# Author: David Goodger # Contact: goodger@users.sourceforge.net # Revision: $Revision$ # Date: $Date$ # Copyright: This module has been placed in the public domain. """ Miscellaneous utilities for the documentation utilities. """ __docformat__ = 'reStructuredText' import sys import os import os.path from types import StringType, UnicodeType from docutils import ApplicationError, DataError from docutils import frontend, nodes class SystemMessage(ApplicationError): def __init__(self, system_message): Exception.__init__(self, system_message.astext()) class Reporter: """ Info/warning/error reporter and ``system_message`` element generator. Five levels of system messages are defined, along with corresponding methods: `debug()`, `info()`, `warning()`, `error()`, and `severe()`. There is typically one Reporter object per process. A Reporter object is instantiated with thresholds for reporting (generating warnings) and halting processing (raising exceptions), a switch to turn debug output on or off, and an I/O stream for warnings. These are stored in the default reporting category, '' (zero-length string). Multiple reporting categories [#]_ may be set, each with its own reporting and halting thresholds, debugging switch, and warning stream (collectively a `ConditionSet`). Categories are hierarchical dotted-name strings that look like attribute references: 'spam', 'spam.eggs', 'neeeow.wum.ping'. The 'spam' category is the ancestor of 'spam.bacon.eggs'. Unset categories inherit stored conditions from their closest ancestor category that has been set. When a system message is generated, the stored conditions from its category (or ancestor if unset) are retrieved. The system message level is compared to the thresholds stored in the category, and a warning or error is generated as appropriate. Debug messages are produced iff the stored debug switch is on. Message output is sent to the stored warning stream. The default category is '' (empty string). By convention, Writers should retrieve reporting conditions from the 'writer' category (which, unless explicitly set, defaults to the conditions of the default category). The Reporter class also employs a modified form of the "Observer" pattern [GoF95]_ to track system messages generated. The `attach_observer` method should be called before parsing, with a bound method or function which accepts system messages. The observer can be removed with `detach_observer`, and another added in its place. .. [#] The concept of "categories" was inspired by the log4j project: http://jakarta.apache.org/log4j/. .. [GoF95] Gamma, Helm, Johnson, Vlissides. *Design Patterns: Elements of Reusable Object-Oriented Software*. Addison-Wesley, Reading, MA, USA, 1995. """ levels = 'DEBUG INFO WARNING ERROR SEVERE'.split() """List of names for system message levels, indexed by level.""" def __init__(self, source, report_level, halt_level, stream=None, debug=0): """ Initialize the `ConditionSet` forthe `Reporter`'s default category. :Parameters: - `source`: The path to or description of the source data. - `report_level`: The level at or above which warning output will be sent to `stream`. - `halt_level`: The level at or above which `SystemMessage` exceptions will be raised, halting execution. - `debug`: Show debug (level=0) system messages? - `stream`: Where warning output is sent. Can be file-like (has a ``.write`` method), a string (file name, opened for writing), or `None` (implies `sys.stderr`; default). """ self.source = source """The path to or description of the source data.""" if stream is None: stream = sys.stderr elif type(stream) in (StringType, UnicodeType): raise NotImplementedError('This should open a file for writing.') self.categories = {'': ConditionSet(debug, report_level, halt_level, stream)} """Mapping of category names to conditions. Default category is ''.""" self.observers = [] """List of bound methods or functions to call with each system_message created.""" def set_conditions(self, category, report_level, halt_level, stream=None, debug=0): if stream is None: stream = sys.stderr self.categories[category] = ConditionSet(debug, report_level, halt_level, stream) def unset_conditions(self, category): if category and self.categories.has_key(category): del self.categories[category] __delitem__ = unset_conditions def get_conditions(self, category): while not self.categories.has_key(category): category = category[:category.rfind('.') + 1][:-1] return self.categories[category] __getitem__ = get_conditions def attach_observer(self, observer): """ The `observer` parameter is a function or bound method which takes one argument, a `nodes.system_message` instance. """ self.observers.append(observer) def detach_observer(self, observer): self.observers.remove(observer) def notify_observers(self, message): for observer in self.observers: observer(message) def system_message(self, level, message, *children, **kwargs): """ Return a system_message object. Raise an exception or generate a warning if appropriate. """ attributes = kwargs.copy() category = kwargs.get('category', '') if kwargs.has_key('category'): del attributes['category'] if kwargs.has_key('base_node'): source, line = get_source_line(kwargs['base_node']) del attributes['base_node'] if source is not None: attributes.setdefault('source', source) if line is not None: attributes.setdefault('line', line) attributes.setdefault('source', self.source) msg = nodes.system_message(message, level=level, type=self.levels[level], *children, **attributes) debug, report_level, halt_level, stream = self[category].astuple() if level >= report_level or debug and level == 0: if category: print >>stream, msg.astext(), '[%s]' % category else: print >>stream, msg.astext() if level >= halt_level: raise SystemMessage(msg) if level > 0 or debug: self.notify_observers(msg) return msg def debug(self, *args, **kwargs): """ Level-0, "DEBUG": an internal reporting issue. Typically, there is no effect on the processing. Level-0 system messages are handled separately from the others. """ return self.system_message(0, *args, **kwargs) def info(self, *args, **kwargs): """ Level-1, "INFO": a minor issue that can be ignored. Typically there is no effect on processing, and level-1 system messages are not reported. """ return self.system_message(1, *args, **kwargs) def warning(self, *args, **kwargs): """ Level-2, "WARNING": an issue that should be addressed. If ignored, there may be unpredictable problems with the output. """ return self.system_message(2, *args, **kwargs) def error(self, *args, **kwargs): """ Level-3, "ERROR": an error that should be addressed. If ignored, the output will contain errors. """ return self.system_message(3, *args, **kwargs) def severe(self, *args, **kwargs): """ Level-4, "SEVERE": a severe error that must be addressed. If ignored, the output will contain severe errors. Typically level-4 system messages are turned into exceptions which halt processing. """ return self.system_message(4, *args, **kwargs) class ConditionSet: """ A set of two thresholds (`report_level` & `halt_level`), a switch (`debug`), and an I/O stream (`stream`), corresponding to one `Reporter` category. """ def __init__(self, debug, report_level, halt_level, stream): self.debug = debug self.report_level = report_level self.halt_level = halt_level self.stream = stream def astuple(self): return (self.debug, self.report_level, self.halt_level, self.stream) class ExtensionOptionError(DataError): pass class BadOptionError(ExtensionOptionError): pass class BadOptionDataError(ExtensionOptionError): pass class DuplicateOptionError(ExtensionOptionError): pass def extract_extension_options(field_list, options_spec): """ Return a dictionary mapping extension option names to converted values. :Parameters: - `field_list`: A flat field list without field arguments, where each field body consists of a single paragraph only. - `options_spec`: Dictionary mapping known option names to a conversion function such as `int` or `float`. :Exceptions: - `KeyError` for unknown option names. - `ValueError` for invalid option values (raised by the conversion function). - `DuplicateOptionError` for duplicate options. - `BadOptionError` for invalid fields. - `BadOptionDataError` for invalid option data (missing name, missing data, bad quotes, etc.). """ option_list = extract_options(field_list) option_dict = assemble_option_dict(option_list, options_spec) return option_dict def extract_options(field_list): """ Return a list of option (name, value) pairs from field names & bodies. :Parameter: `field_list`: A flat field list, where each field name is a single word and each field body consists of a single paragraph only. :Exceptions: - `BadOptionError` for invalid fields. - `BadOptionDataError` for invalid option data (missing name, missing data, bad quotes, etc.). """ option_list = [] for field in field_list: if len(field[0].astext().split()) != 1: raise BadOptionError( 'extension option field name may not contain multiple words') name = str(field[0].astext().lower()) body = field[1] if len(body) == 0: data = None elif len(body) > 1 or not isinstance(body[0], nodes.paragraph) \ or len(body[0]) != 1 or not isinstance(body[0][0], nodes.Text): raise BadOptionDataError( 'extension option field body may contain\n' 'a single paragraph only (option "%s")' % name) else: data = body[0][0].astext() option_list.append((name, data)) return option_list def assemble_option_dict(option_list, options_spec): """ Return a mapping of option names to values. :Parameters: - `option_list`: A list of (name, value) pairs (the output of `extract_options()`). - `options_spec`: Dictionary mapping known option names to a conversion function such as `int` or `float`. :Exceptions: - `KeyError` for unknown option names. - `DuplicateOptionError` for duplicate options. - `ValueError` for invalid option values (raised by conversion function). """ options = {} for name, value in option_list: convertor = options_spec[name] # raises KeyError if unknown if options.has_key(name): raise DuplicateOptionError('duplicate option "%s"' % name) try: options[name] = convertor(value) except (ValueError, TypeError), detail: raise detail.__class__('(option: "%s"; value: %r)\n%s' % (name, value, detail)) return options class NameValueError(DataError): pass def extract_name_value(line): """ Return a list of (name, value) from a line of the form "name=value ...". :Exception: `NameValueError` for invalid input (missing name, missing data, bad quotes, etc.). """ attlist = [] while line: equals = line.find('=') if equals == -1: raise NameValueError('missing "="') attname = line[:equals].strip() if equals == 0 or not attname: raise NameValueError( 'missing attribute name before "="') line = line[equals+1:].lstrip() if not line: raise NameValueError( 'missing value after "%s="' % attname) if line[0] in '\'"': endquote = line.find(line[0], 1) if endquote == -1: raise NameValueError( 'attribute "%s" missing end quote (%s)' % (attname, line[0])) if len(line) > endquote + 1 and line[endquote + 1].strip(): raise NameValueError( 'attribute "%s" end quote (%s) not followed by ' 'whitespace' % (attname, line[0])) data = line[1:endquote] line = line[endquote+1:].lstrip() else: space = line.find(' ') if space == -1: data = line line = '' else: data = line[:space] line = line[space+1:].lstrip() attlist.append((attname.lower(), data)) return attlist def normalize_name(name): """Return a case- and whitespace-normalized name.""" return ' '.join(name.lower().split()) def new_document(source, settings=None): """ Return a new empty document object. :Parameters: `source` : string The path to or description of the source text of the document. `settings` : optparse.Values object Runtime settings. If none provided, a default set will be used. """ if settings is None: settings = frontend.OptionParser().get_default_values() reporter = Reporter(source, settings.report_level, settings.halt_level, settings.warning_stream, settings.debug) document = nodes.document(settings, reporter, source=source) document.note_source(source, -1) return document def clean_rcs_keywords(paragraph, keyword_substitutions): if len(paragraph) == 1 and isinstance(paragraph[0], nodes.Text): textnode = paragraph[0] for pattern, substitution in keyword_substitutions: match = pattern.match(textnode.data) if match: textnode.data = pattern.sub(substitution, textnode.data) return def relative_path(source, target): """ Build and return a path to `target`, relative to `source`. If there is no common prefix, return the absolute path to `target`. """ source_parts = os.path.abspath(source or '').split(os.sep) target_parts = os.path.abspath(target).split(os.sep) # Check first 2 parts because '/dir'.split('/') == ['', 'dir']: if source_parts[:2] != target_parts[:2]: # Nothing in common between paths. # Return absolute path, using '/' for URLs: return '/'.join(target_parts) source_parts.reverse() target_parts.reverse() while (source_parts and target_parts and source_parts[-1] == target_parts[-1]): # Remove path components in common: source_parts.pop() target_parts.pop() target_parts.reverse() parts = ['..'] * (len(source_parts) - 1) + target_parts return '/'.join(parts) def get_source_line(node): """ Return the "source" and "line" attributes from the `node` given or from it's closest ancestor. """ while node: if node.source or node.line: return node.source, node.line node = node.parent return None, None