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diff --git a/src/cython/doc/alpha_complex_user.rst b/src/cython/doc/alpha_complex_user.rst new file mode 100644 index 00000000..68e53a77 --- /dev/null +++ b/src/cython/doc/alpha_complex_user.rst @@ -0,0 +1,205 @@ +========================= +Alpha complex user manual +========================= +Definition +---------- + +.. include:: alpha_complex_sum.rst + +Alpha_complex is constructing a :doc:`Simplex_tree <simplex_tree_sum>` using +`Delaunay Triangulation <http://doc.cgal.org/latest/Triangulation/index.html#Chapter_Triangulations>`_ +:cite:`cgal:hdj-t-15b` from `CGAL <http://www.cgal.org/>`_ (the Computational Geometry Algorithms Library +:cite:`cgal:eb-15b`). + +Remarks +^^^^^^^ +When Alpha_complex is constructed with an infinite value of :math:`\alpha`, the complex is a Delaunay complex. + +Example from points +------------------- + +This example builds the Delaunay triangulation from the given points, and initializes the alpha complex with it: + +.. testcode:: + + import gudhi + alpha_complex = gudhi.AlphaComplex(points=[[1, 1], [7, 0], [4, 6], [9, 6], [0, 14], [2, 19], [9, 17]]) + + simplex_tree = alpha_complex.create_simplex_tree(max_alpha_square=60.0) + result_str = 'Alpha complex is of dimension ' + repr(simplex_tree.dimension()) + ' - ' + \ + repr(simplex_tree.num_simplices()) + ' simplices - ' + \ + repr(simplex_tree.num_vertices()) + ' vertices.' + print(result_str) + for filtered_value in simplex_tree.get_filtered_tree(): + print(filtered_value) + +The output is: + +.. testoutput:: + + Alpha complex is of dimension 2 - 25 simplices - 7 vertices. + ([0], 0.0) + ([1], 0.0) + ([2], 0.0) + ([3], 0.0) + ([4], 0.0) + ([5], 0.0) + ([6], 0.0) + ([2, 3], 6.25) + ([4, 5], 7.25) + ([0, 2], 8.5) + ([0, 1], 9.25) + ([1, 3], 10.0) + ([1, 2], 11.25) + ([1, 2, 3], 12.5) + ([0, 1, 2], 12.995867768595042) + ([5, 6], 13.25) + ([2, 4], 20.0) + ([4, 6], 22.736686390532547) + ([4, 5, 6], 22.736686390532547) + ([3, 6], 30.25) + ([2, 6], 36.5) + ([2, 3, 6], 36.5) + ([2, 4, 6], 37.24489795918368) + ([0, 4], 59.710743801652896) + ([0, 2, 4], 59.710743801652896) + + +Algorithm +--------- + +Data structure +^^^^^^^^^^^^^^ + +In order to build the alpha complex, first, a Simplex tree is built from the cells of a Delaunay Triangulation. +(The filtration value is set to NaN, which stands for unknown value): + +.. figure:: + img/alpha_complex_doc.png + :figclass: align-center + :alt: Simplex tree structure construction example + + Simplex tree structure construction example + +Filtration value computation algorithm +^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ + + **for** i : dimension :math:`\rightarrow` 0 **do** + **for all** :math:`\sigma` of dimension i + **if** filtration(:math:`\sigma`) is NaN **then** + filtration(:math:`\sigma`) = :math:`\alpha^2(\sigma)` + **end if** + + *//propagate alpha filtration value* + + **for all** :math:`\tau` face of :math:`\sigma` + **if** filtration(:math:`\tau`) is not NaN **then** + filtration(:math:`\tau`) = filtration(:math:`\sigma`) + **end if** + **end for** + **end for** + **end for** + + make_filtration_non_decreasing() + + prune_above_filtration() + +Dimension 2 +^^^^^^^^^^^ + +From the example above, it means the algorithm looks into each triangle ([0,1,2], [0,2,4], [1,2,3], ...), +computes the filtration value of the triangle, and then propagates the filtration value as described +here: + +.. figure:: + img/alpha_complex_doc_420.png + :figclass: align-center + :alt: Filtration value propagation example + + Filtration value propagation example + +Dimension 1 +^^^^^^^^^^^ + +Then, the algorithm looks into each edge ([0,1], [0,2], [1,2], ...), +computes the filtration value of the edge (in this case, propagation will have no effect). + +Dimension 0 +^^^^^^^^^^^ + +Finally, the algorithm looks into each vertex ([0], [1], [2], [3], [4], [5] and [6]) and +sets the filtration value (0 in case of a vertex - propagation will have no effect). + +Non decreasing filtration values +^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ + +As the squared radii computed by CGAL are an approximation, it might happen that these alpha squared values do not +quite define a proper filtration (i.e. non-decreasing with respect to inclusion). +We fix that up by calling `Simplex_tree::make_filtration_non_decreasing()` (cf. +`C++ version <http://gudhi.gforge.inria.fr/doc/latest/index.html>`_). + +Prune above given filtration value +^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ + +The simplex tree is pruned from the given maximum alpha squared value (cf. `Simplex_tree::prune_above_filtration()` +int he `C++ version <http://gudhi.gforge.inria.fr/doc/latest/index.html>`_). +In the following example, the value is given by the user as argument of the program. + + +Example from OFF file +^^^^^^^^^^^^^^^^^^^^^ + +This example builds the Delaunay triangulation from the points given by an OFF file, and initializes the alpha complex +with it. + + +Then, it is asked to display information about the alpha complex: + +.. testcode:: + + import gudhi + alpha_complex = gudhi.AlphaComplex(off_file='alphacomplexdoc.off') + simplex_tree = alpha_complex.create_simplex_tree(max_alpha_square=59.0) + result_str = 'Alpha complex is of dimension ' + repr(simplex_tree.dimension()) + ' - ' + \ + repr(simplex_tree.num_simplices()) + ' simplices - ' + \ + repr(simplex_tree.num_vertices()) + ' vertices.' + print(result_str) + for filtered_value in simplex_tree.get_filtered_tree(): + print(filtered_value) + +the program output is: + +.. testoutput:: + + Alpha complex is of dimension 2 - 23 simplices - 7 vertices. + ([0], 0.0) + ([1], 0.0) + ([2], 0.0) + ([3], 0.0) + ([4], 0.0) + ([5], 0.0) + ([6], 0.0) + ([2, 3], 6.25) + ([4, 5], 7.25) + ([0, 2], 8.5) + ([0, 1], 9.25) + ([1, 3], 10.0) + ([1, 2], 11.25) + ([1, 2, 3], 12.5) + ([0, 1, 2], 12.995867768595042) + ([5, 6], 13.25) + ([2, 4], 20.0) + ([4, 6], 22.736686390532547) + ([4, 5, 6], 22.736686390532547) + ([3, 6], 30.25) + ([2, 6], 36.5) + ([2, 3, 6], 36.5) + ([2, 4, 6], 37.24489795918368) + +============== +CGAL citations +============== + +.. bibliography:: how_to_cite_cgal.bib + :filter: docnames + :style: unsrt |