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diff --git a/cython/doc/witness_complex_user.rst b/cython/doc/witness_complex_user.rst new file mode 100644 index 00000000..aa9cbb2c --- /dev/null +++ b/cython/doc/witness_complex_user.rst @@ -0,0 +1,131 @@ +Witness complex user manual +=========================== + +.. include:: witness_complex_sum.rst + +Definitions +----------- + +Witness complex is a simplicial complex defined on two sets of points in :math:`\mathbb{R}^D`: + +- :math:`W` set of **witnesses** and +- :math:`L` set of **landmarks**. + +Even though often the set of landmarks :math:`L` is a subset of the set of witnesses :math:`W`, it is not a requirement +for the current implementation. + +Landmarks are the vertices of the simplicial complex and witnesses help to decide on which simplices are inserted via a +predicate "is witnessed". + +De Silva and Carlsson in their paper :cite:`de2004topological` differentiate **weak witnessing** and +**strong witnessing**: + +- *weak*: :math:`\sigma \subset L` is witnessed by :math:`w \in W` if :math:`\forall l \in \sigma,\ \forall l' \in \mathbf{L \setminus \sigma},\ d(w,l) \leq d(w,l')` +- *strong*: :math:`\sigma \subset L` is witnessed by :math:`w \in W` if :math:`\forall l \in \sigma,\ \forall l' \in \mathbf{L},\ d(w,l) \leq d(w,l')` + +where :math:`d(.,.)` is a distance function. + +Both definitions can be relaxed by a real value :math:`\alpha`: + +- *weak*: :math:`\sigma \subset L` is :math:`\alpha`-witnessed by :math:`w \in W` if :math:`\forall l \in \sigma,\ \forall l' \in \mathbf{L \setminus \sigma},\ d(w,l)^2 \leq d(w,l')^2 + \alpha^2` +- *strong*: :math:`\sigma \subset L` is :math:`\alpha`-witnessed by :math:`w \in W` if :math:`\forall l \in \sigma,\ \forall l' \in \mathbf{L},\ d(w,l)^2 \leq d(w,l')^2 + \alpha^2` + +which leads to definitions of **weak relaxed witness complex** (or just relaxed witness complex for short) and +**strong relaxed witness complex** respectively. + +.. figure:: img/swit.svg + :alt: Strongly witnessed simplex + :figclass: align-center + + Strongly witnessed simplex + + +In particular case of 0-relaxation, weak complex corresponds to **witness complex** introduced in +:cite:`de2004topological`, whereas 0-relaxed strong witness complex consists of just vertices and is not very +interesting. Hence for small relaxation weak version is preferable. +However, to capture the homotopy type (for example using Gudhi::persistent_cohomology::Persistent_cohomology) it is +often necessary to work with higher filtration values. In this case strong relaxed witness complex is faster to compute +and offers similar results. + +Implementation +-------------- + +The two complexes described above are implemented in the corresponding classes + +- :doc:`witness_complex_ref` +- :doc:`strong_witness_complex_ref` +- :doc:`euclidean_witness_complex_ref` +- :doc:`euclidean_strong_witness_complex_ref` + +The construction of the Euclidean versions of complexes follow the same scheme: + +1. Construct a search tree on landmarks. +2. Construct lists of nearest landmarks for each witness. +3. Construct the witness complex for nearest landmark lists. + +In the non-Euclidean classes, the lists of nearest landmarks are supposed to be given as input. + +The constructors take on the steps 1 and 2, while the function 'create_complex' executes the step 3. + +Constructing weak relaxed witness complex from an off file +---------------------------------------------------------- + +Let's start with a simple example, which reads an off point file and computes a weak witness complex. + +.. code-block:: python + + import gudhi + import argparse + + parser = argparse.ArgumentParser(description='EuclideanWitnessComplex creation from ' + 'points read in a OFF file.', + epilog='Example: ' + 'example/witness_complex_diagram_persistence_from_off_file_example.py ' + '-f ../data/points/tore3D_300.off -a 1.0 -n 20 -d 2' + '- Constructs a alpha complex with the ' + 'points from the given OFF file.') + parser.add_argument("-f", "--file", type=str, required=True) + parser.add_argument("-a", "--max_alpha_square", type=float, required=True) + parser.add_argument("-n", "--number_of_landmarks", type=int, required=True) + parser.add_argument("-d", "--limit_dimension", type=int, required=True) + + args = parser.parse_args() + + with open(args.file, 'r') as f: + first_line = f.readline() + if (first_line == 'OFF\n') or (first_line == 'nOFF\n'): + print("#####################################################################") + print("EuclideanWitnessComplex creation from points read in a OFF file") + + witnesses = gudhi.read_off(off_file=args.file) + landmarks = gudhi.pick_n_random_points(points=witnesses, nb_points=args.number_of_landmarks) + + message = "EuclideanWitnessComplex with max_edge_length=" + repr(args.max_alpha_square) + \ + " - Number of landmarks=" + repr(args.number_of_landmarks) + print(message) + + witness_complex = gudhi.EuclideanWitnessComplex(witnesses=witnesses, landmarks=landmarks) + simplex_tree = witness_complex.create_simplex_tree(max_alpha_square=args.max_alpha_square, + limit_dimension=args.limit_dimension) + + message = "Number of simplices=" + repr(simplex_tree.num_simplices()) + print(message) + else: + print(args.file, "is not a valid OFF file") + + f.close() + + +Example2: Computing persistence using strong relaxed witness complex +-------------------------------------------------------------------- + +Here is an example of constructing a strong witness complex filtration and computing persistence on it: + +* :download:`euclidean_strong_witness_complex_diagram_persistence_from_off_file_example.py <../example/periodic_cubical_complex_barcode_persistence_from_perseus_file_example.py>` + +Bibliography +============ + +.. bibliography:: bibliography.bib + :filter: docnames + :style: unsrt |