From: Wolfgang Bangerth Date: Wed, 18 Jun 2014 15:03:08 +0000 (+0000) Subject: Provide information with many of the FEValues* functions about which update_* flag... X-Git-Tag: v8.2.0-rc1~379 X-Git-Url: https://gitweb.dealii.org/cgi-bin/gitweb.cgi?a=commitdiff_plain;h=8d1da3edc77f5e12e0885a6879c43f193336422d;p=dealii.git Provide information with many of the FEValues* functions about which update_* flag needs to be passed for the function to work. This was a common problem during the workshop. git-svn-id: https://svn.dealii.org/trunk@33059 0785d39b-7218-0410-832d-ea1e28bc413d --- diff --git a/deal.II/doc/doxygen/options.dox.in b/deal.II/doc/doxygen/options.dox.in index 88ca8938d2..30da7998ad 100644 --- a/deal.II/doc/doxygen/options.dox.in +++ b/deal.II/doc/doxygen/options.dox.in @@ -72,6 +72,9 @@ IMAGE_PATH = INPUT_FILTER = ${CMAKE_SOURCE_DIR}/doc/doxygen/scripts/filter FILTER_SOURCE_FILES = YES +ALIASES += dealiiRequiresUpdateFlags{1}="@note For this function to work properly, the underlying FEValues, FEFaceValues, or FESubfaceValues object on which you call it must have computed the information you are requesting. To do so, the \1 flag must be an element of the list of UpdateFlags that you passed to the constructor of this object. See @ref UpdateFlagsEssay for more information." + + #--------------------------------------------------------------------------- # configuration options related to source browsing #--------------------------------------------------------------------------- diff --git a/deal.II/include/deal.II/fe/fe_values.h b/deal.II/include/deal.II/fe/fe_values.h index f509bf0663..0b1fc6d3f3 100644 --- a/deal.II/include/deal.II/fe/fe_values.h +++ b/deal.II/include/deal.II/fe/fe_values.h @@ -218,7 +218,9 @@ namespace FEValuesViews * in the case of an FEFaceValues or FESubfaceValues object. * * @param q_point Number of the quadrature point at which function is to - * be evaluated + * be evaluated. + * + * @dealiiRequiresUpdateFlags{update_values} */ value_type value (const unsigned int shape_function, @@ -231,6 +233,8 @@ namespace FEValuesViews * * @note The meaning of the arguments is as documented for the value() * function. + * + * @dealiiRequiresUpdateFlags{update_gradients} */ gradient_type gradient (const unsigned int shape_function, @@ -243,6 +247,8 @@ namespace FEValuesViews * * @note The meaning of the arguments is as documented for the value() * function. + * + * @dealiiRequiresUpdateFlags{update_hessians} */ hessian_type hessian (const unsigned int shape_function, @@ -257,6 +263,8 @@ namespace FEValuesViews * This function is the equivalent of the * FEValuesBase::get_function_values function but it only works on the * selected scalar component. + * + * @dealiiRequiresUpdateFlags{update_values} */ template void get_function_values (const InputVector &fe_function, @@ -271,6 +279,8 @@ namespace FEValuesViews * This function is the equivalent of the * FEValuesBase::get_function_gradients function but it only works on the * selected scalar component. + * + * @dealiiRequiresUpdateFlags{update_gradients} */ template void get_function_gradients (const InputVector &fe_function, @@ -285,6 +295,8 @@ namespace FEValuesViews * This function is the equivalent of the * FEValuesBase::get_function_hessians function but it only works on the * selected scalar component. + * + * @dealiiRequiresUpdateFlags{update_hessians} */ template void get_function_hessians (const InputVector &fe_function, @@ -300,6 +312,8 @@ namespace FEValuesViews * This function is the equivalent of the * FEValuesBase::get_function_laplacians function but it only works on the * selected scalar component. + * + * @dealiiRequiresUpdateFlags{update_hessians} */ template void get_function_laplacians (const InputVector &fe_function, @@ -480,7 +494,9 @@ namespace FEValuesViews * in the case of an FEFaceValues or FESubfaceValues object. * * @param q_point Number of the quadrature point at which function is to - * be evaluated + * be evaluated. + * + * @dealiiRequiresUpdateFlags{update_values} */ value_type value (const unsigned int shape_function, @@ -496,6 +512,8 @@ namespace FEValuesViews * * @note The meaning of the arguments is as documented for the value() * function. + * + * @dealiiRequiresUpdateFlags{update_gradients} */ gradient_type gradient (const unsigned int shape_function, @@ -513,6 +531,8 @@ namespace FEValuesViews * * @note The meaning of the arguments is as documented for the value() * function. + * + * @dealiiRequiresUpdateFlags{update_gradients} */ symmetric_gradient_type symmetric_gradient (const unsigned int shape_function, @@ -525,6 +545,8 @@ namespace FEValuesViews * * @note The meaning of the arguments is as documented for the value() * function. + * + * @dealiiRequiresUpdateFlags{update_gradients} */ divergence_type divergence (const unsigned int shape_function, @@ -543,6 +565,8 @@ namespace FEValuesViews * * @note The meaning of the arguments is as documented for the value() * function. + * + * @dealiiRequiresUpdateFlags{update_gradients} */ curl_type curl (const unsigned int shape_function, @@ -555,6 +579,8 @@ namespace FEValuesViews * * @note The meaning of the arguments is as documented for the value() * function. + * + * @dealiiRequiresUpdateFlags{update_hessians} */ hessian_type hessian (const unsigned int shape_function, @@ -569,6 +595,8 @@ namespace FEValuesViews * This function is the equivalent of the * FEValuesBase::get_function_values function but it only works on the * selected vector components. + * + * @dealiiRequiresUpdateFlags{update_values} */ template void get_function_values (const InputVector &fe_function, @@ -583,6 +611,8 @@ namespace FEValuesViews * This function is the equivalent of the * FEValuesBase::get_function_gradients function but it only works on the * selected vector components. + * + * @dealiiRequiresUpdateFlags{update_gradients} */ template void get_function_gradients (const InputVector &fe_function, @@ -602,6 +632,8 @@ namespace FEValuesViews * FEValuesBase::get_function_symmetric_gradients in the FEValues classes * but the information can be obtained from * FEValuesBase::get_function_gradients, of course. + * + * @dealiiRequiresUpdateFlags{update_gradients} */ template void @@ -618,6 +650,8 @@ namespace FEValuesViews * FEValuesBase::get_function_divergences in the FEValues classes but the * information can be obtained from FEValuesBase::get_function_gradients, * of course. + * + * @dealiiRequiresUpdateFlags{update_gradients} */ template void get_function_divergences (const InputVector &fe_function, @@ -633,6 +667,8 @@ namespace FEValuesViews * FEValuesBase::get_function_curls in the FEValues classes but the * information can be obtained from FEValuesBase::get_function_gradients, * of course. + * + * @dealiiRequiresUpdateFlags{update_gradients} */ template void get_function_curls (const InputVector &fe_function, @@ -647,6 +683,8 @@ namespace FEValuesViews * This function is the equivalent of the * FEValuesBase::get_function_hessians function but it only works on the * selected vector components. + * + * @dealiiRequiresUpdateFlags{update_hessians} */ template void get_function_hessians (const InputVector &fe_function, @@ -662,6 +700,8 @@ namespace FEValuesViews * This function is the equivalent of the * FEValuesBase::get_function_laplacians function but it only works on the * selected vector components. + * + * @dealiiRequiresUpdateFlags{update_hessians} */ template void get_function_laplacians (const InputVector &fe_function, @@ -809,7 +849,9 @@ namespace FEValuesViews * in the case of an FEFaceValues or FESubfaceValues object. * * @param q_point Number of the quadrature point at which function is to - * be evaluated + * be evaluated. + * + * @dealiiRequiresUpdateFlags{update_values} */ value_type value (const unsigned int shape_function, @@ -826,6 +868,8 @@ namespace FEValuesViews * * @note The meaning of the arguments is as documented for the value() * function. + * + * @dealiiRequiresUpdateFlags{update_gradients} */ divergence_type divergence (const unsigned int shape_function, @@ -840,6 +884,8 @@ namespace FEValuesViews * This function is the equivalent of the * FEValuesBase::get_function_values function but it only works on the * selected vector components. + * + * @dealiiRequiresUpdateFlags{update_values} */ template void get_function_values (const InputVector &fe_function, @@ -858,6 +904,8 @@ namespace FEValuesViews * * See the general discussion of this class for a definition of the * divergence. + * + * @dealiiRequiresUpdateFlags{update_gradients} */ template void get_function_divergences (const InputVector &fe_function, @@ -995,7 +1043,9 @@ namespace FEValuesViews * in the case of an FEFaceValues or FESubfaceValues object. * * @param q_point Number of the quadrature point at which function is to - * be evaluated + * be evaluated. + * + * @dealiiRequiresUpdateFlags{update_values} */ value_type value (const unsigned int shape_function, @@ -1011,6 +1061,8 @@ namespace FEValuesViews * * @note The meaning of the arguments is as documented for the value() * function. + * + * @dealiiRequiresUpdateFlags{update_gradients} */ divergence_type divergence (const unsigned int shape_function, @@ -1025,6 +1077,8 @@ namespace FEValuesViews * This function is the equivalent of the * FEValuesBase::get_function_values function but it only works on the * selected vector components. + * + * @dealiiRequiresUpdateFlags{update_values} */ template void get_function_values (const InputVector &fe_function, @@ -1044,6 +1098,8 @@ namespace FEValuesViews * * See the general discussion of this class for a definition of the * divergence. + * + * @dealiiRequiresUpdateFlags{update_gradients} */ template void get_function_divergences (const InputVector &fe_function, @@ -1456,6 +1512,8 @@ public: * * @param point_no Number of the quadrature point at which function is to be * evaluated + * + * @dealiiRequiresUpdateFlags{update_values} */ const double &shape_value (const unsigned int function_no, const unsigned int point_no) const; @@ -1471,12 +1529,14 @@ public: * shape function is not primitive, but then it is necessary since the other * function cannot be used. * - * @param function_no Number of the shape function to be evaluated + * @param function_no Number of the shape function to be evaluated. * * @param point_no Number of the quadrature point at which function is to be - * evaluated + * evaluated. + * + * @param component vector component to be evaluated. * - * @param component vector component to be evaluated + * @dealiiRequiresUpdateFlags{update_values} */ double shape_value_component (const unsigned int function_no, const unsigned int point_no, @@ -1499,6 +1559,8 @@ public: * * The same holds for the arguments of this function as for the * shape_value() function. + * + * @dealiiRequiresUpdateFlags{update_gradients} */ const Tensor<1,spacedim> & shape_grad (const unsigned int function_no, @@ -1517,6 +1579,8 @@ public: * * The same holds for the arguments of this function as for the * shape_value_component() function. + * + * @dealiiRequiresUpdateFlags{update_gradients} */ Tensor<1,spacedim> shape_grad_component (const unsigned int function_no, @@ -1539,6 +1603,8 @@ public: * * The same holds for the arguments of this function as for the * shape_value() function. + * + * @dealiiRequiresUpdateFlags{update_hessians} */ const Tensor<2,spacedim> & shape_hessian (const unsigned int function_no, @@ -1565,6 +1631,8 @@ public: * * The same holds for the arguments of this function as for the * shape_value_component() function. + * + * @dealiiRequiresUpdateFlags{update_hessians} */ Tensor<2,spacedim> shape_hessian_component (const unsigned int function_no, @@ -1615,6 +1683,8 @@ public: * object was last initialized. Alternatively, if the vector argument is of * type IndexSet, then the function is represented as one that is either * zero or one, depending on whether a DoF index is in the set or not. + * + * @dealiiRequiresUpdateFlags{update_values} */ template void get_function_values (const InputVector &fe_function, @@ -1630,6 +1700,8 @@ public: * accessed by values[q] equals the number of components of the * finite element, i.e. values[q](c) returns the value of the * $c$th vector component at the $q$th quadrature point. + * + * @dealiiRequiresUpdateFlags{update_values} */ template void get_function_values (const InputVector &fe_function, @@ -1650,6 +1722,8 @@ public: * You may want to use this function, if you want to access just a single * block from a BlockVector, if you have a multi-level vector or if you * already have a local representation of your finite element data. + * + * @dealiiRequiresUpdateFlags{update_values} */ template void get_function_values (const InputVector &fe_function, @@ -1674,6 +1748,8 @@ public: * * Since this function allows for fairly general combinations of argument * sizes, be aware that the checks on the arguments may not detect errors. + * + * @dealiiRequiresUpdateFlags{update_values} */ template void get_function_values (const InputVector &fe_function, @@ -1708,6 +1784,8 @@ public: * * Since this function allows for fairly general combinations of argument * sizes, be aware that the checks on the arguments may not detect errors. + * + * @dealiiRequiresUpdateFlags{update_values} */ template void get_function_values (const InputVector &fe_function, @@ -1750,6 +1828,8 @@ public: * object was last initialized. Alternatively, if the vector argument is of * type IndexSet, then the function is represented as one that is either * zero or one, depending on whether a DoF index is in the set or not. + * + * @dealiiRequiresUpdateFlags{update_gradients} */ template void get_function_gradients (const InputVector &fe_function, @@ -1768,14 +1848,18 @@ public: * quadrature point. Consequently, gradients[q][c][d] is the * derivative in coordinate direction $d$ of the $c$th vector component of * the vector field at quadrature point $q$ of the current cell. + * + * @dealiiRequiresUpdateFlags{update_gradients} */ template void get_function_gradients (const InputVector &fe_function, std::vector > > &gradients) const; /** - * Function gradient access with more flexibility. see get_function_values() + * Function gradient access with more flexibility. See get_function_values() * with corresponding arguments. + * + * @dealiiRequiresUpdateFlags{update_gradients} */ template void get_function_gradients (const InputVector &fe_function, @@ -1783,8 +1867,10 @@ public: std::vector > &gradients) const; /** - * Function gradient access with more flexibility. see get_function_values() + * Function gradient access with more flexibility. See get_function_values() * with corresponding arguments. + * + * @dealiiRequiresUpdateFlags{update_gradients} */ template void get_function_gradients (const InputVector &fe_function, @@ -1859,6 +1945,8 @@ public: * object was last initialized. Alternatively, if the vector argument is of * type IndexSet, then the function is represented as one that is either * zero or one, depending on whether a DoF index is in the set or not. + * + * @dealiiRequiresUpdateFlags{update_hessians} */ template void @@ -1879,6 +1967,8 @@ public: * component of the matrix of second derivatives of the $c$th vector * component of the vector field at quadrature point $q$ of the current * cell. + * + * @dealiiRequiresUpdateFlags{update_hessians} */ template void @@ -1887,7 +1977,7 @@ public: bool quadrature_points_fastest = false) const; /** - * Access to the second derivatives of a function with more flexibility. see + * Access to the second derivatives of a function with more flexibility. See * get_function_values() with corresponding arguments. */ template @@ -1897,8 +1987,10 @@ public: std::vector > &hessians) const; /** - * Access to the second derivatives of a function with more flexibility. see + * Access to the second derivatives of a function with more flexibility. See * get_function_values() with corresponding arguments. + * + * @dealiiRequiresUpdateFlags{update_hessians} */ template void get_function_hessians ( @@ -1960,6 +2052,8 @@ public: * object was last initialized. Alternatively, if the vector argument is of * type IndexSet, then the function is represented as one that is either * zero or one, depending on whether a DoF index is in the set or not. + * + * @dealiiRequiresUpdateFlags{update_hessians} */ template void @@ -1982,6 +2076,8 @@ public: * laplacians[q][c]=trace(hessians[q][c]), where * hessians would be the output of the get_function_hessians() * function. + * + * @dealiiRequiresUpdateFlags{update_hessians} */ template void @@ -1989,8 +2085,10 @@ public: std::vector > &laplacians) const; /** - * Access to the second derivatives of a function with more flexibility. see + * Access to the second derivatives of a function with more flexibility. See * get_function_values() with corresponding arguments. + * + * @dealiiRequiresUpdateFlags{update_hessians} */ template void get_function_laplacians ( @@ -1999,8 +2097,10 @@ public: std::vector &laplacians) const; /** - * Access to the second derivatives of a function with more flexibility. see + * Access to the second derivatives of a function with more flexibility. See * get_function_values() with corresponding arguments. + * + * @dealiiRequiresUpdateFlags{update_hessians} */ template void get_function_laplacians ( @@ -2009,8 +2109,10 @@ public: std::vector > &laplacians) const; /** - * Access to the second derivatives of a function with more flexibility. see + * Access to the second derivatives of a function with more flexibility. See * get_function_values() with corresponding arguments. + * + * @dealiiRequiresUpdateFlags{update_hessians} */ template void get_function_laplacians ( @@ -2025,12 +2127,16 @@ public: /** * Position of the qth quadrature point in real space. + * + * @dealiiRequiresUpdateFlags{update_quadrature_points} */ const Point & quadrature_point (const unsigned int q) const; /** - * Return a pointer to the vector of quadrature points in real space. + * Return a reference to the vector of quadrature points in real space. + * + * @dealiiRequiresUpdateFlags{update_quadrature_points} */ const std::vector > &get_quadrature_points () const; @@ -2046,22 +2152,28 @@ public: * You can think of the quantity returned by this function as the volume or * surface element $dx, ds$ in the integral that we implement here by * quadrature. + * + * @dealiiRequiresUpdateFlags{update_JxW_values} */ double JxW (const unsigned int quadrature_point) const; /** - * Pointer to the array holding the values returned by JxW(). + * Return a reference to the array holding the values returned by JxW(). */ const std::vector &get_JxW_values () const; /** * Return the Jacobian of the transformation at the specified quadrature * point, i.e. $J_{ij}=dx_i/d\hat x_j$ + * + * @dealiiRequiresUpdateFlags{update_jacobians} */ const DerivativeForm<1,dim,spacedim> &jacobian (const unsigned int quadrature_point) const; /** - * Pointer to the array holding the values returned by jacobian(). + * Return a reference to the array holding the values returned by jacobian(). + * + * @dealiiRequiresUpdateFlags{update_jacobians} */ const std::vector > &get_jacobians () const; @@ -2069,24 +2181,33 @@ public: * Return the second derivative of the transformation from unit to real * cell, i.e. the first derivative of the Jacobian, at the specified * quadrature point, i.e. $G_{ijk}=dJ_{jk}/d\hat x_i$. + * + * @dealiiRequiresUpdateFlags{update_jacobian_grads} */ const DerivativeForm<2,dim,spacedim> &jacobian_grad (const unsigned int quadrature_point) const; /** - * Pointer to the array holding the values returned by jacobian_grads(). + * Return a reference to the array holding the values returned by jacobian_grads(). + * + * @dealiiRequiresUpdateFlags{update_jacobian_grads} */ const std::vector > &get_jacobian_grads () const; /** * Return the inverse Jacobian of the transformation at the specified * quadrature point, i.e. $J_{ij}=d\hat x_i/dx_j$ + * + * @dealiiRequiresUpdateFlags{update_inverse_jacobians} */ const DerivativeForm<1,spacedim,dim> &inverse_jacobian (const unsigned int quadrature_point) const; /** - * Pointer to the array holding the values returned by inverse_jacobian(). + * Return a reference to the array holding the values returned by inverse_jacobian(). + * + * @dealiiRequiresUpdateFlags{update_inverse_jacobians} */ const std::vector > &get_inverse_jacobians () const; + /** * For a face, return the outward normal vector to the cell at the * ith quadrature point. @@ -2095,6 +2216,8 @@ public: * specified by the numbering of the vertices. * * The length of the vector is normalized to one. + * + * @dealiiRequiresUpdateFlags{update_normal_vectors} */ const Point &normal_vector (const unsigned int i) const; @@ -2102,6 +2225,8 @@ public: * Return the normal vectors at the quadrature points. For a face, these are * the outward normal vectors to the cell. For a cell of codimension one, * the orientation is given by the numbering of vertices. + * + * @dealiiRequiresUpdateFlags{update_normal_vectors} */ const std::vector > &get_normal_vectors () const; @@ -2563,12 +2688,16 @@ public: /** * Boundary form of the transformation of the cell at the ith * quadrature point. See @ref GlossBoundaryForm . + * + * @dealiiRequiresUpdateFlags{update_boundary_forms} */ const Tensor<1,spacedim> &boundary_form (const unsigned int i) const; /** * Return the list of outward normal vectors times the Jacobian of the * surface mapping. + * + * @dealiiRequiresUpdateFlags{update_boundary_forms} */ const std::vector > &get_boundary_forms () const; @@ -2856,7 +2985,7 @@ namespace FEValuesViews // an adaptation of the FEValuesBase::shape_value_component function // except that here we know the component as fixed and we have - // pre-computed and cached a bunch of information. see the comments there + // pre-computed and cached a bunch of information. See the comments there. if (shape_function_data[shape_function].is_nonzero_shape_function_component) return fe_values.shape_values(shape_function_data[shape_function] .row_index, @@ -2885,7 +3014,7 @@ namespace FEValuesViews // function except that here we know the // component as fixed and we have // pre-computed and cached a bunch of - // information. see the comments there + // information. See the comments there. if (shape_function_data[shape_function].is_nonzero_shape_function_component) return fe_values.shape_gradients[shape_function_data[shape_function] .row_index][q_point]; @@ -2912,7 +3041,7 @@ namespace FEValuesViews // function except that here we know the // component as fixed and we have // pre-computed and cached a bunch of - // information. see the comments there + // information. See the comments there. if (shape_function_data[shape_function].is_nonzero_shape_function_component) return fe_values.shape_hessians[shape_function_data[shape_function].row_index][q_point]; else