3099 lines
128 KiB
Python
3099 lines
128 KiB
Python
# $Id: states.py 8060 2017-04-19 20:00:04Z milde $
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# Author: David Goodger <goodger@python.org>
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# Copyright: This module has been placed in the public domain.
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"""
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This is the ``docutils.parsers.rst.states`` module, the core of
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the reStructuredText parser. It defines the following:
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:Classes:
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- `RSTStateMachine`: reStructuredText parser's entry point.
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- `NestedStateMachine`: recursive StateMachine.
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- `RSTState`: reStructuredText State superclass.
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- `Inliner`: For parsing inline markup.
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- `Body`: Generic classifier of the first line of a block.
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- `SpecializedBody`: Superclass for compound element members.
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- `BulletList`: Second and subsequent bullet_list list_items
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- `DefinitionList`: Second+ definition_list_items.
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- `EnumeratedList`: Second+ enumerated_list list_items.
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- `FieldList`: Second+ fields.
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- `OptionList`: Second+ option_list_items.
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- `RFC2822List`: Second+ RFC2822-style fields.
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- `ExtensionOptions`: Parses directive option fields.
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- `Explicit`: Second+ explicit markup constructs.
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- `SubstitutionDef`: For embedded directives in substitution definitions.
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- `Text`: Classifier of second line of a text block.
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- `SpecializedText`: Superclass for continuation lines of Text-variants.
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- `Definition`: Second line of potential definition_list_item.
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- `Line`: Second line of overlined section title or transition marker.
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- `Struct`: An auxiliary collection class.
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:Exception classes:
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- `MarkupError`
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- `ParserError`
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- `MarkupMismatch`
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:Functions:
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- `escape2null()`: Return a string, escape-backslashes converted to nulls.
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- `unescape()`: Return a string, nulls removed or restored to backslashes.
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:Attributes:
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- `state_classes`: set of State classes used with `RSTStateMachine`.
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Parser Overview
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===============
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The reStructuredText parser is implemented as a recursive state machine,
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examining its input one line at a time. To understand how the parser works,
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please first become familiar with the `docutils.statemachine` module. In the
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description below, references are made to classes defined in this module;
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please see the individual classes for details.
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Parsing proceeds as follows:
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1. The state machine examines each line of input, checking each of the
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transition patterns of the state `Body`, in order, looking for a match.
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The implicit transitions (blank lines and indentation) are checked before
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any others. The 'text' transition is a catch-all (matches anything).
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2. The method associated with the matched transition pattern is called.
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A. Some transition methods are self-contained, appending elements to the
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document tree (`Body.doctest` parses a doctest block). The parser's
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current line index is advanced to the end of the element, and parsing
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continues with step 1.
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B. Other transition methods trigger the creation of a nested state machine,
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whose job is to parse a compound construct ('indent' does a block quote,
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'bullet' does a bullet list, 'overline' does a section [first checking
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for a valid section header], etc.).
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- In the case of lists and explicit markup, a one-off state machine is
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created and run to parse contents of the first item.
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- A new state machine is created and its initial state is set to the
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appropriate specialized state (`BulletList` in the case of the
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'bullet' transition; see `SpecializedBody` for more detail). This
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state machine is run to parse the compound element (or series of
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explicit markup elements), and returns as soon as a non-member element
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is encountered. For example, the `BulletList` state machine ends as
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soon as it encounters an element which is not a list item of that
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bullet list. The optional omission of inter-element blank lines is
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enabled by this nested state machine.
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- The current line index is advanced to the end of the elements parsed,
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and parsing continues with step 1.
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C. The result of the 'text' transition depends on the next line of text.
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The current state is changed to `Text`, under which the second line is
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examined. If the second line is:
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- Indented: The element is a definition list item, and parsing proceeds
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similarly to step 2.B, using the `DefinitionList` state.
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- A line of uniform punctuation characters: The element is a section
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header; again, parsing proceeds as in step 2.B, and `Body` is still
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used.
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- Anything else: The element is a paragraph, which is examined for
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inline markup and appended to the parent element. Processing
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continues with step 1.
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"""
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__docformat__ = 'reStructuredText'
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import sys
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import re
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from types import FunctionType, MethodType
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from docutils import nodes, statemachine, utils
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from docutils import ApplicationError, DataError
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from docutils.statemachine import StateMachineWS, StateWS
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from docutils.nodes import fully_normalize_name as normalize_name
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from docutils.nodes import whitespace_normalize_name
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import docutils.parsers.rst
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from docutils.parsers.rst import directives, languages, tableparser, roles
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from docutils.parsers.rst.languages import en as _fallback_language_module
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from docutils.utils import escape2null, unescape, column_width
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from docutils.utils import punctuation_chars, roman, urischemes
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from docutils.utils import split_escaped_whitespace
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class MarkupError(DataError): pass
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class UnknownInterpretedRoleError(DataError): pass
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class InterpretedRoleNotImplementedError(DataError): pass
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class ParserError(ApplicationError): pass
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class MarkupMismatch(Exception): pass
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class Struct:
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"""Stores data attributes for dotted-attribute access."""
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def __init__(self, **keywordargs):
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self.__dict__.update(keywordargs)
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class RSTStateMachine(StateMachineWS):
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"""
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reStructuredText's master StateMachine.
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The entry point to reStructuredText parsing is the `run()` method.
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"""
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def run(self, input_lines, document, input_offset=0, match_titles=True,
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inliner=None):
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"""
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Parse `input_lines` and modify the `document` node in place.
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Extend `StateMachineWS.run()`: set up parse-global data and
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run the StateMachine.
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"""
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self.language = languages.get_language(
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document.settings.language_code)
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self.match_titles = match_titles
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if inliner is None:
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inliner = Inliner()
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inliner.init_customizations(document.settings)
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self.memo = Struct(document=document,
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reporter=document.reporter,
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language=self.language,
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title_styles=[],
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section_level=0,
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section_bubble_up_kludge=False,
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inliner=inliner)
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self.document = document
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self.attach_observer(document.note_source)
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self.reporter = self.memo.reporter
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self.node = document
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results = StateMachineWS.run(self, input_lines, input_offset,
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input_source=document['source'])
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assert results == [], 'RSTStateMachine.run() results should be empty!'
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self.node = self.memo = None # remove unneeded references
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class NestedStateMachine(StateMachineWS):
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"""
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StateMachine run from within other StateMachine runs, to parse nested
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document structures.
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"""
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def run(self, input_lines, input_offset, memo, node, match_titles=True):
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"""
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Parse `input_lines` and populate a `docutils.nodes.document` instance.
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Extend `StateMachineWS.run()`: set up document-wide data.
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"""
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self.match_titles = match_titles
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self.memo = memo
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self.document = memo.document
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self.attach_observer(self.document.note_source)
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self.reporter = memo.reporter
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self.language = memo.language
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self.node = node
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results = StateMachineWS.run(self, input_lines, input_offset)
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assert results == [], ('NestedStateMachine.run() results should be '
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'empty!')
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return results
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class RSTState(StateWS):
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"""
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reStructuredText State superclass.
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Contains methods used by all State subclasses.
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"""
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nested_sm = NestedStateMachine
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nested_sm_cache = []
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def __init__(self, state_machine, debug=False):
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self.nested_sm_kwargs = {'state_classes': state_classes,
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'initial_state': 'Body'}
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StateWS.__init__(self, state_machine, debug)
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def runtime_init(self):
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StateWS.runtime_init(self)
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memo = self.state_machine.memo
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self.memo = memo
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self.reporter = memo.reporter
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self.inliner = memo.inliner
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self.document = memo.document
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self.parent = self.state_machine.node
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# enable the reporter to determine source and source-line
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if not hasattr(self.reporter, 'get_source_and_line'):
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self.reporter.get_source_and_line = self.state_machine.get_source_and_line
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def goto_line(self, abs_line_offset):
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"""
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Jump to input line `abs_line_offset`, ignoring jumps past the end.
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"""
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try:
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self.state_machine.goto_line(abs_line_offset)
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except EOFError:
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pass
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def no_match(self, context, transitions):
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"""
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Override `StateWS.no_match` to generate a system message.
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This code should never be run.
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"""
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self.reporter.severe(
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'Internal error: no transition pattern match. State: "%s"; '
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'transitions: %s; context: %s; current line: %r.'
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% (self.__class__.__name__, transitions, context,
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self.state_machine.line))
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return context, None, []
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def bof(self, context):
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"""Called at beginning of file."""
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return [], []
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def nested_parse(self, block, input_offset, node, match_titles=False,
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state_machine_class=None, state_machine_kwargs=None):
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"""
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Create a new StateMachine rooted at `node` and run it over the input
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`block`.
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"""
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use_default = 0
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if state_machine_class is None:
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state_machine_class = self.nested_sm
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use_default += 1
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if state_machine_kwargs is None:
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state_machine_kwargs = self.nested_sm_kwargs
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use_default += 1
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block_length = len(block)
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state_machine = None
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if use_default == 2:
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try:
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state_machine = self.nested_sm_cache.pop()
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except IndexError:
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pass
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if not state_machine:
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state_machine = state_machine_class(debug=self.debug,
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**state_machine_kwargs)
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state_machine.run(block, input_offset, memo=self.memo,
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node=node, match_titles=match_titles)
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if use_default == 2:
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self.nested_sm_cache.append(state_machine)
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else:
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state_machine.unlink()
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new_offset = state_machine.abs_line_offset()
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# No `block.parent` implies disconnected -- lines aren't in sync:
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if block.parent and (len(block) - block_length) != 0:
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# Adjustment for block if modified in nested parse:
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self.state_machine.next_line(len(block) - block_length)
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return new_offset
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def nested_list_parse(self, block, input_offset, node, initial_state,
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blank_finish,
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blank_finish_state=None,
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extra_settings={},
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match_titles=False,
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state_machine_class=None,
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state_machine_kwargs=None):
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"""
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Create a new StateMachine rooted at `node` and run it over the input
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`block`. Also keep track of optional intermediate blank lines and the
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required final one.
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"""
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if state_machine_class is None:
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state_machine_class = self.nested_sm
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if state_machine_kwargs is None:
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state_machine_kwargs = self.nested_sm_kwargs.copy()
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state_machine_kwargs['initial_state'] = initial_state
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state_machine = state_machine_class(debug=self.debug,
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**state_machine_kwargs)
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if blank_finish_state is None:
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blank_finish_state = initial_state
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state_machine.states[blank_finish_state].blank_finish = blank_finish
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for key, value in list(extra_settings.items()):
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setattr(state_machine.states[initial_state], key, value)
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state_machine.run(block, input_offset, memo=self.memo,
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node=node, match_titles=match_titles)
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blank_finish = state_machine.states[blank_finish_state].blank_finish
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state_machine.unlink()
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return state_machine.abs_line_offset(), blank_finish
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def section(self, title, source, style, lineno, messages):
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"""Check for a valid subsection and create one if it checks out."""
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if self.check_subsection(source, style, lineno):
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self.new_subsection(title, lineno, messages)
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def check_subsection(self, source, style, lineno):
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"""
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Check for a valid subsection header. Return 1 (true) or None (false).
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When a new section is reached that isn't a subsection of the current
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section, back up the line count (use ``previous_line(-x)``), then
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``raise EOFError``. The current StateMachine will finish, then the
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calling StateMachine can re-examine the title. This will work its way
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back up the calling chain until the correct section level isreached.
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@@@ Alternative: Evaluate the title, store the title info & level, and
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back up the chain until that level is reached. Store in memo? Or
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return in results?
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:Exception: `EOFError` when a sibling or supersection encountered.
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"""
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memo = self.memo
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title_styles = memo.title_styles
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mylevel = memo.section_level
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try: # check for existing title style
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level = title_styles.index(style) + 1
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except ValueError: # new title style
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if len(title_styles) == memo.section_level: # new subsection
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title_styles.append(style)
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return 1
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else: # not at lowest level
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self.parent += self.title_inconsistent(source, lineno)
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return None
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if level <= mylevel: # sibling or supersection
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memo.section_level = level # bubble up to parent section
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if len(style) == 2:
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memo.section_bubble_up_kludge = True
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# back up 2 lines for underline title, 3 for overline title
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self.state_machine.previous_line(len(style) + 1)
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raise EOFError # let parent section re-evaluate
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if level == mylevel + 1: # immediate subsection
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return 1
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else: # invalid subsection
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self.parent += self.title_inconsistent(source, lineno)
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return None
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def title_inconsistent(self, sourcetext, lineno):
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error = self.reporter.severe(
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'Title level inconsistent:', nodes.literal_block('', sourcetext),
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line=lineno)
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return error
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def new_subsection(self, title, lineno, messages):
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"""Append new subsection to document tree. On return, check level."""
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memo = self.memo
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mylevel = memo.section_level
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memo.section_level += 1
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section_node = nodes.section()
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self.parent += section_node
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textnodes, title_messages = self.inline_text(title, lineno)
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titlenode = nodes.title(title, '', *textnodes)
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name = normalize_name(titlenode.astext())
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section_node['names'].append(name)
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section_node += titlenode
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section_node += messages
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section_node += title_messages
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self.document.note_implicit_target(section_node, section_node)
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offset = self.state_machine.line_offset + 1
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absoffset = self.state_machine.abs_line_offset() + 1
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newabsoffset = self.nested_parse(
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self.state_machine.input_lines[offset:], input_offset=absoffset,
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node=section_node, match_titles=True)
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self.goto_line(newabsoffset)
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if memo.section_level <= mylevel: # can't handle next section?
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raise EOFError # bubble up to supersection
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# reset section_level; next pass will detect it properly
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memo.section_level = mylevel
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def paragraph(self, lines, lineno):
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"""
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Return a list (paragraph & messages) & a boolean: literal_block next?
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"""
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data = '\n'.join(lines).rstrip()
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if re.search(r'(?<!\\)(\\\\)*::$', data):
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if len(data) == 2:
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return [], 1
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elif data[-3] in ' \n':
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text = data[:-3].rstrip()
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else:
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text = data[:-1]
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literalnext = 1
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else:
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text = data
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literalnext = 0
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textnodes, messages = self.inline_text(text, lineno)
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p = nodes.paragraph(data, '', *textnodes)
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p.source, p.line = self.state_machine.get_source_and_line(lineno)
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return [p] + messages, literalnext
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def inline_text(self, text, lineno):
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"""
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Return 2 lists: nodes (text and inline elements), and system_messages.
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"""
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return self.inliner.parse(text, lineno, self.memo, self.parent)
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def unindent_warning(self, node_name):
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# the actual problem is one line below the current line
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lineno = self.state_machine.abs_line_number()+1
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return self.reporter.warning('%s ends without a blank line; '
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'unexpected unindent.' % node_name,
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line=lineno)
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def build_regexp(definition, compile=True):
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"""
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Build, compile and return a regular expression based on `definition`.
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:Parameter: `definition`: a 4-tuple (group name, prefix, suffix, parts),
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where "parts" is a list of regular expressions and/or regular
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expression definitions to be joined into an or-group.
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"""
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name, prefix, suffix, parts = definition
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part_strings = []
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for part in parts:
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if type(part) is tuple:
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part_strings.append(build_regexp(part, None))
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else:
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part_strings.append(part)
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or_group = '|'.join(part_strings)
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regexp = '%(prefix)s(?P<%(name)s>%(or_group)s)%(suffix)s' % locals()
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if compile:
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return re.compile(regexp, re.UNICODE)
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else:
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return regexp
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class Inliner:
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"""
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Parse inline markup; call the `parse()` method.
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"""
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def __init__(self):
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self.implicit_dispatch = []
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"""List of (pattern, bound method) tuples, used by
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`self.implicit_inline`."""
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def init_customizations(self, settings):
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# lookahead and look-behind expressions for inline markup rules
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if getattr(settings, 'character_level_inline_markup', False):
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start_string_prefix = '(^|(?<!\x00))'
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end_string_suffix = ''
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else:
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start_string_prefix = ('(^|(?<=\\s|[%s%s]))' %
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(punctuation_chars.openers,
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punctuation_chars.delimiters))
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end_string_suffix = ('($|(?=\\s|[\x00%s%s%s]))' %
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(punctuation_chars.closing_delimiters,
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punctuation_chars.delimiters,
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punctuation_chars.closers))
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args = locals().copy()
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args.update(vars(self.__class__))
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parts = ('initial_inline', start_string_prefix, '',
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[('start', '', self.non_whitespace_after, # simple start-strings
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[r'\*\*', # strong
|
|
r'\*(?!\*)', # emphasis but not strong
|
|
r'``', # literal
|
|
r'_`', # inline internal target
|
|
r'\|(?!\|)'] # substitution reference
|
|
),
|
|
('whole', '', end_string_suffix, # whole constructs
|
|
[# reference name & end-string
|
|
r'(?P<refname>%s)(?P<refend>__?)' % self.simplename,
|
|
('footnotelabel', r'\[', r'(?P<fnend>\]_)',
|
|
[r'[0-9]+', # manually numbered
|
|
r'\#(%s)?' % self.simplename, # auto-numbered (w/ label?)
|
|
r'\*', # auto-symbol
|
|
r'(?P<citationlabel>%s)' % self.simplename] # citation reference
|
|
)
|
|
]
|
|
),
|
|
('backquote', # interpreted text or phrase reference
|
|
'(?P<role>(:%s:)?)' % self.simplename, # optional role
|
|
self.non_whitespace_after,
|
|
['`(?!`)'] # but not literal
|
|
)
|
|
]
|
|
)
|
|
self.start_string_prefix = start_string_prefix
|
|
self.end_string_suffix = end_string_suffix
|
|
self.parts = parts
|
|
|
|
self.patterns = Struct(
|
|
initial=build_regexp(parts),
|
|
emphasis=re.compile(self.non_whitespace_escape_before
|
|
+ r'(\*)' + end_string_suffix, re.UNICODE),
|
|
strong=re.compile(self.non_whitespace_escape_before
|
|
+ r'(\*\*)' + end_string_suffix, re.UNICODE),
|
|
interpreted_or_phrase_ref=re.compile(
|
|
r"""
|
|
%(non_unescaped_whitespace_escape_before)s
|
|
(
|
|
`
|
|
(?P<suffix>
|
|
(?P<role>:%(simplename)s:)?
|
|
(?P<refend>__?)?
|
|
)
|
|
)
|
|
%(end_string_suffix)s
|
|
""" % args, re.VERBOSE | re.UNICODE),
|
|
embedded_link=re.compile(
|
|
r"""
|
|
(
|
|
(?:[ \n]+|^) # spaces or beginning of line/string
|
|
< # open bracket
|
|
%(non_whitespace_after)s
|
|
(([^<>]|\x00[<>])+) # anything but unescaped angle brackets
|
|
%(non_whitespace_escape_before)s
|
|
> # close bracket
|
|
)
|
|
$ # end of string
|
|
""" % args, re.VERBOSE | re.UNICODE),
|
|
literal=re.compile(self.non_whitespace_before + '(``)'
|
|
+ end_string_suffix, re.UNICODE),
|
|
target=re.compile(self.non_whitespace_escape_before
|
|
+ r'(`)' + end_string_suffix, re.UNICODE),
|
|
substitution_ref=re.compile(self.non_whitespace_escape_before
|
|
+ r'(\|_{0,2})'
|
|
+ end_string_suffix, re.UNICODE),
|
|
email=re.compile(self.email_pattern % args + '$',
|
|
re.VERBOSE | re.UNICODE),
|
|
uri=re.compile(
|
|
(r"""
|
|
%(start_string_prefix)s
|
|
(?P<whole>
|
|
(?P<absolute> # absolute URI
|
|
(?P<scheme> # scheme (http, ftp, mailto)
|
|
[a-zA-Z][a-zA-Z0-9.+-]*
|
|
)
|
|
:
|
|
(
|
|
( # either:
|
|
(//?)? # hierarchical URI
|
|
%(uric)s* # URI characters
|
|
%(uri_end)s # final URI char
|
|
)
|
|
( # optional query
|
|
\?%(uric)s*
|
|
%(uri_end)s
|
|
)?
|
|
( # optional fragment
|
|
\#%(uric)s*
|
|
%(uri_end)s
|
|
)?
|
|
)
|
|
)
|
|
| # *OR*
|
|
(?P<email> # email address
|
|
""" + self.email_pattern + r"""
|
|
)
|
|
)
|
|
%(end_string_suffix)s
|
|
""") % args, re.VERBOSE | re.UNICODE),
|
|
pep=re.compile(
|
|
r"""
|
|
%(start_string_prefix)s
|
|
(
|
|
(pep-(?P<pepnum1>\d+)(.txt)?) # reference to source file
|
|
|
|
|
(PEP\s+(?P<pepnum2>\d+)) # reference by name
|
|
)
|
|
%(end_string_suffix)s""" % args, re.VERBOSE | re.UNICODE),
|
|
rfc=re.compile(
|
|
r"""
|
|
%(start_string_prefix)s
|
|
(RFC(-|\s+)?(?P<rfcnum>\d+))
|
|
%(end_string_suffix)s""" % args, re.VERBOSE | re.UNICODE))
|
|
|
|
self.implicit_dispatch.append((self.patterns.uri,
|
|
self.standalone_uri))
|
|
if settings.pep_references:
|
|
self.implicit_dispatch.append((self.patterns.pep,
|
|
self.pep_reference))
|
|
if settings.rfc_references:
|
|
self.implicit_dispatch.append((self.patterns.rfc,
|
|
self.rfc_reference))
|
|
|
|
def parse(self, text, lineno, memo, parent):
|
|
# Needs to be refactored for nested inline markup.
|
|
# Add nested_parse() method?
|
|
"""
|
|
Return 2 lists: nodes (text and inline elements), and system_messages.
|
|
|
|
Using `self.patterns.initial`, a pattern which matches start-strings
|
|
(emphasis, strong, interpreted, phrase reference, literal,
|
|
substitution reference, and inline target) and complete constructs
|
|
(simple reference, footnote reference), search for a candidate. When
|
|
one is found, check for validity (e.g., not a quoted '*' character).
|
|
If valid, search for the corresponding end string if applicable, and
|
|
check it for validity. If not found or invalid, generate a warning
|
|
and ignore the start-string. Implicit inline markup (e.g. standalone
|
|
URIs) is found last.
|
|
"""
|
|
self.reporter = memo.reporter
|
|
self.document = memo.document
|
|
self.language = memo.language
|
|
self.parent = parent
|
|
pattern_search = self.patterns.initial.search
|
|
dispatch = self.dispatch
|
|
remaining = escape2null(text)
|
|
processed = []
|
|
unprocessed = []
|
|
messages = []
|
|
while remaining:
|
|
match = pattern_search(remaining)
|
|
if match:
|
|
groups = match.groupdict()
|
|
method = dispatch[groups['start'] or groups['backquote']
|
|
or groups['refend'] or groups['fnend']]
|
|
before, inlines, remaining, sysmessages = method(self, match,
|
|
lineno)
|
|
unprocessed.append(before)
|
|
messages += sysmessages
|
|
if inlines:
|
|
processed += self.implicit_inline(''.join(unprocessed),
|
|
lineno)
|
|
processed += inlines
|
|
unprocessed = []
|
|
else:
|
|
break
|
|
remaining = ''.join(unprocessed) + remaining
|
|
if remaining:
|
|
processed += self.implicit_inline(remaining, lineno)
|
|
return processed, messages
|
|
|
|
# Inline object recognition
|
|
# -------------------------
|
|
# See also init_customizations().
|
|
non_whitespace_before = r'(?<!\s)'
|
|
non_whitespace_escape_before = r'(?<![\s\x00])'
|
|
non_unescaped_whitespace_escape_before = r'(?<!(?<!\x00)[\s\x00])'
|
|
non_whitespace_after = r'(?!\s)'
|
|
# Alphanumerics with isolated internal [-._+:] chars (i.e. not 2 together):
|
|
simplename = r'(?:(?!_)\w)+(?:[-._+:](?:(?!_)\w)+)*'
|
|
# Valid URI characters (see RFC 2396 & RFC 2732);
|
|
# final \x00 allows backslash escapes in URIs:
|
|
uric = r"""[-_.!~*'()[\];/:@&=+$,%a-zA-Z0-9\x00]"""
|
|
# Delimiter indicating the end of a URI (not part of the URI):
|
|
uri_end_delim = r"""[>]"""
|
|
# Last URI character; same as uric but no punctuation:
|
|
urilast = r"""[_~*/=+a-zA-Z0-9]"""
|
|
# End of a URI (either 'urilast' or 'uric followed by a
|
|
# uri_end_delim'):
|
|
uri_end = r"""(?:%(urilast)s|%(uric)s(?=%(uri_end_delim)s))""" % locals()
|
|
emailc = r"""[-_!~*'{|}/#?^`&=+$%a-zA-Z0-9\x00]"""
|
|
email_pattern = r"""
|
|
%(emailc)s+(?:\.%(emailc)s+)* # name
|
|
(?<!\x00)@ # at
|
|
%(emailc)s+(?:\.%(emailc)s*)* # host
|
|
%(uri_end)s # final URI char
|
|
"""
|
|
|
|
def quoted_start(self, match):
|
|
"""Test if inline markup start-string is 'quoted'.
|
|
|
|
'Quoted' in this context means the start-string is enclosed in a pair
|
|
of matching opening/closing delimiters (not necessarily quotes)
|
|
or at the end of the match.
|
|
"""
|
|
string = match.string
|
|
start = match.start()
|
|
if start == 0: # start-string at beginning of text
|
|
return False
|
|
prestart = string[start - 1]
|
|
try:
|
|
poststart = string[match.end()]
|
|
except IndexError: # start-string at end of text
|
|
return True # not "quoted" but no markup start-string either
|
|
return punctuation_chars.match_chars(prestart, poststart)
|
|
|
|
def inline_obj(self, match, lineno, end_pattern, nodeclass,
|
|
restore_backslashes=False):
|
|
string = match.string
|
|
matchstart = match.start('start')
|
|
matchend = match.end('start')
|
|
if self.quoted_start(match):
|
|
return (string[:matchend], [], string[matchend:], [], '')
|
|
endmatch = end_pattern.search(string[matchend:])
|
|
if endmatch and endmatch.start(1): # 1 or more chars
|
|
text = unescape(endmatch.string[:endmatch.start(1)],
|
|
restore_backslashes)
|
|
textend = matchend + endmatch.end(1)
|
|
rawsource = unescape(string[matchstart:textend], 1)
|
|
return (string[:matchstart], [nodeclass(rawsource, text)],
|
|
string[textend:], [], endmatch.group(1))
|
|
msg = self.reporter.warning(
|
|
'Inline %s start-string without end-string.'
|
|
% nodeclass.__name__, line=lineno)
|
|
text = unescape(string[matchstart:matchend], 1)
|
|
rawsource = unescape(string[matchstart:matchend], 1)
|
|
prb = self.problematic(text, rawsource, msg)
|
|
return string[:matchstart], [prb], string[matchend:], [msg], ''
|
|
|
|
def problematic(self, text, rawsource, message):
|
|
msgid = self.document.set_id(message, self.parent)
|
|
problematic = nodes.problematic(rawsource, text, refid=msgid)
|
|
prbid = self.document.set_id(problematic)
|
|
message.add_backref(prbid)
|
|
return problematic
|
|
|
|
def emphasis(self, match, lineno):
|
|
before, inlines, remaining, sysmessages, endstring = self.inline_obj(
|
|
match, lineno, self.patterns.emphasis, nodes.emphasis)
|
|
return before, inlines, remaining, sysmessages
|
|
|
|
def strong(self, match, lineno):
|
|
before, inlines, remaining, sysmessages, endstring = self.inline_obj(
|
|
match, lineno, self.patterns.strong, nodes.strong)
|
|
return before, inlines, remaining, sysmessages
|
|
|
|
def interpreted_or_phrase_ref(self, match, lineno):
|
|
end_pattern = self.patterns.interpreted_or_phrase_ref
|
|
string = match.string
|
|
matchstart = match.start('backquote')
|
|
matchend = match.end('backquote')
|
|
rolestart = match.start('role')
|
|
role = match.group('role')
|
|
position = ''
|
|
if role:
|
|
role = role[1:-1]
|
|
position = 'prefix'
|
|
elif self.quoted_start(match):
|
|
return (string[:matchend], [], string[matchend:], [])
|
|
endmatch = end_pattern.search(string[matchend:])
|
|
if endmatch and endmatch.start(1): # 1 or more chars
|
|
textend = matchend + endmatch.end()
|
|
if endmatch.group('role'):
|
|
if role:
|
|
msg = self.reporter.warning(
|
|
'Multiple roles in interpreted text (both '
|
|
'prefix and suffix present; only one allowed).',
|
|
line=lineno)
|
|
text = unescape(string[rolestart:textend], 1)
|
|
prb = self.problematic(text, text, msg)
|
|
return string[:rolestart], [prb], string[textend:], [msg]
|
|
role = endmatch.group('suffix')[1:-1]
|
|
position = 'suffix'
|
|
escaped = endmatch.string[:endmatch.start(1)]
|
|
rawsource = unescape(string[matchstart:textend], 1)
|
|
if rawsource[-1:] == '_':
|
|
if role:
|
|
msg = self.reporter.warning(
|
|
'Mismatch: both interpreted text role %s and '
|
|
'reference suffix.' % position, line=lineno)
|
|
text = unescape(string[rolestart:textend], 1)
|
|
prb = self.problematic(text, text, msg)
|
|
return string[:rolestart], [prb], string[textend:], [msg]
|
|
return self.phrase_ref(string[:matchstart], string[textend:],
|
|
rawsource, escaped, unescape(escaped))
|
|
else:
|
|
rawsource = unescape(string[rolestart:textend], 1)
|
|
nodelist, messages = self.interpreted(rawsource, escaped, role,
|
|
lineno)
|
|
return (string[:rolestart], nodelist,
|
|
string[textend:], messages)
|
|
msg = self.reporter.warning(
|
|
'Inline interpreted text or phrase reference start-string '
|
|
'without end-string.', line=lineno)
|
|
text = unescape(string[matchstart:matchend], 1)
|
|
prb = self.problematic(text, text, msg)
|
|
return string[:matchstart], [prb], string[matchend:], [msg]
|
|
|
|
def phrase_ref(self, before, after, rawsource, escaped, text):
|
|
match = self.patterns.embedded_link.search(escaped)
|
|
if match: # embedded <URI> or <alias_>
|
|
text = unescape(escaped[:match.start(0)])
|
|
aliastext = match.group(2)
|
|
underscore_escaped = aliastext.endswith('\x00_')
|
|
aliastext = unescape(aliastext)
|
|
if aliastext.endswith('_') and not (underscore_escaped
|
|
or self.patterns.uri.match(aliastext)):
|
|
aliastype = 'name'
|
|
alias = normalize_name(aliastext[:-1])
|
|
target = nodes.target(match.group(1), refname=alias)
|
|
target.indirect_reference_name = aliastext[:-1]
|
|
else:
|
|
aliastype = 'uri'
|
|
alias_parts = split_escaped_whitespace(match.group(2))
|
|
alias = ' '.join(''.join(unescape(part).split())
|
|
for part in alias_parts)
|
|
alias = self.adjust_uri(alias)
|
|
if alias.endswith(r'\_'):
|
|
alias = alias[:-2] + '_'
|
|
target = nodes.target(match.group(1), refuri=alias)
|
|
target.referenced = 1
|
|
if not aliastext:
|
|
raise ApplicationError('problem with embedded link: %r'
|
|
% aliastext)
|
|
if not text:
|
|
text = alias
|
|
else:
|
|
target = None
|
|
|
|
refname = normalize_name(text)
|
|
reference = nodes.reference(rawsource, text,
|
|
name=whitespace_normalize_name(text))
|
|
node_list = [reference]
|
|
|
|
if rawsource[-2:] == '__':
|
|
if target and (aliastype == 'name'):
|
|
reference['refname'] = alias
|
|
self.document.note_refname(reference)
|
|
# self.document.note_indirect_target(target) # required?
|
|
elif target and (aliastype == 'uri'):
|
|
reference['refuri'] = alias
|
|
else:
|
|
reference['anonymous'] = 1
|
|
else:
|
|
if target:
|
|
target['names'].append(refname)
|
|
if aliastype == 'name':
|
|
reference['refname'] = alias
|
|
self.document.note_indirect_target(target)
|
|
self.document.note_refname(reference)
|
|
else:
|
|
reference['refuri'] = alias
|
|
self.document.note_explicit_target(target, self.parent)
|
|
# target.note_referenced_by(name=refname)
|
|
node_list.append(target)
|
|
else:
|
|
reference['refname'] = refname
|
|
self.document.note_refname(reference)
|
|
return before, node_list, after, []
|
|
|
|
|
|
def adjust_uri(self, uri):
|
|
match = self.patterns.email.match(uri)
|
|
if match:
|
|
return 'mailto:' + uri
|
|
else:
|
|
return uri
|
|
|
|
def interpreted(self, rawsource, text, role, lineno):
|
|
role_fn, messages = roles.role(role, self.language, lineno,
|
|
self.reporter)
|
|
if role_fn:
|
|
nodes, messages2 = role_fn(role, rawsource, text, lineno, self)
|
|
return nodes, messages + messages2
|
|
else:
|
|
msg = self.reporter.error(
|
|
'Unknown interpreted text role "%s".' % role,
|
|
line=lineno)
|
|
return ([self.problematic(rawsource, rawsource, msg)],
|
|
messages + [msg])
|
|
|
|
def literal(self, match, lineno):
|
|
before, inlines, remaining, sysmessages, endstring = self.inline_obj(
|
|
match, lineno, self.patterns.literal, nodes.literal,
|
|
restore_backslashes=True)
|
|
return before, inlines, remaining, sysmessages
|
|
|
|
def inline_internal_target(self, match, lineno):
|
|
before, inlines, remaining, sysmessages, endstring = self.inline_obj(
|
|
match, lineno, self.patterns.target, nodes.target)
|
|
if inlines and isinstance(inlines[0], nodes.target):
|
|
assert len(inlines) == 1
|
|
target = inlines[0]
|
|
name = normalize_name(target.astext())
|
|
target['names'].append(name)
|
|
self.document.note_explicit_target(target, self.parent)
|
|
return before, inlines, remaining, sysmessages
|
|
|
|
def substitution_reference(self, match, lineno):
|
|
before, inlines, remaining, sysmessages, endstring = self.inline_obj(
|
|
match, lineno, self.patterns.substitution_ref,
|
|
nodes.substitution_reference)
|
|
if len(inlines) == 1:
|
|
subref_node = inlines[0]
|
|
if isinstance(subref_node, nodes.substitution_reference):
|
|
subref_text = subref_node.astext()
|
|
self.document.note_substitution_ref(subref_node, subref_text)
|
|
if endstring[-1:] == '_':
|
|
reference_node = nodes.reference(
|
|
'|%s%s' % (subref_text, endstring), '')
|
|
if endstring[-2:] == '__':
|
|
reference_node['anonymous'] = 1
|
|
else:
|
|
reference_node['refname'] = normalize_name(subref_text)
|
|
self.document.note_refname(reference_node)
|
|
reference_node += subref_node
|
|
inlines = [reference_node]
|
|
return before, inlines, remaining, sysmessages
|
|
|
|
def footnote_reference(self, match, lineno):
|
|
"""
|
|
Handles `nodes.footnote_reference` and `nodes.citation_reference`
|
|
elements.
|
|
"""
|
|
label = match.group('footnotelabel')
|
|
refname = normalize_name(label)
|
|
string = match.string
|
|
before = string[:match.start('whole')]
|
|
remaining = string[match.end('whole'):]
|
|
if match.group('citationlabel'):
|
|
refnode = nodes.citation_reference('[%s]_' % label,
|
|
refname=refname)
|
|
refnode += nodes.Text(label)
|
|
self.document.note_citation_ref(refnode)
|
|
else:
|
|
refnode = nodes.footnote_reference('[%s]_' % label)
|
|
if refname[0] == '#':
|
|
refname = refname[1:]
|
|
refnode['auto'] = 1
|
|
self.document.note_autofootnote_ref(refnode)
|
|
elif refname == '*':
|
|
refname = ''
|
|
refnode['auto'] = '*'
|
|
self.document.note_symbol_footnote_ref(
|
|
refnode)
|
|
else:
|
|
refnode += nodes.Text(label)
|
|
if refname:
|
|
refnode['refname'] = refname
|
|
self.document.note_footnote_ref(refnode)
|
|
if utils.get_trim_footnote_ref_space(self.document.settings):
|
|
before = before.rstrip()
|
|
return (before, [refnode], remaining, [])
|
|
|
|
def reference(self, match, lineno, anonymous=False):
|
|
referencename = match.group('refname')
|
|
refname = normalize_name(referencename)
|
|
referencenode = nodes.reference(
|
|
referencename + match.group('refend'), referencename,
|
|
name=whitespace_normalize_name(referencename))
|
|
if anonymous:
|
|
referencenode['anonymous'] = 1
|
|
else:
|
|
referencenode['refname'] = refname
|
|
self.document.note_refname(referencenode)
|
|
string = match.string
|
|
matchstart = match.start('whole')
|
|
matchend = match.end('whole')
|
|
return (string[:matchstart], [referencenode], string[matchend:], [])
|
|
|
|
def anonymous_reference(self, match, lineno):
|
|
return self.reference(match, lineno, anonymous=1)
|
|
|
|
def standalone_uri(self, match, lineno):
|
|
if (not match.group('scheme')
|
|
or match.group('scheme').lower() in urischemes.schemes):
|
|
if match.group('email'):
|
|
addscheme = 'mailto:'
|
|
else:
|
|
addscheme = ''
|
|
text = match.group('whole')
|
|
unescaped = unescape(text, 0)
|
|
return [nodes.reference(unescape(text, 1), unescaped,
|
|
refuri=addscheme + unescaped)]
|
|
else: # not a valid scheme
|
|
raise MarkupMismatch
|
|
|
|
def pep_reference(self, match, lineno):
|
|
text = match.group(0)
|
|
if text.startswith('pep-'):
|
|
pepnum = int(match.group('pepnum1'))
|
|
elif text.startswith('PEP'):
|
|
pepnum = int(match.group('pepnum2'))
|
|
else:
|
|
raise MarkupMismatch
|
|
ref = (self.document.settings.pep_base_url
|
|
+ self.document.settings.pep_file_url_template % pepnum)
|
|
unescaped = unescape(text, 0)
|
|
return [nodes.reference(unescape(text, 1), unescaped, refuri=ref)]
|
|
|
|
rfc_url = 'rfc%d.html'
|
|
|
|
def rfc_reference(self, match, lineno):
|
|
text = match.group(0)
|
|
if text.startswith('RFC'):
|
|
rfcnum = int(match.group('rfcnum'))
|
|
ref = self.document.settings.rfc_base_url + self.rfc_url % rfcnum
|
|
else:
|
|
raise MarkupMismatch
|
|
unescaped = unescape(text, 0)
|
|
return [nodes.reference(unescape(text, 1), unescaped, refuri=ref)]
|
|
|
|
def implicit_inline(self, text, lineno):
|
|
"""
|
|
Check each of the patterns in `self.implicit_dispatch` for a match,
|
|
and dispatch to the stored method for the pattern. Recursively check
|
|
the text before and after the match. Return a list of `nodes.Text`
|
|
and inline element nodes.
|
|
"""
|
|
if not text:
|
|
return []
|
|
for pattern, method in self.implicit_dispatch:
|
|
match = pattern.search(text)
|
|
if match:
|
|
try:
|
|
# Must recurse on strings before *and* after the match;
|
|
# there may be multiple patterns.
|
|
return (self.implicit_inline(text[:match.start()], lineno)
|
|
+ method(match, lineno) +
|
|
self.implicit_inline(text[match.end():], lineno))
|
|
except MarkupMismatch:
|
|
pass
|
|
return [nodes.Text(unescape(text), rawsource=unescape(text, 1))]
|
|
|
|
dispatch = {'*': emphasis,
|
|
'**': strong,
|
|
'`': interpreted_or_phrase_ref,
|
|
'``': literal,
|
|
'_`': inline_internal_target,
|
|
']_': footnote_reference,
|
|
'|': substitution_reference,
|
|
'_': reference,
|
|
'__': anonymous_reference}
|
|
|
|
|
|
def _loweralpha_to_int(s, _zero=(ord('a')-1)):
|
|
return ord(s) - _zero
|
|
|
|
def _upperalpha_to_int(s, _zero=(ord('A')-1)):
|
|
return ord(s) - _zero
|
|
|
|
def _lowerroman_to_int(s):
|
|
return roman.fromRoman(s.upper())
|
|
|
|
|
|
class Body(RSTState):
|
|
|
|
"""
|
|
Generic classifier of the first line of a block.
|
|
"""
|
|
|
|
double_width_pad_char = tableparser.TableParser.double_width_pad_char
|
|
"""Padding character for East Asian double-width text."""
|
|
|
|
enum = Struct()
|
|
"""Enumerated list parsing information."""
|
|
|
|
enum.formatinfo = {
|
|
'parens': Struct(prefix='(', suffix=')', start=1, end=-1),
|
|
'rparen': Struct(prefix='', suffix=')', start=0, end=-1),
|
|
'period': Struct(prefix='', suffix='.', start=0, end=-1)}
|
|
enum.formats = list(enum.formatinfo.keys())
|
|
enum.sequences = ['arabic', 'loweralpha', 'upperalpha',
|
|
'lowerroman', 'upperroman'] # ORDERED!
|
|
enum.sequencepats = {'arabic': '[0-9]+',
|
|
'loweralpha': '[a-z]',
|
|
'upperalpha': '[A-Z]',
|
|
'lowerroman': '[ivxlcdm]+',
|
|
'upperroman': '[IVXLCDM]+',}
|
|
enum.converters = {'arabic': int,
|
|
'loweralpha': _loweralpha_to_int,
|
|
'upperalpha': _upperalpha_to_int,
|
|
'lowerroman': _lowerroman_to_int,
|
|
'upperroman': roman.fromRoman}
|
|
|
|
enum.sequenceregexps = {}
|
|
for sequence in enum.sequences:
|
|
enum.sequenceregexps[sequence] = re.compile(
|
|
enum.sequencepats[sequence] + '$', re.UNICODE)
|
|
|
|
grid_table_top_pat = re.compile(r'\+-[-+]+-\+ *$')
|
|
"""Matches the top (& bottom) of a full table)."""
|
|
|
|
simple_table_top_pat = re.compile('=+( +=+)+ *$')
|
|
"""Matches the top of a simple table."""
|
|
|
|
simple_table_border_pat = re.compile('=+[ =]*$')
|
|
"""Matches the bottom & header bottom of a simple table."""
|
|
|
|
pats = {}
|
|
"""Fragments of patterns used by transitions."""
|
|
|
|
pats['nonalphanum7bit'] = '[!-/:-@[-`{-~]'
|
|
pats['alpha'] = '[a-zA-Z]'
|
|
pats['alphanum'] = '[a-zA-Z0-9]'
|
|
pats['alphanumplus'] = '[a-zA-Z0-9_-]'
|
|
pats['enum'] = ('(%(arabic)s|%(loweralpha)s|%(upperalpha)s|%(lowerroman)s'
|
|
'|%(upperroman)s|#)' % enum.sequencepats)
|
|
pats['optname'] = '%(alphanum)s%(alphanumplus)s*' % pats
|
|
# @@@ Loosen up the pattern? Allow Unicode?
|
|
pats['optarg'] = '(%(alpha)s%(alphanumplus)s*|<[^<>]+>)' % pats
|
|
pats['shortopt'] = r'(-|\+)%(alphanum)s( ?%(optarg)s)?' % pats
|
|
pats['longopt'] = r'(--|/)%(optname)s([ =]%(optarg)s)?' % pats
|
|
pats['option'] = r'(%(shortopt)s|%(longopt)s)' % pats
|
|
|
|
for format in enum.formats:
|
|
pats[format] = '(?P<%s>%s%s%s)' % (
|
|
format, re.escape(enum.formatinfo[format].prefix),
|
|
pats['enum'], re.escape(enum.formatinfo[format].suffix))
|
|
|
|
patterns = {
|
|
'bullet': '[-+*\u2022\u2023\u2043]( +|$)',
|
|
'enumerator': r'(%(parens)s|%(rparen)s|%(period)s)( +|$)' % pats,
|
|
'field_marker': r':(?![: ])([^:\\]|\\.)*(?<! ):( +|$)',
|
|
'option_marker': r'%(option)s(, %(option)s)*( +| ?$)' % pats,
|
|
'doctest': r'>>>( +|$)',
|
|
'line_block': r'\|( +|$)',
|
|
'grid_table_top': grid_table_top_pat,
|
|
'simple_table_top': simple_table_top_pat,
|
|
'explicit_markup': r'\.\.( +|$)',
|
|
'anonymous': r'__( +|$)',
|
|
'line': r'(%(nonalphanum7bit)s)\1* *$' % pats,
|
|
'text': r''}
|
|
initial_transitions = (
|
|
'bullet',
|
|
'enumerator',
|
|
'field_marker',
|
|
'option_marker',
|
|
'doctest',
|
|
'line_block',
|
|
'grid_table_top',
|
|
'simple_table_top',
|
|
'explicit_markup',
|
|
'anonymous',
|
|
'line',
|
|
'text')
|
|
|
|
def indent(self, match, context, next_state):
|
|
"""Block quote."""
|
|
indented, indent, line_offset, blank_finish = \
|
|
self.state_machine.get_indented()
|
|
elements = self.block_quote(indented, line_offset)
|
|
self.parent += elements
|
|
if not blank_finish:
|
|
self.parent += self.unindent_warning('Block quote')
|
|
return context, next_state, []
|
|
|
|
def block_quote(self, indented, line_offset):
|
|
elements = []
|
|
while indented:
|
|
(blockquote_lines,
|
|
attribution_lines,
|
|
attribution_offset,
|
|
indented,
|
|
new_line_offset) = self.split_attribution(indented, line_offset)
|
|
blockquote = nodes.block_quote()
|
|
self.nested_parse(blockquote_lines, line_offset, blockquote)
|
|
elements.append(blockquote)
|
|
if attribution_lines:
|
|
attribution, messages = self.parse_attribution(
|
|
attribution_lines, attribution_offset)
|
|
blockquote += attribution
|
|
elements += messages
|
|
line_offset = new_line_offset
|
|
while indented and not indented[0]:
|
|
indented = indented[1:]
|
|
line_offset += 1
|
|
return elements
|
|
|
|
# U+2014 is an em-dash:
|
|
attribution_pattern = re.compile('(---?(?!-)|\u2014) *(?=[^ \\n])',
|
|
re.UNICODE)
|
|
|
|
def split_attribution(self, indented, line_offset):
|
|
"""
|
|
Check for a block quote attribution and split it off:
|
|
|
|
* First line after a blank line must begin with a dash ("--", "---",
|
|
em-dash; matches `self.attribution_pattern`).
|
|
* Every line after that must have consistent indentation.
|
|
* Attributions must be preceded by block quote content.
|
|
|
|
Return a tuple of: (block quote content lines, content offset,
|
|
attribution lines, attribution offset, remaining indented lines).
|
|
"""
|
|
blank = None
|
|
nonblank_seen = False
|
|
for i in range(len(indented)):
|
|
line = indented[i].rstrip()
|
|
if line:
|
|
if nonblank_seen and blank == i - 1: # last line blank
|
|
match = self.attribution_pattern.match(line)
|
|
if match:
|
|
attribution_end, indent = self.check_attribution(
|
|
indented, i)
|
|
if attribution_end:
|
|
a_lines = indented[i:attribution_end]
|
|
a_lines.trim_left(match.end(), end=1)
|
|
a_lines.trim_left(indent, start=1)
|
|
return (indented[:i], a_lines,
|
|
i, indented[attribution_end:],
|
|
line_offset + attribution_end)
|
|
nonblank_seen = True
|
|
else:
|
|
blank = i
|
|
else:
|
|
return (indented, None, None, None, None)
|
|
|
|
def check_attribution(self, indented, attribution_start):
|
|
"""
|
|
Check attribution shape.
|
|
Return the index past the end of the attribution, and the indent.
|
|
"""
|
|
indent = None
|
|
i = attribution_start + 1
|
|
for i in range(attribution_start + 1, len(indented)):
|
|
line = indented[i].rstrip()
|
|
if not line:
|
|
break
|
|
if indent is None:
|
|
indent = len(line) - len(line.lstrip())
|
|
elif len(line) - len(line.lstrip()) != indent:
|
|
return None, None # bad shape; not an attribution
|
|
else:
|
|
# return index of line after last attribution line:
|
|
i += 1
|
|
return i, (indent or 0)
|
|
|
|
def parse_attribution(self, indented, line_offset):
|
|
text = '\n'.join(indented).rstrip()
|
|
lineno = self.state_machine.abs_line_number() + line_offset
|
|
textnodes, messages = self.inline_text(text, lineno)
|
|
node = nodes.attribution(text, '', *textnodes)
|
|
node.source, node.line = self.state_machine.get_source_and_line(lineno)
|
|
return node, messages
|
|
|
|
def bullet(self, match, context, next_state):
|
|
"""Bullet list item."""
|
|
bulletlist = nodes.bullet_list()
|
|
(bulletlist.source,
|
|
bulletlist.line) = self.state_machine.get_source_and_line()
|
|
self.parent += bulletlist
|
|
bulletlist['bullet'] = match.string[0]
|
|
i, blank_finish = self.list_item(match.end())
|
|
bulletlist += i
|
|
offset = self.state_machine.line_offset + 1 # next line
|
|
new_line_offset, blank_finish = self.nested_list_parse(
|
|
self.state_machine.input_lines[offset:],
|
|
input_offset=self.state_machine.abs_line_offset() + 1,
|
|
node=bulletlist, initial_state='BulletList',
|
|
blank_finish=blank_finish)
|
|
self.goto_line(new_line_offset)
|
|
if not blank_finish:
|
|
self.parent += self.unindent_warning('Bullet list')
|
|
return [], next_state, []
|
|
|
|
def list_item(self, indent):
|
|
if self.state_machine.line[indent:]:
|
|
indented, line_offset, blank_finish = (
|
|
self.state_machine.get_known_indented(indent))
|
|
else:
|
|
indented, indent, line_offset, blank_finish = (
|
|
self.state_machine.get_first_known_indented(indent))
|
|
listitem = nodes.list_item('\n'.join(indented))
|
|
if indented:
|
|
self.nested_parse(indented, input_offset=line_offset,
|
|
node=listitem)
|
|
return listitem, blank_finish
|
|
|
|
def enumerator(self, match, context, next_state):
|
|
"""Enumerated List Item"""
|
|
format, sequence, text, ordinal = self.parse_enumerator(match)
|
|
if not self.is_enumerated_list_item(ordinal, sequence, format):
|
|
raise statemachine.TransitionCorrection('text')
|
|
enumlist = nodes.enumerated_list()
|
|
self.parent += enumlist
|
|
if sequence == '#':
|
|
enumlist['enumtype'] = 'arabic'
|
|
else:
|
|
enumlist['enumtype'] = sequence
|
|
enumlist['prefix'] = self.enum.formatinfo[format].prefix
|
|
enumlist['suffix'] = self.enum.formatinfo[format].suffix
|
|
if ordinal != 1:
|
|
enumlist['start'] = ordinal
|
|
msg = self.reporter.info(
|
|
'Enumerated list start value not ordinal-1: "%s" (ordinal %s)'
|
|
% (text, ordinal))
|
|
self.parent += msg
|
|
listitem, blank_finish = self.list_item(match.end())
|
|
enumlist += listitem
|
|
offset = self.state_machine.line_offset + 1 # next line
|
|
newline_offset, blank_finish = self.nested_list_parse(
|
|
self.state_machine.input_lines[offset:],
|
|
input_offset=self.state_machine.abs_line_offset() + 1,
|
|
node=enumlist, initial_state='EnumeratedList',
|
|
blank_finish=blank_finish,
|
|
extra_settings={'lastordinal': ordinal,
|
|
'format': format,
|
|
'auto': sequence == '#'})
|
|
self.goto_line(newline_offset)
|
|
if not blank_finish:
|
|
self.parent += self.unindent_warning('Enumerated list')
|
|
return [], next_state, []
|
|
|
|
def parse_enumerator(self, match, expected_sequence=None):
|
|
"""
|
|
Analyze an enumerator and return the results.
|
|
|
|
:Return:
|
|
- the enumerator format ('period', 'parens', or 'rparen'),
|
|
- the sequence used ('arabic', 'loweralpha', 'upperroman', etc.),
|
|
- the text of the enumerator, stripped of formatting, and
|
|
- the ordinal value of the enumerator ('a' -> 1, 'ii' -> 2, etc.;
|
|
``None`` is returned for invalid enumerator text).
|
|
|
|
The enumerator format has already been determined by the regular
|
|
expression match. If `expected_sequence` is given, that sequence is
|
|
tried first. If not, we check for Roman numeral 1. This way,
|
|
single-character Roman numerals (which are also alphabetical) can be
|
|
matched. If no sequence has been matched, all sequences are checked in
|
|
order.
|
|
"""
|
|
groupdict = match.groupdict()
|
|
sequence = ''
|
|
for format in self.enum.formats:
|
|
if groupdict[format]: # was this the format matched?
|
|
break # yes; keep `format`
|
|
else: # shouldn't happen
|
|
raise ParserError('enumerator format not matched')
|
|
text = groupdict[format][self.enum.formatinfo[format].start
|
|
:self.enum.formatinfo[format].end]
|
|
if text == '#':
|
|
sequence = '#'
|
|
elif expected_sequence:
|
|
try:
|
|
if self.enum.sequenceregexps[expected_sequence].match(text):
|
|
sequence = expected_sequence
|
|
except KeyError: # shouldn't happen
|
|
raise ParserError('unknown enumerator sequence: %s'
|
|
% sequence)
|
|
elif text == 'i':
|
|
sequence = 'lowerroman'
|
|
elif text == 'I':
|
|
sequence = 'upperroman'
|
|
if not sequence:
|
|
for sequence in self.enum.sequences:
|
|
if self.enum.sequenceregexps[sequence].match(text):
|
|
break
|
|
else: # shouldn't happen
|
|
raise ParserError('enumerator sequence not matched')
|
|
if sequence == '#':
|
|
ordinal = 1
|
|
else:
|
|
try:
|
|
ordinal = self.enum.converters[sequence](text)
|
|
except roman.InvalidRomanNumeralError:
|
|
ordinal = None
|
|
return format, sequence, text, ordinal
|
|
|
|
def is_enumerated_list_item(self, ordinal, sequence, format):
|
|
"""
|
|
Check validity based on the ordinal value and the second line.
|
|
|
|
Return true if the ordinal is valid and the second line is blank,
|
|
indented, or starts with the next enumerator or an auto-enumerator.
|
|
"""
|
|
if ordinal is None:
|
|
return None
|
|
try:
|
|
next_line = self.state_machine.next_line()
|
|
except EOFError: # end of input lines
|
|
self.state_machine.previous_line()
|
|
return 1
|
|
else:
|
|
self.state_machine.previous_line()
|
|
if not next_line[:1].strip(): # blank or indented
|
|
return 1
|
|
result = self.make_enumerator(ordinal + 1, sequence, format)
|
|
if result:
|
|
next_enumerator, auto_enumerator = result
|
|
try:
|
|
if ( next_line.startswith(next_enumerator) or
|
|
next_line.startswith(auto_enumerator) ):
|
|
return 1
|
|
except TypeError:
|
|
pass
|
|
return None
|
|
|
|
def make_enumerator(self, ordinal, sequence, format):
|
|
"""
|
|
Construct and return the next enumerated list item marker, and an
|
|
auto-enumerator ("#" instead of the regular enumerator).
|
|
|
|
Return ``None`` for invalid (out of range) ordinals.
|
|
""" #"
|
|
if sequence == '#':
|
|
enumerator = '#'
|
|
elif sequence == 'arabic':
|
|
enumerator = str(ordinal)
|
|
else:
|
|
if sequence.endswith('alpha'):
|
|
if ordinal > 26:
|
|
return None
|
|
enumerator = chr(ordinal + ord('a') - 1)
|
|
elif sequence.endswith('roman'):
|
|
try:
|
|
enumerator = roman.toRoman(ordinal)
|
|
except roman.RomanError:
|
|
return None
|
|
else: # shouldn't happen
|
|
raise ParserError('unknown enumerator sequence: "%s"'
|
|
% sequence)
|
|
if sequence.startswith('lower'):
|
|
enumerator = enumerator.lower()
|
|
elif sequence.startswith('upper'):
|
|
enumerator = enumerator.upper()
|
|
else: # shouldn't happen
|
|
raise ParserError('unknown enumerator sequence: "%s"'
|
|
% sequence)
|
|
formatinfo = self.enum.formatinfo[format]
|
|
next_enumerator = (formatinfo.prefix + enumerator + formatinfo.suffix
|
|
+ ' ')
|
|
auto_enumerator = formatinfo.prefix + '#' + formatinfo.suffix + ' '
|
|
return next_enumerator, auto_enumerator
|
|
|
|
def field_marker(self, match, context, next_state):
|
|
"""Field list item."""
|
|
field_list = nodes.field_list()
|
|
self.parent += field_list
|
|
field, blank_finish = self.field(match)
|
|
field_list += field
|
|
offset = self.state_machine.line_offset + 1 # next line
|
|
newline_offset, blank_finish = self.nested_list_parse(
|
|
self.state_machine.input_lines[offset:],
|
|
input_offset=self.state_machine.abs_line_offset() + 1,
|
|
node=field_list, initial_state='FieldList',
|
|
blank_finish=blank_finish)
|
|
self.goto_line(newline_offset)
|
|
if not blank_finish:
|
|
self.parent += self.unindent_warning('Field list')
|
|
return [], next_state, []
|
|
|
|
def field(self, match):
|
|
name = self.parse_field_marker(match)
|
|
src, srcline = self.state_machine.get_source_and_line()
|
|
lineno = self.state_machine.abs_line_number()
|
|
indented, indent, line_offset, blank_finish = \
|
|
self.state_machine.get_first_known_indented(match.end())
|
|
field_node = nodes.field()
|
|
field_node.source = src
|
|
field_node.line = srcline
|
|
name_nodes, name_messages = self.inline_text(name, lineno)
|
|
field_node += nodes.field_name(name, '', *name_nodes)
|
|
field_body = nodes.field_body('\n'.join(indented), *name_messages)
|
|
field_node += field_body
|
|
if indented:
|
|
self.parse_field_body(indented, line_offset, field_body)
|
|
return field_node, blank_finish
|
|
|
|
def parse_field_marker(self, match):
|
|
"""Extract & return field name from a field marker match."""
|
|
field = match.group()[1:] # strip off leading ':'
|
|
field = field[:field.rfind(':')] # strip off trailing ':' etc.
|
|
return field
|
|
|
|
def parse_field_body(self, indented, offset, node):
|
|
self.nested_parse(indented, input_offset=offset, node=node)
|
|
|
|
def option_marker(self, match, context, next_state):
|
|
"""Option list item."""
|
|
optionlist = nodes.option_list()
|
|
(optionlist.source, optionlist.line) = self.state_machine.get_source_and_line()
|
|
try:
|
|
listitem, blank_finish = self.option_list_item(match)
|
|
except MarkupError as error:
|
|
# This shouldn't happen; pattern won't match.
|
|
msg = self.reporter.error('Invalid option list marker: %s' %
|
|
error)
|
|
self.parent += msg
|
|
indented, indent, line_offset, blank_finish = \
|
|
self.state_machine.get_first_known_indented(match.end())
|
|
elements = self.block_quote(indented, line_offset)
|
|
self.parent += elements
|
|
if not blank_finish:
|
|
self.parent += self.unindent_warning('Option list')
|
|
return [], next_state, []
|
|
self.parent += optionlist
|
|
optionlist += listitem
|
|
offset = self.state_machine.line_offset + 1 # next line
|
|
newline_offset, blank_finish = self.nested_list_parse(
|
|
self.state_machine.input_lines[offset:],
|
|
input_offset=self.state_machine.abs_line_offset() + 1,
|
|
node=optionlist, initial_state='OptionList',
|
|
blank_finish=blank_finish)
|
|
self.goto_line(newline_offset)
|
|
if not blank_finish:
|
|
self.parent += self.unindent_warning('Option list')
|
|
return [], next_state, []
|
|
|
|
def option_list_item(self, match):
|
|
offset = self.state_machine.abs_line_offset()
|
|
options = self.parse_option_marker(match)
|
|
indented, indent, line_offset, blank_finish = \
|
|
self.state_machine.get_first_known_indented(match.end())
|
|
if not indented: # not an option list item
|
|
self.goto_line(offset)
|
|
raise statemachine.TransitionCorrection('text')
|
|
option_group = nodes.option_group('', *options)
|
|
description = nodes.description('\n'.join(indented))
|
|
option_list_item = nodes.option_list_item('', option_group,
|
|
description)
|
|
if indented:
|
|
self.nested_parse(indented, input_offset=line_offset,
|
|
node=description)
|
|
return option_list_item, blank_finish
|
|
|
|
def parse_option_marker(self, match):
|
|
"""
|
|
Return a list of `node.option` and `node.option_argument` objects,
|
|
parsed from an option marker match.
|
|
|
|
:Exception: `MarkupError` for invalid option markers.
|
|
"""
|
|
optlist = []
|
|
optionstrings = match.group().rstrip().split(', ')
|
|
for optionstring in optionstrings:
|
|
tokens = optionstring.split()
|
|
delimiter = ' '
|
|
firstopt = tokens[0].split('=', 1)
|
|
if len(firstopt) > 1:
|
|
# "--opt=value" form
|
|
tokens[:1] = firstopt
|
|
delimiter = '='
|
|
elif (len(tokens[0]) > 2
|
|
and ((tokens[0].startswith('-')
|
|
and not tokens[0].startswith('--'))
|
|
or tokens[0].startswith('+'))):
|
|
# "-ovalue" form
|
|
tokens[:1] = [tokens[0][:2], tokens[0][2:]]
|
|
delimiter = ''
|
|
if len(tokens) > 1 and (tokens[1].startswith('<')
|
|
and tokens[-1].endswith('>')):
|
|
# "-o <value1 value2>" form; join all values into one token
|
|
tokens[1:] = [' '.join(tokens[1:])]
|
|
if 0 < len(tokens) <= 2:
|
|
option = nodes.option(optionstring)
|
|
option += nodes.option_string(tokens[0], tokens[0])
|
|
if len(tokens) > 1:
|
|
option += nodes.option_argument(tokens[1], tokens[1],
|
|
delimiter=delimiter)
|
|
optlist.append(option)
|
|
else:
|
|
raise MarkupError(
|
|
'wrong number of option tokens (=%s), should be 1 or 2: '
|
|
'"%s"' % (len(tokens), optionstring))
|
|
return optlist
|
|
|
|
def doctest(self, match, context, next_state):
|
|
data = '\n'.join(self.state_machine.get_text_block())
|
|
# TODO: prepend class value ['pycon'] (Python Console)
|
|
# parse with `directives.body.CodeBlock` (returns literal-block
|
|
# with class "code" and syntax highlight markup).
|
|
self.parent += nodes.doctest_block(data, data)
|
|
return [], next_state, []
|
|
|
|
def line_block(self, match, context, next_state):
|
|
"""First line of a line block."""
|
|
block = nodes.line_block()
|
|
self.parent += block
|
|
lineno = self.state_machine.abs_line_number()
|
|
line, messages, blank_finish = self.line_block_line(match, lineno)
|
|
block += line
|
|
self.parent += messages
|
|
if not blank_finish:
|
|
offset = self.state_machine.line_offset + 1 # next line
|
|
new_line_offset, blank_finish = self.nested_list_parse(
|
|
self.state_machine.input_lines[offset:],
|
|
input_offset=self.state_machine.abs_line_offset() + 1,
|
|
node=block, initial_state='LineBlock',
|
|
blank_finish=0)
|
|
self.goto_line(new_line_offset)
|
|
if not blank_finish:
|
|
self.parent += self.reporter.warning(
|
|
'Line block ends without a blank line.',
|
|
line=lineno+1)
|
|
if len(block):
|
|
if block[0].indent is None:
|
|
block[0].indent = 0
|
|
self.nest_line_block_lines(block)
|
|
return [], next_state, []
|
|
|
|
def line_block_line(self, match, lineno):
|
|
"""Return one line element of a line_block."""
|
|
indented, indent, line_offset, blank_finish = \
|
|
self.state_machine.get_first_known_indented(match.end(),
|
|
until_blank=True)
|
|
text = '\n'.join(indented)
|
|
text_nodes, messages = self.inline_text(text, lineno)
|
|
line = nodes.line(text, '', *text_nodes)
|
|
if match.string.rstrip() != '|': # not empty
|
|
line.indent = len(match.group(1)) - 1
|
|
return line, messages, blank_finish
|
|
|
|
def nest_line_block_lines(self, block):
|
|
for index in range(1, len(block)):
|
|
if getattr(block[index], 'indent', None) is None:
|
|
block[index].indent = block[index - 1].indent
|
|
self.nest_line_block_segment(block)
|
|
|
|
def nest_line_block_segment(self, block):
|
|
indents = [item.indent for item in block]
|
|
least = min(indents)
|
|
new_items = []
|
|
new_block = nodes.line_block()
|
|
for item in block:
|
|
if item.indent > least:
|
|
new_block.append(item)
|
|
else:
|
|
if len(new_block):
|
|
self.nest_line_block_segment(new_block)
|
|
new_items.append(new_block)
|
|
new_block = nodes.line_block()
|
|
new_items.append(item)
|
|
if len(new_block):
|
|
self.nest_line_block_segment(new_block)
|
|
new_items.append(new_block)
|
|
block[:] = new_items
|
|
|
|
def grid_table_top(self, match, context, next_state):
|
|
"""Top border of a full table."""
|
|
return self.table_top(match, context, next_state,
|
|
self.isolate_grid_table,
|
|
tableparser.GridTableParser)
|
|
|
|
def simple_table_top(self, match, context, next_state):
|
|
"""Top border of a simple table."""
|
|
return self.table_top(match, context, next_state,
|
|
self.isolate_simple_table,
|
|
tableparser.SimpleTableParser)
|
|
|
|
def table_top(self, match, context, next_state,
|
|
isolate_function, parser_class):
|
|
"""Top border of a generic table."""
|
|
nodelist, blank_finish = self.table(isolate_function, parser_class)
|
|
self.parent += nodelist
|
|
if not blank_finish:
|
|
msg = self.reporter.warning(
|
|
'Blank line required after table.',
|
|
line=self.state_machine.abs_line_number()+1)
|
|
self.parent += msg
|
|
return [], next_state, []
|
|
|
|
def table(self, isolate_function, parser_class):
|
|
"""Parse a table."""
|
|
block, messages, blank_finish = isolate_function()
|
|
if block:
|
|
try:
|
|
parser = parser_class()
|
|
tabledata = parser.parse(block)
|
|
tableline = (self.state_machine.abs_line_number() - len(block)
|
|
+ 1)
|
|
table = self.build_table(tabledata, tableline)
|
|
nodelist = [table] + messages
|
|
except tableparser.TableMarkupError as err:
|
|
nodelist = self.malformed_table(block, ' '.join(err.args),
|
|
offset=err.offset) + messages
|
|
else:
|
|
nodelist = messages
|
|
return nodelist, blank_finish
|
|
|
|
def isolate_grid_table(self):
|
|
messages = []
|
|
blank_finish = 1
|
|
try:
|
|
block = self.state_machine.get_text_block(flush_left=True)
|
|
except statemachine.UnexpectedIndentationError as err:
|
|
block, src, srcline = err.args
|
|
messages.append(self.reporter.error('Unexpected indentation.',
|
|
source=src, line=srcline))
|
|
blank_finish = 0
|
|
block.disconnect()
|
|
# for East Asian chars:
|
|
block.pad_double_width(self.double_width_pad_char)
|
|
width = len(block[0].strip())
|
|
for i in range(len(block)):
|
|
block[i] = block[i].strip()
|
|
if block[i][0] not in '+|': # check left edge
|
|
blank_finish = 0
|
|
self.state_machine.previous_line(len(block) - i)
|
|
del block[i:]
|
|
break
|
|
if not self.grid_table_top_pat.match(block[-1]): # find bottom
|
|
blank_finish = 0
|
|
# from second-last to third line of table:
|
|
for i in range(len(block) - 2, 1, -1):
|
|
if self.grid_table_top_pat.match(block[i]):
|
|
self.state_machine.previous_line(len(block) - i + 1)
|
|
del block[i+1:]
|
|
break
|
|
else:
|
|
messages.extend(self.malformed_table(block))
|
|
return [], messages, blank_finish
|
|
for i in range(len(block)): # check right edge
|
|
if len(block[i]) != width or block[i][-1] not in '+|':
|
|
messages.extend(self.malformed_table(block))
|
|
return [], messages, blank_finish
|
|
return block, messages, blank_finish
|
|
|
|
def isolate_simple_table(self):
|
|
start = self.state_machine.line_offset
|
|
lines = self.state_machine.input_lines
|
|
limit = len(lines) - 1
|
|
toplen = len(lines[start].strip())
|
|
pattern_match = self.simple_table_border_pat.match
|
|
found = 0
|
|
found_at = None
|
|
i = start + 1
|
|
while i <= limit:
|
|
line = lines[i]
|
|
match = pattern_match(line)
|
|
if match:
|
|
if len(line.strip()) != toplen:
|
|
self.state_machine.next_line(i - start)
|
|
messages = self.malformed_table(
|
|
lines[start:i+1], 'Bottom/header table border does '
|
|
'not match top border.')
|
|
return [], messages, i == limit or not lines[i+1].strip()
|
|
found += 1
|
|
found_at = i
|
|
if found == 2 or i == limit or not lines[i+1].strip():
|
|
end = i
|
|
break
|
|
i += 1
|
|
else: # reached end of input_lines
|
|
if found:
|
|
extra = ' or no blank line after table bottom'
|
|
self.state_machine.next_line(found_at - start)
|
|
block = lines[start:found_at+1]
|
|
else:
|
|
extra = ''
|
|
self.state_machine.next_line(i - start - 1)
|
|
block = lines[start:]
|
|
messages = self.malformed_table(
|
|
block, 'No bottom table border found%s.' % extra)
|
|
return [], messages, not extra
|
|
self.state_machine.next_line(end - start)
|
|
block = lines[start:end+1]
|
|
# for East Asian chars:
|
|
block.pad_double_width(self.double_width_pad_char)
|
|
return block, [], end == limit or not lines[end+1].strip()
|
|
|
|
def malformed_table(self, block, detail='', offset=0):
|
|
block.replace(self.double_width_pad_char, '')
|
|
data = '\n'.join(block)
|
|
message = 'Malformed table.'
|
|
startline = self.state_machine.abs_line_number() - len(block) + 1
|
|
if detail:
|
|
message += '\n' + detail
|
|
error = self.reporter.error(message, nodes.literal_block(data, data),
|
|
line=startline+offset)
|
|
return [error]
|
|
|
|
def build_table(self, tabledata, tableline, stub_columns=0, widths=None):
|
|
colwidths, headrows, bodyrows = tabledata
|
|
table = nodes.table()
|
|
if widths == 'auto':
|
|
table['classes'] += ['colwidths-auto']
|
|
elif widths: # "grid" or list of integers
|
|
table['classes'] += ['colwidths-given']
|
|
tgroup = nodes.tgroup(cols=len(colwidths))
|
|
table += tgroup
|
|
for colwidth in colwidths:
|
|
colspec = nodes.colspec(colwidth=colwidth)
|
|
if stub_columns:
|
|
colspec.attributes['stub'] = 1
|
|
stub_columns -= 1
|
|
tgroup += colspec
|
|
if headrows:
|
|
thead = nodes.thead()
|
|
tgroup += thead
|
|
for row in headrows:
|
|
thead += self.build_table_row(row, tableline)
|
|
tbody = nodes.tbody()
|
|
tgroup += tbody
|
|
for row in bodyrows:
|
|
tbody += self.build_table_row(row, tableline)
|
|
return table
|
|
|
|
def build_table_row(self, rowdata, tableline):
|
|
row = nodes.row()
|
|
for cell in rowdata:
|
|
if cell is None:
|
|
continue
|
|
morerows, morecols, offset, cellblock = cell
|
|
attributes = {}
|
|
if morerows:
|
|
attributes['morerows'] = morerows
|
|
if morecols:
|
|
attributes['morecols'] = morecols
|
|
entry = nodes.entry(**attributes)
|
|
row += entry
|
|
if ''.join(cellblock):
|
|
self.nested_parse(cellblock, input_offset=tableline+offset,
|
|
node=entry)
|
|
return row
|
|
|
|
|
|
explicit = Struct()
|
|
"""Patterns and constants used for explicit markup recognition."""
|
|
|
|
explicit.patterns = Struct(
|
|
target=re.compile(r"""
|
|
(
|
|
_ # anonymous target
|
|
| # *OR*
|
|
(?!_) # no underscore at the beginning
|
|
(?P<quote>`?) # optional open quote
|
|
(?![ `]) # first char. not space or
|
|
# backquote
|
|
(?P<name> # reference name
|
|
.+?
|
|
)
|
|
%(non_whitespace_escape_before)s
|
|
(?P=quote) # close quote if open quote used
|
|
)
|
|
(?<!(?<!\x00):) # no unescaped colon at end
|
|
%(non_whitespace_escape_before)s
|
|
[ ]? # optional space
|
|
: # end of reference name
|
|
([ ]+|$) # followed by whitespace
|
|
""" % vars(Inliner), re.VERBOSE | re.UNICODE),
|
|
reference=re.compile(r"""
|
|
(
|
|
(?P<simple>%(simplename)s)_
|
|
| # *OR*
|
|
` # open backquote
|
|
(?![ ]) # not space
|
|
(?P<phrase>.+?) # hyperlink phrase
|
|
%(non_whitespace_escape_before)s
|
|
`_ # close backquote,
|
|
# reference mark
|
|
)
|
|
$ # end of string
|
|
""" % vars(Inliner), re.VERBOSE | re.UNICODE),
|
|
substitution=re.compile(r"""
|
|
(
|
|
(?![ ]) # first char. not space
|
|
(?P<name>.+?) # substitution text
|
|
%(non_whitespace_escape_before)s
|
|
\| # close delimiter
|
|
)
|
|
([ ]+|$) # followed by whitespace
|
|
""" % vars(Inliner),
|
|
re.VERBOSE | re.UNICODE),)
|
|
|
|
def footnote(self, match):
|
|
src, srcline = self.state_machine.get_source_and_line()
|
|
indented, indent, offset, blank_finish = \
|
|
self.state_machine.get_first_known_indented(match.end())
|
|
label = match.group(1)
|
|
name = normalize_name(label)
|
|
footnote = nodes.footnote('\n'.join(indented))
|
|
footnote.source = src
|
|
footnote.line = srcline
|
|
if name[0] == '#': # auto-numbered
|
|
name = name[1:] # autonumber label
|
|
footnote['auto'] = 1
|
|
if name:
|
|
footnote['names'].append(name)
|
|
self.document.note_autofootnote(footnote)
|
|
elif name == '*': # auto-symbol
|
|
name = ''
|
|
footnote['auto'] = '*'
|
|
self.document.note_symbol_footnote(footnote)
|
|
else: # manually numbered
|
|
footnote += nodes.label('', label)
|
|
footnote['names'].append(name)
|
|
self.document.note_footnote(footnote)
|
|
if name:
|
|
self.document.note_explicit_target(footnote, footnote)
|
|
else:
|
|
self.document.set_id(footnote, footnote)
|
|
if indented:
|
|
self.nested_parse(indented, input_offset=offset, node=footnote)
|
|
return [footnote], blank_finish
|
|
|
|
def citation(self, match):
|
|
src, srcline = self.state_machine.get_source_and_line()
|
|
indented, indent, offset, blank_finish = \
|
|
self.state_machine.get_first_known_indented(match.end())
|
|
label = match.group(1)
|
|
name = normalize_name(label)
|
|
citation = nodes.citation('\n'.join(indented))
|
|
citation.source = src
|
|
citation.line = srcline
|
|
citation += nodes.label('', label)
|
|
citation['names'].append(name)
|
|
self.document.note_citation(citation)
|
|
self.document.note_explicit_target(citation, citation)
|
|
if indented:
|
|
self.nested_parse(indented, input_offset=offset, node=citation)
|
|
return [citation], blank_finish
|
|
|
|
def hyperlink_target(self, match):
|
|
pattern = self.explicit.patterns.target
|
|
lineno = self.state_machine.abs_line_number()
|
|
block, indent, offset, blank_finish = \
|
|
self.state_machine.get_first_known_indented(
|
|
match.end(), until_blank=True, strip_indent=False)
|
|
blocktext = match.string[:match.end()] + '\n'.join(block)
|
|
block = [escape2null(line) for line in block]
|
|
escaped = block[0]
|
|
blockindex = 0
|
|
while True:
|
|
targetmatch = pattern.match(escaped)
|
|
if targetmatch:
|
|
break
|
|
blockindex += 1
|
|
try:
|
|
escaped += block[blockindex]
|
|
except IndexError:
|
|
raise MarkupError('malformed hyperlink target.')
|
|
del block[:blockindex]
|
|
block[0] = (block[0] + ' ')[targetmatch.end()-len(escaped)-1:].strip()
|
|
target = self.make_target(block, blocktext, lineno,
|
|
targetmatch.group('name'))
|
|
return [target], blank_finish
|
|
|
|
def make_target(self, block, block_text, lineno, target_name):
|
|
target_type, data = self.parse_target(block, block_text, lineno)
|
|
if target_type == 'refname':
|
|
target = nodes.target(block_text, '', refname=normalize_name(data))
|
|
target.indirect_reference_name = data
|
|
self.add_target(target_name, '', target, lineno)
|
|
self.document.note_indirect_target(target)
|
|
return target
|
|
elif target_type == 'refuri':
|
|
target = nodes.target(block_text, '')
|
|
self.add_target(target_name, data, target, lineno)
|
|
return target
|
|
else:
|
|
return data
|
|
|
|
def parse_target(self, block, block_text, lineno):
|
|
"""
|
|
Determine the type of reference of a target.
|
|
|
|
:Return: A 2-tuple, one of:
|
|
|
|
- 'refname' and the indirect reference name
|
|
- 'refuri' and the URI
|
|
- 'malformed' and a system_message node
|
|
"""
|
|
if block and block[-1].strip()[-1:] == '_': # possible indirect target
|
|
reference = ' '.join([line.strip() for line in block])
|
|
refname = self.is_reference(reference)
|
|
if refname:
|
|
return 'refname', refname
|
|
ref_parts = split_escaped_whitespace(' '.join(block))
|
|
reference = ' '.join(''.join(unescape(part).split())
|
|
for part in ref_parts)
|
|
return 'refuri', reference
|
|
|
|
def is_reference(self, reference):
|
|
match = self.explicit.patterns.reference.match(
|
|
whitespace_normalize_name(reference))
|
|
if not match:
|
|
return None
|
|
return unescape(match.group('simple') or match.group('phrase'))
|
|
|
|
def add_target(self, targetname, refuri, target, lineno):
|
|
target.line = lineno
|
|
if targetname:
|
|
name = normalize_name(unescape(targetname))
|
|
target['names'].append(name)
|
|
if refuri:
|
|
uri = self.inliner.adjust_uri(refuri)
|
|
if uri:
|
|
target['refuri'] = uri
|
|
else:
|
|
raise ApplicationError('problem with URI: %r' % refuri)
|
|
self.document.note_explicit_target(target, self.parent)
|
|
else: # anonymous target
|
|
if refuri:
|
|
target['refuri'] = refuri
|
|
target['anonymous'] = 1
|
|
self.document.note_anonymous_target(target)
|
|
|
|
def substitution_def(self, match):
|
|
pattern = self.explicit.patterns.substitution
|
|
src, srcline = self.state_machine.get_source_and_line()
|
|
block, indent, offset, blank_finish = \
|
|
self.state_machine.get_first_known_indented(match.end(),
|
|
strip_indent=False)
|
|
blocktext = (match.string[:match.end()] + '\n'.join(block))
|
|
block.disconnect()
|
|
escaped = escape2null(block[0].rstrip())
|
|
blockindex = 0
|
|
while True:
|
|
subdefmatch = pattern.match(escaped)
|
|
if subdefmatch:
|
|
break
|
|
blockindex += 1
|
|
try:
|
|
escaped = escaped + ' ' + escape2null(block[blockindex].strip())
|
|
except IndexError:
|
|
raise MarkupError('malformed substitution definition.')
|
|
del block[:blockindex] # strip out the substitution marker
|
|
block[0] = (block[0].strip() + ' ')[subdefmatch.end()-len(escaped)-1:-1]
|
|
if not block[0]:
|
|
del block[0]
|
|
offset += 1
|
|
while block and not block[-1].strip():
|
|
block.pop()
|
|
subname = subdefmatch.group('name')
|
|
substitution_node = nodes.substitution_definition(blocktext)
|
|
substitution_node.source = src
|
|
substitution_node.line = srcline
|
|
if not block:
|
|
msg = self.reporter.warning(
|
|
'Substitution definition "%s" missing contents.' % subname,
|
|
nodes.literal_block(blocktext, blocktext),
|
|
source=src, line=srcline)
|
|
return [msg], blank_finish
|
|
block[0] = block[0].strip()
|
|
substitution_node['names'].append(
|
|
nodes.whitespace_normalize_name(subname))
|
|
new_abs_offset, blank_finish = self.nested_list_parse(
|
|
block, input_offset=offset, node=substitution_node,
|
|
initial_state='SubstitutionDef', blank_finish=blank_finish)
|
|
i = 0
|
|
for node in substitution_node[:]:
|
|
if not (isinstance(node, nodes.Inline) or
|
|
isinstance(node, nodes.Text)):
|
|
self.parent += substitution_node[i]
|
|
del substitution_node[i]
|
|
else:
|
|
i += 1
|
|
for node in substitution_node.traverse(nodes.Element):
|
|
if self.disallowed_inside_substitution_definitions(node):
|
|
pformat = nodes.literal_block('', node.pformat().rstrip())
|
|
msg = self.reporter.error(
|
|
'Substitution definition contains illegal element:',
|
|
pformat, nodes.literal_block(blocktext, blocktext),
|
|
source=src, line=srcline)
|
|
return [msg], blank_finish
|
|
if len(substitution_node) == 0:
|
|
msg = self.reporter.warning(
|
|
'Substitution definition "%s" empty or invalid.' % subname,
|
|
nodes.literal_block(blocktext, blocktext),
|
|
source=src, line=srcline)
|
|
return [msg], blank_finish
|
|
self.document.note_substitution_def(
|
|
substitution_node, subname, self.parent)
|
|
return [substitution_node], blank_finish
|
|
|
|
def disallowed_inside_substitution_definitions(self, node):
|
|
if (node['ids'] or
|
|
isinstance(node, nodes.reference) and node.get('anonymous') or
|
|
isinstance(node, nodes.footnote_reference) and node.get('auto')):
|
|
return 1
|
|
else:
|
|
return 0
|
|
|
|
def directive(self, match, **option_presets):
|
|
"""Returns a 2-tuple: list of nodes, and a "blank finish" boolean."""
|
|
type_name = match.group(1)
|
|
directive_class, messages = directives.directive(
|
|
type_name, self.memo.language, self.document)
|
|
self.parent += messages
|
|
if directive_class:
|
|
return self.run_directive(
|
|
directive_class, match, type_name, option_presets)
|
|
else:
|
|
return self.unknown_directive(type_name)
|
|
|
|
def run_directive(self, directive, match, type_name, option_presets):
|
|
"""
|
|
Parse a directive then run its directive function.
|
|
|
|
Parameters:
|
|
|
|
- `directive`: The class implementing the directive. Must be
|
|
a subclass of `rst.Directive`.
|
|
|
|
- `match`: A regular expression match object which matched the first
|
|
line of the directive.
|
|
|
|
- `type_name`: The directive name, as used in the source text.
|
|
|
|
- `option_presets`: A dictionary of preset options, defaults for the
|
|
directive options. Currently, only an "alt" option is passed by
|
|
substitution definitions (value: the substitution name), which may
|
|
be used by an embedded image directive.
|
|
|
|
Returns a 2-tuple: list of nodes, and a "blank finish" boolean.
|
|
"""
|
|
if isinstance(directive, (FunctionType, MethodType)):
|
|
from docutils.parsers.rst import convert_directive_function
|
|
directive = convert_directive_function(directive)
|
|
lineno = self.state_machine.abs_line_number()
|
|
initial_line_offset = self.state_machine.line_offset
|
|
indented, indent, line_offset, blank_finish \
|
|
= self.state_machine.get_first_known_indented(match.end(),
|
|
strip_top=0)
|
|
block_text = '\n'.join(self.state_machine.input_lines[
|
|
initial_line_offset : self.state_machine.line_offset + 1])
|
|
try:
|
|
arguments, options, content, content_offset = (
|
|
self.parse_directive_block(indented, line_offset,
|
|
directive, option_presets))
|
|
except MarkupError as detail:
|
|
error = self.reporter.error(
|
|
'Error in "%s" directive:\n%s.' % (type_name,
|
|
' '.join(detail.args)),
|
|
nodes.literal_block(block_text, block_text), line=lineno)
|
|
return [error], blank_finish
|
|
directive_instance = directive(
|
|
type_name, arguments, options, content, lineno,
|
|
content_offset, block_text, self, self.state_machine)
|
|
try:
|
|
result = directive_instance.run()
|
|
except docutils.parsers.rst.DirectiveError as error:
|
|
msg_node = self.reporter.system_message(error.level, error.msg,
|
|
line=lineno)
|
|
msg_node += nodes.literal_block(block_text, block_text)
|
|
result = [msg_node]
|
|
assert isinstance(result, list), \
|
|
'Directive "%s" must return a list of nodes.' % type_name
|
|
for i in range(len(result)):
|
|
assert isinstance(result[i], nodes.Node), \
|
|
('Directive "%s" returned non-Node object (index %s): %r'
|
|
% (type_name, i, result[i]))
|
|
return (result,
|
|
blank_finish or self.state_machine.is_next_line_blank())
|
|
|
|
def parse_directive_block(self, indented, line_offset, directive,
|
|
option_presets):
|
|
option_spec = directive.option_spec
|
|
has_content = directive.has_content
|
|
if indented and not indented[0].strip():
|
|
indented.trim_start()
|
|
line_offset += 1
|
|
while indented and not indented[-1].strip():
|
|
indented.trim_end()
|
|
if indented and (directive.required_arguments
|
|
or directive.optional_arguments
|
|
or option_spec):
|
|
for i, line in enumerate(indented):
|
|
if not line.strip():
|
|
break
|
|
else:
|
|
i += 1
|
|
arg_block = indented[:i]
|
|
content = indented[i+1:]
|
|
content_offset = line_offset + i + 1
|
|
else:
|
|
content = indented
|
|
content_offset = line_offset
|
|
arg_block = []
|
|
if option_spec:
|
|
options, arg_block = self.parse_directive_options(
|
|
option_presets, option_spec, arg_block)
|
|
else:
|
|
options = {}
|
|
if arg_block and not (directive.required_arguments
|
|
or directive.optional_arguments):
|
|
content = arg_block + indented[i:]
|
|
content_offset = line_offset
|
|
arg_block = []
|
|
while content and not content[0].strip():
|
|
content.trim_start()
|
|
content_offset += 1
|
|
if directive.required_arguments or directive.optional_arguments:
|
|
arguments = self.parse_directive_arguments(
|
|
directive, arg_block)
|
|
else:
|
|
arguments = []
|
|
if content and not has_content:
|
|
raise MarkupError('no content permitted')
|
|
return (arguments, options, content, content_offset)
|
|
|
|
def parse_directive_options(self, option_presets, option_spec, arg_block):
|
|
options = option_presets.copy()
|
|
for i, line in enumerate(arg_block):
|
|
if re.match(Body.patterns['field_marker'], line):
|
|
opt_block = arg_block[i:]
|
|
arg_block = arg_block[:i]
|
|
break
|
|
else:
|
|
opt_block = []
|
|
if opt_block:
|
|
success, data = self.parse_extension_options(option_spec,
|
|
opt_block)
|
|
if success: # data is a dict of options
|
|
options.update(data)
|
|
else: # data is an error string
|
|
raise MarkupError(data)
|
|
return options, arg_block
|
|
|
|
def parse_directive_arguments(self, directive, arg_block):
|
|
required = directive.required_arguments
|
|
optional = directive.optional_arguments
|
|
arg_text = '\n'.join(arg_block)
|
|
arguments = arg_text.split()
|
|
if len(arguments) < required:
|
|
raise MarkupError('%s argument(s) required, %s supplied'
|
|
% (required, len(arguments)))
|
|
elif len(arguments) > required + optional:
|
|
if directive.final_argument_whitespace:
|
|
arguments = arg_text.split(None, required + optional - 1)
|
|
else:
|
|
raise MarkupError(
|
|
'maximum %s argument(s) allowed, %s supplied'
|
|
% (required + optional, len(arguments)))
|
|
return arguments
|
|
|
|
def parse_extension_options(self, option_spec, datalines):
|
|
"""
|
|
Parse `datalines` for a field list containing extension options
|
|
matching `option_spec`.
|
|
|
|
:Parameters:
|
|
- `option_spec`: a mapping of option name to conversion
|
|
function, which should raise an exception on bad input.
|
|
- `datalines`: a list of input strings.
|
|
|
|
:Return:
|
|
- Success value, 1 or 0.
|
|
- An option dictionary on success, an error string on failure.
|
|
"""
|
|
node = nodes.field_list()
|
|
newline_offset, blank_finish = self.nested_list_parse(
|
|
datalines, 0, node, initial_state='ExtensionOptions',
|
|
blank_finish=True)
|
|
if newline_offset != len(datalines): # incomplete parse of block
|
|
return 0, 'invalid option block'
|
|
try:
|
|
options = utils.extract_extension_options(node, option_spec)
|
|
except KeyError as detail:
|
|
return 0, ('unknown option: "%s"' % detail.args[0])
|
|
except (ValueError, TypeError) as detail:
|
|
return 0, ('invalid option value: %s' % ' '.join(detail.args))
|
|
except utils.ExtensionOptionError as detail:
|
|
return 0, ('invalid option data: %s' % ' '.join(detail.args))
|
|
if blank_finish:
|
|
return 1, options
|
|
else:
|
|
return 0, 'option data incompletely parsed'
|
|
|
|
def unknown_directive(self, type_name):
|
|
lineno = self.state_machine.abs_line_number()
|
|
indented, indent, offset, blank_finish = \
|
|
self.state_machine.get_first_known_indented(0, strip_indent=False)
|
|
text = '\n'.join(indented)
|
|
error = self.reporter.error(
|
|
'Unknown directive type "%s".' % type_name,
|
|
nodes.literal_block(text, text), line=lineno)
|
|
return [error], blank_finish
|
|
|
|
def comment(self, match):
|
|
if not match.string[match.end():].strip() \
|
|
and self.state_machine.is_next_line_blank(): # an empty comment?
|
|
return [nodes.comment()], 1 # "A tiny but practical wart."
|
|
indented, indent, offset, blank_finish = \
|
|
self.state_machine.get_first_known_indented(match.end())
|
|
while indented and not indented[-1].strip():
|
|
indented.trim_end()
|
|
text = '\n'.join(indented)
|
|
return [nodes.comment(text, text)], blank_finish
|
|
|
|
explicit.constructs = [
|
|
(footnote,
|
|
re.compile(r"""
|
|
\.\.[ ]+ # explicit markup start
|
|
\[
|
|
( # footnote label:
|
|
[0-9]+ # manually numbered footnote
|
|
| # *OR*
|
|
\# # anonymous auto-numbered footnote
|
|
| # *OR*
|
|
\#%s # auto-number ed?) footnote label
|
|
| # *OR*
|
|
\* # auto-symbol footnote
|
|
)
|
|
\]
|
|
([ ]+|$) # whitespace or end of line
|
|
""" % Inliner.simplename, re.VERBOSE | re.UNICODE)),
|
|
(citation,
|
|
re.compile(r"""
|
|
\.\.[ ]+ # explicit markup start
|
|
\[(%s)\] # citation label
|
|
([ ]+|$) # whitespace or end of line
|
|
""" % Inliner.simplename, re.VERBOSE | re.UNICODE)),
|
|
(hyperlink_target,
|
|
re.compile(r"""
|
|
\.\.[ ]+ # explicit markup start
|
|
_ # target indicator
|
|
(?![ ]|$) # first char. not space or EOL
|
|
""", re.VERBOSE | re.UNICODE)),
|
|
(substitution_def,
|
|
re.compile(r"""
|
|
\.\.[ ]+ # explicit markup start
|
|
\| # substitution indicator
|
|
(?![ ]|$) # first char. not space or EOL
|
|
""", re.VERBOSE | re.UNICODE)),
|
|
(directive,
|
|
re.compile(r"""
|
|
\.\.[ ]+ # explicit markup start
|
|
(%s) # directive name
|
|
[ ]? # optional space
|
|
:: # directive delimiter
|
|
([ ]+|$) # whitespace or end of line
|
|
""" % Inliner.simplename, re.VERBOSE | re.UNICODE))]
|
|
|
|
def explicit_markup(self, match, context, next_state):
|
|
"""Footnotes, hyperlink targets, directives, comments."""
|
|
nodelist, blank_finish = self.explicit_construct(match)
|
|
self.parent += nodelist
|
|
self.explicit_list(blank_finish)
|
|
return [], next_state, []
|
|
|
|
def explicit_construct(self, match):
|
|
"""Determine which explicit construct this is, parse & return it."""
|
|
errors = []
|
|
for method, pattern in self.explicit.constructs:
|
|
expmatch = pattern.match(match.string)
|
|
if expmatch:
|
|
try:
|
|
return method(self, expmatch)
|
|
except MarkupError as error:
|
|
lineno = self.state_machine.abs_line_number()
|
|
message = ' '.join(error.args)
|
|
errors.append(self.reporter.warning(message, line=lineno))
|
|
break
|
|
nodelist, blank_finish = self.comment(match)
|
|
return nodelist + errors, blank_finish
|
|
|
|
def explicit_list(self, blank_finish):
|
|
"""
|
|
Create a nested state machine for a series of explicit markup
|
|
constructs (including anonymous hyperlink targets).
|
|
"""
|
|
offset = self.state_machine.line_offset + 1 # next line
|
|
newline_offset, blank_finish = self.nested_list_parse(
|
|
self.state_machine.input_lines[offset:],
|
|
input_offset=self.state_machine.abs_line_offset() + 1,
|
|
node=self.parent, initial_state='Explicit',
|
|
blank_finish=blank_finish,
|
|
match_titles=self.state_machine.match_titles)
|
|
self.goto_line(newline_offset)
|
|
if not blank_finish:
|
|
self.parent += self.unindent_warning('Explicit markup')
|
|
|
|
def anonymous(self, match, context, next_state):
|
|
"""Anonymous hyperlink targets."""
|
|
nodelist, blank_finish = self.anonymous_target(match)
|
|
self.parent += nodelist
|
|
self.explicit_list(blank_finish)
|
|
return [], next_state, []
|
|
|
|
def anonymous_target(self, match):
|
|
lineno = self.state_machine.abs_line_number()
|
|
block, indent, offset, blank_finish \
|
|
= self.state_machine.get_first_known_indented(match.end(),
|
|
until_blank=True)
|
|
blocktext = match.string[:match.end()] + '\n'.join(block)
|
|
block = [escape2null(line) for line in block]
|
|
target = self.make_target(block, blocktext, lineno, '')
|
|
return [target], blank_finish
|
|
|
|
def line(self, match, context, next_state):
|
|
"""Section title overline or transition marker."""
|
|
if self.state_machine.match_titles:
|
|
return [match.string], 'Line', []
|
|
elif match.string.strip() == '::':
|
|
raise statemachine.TransitionCorrection('text')
|
|
elif len(match.string.strip()) < 4:
|
|
msg = self.reporter.info(
|
|
'Unexpected possible title overline or transition.\n'
|
|
"Treating it as ordinary text because it's so short.",
|
|
line=self.state_machine.abs_line_number())
|
|
self.parent += msg
|
|
raise statemachine.TransitionCorrection('text')
|
|
else:
|
|
blocktext = self.state_machine.line
|
|
msg = self.reporter.severe(
|
|
'Unexpected section title or transition.',
|
|
nodes.literal_block(blocktext, blocktext),
|
|
line=self.state_machine.abs_line_number())
|
|
self.parent += msg
|
|
return [], next_state, []
|
|
|
|
def text(self, match, context, next_state):
|
|
"""Titles, definition lists, paragraphs."""
|
|
return [match.string], 'Text', []
|
|
|
|
|
|
class RFC2822Body(Body):
|
|
|
|
"""
|
|
RFC2822 headers are only valid as the first constructs in documents. As
|
|
soon as anything else appears, the `Body` state should take over.
|
|
"""
|
|
|
|
patterns = Body.patterns.copy() # can't modify the original
|
|
patterns['rfc2822'] = r'[!-9;-~]+:( +|$)'
|
|
initial_transitions = [(name, 'Body')
|
|
for name in Body.initial_transitions]
|
|
initial_transitions.insert(-1, ('rfc2822', 'Body')) # just before 'text'
|
|
|
|
def rfc2822(self, match, context, next_state):
|
|
"""RFC2822-style field list item."""
|
|
fieldlist = nodes.field_list(classes=['rfc2822'])
|
|
self.parent += fieldlist
|
|
field, blank_finish = self.rfc2822_field(match)
|
|
fieldlist += field
|
|
offset = self.state_machine.line_offset + 1 # next line
|
|
newline_offset, blank_finish = self.nested_list_parse(
|
|
self.state_machine.input_lines[offset:],
|
|
input_offset=self.state_machine.abs_line_offset() + 1,
|
|
node=fieldlist, initial_state='RFC2822List',
|
|
blank_finish=blank_finish)
|
|
self.goto_line(newline_offset)
|
|
if not blank_finish:
|
|
self.parent += self.unindent_warning(
|
|
'RFC2822-style field list')
|
|
return [], next_state, []
|
|
|
|
def rfc2822_field(self, match):
|
|
name = match.string[:match.string.find(':')]
|
|
indented, indent, line_offset, blank_finish = \
|
|
self.state_machine.get_first_known_indented(match.end(),
|
|
until_blank=True)
|
|
fieldnode = nodes.field()
|
|
fieldnode += nodes.field_name(name, name)
|
|
fieldbody = nodes.field_body('\n'.join(indented))
|
|
fieldnode += fieldbody
|
|
if indented:
|
|
self.nested_parse(indented, input_offset=line_offset,
|
|
node=fieldbody)
|
|
return fieldnode, blank_finish
|
|
|
|
|
|
class SpecializedBody(Body):
|
|
|
|
"""
|
|
Superclass for second and subsequent compound element members. Compound
|
|
elements are lists and list-like constructs.
|
|
|
|
All transition methods are disabled (redefined as `invalid_input`).
|
|
Override individual methods in subclasses to re-enable.
|
|
|
|
For example, once an initial bullet list item, say, is recognized, the
|
|
`BulletList` subclass takes over, with a "bullet_list" node as its
|
|
container. Upon encountering the initial bullet list item, `Body.bullet`
|
|
calls its ``self.nested_list_parse`` (`RSTState.nested_list_parse`), which
|
|
starts up a nested parsing session with `BulletList` as the initial state.
|
|
Only the ``bullet`` transition method is enabled in `BulletList`; as long
|
|
as only bullet list items are encountered, they are parsed and inserted
|
|
into the container. The first construct which is *not* a bullet list item
|
|
triggers the `invalid_input` method, which ends the nested parse and
|
|
closes the container. `BulletList` needs to recognize input that is
|
|
invalid in the context of a bullet list, which means everything *other
|
|
than* bullet list items, so it inherits the transition list created in
|
|
`Body`.
|
|
"""
|
|
|
|
def invalid_input(self, match=None, context=None, next_state=None):
|
|
"""Not a compound element member. Abort this state machine."""
|
|
self.state_machine.previous_line() # back up so parent SM can reassess
|
|
raise EOFError
|
|
|
|
indent = invalid_input
|
|
bullet = invalid_input
|
|
enumerator = invalid_input
|
|
field_marker = invalid_input
|
|
option_marker = invalid_input
|
|
doctest = invalid_input
|
|
line_block = invalid_input
|
|
grid_table_top = invalid_input
|
|
simple_table_top = invalid_input
|
|
explicit_markup = invalid_input
|
|
anonymous = invalid_input
|
|
line = invalid_input
|
|
text = invalid_input
|
|
|
|
|
|
class BulletList(SpecializedBody):
|
|
|
|
"""Second and subsequent bullet_list list_items."""
|
|
|
|
def bullet(self, match, context, next_state):
|
|
"""Bullet list item."""
|
|
if match.string[0] != self.parent['bullet']:
|
|
# different bullet: new list
|
|
self.invalid_input()
|
|
listitem, blank_finish = self.list_item(match.end())
|
|
self.parent += listitem
|
|
self.blank_finish = blank_finish
|
|
return [], next_state, []
|
|
|
|
|
|
class DefinitionList(SpecializedBody):
|
|
|
|
"""Second and subsequent definition_list_items."""
|
|
|
|
def text(self, match, context, next_state):
|
|
"""Definition lists."""
|
|
return [match.string], 'Definition', []
|
|
|
|
|
|
class EnumeratedList(SpecializedBody):
|
|
|
|
"""Second and subsequent enumerated_list list_items."""
|
|
|
|
def enumerator(self, match, context, next_state):
|
|
"""Enumerated list item."""
|
|
format, sequence, text, ordinal = self.parse_enumerator(
|
|
match, self.parent['enumtype'])
|
|
if ( format != self.format
|
|
or (sequence != '#' and (sequence != self.parent['enumtype']
|
|
or self.auto
|
|
or ordinal != (self.lastordinal + 1)))
|
|
or not self.is_enumerated_list_item(ordinal, sequence, format)):
|
|
# different enumeration: new list
|
|
self.invalid_input()
|
|
if sequence == '#':
|
|
self.auto = 1
|
|
listitem, blank_finish = self.list_item(match.end())
|
|
self.parent += listitem
|
|
self.blank_finish = blank_finish
|
|
self.lastordinal = ordinal
|
|
return [], next_state, []
|
|
|
|
|
|
class FieldList(SpecializedBody):
|
|
|
|
"""Second and subsequent field_list fields."""
|
|
|
|
def field_marker(self, match, context, next_state):
|
|
"""Field list field."""
|
|
field, blank_finish = self.field(match)
|
|
self.parent += field
|
|
self.blank_finish = blank_finish
|
|
return [], next_state, []
|
|
|
|
|
|
class OptionList(SpecializedBody):
|
|
|
|
"""Second and subsequent option_list option_list_items."""
|
|
|
|
def option_marker(self, match, context, next_state):
|
|
"""Option list item."""
|
|
try:
|
|
option_list_item, blank_finish = self.option_list_item(match)
|
|
except MarkupError:
|
|
self.invalid_input()
|
|
self.parent += option_list_item
|
|
self.blank_finish = blank_finish
|
|
return [], next_state, []
|
|
|
|
|
|
class RFC2822List(SpecializedBody, RFC2822Body):
|
|
|
|
"""Second and subsequent RFC2822-style field_list fields."""
|
|
|
|
patterns = RFC2822Body.patterns
|
|
initial_transitions = RFC2822Body.initial_transitions
|
|
|
|
def rfc2822(self, match, context, next_state):
|
|
"""RFC2822-style field list item."""
|
|
field, blank_finish = self.rfc2822_field(match)
|
|
self.parent += field
|
|
self.blank_finish = blank_finish
|
|
return [], 'RFC2822List', []
|
|
|
|
blank = SpecializedBody.invalid_input
|
|
|
|
|
|
class ExtensionOptions(FieldList):
|
|
|
|
"""
|
|
Parse field_list fields for extension options.
|
|
|
|
No nested parsing is done (including inline markup parsing).
|
|
"""
|
|
|
|
def parse_field_body(self, indented, offset, node):
|
|
"""Override `Body.parse_field_body` for simpler parsing."""
|
|
lines = []
|
|
for line in list(indented) + ['']:
|
|
if line.strip():
|
|
lines.append(line)
|
|
elif lines:
|
|
text = '\n'.join(lines)
|
|
node += nodes.paragraph(text, text)
|
|
lines = []
|
|
|
|
|
|
class LineBlock(SpecializedBody):
|
|
|
|
"""Second and subsequent lines of a line_block."""
|
|
|
|
blank = SpecializedBody.invalid_input
|
|
|
|
def line_block(self, match, context, next_state):
|
|
"""New line of line block."""
|
|
lineno = self.state_machine.abs_line_number()
|
|
line, messages, blank_finish = self.line_block_line(match, lineno)
|
|
self.parent += line
|
|
self.parent.parent += messages
|
|
self.blank_finish = blank_finish
|
|
return [], next_state, []
|
|
|
|
|
|
class Explicit(SpecializedBody):
|
|
|
|
"""Second and subsequent explicit markup construct."""
|
|
|
|
def explicit_markup(self, match, context, next_state):
|
|
"""Footnotes, hyperlink targets, directives, comments."""
|
|
nodelist, blank_finish = self.explicit_construct(match)
|
|
self.parent += nodelist
|
|
self.blank_finish = blank_finish
|
|
return [], next_state, []
|
|
|
|
def anonymous(self, match, context, next_state):
|
|
"""Anonymous hyperlink targets."""
|
|
nodelist, blank_finish = self.anonymous_target(match)
|
|
self.parent += nodelist
|
|
self.blank_finish = blank_finish
|
|
return [], next_state, []
|
|
|
|
blank = SpecializedBody.invalid_input
|
|
|
|
|
|
class SubstitutionDef(Body):
|
|
|
|
"""
|
|
Parser for the contents of a substitution_definition element.
|
|
"""
|
|
|
|
patterns = {
|
|
'embedded_directive': re.compile(r'(%s)::( +|$)'
|
|
% Inliner.simplename, re.UNICODE),
|
|
'text': r''}
|
|
initial_transitions = ['embedded_directive', 'text']
|
|
|
|
def embedded_directive(self, match, context, next_state):
|
|
nodelist, blank_finish = self.directive(match,
|
|
alt=self.parent['names'][0])
|
|
self.parent += nodelist
|
|
if not self.state_machine.at_eof():
|
|
self.blank_finish = blank_finish
|
|
raise EOFError
|
|
|
|
def text(self, match, context, next_state):
|
|
if not self.state_machine.at_eof():
|
|
self.blank_finish = self.state_machine.is_next_line_blank()
|
|
raise EOFError
|
|
|
|
|
|
class Text(RSTState):
|
|
|
|
"""
|
|
Classifier of second line of a text block.
|
|
|
|
Could be a paragraph, a definition list item, or a title.
|
|
"""
|
|
|
|
patterns = {'underline': Body.patterns['line'],
|
|
'text': r''}
|
|
initial_transitions = [('underline', 'Body'), ('text', 'Body')]
|
|
|
|
def blank(self, match, context, next_state):
|
|
"""End of paragraph."""
|
|
# NOTE: self.paragraph returns [ node, system_message(s) ], literalnext
|
|
paragraph, literalnext = self.paragraph(
|
|
context, self.state_machine.abs_line_number() - 1)
|
|
self.parent += paragraph
|
|
if literalnext:
|
|
self.parent += self.literal_block()
|
|
return [], 'Body', []
|
|
|
|
def eof(self, context):
|
|
if context:
|
|
self.blank(None, context, None)
|
|
return []
|
|
|
|
def indent(self, match, context, next_state):
|
|
"""Definition list item."""
|
|
definitionlist = nodes.definition_list()
|
|
definitionlistitem, blank_finish = self.definition_list_item(context)
|
|
definitionlist += definitionlistitem
|
|
self.parent += definitionlist
|
|
offset = self.state_machine.line_offset + 1 # next line
|
|
newline_offset, blank_finish = self.nested_list_parse(
|
|
self.state_machine.input_lines[offset:],
|
|
input_offset=self.state_machine.abs_line_offset() + 1,
|
|
node=definitionlist, initial_state='DefinitionList',
|
|
blank_finish=blank_finish, blank_finish_state='Definition')
|
|
self.goto_line(newline_offset)
|
|
if not blank_finish:
|
|
self.parent += self.unindent_warning('Definition list')
|
|
return [], 'Body', []
|
|
|
|
def underline(self, match, context, next_state):
|
|
"""Section title."""
|
|
lineno = self.state_machine.abs_line_number()
|
|
title = context[0].rstrip()
|
|
underline = match.string.rstrip()
|
|
source = title + '\n' + underline
|
|
messages = []
|
|
if column_width(title) > len(underline):
|
|
if len(underline) < 4:
|
|
if self.state_machine.match_titles:
|
|
msg = self.reporter.info(
|
|
'Possible title underline, too short for the title.\n'
|
|
"Treating it as ordinary text because it's so short.",
|
|
line=lineno)
|
|
self.parent += msg
|
|
raise statemachine.TransitionCorrection('text')
|
|
else:
|
|
blocktext = context[0] + '\n' + self.state_machine.line
|
|
msg = self.reporter.warning('Title underline too short.',
|
|
nodes.literal_block(blocktext, blocktext), line=lineno)
|
|
messages.append(msg)
|
|
if not self.state_machine.match_titles:
|
|
blocktext = context[0] + '\n' + self.state_machine.line
|
|
# We need get_source_and_line() here to report correctly
|
|
src, srcline = self.state_machine.get_source_and_line()
|
|
# TODO: why is abs_line_number() == srcline+1
|
|
# if the error is in a table (try with test_tables.py)?
|
|
# print "get_source_and_line", srcline
|
|
# print "abs_line_number", self.state_machine.abs_line_number()
|
|
msg = self.reporter.severe('Unexpected section title.',
|
|
nodes.literal_block(blocktext, blocktext),
|
|
source=src, line=srcline)
|
|
self.parent += messages
|
|
self.parent += msg
|
|
return [], next_state, []
|
|
style = underline[0]
|
|
context[:] = []
|
|
self.section(title, source, style, lineno - 1, messages)
|
|
return [], next_state, []
|
|
|
|
def text(self, match, context, next_state):
|
|
"""Paragraph."""
|
|
startline = self.state_machine.abs_line_number() - 1
|
|
msg = None
|
|
try:
|
|
block = self.state_machine.get_text_block(flush_left=True)
|
|
except statemachine.UnexpectedIndentationError as err:
|
|
block, src, srcline = err.args
|
|
msg = self.reporter.error('Unexpected indentation.',
|
|
source=src, line=srcline)
|
|
lines = context + list(block)
|
|
paragraph, literalnext = self.paragraph(lines, startline)
|
|
self.parent += paragraph
|
|
self.parent += msg
|
|
if literalnext:
|
|
try:
|
|
self.state_machine.next_line()
|
|
except EOFError:
|
|
pass
|
|
self.parent += self.literal_block()
|
|
return [], next_state, []
|
|
|
|
def literal_block(self):
|
|
"""Return a list of nodes."""
|
|
indented, indent, offset, blank_finish = \
|
|
self.state_machine.get_indented()
|
|
while indented and not indented[-1].strip():
|
|
indented.trim_end()
|
|
if not indented:
|
|
return self.quoted_literal_block()
|
|
data = '\n'.join(indented)
|
|
literal_block = nodes.literal_block(data, data)
|
|
literal_block.line = offset + 1
|
|
nodelist = [literal_block]
|
|
if not blank_finish:
|
|
nodelist.append(self.unindent_warning('Literal block'))
|
|
return nodelist
|
|
|
|
def quoted_literal_block(self):
|
|
abs_line_offset = self.state_machine.abs_line_offset()
|
|
offset = self.state_machine.line_offset
|
|
parent_node = nodes.Element()
|
|
new_abs_offset = self.nested_parse(
|
|
self.state_machine.input_lines[offset:],
|
|
input_offset=abs_line_offset, node=parent_node, match_titles=False,
|
|
state_machine_kwargs={'state_classes': (QuotedLiteralBlock,),
|
|
'initial_state': 'QuotedLiteralBlock'})
|
|
self.goto_line(new_abs_offset)
|
|
return parent_node.children
|
|
|
|
def definition_list_item(self, termline):
|
|
indented, indent, line_offset, blank_finish = \
|
|
self.state_machine.get_indented()
|
|
itemnode = nodes.definition_list_item(
|
|
'\n'.join(termline + list(indented)))
|
|
lineno = self.state_machine.abs_line_number() - 1
|
|
(itemnode.source,
|
|
itemnode.line) = self.state_machine.get_source_and_line(lineno)
|
|
termlist, messages = self.term(termline, lineno)
|
|
itemnode += termlist
|
|
definition = nodes.definition('', *messages)
|
|
itemnode += definition
|
|
if termline[0][-2:] == '::':
|
|
definition += self.reporter.info(
|
|
'Blank line missing before literal block (after the "::")? '
|
|
'Interpreted as a definition list item.',
|
|
line=lineno+1)
|
|
self.nested_parse(indented, input_offset=line_offset, node=definition)
|
|
return itemnode, blank_finish
|
|
|
|
classifier_delimiter = re.compile(' +: +')
|
|
|
|
def term(self, lines, lineno):
|
|
"""Return a definition_list's term and optional classifiers."""
|
|
assert len(lines) == 1
|
|
text_nodes, messages = self.inline_text(lines[0], lineno)
|
|
term_node = nodes.term()
|
|
(term_node.source,
|
|
term_node.line) = self.state_machine.get_source_and_line(lineno)
|
|
term_node.rawsource = unescape(lines[0])
|
|
node_list = [term_node]
|
|
for i in range(len(text_nodes)):
|
|
node = text_nodes[i]
|
|
if isinstance(node, nodes.Text):
|
|
parts = self.classifier_delimiter.split(node.rawsource)
|
|
if len(parts) == 1:
|
|
node_list[-1] += node
|
|
else:
|
|
|
|
node_list[-1] += nodes.Text(parts[0].rstrip())
|
|
for part in parts[1:]:
|
|
classifier_node = nodes.classifier('', part)
|
|
node_list.append(classifier_node)
|
|
else:
|
|
node_list[-1] += node
|
|
return node_list, messages
|
|
|
|
|
|
class SpecializedText(Text):
|
|
|
|
"""
|
|
Superclass for second and subsequent lines of Text-variants.
|
|
|
|
All transition methods are disabled. Override individual methods in
|
|
subclasses to re-enable.
|
|
"""
|
|
|
|
def eof(self, context):
|
|
"""Incomplete construct."""
|
|
return []
|
|
|
|
def invalid_input(self, match=None, context=None, next_state=None):
|
|
"""Not a compound element member. Abort this state machine."""
|
|
raise EOFError
|
|
|
|
blank = invalid_input
|
|
indent = invalid_input
|
|
underline = invalid_input
|
|
text = invalid_input
|
|
|
|
|
|
class Definition(SpecializedText):
|
|
|
|
"""Second line of potential definition_list_item."""
|
|
|
|
def eof(self, context):
|
|
"""Not a definition."""
|
|
self.state_machine.previous_line(2) # so parent SM can reassess
|
|
return []
|
|
|
|
def indent(self, match, context, next_state):
|
|
"""Definition list item."""
|
|
itemnode, blank_finish = self.definition_list_item(context)
|
|
self.parent += itemnode
|
|
self.blank_finish = blank_finish
|
|
return [], 'DefinitionList', []
|
|
|
|
|
|
class Line(SpecializedText):
|
|
|
|
"""
|
|
Second line of over- & underlined section title or transition marker.
|
|
"""
|
|
|
|
eofcheck = 1 # @@@ ???
|
|
"""Set to 0 while parsing sections, so that we don't catch the EOF."""
|
|
|
|
def eof(self, context):
|
|
"""Transition marker at end of section or document."""
|
|
marker = context[0].strip()
|
|
if self.memo.section_bubble_up_kludge:
|
|
self.memo.section_bubble_up_kludge = False
|
|
elif len(marker) < 4:
|
|
self.state_correction(context)
|
|
if self.eofcheck: # ignore EOFError with sections
|
|
lineno = self.state_machine.abs_line_number() - 1
|
|
transition = nodes.transition(rawsource=context[0])
|
|
transition.line = lineno
|
|
self.parent += transition
|
|
self.eofcheck = 1
|
|
return []
|
|
|
|
def blank(self, match, context, next_state):
|
|
"""Transition marker."""
|
|
src, srcline = self.state_machine.get_source_and_line()
|
|
marker = context[0].strip()
|
|
if len(marker) < 4:
|
|
self.state_correction(context)
|
|
transition = nodes.transition(rawsource=marker)
|
|
transition.source = src
|
|
transition.line = srcline - 1
|
|
self.parent += transition
|
|
return [], 'Body', []
|
|
|
|
def text(self, match, context, next_state):
|
|
"""Potential over- & underlined title."""
|
|
lineno = self.state_machine.abs_line_number() - 1
|
|
overline = context[0]
|
|
title = match.string
|
|
underline = ''
|
|
try:
|
|
underline = self.state_machine.next_line()
|
|
except EOFError:
|
|
blocktext = overline + '\n' + title
|
|
if len(overline.rstrip()) < 4:
|
|
self.short_overline(context, blocktext, lineno, 2)
|
|
else:
|
|
msg = self.reporter.severe(
|
|
'Incomplete section title.',
|
|
nodes.literal_block(blocktext, blocktext),
|
|
line=lineno)
|
|
self.parent += msg
|
|
return [], 'Body', []
|
|
source = '%s\n%s\n%s' % (overline, title, underline)
|
|
overline = overline.rstrip()
|
|
underline = underline.rstrip()
|
|
if not self.transitions['underline'][0].match(underline):
|
|
blocktext = overline + '\n' + title + '\n' + underline
|
|
if len(overline.rstrip()) < 4:
|
|
self.short_overline(context, blocktext, lineno, 2)
|
|
else:
|
|
msg = self.reporter.severe(
|
|
'Missing matching underline for section title overline.',
|
|
nodes.literal_block(source, source),
|
|
line=lineno)
|
|
self.parent += msg
|
|
return [], 'Body', []
|
|
elif overline != underline:
|
|
blocktext = overline + '\n' + title + '\n' + underline
|
|
if len(overline.rstrip()) < 4:
|
|
self.short_overline(context, blocktext, lineno, 2)
|
|
else:
|
|
msg = self.reporter.severe(
|
|
'Title overline & underline mismatch.',
|
|
nodes.literal_block(source, source),
|
|
line=lineno)
|
|
self.parent += msg
|
|
return [], 'Body', []
|
|
title = title.rstrip()
|
|
messages = []
|
|
if column_width(title) > len(overline):
|
|
blocktext = overline + '\n' + title + '\n' + underline
|
|
if len(overline.rstrip()) < 4:
|
|
self.short_overline(context, blocktext, lineno, 2)
|
|
else:
|
|
msg = self.reporter.warning(
|
|
'Title overline too short.',
|
|
nodes.literal_block(source, source),
|
|
line=lineno)
|
|
messages.append(msg)
|
|
style = (overline[0], underline[0])
|
|
self.eofcheck = 0 # @@@ not sure this is correct
|
|
self.section(title.lstrip(), source, style, lineno + 1, messages)
|
|
self.eofcheck = 1
|
|
return [], 'Body', []
|
|
|
|
indent = text # indented title
|
|
|
|
def underline(self, match, context, next_state):
|
|
overline = context[0]
|
|
blocktext = overline + '\n' + self.state_machine.line
|
|
lineno = self.state_machine.abs_line_number() - 1
|
|
if len(overline.rstrip()) < 4:
|
|
self.short_overline(context, blocktext, lineno, 1)
|
|
msg = self.reporter.error(
|
|
'Invalid section title or transition marker.',
|
|
nodes.literal_block(blocktext, blocktext),
|
|
line=lineno)
|
|
self.parent += msg
|
|
return [], 'Body', []
|
|
|
|
def short_overline(self, context, blocktext, lineno, lines=1):
|
|
msg = self.reporter.info(
|
|
'Possible incomplete section title.\nTreating the overline as '
|
|
"ordinary text because it's so short.",
|
|
line=lineno)
|
|
self.parent += msg
|
|
self.state_correction(context, lines)
|
|
|
|
def state_correction(self, context, lines=1):
|
|
self.state_machine.previous_line(lines)
|
|
context[:] = []
|
|
raise statemachine.StateCorrection('Body', 'text')
|
|
|
|
|
|
class QuotedLiteralBlock(RSTState):
|
|
|
|
"""
|
|
Nested parse handler for quoted (unindented) literal blocks.
|
|
|
|
Special-purpose. Not for inclusion in `state_classes`.
|
|
"""
|
|
|
|
patterns = {'initial_quoted': r'(%(nonalphanum7bit)s)' % Body.pats,
|
|
'text': r''}
|
|
initial_transitions = ('initial_quoted', 'text')
|
|
|
|
def __init__(self, state_machine, debug=False):
|
|
RSTState.__init__(self, state_machine, debug)
|
|
self.messages = []
|
|
self.initial_lineno = None
|
|
|
|
def blank(self, match, context, next_state):
|
|
if context:
|
|
raise EOFError
|
|
else:
|
|
return context, next_state, []
|
|
|
|
def eof(self, context):
|
|
if context:
|
|
src, srcline = self.state_machine.get_source_and_line(
|
|
self.initial_lineno)
|
|
text = '\n'.join(context)
|
|
literal_block = nodes.literal_block(text, text)
|
|
literal_block.source = src
|
|
literal_block.line = srcline
|
|
self.parent += literal_block
|
|
else:
|
|
self.parent += self.reporter.warning(
|
|
'Literal block expected; none found.',
|
|
line=self.state_machine.abs_line_number())
|
|
# src not available, because statemachine.input_lines is empty
|
|
self.state_machine.previous_line()
|
|
self.parent += self.messages
|
|
return []
|
|
|
|
def indent(self, match, context, next_state):
|
|
assert context, ('QuotedLiteralBlock.indent: context should not '
|
|
'be empty!')
|
|
self.messages.append(
|
|
self.reporter.error('Unexpected indentation.',
|
|
line=self.state_machine.abs_line_number()))
|
|
self.state_machine.previous_line()
|
|
raise EOFError
|
|
|
|
def initial_quoted(self, match, context, next_state):
|
|
"""Match arbitrary quote character on the first line only."""
|
|
self.remove_transition('initial_quoted')
|
|
quote = match.string[0]
|
|
pattern = re.compile(re.escape(quote), re.UNICODE)
|
|
# New transition matches consistent quotes only:
|
|
self.add_transition('quoted',
|
|
(pattern, self.quoted, self.__class__.__name__))
|
|
self.initial_lineno = self.state_machine.abs_line_number()
|
|
return [match.string], next_state, []
|
|
|
|
def quoted(self, match, context, next_state):
|
|
"""Match consistent quotes on subsequent lines."""
|
|
context.append(match.string)
|
|
return context, next_state, []
|
|
|
|
def text(self, match, context, next_state):
|
|
if context:
|
|
self.messages.append(
|
|
self.reporter.error('Inconsistent literal block quoting.',
|
|
line=self.state_machine.abs_line_number()))
|
|
self.state_machine.previous_line()
|
|
raise EOFError
|
|
|
|
|
|
state_classes = (Body, BulletList, DefinitionList, EnumeratedList, FieldList,
|
|
OptionList, LineBlock, ExtensionOptions, Explicit, Text,
|
|
Definition, Line, SubstitutionDef, RFC2822Body, RFC2822List)
|
|
"""Standard set of State classes used to start `RSTStateMachine`."""
|