Reference documentation for deal.II version 9.1.1
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#include <deal.II/base/geometry_info.h>
Static Public Member Functions | |
static unsigned int | n_children (const RefinementCase< 0 > &refinement_case) |
Static Public Attributes | |
static constexpr unsigned int | max_children_per_cell = 1 |
static constexpr unsigned int | faces_per_cell = 0 |
static constexpr unsigned int | max_children_per_face = 0 |
static constexpr unsigned int | vertices_per_cell = 1 |
static constexpr unsigned int | vertices_per_face = 0 |
static constexpr unsigned int | lines_per_face = 0 |
static constexpr unsigned int | quads_per_face = 0 |
static constexpr unsigned int | lines_per_cell = 0 |
static constexpr unsigned int | quads_per_cell = 0 |
static constexpr unsigned int | hexes_per_cell = 0 |
static const std::array< unsigned int, vertices_per_cell > | ucd_to_deal = {{0}} |
static const std::array< unsigned int, vertices_per_cell > | dx_to_deal = {{0}} |
Topological description of zero dimensional cells, i.e. points. This class might not look too useful but often is if in a certain dimension we would like to enquire information about objects with dimension one lower than the present, e.g. about faces.
This class contains as static members information on vertices and faces of a dim-dimensional
grid cell. The interface is the same for all dimensions. If a value is of no use in a low dimensional cell, it is (correctly) set to zero, e.g. max_children_per_face in 1d.
This information should always replace hard-coded numbers of vertices, neighbors and so on, since it can be used dimension independently.
Definition at line 1071 of file geometry_info.h.
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Return the number of children of a cell (or face) refined with ref_case
. Since we are concerned here with points, the number of children is equal to one.
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Maximum number of children of a cell, i.e. the number of children of an isotropically refined cell.
If a cell is refined anisotropically, the actual number of children may be less than the value given here.
Definition at line 1080 of file geometry_info.h.
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Number of faces a cell has.
Definition at line 1085 of file geometry_info.h.
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Maximum number of children of a refined face, i.e. the number of children of an isotropically refined face.
If a cell is refined anisotropically, the actual number of children may be less than the value given here.
Definition at line 1094 of file geometry_info.h.
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Number of vertices a cell has.
Definition at line 1107 of file geometry_info.h.
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Number of vertices each face has. Since this is not useful in one dimension, we provide a useless number (in the hope that a compiler may warn when it sees constructs like for (i=0; i<vertices_per_face; ++i)
, at least if i
is an unsigned int
.
Definition at line 1115 of file geometry_info.h.
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Number of lines each face has.
Definition at line 1120 of file geometry_info.h.
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Number of quads on each face.
Definition at line 1125 of file geometry_info.h.
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Number of lines of a cell.
Definition at line 1130 of file geometry_info.h.
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Number of quadrilaterals of a cell.
Definition at line 1135 of file geometry_info.h.
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Number of hexahedra of a cell.
Definition at line 1140 of file geometry_info.h.
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Rearrange vertices for UCD output. For a cell being written in UCD format, each entry in this field contains the number of a vertex in deal.II
that corresponds to the UCD numbering at this location.
Typical example: write a cell and arrange the vertices, such that UCD understands them.
As the vertex numbering in deal.II versions <= 5.1 happened to coincide with the UCD numbering, this field can also be used like a old_to_lexicographic mapping.
Definition at line 1159 of file geometry_info.h.
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Rearrange vertices for OpenDX output. For a cell being written in OpenDX format, each entry in this field contains the number of a vertex in deal.II
that corresponds to the DX numbering at this location.
Typical example: write a cell and arrange the vertices, such that OpenDX understands them.
Definition at line 1174 of file geometry_info.h.