Exemplo n.º 1
0
/*
============
idCVarSystemLocal::FindInternal
============
*/
idInternalCVar *idCVarSystemLocal::FindInternal( const char *name ) const {
	int hash = cvarHash.GenerateKey( name, false );
	for ( int i = cvarHash.First( hash ); i != -1; i = cvarHash.Next( i ) ) {
		if ( cvars[i]->nameString.Icmp( name ) == 0 ) {
			return cvars[i];
		}
	}
	return NULL;
}
Exemplo n.º 2
0
/*
=================
idRenderModelManagerLocal::RemoveModel
=================
*/
void idRenderModelManagerLocal::RemoveModel( idRenderModel* model )
{
	int index = models.FindIndex( model );
	if( index != -1 )
	{
		hash.RemoveIndex( hash.GenerateKey( model->Name(), false ), index );
		models.RemoveIndex( index );
	}
}
Exemplo n.º 3
0
/*
============
idCVarSystemLocal::SetInternal
============
*/
void idCVarSystemLocal::SetInternal( const char *name, const char *value, int flags ) {
	int hash;
	idInternalCVar *internal;

	internal = FindInternal( name );

	if ( internal ) {
		internal->InternalSetString( value );
		internal->flags |= flags & ~CVAR_STATIC;
		internal->UpdateCheat();
	} else {
		internal = new idInternalCVar( name, value, flags );
		hash = cvarHash.GenerateKey( internal->nameString.c_str(), false );
		cvarHash.Add( hash, cvars.Append( internal ) );
	}
}
Exemplo n.º 4
0
/*
============
idCVarSystemLocal::Register
============
*/
void idCVarSystemLocal::Register( idCVar *cvar ) {
	int hash;
	idInternalCVar *internal;

	cvar->SetInternalVar( cvar );

	internal = FindInternal( cvar->GetName() );

	if ( internal ) {
		internal->Update( cvar );
	} else {
		internal = new idInternalCVar( cvar );
		hash = cvarHash.GenerateKey( internal->nameString.c_str(), false );
		cvarHash.Add( hash, cvars.Append( internal ) );
	}

	cvar->SetInternalVar( internal );
}
Exemplo n.º 5
0
/*
================
sdPersistentRankInfo::FindData
================
*/
float sdPersistentRankInfo::FindData( const char* key, const idHashIndex& hash, const sdNetStatKeyValList& list ) {
	int hashkey = hash.GenerateKey( key, false );
	for ( int index = hash.GetFirst( hashkey ); index != -1; index = hash.GetNext( index ) ) {
		if ( idStr::Icmp( list[ index ].key->c_str(), key ) != 0 ) {
			continue;
		}
		
		switch ( list[ index ].type ) {
			case sdNetStatKeyValue::SVT_INT:
				return list[ index ].val.i;
			case sdNetStatKeyValue::SVT_FLOAT:
				return list[ index ].val.f;
			default:
				assert( false );
				break;
		}
	}

	return 0.f;
}
Exemplo n.º 6
0
/*
=================
idRenderModelManagerLocal::AddModel
=================
*/
void idRenderModelManagerLocal::AddModel( idRenderModel *model ) {
	hash.Add( hash.GenerateKey( model->Name(), false ), models.Append( model ) );
}
Exemplo n.º 7
0
/*
=================
idRenderModelManagerLocal::GetModel
=================
*/
idRenderModel *idRenderModelManagerLocal::GetModel( const char *modelName, bool createIfNotFound ) {
	idStr		canonical;
	idStr		extension;

	if ( !modelName || !modelName[0] ) {
		return NULL;
	}

	canonical = modelName;
	canonical.ToLower();

	// see if it is already present
	int key = hash.GenerateKey( modelName, false );
	for ( int i = hash.First( key ); i != -1; i = hash.Next( i ) ) {
		idRenderModel *model = models[i];

		if ( canonical.Icmp( model->Name() ) == 0 ) {
			if ( !model->IsLoaded() ) {
				// reload it if it was purged
				model->LoadModel();
			} else if ( insideLevelLoad && !model->IsLevelLoadReferenced() ) {
				// we are reusing a model already in memory, but
				// touch all the materials to make sure they stay
				// in memory as well
				model->TouchData();
			}
			model->SetLevelLoadReferenced( true );
			return model;
		}
	}

	// see if we can load it

	// determine which subclass of idRenderModel to initialize

	idRenderModel	*model;

	canonical.ExtractFileExtension( extension );

	if ( ( extension.Icmp( "ase" ) == 0 ) || ( extension.Icmp( "lwo" ) == 0 ) || ( extension.Icmp( "flt" ) == 0 ) || ( extension.Icmp( "obj" ) == 0 ) ) {
		model = new idRenderModelStatic;
		model->InitFromFile( modelName );
	} else if ( extension.Icmp( "ma" ) == 0 ) {
		model = new idRenderModelStatic;
		model->InitFromFile( modelName );
	} else if ( extension.Icmp( MD5_MESH_EXT ) == 0 ) {
		model = new idRenderModelMD5;
		model->InitFromFile( modelName );
	} else if ( extension.Icmp( "md3" ) == 0 ) {
		model = new idRenderModelMD3;
		model->InitFromFile( modelName );
	} else if ( extension.Icmp( "prt" ) == 0  ) {
		model = new idRenderModelPrt;
		model->InitFromFile( modelName );
	} else if ( extension.Icmp( "liquid" ) == 0  ) {
		model = new idRenderModelLiquid;
		model->InitFromFile( modelName );
	} else {

		if ( extension.Length() ) {
			common->Warning( "unknown model type '%s'", canonical.c_str() );
		}

		if ( !createIfNotFound ) {
			return NULL;
		}

		idRenderModelStatic	*smodel = new idRenderModelStatic;
		smodel->InitEmpty( modelName );
		smodel->MakeDefaultModel();

		model = smodel;
	}

	model->SetLevelLoadReferenced( true );

	if ( !createIfNotFound && model->IsDefaultModel() ) {
		delete model;
		model = NULL;

		return NULL;
	}

	AddModel( model );

	return model;
}
Exemplo n.º 8
0
/*
=================
idRenderModelManagerLocal::GetModel
=================
*/
idRenderModel* idRenderModelManagerLocal::GetModel( const char* _modelName, bool createIfNotFound )
{

	if( !_modelName || !_modelName[0] )
	{
		return NULL;
	}
	
	idStrStatic< MAX_OSPATH > canonical = _modelName;
	canonical.ToLower();
	
	idStrStatic< MAX_OSPATH > extension;
	canonical.ExtractFileExtension( extension );
	
	// see if it is already present
	int key = hash.GenerateKey( canonical, false );
	for( int i = hash.First( key ); i != -1; i = hash.Next( i ) )
	{
		idRenderModel* model = models[i];
		
		if( canonical.Icmp( model->Name() ) == 0 )
		{
			if( !model->IsLoaded() )
			{
				// reload it if it was purged
				idStr generatedFileName = "generated/rendermodels/";
				generatedFileName.AppendPath( canonical );
				generatedFileName.SetFileExtension( va( "b%s", extension.c_str() ) );
				if( model->SupportsBinaryModel() && r_binaryLoadRenderModels.GetBool() )
				{
					idFileLocal file( fileSystem->OpenFileReadMemory( generatedFileName ) );
					model->PurgeModel();
					if( !model->LoadBinaryModel( file, 0 ) )
					{
						model->LoadModel();
					}
				}
				else
				{
					model->LoadModel();
				}
			}
			else if( insideLevelLoad && !model->IsLevelLoadReferenced() )
			{
				// we are reusing a model already in memory, but
				// touch all the materials to make sure they stay
				// in memory as well
				model->TouchData();
			}
			model->SetLevelLoadReferenced( true );
			return model;
		}
	}
	
	// see if we can load it
	
	// determine which subclass of idRenderModel to initialize
	
	idRenderModel* model = NULL;
	
	if( ( extension.Icmp( "ase" ) == 0 ) || ( extension.Icmp( "lwo" ) == 0 ) || ( extension.Icmp( "flt" ) == 0 ) || ( extension.Icmp( "ma" ) == 0 ) )
	{
		model = new( TAG_MODEL ) idRenderModelStatic;
	}
	else if( extension.Icmp( MD5_MESH_EXT ) == 0 )
	{
		model = new( TAG_MODEL ) idRenderModelMD5;
	}
	else if( extension.Icmp( "md3" ) == 0 )
	{
		model = new( TAG_MODEL ) idRenderModelMD3;
	}
	else if( extension.Icmp( "prt" ) == 0 )
	{
		model = new( TAG_MODEL ) idRenderModelPrt;
	}
	else if( extension.Icmp( "liquid" ) == 0 )
	{
		model = new( TAG_MODEL ) idRenderModelLiquid;
	}
	
	idStrStatic< MAX_OSPATH > generatedFileName;
	
	if( model != NULL )
	{
	
		generatedFileName = "generated/rendermodels/";
		generatedFileName.AppendPath( canonical );
		generatedFileName.SetFileExtension( va( "b%s", extension.c_str() ) );
		
		// 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( canonical );
		
		idFileLocal file( fileSystem->OpenFileReadMemory( generatedFileName ) );
		
		if( !model->SupportsBinaryModel() || !r_binaryLoadRenderModels.GetBool() )
		{
			model->InitFromFile( canonical );
		}
		else
		{
			if( !model->LoadBinaryModel( file, sourceTimeStamp ) )
			{
				model->InitFromFile( canonical );
				
				idFileLocal outputFile( fileSystem->OpenFileWrite( generatedFileName, "fs_basepath" ) );
				idLib::Printf( "Writing %s\n", generatedFileName.c_str() );
				model->WriteBinaryModel( outputFile );
			} /* else {
				idLib::Printf( "loaded binary model %s from file %s\n", model->Name(), generatedFileName.c_str() );
			} */
		}
	}
	
	// Not one of the known formats
	if( model == NULL )
	{
	
		if( extension.Length() )
		{
			common->Warning( "unknown model type '%s'", canonical.c_str() );
		}
		
		if( !createIfNotFound )
		{
			return NULL;
		}
		
		idRenderModelStatic*	smodel = new( TAG_MODEL ) idRenderModelStatic;
		smodel->InitEmpty( canonical );
		smodel->MakeDefaultModel();
		
		model = smodel;
	}
	
	if( cvarSystem->GetCVarBool( "fs_buildresources" ) )
	{
		fileSystem->AddModelPreload( canonical );
	}
	model->SetLevelLoadReferenced( true );
	
	if( !createIfNotFound && model->IsDefaultModel() )
	{
		delete model;
		model = NULL;
		
		return NULL;
	}
	
	if( cvarSystem->GetCVarBool( "fs_buildgame" ) )
	{
		fileSystem->AddModelPreload( model->Name() );
	}
	
	AddModel( model );
	
	return model;
}