triangulation_histogram (original) (raw)
triangulation_histogram, a C++ code which computes the number of points from a dataset that are contained in each triangle of a triangulation.
One application of this program is simply to determine whether the dataset represents an approximately uniform sampling of the region covered by the triangulation.
Usage:
triangulation_histogram prefix data_filename
where prefix is the common prefix for the node and element files
- prefix_nodes.txt, the node coordinates;
- prefix_elements.txt, the element definitions. and
- data_filename is the name of the file containing the data points.
Licensing:
The computer code and data files described and made available on this web page are distributed under the MIT license
Languages:
triangulation_histogram is available ina C++ version anda FORTRAN90 version anda MATLAB version.
Related Data and Programs:
RANDOM_DATA, a C++ code which generates sample points for various probability distributions, spatial dimensions, and geometries;
TRIANGLE_HISTOGRAM, a C++ code which computes histograms of data on the unit triangle.
TRIANGULATION, a C++ code which performs various operations on order 3 ("linear") or order 6 ("quadratic") triangulations.
TRIANGULATION_BOUNDARY_NODES, a C++ code which reads data defining a triangulation, determines which nodes lie on the boundary, and writes their coordinates to a file.
TRIANGULATION_CORNER, a C++ code which patches triangulations so that no triangle has two sides on the boundary.
TRIANGULATION_DELAUNAY_DISCREPANCY, a C++ code which measures the amount by which a triangulation fails the local Delaunay test;
TRIANGULATION_DISPLAY_OPENGL, a C++ code which reads files defining a triangulation and displays an image using Open GL.
TRIANGULATION_L2Q, a C++ code which reads data defining a 3-node triangulation and generates midside nodes and writes out the corresponding 6-node triangulation.
TRIANGULATION_MASK, a C++ code which takes an existing triangulation and deletes triangles and their corresponding nodes as requested by the user.
TRIANGULATION_NODE_TO_ELEMENT, a C++ code which reads files describing a set of nodes, their triangulation, and the value of one or more quantities at each node, and outputs a file that averages the quantities for each element. This operation in effect creates an "order1" finite element model of the data.
TRIANGULATION_ORDER3, a directory which contains a description and examples of order 3 triangulations.
TRIANGULATION_ORDER6, a directory which contains a description and examples of order 6 triangulations.
TRIANGULATION_ORIENT, a C++ code which reads data defining a triangulation, makes sure that every triangle has positive orientation, and if not, writes a corrected triangle file.
TRIANGULATION_PLOT, a C++ code which reads data defining a triangulation and creates a PostScript image of the nodes and triangles.
TRIANGULATION_Q2L, a C++ code which reads data defining a 6-node triangulation, and subdivides each triangle into 4 3-node triangles, writing the resulting triangulation to a file.
TRIANGULATION_QUAD, a C++ code which estimates the integral of a function over a triangulated region.
TRIANGULATION_QUALITY, a C++ code which reads data defining a triangulation and computes a number of quality measures.
TRIANGULATION_RCM, a C++ code which reads data defining a triangulation, determines an ordering of the nodes that will reduce the bandwidth of the adjacency matrix, and writes the new triangulation information to a file.
TRIANGULATION_REFINE, a C++ code which reads data defining a triangulation, replaces each triangle by four congruent smaller ones, and writes the new triangulation information to a file.
TRIANGULATION_TRIANGLE_NEIGHBORS, a C++ code which reads data defining a triangulation, determines the neighboring triangles of each triangle, and writes that information to a file.
UNIFORM, a C++ code which computes elements of a uniform pseudorandom sequence.
Source Code:
- <triangulation%5Fhistogram.cpp>, the source code.
- <triangulation%5Fhistogram.sh>, compiles the source code.
Last revised on 06 May 2020.