source-engine/particles/psheet.cpp

//========= Copyright Valve Corporation, All rights reserved. ============//
//
// Purpose: sheet code for particles and other sprite functions
//
//===========================================================================//

#include "psheet.h"
#include "tier1/UtlStringMap.h"
#include "tier1/utlbuffer.h"
#include "tier2/fileutils.h"

// memdbgon must be the last include file in a .cpp file!!!
#include "tier0/memdbgon.h"


CSheet::CSheet( void )
{
	memset( m_pSamples, 0, sizeof( m_pSamples ) );
	memset( m_bClamp, 0, sizeof( m_bClamp ) );
}

CSheet::CSheet( CUtlBuffer &buf )
{
	memset( m_pSamples, 0, sizeof( m_pSamples ) );
	memset( m_bClamp, 0, sizeof( m_bClamp ) );
	memset( m_bSequenceIsCopyOfAnotherSequence, 0, sizeof( m_bSequenceIsCopyOfAnotherSequence ) );

	// lets read a sheet
	buf.ActivateByteSwappingIfBigEndian();
	int nVersion = buf.GetInt();								// version#
	int nNumCoordsPerFrame = (nVersion)?MAX_IMAGES_PER_FRAME_ON_DISK:1;

	int nNumSequences = buf.GetInt();


	while ( nNumSequences-- )
	{
		int nSequenceNumber = buf.GetInt();
		if ( ( nSequenceNumber < 0 ) || (nSequenceNumber >= MAX_SEQUENCES ) )
		{
			Warning("sequence number %d too high in sheet file!!!\n", nSequenceNumber);
			return;
		}
		m_bClamp[ nSequenceNumber ] = ( buf.GetInt() != 0 );
		int nFrameCount = buf.GetInt();
		// Save off how many frames we have for this sequence
		m_nNumFrames[ nSequenceNumber ] = nFrameCount;
		bool bSingleFrameSequence = ( nFrameCount == 1 );

		int nTimeSamples = bSingleFrameSequence ? 1 : SEQUENCE_SAMPLE_COUNT;

		m_pSamples[ nSequenceNumber ] = 
			new SheetSequenceSample_t[ nTimeSamples ];

		int fTotalSequenceTime = buf.GetFloat();
		float InterpKnot[SEQUENCE_SAMPLE_COUNT];
		float InterpValue[SEQUENCE_SAMPLE_COUNT];
		SheetSequenceSample_t Samples[SEQUENCE_SAMPLE_COUNT];
		float fCurTime = 0.;
		for( int nFrm = 0 ; nFrm < nFrameCount; nFrm++ )
		{
			float fThisDuration = buf.GetFloat();
			InterpValue[ nFrm ] = nFrm;
			InterpKnot [ nFrm ] = SEQUENCE_SAMPLE_COUNT*( fCurTime/ fTotalSequenceTime );
			SheetSequenceSample_t &seq = Samples[ nFrm ];
			seq.m_fBlendFactor = 0.0f;
			for(int nImage = 0 ; nImage< nNumCoordsPerFrame; nImage++ )
			{
				SequenceSampleTextureCoords_t &s=seq.m_TextureCoordData[nImage];
				s.m_fLeft_U0	= buf.GetFloat();
				s.m_fTop_V0		= buf.GetFloat();
				s.m_fRight_U0	= buf.GetFloat();
				s.m_fBottom_V0	= buf.GetFloat();
			}
			if ( nNumCoordsPerFrame == 1 )
				seq.CopyFirstFrameToOthers();
			fCurTime += fThisDuration;
			m_flFrameSpan[nSequenceNumber] = fCurTime;
		}
		// now, fill in the whole table
		for( int nIdx = 0; nIdx < nTimeSamples; nIdx++ )
		{
			float flIdxA, flIdxB, flInterp;
			GetInterpolationData( InterpKnot, InterpValue, nFrameCount,
								  SEQUENCE_SAMPLE_COUNT,
								  nIdx, 
								  ! ( m_bClamp[nSequenceNumber] ),
								  &flIdxA, &flIdxB, &flInterp );
			SheetSequenceSample_t sA = Samples[(int) flIdxA];
			SheetSequenceSample_t sB = Samples[(int) flIdxB];
			SheetSequenceSample_t &oseq = m_pSamples[nSequenceNumber][nIdx];

			oseq.m_fBlendFactor = flInterp;
			for(int nImage = 0 ; nImage< MAX_IMAGES_PER_FRAME_IN_MEMORY; nImage++ )
			{
				SequenceSampleTextureCoords_t &src0=sA.m_TextureCoordData[nImage];
				SequenceSampleTextureCoords_t &src1=sB.m_TextureCoordData[nImage];
				SequenceSampleTextureCoords_t &o=oseq.m_TextureCoordData[nImage];
				o.m_fLeft_U0 = src0.m_fLeft_U0;
				o.m_fTop_V0	= src0.m_fTop_V0;
				o.m_fRight_U0 = src0.m_fRight_U0;
				o.m_fBottom_V0 = src0.m_fBottom_V0;
				o.m_fLeft_U1 = src1.m_fLeft_U0;
				o.m_fTop_V1	= src1.m_fTop_V0;
				o.m_fRight_U1 = src1.m_fRight_U0;
				o.m_fBottom_V1 = src1.m_fBottom_V0;
			}
		}
	}
	// now, fill in all unseen sequences with copies of the first seen sequence to prevent crashes
	// while editing
	int nFirstSequence = -1;
	for(int i=0 ; i<MAX_SEQUENCES ; i++)
	{
		if ( m_pSamples[i] )
		{
			nFirstSequence = i;
			break;
		}
	}

	if ( nFirstSequence != -1 )
	{
		for(int i=0 ; i<MAX_SEQUENCES ; i++)
		{
			if ( m_pSamples[i] == NULL )
			{
				m_pSamples[i] = m_pSamples[nFirstSequence];
				m_bClamp[i]= m_bClamp[nFirstSequence];
				m_nNumFrames[i] = m_nNumFrames[nFirstSequence];
				m_bSequenceIsCopyOfAnotherSequence[i] = true;
			}
		}
	}
}

CSheet::~CSheet( void )
{
	for( int i=0; i<NELEMS(m_pSamples); i++ )
	{
		if ( m_pSamples[i] && ( ! m_bSequenceIsCopyOfAnotherSequence[i] ) )
		{
			delete[] m_pSamples[i];
		}
	}
}
1 5 years ago			`//========= Copyright Valve Corporation, All rights reserved. ============//`
			`//`
			`// Purpose: sheet code for particles and other sprite functions`
			`//`
			`//===========================================================================//`

			`#include "psheet.h"`
			`#include "tier1/UtlStringMap.h"`
			`#include "tier1/utlbuffer.h"`
			`#include "tier2/fileutils.h"`

			`// memdbgon must be the last include file in a .cpp file!!!`
			`#include "tier0/memdbgon.h"`


			`CSheet::CSheet( void )`
			`{`
			`memset( m_pSamples, 0, sizeof( m_pSamples ) );`
			`memset( m_bClamp, 0, sizeof( m_bClamp ) );`
			`}`

			`CSheet::CSheet( CUtlBuffer &buf )`
			`{`
			`memset( m_pSamples, 0, sizeof( m_pSamples ) );`
			`memset( m_bClamp, 0, sizeof( m_bClamp ) );`
			`memset( m_bSequenceIsCopyOfAnotherSequence, 0, sizeof( m_bSequenceIsCopyOfAnotherSequence ) );`

			`// lets read a sheet`
			`buf.ActivateByteSwappingIfBigEndian();`
			`int nVersion = buf.GetInt(); // version#`
			`int nNumCoordsPerFrame = (nVersion)?MAX_IMAGES_PER_FRAME_ON_DISK:1;`

			`int nNumSequences = buf.GetInt();`


			`while ( nNumSequences-- )`
			`{`
			`int nSequenceNumber = buf.GetInt();`
			`if ( ( nSequenceNumber < 0 ) \|\| (nSequenceNumber >= MAX_SEQUENCES ) )`
			`{`
			`Warning("sequence number %d too high in sheet file!!!\n", nSequenceNumber);`
			`return;`
			`}`
			`m_bClamp[ nSequenceNumber ] = ( buf.GetInt() != 0 );`
			`int nFrameCount = buf.GetInt();`
			`// Save off how many frames we have for this sequence`
			`m_nNumFrames[ nSequenceNumber ] = nFrameCount;`
			`bool bSingleFrameSequence = ( nFrameCount == 1 );`

			`int nTimeSamples = bSingleFrameSequence ? 1 : SEQUENCE_SAMPLE_COUNT;`

			`m_pSamples[ nSequenceNumber ] =`
			`new SheetSequenceSample_t[ nTimeSamples ];`

			`int fTotalSequenceTime = buf.GetFloat();`
			`float InterpKnot[SEQUENCE_SAMPLE_COUNT];`
			`float InterpValue[SEQUENCE_SAMPLE_COUNT];`
			`SheetSequenceSample_t Samples[SEQUENCE_SAMPLE_COUNT];`
			`float fCurTime = 0.;`
			`for( int nFrm = 0 ; nFrm < nFrameCount; nFrm++ )`
			`{`
			`float fThisDuration = buf.GetFloat();`
			`InterpValue[ nFrm ] = nFrm;`
			`InterpKnot [ nFrm ] = SEQUENCE_SAMPLE_COUNT*( fCurTime/ fTotalSequenceTime );`
			`SheetSequenceSample_t &seq = Samples[ nFrm ];`
			`seq.m_fBlendFactor = 0.0f;`
			`for(int nImage = 0 ; nImage< nNumCoordsPerFrame; nImage++ )`
			`{`
			`SequenceSampleTextureCoords_t &s=seq.m_TextureCoordData[nImage];`
			`s.m_fLeft_U0 = buf.GetFloat();`
			`s.m_fTop_V0 = buf.GetFloat();`
			`s.m_fRight_U0 = buf.GetFloat();`
			`s.m_fBottom_V0 = buf.GetFloat();`
			`}`
			`if ( nNumCoordsPerFrame == 1 )`
			`seq.CopyFirstFrameToOthers();`
			`fCurTime += fThisDuration;`
			`m_flFrameSpan[nSequenceNumber] = fCurTime;`
			`}`
			`// now, fill in the whole table`
			`for( int nIdx = 0; nIdx < nTimeSamples; nIdx++ )`
			`{`
			`float flIdxA, flIdxB, flInterp;`
			`GetInterpolationData( InterpKnot, InterpValue, nFrameCount,`
			`SEQUENCE_SAMPLE_COUNT,`
			`nIdx,`
			`! ( m_bClamp[nSequenceNumber] ),`
			`&flIdxA, &flIdxB, &flInterp );`
			`SheetSequenceSample_t sA = Samples[(int) flIdxA];`
			`SheetSequenceSample_t sB = Samples[(int) flIdxB];`
			`SheetSequenceSample_t &oseq = m_pSamples[nSequenceNumber][nIdx];`

			`oseq.m_fBlendFactor = flInterp;`
			`for(int nImage = 0 ; nImage< MAX_IMAGES_PER_FRAME_IN_MEMORY; nImage++ )`
			`{`
			`SequenceSampleTextureCoords_t &src0=sA.m_TextureCoordData[nImage];`
			`SequenceSampleTextureCoords_t &src1=sB.m_TextureCoordData[nImage];`
			`SequenceSampleTextureCoords_t &o=oseq.m_TextureCoordData[nImage];`
			`o.m_fLeft_U0 = src0.m_fLeft_U0;`
			`o.m_fTop_V0 = src0.m_fTop_V0;`
			`o.m_fRight_U0 = src0.m_fRight_U0;`
			`o.m_fBottom_V0 = src0.m_fBottom_V0;`
			`o.m_fLeft_U1 = src1.m_fLeft_U0;`
			`o.m_fTop_V1 = src1.m_fTop_V0;`
			`o.m_fRight_U1 = src1.m_fRight_U0;`
			`o.m_fBottom_V1 = src1.m_fBottom_V0;`
			`}`
			`}`
			`}`
			`// now, fill in all unseen sequences with copies of the first seen sequence to prevent crashes`
			`// while editing`
			`int nFirstSequence = -1;`
			`for(int i=0 ; i<MAX_SEQUENCES ; i++)`
			`{`
			`if ( m_pSamples[i] )`
			`{`
			`nFirstSequence = i;`
			`break;`
			`}`
			`}`

			`if ( nFirstSequence != -1 )`
			`{`
			`for(int i=0 ; i<MAX_SEQUENCES ; i++)`
			`{`
			`if ( m_pSamples[i] == NULL )`
			`{`
			`m_pSamples[i] = m_pSamples[nFirstSequence];`
			`m_bClamp[i]= m_bClamp[nFirstSequence];`
			`m_nNumFrames[i] = m_nNumFrames[nFirstSequence];`
			`m_bSequenceIsCopyOfAnotherSequence[i] = true;`
			`}`
			`}`
			`}`
			`}`

			`CSheet::~CSheet( void )`
			`{`
			`for( int i=0; i<NELEMS(m_pSamples); i++ )`
			`{`
			`if ( m_pSamples[i] && ( ! m_bSequenceIsCopyOfAnotherSequence[i] ) )`
			`{`
			`delete[] m_pSamples[i];`
			`}`
			`}`
			`}`