upstream/ipython Files · docs/sphinxext/inheritance_diagram.py

Add file for automatic API doc generation....

Add file for automatic API doc generation. This is taken from nipy, where we modified pymvpa code. Eventually this code will work its way back up to sphinx proper, we hope.

Fernando Perez - - Load All Authors

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      """

      Defines a docutils directive for inserting inheritance diagrams.

      Provide the directive with one or more classes or modules (separated

      by whitespace).  For modules, all of the classes in that module will

      be used.

      Example::

         Given the following classes:

         class A: pass

         class B(A): pass

         class C(A): pass

         class D(B, C): pass

         class E(B): pass

         .. inheritance-diagram: D E

         Produces a graph like the following:

                     A

                    / \

                   B   C

                  / \ /

                 E   D

      The graph is inserted as a PNG+image map into HTML and a PDF in

      LaTeX.

      """

      import inspect

      import os

      import re

      import subprocess

      try:

          from hashlib import md5

      except ImportError:

          from md5 import md5

      from docutils.nodes import Body, Element

      from docutils.writers.html4css1 import HTMLTranslator

      from sphinx.latexwriter import LaTeXTranslator

      from docutils.parsers.rst import directives

      from sphinx.roles import xfileref_role

      class DotException(Exception):

          pass

      class InheritanceGraph(object):

          """

          Given a list of classes, determines the set of classes that

          they inherit from all the way to the root "object", and then

          is able to generate a graphviz dot graph from them.

          """

          def __init__(self, class_names, show_builtins=False):

              """

              *class_names* is a list of child classes to show bases from.

              If *show_builtins* is True, then Python builtins will be shown

              in the graph.

              """

              self.class_names = class_names

              self.classes = self._import_classes(class_names)

              self.all_classes = self._all_classes(self.classes)

              if len(self.all_classes) == 0:

                  raise ValueError("No classes found for inheritance diagram")

              self.show_builtins = show_builtins

          py_sig_re = re.compile(r'''^([\w.]*\.)?    # class names

                                 (\w+)  \s* $        # optionally arguments

                                 ''', re.VERBOSE)

          def _import_class_or_module(self, name):

              """

              Import a class using its fully-qualified *name*.

              """

              try:

                  path, base = self.py_sig_re.match(name).groups()

              except:

                  raise ValueError(

                      "Invalid class or module '%s' specified for inheritance diagram" % name)

              fullname = (path or '') + base

              path = (path and path.rstrip('.'))

              if not path:

                  path = base

              if not path:

                  raise ValueError(

                      "Invalid class or module '%s' specified for inheritance diagram" % name)

              try:

                  module = __import__(path, None, None, [])

              except ImportError:

                  raise ValueError(

                      "Could not import class or module '%s' specified for inheritance diagram" % name)

              try:

                  todoc = module

                  for comp in fullname.split('.')[1:]:

                      todoc = getattr(todoc, comp)

              except AttributeError:

                  raise ValueError(

                      "Could not find class or module '%s' specified for inheritance diagram" % name)

              # If a class, just return it

              if inspect.isclass(todoc):

                  return [todoc]

              elif inspect.ismodule(todoc):

                  classes = []

                  for cls in todoc.__dict__.values():

                      if inspect.isclass(cls) and cls.__module__ == todoc.__name__:

                          classes.append(cls)

                  return classes

              raise ValueError(

                  "'%s' does not resolve to a class or module" % name)

          def _import_classes(self, class_names):

              """

              Import a list of classes.

              """

              classes = []

              for name in class_names:

                  classes.extend(self._import_class_or_module(name))

              return classes

          def _all_classes(self, classes):

              """

              Return a list of all classes that are ancestors of *classes*.

              """

              all_classes = {}

              def recurse(cls):

                  all_classes[cls] = None

                  for c in cls.__bases__:

                      if c not in all_classes:

                          recurse(c)

              for cls in classes:

                  recurse(cls)

              return all_classes.keys()

          def class_name(self, cls, parts=0):

              """

              Given a class object, return a fully-qualified name.  This

              works for things I've tested in matplotlib so far, but may not

              be completely general.

              """

              module = cls.__module__

              if module == '__builtin__':

                  fullname = cls.__name__

              else:

                  fullname = "%s.%s" % (module, cls.__name__)

              if parts == 0:

                  return fullname

              name_parts = fullname.split('.')

              return '.'.join(name_parts[-parts:])

          def get_all_class_names(self):

              """

              Get all of the class names involved in the graph.

              """

              return [self.class_name(x) for x in self.all_classes]

          # These are the default options for graphviz

          default_graph_options = {

              "rankdir": "LR",

              "size": '"8.0, 12.0"'

              }

          default_node_options = {

              "shape": "box",

              "fontsize": 10,

              "height": 0.25,

              "fontname": "Vera Sans, DejaVu Sans, Liberation Sans, Arial, Helvetica, sans",

              "style": '"setlinewidth(0.5)"'

              }

          default_edge_options = {

              "arrowsize": 0.5,

              "style": '"setlinewidth(0.5)"'

              }

          def _format_node_options(self, options):

              return ','.join(["%s=%s" % x for x in options.items()])

          def _format_graph_options(self, options):

              return ''.join(["%s=%s;\n" % x for x in options.items()])

          def generate_dot(self, fd, name, parts=0, urls={},

                           graph_options={}, node_options={},

                           edge_options={}):

              """

              Generate a graphviz dot graph from the classes that

              were passed in to __init__.

              *fd* is a Python file-like object to write to.

              *name* is the name of the graph

              *urls* is a dictionary mapping class names to http urls

              *graph_options*, *node_options*, *edge_options* are

              dictionaries containing key/value pairs to pass on as graphviz

              properties.

              """

              g_options = self.default_graph_options.copy()

              g_options.update(graph_options)

              n_options = self.default_node_options.copy()

              n_options.update(node_options)

              e_options = self.default_edge_options.copy()

              e_options.update(edge_options)

              fd.write('digraph %s {\n' % name)

              fd.write(self._format_graph_options(g_options))

              for cls in self.all_classes:

                  if not self.show_builtins and cls in __builtins__.values():

                      continue

                  name = self.class_name(cls, parts)

                  # Write the node

                  this_node_options = n_options.copy()

                  url = urls.get(self.class_name(cls))

                  if url is not None:

                      this_node_options['URL'] = '"%s"' % url

                  fd.write('  "%s" [%s];\n' %

                           (name, self._format_node_options(this_node_options)))

                  # Write the edges

                  for base in cls.__bases__:

                      if not self.show_builtins and base in __builtins__.values():

                          continue

                      base_name = self.class_name(base, parts)

                      fd.write('  "%s" -> "%s" [%s];\n' %

                               (base_name, name,

                                self._format_node_options(e_options)))

              fd.write('}\n')

          def run_dot(self, args, name, parts=0, urls={},

                      graph_options={}, node_options={}, edge_options={}):

              """

              Run graphviz 'dot' over this graph, returning whatever 'dot'

              writes to stdout.

              *args* will be passed along as commandline arguments.

              *name* is the name of the graph

              *urls* is a dictionary mapping class names to http urls

              Raises DotException for any of the many os and

              installation-related errors that may occur.

              """

              try:

                  dot = subprocess.Popen(['dot'] + list(args),

                                         stdin=subprocess.PIPE, stdout=subprocess.PIPE,

                                         close_fds=True)

              except OSError:

                  raise DotException("Could not execute 'dot'.  Are you sure you have 'graphviz' installed?")

              except ValueError:

                  raise DotException("'dot' called with invalid arguments")

              except:

                  raise DotException("Unexpected error calling 'dot'")

              self.generate_dot(dot.stdin, name, parts, urls, graph_options,

                                node_options, edge_options)

              dot.stdin.close()

              result = dot.stdout.read()

              returncode = dot.wait()

              if returncode != 0:

                  raise DotException("'dot' returned the errorcode %d" % returncode)

              return result

      class inheritance_diagram(Body, Element):

          """

          A docutils node to use as a placeholder for the inheritance

          diagram.

          """

          pass

      def inheritance_diagram_directive_run(class_names, options, state):

          """

          Run when the inheritance_diagram directive is first encountered.

          """

          node = inheritance_diagram()

          # Create a graph starting with the list of classes

          graph = InheritanceGraph(class_names)

          # Create xref nodes for each target of the graph's image map and

          # add them to the doc tree so that Sphinx can resolve the

          # references to real URLs later.  These nodes will eventually be

          # removed from the doctree after we're done with them.

          for name in graph.get_all_class_names():

              refnodes, x = xfileref_role(

                  'class', ':class:`%s`' % name, name, 0, state)

              node.extend(refnodes)

          # Store the graph object so we can use it to generate the

          # dot file later

          node['graph'] = graph

          # Store the original content for use as a hash

          node['parts'] = options.get('parts', 0)

          node['content'] = " ".join(class_names)

          return [node]

      def get_graph_hash(node):

          return md5(node['content'] + str(node['parts'])).hexdigest()[-10:]

      def html_output_graph(self, node):

          """

          Output the graph for HTML.  This will insert a PNG with clickable

          image map.

          """

          graph = node['graph']

          parts = node['parts']

          graph_hash = get_graph_hash(node)

          name = "inheritance%s" % graph_hash

          png_path = os.path.join('_static', name + ".png")

          path = '_static'

          source = self.document.attributes['source']

          count = source.split('/doc/')[-1].count('/')

          for i in range(count):

              if os.path.exists(path): break

              path = '../'+path

          path = '../'+path #specifically added for matplotlib

          # Create a mapping from fully-qualified class names to URLs.

          urls = {}

          for child in node:

              if child.get('refuri') is not None:

                  urls[child['reftitle']] = child.get('refuri')

              elif child.get('refid') is not None:

                  urls[child['reftitle']] = '#' + child.get('refid')

          # These arguments to dot will save a PNG file to disk and write

          # an HTML image map to stdout.

          image_map = graph.run_dot(['-Tpng', '-o%s' % png_path, '-Tcmapx'],

                                    name, parts, urls)

          return ('<img src="%s/%s.png" usemap="#%s" class="inheritance"/>%s' %

                  (path, name, name, image_map))

      def latex_output_graph(self, node):

          """

          Output the graph for LaTeX.  This will insert a PDF.

          """

          graph = node['graph']

          parts = node['parts']

          graph_hash = get_graph_hash(node)

          name = "inheritance%s" % graph_hash

          pdf_path = os.path.join('_static', name + ".pdf")

          graph.run_dot(['-Tpdf', '-o%s' % pdf_path],

                        name, parts, graph_options={'size': '"6.0,6.0"'})

          return '\\includegraphics{../../%s}' % pdf_path

      def visit_inheritance_diagram(inner_func):

          """

          This is just a wrapper around html/latex_output_graph to make it

          easier to handle errors and insert warnings.

          """

          def visitor(self, node):

              try:

                  content = inner_func(self, node)

              except DotException, e:

                  # Insert the exception as a warning in the document

                  warning = self.document.reporter.warning(str(e), line=node.line)

                  warning.parent = node

                  node.children = [warning]

              else:

                  source = self.document.attributes['source']

                  self.body.append(content)

                  node.children = []

          return visitor

      def do_nothing(self, node):

          pass

      options_spec = {

          'parts': directives.nonnegative_int

          }

      # Deal with the old and new way of registering directives

      try:

          from docutils.parsers.rst import Directive

      except ImportError:

          from docutils.parsers.rst.directives import _directives

          def inheritance_diagram_directive(name, arguments, options, content, lineno,

                                            content_offset, block_text, state,

                                            state_machine):

              return inheritance_diagram_directive_run(arguments, options, state)

          inheritance_diagram_directive.__doc__ = __doc__

          inheritance_diagram_directive.arguments = (1, 100, 0)

          inheritance_diagram_directive.options = options_spec

          inheritance_diagram_directive.content = 0

          _directives['inheritance-diagram'] = inheritance_diagram_directive

      else:

          class inheritance_diagram_directive(Directive):

              has_content = False

              required_arguments = 1

              optional_arguments = 100

              final_argument_whitespace = False

              option_spec = options_spec

              def run(self):

                  return inheritance_diagram_directive_run(

                      self.arguments, self.options, self.state)

          inheritance_diagram_directive.__doc__ = __doc__

          directives.register_directive('inheritance-diagram',

                                        inheritance_diagram_directive)

      def setup(app):

          app.add_node(inheritance_diagram)

          HTMLTranslator.visit_inheritance_diagram = \

              visit_inheritance_diagram(html_output_graph)

          HTMLTranslator.depart_inheritance_diagram = do_nothing

          LaTeXTranslator.visit_inheritance_diagram = \

              visit_inheritance_diagram(latex_output_graph)

          LaTeXTranslator.depart_inheritance_diagram = do_nothing

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				"""
				Defines a docutils directive for inserting inheritance diagrams.

				Provide the directive with one or more classes or modules (separated
				by whitespace). For modules, all of the classes in that module will
				be used.

				Example::

				Given the following classes:

				class A: pass
				class B(A): pass
				class C(A): pass
				class D(B, C): pass
				class E(B): pass

				.. inheritance-diagram: D E

				Produces a graph like the following:

				A
				/ \
				B C
				/ \ /
				E D

				The graph is inserted as a PNG+image map into HTML and a PDF in
				LaTeX.
				"""

				import inspect
				import os
				import re
				import subprocess
				try:
				from hashlib import md5
				except ImportError:
				from md5 import md5

				from docutils.nodes import Body, Element
				from docutils.writers.html4css1 import HTMLTranslator
				from sphinx.latexwriter import LaTeXTranslator
				from docutils.parsers.rst import directives
				from sphinx.roles import xfileref_role

				class DotException(Exception):
				pass

				class InheritanceGraph(object):
				"""
				Given a list of classes, determines the set of classes that
				they inherit from all the way to the root "object", and then
				is able to generate a graphviz dot graph from them.
				"""
				def __init__(self, class_names, show_builtins=False):
				"""
				class_names is a list of child classes to show bases from.

				If show_builtins is True, then Python builtins will be shown
				in the graph.
				"""
				self.class_names = class_names
				self.classes = self._import_classes(class_names)
				self.all_classes = self._all_classes(self.classes)
				if len(self.all_classes) == 0:
				raise ValueError("No classes found for inheritance diagram")
				self.show_builtins = show_builtins

				py_sig_re = re.compile(r'''^([\w.]*\.)? # class names
				(\w+) \s* $ # optionally arguments
				''', re.VERBOSE)

				def _import_class_or_module(self, name):
				"""
				Import a class using its fully-qualified name.
				"""
				try:
				path, base = self.py_sig_re.match(name).groups()
				except:
				raise ValueError(
				"Invalid class or module '%s' specified for inheritance diagram" % name)
				fullname = (path or '') + base
				path = (path and path.rstrip('.'))
				if not path:
				path = base
				if not path:
				raise ValueError(
				"Invalid class or module '%s' specified for inheritance diagram" % name)
				try:
				module = __import__(path, None, None, [])
				except ImportError:
				raise ValueError(
				"Could not import class or module '%s' specified for inheritance diagram" % name)

				try:
				todoc = module
				for comp in fullname.split('.')[1:]:
				todoc = getattr(todoc, comp)
				except AttributeError:
				raise ValueError(
				"Could not find class or module '%s' specified for inheritance diagram" % name)

				# If a class, just return it
				if inspect.isclass(todoc):
				return [todoc]
				elif inspect.ismodule(todoc):
				classes = []
				for cls in todoc.__dict__.values():
				if inspect.isclass(cls) and cls.__module__ == todoc.__name__:
				classes.append(cls)
				return classes
				raise ValueError(
				"'%s' does not resolve to a class or module" % name)

				def _import_classes(self, class_names):
				"""
				Import a list of classes.
				"""
				classes = []
				for name in class_names:
				classes.extend(self._import_class_or_module(name))
				return classes

				def _all_classes(self, classes):
				"""
				Return a list of all classes that are ancestors of classes.
				"""
				all_classes = {}

				def recurse(cls):
				all_classes[cls] = None
				for c in cls.__bases__:
				if c not in all_classes:
				recurse(c)

				for cls in classes:
				recurse(cls)

				return all_classes.keys()

				def class_name(self, cls, parts=0):
				"""
				Given a class object, return a fully-qualified name. This
				works for things I've tested in matplotlib so far, but may not
				be completely general.
				"""
				module = cls.__module__
				if module == '__builtin__':
				fullname = cls.__name__
				else:
				fullname = "%s.%s" % (module, cls.__name__)
				if parts == 0:
				return fullname
				name_parts = fullname.split('.')
				return '.'.join(name_parts[-parts:])

				def get_all_class_names(self):
				"""
				Get all of the class names involved in the graph.
				"""
				return [self.class_name(x) for x in self.all_classes]

				# These are the default options for graphviz
				default_graph_options = {
				"rankdir": "LR",
				"size": '"8.0, 12.0"'
				}
				default_node_options = {
				"shape": "box",
				"fontsize": 10,
				"height": 0.25,
				"fontname": "Vera Sans, DejaVu Sans, Liberation Sans, Arial, Helvetica, sans",
				"style": '"setlinewidth(0.5)"'
				}
				default_edge_options = {
				"arrowsize": 0.5,
				"style": '"setlinewidth(0.5)"'
				}

				def _format_node_options(self, options):
				return ','.join(["%s=%s" % x for x in options.items()])
				def _format_graph_options(self, options):
				return ''.join(["%s=%s;\n" % x for x in options.items()])

				def generate_dot(self, fd, name, parts=0, urls={},
				graph_options={}, node_options={},
				edge_options={}):
				"""
				Generate a graphviz dot graph from the classes that
				were passed in to __init__.

				fd is a Python file-like object to write to.

				name is the name of the graph

				urls is a dictionary mapping class names to http urls

				graph_options, node_options, edge_options are
				dictionaries containing key/value pairs to pass on as graphviz
				properties.
				"""
				g_options = self.default_graph_options.copy()
				g_options.update(graph_options)
				n_options = self.default_node_options.copy()
				n_options.update(node_options)
				e_options = self.default_edge_options.copy()
				e_options.update(edge_options)

				fd.write('digraph %s {\n' % name)
				fd.write(self._format_graph_options(g_options))

				for cls in self.all_classes:
				if not self.show_builtins and cls in __builtins__.values():
				continue

				name = self.class_name(cls, parts)

				# Write the node
				this_node_options = n_options.copy()
				url = urls.get(self.class_name(cls))
				if url is not None:
				this_node_options['URL'] = '"%s"' % url
				fd.write(' "%s" [%s];\n' %
				(name, self._format_node_options(this_node_options)))

				# Write the edges
				for base in cls.__bases__:
				if not self.show_builtins and base in __builtins__.values():
				continue

				base_name = self.class_name(base, parts)
				fd.write(' "%s" -> "%s" [%s];\n' %
				(base_name, name,
				self._format_node_options(e_options)))
				fd.write('}\n')

				def run_dot(self, args, name, parts=0, urls={},
				graph_options={}, node_options={}, edge_options={}):
				"""
				Run graphviz 'dot' over this graph, returning whatever 'dot'
				writes to stdout.

				args will be passed along as commandline arguments.

				name is the name of the graph

				urls is a dictionary mapping class names to http urls

				Raises DotException for any of the many os and
				installation-related errors that may occur.
				"""
				try:
				dot = subprocess.Popen(['dot'] + list(args),
				stdin=subprocess.PIPE, stdout=subprocess.PIPE,
				close_fds=True)
				except OSError:
				raise DotException("Could not execute 'dot'. Are you sure you have 'graphviz' installed?")
				except ValueError:
				raise DotException("'dot' called with invalid arguments")
				except:
				raise DotException("Unexpected error calling 'dot'")

				self.generate_dot(dot.stdin, name, parts, urls, graph_options,
				node_options, edge_options)
				dot.stdin.close()
				result = dot.stdout.read()
				returncode = dot.wait()
				if returncode != 0:
				raise DotException("'dot' returned the errorcode %d" % returncode)
				return result

				class inheritance_diagram(Body, Element):
				"""
				A docutils node to use as a placeholder for the inheritance
				diagram.
				"""
				pass

				def inheritance_diagram_directive_run(class_names, options, state):
				"""
				Run when the inheritance_diagram directive is first encountered.
				"""
				node = inheritance_diagram()

				# Create a graph starting with the list of classes
				graph = InheritanceGraph(class_names)

				# Create xref nodes for each target of the graph's image map and
				# add them to the doc tree so that Sphinx can resolve the
				# references to real URLs later. These nodes will eventually be
				# removed from the doctree after we're done with them.
				for name in graph.get_all_class_names():
				refnodes, x = xfileref_role(
				'class', ':class:`%s`' % name, name, 0, state)
				node.extend(refnodes)
				# Store the graph object so we can use it to generate the
				# dot file later
				node['graph'] = graph
				# Store the original content for use as a hash
				node['parts'] = options.get('parts', 0)
				node['content'] = " ".join(class_names)
				return [node]

				def get_graph_hash(node):
				return md5(node['content'] + str(node['parts'])).hexdigest()[-10:]

				def html_output_graph(self, node):
				"""
				Output the graph for HTML. This will insert a PNG with clickable
				image map.
				"""
				graph = node['graph']
				parts = node['parts']

				graph_hash = get_graph_hash(node)
				name = "inheritance%s" % graph_hash
				png_path = os.path.join('_static', name + ".png")

				path = '_static'
				source = self.document.attributes['source']
				count = source.split('/doc/')[-1].count('/')
				for i in range(count):
				if os.path.exists(path): break
				path = '../'+path
				path = '../'+path #specifically added for matplotlib

				# Create a mapping from fully-qualified class names to URLs.
				urls = {}
				for child in node:
				if child.get('refuri') is not None:
				urls[child['reftitle']] = child.get('refuri')
				elif child.get('refid') is not None:
				urls[child['reftitle']] = '#' + child.get('refid')

				# These arguments to dot will save a PNG file to disk and write
				# an HTML image map to stdout.
				image_map = graph.run_dot(['-Tpng', '-o%s' % png_path, '-Tcmapx'],
				name, parts, urls)
				return ('<img src="%s/%s.png" usemap="#%s" class="inheritance"/>%s' %
				(path, name, name, image_map))

				def latex_output_graph(self, node):
				"""
				Output the graph for LaTeX. This will insert a PDF.
				"""
				graph = node['graph']
				parts = node['parts']

				graph_hash = get_graph_hash(node)
				name = "inheritance%s" % graph_hash
				pdf_path = os.path.join('_static', name + ".pdf")

				graph.run_dot(['-Tpdf', '-o%s' % pdf_path],
				name, parts, graph_options={'size': '"6.0,6.0"'})
				return '\\includegraphics{../../%s}' % pdf_path

				def visit_inheritance_diagram(inner_func):
				"""
				This is just a wrapper around html/latex_output_graph to make it
				easier to handle errors and insert warnings.
				"""
				def visitor(self, node):
				try:
				content = inner_func(self, node)
				except DotException, e:
				# Insert the exception as a warning in the document
				warning = self.document.reporter.warning(str(e), line=node.line)
				warning.parent = node
				node.children = [warning]
				else:
				source = self.document.attributes['source']
				self.body.append(content)
				node.children = []
				return visitor

				def do_nothing(self, node):
				pass

				options_spec = {
				'parts': directives.nonnegative_int
				}

				# Deal with the old and new way of registering directives
				try:
				from docutils.parsers.rst import Directive
				except ImportError:
				from docutils.parsers.rst.directives import _directives
				def inheritance_diagram_directive(name, arguments, options, content, lineno,
				content_offset, block_text, state,
				state_machine):
				return inheritance_diagram_directive_run(arguments, options, state)
				inheritance_diagram_directive.__doc__ = __doc__
				inheritance_diagram_directive.arguments = (1, 100, 0)
				inheritance_diagram_directive.options = options_spec
				inheritance_diagram_directive.content = 0
				_directives['inheritance-diagram'] = inheritance_diagram_directive
				else:
				class inheritance_diagram_directive(Directive):
				has_content = False
				required_arguments = 1
				optional_arguments = 100
				final_argument_whitespace = False
				option_spec = options_spec

				def run(self):
				return inheritance_diagram_directive_run(
				self.arguments, self.options, self.state)
				inheritance_diagram_directive.__doc__ = __doc__

				directives.register_directive('inheritance-diagram',
				inheritance_diagram_directive)

				def setup(app):
				app.add_node(inheritance_diagram)

				HTMLTranslator.visit_inheritance_diagram = \
				visit_inheritance_diagram(html_output_graph)
				HTMLTranslator.depart_inheritance_diagram = do_nothing

				LaTeXTranslator.visit_inheritance_diagram = \
				visit_inheritance_diagram(latex_output_graph)
				LaTeXTranslator.depart_inheritance_diagram = do_nothing