

 	if (repeatingTile3.IsEmpty ())
 		{
 		repeatingTile3 = area;
 		}

 	uint32 repeatV = Min_uint32 (Min_uint32 (repeatingTile1.H (),
 											 repeatingTile2.H ()),
 											 repeatingTile3.H ());

 	uint32 repeatH = Min_uint32 (Min_uint32 (repeatingTile1.W (),
 											 repeatingTile2.W ()),
 											 repeatingTile3.W ());

 	dng_point maxTileSize = MaxTileSize ();

 	dng_point tileSize;

 	tileSize.v = Min_int32 (repeatV, maxTileSize.v);
 	tileSize.h = Min_int32 (repeatH, maxTileSize.h);

 	// What this is doing is, if the smallest repeating image tile is larger than the
 	// maximum tile size, adjusting the tile size down so that the tiles are as small
 	// as possible while still having the same number of tiles covering the
 	// repeat area.  This makes the areas more equal in size, making MP
 	// algorithms work better.

 	// The image core team did not understand this code, and disabled it.
 	// Really stupid idea to turn off code you don't understand!
 	// I'm undoing this removal, because I think the code is correct and useful.

 	uint32 countV = (repeatV + tileSize.v - 1) / tileSize.v;
 	uint32 countH = (repeatH + tileSize.h - 1) / tileSize.h;

 	tileSize.v = (repeatV + countV - 1) / countV;
 	tileSize.h = (repeatH + countH - 1) / countH;

 	// Round up to unit cell size.

 	dng_point unitCell = UnitCell ();

 	if (unitCell.h != 1 || unitCell.v != 1)
 		{
 		tileSize.v = ((tileSize.v + unitCell.v - 1) / unitCell.v) * unitCell.v;
 		tileSize.h = ((tileSize.h + unitCell.h - 1) / unitCell.h) * unitCell.h;
 		}

 	// But if that is larger than maximum tile size, round down to unit cell size.

 	if (tileSize.v > maxTileSize.v)
 		{
 		tileSize.v = (maxTileSize.v / unitCell.v) * unitCell.v;
 		}

 	if (tileSize.h > maxTileSize.h)
 		{
 		tileSize.h = (maxTileSize.h / unitCell.h) * unitCell.h;
 		}

 	#if qImagecore
     if (gPrintTimings)
 		{
         fprintf (stdout, "\nRender tile for below: %d x %d\n", (int32) tileSize.h, (int32) tileSize.v);
 		}
 	#endif

 	return tileSize;

 	}

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

 void dng_area_task::ProcessOnThread (uint32 threadIndex,
 									 const dng_rect &area,
 									 const dng_point &tileSize,
 									 dng_abort_sniffer *sniffer)
 	{

 	dng_rect repeatingTile1 = RepeatingTile1 ();
 	dng_rect repeatingTile2 = RepeatingTile2 ();
 	dng_rect repeatingTile3 = RepeatingTile3 ();

 	if (repeatingTile1.IsEmpty ())
 		{
 		repeatingTile1 = area;
 		}

 	if (repeatingTile2.IsEmpty ())
 		{
 		repeatingTile2 = area;
 		}

 	if (repeatingTile3.IsEmpty ())
 		{
 		repeatingTile3 = area;
 		}

 	dng_rect tile1;

 	dng_tile_iterator iter1 (repeatingTile3, area);

 	while (iter1.GetOneTile (tile1))
 		{

 		dng_rect tile2;

 		dng_tile_iterator iter2 (repeatingTile2, tile1);

 		while (iter2.GetOneTile (tile2))
 			{

 			dng_rect tile3;

 			dng_tile_iterator iter3 (repeatingTile1, tile2);

 			while (iter3.GetOneTile (tile3))
 				{

 				dng_rect tile4;

 				dng_tile_iterator iter4 (tileSize, tile3);

 				while (iter4.GetOneTile (tile4))
 					{

 					dng_abort_sniffer::SniffForAbort (sniffer);

 					Process (threadIndex, tile4, sniffer);

 					}

 				}

 			}

 		}

 	}

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

 void dng_area_task::Perform (dng_area_task &task,
 				  			 const dng_rect &area,
 				  			 dng_memory_allocator *allocator,
 				  			 dng_abort_sniffer *sniffer)
 	{

 	dng_point tileSize (task.FindTileSize (area));

 	task.Start (1, tileSize, allocator, sniffer);

 	task.ProcessOnThread (0, area, tileSize, sniffer);

 	task.Finish (1);

 	}

 /*****************************************************************************/
	/*****************************************************************************/
	// Copyright 2006-2012 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_area_task.cpp#1 $ */
	/* $DateTime: 2012/05/30 13:28:51 $ */
	/* $Change: 832332 $ */
	/* $Author: tknoll $ */

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

	#include "dng_area_task.h"

	#include "dng_abort_sniffer.h"
	#include "dng_flags.h"
	#include "dng_sdk_limits.h"
	#include "dng_tile_iterator.h"
	#include "dng_utils.h"

	#if qImagecore
	extern bool gPrintTimings;
	#endif

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

	dng_area_task::dng_area_task ()

	: fMaxThreads (kMaxMPThreads)

	, fMinTaskArea (256 * 256)

	, fUnitCell (1, 1)

	, fMaxTileSize (256, 256)

	{

	}

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

	dng_area_task::~dng_area_task ()
	{

	}

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

	dng_rect dng_area_task::RepeatingTile1 () const
	{

	return dng_rect ();

	}

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

	dng_rect dng_area_task::RepeatingTile2 () const
	{

	return dng_rect ();

	}

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

	dng_rect dng_area_task::RepeatingTile3 () const
	{

	return dng_rect ();

	}

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

	void dng_area_task::Start (uint32 /* threadCount */,
	const dng_point & /* tileSize */,
	dng_memory_allocator * /* allocator */,
	dng_abort_sniffer * /* sniffer */)
	{

	}

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

	void dng_area_task::Finish (uint32 /* threadCount */)
	{

	}

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

	dng_point dng_area_task::FindTileSize (const dng_rect &area) const
	{

	dng_rect repeatingTile1 = RepeatingTile1 ();
	dng_rect repeatingTile2 = RepeatingTile2 ();
	dng_rect repeatingTile3 = RepeatingTile3 ();

	if (repeatingTile1.IsEmpty ())
	{
	repeatingTile1 = area;
	}

	if (repeatingTile2.IsEmpty ())
	{
	repeatingTile2 = area;
	}

	if (repeatingTile3.IsEmpty ())
	{
	repeatingTile3 = area;
	}

	uint32 repeatV = Min_uint32 (Min_uint32 (repeatingTile1.H (),
	repeatingTile2.H ()),
	repeatingTile3.H ());

	uint32 repeatH = Min_uint32 (Min_uint32 (repeatingTile1.W (),
	repeatingTile2.W ()),
	repeatingTile3.W ());

	dng_point maxTileSize = MaxTileSize ();

	dng_point tileSize;

	tileSize.v = Min_int32 (repeatV, maxTileSize.v);
	tileSize.h = Min_int32 (repeatH, maxTileSize.h);

	// What this is doing is, if the smallest repeating image tile is larger than the
	// maximum tile size, adjusting the tile size down so that the tiles are as small
	// as possible while still having the same number of tiles covering the
	// repeat area. This makes the areas more equal in size, making MP
	// algorithms work better.

	// The image core team did not understand this code, and disabled it.
	// Really stupid idea to turn off code you don't understand!
	// I'm undoing this removal, because I think the code is correct and useful.

	uint32 countV = (repeatV + tileSize.v - 1) / tileSize.v;
	uint32 countH = (repeatH + tileSize.h - 1) / tileSize.h;

	tileSize.v = (repeatV + countV - 1) / countV;
	tileSize.h = (repeatH + countH - 1) / countH;

	// Round up to unit cell size.

	dng_point unitCell = UnitCell ();

	if (unitCell.h != 1 \|\| unitCell.v != 1)
	{
	tileSize.v = ((tileSize.v + unitCell.v - 1) / unitCell.v) * unitCell.v;
	tileSize.h = ((tileSize.h + unitCell.h - 1) / unitCell.h) * unitCell.h;
	}

	// But if that is larger than maximum tile size, round down to unit cell size.

	if (tileSize.v > maxTileSize.v)
	{
	tileSize.v = (maxTileSize.v / unitCell.v) * unitCell.v;
	}

	if (tileSize.h > maxTileSize.h)
	{
	tileSize.h = (maxTileSize.h / unitCell.h) * unitCell.h;
	}

	#if qImagecore
	if (gPrintTimings)
	{
	fprintf (stdout, "\nRender tile for below: %d x %d\n", (int32) tileSize.h, (int32) tileSize.v);
	}
	#endif

	return tileSize;

	}

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

	void dng_area_task::ProcessOnThread (uint32 threadIndex,
	const dng_rect &area,
	const dng_point &tileSize,
	dng_abort_sniffer *sniffer)
	{

	dng_rect repeatingTile1 = RepeatingTile1 ();
	dng_rect repeatingTile2 = RepeatingTile2 ();
	dng_rect repeatingTile3 = RepeatingTile3 ();

	if (repeatingTile1.IsEmpty ())
	{
	repeatingTile1 = area;
	}

	if (repeatingTile2.IsEmpty ())
	{
	repeatingTile2 = area;
	}

	if (repeatingTile3.IsEmpty ())
	{
	repeatingTile3 = area;
	}

	dng_rect tile1;

	dng_tile_iterator iter1 (repeatingTile3, area);

	while (iter1.GetOneTile (tile1))
	{

	dng_rect tile2;

	dng_tile_iterator iter2 (repeatingTile2, tile1);

	while (iter2.GetOneTile (tile2))
	{

	dng_rect tile3;

	dng_tile_iterator iter3 (repeatingTile1, tile2);

	while (iter3.GetOneTile (tile3))
	{

	dng_rect tile4;

	dng_tile_iterator iter4 (tileSize, tile3);

	while (iter4.GetOneTile (tile4))
	{

	dng_abort_sniffer::SniffForAbort (sniffer);

	Process (threadIndex, tile4, sniffer);

	}

	}

	}

	}

	}

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

	void dng_area_task::Perform (dng_area_task &task,
	const dng_rect &area,
	dng_memory_allocator *allocator,
	dng_abort_sniffer *sniffer)
	{

	dng_point tileSize (task.FindTileSize (area));

	task.Start (1, tileSize, allocator, sniffer);

	task.ProcessOnThread (0, area, tileSize, sniffer);

	task.Finish (1);

	}

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