source-engine/utils/sptconvert/sptconvert.cpp

//========= Copyright Valve Corporation, All rights reserved. ============//
//
// Purpose: 
//
// A simple tool for converting SpeedTree .spt files into .smd files
// for use in Source
//
//===========================================================================//

#include <stdio.h>
#include <stdlib.h>
#include <math.h>

#include "filesystem_tools.h"
#include "cmdlib.h"
#include "mathlib/mathlib.h"

#include "tier0/icommandline.h"

#include "SpeedTreeRT.h"


void OutputMaterialFile( char *filestub, bool bEnableAlphaTest, float alphaTest=0.0f )
{
	char filename[MAX_PATH];
	_snprintf( filename, MAX_PATH, "%smaterials\\Trees\\%s_VertexLit.vmt", gamedir, filestub );
	FILE *file = fopen( filename, "wt" );
	if( !file )
		return;

	fprintf( file, "\"VertexLitGeneric\"\n" );
	fprintf( file, "{\n" );
	fprintf( file, "\t\"$basetexture\" \"trees/%s\"\n", filestub);
	fprintf( file, "\t\"$model\" \"1\"\n" );
	fprintf( file, "\t\"$alphatest\" \"%d\"\n", bEnableAlphaTest?1:0 );
	fprintf( file, "\t\"$alphatestreference\" \"%f\"\n", alphaTest );
	fprintf( file, "}\n\n" );

	fclose( file );
}


void OutputLeafMaterialFile( char *filestub, bool bEnableAlphaTest, float alphaTest=0.0f, float *pCenter=NULL )
{
	char filename[MAX_PATH];
	_snprintf( filename, MAX_PATH, "%smaterials\\Trees\\%s_TreeLeaf.vmt", gamedir, filestub );
	FILE *file = fopen( filename, "wt" );
	if( !file )
		return;

	fprintf( file, "\"TreeLeaf\"\n" );
	fprintf( file, "{\n" );
	fprintf( file, "\t\"$basetexture\" \"trees/%s\"\n", filestub);
	fprintf( file, "\t\"$model\" \"1\"\n" );
	fprintf( file, "\t\"$alphatest\" \"%d\"\n", bEnableAlphaTest?1:0 );
	fprintf( file, "\t\"$alphatestreference\" \"%f\"\n", alphaTest );
	fprintf( file, "\t\"$leafcenter\" \"[ %f %f %f ]\"\n", pCenter[0], pCenter[1], pCenter[2] );
	fprintf( file, "}\n\n" );

	fclose( file );
}


void OutputTreeGeometry( CSpeedTreeRT &speedTree, CSpeedTreeRT::SGeometry &sGeom, char *filename )
{
	FILE *file = fopen( filename, "wt" );
	if( !file )
		return;

	fprintf( file, "version 1\n" );

	fprintf( file, "nodes\n" );
	fprintf( file, "0 \"Tree\" -1\n" );
	fprintf( file, "end\n" );

	fprintf( file, "skeleton\n" );
	fprintf( file, "time 0\n" );
	fprintf( file, "0 0.0 0.0 0.0 0.0 0.0 0.0\n" );
	fprintf( file, "end\n" );

	fprintf( file, "triangles\n" );

	CSpeedTreeRT::STextures sTextures;
	speedTree.GetTextures( sTextures );

	char branchTextureName[ MAX_PATH ];
	_splitpath( sTextures.m_pBranchTextureFilename, NULL, NULL, branchTextureName, NULL );

	float alphaTest = sGeom.m_fBranchAlphaTestValue/255.0f;
	OutputMaterialFile( branchTextureName, false, alphaTest );

	for( int nStrip=0;nStrip<sGeom.m_sBranches.m_usNumStrips;nStrip++ )
	{
		int nStripLength = sGeom.m_sBranches.m_pStripLengths[ nStrip ];
		const unsigned short *pStripIndices = sGeom.m_sBranches.m_pStrips[ nStrip ];
		for( int i=0;i<nStripLength-2;i++ )
		{
			int nIndices[3] = { pStripIndices[i], pStripIndices[i+1], pStripIndices[i+2] };

			if( i%2 )
			{
				int tmp = nIndices[2];
				nIndices[2] = nIndices[1];
				nIndices[1] = tmp;
			}

			fprintf( file, "%s_VertexLit\n", branchTextureName );

			for( int j=0;j<3;j++ )
			{
				const float *pPos = &sGeom.m_sBranches.m_pCoords[ nIndices[j]*3 ];
				const float *pNormal = &sGeom.m_sBranches.m_pNormals[ nIndices[j]*3 ];
				const float *pTexCoord = &sGeom.m_sBranches.m_pTexCoords0[ nIndices[j]*2 ];

				fprintf( file, "0 %f %f %f %f %f %f %f %f 0\n", pPos[0], pPos[1], pPos[2],
																pNormal[0], pNormal[1], pNormal[2],
																pTexCoord[0], pTexCoord[1] );
			}
		}
	}

	for( unsigned int i=0;i<sTextures.m_uiFrondTextureCount;i++ )
	{
		char filestub[MAX_PATH];
		_splitpath( sTextures.m_pFrondTextureFilenames[i], NULL, NULL, filestub, NULL );

		alphaTest = sGeom.m_fFrondAlphaTestValue/255.0f;
		OutputMaterialFile( filestub, true, alphaTest );
	}

	for( int nStrip=0;nStrip<sGeom.m_sFronds.m_usNumStrips;nStrip++ )
	{
		int nStripLength = sGeom.m_sFronds.m_pStripLengths[ nStrip ];
		const unsigned short *pStripIndices = sGeom.m_sFronds.m_pStrips[ nStrip ];
		for( int i=0;i<nStripLength-2;i++ )
		{
			int nIndices[3] = { pStripIndices[i], pStripIndices[i+1], pStripIndices[i+2] };

			if( i%2 )
			{
				int tmp = nIndices[2];
				nIndices[2] = nIndices[1];
				nIndices[1] = tmp;
			}

			char frondTextureName[ MAX_PATH ];
			_splitpath( sTextures.m_pFrondTextureFilenames[0], NULL, NULL, frondTextureName, NULL );
			fprintf( file, "%s_VertexLit\n", frondTextureName );

			for( int j=0;j<3;j++ )
			{
				const float *pPos = &sGeom.m_sFronds.m_pCoords[ nIndices[j]*3 ];
				const float *pNormal = &sGeom.m_sFronds.m_pNormals[ nIndices[j]*3 ];
				const float *pTexCoord = &sGeom.m_sFronds.m_pTexCoords0[ nIndices[j]*2 ];

				fprintf( file, "0 %f %f %f %f %f %f %f %f 0\n", pPos[0], pPos[1], pPos[2],
																pNormal[0], pNormal[1], pNormal[2],
																pTexCoord[0], pTexCoord[1] );
			}
		}
	}

	float *pLeafCentres = new float[ sTextures.m_uiLeafTextureCount*3 ];
	int   *pLeafCounts = new int[ sTextures.m_uiLeafTextureCount ];
	for( unsigned int i=0;i<sTextures.m_uiLeafTextureCount;i++ )
	{
		pLeafCentres[ i*3   ] = 0.0f;
		pLeafCentres[ i*3+1 ] = 0.0f;
		pLeafCentres[ i*3+2 ] = 0.0f;
		pLeafCounts[ i ] = 0;
	}

	CSpeedTreeRT::SGeometry::SLeaf &leaves = sGeom.m_sLeaves0;
	for( int i=0;i<leaves.m_usLeafCount;i++ )
	{
		int index = leaves.m_pLeafMapIndices[i] / 2;
		char leafTextureName[ MAX_PATH ];
		_splitpath( sTextures.m_pLeafTextureFilenames[ index ], NULL, NULL, leafTextureName, NULL );

		const float *pPos = &leaves.m_pCenterCoords[ i*3 ];
		const float *pCoords = leaves.m_pLeafMapCoords[ i ];
		const float *pTex = leaves.m_pLeafMapTexCoords[i];

		float d[3] = { pCoords[8] - pCoords[0], pCoords[9] - pCoords[1], pCoords[10] - pCoords[2] };
		float size = sqrtf( d[0]*d[0] + d[1]*d[1] + d[2]*d[2] ) * 0.5f;
		
		fprintf( file, "%s_TreeLeaf\n", leafTextureName );
		fprintf( file, "0 %f %f %f %f %f 0.0 %f %f\n", pPos[0], pPos[1], pPos[2], pTex[0], pTex[1], -size, -size );
		fprintf( file, "0 %f %f %f %f %f 0.0 %f %f\n", pPos[0], pPos[1], pPos[2], pTex[2], pTex[3],  size, -size );
		fprintf( file, "0 %f %f %f %f %f 0.0 %f %f\n", pPos[0], pPos[1], pPos[2], pTex[4], pTex[5],  size,  size );
																				
		fprintf( file, "%s_TreeLeaf\n", leafTextureName );						
		fprintf( file, "0 %f %f %f %f %f 0.0 %f %f\n", pPos[0], pPos[1], pPos[2], pTex[0], pTex[1], -size, -size );
		fprintf( file, "0 %f %f %f %f %f 0.0 %f %f\n", pPos[0], pPos[1], pPos[2], pTex[4], pTex[5],  size,  size );
		fprintf( file, "0 %f %f %f %f %f 0.0 %f %f\n", pPos[0], pPos[1], pPos[2], pTex[6], pTex[7], -size,  size );

		pLeafCentres[ index*3   ] += pPos[0];
		pLeafCentres[ index*3+1 ] += pPos[1];
		pLeafCentres[ index*3+2 ] += pPos[2];
		pLeafCounts[ index ]++;
	}

	for( unsigned int i=0;i<sTextures.m_uiLeafTextureCount;i++ )
	{
		float oneOnCount = 1.0f / pLeafCounts[i];

		pLeafCentres[ i*3   ] *= oneOnCount;
		pLeafCentres[ i*3+1 ] *= oneOnCount;
		pLeafCentres[ i*3+2 ] *= oneOnCount;
	}

	for( unsigned int i=0;i<sTextures.m_uiLeafTextureCount;i++ )
	{
		char filestub[ MAX_PATH ];
		_splitpath( sTextures.m_pLeafTextureFilenames[i], NULL, NULL, filestub, NULL );

		alphaTest = sGeom.m_sLeaves0.m_fAlphaTestValue/255.0f;
		OutputLeafMaterialFile( filestub, true, alphaTest, &pLeafCentres[i*3] );
	}

	fprintf( file, "end\n\n" );

	fclose( file );
}


void OutputTreeTextures( CSpeedTreeRT &speedTree )
{
	CSpeedTreeRT::STextures sTextures;
	speedTree.GetTextures( sTextures );

	CSpeedTreeRT::SGeometry sGeom;
	speedTree.GetGeometry( sGeom, SpeedTree_AllGeometry );


	char filestub[MAX_PATH];
	_splitpath( sTextures.m_pBranchTextureFilename, NULL, NULL, filestub, NULL );

	float alphaTest = sGeom.m_fBranchAlphaTestValue/255.0f;
	OutputMaterialFile( filestub, false, alphaTest );

	for( unsigned int i=0;i<sTextures.m_uiFrondTextureCount;i++ )
	{
		_splitpath( sTextures.m_pFrondTextureFilenames[i], NULL, NULL, filestub, NULL );

		alphaTest = sGeom.m_fFrondAlphaTestValue/255.0f;
		OutputMaterialFile( filestub, true, alphaTest );
	}

	for( unsigned int i=0;i<sTextures.m_uiLeafTextureCount;i++ )
	{
		_splitpath( sTextures.m_pLeafTextureFilenames[i], NULL, NULL, filestub, NULL );

		alphaTest = sGeom.m_sLeaves0.m_fAlphaTestValue/255.0f;
		OutputLeafMaterialFile( filestub, true, alphaTest );
	}
}


void OutputQCFile( char *treeName )
{
	char smdFileName[MAX_PATH];
	sprintf( smdFileName, "%s.smd", treeName );

	char qcFileName[MAX_PATH];
	sprintf( qcFileName, "%s.qc", treeName );

	char smdAnimFileName[MAX_PATH];
	sprintf( smdAnimFileName, "%s_anim.smd", treeName );

	char mdlFileName[MAX_PATH];
	sprintf( mdlFileName, "%s.mdl", treeName );

	FILE *file = fopen( qcFileName, "wt" );

	fprintf( file, "$modelname %s\n", mdlFileName );
	fprintf( file, "$cdmaterials trees\n" );
	fprintf( file, "$scale 1\n" );
	fprintf( file, "$model %s \"%s\"\n", treeName, smdFileName );
	fprintf( file, "$sequence idle \"%s_anim\" loop fps 15\n", treeName );

	fclose( file );

	file = fopen( smdAnimFileName, "wt" );

	fprintf( file, "version 1\n" );
	fprintf( file, "nodes\n" );
	fprintf( file, "0 \"Tree\" -1\n" );
	fprintf( file, "end\n" );
	fprintf( file, "skeleton\n" );
	fprintf( file, "time 0\n" );
	fprintf( file, "0 0.0 0.0 0.0 0.0 0.0 0.0\n" );
	fprintf( file, "end\n" );

	fclose( file );
}


void main( int argc, char **argv )
{
	CommandLine()->CreateCmdLine( argc, argv );
	if( CommandLine()->ParmCount()!=2 )
	{
		printf( "usage : sptconvert <SPT file name>\n" );
		exit(0);
	}

	MathLib_Init( 2.2f, 2.2f, 0.0f, 2.0f, false, false, false, false );

	CmdLib_InitFileSystem( CommandLine()->GetParm(1) );

	CSpeedTreeRT speedTree;

	char treeName[MAX_PATH];
	_splitpath( argv[1], NULL, NULL, treeName, NULL );

	char smdFileName[MAX_PATH];
	sprintf( smdFileName, "%s.smd", treeName );

	char qcFileName[MAX_PATH];
	sprintf( qcFileName, "%s.qc", treeName );

	OutputQCFile( treeName );

	if( speedTree.LoadTree( argv[1] ) )
	{
		if( speedTree.Compute( NULL, 1, false ) )
		{
			CSpeedTreeRT::SGeometry sGeom;
			speedTree.GetGeometry( sGeom, SpeedTree_AllGeometry );

			OutputTreeGeometry( speedTree, sGeom, smdFileName );
		}
		else
		{
			// Trouble with compute
		}
	}
	else
	{
		// Trouble with load
	}
}
1 5 years ago			`//========= Copyright Valve Corporation, All rights reserved. ============//`
			`//`
			`// Purpose:`
			`//`
			`// A simple tool for converting SpeedTree .spt files into .smd files`
			`// for use in Source`
			`//`
			`//===========================================================================//`

			`#include <stdio.h>`
			`#include <stdlib.h>`
			`#include <math.h>`

			`#include "filesystem_tools.h"`
			`#include "cmdlib.h"`
			`#include "mathlib/mathlib.h"`

			`#include "tier0/icommandline.h"`

			`#include "SpeedTreeRT.h"`


			`void OutputMaterialFile( char *filestub, bool bEnableAlphaTest, float alphaTest=0.0f )`
			`{`
			`char filename[MAX_PATH];`
			`_snprintf( filename, MAX_PATH, "%smaterials\\Trees\\%s_VertexLit.vmt", gamedir, filestub );`
			`FILE *file = fopen( filename, "wt" );`
			`if( !file )`
			`return;`

			`fprintf( file, "\"VertexLitGeneric\"\n" );`
			`fprintf( file, "{\n" );`
			`fprintf( file, "\t\"$basetexture\" \"trees/%s\"\n", filestub);`
			`fprintf( file, "\t\"$model\" \"1\"\n" );`
			`fprintf( file, "\t\"$alphatest\" \"%d\"\n", bEnableAlphaTest?1:0 );`
			`fprintf( file, "\t\"$alphatestreference\" \"%f\"\n", alphaTest );`
			`fprintf( file, "}\n\n" );`

			`fclose( file );`
			`}`


			`void OutputLeafMaterialFile( char filestub, bool bEnableAlphaTest, float alphaTest=0.0f, float pCenter=NULL )`
			`{`
			`char filename[MAX_PATH];`
			`_snprintf( filename, MAX_PATH, "%smaterials\\Trees\\%s_TreeLeaf.vmt", gamedir, filestub );`
			`FILE *file = fopen( filename, "wt" );`
			`if( !file )`
			`return;`

			`fprintf( file, "\"TreeLeaf\"\n" );`
			`fprintf( file, "{\n" );`
			`fprintf( file, "\t\"$basetexture\" \"trees/%s\"\n", filestub);`
			`fprintf( file, "\t\"$model\" \"1\"\n" );`
			`fprintf( file, "\t\"$alphatest\" \"%d\"\n", bEnableAlphaTest?1:0 );`
			`fprintf( file, "\t\"$alphatestreference\" \"%f\"\n", alphaTest );`
			`fprintf( file, "\t\"$leafcenter\" \"[ %f %f %f ]\"\n", pCenter[0], pCenter[1], pCenter[2] );`
			`fprintf( file, "}\n\n" );`

			`fclose( file );`
			`}`


			`void OutputTreeGeometry( CSpeedTreeRT &speedTree, CSpeedTreeRT::SGeometry &sGeom, char *filename )`
			`{`
			`FILE *file = fopen( filename, "wt" );`
			`if( !file )`
			`return;`

			`fprintf( file, "version 1\n" );`

			`fprintf( file, "nodes\n" );`
			`fprintf( file, "0 \"Tree\" -1\n" );`
			`fprintf( file, "end\n" );`

			`fprintf( file, "skeleton\n" );`
			`fprintf( file, "time 0\n" );`
			`fprintf( file, "0 0.0 0.0 0.0 0.0 0.0 0.0\n" );`
			`fprintf( file, "end\n" );`

			`fprintf( file, "triangles\n" );`

			`CSpeedTreeRT::STextures sTextures;`
			`speedTree.GetTextures( sTextures );`

			`char branchTextureName[ MAX_PATH ];`
			`_splitpath( sTextures.m_pBranchTextureFilename, NULL, NULL, branchTextureName, NULL );`

			`float alphaTest = sGeom.m_fBranchAlphaTestValue/255.0f;`
			`OutputMaterialFile( branchTextureName, false, alphaTest );`

			`for( int nStrip=0;nStrip<sGeom.m_sBranches.m_usNumStrips;nStrip++ )`
			`{`
			`int nStripLength = sGeom.m_sBranches.m_pStripLengths[ nStrip ];`
			`const unsigned short *pStripIndices = sGeom.m_sBranches.m_pStrips[ nStrip ];`
			`for( int i=0;i<nStripLength-2;i++ )`
			`{`
			`int nIndices[3] = { pStripIndices[i], pStripIndices[i+1], pStripIndices[i+2] };`

			`if( i%2 )`
			`{`
			`int tmp = nIndices[2];`
			`nIndices[2] = nIndices[1];`
			`nIndices[1] = tmp;`
			`}`

			`fprintf( file, "%s_VertexLit\n", branchTextureName );`

			`for( int j=0;j<3;j++ )`
			`{`
			`const float pPos = &sGeom.m_sBranches.m_pCoords[ nIndices[j]3 ];`
			`const float pNormal = &sGeom.m_sBranches.m_pNormals[ nIndices[j]3 ];`
			`const float pTexCoord = &sGeom.m_sBranches.m_pTexCoords0[ nIndices[j]2 ];`

			`fprintf( file, "0 %f %f %f %f %f %f %f %f 0\n", pPos[0], pPos[1], pPos[2],`
			`pNormal[0], pNormal[1], pNormal[2],`
			`pTexCoord[0], pTexCoord[1] );`
			`}`
			`}`
			`}`

			`for( unsigned int i=0;i<sTextures.m_uiFrondTextureCount;i++ )`
			`{`
			`char filestub[MAX_PATH];`
			`_splitpath( sTextures.m_pFrondTextureFilenames[i], NULL, NULL, filestub, NULL );`

			`alphaTest = sGeom.m_fFrondAlphaTestValue/255.0f;`
			`OutputMaterialFile( filestub, true, alphaTest );`
			`}`

			`for( int nStrip=0;nStrip<sGeom.m_sFronds.m_usNumStrips;nStrip++ )`
			`{`
			`int nStripLength = sGeom.m_sFronds.m_pStripLengths[ nStrip ];`
			`const unsigned short *pStripIndices = sGeom.m_sFronds.m_pStrips[ nStrip ];`
			`for( int i=0;i<nStripLength-2;i++ )`
			`{`
			`int nIndices[3] = { pStripIndices[i], pStripIndices[i+1], pStripIndices[i+2] };`

			`if( i%2 )`
			`{`
			`int tmp = nIndices[2];`
			`nIndices[2] = nIndices[1];`
			`nIndices[1] = tmp;`
			`}`

			`char frondTextureName[ MAX_PATH ];`
			`_splitpath( sTextures.m_pFrondTextureFilenames[0], NULL, NULL, frondTextureName, NULL );`
			`fprintf( file, "%s_VertexLit\n", frondTextureName );`

			`for( int j=0;j<3;j++ )`
			`{`
			`const float pPos = &sGeom.m_sFronds.m_pCoords[ nIndices[j]3 ];`
			`const float pNormal = &sGeom.m_sFronds.m_pNormals[ nIndices[j]3 ];`
			`const float pTexCoord = &sGeom.m_sFronds.m_pTexCoords0[ nIndices[j]2 ];`

			`fprintf( file, "0 %f %f %f %f %f %f %f %f 0\n", pPos[0], pPos[1], pPos[2],`
			`pNormal[0], pNormal[1], pNormal[2],`
			`pTexCoord[0], pTexCoord[1] );`
			`}`
			`}`
			`}`

			`float pLeafCentres = new float[ sTextures.m_uiLeafTextureCount3 ];`
			`int *pLeafCounts = new int[ sTextures.m_uiLeafTextureCount ];`
			`for( unsigned int i=0;i<sTextures.m_uiLeafTextureCount;i++ )`
			`{`
			`pLeafCentres[ i*3 ] = 0.0f;`
			`pLeafCentres[ i*3+1 ] = 0.0f;`
			`pLeafCentres[ i*3+2 ] = 0.0f;`
			`pLeafCounts[ i ] = 0;`
			`}`

			`CSpeedTreeRT::SGeometry::SLeaf &leaves = sGeom.m_sLeaves0;`
			`for( int i=0;i<leaves.m_usLeafCount;i++ )`
			`{`
			`int index = leaves.m_pLeafMapIndices[i] / 2;`
			`char leafTextureName[ MAX_PATH ];`
			`_splitpath( sTextures.m_pLeafTextureFilenames[ index ], NULL, NULL, leafTextureName, NULL );`

			`const float pPos = &leaves.m_pCenterCoords[ i3 ];`
			`const float *pCoords = leaves.m_pLeafMapCoords[ i ];`
			`const float *pTex = leaves.m_pLeafMapTexCoords[i];`

			`float d[3] = { pCoords[8] - pCoords[0], pCoords[9] - pCoords[1], pCoords[10] - pCoords[2] };`
			`float size = sqrtf( d[0]d[0] + d[1]d[1] + d[2]d[2] ) 0.5f;`

			`fprintf( file, "%s_TreeLeaf\n", leafTextureName );`
			`fprintf( file, "0 %f %f %f %f %f 0.0 %f %f\n", pPos[0], pPos[1], pPos[2], pTex[0], pTex[1], -size, -size );`
			`fprintf( file, "0 %f %f %f %f %f 0.0 %f %f\n", pPos[0], pPos[1], pPos[2], pTex[2], pTex[3], size, -size );`
			`fprintf( file, "0 %f %f %f %f %f 0.0 %f %f\n", pPos[0], pPos[1], pPos[2], pTex[4], pTex[5], size, size );`

			`fprintf( file, "%s_TreeLeaf\n", leafTextureName );`
			`fprintf( file, "0 %f %f %f %f %f 0.0 %f %f\n", pPos[0], pPos[1], pPos[2], pTex[0], pTex[1], -size, -size );`
			`fprintf( file, "0 %f %f %f %f %f 0.0 %f %f\n", pPos[0], pPos[1], pPos[2], pTex[4], pTex[5], size, size );`
			`fprintf( file, "0 %f %f %f %f %f 0.0 %f %f\n", pPos[0], pPos[1], pPos[2], pTex[6], pTex[7], -size, size );`

			`pLeafCentres[ index*3 ] += pPos[0];`
			`pLeafCentres[ index*3+1 ] += pPos[1];`
			`pLeafCentres[ index*3+2 ] += pPos[2];`
			`pLeafCounts[ index ]++;`
			`}`

			`for( unsigned int i=0;i<sTextures.m_uiLeafTextureCount;i++ )`
			`{`
			`float oneOnCount = 1.0f / pLeafCounts[i];`

			`pLeafCentres[ i3 ] = oneOnCount;`
			`pLeafCentres[ i3+1 ] = oneOnCount;`
			`pLeafCentres[ i3+2 ] = oneOnCount;`
			`}`

			`for( unsigned int i=0;i<sTextures.m_uiLeafTextureCount;i++ )`
			`{`
			`char filestub[ MAX_PATH ];`
			`_splitpath( sTextures.m_pLeafTextureFilenames[i], NULL, NULL, filestub, NULL );`

			`alphaTest = sGeom.m_sLeaves0.m_fAlphaTestValue/255.0f;`
			`OutputLeafMaterialFile( filestub, true, alphaTest, &pLeafCentres[i*3] );`
			`}`

			`fprintf( file, "end\n\n" );`

			`fclose( file );`
			`}`


			`void OutputTreeTextures( CSpeedTreeRT &speedTree )`
			`{`
			`CSpeedTreeRT::STextures sTextures;`
			`speedTree.GetTextures( sTextures );`

			`CSpeedTreeRT::SGeometry sGeom;`
			`speedTree.GetGeometry( sGeom, SpeedTree_AllGeometry );`



			`char filestub[MAX_PATH];`
			`_splitpath( sTextures.m_pBranchTextureFilename, NULL, NULL, filestub, NULL );`

			`float alphaTest = sGeom.m_fBranchAlphaTestValue/255.0f;`
			`OutputMaterialFile( filestub, false, alphaTest );`

			`for( unsigned int i=0;i<sTextures.m_uiFrondTextureCount;i++ )`
			`{`
			`_splitpath( sTextures.m_pFrondTextureFilenames[i], NULL, NULL, filestub, NULL );`

			`alphaTest = sGeom.m_fFrondAlphaTestValue/255.0f;`
			`OutputMaterialFile( filestub, true, alphaTest );`
			`}`

			`for( unsigned int i=0;i<sTextures.m_uiLeafTextureCount;i++ )`
			`{`
			`_splitpath( sTextures.m_pLeafTextureFilenames[i], NULL, NULL, filestub, NULL );`

			`alphaTest = sGeom.m_sLeaves0.m_fAlphaTestValue/255.0f;`
			`OutputLeafMaterialFile( filestub, true, alphaTest );`
			`}`
			`}`


			`void OutputQCFile( char *treeName )`
			`{`
			`char smdFileName[MAX_PATH];`
			`sprintf( smdFileName, "%s.smd", treeName );`

			`char qcFileName[MAX_PATH];`
			`sprintf( qcFileName, "%s.qc", treeName );`

			`char smdAnimFileName[MAX_PATH];`
			`sprintf( smdAnimFileName, "%s_anim.smd", treeName );`

			`char mdlFileName[MAX_PATH];`
			`sprintf( mdlFileName, "%s.mdl", treeName );`

			`FILE *file = fopen( qcFileName, "wt" );`

			`fprintf( file, "$modelname %s\n", mdlFileName );`
			`fprintf( file, "$cdmaterials trees\n" );`
			`fprintf( file, "$scale 1\n" );`
			`fprintf( file, "$model %s \"%s\"\n", treeName, smdFileName );`
			`fprintf( file, "$sequence idle \"%s_anim\" loop fps 15\n", treeName );`

			`fclose( file );`

			`file = fopen( smdAnimFileName, "wt" );`

			`fprintf( file, "version 1\n" );`
			`fprintf( file, "nodes\n" );`
			`fprintf( file, "0 \"Tree\" -1\n" );`
			`fprintf( file, "end\n" );`
			`fprintf( file, "skeleton\n" );`
			`fprintf( file, "time 0\n" );`
			`fprintf( file, "0 0.0 0.0 0.0 0.0 0.0 0.0\n" );`
			`fprintf( file, "end\n" );`

			`fclose( file );`
			`}`


			`void main( int argc, char **argv )`
			`{`
			`CommandLine()->CreateCmdLine( argc, argv );`
			`if( CommandLine()->ParmCount()!=2 )`
			`{`
			`printf( "usage : sptconvert <SPT file name>\n" );`
			`exit(0);`
			`}`

			`MathLib_Init( 2.2f, 2.2f, 0.0f, 2.0f, false, false, false, false );`

			`CmdLib_InitFileSystem( CommandLine()->GetParm(1) );`

			`CSpeedTreeRT speedTree;`

			`char treeName[MAX_PATH];`
			`_splitpath( argv[1], NULL, NULL, treeName, NULL );`

			`char smdFileName[MAX_PATH];`
			`sprintf( smdFileName, "%s.smd", treeName );`

			`char qcFileName[MAX_PATH];`
			`sprintf( qcFileName, "%s.qc", treeName );`

			`OutputQCFile( treeName );`

			`if( speedTree.LoadTree( argv[1] ) )`
			`{`
			`if( speedTree.Compute( NULL, 1, false ) )`
			`{`
			`CSpeedTreeRT::SGeometry sGeom;`
			`speedTree.GetGeometry( sGeom, SpeedTree_AllGeometry );`

			`OutputTreeGeometry( speedTree, sGeom, smdFileName );`
			`}`
			`else`
			`{`
			`// Trouble with compute`
			`}`
			`}`
			`else`
			`{`
			`// Trouble with load`
			`}`
			`}`