import datetime import logging import os import re from collections import OrderedDict from html import escape from html.parser import HTMLParser from io import StringIO import docutils import docutils.core import docutils.io from docutils.parsers.rst.languages import get_language as get_docutils_lang from docutils.writers.html4css1 import HTMLTranslator, Writer from pelican import rstdirectives # NOQA from pelican.cache import FileStampDataCacher from pelican.contents import Author, Category, Page, Tag from pelican.plugins import signals from pelican.utils import get_date, pelican_open, posixize_path try: from markdown import Markdown except ImportError: Markdown = False # NOQA # Metadata processors have no way to discard an unwanted value, so we have # them return this value instead to signal that it should be discarded later. # This means that _filter_discardable_metadata() must be called on processed # metadata dicts before use, to remove the items with the special value. _DISCARD = object() DUPLICATES_DEFINITIONS_ALLOWED = { 'tags': False, 'date': False, 'modified': False, 'status': False, 'category': False, 'author': False, 'save_as': False, 'url': False, 'authors': False, 'slug': False } METADATA_PROCESSORS = { 'tags': lambda x, y: ([ Tag(tag, y) for tag in ensure_metadata_list(x) ] or _DISCARD), 'date': lambda x, y: get_date(x.replace('_', ' ')), 'modified': lambda x, y: get_date(x), 'status': lambda x, y: x.strip() or _DISCARD, 'category': lambda x, y: _process_if_nonempty(Category, x, y), 'author': lambda x, y: _process_if_nonempty(Author, x, y), 'authors': lambda x, y: ([ Author(author, y) for author in ensure_metadata_list(x) ] or _DISCARD), 'slug': lambda x, y: x.strip() or _DISCARD, } logger = logging.getLogger(__name__) def ensure_metadata_list(text): """Canonicalize the format of a list of authors or tags. This works the same way as Docutils' "authors" field: if it's already a list, those boundaries are preserved; otherwise, it must be a string; if the string contains semicolons, it is split on semicolons; otherwise, it is split on commas. This allows you to write author lists in either "Jane Doe, John Doe" or "Doe, Jane; Doe, John" format. Regardless, all list items undergo .strip() before returning, and empty items are discarded. """ if isinstance(text, str): if ';' in text: text = text.split(';') else: text = text.split(',') return list(OrderedDict.fromkeys( [v for v in (w.strip() for w in text) if v] )) def _process_if_nonempty(processor, name, settings): """Removes extra whitespace from name and applies a metadata processor. If name is empty or all whitespace, returns _DISCARD instead. """ name = name.strip() return processor(name, settings) if name else _DISCARD def _filter_discardable_metadata(metadata): """Return a copy of a dict, minus any items marked as discardable.""" return {name: val for name, val in metadata.items() if val is not _DISCARD} class BaseReader: """Base class to read files. This class is used to process static files, and it can be inherited for other types of file. A Reader class must have the following attributes: - enabled: (boolean) tell if the Reader class is enabled. It generally depends on the import of some dependency. - file_extensions: a list of file extensions that the Reader will process. - extensions: a list of extensions to use in the reader (typical use is Markdown). """ enabled = True file_extensions = ['static'] extensions = None def __init__(self, settings): self.settings = settings def process_metadata(self, name, value): if name in METADATA_PROCESSORS: return METADATA_PROCESSORS[name](value, self.settings) return value def read(self, source_path): "No-op parser" content = None metadata = {} return content, metadata class _FieldBodyTranslator(HTMLTranslator): def __init__(self, document): super().__init__(document) self.compact_p = None def astext(self): return ''.join(self.body) def visit_field_body(self, node): pass def depart_field_body(self, node): pass def render_node_to_html(document, node, field_body_translator_class): visitor = field_body_translator_class(document) node.walkabout(visitor) return visitor.astext() class PelicanHTMLWriter(Writer): def __init__(self): super().__init__() self.translator_class = PelicanHTMLTranslator class PelicanHTMLTranslator(HTMLTranslator): def visit_abbreviation(self, node): attrs = {} if node.hasattr('explanation'): attrs['title'] = node['explanation'] self.body.append(self.starttag(node, 'abbr', '', **attrs)) def depart_abbreviation(self, node): self.body.append('') def visit_image(self, node): # set an empty alt if alt is not specified # avoids that alt is taken from src node['alt'] = node.get('alt', '') return HTMLTranslator.visit_image(self, node) class RstReader(BaseReader): """Reader for reStructuredText files By default the output HTML is written using docutils.writers.html4css1.Writer and translated using a subclass of docutils.writers.html4css1.HTMLTranslator. If you want to override it with your own writer/translator (e.g. a HTML5-based one), pass your classes to these two attributes. Look in the source code for details. writer_class Used for writing contents field_body_translator_class Used for translating metadata such as article summary """ enabled = bool(docutils) file_extensions = ['rst'] writer_class = PelicanHTMLWriter field_body_translator_class = _FieldBodyTranslator def __init__(self, *args, **kwargs): super().__init__(*args, **kwargs) lang_code = self.settings.get('DEFAULT_LANG', 'en') if get_docutils_lang(lang_code): self._language_code = lang_code else: logger.warning("Docutils has no localization for '%s'." " Using 'en' instead.", lang_code) self._language_code = 'en' def _parse_metadata(self, document, source_path): """Return the dict containing document metadata""" formatted_fields = self.settings['FORMATTED_FIELDS'] output = {} if document.first_child_matching_class(docutils.nodes.title) is None: logger.warning( 'Document title missing in file %s: ' 'Ensure exactly one top level section', source_path) for docinfo in document.traverse(docutils.nodes.docinfo): for element in docinfo.children: if element.tagname == 'field': # custom fields (e.g. summary) name_elem, body_elem = element.children name = name_elem.astext() if name.lower() in formatted_fields: value = render_node_to_html( document, body_elem, self.field_body_translator_class) else: value = body_elem.astext() elif element.tagname == 'authors': # author list name = element.tagname value = [element.astext() for element in element.children] else: # standard fields (e.g. address) name = element.tagname value = element.astext() name = name.lower() output[name] = self.process_metadata(name, value) return output def _get_publisher(self, source_path): extra_params = {'initial_header_level': '2', 'syntax_highlight': 'short', 'input_encoding': 'utf-8', 'language_code': self._language_code, 'halt_level': 2, 'traceback': True, 'warning_stream': StringIO(), 'embed_stylesheet': False} user_params = self.settings.get('DOCUTILS_SETTINGS') if user_params: extra_params.update(user_params) pub = docutils.core.Publisher( writer=self.writer_class(), destination_class=docutils.io.StringOutput) pub.set_components('standalone', 'restructuredtext', 'html') pub.process_programmatic_settings(None, extra_params, None) pub.set_source(source_path=source_path) pub.publish() return pub def read(self, source_path): """Parses restructured text""" pub = self._get_publisher(source_path) parts = pub.writer.parts content = parts.get('body') metadata = self._parse_metadata(pub.document, source_path) metadata.setdefault('title', parts.get('title')) return content, metadata class MarkdownReader(BaseReader): """Reader for Markdown files""" enabled = bool(Markdown) file_extensions = ['md', 'markdown', 'mkd', 'mdown'] def __init__(self, *args, **kwargs): super().__init__(*args, **kwargs) settings = self.settings['MARKDOWN'] settings.setdefault('extension_configs', {}) settings.setdefault('extensions', []) for extension in settings['extension_configs'].keys(): if extension not in settings['extensions']: settings['extensions'].append(extension) if 'markdown.extensions.meta' not in settings['extensions']: settings['extensions'].append('markdown.extensions.meta') self._source_path = None def _parse_metadata(self, meta): """Return the dict containing document metadata""" formatted_fields = self.settings['FORMATTED_FIELDS'] # prevent metadata extraction in fields self._md.preprocessors.deregister('meta') output = {} for name, value in meta.items(): name = name.lower() if name in formatted_fields: # formatted metadata is special case and join all list values formatted_values = "\n".join(value) # reset the markdown instance to clear any state self._md.reset() formatted = self._md.convert(formatted_values) output[name] = self.process_metadata(name, formatted) elif not DUPLICATES_DEFINITIONS_ALLOWED.get(name, True): if len(value) > 1: logger.warning( 'Duplicate definition of `%s` ' 'for %s. Using first one.', name, self._source_path) output[name] = self.process_metadata(name, value[0]) elif len(value) > 1: # handle list metadata as list of string output[name] = self.process_metadata(name, value) else: # otherwise, handle metadata as single string output[name] = self.process_metadata(name, value[0]) return output def read(self, source_path): """Parse content and metadata of markdown files""" self._source_path = source_path self._md = Markdown(**self.settings['MARKDOWN']) with pelican_open(source_path) as text: content = self._md.convert(text) if hasattr(self._md, 'Meta'): metadata = self._parse_metadata(self._md.Meta) else: metadata = {} return content, metadata class HTMLReader(BaseReader): """Parses HTML files as input, looking for meta, title, and body tags""" file_extensions = ['htm', 'html'] enabled = True class _HTMLParser(HTMLParser): def __init__(self, settings, filename): super().__init__(convert_charrefs=False) self.body = '' self.metadata = {} self.settings = settings self._data_buffer = '' self._filename = filename self._in_top_level = True self._in_head = False self._in_title = False self._in_body = False self._in_tags = False def handle_starttag(self, tag, attrs): if tag == 'head' and self._in_top_level: self._in_top_level = False self._in_head = True elif tag == 'title' and self._in_head: self._in_title = True self._data_buffer = '' elif tag == 'body' and self._in_top_level: self._in_top_level = False self._in_body = True self._data_buffer = '' elif tag == 'meta' and self._in_head: self._handle_meta_tag(attrs) elif self._in_body: self._data_buffer += self.build_tag(tag, attrs, False) def handle_endtag(self, tag): if tag == 'head': if self._in_head: self._in_head = False self._in_top_level = True elif self._in_head and tag == 'title': self._in_title = False self.metadata['title'] = self._data_buffer elif tag == 'body': self.body = self._data_buffer self._in_body = False self._in_top_level = True elif self._in_body: self._data_buffer += ''.format(escape(tag)) def handle_startendtag(self, tag, attrs): if tag == 'meta' and self._in_head: self._handle_meta_tag(attrs) if self._in_body: self._data_buffer += self.build_tag(tag, attrs, True) def handle_comment(self, data): self._data_buffer += ''.format(data) def handle_data(self, data): self._data_buffer += data def handle_entityref(self, data): self._data_buffer += '&{};'.format(data) def handle_charref(self, data): self._data_buffer += '&#{};'.format(data) def build_tag(self, tag, attrs, close_tag): result = '<{}'.format(escape(tag)) for k, v in attrs: result += ' ' + escape(k) if v is not None: # If the attribute value contains a double quote, surround # with single quotes, otherwise use double quotes. if '"' in v: result += "='{}'".format(escape(v, quote=False)) else: result += '="{}"'.format(escape(v, quote=False)) if close_tag: return result + ' />' return result + '>' def _handle_meta_tag(self, attrs): name = self._attr_value(attrs, 'name') if name is None: attr_list = ['{}="{}"'.format(k, v) for k, v in attrs] attr_serialized = ', '.join(attr_list) logger.warning("Meta tag in file %s does not have a 'name' " "attribute, skipping. Attributes: %s", self._filename, attr_serialized) return name = name.lower() contents = self._attr_value(attrs, 'content', '') if not contents: contents = self._attr_value(attrs, 'contents', '') if contents: logger.warning( "Meta tag attribute 'contents' used in file %s, should" " be changed to 'content'", self._filename, extra={'limit_msg': "Other files have meta tag " "attribute 'contents' that should " "be changed to 'content'"}) if name == 'keywords': name = 'tags' if name in self.metadata: # if this metadata already exists (i.e. a previous tag with the # same name has already been specified then either convert to # list or append to list if isinstance(self.metadata[name], list): self.metadata[name].append(contents) else: self.metadata[name] = [self.metadata[name], contents] else: self.metadata[name] = contents @classmethod def _attr_value(cls, attrs, name, default=None): return next((x[1] for x in attrs if x[0] == name), default) def read(self, filename): """Parse content and metadata of HTML files""" with pelican_open(filename) as content: parser = self._HTMLParser(self.settings, filename) parser.feed(content) parser.close() metadata = {} for k in parser.metadata: metadata[k] = self.process_metadata(k, parser.metadata[k]) return parser.body, metadata class Readers(FileStampDataCacher): """Interface for all readers. This class contains a mapping of file extensions / Reader classes, to know which Reader class must be used to read a file (based on its extension). This is customizable both with the 'READERS' setting, and with the 'readers_init' signall for plugins. """ def __init__(self, settings=None, cache_name=''): self.settings = settings or {} self.readers = {} self.reader_classes = {} for cls in [BaseReader] + BaseReader.__subclasses__(): if not cls.enabled: logger.debug('Missing dependencies for %s', ', '.join(cls.file_extensions)) continue for ext in cls.file_extensions: self.reader_classes[ext] = cls if self.settings['READERS']: self.reader_classes.update(self.settings['READERS']) signals.readers_init.send(self) for fmt, reader_class in self.reader_classes.items(): if not reader_class: continue self.readers[fmt] = reader_class(self.settings) # set up caching cache_this_level = (cache_name != '' and self.settings['CONTENT_CACHING_LAYER'] == 'reader') caching_policy = cache_this_level and self.settings['CACHE_CONTENT'] load_policy = cache_this_level and self.settings['LOAD_CONTENT_CACHE'] super().__init__(settings, cache_name, caching_policy, load_policy) @property def extensions(self): return self.readers.keys() def read_file(self, base_path, path, content_class=Page, fmt=None, context=None, preread_signal=None, preread_sender=None, context_signal=None, context_sender=None): """Return a content object parsed with the given format.""" path = os.path.abspath(os.path.join(base_path, path)) source_path = posixize_path(os.path.relpath(path, base_path)) logger.debug( 'Read file %s -> %s', source_path, content_class.__name__) if not fmt: _, ext = os.path.splitext(os.path.basename(path)) fmt = ext[1:] if fmt not in self.readers: raise TypeError( 'Pelican does not know how to parse %s', path) if preread_signal: logger.debug( 'Signal %s.send(%s)', preread_signal.name, preread_sender) preread_signal.send(preread_sender) reader = self.readers[fmt] metadata = _filter_discardable_metadata(default_metadata( settings=self.settings, process=reader.process_metadata)) metadata.update(path_metadata( full_path=path, source_path=source_path, settings=self.settings)) metadata.update(_filter_discardable_metadata(parse_path_metadata( source_path=source_path, settings=self.settings, process=reader.process_metadata))) reader_name = reader.__class__.__name__ metadata['reader'] = reader_name.replace('Reader', '').lower() content, reader_metadata = self.get_cached_data(path, (None, None)) if content is None: content, reader_metadata = reader.read(path) self.cache_data(path, (content, reader_metadata)) metadata.update(_filter_discardable_metadata(reader_metadata)) if content: # find images with empty alt find_empty_alt(content, path) # eventually filter the content with typogrify if asked so if self.settings['TYPOGRIFY']: from typogrify.filters import typogrify import smartypants typogrify_dashes = self.settings['TYPOGRIFY_DASHES'] if typogrify_dashes == 'oldschool': smartypants.Attr.default = smartypants.Attr.set2 elif typogrify_dashes == 'oldschool_inverted': smartypants.Attr.default = smartypants.Attr.set3 else: smartypants.Attr.default = smartypants.Attr.set1 # Tell `smartypants` to also replace " HTML entities with # smart quotes. This is necessary because Docutils has already # replaced double quotes with said entities by the time we run # this filter. smartypants.Attr.default |= smartypants.Attr.w def typogrify_wrapper(text): """Ensures ignore_tags feature is backward compatible""" try: return typogrify( text, self.settings['TYPOGRIFY_IGNORE_TAGS']) except TypeError: return typogrify(text) if content: content = typogrify_wrapper(content) if 'title' in metadata: metadata['title'] = typogrify_wrapper(metadata['title']) if 'summary' in metadata: metadata['summary'] = typogrify_wrapper(metadata['summary']) if context_signal: logger.debug( 'Signal %s.send(%s, )', context_signal.name, context_sender) context_signal.send(context_sender, metadata=metadata) return content_class(content=content, metadata=metadata, settings=self.settings, source_path=path, context=context) def find_empty_alt(content, path): """Find images with empty alt Create warnings for all images with empty alt (up to a certain number), as they are really likely to be accessibility flaws. """ imgs = re.compile(r""" (?: # src before alt ]* src=(['"])(.*?)\1 [^\>]* alt=(['"])\3 )|(?: # alt before src ]* alt=(['"])\4 [^\>]* src=(['"])(.*?)\5 ) """, re.X) for match in re.findall(imgs, content): logger.warning( 'Empty alt attribute for image %s in %s', os.path.basename(match[1] + match[5]), path, extra={'limit_msg': 'Other images have empty alt attributes'}) def default_metadata(settings=None, process=None): metadata = {} if settings: for name, value in dict(settings.get('DEFAULT_METADATA', {})).items(): if process: value = process(name, value) metadata[name] = value if 'DEFAULT_CATEGORY' in settings: value = settings['DEFAULT_CATEGORY'] if process: value = process('category', value) metadata['category'] = value if settings.get('DEFAULT_DATE', None) and \ settings['DEFAULT_DATE'] != 'fs': if isinstance(settings['DEFAULT_DATE'], str): metadata['date'] = get_date(settings['DEFAULT_DATE']) else: metadata['date'] = datetime.datetime(*settings['DEFAULT_DATE']) return metadata def path_metadata(full_path, source_path, settings=None): metadata = {} if settings: if settings.get('DEFAULT_DATE', None) == 'fs': metadata['date'] = datetime.datetime.fromtimestamp( os.stat(full_path).st_mtime) metadata['modified'] = metadata['date'] # Apply EXTRA_PATH_METADATA for the source path and the paths of any # parent directories. Sorting EPM first ensures that the most specific # path wins conflicts. epm = settings.get('EXTRA_PATH_METADATA', {}) for path, meta in sorted(epm.items()): # Enforce a trailing slash when checking for parent directories. # This prevents false positives when one file or directory's name # is a prefix of another's. dirpath = posixize_path(os.path.join(path, '')) if source_path == path or source_path.startswith(dirpath): metadata.update(meta) return metadata def parse_path_metadata(source_path, settings=None, process=None): r"""Extract a metadata dictionary from a file's path >>> import pprint >>> settings = { ... 'FILENAME_METADATA': r'(?P[^.]*).*', ... 'PATH_METADATA': ... r'(?P[^/]*)/(?P\d{4}-\d{2}-\d{2})/.*', ... } >>> reader = BaseReader(settings=settings) >>> metadata = parse_path_metadata( ... source_path='my-cat/2013-01-01/my-slug.html', ... settings=settings, ... process=reader.process_metadata) >>> pprint.pprint(metadata) # doctest: +ELLIPSIS {'category': , 'date': datetime.datetime(2013, 1, 1, 0, 0), 'slug': 'my-slug'} """ metadata = {} dirname, basename = os.path.split(source_path) base, ext = os.path.splitext(basename) subdir = os.path.basename(dirname) if settings: checks = [] for key, data in [('FILENAME_METADATA', base), ('PATH_METADATA', source_path)]: checks.append((settings.get(key, None), data)) if settings.get('USE_FOLDER_AS_CATEGORY', None): checks.append(('(?P.*)', subdir)) for regexp, data in checks: if regexp and data: match = re.match(regexp, data) if match: # .items() for py3k compat. for k, v in match.groupdict().items(): k = k.lower() # metadata must be lowercase if v is not None and k not in metadata: if process: v = process(k, v) metadata[k] = v return metadata