From 9899ae167f281d10b1684dfcd02c6838c5bf28df Mon Sep 17 00:00:00 2001 From: Gard Spreemann Date: Fri, 2 Feb 2018 13:51:45 +0100 Subject: GUDHI 2.1.0 as released by upstream in a tarball. --- cython/doc/cubical_complex_user.rst | 45 +++++++++++++++++-------------------- 1 file changed, 20 insertions(+), 25 deletions(-) (limited to 'cython/doc/cubical_complex_user.rst') diff --git a/cython/doc/cubical_complex_user.rst b/cython/doc/cubical_complex_user.rst index 2bfac62a..34598f02 100644 --- a/cython/doc/cubical_complex_user.rst +++ b/cython/doc/cubical_complex_user.rst @@ -81,23 +81,7 @@ filtration to all cubes. There are a number of constructors that can be used to who want to use the code directly. They can be found in the :doc:`cubical_complex_ref`. Currently one input from a text file is used. It uses a format used already in `Perseus software `_ by Vidit Nanda. -Below we are providing a description of the format. The first line contains a number d begin the dimension of the -bitmap (2 in the example below). Next d lines are the numbers of top dimensional cubes in each dimensions (3 and 3 -in the example below). Next, in lexicographical order, the filtration of top dimensional cubes is given (1 4 6 8 -20 4 7 6 5 in the example below). - -.. figure:: - ../../doc/Bitmap_cubical_complex/exampleBitmap.png - :alt: Example of a input data. - :figclass: align-center - - Example of a input data. - -The input file for the following complex is: - -.. literalinclude:: ../../data/bitmap/cubicalcomplexdoc.txt - -.. centered:: ../../data/bitmap/cubicalcomplexdoc.txt +The file format is described here: :doc:`Perseus `. .. testcode:: @@ -124,15 +108,9 @@ Imposing periodic boundary conditions in the direction i, means that the left an :math:`\mathcal{K}` are considered the same. In particular, if for a bitmap :math:`\mathcal{K}` periodic boundary conditions are imposed in all directions, then complex :math:`\mathcal{K}` became n-dimensional torus. One can use various constructors from the file Bitmap_cubical_complex_periodic_boundary_conditions_base.h to construct cubical -complex with periodic boundary conditions. One can also use Perseus style input files. To indicate periodic boundary -conditions in a given direction, then number of top dimensional cells in this direction have to be multiplied by -1. -For instance: - -.. literalinclude:: ../../data/bitmap/periodiccubicalcomplexdoc.txt - -.. centered:: ../../data/bitmap/periodiccubicalcomplexdoc.txt +complex with periodic boundary conditions. -Indicate that we have imposed periodic boundary conditions in the direction x, but not in the direction y. +One can also use Perseus style input files (see :doc:`Perseus `) for the specific periodic case: .. testcode:: @@ -149,6 +127,23 @@ the program output is: Periodic cubical complex is of dimension 2 - 42 simplices. +Or it can be defined as follows: + +.. testcode:: + + from gudhi import PeriodicCubicalComplex as pcc + periodic_cc = pcc(dimensions=[3,3], + top_dimensional_cells= [0, 0, 0, 0, 1, 0, 0, 0, 0], + periodic_dimensions=[True, False]) + result_str = 'Periodic cubical complex is of dimension ' + repr(periodic_cc.dimension()) + ' - ' + \ + repr(periodic_cc.num_simplices()) + ' simplices.' + print(result_str) + +the program output is: + +.. testoutput:: + + Periodic cubical complex is of dimension 2 - 42 simplices. Examples. --------- -- cgit v1.2.3