doom3-bfg/neo/d3xp/anim/Anim.cpp

/*
===========================================================================

Doom 3 BFG Edition GPL Source Code
Copyright (C) 1993-2012 id Software LLC, a ZeniMax Media company. 

This file is part of the Doom 3 BFG Edition GPL Source Code ("Doom 3 BFG Edition Source Code").  

Doom 3 BFG Edition Source Code is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.

Doom 3 BFG Edition Source Code is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License for more details.

You should have received a copy of the GNU General Public License
along with Doom 3 BFG Edition Source Code.  If not, see <http://www.gnu.org/licenses/>.

In addition, the Doom 3 BFG Edition Source Code is also subject to certain additional terms. You should have received a copy of these additional terms immediately following the terms and conditions of the GNU General Public License which accompanied the Doom 3 BFG Edition Source Code.  If not, please request a copy in writing from id Software at the address below.

If you have questions concerning this license or the applicable additional terms, you may contact in writing id Software LLC, c/o ZeniMax Media Inc., Suite 120, Rockville, Maryland 20850 USA.

===========================================================================
*/

#pragma hdrstop
#include "../../idlib/precompiled.h"


#include "../Game_local.h"

idCVar binaryLoadAnim( "binaryLoadAnim", "1", 0, "enable binary load/write of idMD5Anim" );

static const byte B_ANIM_MD5_VERSION = 101;
static const unsigned int B_ANIM_MD5_MAGIC = ( 'B' << 24 ) | ( 'M' << 16 ) | ( 'D' << 8 ) | B_ANIM_MD5_VERSION;

static const int JOINT_FRAME_PAD	= 1;	// one extra to be able to read one more float than is necessary

bool idAnimManager::forceExport = false;

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

	idMD5Anim

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

/*
====================
idMD5Anim::idMD5Anim
====================
*/
idMD5Anim::idMD5Anim() {
	ref_count	= 0;
	numFrames	= 0;
	numJoints	= 0;
	frameRate	= 24;
	animLength	= 0;
	numAnimatedComponents = 0;
	totaldelta.Zero();
}

/*
====================
idMD5Anim::idMD5Anim
====================
*/
idMD5Anim::~idMD5Anim() {
	Free();
}

/*
====================
idMD5Anim::Free
====================
*/
void idMD5Anim::Free() {
	numFrames	= 0;
	numJoints	= 0;
	frameRate	= 24;
	animLength	= 0;
	numAnimatedComponents = 0;
	//name		= "";

	totaldelta.Zero();

	jointInfo.Clear();
	bounds.Clear();
	componentFrames.Clear();
}

/*
====================
idMD5Anim::NumFrames
====================
*/
int	idMD5Anim::NumFrames() const {
	return numFrames;
}

/*
====================
idMD5Anim::NumJoints
====================
*/
int	idMD5Anim::NumJoints() const {
	return numJoints;
}

/*
====================
idMD5Anim::Length
====================
*/
int idMD5Anim::Length() const {
	return animLength;
}

/*
=====================
idMD5Anim::TotalMovementDelta
=====================
*/
const idVec3 &idMD5Anim::TotalMovementDelta() const {
	return totaldelta;
}

/*
=====================
idMD5Anim::TotalMovementDelta
=====================
*/
const char *idMD5Anim::Name() const {
	return name;
}

/*
====================
idMD5Anim::Reload
====================
*/
bool idMD5Anim::Reload() {
	idStr filename;

	filename = name;
	Free();

	return LoadAnim( filename );
}

/*
====================
idMD5Anim::Allocated
====================
*/
size_t idMD5Anim::Allocated() const {
	size_t	size = bounds.Allocated() + jointInfo.Allocated() + componentFrames.Allocated() + name.Allocated();
	return size;
}

/*
====================
idMD5Anim::LoadAnim
====================
*/
bool idMD5Anim::LoadAnim( const char * filename ) {

	idLexer	parser( LEXFL_ALLOWPATHNAMES | LEXFL_NOSTRINGESCAPECHARS | LEXFL_NOSTRINGCONCAT );
	idToken	token;

	idStr generatedFileName = "generated/anim/";
	generatedFileName.AppendPath( filename );
	generatedFileName.SetFileExtension( ".bMD5anim" );

	// Get the timestamp on the original file, if it's newer than what is stored in binary model, regenerate it
	ID_TIME_T sourceTimeStamp = fileSystem->GetTimestamp( filename );

	idFileLocal file( fileSystem->OpenFileReadMemory( generatedFileName ) );
	if ( binaryLoadAnim.GetBool() && LoadBinary( file, sourceTimeStamp ) ) {
		name = filename;
		if ( cvarSystem->GetCVarBool( "fs_buildresources" ) ) {
			// for resource gathering write this anim to the preload file for this map
			fileSystem->AddAnimPreload( name );
		}
		return true;
	}

	if ( !parser.LoadFile( filename ) ) {
		return false;
	}

	name = filename;
	
	Free();

	parser.ExpectTokenString( MD5_VERSION_STRING );
	int version = parser.ParseInt();
	if ( version != MD5_VERSION ) {
		parser.Error( "Invalid version %d.  Should be version %d\n", version, MD5_VERSION );
	}

	// skip the commandline
	parser.ExpectTokenString( "commandline" );
	parser.ReadToken( &token );

	// parse num frames
	parser.ExpectTokenString( "numFrames" );
	numFrames = parser.ParseInt();
	if ( numFrames <= 0 ) {
		parser.Error( "Invalid number of frames: %d", numFrames );
	}

	// parse num joints
	parser.ExpectTokenString( "numJoints" );
	numJoints = parser.ParseInt();
	if ( numJoints <= 0 ) {
		parser.Error( "Invalid number of joints: %d", numJoints );
	}

	// parse frame rate
	parser.ExpectTokenString( "frameRate" );
	frameRate = parser.ParseInt();
	if ( frameRate < 0 ) {
		parser.Error( "Invalid frame rate: %d", frameRate );
	}

	// parse number of animated components
	parser.ExpectTokenString( "numAnimatedComponents" );
	numAnimatedComponents = parser.ParseInt();
	if ( ( numAnimatedComponents < 0 ) || ( numAnimatedComponents > numJoints * 6 ) ) {
		parser.Error( "Invalid number of animated components: %d", numAnimatedComponents );
	}

	// parse the hierarchy
	jointInfo.SetGranularity( 1 );
	jointInfo.SetNum( numJoints );
	parser.ExpectTokenString( "hierarchy" );
	parser.ExpectTokenString( "{" );
	for ( int i = 0; i < numJoints; i++ ) {
		parser.ReadToken( &token );
		jointInfo[ i ].nameIndex = animationLib.JointIndex( token );
		
		// parse parent num
		jointInfo[ i ].parentNum = parser.ParseInt();
		if ( jointInfo[ i ].parentNum >= i ) {
			parser.Error( "Invalid parent num: %d", jointInfo[ i ].parentNum );
		}

		if ( ( i != 0 ) && ( jointInfo[ i ].parentNum < 0 ) ) {
			parser.Error( "Animations may have only one root joint" );
		}

		// parse anim bits
		jointInfo[ i ].animBits = parser.ParseInt();
		if ( jointInfo[ i ].animBits & ~63 ) {
			parser.Error( "Invalid anim bits: %d", jointInfo[ i ].animBits );
		}

		// parse first component
		jointInfo[ i ].firstComponent = parser.ParseInt();
		if ( ( numAnimatedComponents > 0 ) && ( ( jointInfo[ i ].firstComponent < 0 ) || ( jointInfo[ i ].firstComponent >= numAnimatedComponents ) ) ) {
			parser.Error( "Invalid first component: %d", jointInfo[ i ].firstComponent );
		}
	}

	parser.ExpectTokenString( "}" );

	// parse bounds
	parser.ExpectTokenString( "bounds" );
	parser.ExpectTokenString( "{" );
	bounds.SetGranularity( 1 );
	bounds.SetNum( numFrames );
	for ( int i = 0; i < numFrames; i++ ) {
		parser.Parse1DMatrix( 3, bounds[ i ][ 0 ].ToFloatPtr() );
		parser.Parse1DMatrix( 3, bounds[ i ][ 1 ].ToFloatPtr() );
	}
	parser.ExpectTokenString( "}" );

	// parse base frame
	baseFrame.SetGranularity( 1 );
	baseFrame.SetNum( numJoints );
	parser.ExpectTokenString( "baseframe" );
	parser.ExpectTokenString( "{" );
	for ( int i = 0; i < numJoints; i++ ) {
		idCQuat q;
		parser.Parse1DMatrix( 3, baseFrame[ i ].t.ToFloatPtr() );
		parser.Parse1DMatrix( 3, q.ToFloatPtr() );//baseFrame[ i ].q.ToFloatPtr() );
		baseFrame[ i ].q = q.ToQuat();//.w = baseFrame[ i ].q.CalcW();
		baseFrame[ i ].w = 0.0f;
	}
	parser.ExpectTokenString( "}" );

	// parse frames
	componentFrames.SetGranularity( 1 );
	componentFrames.SetNum( numAnimatedComponents * numFrames + JOINT_FRAME_PAD );
	componentFrames[numAnimatedComponents * numFrames + JOINT_FRAME_PAD - 1] = 0.0f;

	float *componentPtr = componentFrames.Ptr();
	for ( int i = 0; i < numFrames; i++ ) {
		parser.ExpectTokenString( "frame" );
		int num = parser.ParseInt();
		if ( num != i ) {
			parser.Error( "Expected frame number %d", i );
		}
		parser.ExpectTokenString( "{" );
		
		for ( int j = 0; j < numAnimatedComponents; j++, componentPtr++ ) {
			*componentPtr = parser.ParseFloat();
		}

		parser.ExpectTokenString( "}" );
	}

	// get total move delta
	if ( !numAnimatedComponents ) {
		totaldelta.Zero();
	} else {
		componentPtr = &componentFrames[ jointInfo[ 0 ].firstComponent ];
		if ( jointInfo[ 0 ].animBits & ANIM_TX ) {
			for ( int i = 0; i < numFrames; i++ ) {
				componentPtr[ numAnimatedComponents * i ] -= baseFrame[ 0 ].t.x;
			}
			totaldelta.x = componentPtr[ numAnimatedComponents * ( numFrames - 1 ) ];
			componentPtr++;
		} else {
			totaldelta.x = 0.0f;
		}
		if ( jointInfo[ 0 ].animBits & ANIM_TY ) {
			for ( int i = 0; i < numFrames; i++ ) {
				componentPtr[ numAnimatedComponents * i ] -= baseFrame[ 0 ].t.y;
			}
			totaldelta.y = componentPtr[ numAnimatedComponents * ( numFrames - 1 ) ];
			componentPtr++;
		} else {
			totaldelta.y = 0.0f;
		}
		if ( jointInfo[ 0 ].animBits & ANIM_TZ ) {
			for ( int i = 0; i < numFrames; i++ ) {
				componentPtr[ numAnimatedComponents * i ] -= baseFrame[ 0 ].t.z;
			}
			totaldelta.z = componentPtr[ numAnimatedComponents * ( numFrames - 1 ) ];
		} else {
			totaldelta.z = 0.0f;
		}
	}
	baseFrame[ 0 ].t.Zero();

	// we don't count last frame because it would cause a 1 frame pause at the end
	animLength = ( ( numFrames - 1 ) * 1000 + frameRate - 1 ) / frameRate;

	if ( binaryLoadAnim.GetBool() ) {
		idLib::Printf( "Writing %s\n", generatedFileName.c_str() );
		idFileLocal outputFile( fileSystem->OpenFileWrite( generatedFileName, "fs_basepath" ) );
		WriteBinary( outputFile, sourceTimeStamp );
	}

	// done
	return true;
}

/*
========================
idMD5Anim::LoadBinary
========================
*/
bool idMD5Anim::LoadBinary( idFile * file, ID_TIME_T sourceTimeStamp ) {

	if ( file == NULL ) {
		return false;
	}

	unsigned int magic = 0;
	file->ReadBig( magic );
	if ( magic != B_ANIM_MD5_MAGIC ) {
		return false;
	}

	ID_TIME_T loadedTimeStamp;
	file->ReadBig( loadedTimeStamp );
	if ( !fileSystem->InProductionMode() && sourceTimeStamp != loadedTimeStamp ) {
		return false;
	}

	file->ReadBig( numFrames );
	file->ReadBig( frameRate );
	file->ReadBig( animLength );
	file->ReadBig( numJoints );
	file->ReadBig( numAnimatedComponents );

	int num;
	file->ReadBig( num );
	bounds.SetNum( num );
	for ( int i = 0; i < num; i++ ) {
		idBounds & b = bounds[i];
		file->ReadBig( b[0] );
		file->ReadBig( b[1] );
	}

	file->ReadBig( num );
	jointInfo.SetNum( num );
	for ( int i = 0; i < num; i++ ) {
		jointAnimInfo_t & j = jointInfo[i];

		idStr jointName;
		file->ReadString( jointName );
		if ( jointName.IsEmpty() ) {
			j.nameIndex = -1;
		} else {
			j.nameIndex = animationLib.JointIndex( jointName.c_str() );
		}

		file->ReadBig( j.parentNum );
		file->ReadBig( j.animBits );
		file->ReadBig( j.firstComponent );
	}

	file->ReadBig( num );
	baseFrame.SetNum( num );
	for ( int i = 0; i < num; i++ ) {
		idJointQuat & j = baseFrame[i];
		file->ReadBig( j.q.x );
		file->ReadBig( j.q.y );
		file->ReadBig( j.q.z );
		file->ReadBig( j.q.w );
		file->ReadVec3( j.t );
		j.w = 0.0f;
	}

	file->ReadBig( num );
	componentFrames.SetNum( num + JOINT_FRAME_PAD );
	for ( int i = 0; i < componentFrames.Num(); i++ ) {
		file->ReadFloat( componentFrames[i] );
	}

	//file->ReadString( name );
	file->ReadVec3( totaldelta );
	//file->ReadBig( ref_count );

	return true;
}

/*
========================
idMD5Anim::WriteBinary
========================
*/
void idMD5Anim::WriteBinary( idFile * file, ID_TIME_T sourceTimeStamp ) {

	if ( file == NULL ) {
		return;
	}

	file->WriteBig( B_ANIM_MD5_MAGIC );
	file->WriteBig( sourceTimeStamp );

	file->WriteBig( numFrames );
	file->WriteBig( frameRate );
	file->WriteBig( animLength );
	file->WriteBig( numJoints );
	file->WriteBig( numAnimatedComponents );

	file->WriteBig( bounds.Num() );
	for ( int i = 0; i < bounds.Num(); i++ ) {
		idBounds & b = bounds[i];
		file->WriteBig( b[0] );
		file->WriteBig( b[1] );
	}

	file->WriteBig( jointInfo.Num() );
	for ( int i = 0; i < jointInfo.Num(); i++ ) {
		jointAnimInfo_t & j = jointInfo[i];
		idStr jointName = animationLib.JointName( j.nameIndex );
		file->WriteString( jointName );
		file->WriteBig( j.parentNum );
		file->WriteBig( j.animBits );
		file->WriteBig( j.firstComponent );
	}

	file->WriteBig( baseFrame.Num() );
	for ( int i = 0; i < baseFrame.Num(); i++ ) {
		idJointQuat & j = baseFrame[i];
		file->WriteBig( j.q.x );
		file->WriteBig( j.q.y );
		file->WriteBig( j.q.z );
		file->WriteBig( j.q.w );
		file->WriteVec3( j.t );
	}

	file->WriteBig( componentFrames.Num() - JOINT_FRAME_PAD );
	for ( int i = 0; i < componentFrames.Num(); i++ ) {
		file->WriteFloat( componentFrames[i] );
	}

	//file->WriteString( name );
	file->WriteVec3( totaldelta );
	//file->WriteBig( ref_count );
}

/*
====================
idMD5Anim::IncreaseRefs
====================
*/
void idMD5Anim::IncreaseRefs() const {
	ref_count++;
}

/*
====================
idMD5Anim::DecreaseRefs
====================
*/
void idMD5Anim::DecreaseRefs() const {
	ref_count--;
}

/*
====================
idMD5Anim::NumRefs
====================
*/
int idMD5Anim::NumRefs() const {
	return ref_count;
}

/*
====================
idMD5Anim::GetFrameBlend
====================
*/
void idMD5Anim::GetFrameBlend( int framenum, frameBlend_t &frame ) const {
	frame.cycleCount	= 0;
	frame.backlerp		= 0.0f;
	frame.frontlerp		= 1.0f;

	// frame 1 is first frame
	framenum--;
	if ( framenum < 0 ) {
		framenum = 0;
	} else if ( framenum >= numFrames ) {
		framenum = numFrames - 1;
	}

	frame.frame1 = framenum;
	frame.frame2 = framenum;
}

/*
====================
idMD5Anim::ConvertTimeToFrame
====================
*/
void idMD5Anim::ConvertTimeToFrame( int time, int cyclecount, frameBlend_t &frame ) const {
	int frameTime;
	int frameNum;

	if ( numFrames <= 1 ) {
		frame.frame1		= 0;
		frame.frame2		= 0;
		frame.backlerp		= 0.0f;
		frame.frontlerp		= 1.0f;
		frame.cycleCount	= 0;
		return;
	}

	if ( time <= 0 ) {
		frame.frame1		= 0;
		frame.frame2		= 1;
		frame.backlerp		= 0.0f;
		frame.frontlerp		= 1.0f;
		frame.cycleCount	= 0;
		return;
	}
	
	frameTime			= time * frameRate;
	frameNum			= frameTime / 1000;
	frame.cycleCount	= frameNum / ( numFrames - 1 );

	if ( ( cyclecount > 0 ) && ( frame.cycleCount >= cyclecount ) ) {
		frame.cycleCount	= cyclecount - 1;
		frame.frame1		= numFrames - 1;
		frame.frame2		= frame.frame1;
		frame.backlerp		= 0.0f;
		frame.frontlerp		= 1.0f;
		return;
	}
	
	frame.frame1 = frameNum % ( numFrames - 1 );
	frame.frame2 = frame.frame1 + 1;
	if ( frame.frame2 >= numFrames ) {
		frame.frame2 = 0;
	}

	frame.backlerp	= ( frameTime % 1000 ) * 0.001f;
	frame.frontlerp	= 1.0f - frame.backlerp;
}

/*
====================
idMD5Anim::GetOrigin
====================
*/
void idMD5Anim::GetOrigin( idVec3 &offset, int time, int cyclecount ) const {
	offset = baseFrame[ 0 ].t;
	if ( !( jointInfo[ 0 ].animBits & ( ANIM_TX | ANIM_TY | ANIM_TZ ) ) ) {
		// just use the baseframe		
		return;
	}

	frameBlend_t frame;
	ConvertTimeToFrame( time, cyclecount, frame );

	const float *componentPtr1 = &componentFrames[ numAnimatedComponents * frame.frame1 + jointInfo[ 0 ].firstComponent ];
	const float *componentPtr2 = &componentFrames[ numAnimatedComponents * frame.frame2 + jointInfo[ 0 ].firstComponent ];

	if ( jointInfo[ 0 ].animBits & ANIM_TX ) {
		offset.x = *componentPtr1 * frame.frontlerp + *componentPtr2 * frame.backlerp;
		componentPtr1++;
		componentPtr2++;
	}

	if ( jointInfo[ 0 ].animBits & ANIM_TY ) {
		offset.y = *componentPtr1 * frame.frontlerp + *componentPtr2 * frame.backlerp;
		componentPtr1++;
		componentPtr2++;
	}

	if ( jointInfo[ 0 ].animBits & ANIM_TZ ) {
		offset.z = *componentPtr1 * frame.frontlerp + *componentPtr2 * frame.backlerp;
	}

	if ( frame.cycleCount ) {
		offset += totaldelta * ( float )frame.cycleCount;
	}
}

/*
====================
idMD5Anim::GetOriginRotation
====================
*/
void idMD5Anim::GetOriginRotation( idQuat &rotation, int time, int cyclecount ) const {
	int animBits = jointInfo[ 0 ].animBits;
	if ( !( animBits & ( ANIM_QX | ANIM_QY | ANIM_QZ ) ) ) {
		// just use the baseframe
		rotation = baseFrame[ 0 ].q;
		return;
	}

	frameBlend_t frame;
	ConvertTimeToFrame( time, cyclecount, frame );

	const float	*jointframe1 = &componentFrames[ numAnimatedComponents * frame.frame1 + jointInfo[ 0 ].firstComponent ];
	const float	*jointframe2 = &componentFrames[ numAnimatedComponents * frame.frame2 + jointInfo[ 0 ].firstComponent ];

	if ( animBits & ANIM_TX ) {
		jointframe1++;
		jointframe2++;
	}

	if ( animBits & ANIM_TY ) {
		jointframe1++;
		jointframe2++;
	}

	if ( animBits & ANIM_TZ ) {
		jointframe1++;
		jointframe2++;
	}

	idQuat q1;
	idQuat q2;

	switch( animBits & (ANIM_QX|ANIM_QY|ANIM_QZ) ) {
		case ANIM_QX:
			q1.x = jointframe1[0];
			q2.x = jointframe2[0];
			q1.y = baseFrame[ 0 ].q.y;
			q2.y = q1.y;
			q1.z = baseFrame[ 0 ].q.z;
			q2.z = q1.z;
			q1.w = q1.CalcW();
			q2.w = q2.CalcW();
			break;
		case ANIM_QY:
			q1.y = jointframe1[0];
			q2.y = jointframe2[0];
			q1.x = baseFrame[ 0 ].q.x;
			q2.x = q1.x;
			q1.z = baseFrame[ 0 ].q.z;
			q2.z = q1.z;
			q1.w = q1.CalcW();
			q2.w = q2.CalcW();
			break;
		case ANIM_QZ:
			q1.z = jointframe1[0];
			q2.z = jointframe2[0];
			q1.x = baseFrame[ 0 ].q.x;
			q2.x = q1.x;
			q1.y = baseFrame[ 0 ].q.y;
			q2.y = q1.y;
			q1.w = q1.CalcW();
			q2.w = q2.CalcW();
			break;
		case ANIM_QX|ANIM_QY:
			q1.x = jointframe1[0];
			q1.y = jointframe1[1];
			q2.x = jointframe2[0];
			q2.y = jointframe2[1];
			q1.z = baseFrame[ 0 ].q.z;
			q2.z = q1.z;
			q1.w = q1.CalcW();
			q2.w = q2.CalcW();
			break;
		case ANIM_QX|ANIM_QZ:
			q1.x = jointframe1[0];
			q1.z = jointframe1[1];
			q2.x = jointframe2[0];
			q2.z = jointframe2[1];
			q1.y = baseFrame[ 0 ].q.y;
			q2.y = q1.y;
			q1.w = q1.CalcW();
			q2.w = q2.CalcW();
			break;
		case ANIM_QY|ANIM_QZ:
			q1.y = jointframe1[0];
			q1.z = jointframe1[1];
			q2.y = jointframe2[0];
			q2.z = jointframe2[1];
			q1.x = baseFrame[ 0 ].q.x;
			q2.x = q1.x;
			q1.w = q1.CalcW();
			q2.w = q2.CalcW();
			break;
		case ANIM_QX|ANIM_QY|ANIM_QZ:
			q1.x = jointframe1[0];
			q1.y = jointframe1[1];
			q1.z = jointframe1[2];
			q2.x = jointframe2[0];
			q2.y = jointframe2[1];
			q2.z = jointframe2[2];
			q1.w = q1.CalcW();
			q2.w = q2.CalcW();
			break;
	}

	rotation.Slerp( q1, q2, frame.backlerp );
}

/*
====================
idMD5Anim::GetBounds
====================
*/
void idMD5Anim::GetBounds( idBounds &bnds, int time, int cyclecount ) const {
	frameBlend_t frame;
	ConvertTimeToFrame( time, cyclecount, frame );

	bnds = bounds[ frame.frame1 ];
	bnds.AddBounds( bounds[ frame.frame2 ] );

	// origin position
	idVec3 offset = baseFrame[ 0 ].t;
	if ( jointInfo[ 0 ].animBits & ( ANIM_TX | ANIM_TY | ANIM_TZ ) ) {
		const float *componentPtr1 = &componentFrames[ numAnimatedComponents * frame.frame1 + jointInfo[ 0 ].firstComponent ];
		const float *componentPtr2 = &componentFrames[ numAnimatedComponents * frame.frame2 + jointInfo[ 0 ].firstComponent ];

		if ( jointInfo[ 0 ].animBits & ANIM_TX ) {
			offset.x = *componentPtr1 * frame.frontlerp + *componentPtr2 * frame.backlerp;
			componentPtr1++;
			componentPtr2++;
		}

		if ( jointInfo[ 0 ].animBits & ANIM_TY ) {
			offset.y = *componentPtr1 * frame.frontlerp + *componentPtr2 * frame.backlerp;
			componentPtr1++;
			componentPtr2++;
		}

		if ( jointInfo[ 0 ].animBits & ANIM_TZ ) {
			offset.z = *componentPtr1 * frame.frontlerp + *componentPtr2 * frame.backlerp;
		}
	}

	bnds[ 0 ] -= offset;
	bnds[ 1 ] -= offset;
}

/*
====================
DecodeInterpolatedFrames

====================
*/
int DecodeInterpolatedFrames( idJointQuat * joints, idJointQuat * blendJoints, int * lerpIndex, const float * frame1, const float * frame2,
							const jointAnimInfo_t * jointInfo, const int * index, const int numIndexes ) {
	int numLerpJoints = 0;
	for ( int i = 0; i < numIndexes; i++ ) {
		const int j = index[i];
		const jointAnimInfo_t * infoPtr = &jointInfo[j];

		const int animBits = infoPtr->animBits;
		if ( animBits != 0 ) {

			lerpIndex[numLerpJoints++] = j;

			idJointQuat * jointPtr = &joints[j];
			idJointQuat * blendPtr = &blendJoints[j];

			*blendPtr = *jointPtr;

			const float * jointframe1 = frame1 + infoPtr->firstComponent;
			const float * jointframe2 = frame2 + infoPtr->firstComponent;

			if ( animBits & (ANIM_TX|ANIM_TY|ANIM_TZ) ) {
				if ( animBits & ANIM_TX ) {
					jointPtr->t.x = *jointframe1++;
					blendPtr->t.x = *jointframe2++;
				}
				if ( animBits & ANIM_TY ) {
					jointPtr->t.y = *jointframe1++;
					blendPtr->t.y = *jointframe2++;
				}
				if ( animBits & ANIM_TZ ) {
					jointPtr->t.z = *jointframe1++;
					blendPtr->t.z = *jointframe2++;
				}
			}

			if ( animBits & (ANIM_QX|ANIM_QY|ANIM_QZ) ) {
				if ( animBits & ANIM_QX ) {
					jointPtr->q.x = *jointframe1++;
					blendPtr->q.x = *jointframe2++;
				}
				if ( animBits & ANIM_QY ) {
					jointPtr->q.y = *jointframe1++;
					blendPtr->q.y = *jointframe2++;
				}
				if ( animBits & ANIM_QZ ) {
					jointPtr->q.z = *jointframe1++;
					blendPtr->q.z = *jointframe2++;
				}
				jointPtr->q.w = jointPtr->q.CalcW();
				blendPtr->q.w = blendPtr->q.CalcW();
			}
		}
	}
	return numLerpJoints;
}

/*
====================
idMD5Anim::GetInterpolatedFrame
====================
*/
void idMD5Anim::GetInterpolatedFrame( frameBlend_t &frame, idJointQuat *joints, const int *index, int numIndexes ) const {
	// copy the baseframe
	SIMDProcessor->Memcpy( joints, baseFrame.Ptr(), baseFrame.Num() * sizeof( baseFrame[ 0 ] ) );

	if ( numAnimatedComponents == 0 ) {
		// just use the base frame
		return;
	}

	idJointQuat * blendJoints = (idJointQuat *)_alloca16( baseFrame.Num() * sizeof( blendJoints[ 0 ] ) );
	int * lerpIndex = (int *)_alloca16( baseFrame.Num() * sizeof( lerpIndex[ 0 ] ) );

	const float * frame1 = &componentFrames[frame.frame1 * numAnimatedComponents];
	const float * frame2 = &componentFrames[frame.frame2 * numAnimatedComponents];

	int numLerpJoints = DecodeInterpolatedFrames( joints, blendJoints, lerpIndex, frame1, frame2, jointInfo.Ptr(), index, numIndexes );

	SIMDProcessor->BlendJoints( joints, blendJoints, frame.backlerp, lerpIndex, numLerpJoints );

	if ( frame.cycleCount ) {
		joints[ 0 ].t += totaldelta * ( float )frame.cycleCount;
	}
}

/*
====================
DecodeSingleFrame

====================
*/
void DecodeSingleFrame( idJointQuat * joints, const float * frame,
						const jointAnimInfo_t * jointInfo, const int * index, const int numIndexes ) {
	for ( int i = 0; i < numIndexes; i++ ) {
		const int j = index[i];
		const jointAnimInfo_t * infoPtr = &jointInfo[j];

		const int animBits = infoPtr->animBits;
		if ( animBits != 0 ) {

			idJointQuat * jointPtr = &joints[j];

			const float * jointframe = frame + infoPtr->firstComponent;

			if ( animBits & (ANIM_TX|ANIM_TY|ANIM_TZ) ) {
				if ( animBits & ANIM_TX ) {
					jointPtr->t.x = *jointframe++;
				}
				if ( animBits & ANIM_TY ) {
					jointPtr->t.y = *jointframe++;
				}
				if ( animBits & ANIM_TZ ) {
					jointPtr->t.z = *jointframe++;
				}
			}

			if ( animBits & (ANIM_QX|ANIM_QY|ANIM_QZ) ) {
				if ( animBits & ANIM_QX ) {
					jointPtr->q.x = *jointframe++;
				}
				if ( animBits & ANIM_QY ) {
					jointPtr->q.y = *jointframe++;
				}
				if ( animBits & ANIM_QZ ) {
					jointPtr->q.z = *jointframe++;
				}
				jointPtr->q.w = jointPtr->q.CalcW();
			}
		}
	}
}

/*
====================
idMD5Anim::GetSingleFrame
====================
*/
void idMD5Anim::GetSingleFrame( int framenum, idJointQuat *joints, const int *index, int numIndexes ) const {
	// copy the baseframe
	SIMDProcessor->Memcpy( joints, baseFrame.Ptr(), baseFrame.Num() * sizeof( baseFrame[ 0 ] ) );

	if ( framenum == 0 || numAnimatedComponents == 0 ) {
		// just use the base frame
		return;
	}

	const float * frame = &componentFrames[framenum * numAnimatedComponents];

	DecodeSingleFrame( joints, frame, jointInfo.Ptr(), index, numIndexes );
}

/*
====================
idMD5Anim::CheckModelHierarchy
====================
*/
void idMD5Anim::CheckModelHierarchy( const idRenderModel *model ) const {
	if ( jointInfo.Num() != model->NumJoints() ) {
		if ( !fileSystem->InProductionMode() ) {
			gameLocal.Warning( "Model '%s' has different # of joints than anim '%s'", model->Name(), name.c_str() );
		} else {
			//gameLocal.Warning( "Model '%s' has different # of joints than anim '%s'", model->Name(), name.c_str() );
			return;
		}
	}

	const idMD5Joint *modelJoints = model->GetJoints();
	for( int i = 0; i < jointInfo.Num(); i++ ) {
		int jointNum = jointInfo[ i ].nameIndex;
		if ( modelJoints[ i ].name != animationLib.JointName( jointNum ) ) {
			gameLocal.Error( "Model '%s''s joint names don't match anim '%s''s", model->Name(), name.c_str() );
		}
		int parent;
		if ( modelJoints[ i ].parent ) {
			parent = modelJoints[ i ].parent - modelJoints;
		} else {
			parent = -1;
		}
		if ( parent != jointInfo[ i ].parentNum ) {
			gameLocal.Error( "Model '%s' has different joint hierarchy than anim '%s'", model->Name(), name.c_str() );
		}
	}
}

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

	idAnimManager

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

/*
====================
idAnimManager::idAnimManager
====================
*/
idAnimManager::idAnimManager() {
}

/*
====================
idAnimManager::~idAnimManager
====================
*/
idAnimManager::~idAnimManager() {
	Shutdown();
}

/*
====================
idAnimManager::Shutdown
====================
*/
void idAnimManager::Shutdown() {
	animations.DeleteContents();
	jointnames.Clear();
	jointnamesHash.Free();
}

/*
====================
idAnimManager::GetAnim
====================
*/
idMD5Anim *idAnimManager::GetAnim( const char *name ) {
	idMD5Anim **animptrptr;
	idMD5Anim *anim;

	// see if it has been asked for before
	animptrptr = NULL;
	if ( animations.Get( name, &animptrptr ) ) {
		anim = *animptrptr;
	} else {
		idStr extension;
		idStr filename = name;

		filename.ExtractFileExtension( extension );
		if ( extension != MD5_ANIM_EXT ) {
			return NULL;
		}

		anim = new (TAG_ANIM) idMD5Anim();
		if ( !anim->LoadAnim( filename ) ) {
			gameLocal.Warning( "Couldn't load anim: '%s'", filename.c_str() );
			delete anim;
			anim = NULL;
		}
		animations.Set( filename, anim );
	}

	return anim;
}

/*
================
idAnimManager::Preload
================
*/
void idAnimManager::Preload( const idPreloadManifest &manifest ) {
	if ( manifest.NumResources() >= 0 ) {
		common->Printf( "Preloading anims...\n" );
		int	start = Sys_Milliseconds();
		int numLoaded = 0;
		for ( int i = 0; i < manifest.NumResources(); i++ ) {
			const preloadEntry_s & p = manifest.GetPreloadByIndex( i );
			if ( p.resType == PRELOAD_ANIM ) {
				GetAnim( p.resourceName );
				numLoaded++;
			}
		}
		int	end = Sys_Milliseconds();
		common->Printf( "%05d anims preloaded ( or were already loaded ) in %5.1f seconds\n", numLoaded, ( end - start ) * 0.001 );
		common->Printf( "----------------------------------------\n" );
	}
}

/*
================
idAnimManager::ReloadAnims
================
*/
void idAnimManager::ReloadAnims() {
	int			i;
	idMD5Anim	**animptr;

	for( i = 0; i < animations.Num(); i++ ) {
		animptr = animations.GetIndex( i );
		if ( animptr != NULL && *animptr != NULL ) {
			( *animptr )->Reload();
		}
	}
}

/*
================
idAnimManager::JointIndex
================
*/
int	idAnimManager::JointIndex( const char *name ) {
	int i, hash;

	hash = jointnamesHash.GenerateKey( name );
	for ( i = jointnamesHash.First( hash ); i != -1; i = jointnamesHash.Next( i ) ) {
		if ( jointnames[i].Cmp( name ) == 0 ) {
			return i;
		}
	}

	i = jointnames.Append( name );
	jointnamesHash.Add( hash, i );
	return i;
}

/*
================
idAnimManager::JointName
================
*/
const char *idAnimManager::JointName( int index ) const {
	return jointnames[ index ];
}

/*
================
idAnimManager::ListAnims
================
*/
void idAnimManager::ListAnims() const {
	int			i;
	idMD5Anim	**animptr;
	idMD5Anim	*anim;
	size_t		size;
	size_t		s;
	size_t		namesize;
	int			num;

	num = 0;
	size = 0;
	for( i = 0; i < animations.Num(); i++ ) {
		animptr = animations.GetIndex( i );
		if ( animptr != NULL && *animptr != NULL ) {
			anim = *animptr;
			s = anim->Size();
			gameLocal.Printf( "%8d bytes : %2d refs : %s\n", s, anim->NumRefs(), anim->Name() );
			size += s;
			num++;
		}
	}

	namesize = jointnames.Size() + jointnamesHash.Size();
	for( i = 0; i < jointnames.Num(); i++ ) {
		namesize += jointnames[ i ].Size();
	}

	gameLocal.Printf( "\n%d memory used in %d anims\n", size, num );
	gameLocal.Printf( "%d memory used in %d joint names\n", namesize, jointnames.Num() );
}

/*
================
idAnimManager::FlushUnusedAnims
================
*/
void idAnimManager::FlushUnusedAnims() {
	int						i;
	idMD5Anim				**animptr;
	idList<idMD5Anim *>		removeAnims;
	
	for( i = 0; i < animations.Num(); i++ ) {
		animptr = animations.GetIndex( i );
		if ( animptr != NULL && *animptr != NULL ) {
			if ( ( *animptr )->NumRefs() <= 0 ) {
				removeAnims.Append( *animptr );
			}
		}
	}

	for( i = 0; i < removeAnims.Num(); i++ ) {
		animations.Remove( removeAnims[ i ]->Name() );
		delete removeAnims[ i ];
	}
}