void Renderer::shader_lens( const liqShader &shader, const std::vector<liqTokenPointer> &tokenPointerArray ) { CM_TRACE_FUNC("Renderer::shader_lens("<<shader.getName()<<",tokenPointerArray)"); _UserDefinedShader(shader, tokenPointerArray); }
liqLightHandle Renderer::shader_light( const liqShader &shader, const std::vector<liqTokenPointer> &tokenPointerArray ) { CM_TRACE_FUNC("Renderer::shader_light("<<shader.getName()<<", tokenPointerArray)"); _UserDefinedShader(shader, tokenPointerArray); return (liqLightHandle)0;//dummy value }
liqLightHandle Renderer::shader_light( const liqShader &shader, const std::vector<liqTokenPointer> &tokenPointerArray ) { CM_TRACE_FUNC("Renderer::shader_light("<<shader.getName()<<", tokenPointerArray)"); int shaderParamCount = tokenPointerArray.size() - 1; boost::scoped_array< liqToken > tokenArray( new liqToken[ tokenPointerArray.size() ] ); boost::scoped_array< liqPointer > pointerArray( new liqPointer[ tokenPointerArray.size() ] ); assignTokenArrays( tokenPointerArray.size(), &tokenPointerArray[ 0 ], tokenArray.get(), pointerArray.get() ); return RiLightSourceV( const_cast<char *>(shader.getShaderFileName().c_str()), shaderParamCount, tokenArray.get(), pointerArray.get() ); }
void Renderer::shader_volume( const liqShader &shader, const std::vector<liqTokenPointer> &tokenPointerArray ) { CM_TRACE_FUNC("Renderer::shader_volume("<<shader.getName()<<", tokenPointerArray)"); int shaderParamCount = tokenPointerArray.size() - 1; boost::scoped_array< liqToken > tokenArray( new liqToken[ tokenPointerArray.size() ] ); boost::scoped_array< liqPointer > pointerArray( new liqPointer[ tokenPointerArray.size() ] ); assignTokenArrays( tokenPointerArray.size(), &tokenPointerArray[ 0 ], tokenArray.get(), pointerArray.get() ); //RiAtmosphereV ( const_cast<char *>(shader.getShaderFileName().c_str()), shaderParamCount, tokenArray.get(), pointerArray.get() ); switch ( shader.volume_type ) { case VOLUME_TYPE_INTERIOR: if ( shader.useVisiblePoints ){ //RiVPInteriorV ( const_cast<char *>(shader.getShaderFileName().c_str()), shaderParamCount, tokenArray.get(), pointerArray.get() ); RiArchiveRecord( RI_COMMENT, "RiVPInteriorV is not implemented in maya2renderer, useVisiblePoints is added by ymesh in r777" ); }else{ RiInteriorV ( const_cast<char *>(shader.getShaderFileName().c_str()), shaderParamCount, tokenArray.get(), pointerArray.get() ); }break; case VOLUME_TYPE_EXTERIOR: if ( shader.useVisiblePoints ){ RiArchiveRecord( RI_COMMENT, "useVisiblePoints is added by ymesh in r777" ); #ifdef GENERIC RiVPExteriorV ( const_cast<char *>(shader.getShaderFileName().c_str()), shaderParamCount, tokenArray.get(), pointerArray.get() ); #else // Atleast Prman 16.x haven't this function RiExteriorV ( const_cast<char *>(shader.getShaderFileName().c_str()), shaderParamCount, tokenArray.get(), pointerArray.get() ); #endif }else{ RiExteriorV ( const_cast<char *>(shader.getShaderFileName().c_str()), shaderParamCount, tokenArray.get(), pointerArray.get() ); }break; case VOLUME_TYPE_ATMOSPHERE: default: if ( shader.useVisiblePoints ){ //RiVPAtmosphereV ( const_cast<char *>(shader.getShaderFileName().c_str()), shaderParamCount, tokenArray.get(), pointerArray.get() ); RiArchiveRecord( RI_COMMENT, "RiVPAtmosphereV is not implemented in maya2renderer, useVisiblePoints is added by ymesh in r777" ); }else{ RiAtmosphereV ( const_cast<char *>(shader.getShaderFileName().c_str()), shaderParamCount, tokenArray.get(), pointerArray.get() ); }break; } }
void Renderer::shader_surface( const liqShader &shader, const std::vector<liqTokenPointer> &tokenPointerArray ) { CM_TRACE_FUNC("Renderer::shader_surface("<<shader.getName()<<", tokenPointerArray)"); int shaderParamCount = tokenPointerArray.size() - 1; boost::scoped_array< liqToken > tokenArray( new liqToken[ tokenPointerArray.size() ] ); boost::scoped_array< liqPointer > pointerArray( new liqPointer[ tokenPointerArray.size() ] ); assignTokenArrays( tokenPointerArray.size(), &tokenPointerArray[ 0 ], tokenArray.get(), pointerArray.get() ); if ( shader.useVisiblePoints ){ //RiVPSurfaceV ( const_cast<char *>(shader.getShaderFileName().c_str()), shaderParamCount, tokenArray.get(), pointerArray.get() ); RiArchiveRecord( RI_COMMENT, "RiVPSurfaceV is not implemented in maya2renderer, useVisiblePoints is added by ymesh in r777" ); }else{ RiSurfaceV ( const_cast<char *>(shader.getShaderFileName().c_str()), shaderParamCount, tokenArray.get() , pointerArray.get() ); } }
void Renderer::_UserDefinedShader( const liqShader &shader, const std::vector<liqTokenPointer> &tokenPointerArray ) { CM_TRACE_FUNC("Renderer::_UserDefinedShader("<<shader.getName()<<", tokenPointerArray)"); std::string const& liquidShaderName=shader.getName(); std::string const& rmSloFilePath=shader.getShaderFileName(); std::string const& mayaShaderName=rmSloFilePath.substr(rmSloFilePath.find_last_of('/')+1); _s( "// shader("<<mayaShaderName<<","<<", ...)" );//Renderman slo file name, e.g."your_shader_dir/test_type2" //_s( "// shader("<<liquidShaderName<<","<<", ...)" );//e.g."lambert1", or "liquidSurface1", NOTE: it is liquidShader, not maya shader. _S( ei_shader(liquidShaderName.c_str()) ); _s("ei_shader_param_string( \"desc\",\""<<mayaShaderName<<"\");"); ei_shader_param_string("desc", mayaShaderName.c_str()); // //"opaque" //tokenPointerArray only store parameters of user-defined shader size_t parameterNum = tokenPointerArray.size() - 1; for(size_t i=0; i<parameterNum; ++i) { //_s("//- " // <<const_cast<liqTokenPointer*>(&tokenPointerArray[i])->getDetailedTokenName()<<","//uniform float intensity // <<tokenPointerArray[i].getDetailType()<<"," // <<"//tokenPointerArray[i].getTokenFloatArray()"<<"," // <<"//[error]tokenPointerArray[i].getTokenString()"<<"," // <<tokenPointerArray[i].getTokenName()<<","//intensity, // <<tokenPointerArray[i].getParameterType()<<","//rFloat, // <<tokenPointerArray[i].getRiDeclare()<<","//uniform float, // ); // _s("// "<<tokenPointerArray[i].getTokenName()); liqTokenPointer* vp = const_cast< liqTokenPointer* >( &tokenPointerArray[i] ); switch( tokenPointerArray[i].getParameterType() ) { case rFloat: { const liqFloat *v = vp->getTokenFloatArray(); _s("ei_shader_param_scalar(\""<<vp->getTokenName()<<"\"," <<v[0]<<");"); ei_shader_param_scalar( vp->getTokenName().c_str(), v[0] ); } break; case rPoint: case rVector: case rNormal: case rColor: { const liqFloat *v = vp->getTokenFloatArray(); _s("ei_shader_param_vector(\""<<vp->getTokenName()<<"\"," <<v[0]<<","<<v[1]<<","<<v[2]<<");"); ei_shader_param_vector( vp->getTokenName().c_str(), v[0] ,v[1], v[2] ); } break; case rString: case rShader: { const std::string &v = vp->getTokenString(); _s("ei_shader_param_string(\""<<vp->getTokenName()<<"\"," <<v<<");"); ei_shader_param_string( vp->getTokenName().c_str(), v.c_str() ); } break; case rHpoint: { const liqFloat *v = vp->getTokenFloatArray(); _s("ei_shader_param_vector4(\""<<vp->getTokenName()<<"\"," <<v[0]<<","<<v[1]<<","<<v[2]<<","<<v[3]<<");"); ei_shader_param_vector4( vp->getTokenName().c_str(), v[0] ,v[1], v[2], v[3] ); } break; case rMatrix: { const liqFloat *v = vp->getTokenFloatArray(); _s("//matrix:" <<v[0]<<","<<v[1]<<","<<v[2]<<","<<v[3] <<v[4]<<","<<v[5]<<","<<v[6]<<","<<v[7] <<v[8]<<","<<v[9]<<","<<v[10]<<","<<v[11] <<v[12]<<","<<v[13]<<","<<v[14]<<","<<v[15] ); } ;break; default : assert(0); } }//for _S( ei_end_shader() ); }