From: Peter Munch Date: Sun, 7 Nov 2021 08:37:49 +0000 (+0100) Subject: Fix typo X-Git-Tag: v9.4.0-rc1~856^2 X-Git-Url: https://gitweb.dealii.org/cgi-bin/gitweb.cgi?a=commitdiff_plain;h=d77cc88861551b959c7cf61d28e57a3a063643ce;p=dealii.git Fix typo --- diff --git a/include/deal.II/fe/fe.h b/include/deal.II/fe/fe.h index 7c75f0eb78..4536a68747 100644 --- a/include/deal.II/fe/fe.h +++ b/include/deal.II/fe/fe.h @@ -139,9 +139,9 @@ class FESystem; * FiniteElement::system_to_component_index() function. * * On the other hand, if there is at least one shape function that is nonzero - * in more than one vector component, then we call the entire element "non- - * primitive". The FiniteElement::get_nonzero_components() can then be used to - * determine which vector components of a shape function are nonzero. The + * in more than one vector component, then we call the entire element + * "non-primitive". The FiniteElement::get_nonzero_components() can then be used + * to determine which vector components of a shape function are nonzero. The * number of nonzero components of a shape function is returned by * FiniteElement::n_components(). Whether a shape function is non-primitive * can be queried by FiniteElement::is_primitive(). @@ -887,8 +887,8 @@ public: * Return the gradient of the @p ith shape function at the point @p p. @p p * is a point on the reference element, and likewise the gradient is the * gradient on the unit cell with respect to unit cell coordinates. If the - * finite element is vector-valued, then return the value of the only non- - * zero component of the vector value of this shape function. If the shape + * finite element is vector-valued, then return the value of the only + * non-zero component of the vector value of this shape function. If the shape * function has more than one non-zero component (which we refer to with the * term non-primitive), then derived classes implementing this function * should throw an exception of type ExcShapeFunctionNotPrimitive. In that @@ -924,10 +924,10 @@ public: * cell with respect to unit cell coordinates. If the finite element is * vector-valued, then return the value of the only non-zero component of * the vector value of this shape function. If the shape function has more - * than one non-zero component (which we refer to with the term non- - * primitive), then derived classes implementing this function should throw - * an exception of type ExcShapeFunctionNotPrimitive. In that case, use the - * shape_grad_grad_component() function. + * than one non-zero component (which we refer to with the term + * non-primitive), then derived classes implementing this function should + * throw an exception of type ExcShapeFunctionNotPrimitive. In that case, use + * the shape_grad_grad_component() function. * * Implementations of this function should throw an exception of type * ExcUnitShapeValuesDoNotExist if the shape functions of the FiniteElement @@ -959,10 +959,10 @@ public: * cell with respect to unit cell coordinates. If the finite element is * vector-valued, then return the value of the only non-zero component of * the vector value of this shape function. If the shape function has more - * than one non-zero component (which we refer to with the term non- - * primitive), then derived classes implementing this function should throw - * an exception of type ExcShapeFunctionNotPrimitive. In that case, use the - * shape_3rd_derivative_component() function. + * than one non-zero component (which we refer to with the term + * non-primitive), then derived classes implementing this function should + * throw an exception of type ExcShapeFunctionNotPrimitive. In that case, use + * the shape_3rd_derivative_component() function. * * Implementations of this function should throw an exception of type * ExcUnitShapeValuesDoNotExist if the shape functions of the FiniteElement @@ -994,10 +994,10 @@ public: * cell with respect to unit cell coordinates. If the finite element is * vector-valued, then return the value of the only non-zero component of * the vector value of this shape function. If the shape function has more - * than one non-zero component (which we refer to with the term non- - * primitive), then derived classes implementing this function should throw - * an exception of type ExcShapeFunctionNotPrimitive. In that case, use the - * shape_4th_derivative_component() function. + * than one non-zero component (which we refer to with the term + * non-primitive), then derived classes implementing this function should + * throw an exception of type ExcShapeFunctionNotPrimitive. In that case, use + * the shape_4th_derivative_component() function. * * Implementations of this function should throw an exception of type * ExcUnitShapeValuesDoNotExist if the shape functions of the FiniteElement @@ -1581,8 +1581,8 @@ public: get_nonzero_components(const unsigned int i) const; /** - * Return in how many vector components the @p ith shape function is non- - * zero. This value equals the number of entries equal to @p true in the + * Return in how many vector components the @p ith shape function is + * non-zero. This value equals the number of entries equal to @p true in the * result of the get_nonzero_components() function. * * For most finite element spaces, the result will be equal to one. It is @@ -2521,8 +2521,8 @@ protected: * case the element is composed of other elements and at least one of them * is vector-valued itself. * - * This array has valid values also in the case of vector-valued (i.e. non- - * primitive) shape functions, in contrast to the + * This array has valid values also in the case of vector-valued (i.e. + * non-primitive) shape functions, in contrast to the * #system_to_component_table. */ std::vector, unsigned int>>