//========= Copyright 1996-2005, Valve Corporation, All rights reserved. ============// // // Purpose: // // $NoKeywords: $ //=============================================================================// #include "cbase.h" #include "FunctionProxy.h" #include <KeyValues.h> #include "materialsystem/IMaterialVar.h" #include "materialsystem/IMaterial.h" #include "IClientRenderable.h" // memdbgon must be the last include file in a .cpp file!!! #include "tier0/memdbgon.h" //----------------------------------------------------------------------------- // Helper class to deal with floating point inputs //----------------------------------------------------------------------------- bool CFloatInput::Init( IMaterial *pMaterial, KeyValues *pKeyValues, const char *pKeyName, float flDefault ) { m_pFloatVar = NULL; KeyValues *pSection = pKeyValues->FindKey( pKeyName ); if (pSection) { if (pSection->GetDataType() == KeyValues::TYPE_STRING) { const char *pVarName = pSection->GetString(); // Look for numbers... float flValue; int nCount = sscanf( pVarName, "%f", &flValue ); if (nCount == 1) { m_flValue = flValue; return true; } // Look for array specification... char pTemp[256]; if (strchr(pVarName, '[')) { // strip off the array... Q_strncpy( pTemp, pVarName, 256 ); char *pArray = strchr( pTemp, '[' ); *pArray++ = 0; char* pIEnd; m_FloatVecComp = strtol( pArray, &pIEnd, 10 ); // Use the version without the array... pVarName = pTemp; } else { m_FloatVecComp = -1; } bool bFoundVar; m_pFloatVar = pMaterial->FindVar( pVarName, &bFoundVar, true ); if (!bFoundVar) return false; } else { m_flValue = pSection->GetFloat(); } } else { m_flValue = flDefault; } return true; } float CFloatInput::GetFloat() const { if (!m_pFloatVar) return m_flValue; if( m_FloatVecComp < 0 ) return m_pFloatVar->GetFloatValue(); int iVecSize = m_pFloatVar->VectorSize(); if ( m_FloatVecComp >= iVecSize ) return 0; float v[4]; m_pFloatVar->GetVecValue( v, iVecSize ); return v[m_FloatVecComp]; } //----------------------------------------------------------------------------- // // Result proxy; a result (with vector friendliness) // //----------------------------------------------------------------------------- CResultProxy::CResultProxy() : m_pResult(0) { } CResultProxy::~CResultProxy() { } bool CResultProxy::Init( IMaterial *pMaterial, KeyValues *pKeyValues ) { char const* pResult = pKeyValues->GetString( "resultVar" ); if( !pResult ) return false; // Look for array specification... char pTemp[256]; if (strchr(pResult, '[')) { // strip off the array... Q_strncpy( pTemp, pResult, 256 ); char *pArray = strchr( pTemp, '[' ); *pArray++ = 0; char* pIEnd; m_ResultVecComp = strtol( pArray, &pIEnd, 10 ); // Use the version without the array... pResult = pTemp; } else { m_ResultVecComp = -1; } bool foundVar; m_pResult = pMaterial->FindVar( pResult, &foundVar, true ); if( !foundVar ) return false; return true; } //----------------------------------------------------------------------------- // A little code to allow us to set single components of vectors //----------------------------------------------------------------------------- void CResultProxy::SetFloatResult( float result ) { if (m_pResult->GetType() == MATERIAL_VAR_TYPE_VECTOR) { float v[4]; int vecSize = m_pResult->VectorSize(); if ( m_ResultVecComp >= 0 ) { m_pResult->GetVecValue( v, vecSize ); v[m_ResultVecComp] = result; } else { for (int i = 0; i < vecSize; ++i) v[i] = result; } m_pResult->SetVecValue( v, vecSize ); } else { m_pResult->SetFloatValue( result ); } } C_BaseEntity *CResultProxy::BindArgToEntity( void *pArg ) { IClientRenderable *pRend = (IClientRenderable *)pArg; return pRend->GetIClientUnknown()->GetBaseEntity(); } //----------------------------------------------------------------------------- // // Base functional proxy; two sources (one is optional) and a result // //----------------------------------------------------------------------------- CFunctionProxy::CFunctionProxy() : m_pSrc1(0), m_pSrc2(0) { } CFunctionProxy::~CFunctionProxy() { } bool CFunctionProxy::Init( IMaterial *pMaterial, KeyValues *pKeyValues ) { if (!CResultProxy::Init( pMaterial, pKeyValues )) return false; char const* pSrcVar1 = pKeyValues->GetString( "srcVar1" ); if( !pSrcVar1 ) return false; bool foundVar; m_pSrc1 = pMaterial->FindVar( pSrcVar1, &foundVar, true ); if( !foundVar ) return false; // Source 2 is optional, some math ops may be single-input char const* pSrcVar2 = pKeyValues->GetString( "srcVar2" ); if( pSrcVar2 && (*pSrcVar2) ) { m_pSrc2 = pMaterial->FindVar( pSrcVar2, &foundVar, true ); if( !foundVar ) return false; } else { m_pSrc2 = 0; } return true; } void CFunctionProxy::ComputeResultType( MaterialVarType_t& resultType, int& vecSize ) { // Feh, this is ugly. Basically, don't change the result type // unless it's undefined. resultType = m_pResult->GetType(); if (resultType == MATERIAL_VAR_TYPE_VECTOR) { if (m_ResultVecComp >= 0) resultType = MATERIAL_VAR_TYPE_FLOAT; vecSize = m_pResult->VectorSize(); } else if (resultType == MATERIAL_VAR_TYPE_UNDEFINED) { resultType = m_pSrc1->GetType(); if (resultType == MATERIAL_VAR_TYPE_VECTOR) { vecSize = m_pSrc1->VectorSize(); } else if ((resultType == MATERIAL_VAR_TYPE_UNDEFINED) && m_pSrc2) { resultType = m_pSrc2->GetType(); if (resultType == MATERIAL_VAR_TYPE_VECTOR) { vecSize = m_pSrc2->VectorSize(); } } } }
# | Change | User | Description | Committed | |
---|---|---|---|---|---|
#1 | 5821 | Knut Wikstrom |
Added Valve Source code. This is NOT to be commited to other than new code from Valve. |