/* -*- 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 Specializations for external-memory vectors. * * @note Copy-constructing one external<> vector from another is not * supported, since an external<> vector is essentially a wrapper for a * pointer and has no allocated storage of its own. */ #ifndef external_vector_h #define external_vector_h #include #include #include #include #include namespace cml { /** Fixed-size, fixed-memory vector. */ template class vector< Element, external > : public external_1D { public: /* Shorthand for the generator: */ typedef external<> storage_type; typedef external generator_type; /* Shorthand for the array type: */ typedef external_1D array_type; /* Shorthand for the type of this vector: */ typedef vector vector_type; /* The vector coordinate type: */ typedef Element coordinate_type; /* For integration into the expression template code: */ typedef vector_type expr_type; /* For integration into the expression template code: */ typedef vector::type, fixed > temporary_type; typedef typename temporary_type::subvector_type subvector_type; /* Note: this ensures that an external vector is copied into the proper * temporary; external<> temporaries are not allowed. */ /* Standard: */ typedef typename array_type::value_type value_type; typedef typename array_type::reference reference; typedef typename array_type::const_reference const_reference; /* For integration into the expression templates code: */ typedef vector_type& expr_reference; typedef const vector_type& expr_const_reference; /* For matching by storage type: */ typedef typename array_type::memory_tag memory_tag; /* For matching by size type: */ typedef typename array_type::size_tag size_tag; /* For matching by result-type: */ typedef cml::et::vector_result_tag result_tag; /* For matching by assignability: */ typedef cml::et::assignable_tag assignable_tag; public: /** Static constant containing the vector's space dimension. */ enum { dimension = Size }; public: /** Return square of the length. */ value_type length_squared() const { return cml::dot(*this,*this); } /** Return the length. */ value_type length() const { return std::sqrt(length_squared()); } /** Normalize the vector. */ vector_type& normalize() { return (*this /= length()); } /** Set this vector to [0]. */ vector_type& zero() { typedef cml::et::OpAssign OpT; cml::et::UnrollAssignment(*this,Element(0)); return *this; } /** Set this vector to a cardinal vector. */ vector_type& cardinal(size_t i) { zero(); (*this)[i] = Element(1); return *this; } /** Pairwise minimum of this vector with another. */ template void minimize(const vector& v) { /* XXX This should probably use ScalarPromote: */ for (size_t i = 0; i < this->size(); ++i) { (*this)[i] = std::min((*this)[i],v[i]); } } /** Pairwise maximum of this vector with another. */ template void maximize(const vector& v) { /* XXX This should probably use ScalarPromote: */ for (size_t i = 0; i < this->size(); ++i) { (*this)[i] = std::max((*this)[i],v[i]); } } /** Fill vector with random elements. */ void random(value_type min, value_type max) { for (size_t i = 0; i < this->size(); ++i) { (*this)[i] = cml::random_real(min,max); } } public: /** Construct from an array of values. */ vector(Element* const array) : array_type(array) {} public: CML_ASSIGN_VEC_2 CML_ASSIGN_VEC_3 CML_ASSIGN_VEC_4 CML_VEC_ASSIGN_FROM_VECTYPE /* Only assignment operators can be used to copy from other types: */ CML_VEC_ASSIGN_FROM_VEC(=, cml::et::OpAssign) CML_VEC_ASSIGN_FROM_VEC(+=, cml::et::OpAddAssign) CML_VEC_ASSIGN_FROM_VEC(-=, cml::et::OpSubAssign) CML_VEC_ASSIGN_FROM_VECXPR(=, cml::et::OpAssign) CML_VEC_ASSIGN_FROM_VECXPR(+=, cml::et::OpAddAssign) CML_VEC_ASSIGN_FROM_VECXPR(-=, cml::et::OpSubAssign) CML_VEC_ASSIGN_FROM_SCALAR(*=, cml::et::OpMulAssign) CML_VEC_ASSIGN_FROM_SCALAR(/=, cml::et::OpDivAssign) }; /** Run-time sized vector. */ template class vector< Element, external<> > : public external_1D { public: /* Shorthand for the generator: */ typedef external<> storage_type; typedef external<> generator_type; /* Shorthand for the array type: */ typedef external_1D array_type; /* Shorthand for the type of this vector: */ typedef vector vector_type; /* For integration into the expression template code: */ typedef vector_type expr_type; /* For integration into the expression template code: */ typedef vector::type, dynamic<> > temporary_type; /* Note: this ensures that an external vector is copied into the proper * temporary; external<> temporaries are not allowed. */ /* Standard: */ typedef typename array_type::value_type value_type; typedef typename array_type::reference reference; typedef typename array_type::const_reference const_reference; /* For integration into the expression templates code: */ typedef vector_type& expr_reference; typedef const vector_type& expr_const_reference; /* For matching by storage type: */ typedef typename array_type::memory_tag memory_tag; /* For matching by size type: */ typedef typename array_type::size_tag size_tag; /* For matching by resizability: */ typedef typename array_type::resizing_tag resizing_tag; /* For matching by result-type: */ typedef cml::et::vector_result_tag result_tag; /* For matching by assignability: */ typedef cml::et::assignable_tag assignable_tag; public: /** Return square of the length. */ value_type length_squared() const { return dot(*this,*this); } /** Return the length. */ value_type length() const { return std::sqrt(length_squared()); } /** Normalize the vector. */ vector_type& normalize() { return (*this /= length()); } /** Set this vector to [0]. */ vector_type& zero() { typedef cml::et::OpAssign OpT; cml::et::UnrollAssignment(*this,Element(0)); return *this; } /** Set this vector to a cardinal vector. */ vector_type& cardinal(size_t i) { zero(); (*this)[i] = Element(1); return *this; } /** Pairwise minimum of this vector with another. */ template void minimize(const vector& v) { /* XXX This should probably use ScalarPromote: */ for (size_t i = 0; i < this->size(); ++i) { (*this)[i] = std::min((*this)[i],v[i]); } } /** Pairwise maximum of this vector with another. */ template void maximize(const vector& v) { /* XXX This should probably use ScalarPromote: */ for (size_t i = 0; i < this->size(); ++i) { (*this)[i] = std::max((*this)[i],v[i]); } } /** Fill vector with random elements. */ void random(value_type min, value_type max) { for (size_t i = 0; i < this->size(); ++i) { (*this)[i] = random_real(min,max); } } public: /** Construct from an array of values and the size. */ vector(Element* const array, size_t size) : array_type(array, size) {} public: /* Define class operators for external vectors. Note: external vectors * cannot be copy-constructed, but they can be assigned to: */ CML_ASSIGN_VEC_2 CML_ASSIGN_VEC_3 CML_ASSIGN_VEC_4 CML_VEC_ASSIGN_FROM_VECTYPE /* Only assignment operators can be used to copy from other types: */ CML_VEC_ASSIGN_FROM_VEC(=, cml::et::OpAssign) CML_VEC_ASSIGN_FROM_VEC(+=, cml::et::OpAddAssign) CML_VEC_ASSIGN_FROM_VEC(-=, cml::et::OpSubAssign) CML_VEC_ASSIGN_FROM_VECXPR(=, cml::et::OpAssign) CML_VEC_ASSIGN_FROM_VECXPR(+=, cml::et::OpAddAssign) CML_VEC_ASSIGN_FROM_VECXPR(-=, cml::et::OpSubAssign) CML_VEC_ASSIGN_FROM_SCALAR(*=, cml::et::OpMulAssign) CML_VEC_ASSIGN_FROM_SCALAR(/=, cml::et::OpDivAssign) }; } // namespace cml #endif // ------------------------------------------------------------------------- // vim:ft=cpp