*/
update_default = 0,
/**
- * Compute quadrature points in real
- * space (not on unit cell).
+ * Compute quadrature points in
+ * real space (not on unit
+ * cell).
*/
update_q_points = 0x0001,
/**
- * Compute the JxW values (Jacobian
- * determinant at the quadrature point
- * times the weight of this point).
+ * Compute the JxW values
+ * (Jacobian determinant at the
+ * quadrature point times the
+ * weight of this point).
*/
update_JxW_values = 0x0002,
/**
- * Update boundary forms on the face.
- * This flag is only evaluated by
- * the #FEFaceValues# class.
+ * Update boundary forms on the
+ * face. This flag is only
+ * evaluated by the
+ * @ref{FEFaceValues} class.
*
* Giving this flag to the
- * #FEValues# class will result in
- * an error, since boundary
- * forms only exist on the boundary.
+ * @ref{FEValues} class will
+ * result in an error, since
+ * boundary forms only exist on
+ * the boundary.
*/
update_boundary_forms = 0x0004,
*/
update_values = 0x0010,
/**
- * Transform gradients on unit cell to
- * gradients on real cell.
+ * Transform gradients on unit
+ * cell to gradients on real
+ * cell.
*/
update_gradients = 0x0020,
/**
- * Update the second derivatives of the
- * shape functions on the real cell.
+ * Update the second
+ * derivatives of the shape
+ * functions on the real cell.
*/
update_second_derivatives = 0x0040,
/**
- * Compute jacobian matrices of the
- * transform between unit and real cell
- * in the evaluation points.
+ * Compute jacobian matrices of
+ * the transform between unit
+ * and real cell in the
+ * evaluation points.
*/
update_jacobians = 0x0080,
update_contravariant_transformation = 0x0200,
/**
- * Update gradients of the jacobian.
- * These are used to compute second
- * derivatives.
+ * Update gradients of the
+ * jacobian. These are used to
+ * compute second derivatives.
*/
update_jacobian_grads = 0x0400,
update_transformation_values = 0x0800,
- /** Update gradients of
+ /**
+ * Update gradients of
* transformation shape
* functions.
*/
update_transformation_gradients = 0x1000,
/**
- * Compute the points on the real cell
- * on which the trial functions are
- * located.
+ * Compute the points on the
+ * real cell on which the trial
+ * functions are located.
*
* Giving this flag to the
- * #FESubfaceValues# class will result
- * in an error, since support points are
- * not useful in that case.
+ * @ref{FESubfaceValues} class
+ * will result in an error,
+ * since support points are not
+ * useful in that case.
*/
update_support_points = 0x2000,
/**
- * Update the outward normal vectors
- * to the face relative to this cell.
- * This flag is only evaluated by
- * the #FEFaceValues# class.
+ * Update the outward normal
+ * vectors to the face relative
+ * to this cell. This flag is
+ * only evaluated by the
+ * @ref{FEFaceValues} class.
*
* Giving this flag to the
- * #FEValues# class will result in
- * an error, since normal vectors are
- * not useful in that case.
+ * @ref{FEValues} class will
+ * result in an error, since
+ * normal vectors are not
+ * useful in that case.
*/
update_normal_vectors = 0x4000
};