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/** 
 * @file llviewerimage.h
 * @brief Object for managing images and their textures
 *
 * $LicenseInfo:firstyear=2000&license=viewergpl$
 * 
 * Copyright (c) 2000-2008, Linden Research, Inc.
 * 
 * Second Life Viewer Source Code
 * The source code in this file ("Source Code") is provided by Linden Lab
 * to you under the terms of the GNU General Public License, version 2.0
 * ("GPL"), unless you have obtained a separate licensing agreement
 * ("Other License"), formally executed by you and Linden Lab.  Terms of
 * the GPL can be found in doc/GPL-license.txt in this distribution, or
 * online at http://secondlifegrid.net/programs/open_source/licensing/gplv2
 * 
 * There are special exceptions to the terms and conditions of the GPL as
 * it is applied to this Source Code. View the full text of the exception
 * in the file doc/FLOSS-exception.txt in this software distribution, or
 * online at http://secondlifegrid.net/programs/open_source/licensing/flossexception
 * 
 * By copying, modifying or distributing this software, you acknowledge
 * that you have read and understood your obligations described above,
 * and agree to abide by those obligations.
 * 
 * ALL LINDEN LAB SOURCE CODE IS PROVIDED "AS IS." LINDEN LAB MAKES NO
 * WARRANTIES, EXPRESS, IMPLIED OR OTHERWISE, REGARDING ITS ACCURACY,
 * COMPLETENESS OR PERFORMANCE.
 * $/LicenseInfo$
 */

#ifndef LL_LLVIEWERIMAGE_H					
#define LL_LLVIEWERIMAGE_H

#include "llimagegl.h"
#include "lltimer.h"
#include "llframetimer.h"
#include "llhost.h"

#include <map>
#include <list>

class LLViewerImage;

typedef	void	(*loaded_callback_func)( BOOL success, LLViewerImage *src_vi, LLImageRaw* src, LLImageRaw* src_aux, S32 discard_level, BOOL final, void* userdata );

class LLVFile;
class LLMessageSystem;
 
class LLLoadedCallbackEntry
{
public:
	LLLoadedCallbackEntry(loaded_callback_func cb,
						  S32 discard_level,
						  BOOL need_imageraw, // Needs image raw for the callback
						  void* userdata ) 
		: mCallback(cb),
		  mLastUsedDiscard(MAX_DISCARD_LEVEL+1),
		  mDesiredDiscard(discard_level),
		  mNeedsImageRaw(need_imageraw),
		  mUserData(userdata)
	{
	}

	loaded_callback_func	mCallback;
	S32						mLastUsedDiscard;
	S32						mDesiredDiscard;
	BOOL					mNeedsImageRaw;
	void*					mUserData;
};

class LLTextureBar;

class LLViewerImage : public LLImageGL
{
        LOG_CLASS(LLViewerImage);

	friend class LLTextureBar; // debug info only
	friend class LLTextureView; // debug info only
	
public:
	static void initClass();
	static void cleanupClass();
	static void updateClass(const F32 velocity, const F32 angular_velocity);
	static BOOL bindTexture(LLImageGL* image, const U32 stage = 0)
	{
		if (image)
		{
			return image->bind(stage);
		}
		else
		{
			return sDefaultImagep->bind(stage);
		}
	}

	struct Compare
	{
		// lhs < rhs
		bool operator()(const LLPointer<LLViewerImage> &lhs, const LLPointer<LLViewerImage> &rhs) const
		{
			const LLViewerImage* lhsp = (const LLViewerImage*)lhs;
			const LLViewerImage* rhsp = (const LLViewerImage*)rhs;
			// greater priority is "less"
			const F32 lpriority = lhsp->getDecodePriority();
			const F32 rpriority = rhsp->getDecodePriority();
			if (lpriority > rpriority) // higher priority
				return true;
			if (lpriority < rpriority)
				return false;
			return lhsp < rhsp;
		}
	};

	struct CompareByHostAndPriority
	{
		// lhs < rhs
		bool operator()(const LLPointer<LLViewerImage> &lhs, const LLPointer<LLViewerImage> &rhs) const
		{
			const LLViewerImage* lhsp = (const LLViewerImage*)lhs;
			const LLViewerImage* rhsp = (const LLViewerImage*)rhs;
			if (lhsp->mTargetHost != rhsp->mTargetHost)
				return lhsp->mTargetHost < rhsp->mTargetHost;

			const F32 lpriority = lhsp->getDecodePriority();
			const F32 rpriority = rhsp->getDecodePriority();
			if (lpriority != rpriority)
				return lpriority > rpriority; // greater priority is "less"

			return lhsp < rhsp;
		}
	};

	struct CompareForRemoval
	{
		// lhs < rhs
		bool operator()(const LLPointer<LLViewerImage> &lhs, const LLPointer<LLViewerImage> &rhs) const
		{
			const LLViewerImage* lhsp = (const LLViewerImage*)lhs;
			const LLViewerImage* rhsp = (const LLViewerImage*)rhs;
			// compare bind time
			if (lhsp->mLastBindTime < rhsp->mLastBindTime) // older
				return true;
			if (lhsp->mLastBindTime > rhsp->mLastBindTime)
				return false;
			if (lhsp->getDiscardLevel() < rhsp->getDiscardLevel()) // larger
				return true;
			if (lhsp->getDiscardLevel() > rhsp->getDiscardLevel())
				return false;
			return lhsp < rhsp;
		}
	};

	struct CompareForWorstVisibility 
	{
		// lhs < rhs
		bool operator()(const LLPointer<LLViewerImage> &lhs, const LLPointer<LLViewerImage> &rhs) const
		{
			const LLViewerImage* lhsp = (const LLViewerImage*)lhs;
			const LLViewerImage* rhsp = (const LLViewerImage*)rhs;
			F32 lhsvis = ((lhsp->getWidth() * lhsp->getHeight()) / lhsp->mMaxVirtualSize);
			F32 rhsvis = ((rhsp->getWidth() * rhsp->getHeight()) / rhsp->mMaxVirtualSize);
			if (lhsvis > rhsvis) // fewer relative visible pixels
				return true;
			if (rhsvis < lhsvis)
				return false;
			return lhsp < rhsp;
		}
	};
	
	enum
	{
		MAX_IMAGE_SIZE_DEFAULT = 1024,
		INVALID_DISCARD_LEVEL = 0x7fff
	};

protected:
	/*virtual*/ ~LLViewerImage();
	
public:
	LLViewerImage(const LLUUID& id, BOOL usemipmaps = TRUE);
	LLViewerImage(const U32 width, const U32 height, const U8 components, BOOL usemipmaps);
	LLViewerImage(const LLImageRaw* raw, BOOL usemipmaps);

	/*virtual*/ void dump();	// debug info to llinfos

	/*virtual*/ BOOL bind(const S32 stage = 0) const;
	
	void reinit(BOOL usemipmaps = TRUE);

	const LLUUID& getID() { return mID; }

	// New methods for determining image quality/priority
	// texel_area_ratio is ("scaled" texel area)/(original texel area), approximately.
	void addTextureStats(F32 pixel_area) const
	{
		mMaxCosAngle = 1.0f;
		if (pixel_area > mMaxVirtualSize)
		{
			mMaxVirtualSize = pixel_area;
		}
	}
	void addTextureStats(F32 pixel_area,
						 F32 texel_area_ratio) const
	{
		mMaxCosAngle = 1.0f;
		F32 virtual_size = pixel_area / texel_area_ratio;
		if (virtual_size > mMaxVirtualSize)
		{
			mMaxVirtualSize = virtual_size;
		}
	}
	void addTextureStats(F32 pixel_area,
						 F32 texel_area_ratio,
						 F32 cos_center_angle) const;
	void resetTextureStats(BOOL zero = FALSE);

	// Process image stats to determine priority/quality requirements.
	void processTextureStats();

	// Set callbacks to get called when the image gets updated with higher 
	// resolution versions.
	void setLoadedCallback(loaded_callback_func cb,
						   S32 discard_level,
						   BOOL keep_imageraw,
						   void* userdata);

	 // ONLY call from LLViewerImageList
	BOOL createTexture(S32 usename = 0);

	BOOL needsAux() const							{ return mNeedsAux; }
	void setNeedsAux(const BOOL needs_aux)			{ mNeedsAux = needs_aux; }

	// setDesiredDiscardLevel is only used by LLViewerImageList
	void setDesiredDiscardLevel(S32 discard) { mDesiredDiscardLevel = discard; }
	S32  getDesiredDiscardLevel()			 { return mDesiredDiscardLevel; }

	void setMinDiscardLevel(S32 discard) 	{ mMinDesiredDiscardLevel = llmin(mMinDesiredDiscardLevel,(S8)discard); }
	
	// Host we think might have this image, used for baked av textures.
	void setTargetHost(LLHost host)			{ mTargetHost = host; }
	LLHost getTargetHost() const			{ return mTargetHost; }

	enum
	{
		BOOST_NONE 			= 0,
		BOOST_AVATAR_BAKED	= 1,
		BOOST_AVATAR		= 2,
		BOOST_CLOUDS		= 3,
		BOOST_SCULPTED      = 4,
		
		BOOST_HIGH 			= 10,
		BOOST_TERRAIN		= 11, // has to be high priority for minimap / low detail
		BOOST_SELECTED		= 12,
		BOOST_HUD			= 13,
		BOOST_AVATAR_BAKED_SELF	= 14,
		BOOST_UI			= 15,
		BOOST_PREVIEW		= 16,
		BOOST_MAP			= 17,
		BOOST_MAP_LAYER		= 18,
		BOOST_AVATAR_SELF	= 19, // needed for baking avatar
		BOOST_MAX_LEVEL
	};
	void setBoostLevel(S32 level);
	S32  getBoostLevel() { return mBoostLevel; }
	
	F32 getDecodePriority() const { return mDecodePriority; };
	F32 calcDecodePriority();
	static F32 maxDecodePriority();
	
	// Set the decode priority for this image...
	// DON'T CALL THIS UNLESS YOU KNOW WHAT YOU'RE DOING, it can mess up
	// the priority list, and cause horrible things to happen.
	void setDecodePriority(F32 priority = -1.0f);

	bool updateFetch();
	
	// Override the computation of discard levels if we know the exact output
	// size of the image.  Used for UI textures to not decode, even if we have
	// more data.
	void setKnownDrawSize(S32 width, S32 height);

	void setIsMissingAsset();
	BOOL isMissingAsset()				{ return mIsMissingAsset; }

	bool hasCallbacks() { return mLoadedCallbackList.empty() ? false : true; }
	
	bool doLoadedCallbacks();

private:
	/*virtual*/ void cleanup(); // Cleanup the LLViewerImage (so we can reinitialize it)

	void init(bool firstinit);

	// Used to be in LLImageGL
	LLImageRaw* createRawImage(S8 discard_level = 0, BOOL allocate = FALSE);
	void destroyRawImage();
	
public:
	S32 mFullWidth;
	S32 mFullHeight;

	// Data used for calculating required image priority/quality level/decimation
	mutable F32 mMaxVirtualSize;	// The largest virtual size of the image, in pixels - how much data to we need?
	mutable F32 mMaxCosAngle;		// The largest cos of the angle between camera X vector and the object

	F32 mTexelsPerImage;			// Texels per image.
	F32 mDiscardVirtualSize;		// Virtual size used to calculate desired discard
	
	S8  mInImageList;				// TRUE if image is in list (in which case don't reset priority!)
	S8  mIsMediaTexture;			// TRUE if image is being replaced by media (in which case don't update)

	// Various info regarding image requests
	S32 mRequestedDiscardLevel;
	F32 mRequestedDownloadPriority;
	S32 mFetchState;
	U32 mFetchPriority;
	F32 mDownloadProgress;
	F32 mFetchDeltaTime;
	F32 mRequestDeltaTime;
	S32 mDecodeFrame;
	S32 mVisibleFrame; // decode frame where image was last visible
	
	// Timers
	LLFrameTimer mLastPacketTimer;		// Time since last packet.
	LLFrameTimer mLastReferencedTimer;

private:
	LLUUID mID;

	S8  mDesiredDiscardLevel;			// The discard level we'd LIKE to have - if we have it and there's space
	S8  mMinDesiredDiscardLevel;		// The minimum discard level we'd like to have
	S8  mNeedsCreateTexture;	
	S8  mNeedsAux;					// We need to decode the auxiliary channels
	S8  mDecodingAux;				// Are we decoding high components
	S8  mIsRawImageValid;
	S8  mHasFetcher;				// We've made a fecth request
	S8  mIsFetching;				// Fetch request is active
	S8  mFullyLoaded;
	mutable S8 mIsMissingAsset;		// True if we know that there is no image asset with this image id in the database.	

	// Override the computation of discard levels if we know the exact output size of the image.
	// Used for UI textures to not decode, even if we have more data.
	S32 mKnownDrawWidth;
	S32	mKnownDrawHeight;

	F32 mDecodePriority;			// The priority for decoding this image.
	S32 mBoostLevel;				// enum describing priority level
	
	typedef std::list<LLLoadedCallbackEntry*> callback_list_t;
	callback_list_t mLoadedCallbackList;

	LLPointer<LLImageRaw> mRawImage;
	S32 mRawDiscardLevel;
	S32	mMinDiscardLevel;
	F32 mCalculatedDiscardLevel; // Last calculated discard level
	
	// Used ONLY for cloth meshes right now.  Make SURE you know what you're 
	// doing if you use it for anything else! - djs
	LLPointer<LLImageRaw> mAuxRawImage;

	LLHost mTargetHost;	// if LLHost::invalid, just request from agent's simulator
	
public:
	static const U32 sCurrentFileVersion;
	// Default textures
	static LLPointer<LLViewerImage> sMissingAssetImagep;	// Texture to show for an image asset that is not in the database
	static LLPointer<LLViewerImage> sWhiteImagep;	// Texture to show NOTHING (whiteness)
	static LLPointer<LLImageGL> sDefaultImagep; // "Default" texture for error cases
	static LLPointer<LLViewerImage> sSmokeImagep; // Old "Default" translucent texture
	static LLPointer<LLImageGL> sNullImagep; // Null texture for non-textured objects.

	static S32 sImageCount;
	static LLTimer sEvaluationTimer;
	static F32 sDesiredDiscardBias;
	static F32 sDesiredDiscardScale;
	static S32 sBoundTextureMemory;
	static S32 sTotalTextureMemory;
	static S32 sMaxBoundTextureMem;
	static S32 sMaxTotalTextureMem;
	static BOOL sDontLoadVolumeTextures;
};

#endif