import re import os import subprocess import traceback import shutil from collections import defaultdict import yaml from sphinx.util.osutil import ensuredir from sphinx.util.console import darkgreen, bold from sphinx.errors import ExtensionError from .base import PythonMapperBase, SphinxMapperBase class DotNetSphinxMapper(SphinxMapperBase): '''Auto API domain handler for .NET Searches for YAML files, and soon to be JSON files as well, for auto API sources :param app: Sphinx application passed in as part of the extension ''' top_namespaces = {} def load(self, patterns, dir, ignore=None, **kwargs): ''' Load objects from the filesystem into the ``paths`` dictionary. ''' raise_error = kwargs.get('raise_error', True) all_files = set() for _file in self.find_files(patterns=patterns, dir=dir, ignore=ignore): # Iterating for Sphinx output clarify all_files.add(_file) if all_files: try: command = ['docfx', 'metadata', '--raw', '--force'] command.extend(all_files) proc = subprocess.Popen( ' '.join(command), stdout=subprocess.PIPE, stderr=subprocess.PIPE, shell=True, env=dict((key, os.environ[key]) for key in ['PATH', 'HOME'] if key in os.environ), ) _, error_output = proc.communicate() if error_output: self.app.warn(error_output) except (OSError, subprocess.CalledProcessError) as e: self.app.warn('Error generating metadata: {0}'.format(e)) if raise_error: raise ExtensionError('Failure in docfx while generating AutoAPI output.') # We now have yaml files for xdoc_path in self.find_files(patterns=['*.yml'], dir='_api_', ignore=ignore): data = self.read_file(path=xdoc_path) if data: self.paths[xdoc_path] = data def read_file(self, path, **kwargs): '''Read file input into memory, returning deserialized objects :param path: Path of file to read ''' try: with open(path, 'r') as handle: parsed_data = yaml.safe_load(handle) return parsed_data except IOError: self.app.warn('Error reading file: {0}'.format(path)) except TypeError: self.app.warn('Error reading file: {0}'.format(path)) return None # Subclassed to iterate over items def map(self, options=None, **kwargs): '''Trigger find of serialized sources and build objects''' for path, data in self.paths.items(): for item in data['items']: for obj in self.create_class(item, options): self.add_object(obj) self.organize_objects() def create_class(self, data, options=None, **kwargs): ''' Return instance of class based on Roslyn type property Data keys handled here: type Set the object class items Recurse into :py:meth:`create_class` to create child object instances :param data: dictionary data from Roslyn output artifact ''' obj_map = dict( (cls.type, cls) for cls in ALL_CLASSES ) try: cls = obj_map[data['type'].lower()] except KeyError: self.app.warn('Unknown type: %s' % data) else: obj = cls(data, jinja_env=self.jinja_env, options=options) # Append child objects # TODO this should recurse in the case we're getting back more # complex argument listings yield obj def add_object(self, obj): '''Add object to local and app environment storage :param obj: Instance of a .NET object ''' if obj.top_level_object: if isinstance(obj, DotNetNamespace): self.namespaces[obj.name] = obj self.objects[obj.id] = obj def organize_objects(self): '''Organize objects and namespaces''' def _render_children(obj): for child in obj.children_strings: child_object = self.objects.get(child) if child_object: obj.item_map[child_object.plural].append(child_object) obj.children.append(child_object) for key in obj.item_map: obj.item_map[key].sort() def _recurse_ns(obj): if not obj: return namespace = obj.top_namespace if namespace is not None: ns_obj = self.top_namespaces.get(namespace) if ns_obj is None or not isinstance(ns_obj, DotNetNamespace): for ns_obj in self.create_class({'uid': namespace, 'type': 'namespace'}): self.top_namespaces[ns_obj.id] = ns_obj if obj not in ns_obj.children and namespace != obj.id: ns_obj.children.append(obj) for obj in self.objects.values(): _render_children(obj) _recurse_ns(obj) # Clean out dead namespaces for key, ns in self.top_namespaces.copy().items(): if len(ns.children) == 0: del self.top_namespaces[key] for key, ns in self.namespaces.items(): if len(ns.children) == 0: del self.namespaces[key] def output_rst(self, root, source_suffix): if not len(self.objects): raise ExtensionError("No API objects exist. Can't continue") for id, obj in self.objects.items(): if not obj or not obj.top_level_object: continue rst = obj.render() if not rst: continue try: filename = obj.name.split('(')[0] except IndexError: filename = id filename = filename.replace('#', '-') detail_dir = os.path.join(root, *filename.split('.')) ensuredir(detail_dir) path = os.path.join(detail_dir, '%s%s' % ('index', source_suffix)) with open(path, 'wb') as detail_file: detail_file.write(rst.encode('utf-8')) # Render Top Index top_level_index = os.path.join(root, 'index.rst') with open(top_level_index, 'wb') as top_level_file: content = self.jinja_env.get_template('index.rst') top_level_file.write(content.render(pages=self.namespaces.values()).encode('utf-8')) @staticmethod def build_finished(app, exception): if app.verbosity > 1: app.info(bold('[AutoAPI] ') + darkgreen('Cleaning generated .yml files')) if os.path.exists('_api_'): shutil.rmtree('_api_') class DotNetPythonMapper(PythonMapperBase): '''Base .NET object representation''' language = 'dotnet' # Doc comment patterns doc_comment_pattern = r''' \<%(tag)s \s+%(attr)s="(?P[^"]*?)" \s*? (?: \/\>| \>(?P[^\<]*?)\<\/%(tag)s\> ) ''' doc_comment_see_pattern = re.compile( doc_comment_pattern % {'tag': '(?:see|seealso)', 'attr': 'cref'}, re.X) doc_comment_param_pattern = re.compile( doc_comment_pattern % {'tag': '(?:paramref|typeparamref)', 'attr': 'name'}, re.X) def __init__(self, obj, **kwargs): super(DotNetPythonMapper, self).__init__(obj, **kwargs) # Always exist self.id = obj.get('uid', obj.get('id')) self.name = obj.get('fullName', self.id) # Optional self.fullname = obj.get('fullName') self.summary = self.transform_doc_comments(obj.get('summary', '')) self.parameters = [] self.items = obj.get('items', []) self.children_strings = obj.get('children', []) self.children = [] self.item_map = defaultdict(list) self.inheritance = [] # Syntax example and parameter list syntax = obj.get('syntax', None) self.example = '' if syntax is not None: # Code example try: self.example = syntax['content'] except (KeyError, TypeError): traceback.print_exc() self.parameters = [] for param in syntax.get('parameters', []): if 'id' in param: self.parameters.append({ 'name': param.get('id'), 'type': param.get('type'), 'desc': self.transform_doc_comments( param.get('description', '')) }) self.returns = self.transform_doc_comments( syntax.get('return', None)) # Inheritance # TODO Support more than just a class type here, should support enum/etc self.inheritance = [DotNetClass({'uid': name, 'name': name}) for name in obj.get('inheritance', [])] def __str__(self): return '<{cls} {id}>'.format(cls=self.__class__.__name__, id=self.id) @property def short_name(self): '''Shorten name property''' return self.name.split('.')[-1] @property def edit_link(self): try: repo = self.source['remote']['repo'].replace('.git', '') path = self.path return '{repo}/blob/master/{path}'.format( repo=repo, path=path, ) except: return '' @property def source(self): return self.obj.get('source') @property def path(self): return self.source['path'] @property def namespace(self): pieces = self.id.split('.')[:-1] if pieces: return '.'.join(pieces) @property def top_namespace(self): pieces = self.id.split('.')[:2] if pieces: return '.'.join(pieces) @property def ref_type(self): return self.type @property def ref_directive(self): return self.type @property def ref_name(self): '''Return object name suitable for use in references Escapes several known strings that cause problems, including the following reference syntax:: :dotnet:cls:`Foo.Bar` As the `` notation is also special syntax in references, indicating the reference to Foo.Bar should be named T. See: http://sphinx-doc.org/domains.html#role-cpp:any ''' return (self.name .replace('<', '\<') .replace('`', '\`')) @property def ref_short_name(self): '''Same as above, return the truncated name instead''' return self.ref_name.split('.')[-1] @staticmethod def transform_doc_comments(text): """ Parse XML content for references and other syntax. This avoids an LXML dependency, we only need to parse out a small subset of elements here. Iterate over string to reduce regex pattern complexity and make substitutions easier .. seealso:: `Doc comment reference ` Reference on XML documentation comment syntax """ try: text = DotNetPythonMapper.doc_comment_see_pattern.sub( ':dn:ref:`\g`', text) text = DotNetPythonMapper.doc_comment_param_pattern.sub( '``\g``', text) except TypeError: pass return text class DotNetNamespace(DotNetPythonMapper): type = 'namespace' ref_directive = 'ns' plural = 'namespaces' top_level_object = True class DotNetMethod(DotNetPythonMapper): type = 'method' ref_directive = 'meth' plural = 'methods' class DotNetProperty(DotNetPythonMapper): type = 'property' ref_directive = 'prop' plural = 'properties' class DotNetEnum(DotNetPythonMapper): type = 'enum' ref_type = 'enumeration' ref_directive = 'enum' plural = 'enumerations' top_level_object = True class DotNetStruct(DotNetPythonMapper): type = 'struct' ref_type = 'structure' ref_directive = 'struct' plural = 'structures' top_level_object = True class DotNetConstructor(DotNetPythonMapper): type = 'constructor' ref_directive = 'ctor' plural = 'constructors' class DotNetInterface(DotNetPythonMapper): type = 'interface' ref_directive = 'iface' plural = 'interfaces' top_level_object = True class DotNetDelegate(DotNetPythonMapper): type = 'delegate' ref_directive = 'del' plural = 'delegates' top_level_object = True class DotNetClass(DotNetPythonMapper): type = 'class' ref_directive = 'cls' plural = 'classes' top_level_object = True class DotNetField(DotNetPythonMapper): type = 'field' plural = 'fields' class DotNetEvent(DotNetPythonMapper): type = 'event' plural = 'events' ALL_CLASSES = [ DotNetNamespace, DotNetClass, DotNetEnum, DotNetStruct, DotNetInterface, DotNetDelegate, DotNetProperty, DotNetMethod, DotNetConstructor, DotNetField, DotNetEvent ]