Henry Adams' fixes to python/dionysus/zigzag.py + added CohomologyPersistence.show_cocycles method
:class:`ZigzagPersistence` class
================================
The class deals with the setting :math:`K_1 \rightarrow K_2 \leftarrow K_3 \rightarrow \dots`.
The :ref:`triangle-zigzag-example` illustrates the use of :class:`ZigzagPersistence`.
.. class:: ZigzagPersistence
.. method:: add(boundary, birth)
Adds a simplex with the given `boundary` to the complex, i.e.
:math:`K_{i+1} = K_i \cup \sigma` and `boundary` = :math:`\partial \sigma`.
If a new class is born as a result of the addition, `birth` is stored with
it for future reference.
:returns: a pair (`i`, `d`). The first element is the index `i`.
It is the internal representation of the newly added simplex,
and should be used later for removal or when constructing the
boundaries of its cofaces. In other words, `boundary` must
consist of these indices. The second element `d` is the death
element. It is `None` if a birth occurred, otherwise it
contains the value passed as `birth` to
:meth:`~ZigzagPersistence.add` or
:meth:`~ZigzagPersistence.remove` when the class that just
died was born.
.. method:: remove(index, birth)
Removes the simplex identified by the given `index` from the complex. If
a new class is born as a result of the removal, `birth` is stored with
it for future reference.
:returns: `None` if a birth has occurred, otherwise it contains the value
passed as `birth` to :meth:`~ZigzagPersistence.add` or
:meth:`~ZigzagPersistence.remove` when the class that just
died was born.
Auxilliary functions
--------------------
A pair of auxilliary functions is provided to help add and remove entire
collections of simplices. Both are pure Python functions defined in
:sfile:`bindings/python/dionysus/zigzag.py`.
.. function:: add_simplices(zigzag, simplices, complex, birth, report_local = False)
Adds each simplex in `simplices` to the `zigzag`. `complex` is a
dictionary mapping simplices to their indices (in `zigzag`'s internal
representation). All the newly born classes are given the value of
`birth`.
:returns: list of deaths that occur as a result of `simplices`' removal.
Each death is a pair of the dimension of the class and the
`birth` value passed when the class was born. By default the
deaths equal to `birth` are not reported unless `report_local`
is set to `True`.
.. function:: remove_simplices(zigzag, simplices, complex, birth, report_local = False)
Same parameters and return as in :func:`add_simplices` except that
`simplices` are removed from the `zigzag` and the `complex`.
:class:`ImageZigzagPersistence` class
=====================================
The class deals with the setting
.. math::
\begin{array}{ccccccc}
K_1 & \rightarrow & K_2 & \leftarrow & K_3 & \rightarrow & \dots \\
\uparrow & & \uparrow & & \uparrow & \\
L_1 & \rightarrow & L_2 & \leftarrow & L_3 & \rightarrow & \dots
\end{array}
where the vertical maps are inclusions, i.e. :math:`L_i \subseteq K_i`.
.. class:: ImageZigzagPersistence
.. method:: add(boundary, subcomplex, birth)
Interface is the same as in :meth:`ZigzagPersistence.add`. The
additional parameter `subcomplex` controls whether the simplex is added
to :math:`L` or not. We always have :math:`K_{i+1} = K_i \cup \sigma`.
If `subcomplex` is true, then :math:`L_{i+1} = L_i \cup \sigma`,
otherwise :math:`L_{i+1} = L_i`.
.. method:: remove(index, birth)
Interface is exactly the same as in :meth:`ZigzagPersistence.remove`.