--- /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
+ *
+ * Define matrix and vector linear expression size-checking classes.
+ */
+
+#ifndef size_checking_h
+#define size_checking_h
+
+#include <stdexcept>
+#include <cml/core/cml_meta.h>
+#include <cml/core/cml_assert.h>
+#include <cml/core/fwd.h>
+#include <cml/et/traits.h>
+
+#if defined(_MSC_VER) && _MSC_VER < 1400
+#pragma warning(push)
+#pragma warning(disable:4348)
+// XXX This is a terrible hack for VC7.1, and should really be fixed by
+// separating out the "impl" templates from GetCheckedSize.
+#endif
+
+/* This is used below to create a more meaningful compile-time error when
+ * fixed-size vector arguments don't match at compile time:
+ */
+struct incompatible_expression_size_error;
+
+/* This is used below to create a more meaningful compile-time error when a
+ * function is not provided with a square matrix or MatrixExpr argument:
+ */
+struct square_matrix_arg_expected_error;
+
+namespace cml {
+namespace et {
+namespace detail {
+
+} // namespace detail
+
+/* Forward declare for specialization below: */
+template<typename LeftT, typename RightT, typename SizeT>
+ struct GetCheckedSize;
+
+/* Checking for fixed-size expression: */
+template<typename LeftT, typename RightT>
+struct GetCheckedSize<LeftT,RightT,fixed_size_tag>
+{
+ /* Record argument traits: */
+ typedef ExprTraits<LeftT> left_traits;
+ typedef ExprTraits<RightT> right_traits;
+
+ /* Result types: */
+ typedef typename left_traits::result_tag left_result;
+ typedef typename right_traits::result_tag right_result;
+
+
+ /* For specialization below: */
+ template<typename LR, typename RR, class X = void> struct impl;
+
+ /* Check for two matrices (linear operators only): */
+ template<class X> struct impl<matrix_result_tag,matrix_result_tag,X> {
+ typedef matrix_size size_type;
+ CML_STATIC_REQUIRE_M(
+ (size_t)LeftT::array_rows == (size_t)RightT::array_rows
+ && (size_t)LeftT::array_cols == (size_t)RightT::array_cols,
+ incompatible_expression_size_error);
+
+ /* Record the array size as a constant: */
+ enum {
+ array_rows = LeftT::array_rows,
+ array_cols = LeftT::array_cols
+ };
+
+ /* Return the matrix size: */
+ size_type size() const { return size_type(array_rows,array_cols); }
+ };
+
+ /* Check for a matrix and a vector: */
+ template<class X> struct impl<matrix_result_tag,vector_result_tag,X> {
+ typedef size_t size_type;
+ CML_STATIC_REQUIRE_M(
+ (size_t)LeftT::array_cols == (size_t)RightT::array_size,
+ incompatible_expression_size_error);
+
+ /* Record the array size as a constant: */
+ enum { array_size = LeftT::array_rows };
+
+ /* Return the vector size: */
+ size_type size() const { return size_type(array_size); }
+ };
+
+ /* Check for a vector and a matrix: */
+ template<class X> struct impl<vector_result_tag,matrix_result_tag,X> {
+ typedef size_t size_type;
+ CML_STATIC_REQUIRE_M(
+ (size_t)LeftT::array_size == (size_t)RightT::array_rows,
+ incompatible_expression_size_error);
+
+ /* Record the array size as a constant: */
+ enum { array_size = RightT::array_cols };
+
+ /* Return the vector size: */
+ size_type size() const { return size_type(array_size); }
+ };
+
+ /* Check for a matrix and a scalar: */
+ template<class X> struct impl<matrix_result_tag,scalar_result_tag,X> {
+ typedef matrix_size size_type;
+
+ /* Record the array size as a constant: */
+ enum {
+ array_rows = LeftT::array_rows,
+ array_cols = LeftT::array_cols
+ };
+
+ /* Return the matrix size: */
+ size_type size() const { return size_type(array_rows,array_cols); }
+ };
+
+ /* Check for a scalar and a matrix: */
+ template<class X> struct impl<scalar_result_tag,matrix_result_tag,X> {
+ typedef matrix_size size_type;
+
+ /* Record the array size as a constant: */
+ enum {
+ array_rows = RightT::array_rows,
+ array_cols = RightT::array_cols
+ };
+
+ /* Return the matrix size: */
+ size_type size() const { return size_type(array_rows,array_cols); }
+ };
+
+
+ /* Check for two vectors: */
+ template<class X> struct impl<vector_result_tag,vector_result_tag,X> {
+ typedef size_t size_type;
+ CML_STATIC_REQUIRE_M(
+ (size_t)LeftT::array_size == (size_t)RightT::array_size,
+ incompatible_expression_size_error);
+
+ /* Record the array size as a constant: */
+ enum { array_size = LeftT::array_size };
+
+ /* Return the vector size: */
+ size_type size() const { return size_type(array_size); }
+ };
+
+ /* Check for a vector and a scalar: */
+ template<class X> struct impl<vector_result_tag,scalar_result_tag,X> {
+ typedef size_t size_type;
+
+ /* Record the array size as a constant: */
+ enum { array_size = LeftT::array_size };
+
+ /* Return the vector size: */
+ size_type size() const { return size_type(array_size); }
+ };
+
+ /* Check for a scalar and a vector: */
+ template<class X> struct impl<scalar_result_tag,vector_result_tag,X> {
+ typedef size_t size_type;
+
+ /* Record the array size as a constant: */
+ enum { array_size = RightT::array_size };
+
+ /* Return the vector size: */
+ size_type size() const { return size_type(array_size); }
+ };
+
+
+ /* Check for two quaternions: */
+ template<class X>
+ struct impl<quaternion_result_tag,quaternion_result_tag,X> {
+ typedef size_t size_type;
+
+ /* Record the quaternion size as a constant: */
+ enum { array_size = 4 };
+
+ /* Return the quaternion size: */
+ size_type size() const { return size_type(array_size); }
+ };
+
+ /* Check for a quaternion and a vector: */
+ template<class X> struct impl<quaternion_result_tag,vector_result_tag,X> {
+ typedef size_t size_type;
+ CML_STATIC_REQUIRE_M(
+ RightT::array_size == 4,
+ incompatible_expression_size_error);
+
+ /* Record the quaternion size as a constant: */
+ enum { array_size = 4 };
+
+ /* Return the quaternion size: */
+ size_type size() const { return size_type(array_size); }
+ };
+
+ /* Check for a vector and a quaternion: */
+ template<class X> struct impl<vector_result_tag,quaternion_result_tag,X> {
+ typedef size_t size_type;
+ CML_STATIC_REQUIRE_M(
+ LeftT::array_size == 4,
+ incompatible_expression_size_error);
+
+ /* Record the quaternion size as a constant: */
+ enum { array_size = 4 };
+
+ /* Return the quaternion size: */
+ size_type size() const { return size_type(array_size); }
+ };
+
+ /* Check for a quaternion and a scalar: */
+ template<class X> struct impl<quaternion_result_tag,scalar_result_tag,X> {
+ typedef size_t size_type;
+
+ /* Record the quaternion size as a constant: */
+ enum { array_size = 4 };
+
+ /* Return the quaternion size: */
+ size_type size() const { return size_type(array_size); }
+ };
+
+ /* Check for a scalar and a quaternion: */
+ template<class X> struct impl<scalar_result_tag,quaternion_result_tag,X> {
+ typedef size_t size_type;
+
+ /* Record the array size as a constant: */
+ enum { array_size = 4 };
+
+ /* Return the quaternion size: */
+ size_type size() const { return size_type(array_size); }
+ };
+
+ /* Record the type of the checker: */
+ typedef impl<left_result,right_result> check_type;
+ typedef typename check_type::size_type size_type;
+
+ /* The implementation: */
+ size_type operator()(const LeftT&, const RightT&) const {
+ return check_type().size();
+ }
+};
+
+/* Checking for resizeable expression: */
+template<typename LeftT, typename RightT>
+struct GetCheckedSize<LeftT,RightT,dynamic_size_tag>
+{
+ /* Type of the size checker (for calling equal_or_fail): */
+ typedef GetCheckedSize<LeftT,RightT,dynamic_size_tag> self;
+
+ /* Record argument traits: */
+ typedef ExprTraits<LeftT> left_traits;
+ typedef ExprTraits<RightT> right_traits;
+
+ /* Result types: */
+ typedef typename left_traits::result_tag left_result;
+ typedef typename right_traits::result_tag right_result;
+
+
+ /* For specialization below: */
+ template<typename LR, typename RR, class X = void> struct impl;
+
+ /* Return the size if the same, or fail if different: */
+ template<typename V> V equal_or_fail(V left, V right) const {
+ if(left != right)
+ throw std::invalid_argument(
+ "expressions have incompatible sizes.");
+ return left;
+ }
+
+ /* Check for two matrices (linear operators only): */
+ template<class X> struct impl<matrix_result_tag,matrix_result_tag,X> {
+ typedef matrix_size size_type;
+
+ /* Return the matrix size, or fail if incompatible: */
+ size_type size(const LeftT& left, const RightT& right) const {
+#if defined(CML_CHECK_MATRIX_EXPR_SIZES)
+ return self().equal_or_fail(left.size(), right.size());
+#else
+ return left.size();
+#endif
+ }
+ };
+
+ /* Check for a matrix and a vector: */
+ template<class X> struct impl<matrix_result_tag,vector_result_tag,X> {
+ typedef size_t size_type;
+
+ /* Return the vector size: */
+ size_type size(const LeftT& left, const RightT& right) const {
+#if defined(CML_CHECK_MATVEC_EXPR_SIZES)
+ self().equal_or_fail(left.cols(), right.size());
+#endif
+ return left.rows();
+ }
+ };
+
+ /* Check for a vector and a matrix: */
+ template<class X> struct impl<vector_result_tag,matrix_result_tag,X> {
+ typedef size_t size_type;
+
+ /* Return the vector size: */
+ size_type size(const LeftT& left, const RightT& right) const {
+#if defined(CML_CHECK_MATVEC_EXPR_SIZES)
+ self().equal_or_fail(left.size(), right.rows());
+#endif
+ return right.cols(right);
+ }
+ };
+
+ /* Check for a matrix and a scalar: */
+ template<class X> struct impl<matrix_result_tag,scalar_result_tag,X> {
+ typedef matrix_size size_type;
+
+ /* Return the matrix size: */
+ size_type size(const LeftT& left, const RightT&) const {
+ return left.size();
+ }
+ };
+
+ /* Check for a scalar and a matrix: */
+ template<class X> struct impl<scalar_result_tag,matrix_result_tag,X> {
+ typedef matrix_size size_type;
+
+ /* Return the matrix size: */
+ size_type size(const LeftT&, const RightT& right) const {
+ return right.size();
+ }
+ };
+
+ /* Check for two vectors: */
+ template<class X> struct impl<vector_result_tag,vector_result_tag,X> {
+ typedef size_t size_type;
+
+ /* Return the vector size: */
+ size_type size(const LeftT& left, const RightT& right) const {
+#if defined(CML_CHECK_VECTOR_EXPR_SIZES)
+ return self().equal_or_fail(left.size(), right.size());
+#else
+ return left.size();
+#endif
+ }
+ };
+
+ /* Check for a vector and a scalar: */
+ template<class X> struct impl<vector_result_tag,scalar_result_tag,X> {
+ typedef size_t size_type;
+
+ /* Return the vector size: */
+ size_type size(const LeftT& left, const RightT&) const {
+ return left.size();
+ }
+ };
+
+ /* Check for a scalar and a vector: */
+ template<class X> struct impl<scalar_result_tag,vector_result_tag,X> {
+ typedef size_t size_type;
+
+ /* Return the vector size: */
+ size_type size(const LeftT&, const RightT& right) const {
+ return right.size();
+ }
+ };
+
+ /* Record the type of the checker: */
+ typedef impl<left_result,right_result> check_type;
+ typedef typename check_type::size_type size_type;
+
+ /* The implementation: */
+ size_type operator()(const LeftT& left, const RightT& right) const {
+ return check_type().size(left,right);
+ }
+};
+
+/** Generator for GetCheckedSize. */
+template<typename LeftT, typename RightT, typename SizeTag>
+inline typename et::GetCheckedSize<LeftT,RightT,SizeTag>::size_type
+CheckedSize(const LeftT& left, const RightT& right, SizeTag)
+{
+ return et::GetCheckedSize<LeftT,RightT,SizeTag>()(left,right);
+}
+
+/** Verify the sizes of the argument matrices for matrix multiplication.
+ *
+ * @returns a the size of the resulting matrix.
+ */
+template<typename MatT> inline size_t
+CheckedSquare(const MatT&, fixed_size_tag)
+{
+ CML_STATIC_REQUIRE_M(
+ ((size_t)MatT::array_rows == (size_t)MatT::array_cols),
+ square_matrix_arg_expected_error);
+ return (size_t)MatT::array_rows;
+}
+
+/** Verify the sizes of the argument matrices for matrix multiplication.
+ *
+ * @returns the size of the resulting matrix.
+ */
+template<typename MatT> inline size_t
+CheckedSquare(const MatT& m, dynamic_size_tag)
+{
+ matrix_size N = m.size();
+ et::GetCheckedSize<MatT,MatT,dynamic_size_tag>()
+ .equal_or_fail(N.first, N.second);
+ return N.first;
+}
+
+} // namespace et
+} // namespace cml
+
+#if defined(_MSC_VER) && _MSC_VER < 1400
+#pragma warning(pop)
+#endif
+
+#endif
+
+// -------------------------------------------------------------------------
+// vim:ft=cpp