TET_MESH
Routines for a Tet Mesh
TET_MESH
is a C library which
constructs, describes, or modifies a mesh of tetrahedrons.
Linear and Quadratic Meshes
The simplest tet mesh, which we term an order 4
or linear mesh, uses four points to define each tetrahedron.
A second type of mesh, known as an order 10 or quadratic
mesh, uses ten points.
While an order 4 mesh can naturally be constructed directly from
most sets of data points, a mesh of order 10 is not usually
constructed directly from the data; at least in the simplest case,
one wants the 6 extra nodes to be the midpoints of the sides
determined by the 4 vertices.
Thus, an order 10 tet mesh is typically generated in two steps:
-
generate an order 4 mesh, in which every tetrahedral vertex
comes from a user data point;
-
generate an order 10 mesh from the order 4 mesh, in which
the new midside points are not user data points, but rather
averages of pairs of tetrahedral vertices.
Licensing:
The computer code and data files described and made available on this web page
are distributed under
the GNU LGPL license.
Languages:
TET_MESH is available in
a C++ version and
a C++ version and
a FORTRAN90 version and
a MATLAB version.
Related Programs:
GEOMETRY,
a C library which
includes a number of routines for
making computations involving tetrahedrons.
KEAST,
a C++ library which
defines a number of quadrature rules
for a tetrahedron.
TEST_TET_MESH,
a FORTRAN90 library which
defines a few test regions for the generation
of a tet mesh.
Reference:
-
Herbert Edelsbrunner,
Geometry and Topology for Mesh Generation,
Cambridge, 2001,
ISBN: 0-521-79309-2,
LC: QA377.E36.
-
Barry Joe,
GEOMPACK - a software package for the generation of meshes
using geometric algorithms,
Advances in Engineering Software,
Volume 13, Number 5, 1991, pages 325-331.
-
Anwei Liu, Barry Joe,
Quality Local Refinement of Tetrahedral Meshes Based
on 8-Subtetrahedron Subdivision,
Mathematics of Computation,
Volume 65, Number 215, July 1996, pages 1183-1200.
-
Per-Olof Persson, Gilbert Strang,
A Simple Mesh Generator in MATLAB,
SIAM Review,
Volume 46, Number 2, June 2004, pages 329-345.
Source Code:
Examples and Tests:
List of Routines:
-
I4_MAX returns the maximum of two I4's.
-
I4_MIN returns the minimum of two I4's.
-
I4_SWAP switches two I4's.
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I4_UNIFORM returns a scaled pseudorandom I4.
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I4COL_COMPARE compares columns I and J of an I4COL.
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I4COL_SORT_A ascending sorts the columns of an I4COL.
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I4COL_SORT2_A ascending sorts the elements of each column of an I4COL.
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I4COL_SORTED_UNIQUE_COUNT counts unique elements in an I4COL.
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I4COL_SWAP swaps two columns of an I4COL.
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I4I4_SORT_A ascending sorts a pair of I4's.
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I4I4I4_SORT_A ascending sorts a triple of I4's.
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I4MAT_TRANSPOSE_PRINT prints an I4MAT, transposed.
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I4MAT_TRANSPOSE_PRINT_SOME prints some of an I4MAT, transposed.
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I4VEC_PRINT prints an I4VEC.
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I4VEC_SUM sums the entries of an I4VEC.
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I4VEC_ZERO zeroes an I4VEC.
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R4_ABS returns the absolute value of an R4.
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R4_NINT returns the nearest integer to an R4.
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R8_HUGE returns a "huge" R8.
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R8_MAX returns the maximum of two R8's.
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R8_MIN returns the minimum of two R8's.
-
R8_SWAP switches two R8's.
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R8_UNIFORM_01 returns a unit pseudorandom R8.
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R8MAT_DET_4D computes the determinant of a 4 by 4 R8MAT.
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R8MAT_MV multiplies a matrix times a vector.
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R8MAT_PRINT prints an R8MAT, with an optional title.
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R8MAT_PRINT_SOME prints some of an R8MAT.
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R8MAT_SOLVE uses Gauss-Jordan elimination to solve an N by N linear system.
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R8MAT_TRANSPOSE_PRINT prints an R8MAT, transposed.
-
R8MAT_TRANSPOSE_PRINT_SOME prints some of an R8MAT, transposed.
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R8MAT_UNIFORM_01 fills a double precision array with unit pseudorandom values.
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R8VEC_CROSS_3D computes the cross product of two vectors in 3D.
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R8VEC_IS_NONNEGATIVE is true if all entries in an R8VEC are nonnegative.
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R8VEC_IS_ZERO is true if the entries in an R8VEC are all zero.
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R8VEC_LENGTH returns the Euclidean length of a R8VEC
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R8VEC_MAX returns the maximum element in an R8VEC.
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R8VEC_MEAN returns the mean of a R8VEC.
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R8VEC_MIN returns the minimum element in an R8VEC.
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R8VEC_PRINT prints an R8VEC.
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R8VEC_SUM returns the sum of an R8VEC.
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R8VEC_UNIFORM_01 returns a unit pseudorandom R8VEC.
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R8VEC_VARIANCE returns the variance of a double vector.
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R8VEC_ZERO zeroes a real vector.
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S_LEN_TRIM returns the length of a string to the last nonblank.
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SORT_HEAP_EXTERNAL externally sorts a list of items into ascending order.
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TET_MESH_NEIGHBOR_TETS determines tetrahedron neighbors.
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TET_MESH_NODE_ORDER: determines the order of nodes.
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TET_MESH_ORDER4_ADJ_COUNT counts the number of nodal adjacencies.
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TET_MESH_ORDER4_BOUNDARY_FACE_COUNT counts the number of boundary faces.
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TET_MESH_ORDER4_EDGE_COUNT counts the number of edges.
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TET_MESH_ORDER4_EXAMPLE_SET sets an example linear tet mesh.
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TET_MESH_ORDER4_EXAMPLE_SIZE sizes an example linear tet mesh.
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TET_MESH_ORDER4_REFINE_COMPUTE computes a refined order 4 tet mesh
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TET_MESH_ORDER4_REFINE_SIZE sizes a refined order 4 tet mesh.
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TET_MESH_ORDER4_TO_ORDER10_COMPUTE computes a quadratic tet mesh from a linear one.
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TET_MESH_ORDER4_TO_ORDER10_SIZE sizes a quadratic tet mesh from a linear one.
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TET_MESH_ORDER10_EXAMPLE_SET sets an example quadratic tet mesh.
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TET_MESH_ORDER10_EXAMPLE_SIZE sizes an example quadratic tet mesh.
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TET_MESH_ORDER10_TO_ORDER4_COMPUTE linearizes a quadratic tet mesh.
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TET_MESH_ORDER10_TO_ORDER4_SIZE sizes a linear tet mesh from a quadratic one.
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TET_MESH_QUAD approximates an integral over a tet mesh.
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TET_MESH_QUALITY1 returns a tet mesh quality factor.
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TET_MESH_QUALITY2 returns a tet mesh quality factor.
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TET_MESH_QUALITY3 returns a tet mesh quality factor.
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TET_MESH_QUALITY4 returns a tet mesh quality factor.
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TET_MESH_QUALITY5 returns a tet mesh quality factor.
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TET_MESH_SEARCH_DELAUNAY searches a Delaunay tet mesh for a point.
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TET_MESH_SEARCH_NAIVE naively searches a tet mesh.
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TETRAHEDRON_BARYCENTRIC returns the barycentric coordinates of a point.
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TETRAHEDRON_CIRCUMSPHERE_3D computes the circumsphere of a tetrahedron in 3D.
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TETRAHEDRON_EDGE_LENGTH_3D returns edge lengths of a tetrahedron in 3D.
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TETRAHEDRON_INSPHERE_3D finds the insphere of a tetrahedron in 3D.
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TETRAHEDRON_ORDER4_PHYSICAL_TO_REFERENCE maps physical points to reference points.
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TETRAHEDRON_ORDER4_REFERENCE_TO_PHYSICAL maps reference points to physical points.
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TETRAHEDRON_QUALITY1_3D: "quality" of a tetrahedron in 3D.
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TETRAHEDRON_QUALITY2_3D: "quality" of a tetrahedron in 3D.
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TETRAHEDRON_QUALITY3_3D computes the mean ratio of a tetrahedron.
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TETRAHEDRON_QUALITY4_3D computes the minimum solid angle of a tetrahedron.
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TETRAHEDRON_REFERENCE_SAMPLE samples points in the reference tetrahedron.
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TETRAHEDRON_SAMPLE returns random points in a tetrahedron.
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TETRAHEDRON_VOLUME_3D computes the volume of a tetrahedron in 3D.
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TIMESTAMP prints the current YMDHMS date as a time stamp.
You can go up one level to
the C source codes.
Last revised on 05 October 2014.