# Author: David Goodger # Contact: goodger@python.org # Revision: $Revision: 1.33 $ # Date: $Date: 2004/10/20 13:46:31 $ # Copyright: This module has been placed in the public domain. """ This package contains directive implementation modules. The interface for directive functions is as follows:: def directive_fn(name, arguments, options, content, lineno, content_offset, block_text, state, state_machine): code... # Set function attributes: directive_fn.arguments = ... directive_fn.options = ... direcitve_fn.content = ... Parameters: - ``name`` is the directive type or name (string). - ``arguments`` is a list of positional arguments (strings). - ``options`` is a dictionary mapping option names (strings) to values (type depends on option conversion functions; see below). - ``content`` is a list of strings, the directive content. - ``lineno`` is the line number of the first line of the directive. - ``content_offset`` is the line offset of the first line of the content from the beginning of the current input. Used when initiating a nested parse. - ``block_text`` is a string containing the entire directive. Include it as the content of a literal block in a system message if there is a problem. - ``state`` is the state which called the directive function. - ``state_machine`` is the state machine which controls the state which called the directive function. Function attributes, interpreted by the directive parser (which calls the directive function): - ``arguments``: A 3-tuple specifying the expected positional arguments, or ``None`` if the directive has no arguments. The 3 items in the tuple are ``(required, optional, whitespace OK in last argument)``: 1. The number of required arguments. 2. The number of optional arguments. 3. A boolean, indicating if the final argument may contain whitespace. Arguments are normally single whitespace-separated words. The final argument may contain whitespace if the third item in the argument spec tuple is 1/True. If the form of the arguments is more complex, specify only one argument (either required or optional) and indicate that final whitespace is OK; the client code must do any context-sensitive parsing. - ``options``: A dictionary, mapping known option names to conversion functions such as `int` or `float`. ``None`` or an empty dict implies no options to parse. Several directive option conversion functions are defined in this module. Option conversion functions take a single parameter, the option argument (a string or ``None``), validate it and/or convert it to the appropriate form. Conversion functions may raise ``ValueError`` and ``TypeError`` exceptions. - ``content``: A boolean; true if content is allowed. Client code must handle the case where content is required but not supplied (an empty content list will be supplied). Directive functions return a list of nodes which will be inserted into the document tree at the point where the directive was encountered (can be an empty list). See `Creating reStructuredText Directives`_ for more information. .. _Creating reStructuredText Directives: http://docutils.sourceforge.net/docs/howto/rst-directives.html """ __docformat__ = 'reStructuredText' import re import codecs from docutils import nodes from docutils.parsers.rst.languages import en as _fallback_language_module _directive_registry = { 'attention': ('admonitions', 'attention'), 'caution': ('admonitions', 'caution'), 'danger': ('admonitions', 'danger'), 'error': ('admonitions', 'error'), 'important': ('admonitions', 'important'), 'note': ('admonitions', 'note'), 'tip': ('admonitions', 'tip'), 'hint': ('admonitions', 'hint'), 'warning': ('admonitions', 'warning'), 'admonition': ('admonitions', 'admonition'), 'sidebar': ('body', 'sidebar'), 'topic': ('body', 'topic'), 'line-block': ('body', 'line_block'), 'parsed-literal': ('body', 'parsed_literal'), 'rubric': ('body', 'rubric'), 'epigraph': ('body', 'epigraph'), 'highlights': ('body', 'highlights'), 'pull-quote': ('body', 'pull_quote'), 'compound': ('body', 'compound'), #'questions': ('body', 'question_list'), 'table': ('tables', 'table'), 'csv-table': ('tables', 'csv_table'), 'image': ('images', 'image'), 'figure': ('images', 'figure'), 'contents': ('parts', 'contents'), 'sectnum': ('parts', 'sectnum'), #'footnotes': ('parts', 'footnotes'), #'citations': ('parts', 'citations'), 'target-notes': ('references', 'target_notes'), 'meta': ('html', 'meta'), #'imagemap': ('html', 'imagemap'), 'raw': ('misc', 'raw'), 'include': ('misc', 'include'), 'replace': ('misc', 'replace'), 'unicode': ('misc', 'unicode_directive'), 'class': ('misc', 'class_directive'), 'role': ('misc', 'role'), 'restructuredtext-test-directive': ('misc', 'directive_test_function'),} """Mapping of directive name to (module name, function name). The directive name is canonical & must be lowercase. Language-dependent names are defined in the ``language`` subpackage.""" _modules = {} """Cache of imported directive modules.""" _directives = {} """Cache of imported directive functions.""" def directive(directive_name, language_module, document): """ Locate and return a directive function from its language-dependent name. If not found in the current language, check English. Return None if the named directive cannot be found. """ normname = directive_name.lower() messages = [] msg_text = [] if _directives.has_key(normname): return _directives[normname], messages canonicalname = None try: canonicalname = language_module.directives[normname] except AttributeError, error: msg_text.append('Problem retrieving directive entry from language ' 'module %r: %s.' % (language_module, error)) except KeyError: msg_text.append('No directive entry for "%s" in module "%s".' % (directive_name, language_module.__name__)) if not canonicalname: try: canonicalname = _fallback_language_module.directives[normname] msg_text.append('Using English fallback for directive "%s".' % directive_name) except KeyError: msg_text.append('Trying "%s" as canonical directive name.' % directive_name) # The canonical name should be an English name, but just in case: canonicalname = normname if msg_text: message = document.reporter.info( '\n'.join(msg_text), line=document.current_line) messages.append(message) try: modulename, functionname = _directive_registry[canonicalname] except KeyError: messages.append(document.reporter.error( 'Directive "%s" not registered (canonical name "%s").' % (directive_name, canonicalname), line=document.current_line)) return None, messages if _modules.has_key(modulename): module = _modules[modulename] else: try: module = __import__(modulename, globals(), locals()) except ImportError, detail: messages.append(document.reporter.error( 'Error importing directive module "%s" (directive "%s"):\n%s' % (modulename, directive_name, detail), line=document.current_line)) return None, messages try: function = getattr(module, functionname) _directives[normname] = function except AttributeError: messages.append(document.reporter.error( 'No function "%s" in module "%s" (directive "%s").' % (functionname, modulename, directive_name), line=document.current_line)) return None, messages return function, messages def register_directive(name, directive_function): """ Register a nonstandard application-defined directive function. Language lookups are not needed for such functions. """ _directives[name] = directive_function def flag(argument): """ Check for a valid flag option (no argument) and return ``None``. (Directive option conversion function.) Raise ``ValueError`` if an argument is found. """ if argument and argument.strip(): raise ValueError('no argument is allowed; "%s" supplied' % argument) else: return None def unchanged_required(argument): """ Return the argument text, unchanged. (Directive option conversion function.) Raise ``ValueError`` if no argument is found. """ if argument is None: raise ValueError('argument required but none supplied') else: return argument # unchanged! def unchanged(argument): """ Return the argument text, unchanged. (Directive option conversion function.) No argument implies empty string (""). """ if argument is None: return u'' else: return argument # unchanged! def path(argument): """ Return the path argument unwrapped (with newlines removed). (Directive option conversion function.) Raise ``ValueError`` if no argument is found or if the path contains internal whitespace. """ if argument is None: raise ValueError('argument required but none supplied') else: path = ''.join([s.strip() for s in argument.splitlines()]) if path.find(' ') == -1: return path else: raise ValueError('path contains whitespace') def nonnegative_int(argument): """ Check for a nonnegative integer argument; raise ``ValueError`` if not. (Directive option conversion function.) """ value = int(argument) if value < 0: raise ValueError('negative value; must be positive or zero') return value def class_option(argument): """ Convert the argument into an ID-compatible string and return it. (Directive option conversion function.) Raise ``ValueError`` if no argument is found. """ if argument is None: raise ValueError('argument required but none supplied') names = argument.split() class_names = [] for name in names: class_name = nodes.make_id(name) if not class_name: raise ValueError('cannot make "%s" into a class name' % name) class_names.append(class_name) return ' '.join(class_names) unicode_pattern = re.compile( r'(?:0x|x|\\x|U\+?|\\u)([0-9a-f]+)$|&#x([0-9a-f]+);$', re.IGNORECASE) def unicode_code(code): r""" Convert a Unicode character code to a Unicode character. Codes may be decimal numbers, hexadecimal numbers (prefixed by ``0x``, ``x``, ``\x``, ``U+``, ``u``, or ``\u``; e.g. ``U+262E``), or XML-style numeric character entities (e.g. ``☮``). Other text remains as-is. """ try: if code.isdigit(): # decimal number return unichr(int(code)) else: match = unicode_pattern.match(code) if match: # hex number value = match.group(1) or match.group(2) return unichr(int(value, 16)) else: # other text return code except OverflowError, detail: raise ValueError('code too large (%s)' % detail) def single_char_or_unicode(argument): char = unicode_code(argument) if len(char) > 1: raise ValueError('%r invalid; must be a single character or ' 'a Unicode code' % char) return char def single_char_or_whitespace_or_unicode(argument): if argument == 'tab': char = '\t' elif argument == 'space': char = ' ' else: char = single_char_or_unicode(argument) return char def positive_int(argument): value = int(argument) if value < 1: raise ValueError('negative or zero value; must be positive') return value def positive_int_list(argument): if ',' in argument: entries = argument.split(',') else: entries = argument.split() return [positive_int(entry) for entry in entries] def encoding(argument): try: codecs.lookup(argument) except LookupError: raise ValueError('unknown encoding: "%s"' % argument) return argument def choice(argument, values): """ Directive option utility function, supplied to enable options whose argument must be a member of a finite set of possible values (must be lower case). A custom conversion function must be written to use it. For example:: from docutils.parsers.rst import directives def yesno(argument): return directives.choice(argument, ('yes', 'no')) Raise ``ValueError`` if no argument is found or if the argument's value is not valid (not an entry in the supplied list). """ try: value = argument.lower().strip() except AttributeError: raise ValueError('must supply an argument; choose from %s' % format_values(values)) if value in values: return value else: raise ValueError('"%s" unknown; choose from %s' % (argument, format_values(values))) def format_values(values): return '%s, or "%s"' % (', '.join(['"%s"' % s for s in values[:-1]]), values[-1])