+++ /dev/null
-/* -*- C++ -*- ------------------------------------------------------------
-
-Copyright (c) 2007 Jesse Anders and Demian Nave http://cmldev.net/
-
-The Configurable Math Library (CML) is distributed under the terms of the
-Boost Software License, v1.0 (see cml/LICENSE for details).
-
- *-----------------------------------------------------------------------*/
-/** @file
- * @brief Defines the various combinations of vector expressions.
- *
- * Create unary and binary operators with macros. The available combinations
- * are:
- *
- * Unary expressions:
- *
- * op Vector -> Vector
- * op VecXpr -> VecXpr
- *
- * Binary expressions:
- *
- * Vector op Vector -> Vector
- * VecXpr op Vector -> VecXpr
- * Vector op VecXpr -> VecXpr
- * VecXpr op VecXpr -> VecXpr
- *
- * Vector op Scalar -> Vector
- * Scalar op Vector -> Vector
- * VecXpr op Scalar -> VecXpr
- * Scalar op VecXpr -> VecXpr
- *
- * All of the generator functions compress the expression tree by hoisting
- * subexpressions into the containing expression. This has the effect of
- * forcing only the root node of the expression tree to be a VectorXpr.
- * Every other node is a Unary or BinaryVectorOp.
- *
- * @todo Should ScalarT in expressions be passed by reference or by value?
- */
-
-#ifndef vecop_macros_h
-#define vecop_macros_h
-
-/** Declare a unary operator taking a vector operand. */
-#define CML_VEC_UNIOP(_op_, _OpT_) \
-template<typename E, class AT> \
-inline et::VectorXpr< \
- et::UnaryVectorOp< vector<E,AT>, _OpT_ <E> > \
-> \
- \
-_op_ (const vector<E,AT>& arg) \
-{ \
- typedef et::UnaryVectorOp< \
- vector<E,AT>, _OpT_ <E> \
- > ExprT; \
- return et::VectorXpr<ExprT>(ExprT(arg)); \
-}
-
-
-/** Declare a unary operator taking a et::VectorXpr operand. */
-#define CML_VECXPR_UNIOP(_op_, _OpT_) \
-template<class XprT> \
-inline et::VectorXpr< \
- et::UnaryVectorOp< XprT, _OpT_ <typename XprT::value_type> > \
-> \
- \
-_op_ (VECXPR_ARG_TYPE arg) \
-{ \
- typedef et::UnaryVectorOp< \
- XprT, _OpT_ <typename XprT::value_type> \
- > ExprT; \
- return et::VectorXpr<ExprT>(ExprT(arg.expression())); \
-}
-
-
-/** Declare an operator taking two vector operands. */
-#define CML_VEC_VEC_BINOP(_op_, _OpT_) \
-template<typename E1, class AT1, typename E2, class AT2> \
-inline et::VectorXpr< \
- et::BinaryVectorOp< \
- vector<E1,AT1>, vector<E2,AT2>, _OpT_ <E1,E2> \
- > \
-> \
- \
-_op_ ( \
- const vector<E1,AT1>& left, \
- const vector<E2,AT2>& right) \
-{ \
- typedef et::BinaryVectorOp< \
- vector<E1,AT1>, vector<E2,AT2>, _OpT_ <E1,E2> \
- > ExprT; \
- return et::VectorXpr<ExprT>(ExprT(left,right)); \
-}
-
-
-/** Declare an operator taking a vector and a et::VectorXpr. */
-#define CML_VEC_VECXPR_BINOP(_op_, _OpT_) \
-template<typename E, class AT, class XprT> \
-inline et::VectorXpr< \
- et::BinaryVectorOp< \
- vector<E,AT>, XprT, _OpT_ <E, typename XprT::value_type> \
- > \
-> \
- \
-_op_ ( \
- const vector<E,AT>& left, \
- VECXPR_ARG_TYPE right) \
-{ \
- typedef et::BinaryVectorOp< \
- vector<E,AT>, XprT, \
- _OpT_ <E, typename XprT::value_type> \
- > ExprT; \
- return et::VectorXpr<ExprT>(ExprT(left,right.expression())); \
-}
-
-
-/** Declare an operator taking an et::VectorXpr and a vector. */
-#define CML_VECXPR_VEC_BINOP(_op_, _OpT_) \
-template<class XprT, typename E, class AT> \
-inline et::VectorXpr< \
- et::BinaryVectorOp< \
- XprT, vector<E,AT>, _OpT_ <typename XprT::value_type, E> \
- > \
-> \
- \
-_op_ ( \
- VECXPR_ARG_TYPE left, \
- const vector<E,AT>& right) \
-{ \
- typedef et::BinaryVectorOp< \
- XprT, vector<E,AT>, \
- _OpT_ <typename XprT::value_type, E> \
- > ExprT; \
- return et::VectorXpr<ExprT>(ExprT(left.expression(),right)); \
-}
-
-
-/** Declare an operator taking two et::VectorXpr operands. */
-#define CML_VECXPR_VECXPR_BINOP(_op_, _OpT_) \
-template<class XprT1, class XprT2> \
-inline et::VectorXpr< \
- et::BinaryVectorOp< \
- XprT1, XprT2, \
- _OpT_ < \
- typename XprT1::value_type, \
- typename XprT2::value_type \
- > \
- > \
-> \
- \
-_op_ ( \
- VECXPR_ARG_TYPE_N(1) left, \
- VECXPR_ARG_TYPE_N(2) right) \
-{ \
- typedef et::BinaryVectorOp< \
- XprT1, XprT2, \
- _OpT_ < \
- typename XprT1::value_type, \
- typename XprT2::value_type> \
- > ExprT; \
- return et::VectorXpr<ExprT>( \
- ExprT(left.expression(),right.expression())); \
-}
-
-
-/** Declare an operator taking a vector and a scalar. */
-#define CML_VEC_SCALAR_BINOP(_op_, _OpT_) \
-template<typename E, class AT, typename ScalarT> \
-inline et::VectorXpr< \
- et::BinaryVectorOp< \
- vector<E,AT>, ScalarT, _OpT_ <E,ScalarT> \
- > \
-> \
- \
-_op_ ( \
- const vector<E,AT>& left, \
- SCALAR_ARG_TYPE right) \
-{ \
- typedef et::BinaryVectorOp< \
- vector<E,AT>, ScalarT, _OpT_ <E,ScalarT> \
- > ExprT; \
- return et::VectorXpr<ExprT>(ExprT(left,right)); \
-}
-
-
-/** Declare an operator taking a scalar and a vector. */
-#define CML_SCALAR_VEC_BINOP(_op_, _OpT_) \
-template<typename ScalarT, typename E, class AT> \
-inline et::VectorXpr< \
- et::BinaryVectorOp< \
- ScalarT, vector<E,AT>, _OpT_ <ScalarT,E> \
- > \
-> \
- \
-_op_ ( \
- SCALAR_ARG_TYPE left, \
- const vector<E,AT>& right) \
-{ \
- typedef et::BinaryVectorOp< \
- ScalarT, vector<E,AT>, _OpT_ <ScalarT,E> \
- > ExprT; \
- return et::VectorXpr<ExprT>(ExprT(left,right)); \
-}
-
-
-/** Declare an operator taking a et::VectorXpr and a scalar. */
-#define CML_VECXPR_SCALAR_BINOP(_op_, _OpT_) \
-template<class XprT, typename ScalarT> \
-inline et::VectorXpr< \
- et::BinaryVectorOp< \
- XprT, ScalarT, _OpT_ <typename XprT::value_type,ScalarT> \
- > \
-> \
- \
-_op_ ( \
- VECXPR_ARG_TYPE left, \
- SCALAR_ARG_TYPE right) \
-{ \
- typedef et::BinaryVectorOp< \
- XprT, ScalarT, _OpT_ <typename XprT::value_type,ScalarT> \
- > ExprT; \
- return et::VectorXpr<ExprT>(ExprT(left.expression(),right)); \
-}
-
-
-/** Declare an operator taking a scalar and a et::VectorXpr. */
-#define CML_SCALAR_VECXPR_BINOP(_op_, _OpT_) \
-template<typename ScalarT, class XprT> \
-inline et::VectorXpr< \
- et::BinaryVectorOp< \
- ScalarT, XprT, _OpT_ <ScalarT, typename XprT::value_type> \
- > \
-> \
- \
-_op_ ( \
- SCALAR_ARG_TYPE left, \
- VECXPR_ARG_TYPE right) \
-{ \
- typedef et::BinaryVectorOp< \
- ScalarT, XprT, \
- _OpT_ <ScalarT, typename XprT::value_type> \
- > ExprT; \
- return et::VectorXpr<ExprT>(ExprT(left,right.expression())); \
-}
-
-#endif
-
-// -------------------------------------------------------------------------
-// vim:ft=cpp