#ifndef _RRGENERICVECTOR_HPP #define _RRGENERICVECTOR_HPP /*------------------------------------------------------------------------- * drawElements Quality Program Reference Renderer * ----------------------------------------------- * * Copyright 2014 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * *//*! * \file * \brief Generic vetor *//*--------------------------------------------------------------------*/ #include "rrDefs.hpp" #include "tcuVector.hpp" namespace rr { enum GenericVecType { GENERICVECTYPE_FLOAT = 0, GENERICVECTYPE_UINT32, GENERICVECTYPE_INT32, GENERICVECTYPE_LAST }; /*--------------------------------------------------------------------*//*! * \brief Generic vertex attrib * * Generic vertex attributes hold 4 32-bit scalar values that can be accessed * as floating-point or integer values. * * Aliasing rules must be adhered when accessing data (ie. writing as float * and reading as int has undefined result). *//*--------------------------------------------------------------------*/ class GenericVec4 { private: union { deUint32 uData[4]; deInt32 iData[4]; float fData[4]; } v; public: inline GenericVec4 (void) { v.iData[0] = 0; v.iData[1] = 0; v.iData[2] = 0; v.iData[3] = 0; } template explicit GenericVec4 (const tcu::Vector& value) { *this = value; } inline GenericVec4 (const GenericVec4& other) { v.iData[0] = other.v.iData[0]; v.iData[1] = other.v.iData[1]; v.iData[2] = other.v.iData[2]; v.iData[3] = other.v.iData[3]; } GenericVec4& operator= (const GenericVec4& value) { v.iData[0] = value.v.iData[0]; v.iData[1] = value.v.iData[1]; v.iData[2] = value.v.iData[2]; v.iData[3] = value.v.iData[3]; return *this; } template GenericVec4& operator= (const tcu::Vector& value) { getAccess()[0] = value[0]; getAccess()[1] = value[1]; getAccess()[2] = value[2]; getAccess()[3] = value[3]; return *this; } template inline tcu::Vector get (void) const { return tcu::Vector( getAccess()[0], getAccess()[1], getAccess()[2], getAccess()[3]); } template inline ScalarType* getAccess (); template inline const ScalarType* getAccess () const; } DE_WARN_UNUSED_TYPE; template<> inline float* GenericVec4::getAccess () { return v.fData; } template<> inline const float* GenericVec4::getAccess () const { return v.fData; } template<> inline deUint32* GenericVec4::getAccess () { return v.uData; } template<> inline const deUint32* GenericVec4::getAccess () const { return v.uData; } template<> inline deInt32* GenericVec4::getAccess () { return v.iData; } template<> inline const deInt32* GenericVec4::getAccess () const { return v.iData; } } // rr #endif // _RRGENERICVECTOR_HPP