#ifdef EIGEN_PARSED_BY_DOXYGEN /// \returns an expression of \c *this with reshaped sizes. /// /// \param nRows the number of rows in the reshaped expression, specified at either run-time or compile-time, or /// AutoSize \param nCols the number of columns in the reshaped expression, specified at either run-time or /// compile-time, or AutoSize \tparam Order specifies whether the coefficients should be processed in column-major-order /// (ColMajor), in row-major-order (RowMajor), /// or follows the \em natural order of the nested expression (AutoOrder). The default is ColMajor. /// \tparam NRowsType the type of the value handling the number of rows, typically Index. /// \tparam NColsType the type of the value handling the number of columns, typically Index. /// /// Dynamic size example: \include MatrixBase_reshaped_int_int.cpp /// Output: \verbinclude MatrixBase_reshaped_int_int.out /// /// The number of rows \a nRows and columns \a nCols can also be specified at compile-time by passing Eigen::fix<N>, /// or Eigen::fix<N>(n) as arguments. In the later case, \c n plays the role of a runtime fallback value in case \c N /// equals Eigen::Dynamic. Here is an example with a fixed number of rows and columns: \include /// MatrixBase_reshaped_fixed.cpp Output: \verbinclude MatrixBase_reshaped_fixed.out /// /// Finally, one of the sizes parameter can be automatically deduced from the other one by passing AutoSize as in the /// following example: \include MatrixBase_reshaped_auto.cpp Output: \verbinclude MatrixBase_reshaped_auto.out AutoSize /// does preserve compile-time sizes when possible, i.e., when the sizes of the input are known at compile time \b and /// that the other size is passed at compile-time using Eigen::fix<N> as above. /// /// \sa class Reshaped, fix, fix<N>(int) /// template <int Order = ColMajor, typename NRowsType, typename NColsType> EIGEN_DEVICE_FUNC inline Reshaped<Derived, ...> reshaped(NRowsType nRows, NColsType nCols); /// This is the const version of reshaped(NRowsType,NColsType). template <int Order = ColMajor, typename NRowsType, typename NColsType> EIGEN_DEVICE_FUNC inline const Reshaped<const Derived, ...> reshaped(NRowsType nRows, NColsType nCols) const; /// \returns an expression of \c *this with columns (or rows) stacked to a linear column vector /// /// \tparam Order specifies whether the coefficients should be processed in column-major-order (ColMajor), in /// row-major-order (RowMajor), /// or follows the \em natural order of the nested expression (AutoOrder). The default is ColMajor. /// /// This overloads is essentially a shortcut for `A.reshaped<Order>(AutoSize,fix<1>)`. /// /// - If `Order==ColMajor` (the default), then it returns a column-vector from the stacked columns of \c *this. /// - If `Order==RowMajor`, then it returns a column-vector from the stacked rows of \c *this. /// - If `Order==AutoOrder`, then it returns a column-vector with elements stacked following the storage order of \c /// *this. /// This mode is the recommended one when the particular ordering of the element is not relevant. /// /// Example: /// \include MatrixBase_reshaped_to_vector.cpp /// Output: \verbinclude MatrixBase_reshaped_to_vector.out /// /// If you want more control, you can still fall back to reshaped(NRowsType,NColsType). /// /// \sa reshaped(NRowsType,NColsType), class Reshaped /// template <int Order = ColMajor> EIGEN_DEVICE_FUNC inline Reshaped<Derived, ...> reshaped(); /// This is the const version of reshaped(). template <int Order = ColMajor> EIGEN_DEVICE_FUNC inline const Reshaped<const Derived, ...> reshaped() const; #else // This file is automatically included twice to generate const and non-const versions #ifndef EIGEN_RESHAPED_METHOD_2ND_PASS #define EIGEN_RESHAPED_METHOD_CONST const #else #define EIGEN_RESHAPED_METHOD_CONST #endif #ifndef EIGEN_RESHAPED_METHOD_2ND_PASS // This part is included once #endif template <typename NRowsType, typename NColsType> EIGEN_DEVICE_FUNC inline Reshaped< EIGEN_RESHAPED_METHOD_CONST Derived, internal::get_compiletime_reshape_size<NRowsType, NColsType, SizeAtCompileTime>::value, internal::get_compiletime_reshape_size<NColsType, NRowsType, SizeAtCompileTime>::value> reshaped(NRowsType nRows, NColsType nCols) EIGEN_RESHAPED_METHOD_CONST { … } … } template <int Order, typename NRowsType, typename NColsType> EIGEN_DEVICE_FUNC inline Reshaped< EIGEN_RESHAPED_METHOD_CONST Derived, internal::get_compiletime_reshape_size<NRowsType, NColsType, SizeAtCompileTime>::value, internal::get_compiletime_reshape_size<NColsType, NRowsType, SizeAtCompileTime>::value, internal::get_compiletime_reshape_order(Flags, Order)> reshaped(NRowsType nRows, NColsType nCols) EIGEN_RESHAPED_METHOD_CONST { … } … } // Views as linear vectors EIGEN_DEVICE_FUNC inline Reshaped<EIGEN_RESHAPED_METHOD_CONST Derived, SizeAtCompileTime, 1> reshaped() EIGEN_RESHAPED_METHOD_CONST { … } … } template <int Order> EIGEN_DEVICE_FUNC inline Reshaped<EIGEN_RESHAPED_METHOD_CONST Derived, SizeAtCompileTime, 1, internal::get_compiletime_reshape_order(Flags, Order)> reshaped() EIGEN_RESHAPED_METHOD_CONST { … } … } #undef EIGEN_RESHAPED_METHOD_CONST #ifndef EIGEN_RESHAPED_METHOD_2ND_PASS #define EIGEN_RESHAPED_METHOD_2ND_PASS #include "ReshapedMethods.inc" #undef EIGEN_RESHAPED_METHOD_2ND_PASS #endif #endif // EIGEN_PARSED_BY_DOXYGEN
Codebase Browser
chromium