00001 /* @HEADER@ */ 00002 // ************************************************************************ 00003 // 00004 // Sundance 00005 // Copyright 2011 Sandia Corporation 00006 // 00007 // Under the terms of Contract DE-AC04-94AL85000 with Sandia Corporation, 00008 // the U.S. Government retains certain rights in this software. 00009 // 00010 // Redistribution and use in source and binary forms, with or without 00011 // modification, are permitted provided that the following conditions are 00012 // met: 00013 // 00014 // 1. Redistributions of source code must retain the above copyright 00015 // notice, this list of conditions and the following disclaimer. 00016 // 00017 // 2. Redistributions in binary form must reproduce the above copyright 00018 // notice, this list of conditions and the following disclaimer in the 00019 // documentation and/or other materials provided with the distribution. 00020 // 00021 // 3. 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Contact Kevin Long (kevin.long@ttu.edu) 00038 // 00039 00040 /* @HEADER@ */ 00041 00042 00043 00044 #ifndef SUNDANCE_PRODUCTEXPR_H 00045 #define SUNDANCE_PRODUCTEXPR_H 00046 00047 #include "SundanceBinaryExpr.hpp" 00048 00049 00050 namespace Sundance 00051 { 00052 using namespace Sundance; 00053 using namespace Teuchos; 00054 00055 00056 00057 00058 00059 /** 00060 * ProductExpr represents a product of two scalar-valued expressions 00061 */ 00062 class ProductExpr : public BinaryExpr 00063 { 00064 public: 00065 /** */ 00066 ProductExpr(const RCP<ScalarExpr>& a, 00067 const RCP<ScalarExpr>& b); 00068 00069 /** virtual dtor */ 00070 virtual ~ProductExpr() {;} 00071 00072 /** Indicate whether this expression is a "hungry" 00073 * differential operator that is awaiting an argument. */ 00074 virtual bool isHungryDiffOp() const ; 00075 00076 /** */ 00077 virtual Evaluator* createEvaluator(const EvaluatableExpr* expr, 00078 const EvalContext& context) const ; 00079 00080 /** */ 00081 virtual Set<MultiSet<int> > internalFindQ_W(int order, 00082 const EvalContext& context) const ; 00083 00084 /** */ 00085 virtual Set<MultiSet<int> > internalFindQ_V(int order, 00086 const EvalContext& context) const ; 00087 00088 00089 00090 /** */ 00091 virtual bool isProduct() const {return true;} 00092 00093 /** 00094 * Indicate whether the expression is linear 00095 * with respect to test functions */ 00096 virtual bool isLinearInTests() const 00097 { 00098 bool leftIsLinear = leftScalar()->isLinearInTests() ; 00099 bool rightIsLinear = rightScalar()->isLinearInTests() ; 00100 00101 bool leftHasTests = leftScalar()->hasTestFunctions() ; 00102 bool rightHasTests = rightScalar()->hasTestFunctions() ; 00103 00104 return (leftIsLinear && !rightHasTests) 00105 || (!leftHasTests && rightIsLinear); 00106 } 00107 00108 /** Indicate whether the expression is linear in the given 00109 * functions */ 00110 virtual bool isLinearForm(const Expr& u) const 00111 { 00112 bool L = leftScalar()->isLinearForm(u); 00113 bool R = rightScalar()->isLinearForm(u); 00114 return ( (L || R) && !(L==R) ); 00115 } 00116 00117 /** Indicate whether the expression is a quadratic form in the given 00118 * functions */ 00119 virtual bool isQuadraticForm(const Expr& u) const 00120 { 00121 bool LQ = leftScalar()->isQuadraticForm(u); 00122 bool RQ = rightScalar()->isQuadraticForm(u); 00123 bool LL = leftScalar()->isLinearForm(u); 00124 bool RL = leftScalar()->isLinearForm(u); 00125 bool LI = leftScalar()->isIndependentOf(u); 00126 bool RI = rightScalar()->isIndependentOf(u); 00127 00128 if (LI && RQ) return true; 00129 if (RI && LQ) return true; 00130 if (LL && RL) return true; 00131 return false; 00132 } 00133 00134 /** */ 00135 virtual RCP<ExprBase> getRcp() {return rcp(this);} 00136 protected: 00137 /** */ 00138 virtual bool parenthesizeSelf() const {return true;} 00139 /** */ 00140 virtual bool parenthesizeOperands() const {return true;} 00141 /** */ 00142 virtual const std::string& xmlTag() const ; 00143 /** */ 00144 virtual const std::string& opChar() const ; 00145 00146 private: 00147 00148 }; 00149 } 00150 00151 #endif