Doc/library/packaging.depgraph.rst - platform/external/python/cpython3 - Gitiles

 :mod:`packaging.depgraph` --- Dependency graph builder
 ======================================================

 .. module:: packaging.depgraph
    :synopsis: Graph builder for dependencies between releases.


 This module provides the means to analyse the dependencies between various
 distributions and to create a graph representing these dependency relationships.
 In this document, "distribution" refers to an instance of
 :class:`packaging.database.Distribution` or
 :class:`packaging.database.EggInfoDistribution`.

 .. XXX terminology problem with dist vs. release: dists are installed, but deps
    use releases

 .. XXX explain how to use it with dists not installed: Distribution can only be
    instantiated with a path, but this module is useful for remote dist too

 .. XXX functions should accept and return iterators, not lists


 The :class:`DependencyGraph` class
 ----------------------------------

 .. class:: DependencyGraph

    Represent a dependency graph between releases.  The nodes are distribution
    instances; the edge model dependencies.  An edge from ``a`` to ``b`` means
    that ``a`` depends on ``b``.

    .. method:: add_distribution(distribution)

       Add *distribution* to the graph.

    .. method:: add_edge(x, y, label=None)

       Add an edge from distribution *x* to distribution *y* with the given
       *label* (string).

    .. method:: add_missing(distribution, requirement)

       Add a missing *requirement* (string) for the given *distribution*.

    .. method:: repr_node(dist, level=1)

       Print a subgraph starting from *dist*.  *level* gives the depth of the
       subgraph.

    Direct access to the graph nodes and edges is provided through these
    attributes:

    .. attribute:: adjacency_list

       Dictionary mapping distributions to a list of ``(other, label)`` tuples
       where  ``other`` is a distribution and the edge is labeled with ``label``
       (i.e. the version specifier, if such was provided).

    .. attribute:: reverse_list

       Dictionary mapping distributions to a list of predecessors.  This allows
       efficient traversal.

    .. attribute:: missing

       Dictionary mapping distributions to a list of requirements that were not
       provided by any distribution.


 Auxiliary functions
 -------------------

 .. function:: dependent_dists(dists, dist)

    Recursively generate a list of distributions from *dists* that are dependent
    on *dist*.

    .. XXX what does member mean here: "dist is a member of *dists* for which we
       are interested"

 .. function:: generate_graph(dists)

    Generate a :class:`DependencyGraph` from the given list of distributions.

    .. XXX make this alternate constructor a DepGraph classmethod or rename;
       'generate' can suggest it creates a file or an image, use 'make'

 .. function:: graph_to_dot(graph, f, skip_disconnected=True)

    Write a DOT output for the graph to the file-like object *f*.

    If *skip_disconnected* is true, all distributions that are not dependent on
    any other distribution are skipped.

    .. XXX why is this not a DepGraph method?


 Example Usage
 -------------

 Depict all dependenciess in the system
 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^

 First, we shall generate a graph of all the distributions on the system
 and then create an image out of it using the tools provided by
 `Graphviz <http://www.graphviz.org/>`_::

    from packaging.database import get_distributions
    from packaging.depgraph import generate_graph

    dists = list(get_distributions())
    graph = generate_graph(dists)

 It would be interesting to print out the missing requirements.  This can be done
 as follows::

    for dist, reqs in graph.missing.items():
        if reqs:
            reqs = ' ,'.join(repr(req) for req in reqs)
            print('Missing dependencies for %r: %s' % (dist.name, reqs))

 Example output is:

 .. code-block:: none

    Missing dependencies for 'TurboCheetah': 'Cheetah'
    Missing dependencies for 'TurboGears': 'ConfigObj', 'DecoratorTools', 'RuleDispatch'
    Missing dependencies for 'jockey': 'PyKDE4.kdecore', 'PyKDE4.kdeui', 'PyQt4.QtCore', 'PyQt4.QtGui'
    Missing dependencies for 'TurboKid': 'kid'
    Missing dependencies for 'TurboJson: 'DecoratorTools', 'RuleDispatch'

 Now, we proceed with generating a graphical representation of the graph. First
 we write it to a file, and then we generate a PNG image using the
 :program:`dot` command-line tool::

    from packaging.depgraph import graph_to_dot
    with open('output.dot', 'w') as f:
       # only show the interesting distributions, skipping the disconnected ones
       graph_to_dot(graph, f, skip_disconnected=True)

 We can create the final picture using:

 .. code-block:: sh

    $ dot -Tpng output.dot > output.png

 An example result is:

 .. figure:: depgraph-output.png
    :alt: Example PNG output from packaging.depgraph and dot

 If you want to include egg distributions as well, then the code requires only
 one change, namely the line::

    dists = list(packaging.database.get_distributions())

 has to be replaced with::

    dists = list(packaging.database.get_distributions(use_egg_info=True))

 On many platforms, a richer graph is obtained because at the moment most
 distributions are provided in the egg rather than the new standard
 ``.dist-info`` format.

 .. XXX missing image

    An example of a more involved graph for illustrative reasons can be seen
    here:

    .. image:: depgraph_big.png


 List all dependent distributions
 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^

 We will list all distributions that are dependent on some given distibution.
 This time, egg distributions will be considered as well::

    import sys
    from packaging.database import get_distribution, get_distributions
    from packaging.depgraph import dependent_dists

    dists = list(get_distributions(use_egg_info=True))
    dist = get_distribution('bacon', use_egg_info=True)
    if dist is None:
        sys.exit('No such distribution in the system')

    deps = dependent_dists(dists, dist)
    deps = ', '.join(repr(x.name) for x in deps)
    print('Distributions depending on %r: %s' % (dist.name, deps))

 And this is example output:

 .. with the dependency relationships as in the previous section
    (depgraph_big)

 .. code-block:: none

    Distributions depending on 'bacon': 'towel-stuff', 'choxie', 'grammar'
	:mod:`packaging.depgraph` --- Dependency graph builder
	======================================================

	.. module:: packaging.depgraph
	:synopsis: Graph builder for dependencies between releases.


	This module provides the means to analyse the dependencies between various
	distributions and to create a graph representing these dependency relationships.
	In this document, "distribution" refers to an instance of
	:class:`packaging.database.Distribution` or
	:class:`packaging.database.EggInfoDistribution`.

	.. XXX terminology problem with dist vs. release: dists are installed, but deps
	use releases

	.. XXX explain how to use it with dists not installed: Distribution can only be
	instantiated with a path, but this module is useful for remote dist too

	.. XXX functions should accept and return iterators, not lists


	The :class:`DependencyGraph` class
	----------------------------------

	.. class:: DependencyGraph

	Represent a dependency graph between releases. The nodes are distribution
	instances; the edge model dependencies. An edge from ``a`` to ``b`` means
	that ``a`` depends on ``b``.

	.. method:: add_distribution(distribution)

	Add distribution to the graph.

	.. method:: add_edge(x, y, label=None)

	Add an edge from distribution x to distribution y with the given
	label (string).

	.. method:: add_missing(distribution, requirement)

	Add a missing requirement (string) for the given distribution.

	.. method:: repr_node(dist, level=1)

	Print a subgraph starting from dist. level gives the depth of the
	subgraph.

	Direct access to the graph nodes and edges is provided through these
	attributes:

	.. attribute:: adjacency_list

	Dictionary mapping distributions to a list of ``(other, label)`` tuples
	where ``other`` is a distribution and the edge is labeled with ``label``
	(i.e. the version specifier, if such was provided).

	.. attribute:: reverse_list

	Dictionary mapping distributions to a list of predecessors. This allows
	efficient traversal.

	.. attribute:: missing

	Dictionary mapping distributions to a list of requirements that were not
	provided by any distribution.


	Auxiliary functions
	-------------------

	.. function:: dependent_dists(dists, dist)

	Recursively generate a list of distributions from dists that are dependent
	on dist.

	.. XXX what does member mean here: "dist is a member of dists for which we
	are interested"

	.. function:: generate_graph(dists)

	Generate a :class:`DependencyGraph` from the given list of distributions.

	.. XXX make this alternate constructor a DepGraph classmethod or rename;
	'generate' can suggest it creates a file or an image, use 'make'

	.. function:: graph_to_dot(graph, f, skip_disconnected=True)

	Write a DOT output for the graph to the file-like object f.

	If skip_disconnected is true, all distributions that are not dependent on
	any other distribution are skipped.

	.. XXX why is this not a DepGraph method?


	Example Usage
	-------------

	Depict all dependenciess in the system
	^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^

	First, we shall generate a graph of all the distributions on the system
	and then create an image out of it using the tools provided by
	`Graphviz <http://www.graphviz.org/>`_::

	from packaging.database import get_distributions
	from packaging.depgraph import generate_graph

	dists = list(get_distributions())
	graph = generate_graph(dists)

	It would be interesting to print out the missing requirements. This can be done
	as follows::

	for dist, reqs in graph.missing.items():
	if reqs:
	reqs = ' ,'.join(repr(req) for req in reqs)
	print('Missing dependencies for %r: %s' % (dist.name, reqs))

	Example output is:

	.. code-block:: none

	Missing dependencies for 'TurboCheetah': 'Cheetah'
	Missing dependencies for 'TurboGears': 'ConfigObj', 'DecoratorTools', 'RuleDispatch'
	Missing dependencies for 'jockey': 'PyKDE4.kdecore', 'PyKDE4.kdeui', 'PyQt4.QtCore', 'PyQt4.QtGui'
	Missing dependencies for 'TurboKid': 'kid'
	Missing dependencies for 'TurboJson: 'DecoratorTools', 'RuleDispatch'

	Now, we proceed with generating a graphical representation of the graph. First
	we write it to a file, and then we generate a PNG image using the
	:program:`dot` command-line tool::

	from packaging.depgraph import graph_to_dot
	with open('output.dot', 'w') as f:
	# only show the interesting distributions, skipping the disconnected ones
	graph_to_dot(graph, f, skip_disconnected=True)

	We can create the final picture using:

	.. code-block:: sh

	$ dot -Tpng output.dot > output.png

	An example result is:

	.. figure:: depgraph-output.png
	:alt: Example PNG output from packaging.depgraph and dot

	If you want to include egg distributions as well, then the code requires only
	one change, namely the line::

	dists = list(packaging.database.get_distributions())

	has to be replaced with::

	dists = list(packaging.database.get_distributions(use_egg_info=True))

	On many platforms, a richer graph is obtained because at the moment most
	distributions are provided in the egg rather than the new standard
	``.dist-info`` format.

	.. XXX missing image

	An example of a more involved graph for illustrative reasons can be seen
	here:

	.. image:: depgraph_big.png


	List all dependent distributions
	^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^

	We will list all distributions that are dependent on some given distibution.
	This time, egg distributions will be considered as well::

	import sys
	from packaging.database import get_distribution, get_distributions
	from packaging.depgraph import dependent_dists

	dists = list(get_distributions(use_egg_info=True))
	dist = get_distribution('bacon', use_egg_info=True)
	if dist is None:
	sys.exit('No such distribution in the system')

	deps = dependent_dists(dists, dist)
	deps = ', '.join(repr(x.name) for x in deps)
	print('Distributions depending on %r: %s' % (dist.name, deps))

	And this is example output:

	.. with the dependency relationships as in the previous section
	(depgraph_big)

	.. code-block:: none

	Distributions depending on 'bacon': 'towel-stuff', 'choxie', 'grammar'