""" sphinx.writers.text ~~~~~~~~~~~~~~~~~~~ Custom docutils writer for plain text. :copyright: Copyright 2007-2020 by the Sphinx team, see AUTHORS. :license: BSD, see LICENSE for details. """ import math import os import re import textwrap from itertools import chain, groupby from typing import Any, Dict, Generator, Iterable, List, Optional, Set, Tuple, Union, cast from docutils import nodes, writers from docutils.nodes import Element, Node, Text from docutils.utils import column_width from sphinx import addnodes from sphinx.locale import _, admonitionlabels from sphinx.util.docutils import SphinxTranslator if False: # For type annotation from sphinx.builders.text import TextBuilder class Cell: """Represents a cell in a table. It can span on multiple columns or on multiple lines. """ def __init__(self, text: str = "", rowspan: int = 1, colspan: int = 1) -> None: self.text = text self.wrapped = [] # type: List[str] self.rowspan = rowspan self.colspan = colspan self.col = None # type: Optional[int] self.row = None # type: Optional[int] def __repr__(self) -> str: return "{}>".format( self.text, self.row, self.rowspan, self.col, self.colspan ) def __hash__(self) -> int: return hash((self.col, self.row)) def wrap(self, width: int) -> None: self.wrapped = my_wrap(self.text, width) class Table: """Represents a table, handling cells that can span on multiple lines or rows, like:: +-----------+-----+ | AAA | BBB | +-----+-----+ | | | XXX | | | +-----+-----+ | DDD | CCC | +-----+-----------+ This class can be used in two ways: - Either with absolute positions: call ``table[line, col] = Cell(...)``, this overwrite an existing cell if any. - Either with relative positions: call the ``add_row()`` and ``add_cell(Cell(...))`` as needed. Cell spanning on multiple rows or multiple columns (having a colspan or rowspan greater than one) are automatically referenced by all the table cells they covers. This is a useful representation as we can simply check ``if self[x, y] is self[x, y+1]`` to recognize a rowspan. Colwidth is not automatically computed, it has to be given, either at construction time, either during the table construction. Example usage:: table = Table([6, 6]) table.add_cell(Cell("foo")) table.add_cell(Cell("bar")) table.set_separator() table.add_row() table.add_cell(Cell("FOO")) table.add_cell(Cell("BAR")) print(table) +--------+--------+ | foo | bar | |========|========| | FOO | BAR | +--------+--------+ """ def __init__(self, colwidth: List[int] = None) -> None: self.lines = [] # type: List[List[Cell]] self.separator = 0 self.colwidth = (colwidth if colwidth is not None else []) # type: List[int] self.current_line = 0 self.current_col = 0 def add_row(self) -> None: """Add a row to the table, to use with ``add_cell()``. It is not needed to call ``add_row()`` before the first ``add_cell()``. """ self.current_line += 1 self.current_col = 0 def set_separator(self) -> None: """Sets the separator below the current line. """ self.separator = len(self.lines) def add_cell(self, cell: Cell) -> None: """Add a cell to the current line, to use with ``add_row()``. To add a cell spanning on multiple lines or rows, simply set the ``cell.colspan`` or ``cell.rowspan`` BEFORE inserting it to the table. """ while self[self.current_line, self.current_col]: self.current_col += 1 self[self.current_line, self.current_col] = cell self.current_col += cell.colspan def __getitem__(self, pos: Tuple[int, int]) -> Cell: line, col = pos self._ensure_has_line(line + 1) self._ensure_has_column(col + 1) return self.lines[line][col] def __setitem__(self, pos: Tuple[int, int], cell: Cell) -> None: line, col = pos self._ensure_has_line(line + cell.rowspan) self._ensure_has_column(col + cell.colspan) for dline in range(cell.rowspan): for dcol in range(cell.colspan): self.lines[line + dline][col + dcol] = cell cell.row = line cell.col = col def _ensure_has_line(self, line: int) -> None: while len(self.lines) < line: self.lines.append([]) def _ensure_has_column(self, col: int) -> None: for line in self.lines: while len(line) < col: line.append(None) def __repr__(self) -> str: return "\n".join(repr(line) for line in self.lines) def cell_width(self, cell: Cell, source: List[int]) -> int: """Give the cell width, according to the given source (either ``self.colwidth`` or ``self.measured_widths``). This take into account cells spanning on multiple columns. """ width = 0 for i in range(self[cell.row, cell.col].colspan): width += source[cell.col + i] return width + (cell.colspan - 1) * 3 @property def cells(self) -> Generator[Cell, None, None]: seen = set() # type: Set[Cell] for lineno, line in enumerate(self.lines): for colno, cell in enumerate(line): if cell and cell not in seen: yield cell seen.add(cell) def rewrap(self) -> None: """Call ``cell.wrap()`` on all cells, and measure each column width after wrapping (result written in ``self.measured_widths``). """ self.measured_widths = self.colwidth[:] for cell in self.cells: cell.wrap(width=self.cell_width(cell, self.colwidth)) if not cell.wrapped: continue width = math.ceil(max(column_width(x) for x in cell.wrapped) / cell.colspan) for col in range(cell.col, cell.col + cell.colspan): self.measured_widths[col] = max(self.measured_widths[col], width) def physical_lines_for_line(self, line: List[Cell]) -> int: """From a given line, compute the number of physical lines it spans due to text wrapping. """ physical_lines = 1 for cell in line: physical_lines = max(physical_lines, len(cell.wrapped)) return physical_lines def __str__(self) -> str: out = [] self.rewrap() def writesep(char: str = "-", lineno: Optional[int] = None) -> str: """Called on the line *before* lineno. Called with no *lineno* for the last sep. """ out = [] # type: List[str] for colno, width in enumerate(self.measured_widths): if ( lineno is not None and lineno > 0 and self[lineno, colno] is self[lineno - 1, colno] ): out.append(" " * (width + 2)) else: out.append(char * (width + 2)) head = "+" if out[0][0] == "-" else "|" tail = "+" if out[-1][0] == "-" else "|" glue = [ "+" if left[0] == "-" or right[0] == "-" else "|" for left, right in zip(out, out[1:]) ] glue.append(tail) return head + "".join(chain.from_iterable(zip(out, glue))) for lineno, line in enumerate(self.lines): if self.separator and lineno == self.separator: out.append(writesep("=", lineno)) else: out.append(writesep("-", lineno)) for physical_line in range(self.physical_lines_for_line(line)): linestr = ["|"] for colno, cell in enumerate(line): if cell.col != colno: continue if lineno != cell.row: physical_text = "" elif physical_line >= len(cell.wrapped): physical_text = "" else: physical_text = cell.wrapped[physical_line] adjust_len = len(physical_text) - column_width(physical_text) linestr.append( " " + physical_text.ljust( self.cell_width(cell, self.measured_widths) + 1 + adjust_len ) + "|" ) out.append("".join(linestr)) out.append(writesep("-")) return "\n".join(out) class TextWrapper(textwrap.TextWrapper): """Custom subclass that uses a different word separator regex.""" wordsep_re = re.compile( r'(\s+|' # any whitespace r'(?<=\s)(?::[a-z-]+:)?`\S+|' # interpreted text start r'[^\s\w]*\w+[a-zA-Z]-(?=\w+[a-zA-Z])|' # hyphenated words r'(?<=[\w\!\"\'\&\.\,\?])-{2,}(?=\w))') # em-dash def _wrap_chunks(self, chunks: List[str]) -> List[str]: """_wrap_chunks(chunks : [string]) -> [string] The original _wrap_chunks uses len() to calculate width. This method respects wide/fullwidth characters for width adjustment. """ lines = [] # type: List[str] if self.width <= 0: raise ValueError("invalid width %r (must be > 0)" % self.width) chunks.reverse() while chunks: cur_line = [] cur_len = 0 if lines: indent = self.subsequent_indent else: indent = self.initial_indent width = self.width - column_width(indent) if self.drop_whitespace and chunks[-1].strip() == '' and lines: del chunks[-1] while chunks: l = column_width(chunks[-1]) if cur_len + l <= width: cur_line.append(chunks.pop()) cur_len += l else: break if chunks and column_width(chunks[-1]) > width: self._handle_long_word(chunks, cur_line, cur_len, width) if self.drop_whitespace and cur_line and cur_line[-1].strip() == '': del cur_line[-1] if cur_line: lines.append(indent + ''.join(cur_line)) return lines def _break_word(self, word: str, space_left: int) -> Tuple[str, str]: """_break_word(word : string, space_left : int) -> (string, string) Break line by unicode width instead of len(word). """ total = 0 for i, c in enumerate(word): total += column_width(c) if total > space_left: return word[:i - 1], word[i - 1:] return word, '' def _split(self, text: str) -> List[str]: """_split(text : string) -> [string] Override original method that only split by 'wordsep_re'. This '_split' split wide-characters into chunk by one character. """ def split(t: str) -> List[str]: return super(TextWrapper, self)._split(t) chunks = [] # type: List[str] for chunk in split(text): for w, g in groupby(chunk, column_width): if w == 1: chunks.extend(split(''.join(g))) else: chunks.extend(list(g)) return chunks def _handle_long_word(self, reversed_chunks: List[str], cur_line: List[str], cur_len: int, width: int) -> None: """_handle_long_word(chunks : [string], cur_line : [string], cur_len : int, width : int) Override original method for using self._break_word() instead of slice. """ space_left = max(width - cur_len, 1) if self.break_long_words: l, r = self._break_word(reversed_chunks[-1], space_left) cur_line.append(l) reversed_chunks[-1] = r elif not cur_line: cur_line.append(reversed_chunks.pop()) MAXWIDTH = 70 STDINDENT = 3 def my_wrap(text: str, width: int = MAXWIDTH, **kwargs: Any) -> List[str]: w = TextWrapper(width=width, **kwargs) return w.wrap(text) class TextWriter(writers.Writer): supported = ('text',) settings_spec = ('No options here.', '', ()) settings_defaults = {} # type: Dict output = None # type: str def __init__(self, builder: "TextBuilder") -> None: super().__init__() self.builder = builder def translate(self) -> None: visitor = self.builder.create_translator(self.document, self.builder) self.document.walkabout(visitor) self.output = cast(TextTranslator, visitor).body class TextTranslator(SphinxTranslator): builder = None # type: TextBuilder def __init__(self, document: nodes.document, builder: "TextBuilder") -> None: super().__init__(document, builder) newlines = self.config.text_newlines if newlines == 'windows': self.nl = '\r\n' elif newlines == 'native': self.nl = os.linesep else: self.nl = '\n' self.sectionchars = self.config.text_sectionchars self.add_secnumbers = self.config.text_add_secnumbers self.secnumber_suffix = self.config.text_secnumber_suffix self.states = [[]] # type: List[List[Tuple[int, Union[str, List[str]]]]] self.stateindent = [0] self.list_counter = [] # type: List[int] self.sectionlevel = 0 self.lineblocklevel = 0 self.table = None # type: Table def add_text(self, text: str) -> None: self.states[-1].append((-1, text)) def new_state(self, indent: int = STDINDENT) -> None: self.states.append([]) self.stateindent.append(indent) def end_state(self, wrap: bool = True, end: List[str] = [''], first: str = None) -> None: content = self.states.pop() maxindent = sum(self.stateindent) indent = self.stateindent.pop() result = [] # type: List[Tuple[int, List[str]]] toformat = [] # type: List[str] def do_format() -> None: if not toformat: return if wrap: res = my_wrap(''.join(toformat), width=MAXWIDTH - maxindent) else: res = ''.join(toformat).splitlines() if end: res += end result.append((indent, res)) for itemindent, item in content: if itemindent == -1: toformat.append(item) # type: ignore else: do_format() result.append((indent + itemindent, item)) # type: ignore toformat = [] do_format() if first is not None and result: # insert prefix into first line (ex. *, [1], See also, etc.) newindent = result[0][0] - indent if result[0][1] == ['']: result.insert(0, (newindent, [first])) else: text = first + result[0][1].pop(0) result.insert(0, (newindent, [text])) self.states[-1].extend(result) def visit_document(self, node: Element) -> None: self.new_state(0) def depart_document(self, node: Element) -> None: self.end_state() self.body = self.nl.join(line and (' ' * indent + line) for indent, lines in self.states[0] for line in lines) # XXX header/footer? def visit_section(self, node: Element) -> None: self._title_char = self.sectionchars[self.sectionlevel] self.sectionlevel += 1 def depart_section(self, node: Element) -> None: self.sectionlevel -= 1 def visit_topic(self, node: Element) -> None: self.new_state(0) def depart_topic(self, node: Element) -> None: self.end_state() visit_sidebar = visit_topic depart_sidebar = depart_topic def visit_rubric(self, node: Element) -> None: self.new_state(0) self.add_text('-[ ') def depart_rubric(self, node: Element) -> None: self.add_text(' ]-') self.end_state() def visit_compound(self, node: Element) -> None: pass def depart_compound(self, node: Element) -> None: pass def visit_glossary(self, node: Element) -> None: pass def depart_glossary(self, node: Element) -> None: pass def visit_title(self, node: Element) -> None: if isinstance(node.parent, nodes.Admonition): self.add_text(node.astext() + ': ') raise nodes.SkipNode self.new_state(0) def get_section_number_string(self, node: Element) -> str: if isinstance(node.parent, nodes.section): anchorname = '#' + node.parent['ids'][0] numbers = self.builder.secnumbers.get(anchorname) if numbers is None: numbers = self.builder.secnumbers.get('') if numbers is not None: return '.'.join(map(str, numbers)) + self.secnumber_suffix return '' def depart_title(self, node: Element) -> None: if isinstance(node.parent, nodes.section): char = self._title_char else: char = '^' text = '' text = ''.join(x[1] for x in self.states.pop() if x[0] == -1) # type: ignore if self.add_secnumbers: text = self.get_section_number_string(node) + text self.stateindent.pop() title = ['', text, '%s' % (char * column_width(text)), ''] if len(self.states) == 2 and len(self.states[-1]) == 0: # remove an empty line before title if it is first section title in the document title.pop(0) self.states[-1].append((0, title)) def visit_subtitle(self, node: Element) -> None: pass def depart_subtitle(self, node: Element) -> None: pass def visit_attribution(self, node: Element) -> None: self.add_text('-- ') def depart_attribution(self, node: Element) -> None: pass def visit_desc(self, node: Element) -> None: pass def depart_desc(self, node: Element) -> None: pass def visit_desc_signature(self, node: Element) -> None: self.new_state(0) def depart_desc_signature(self, node: Element) -> None: # XXX: wrap signatures in a way that makes sense self.end_state(wrap=False, end=None) def visit_desc_signature_line(self, node: Element) -> None: pass def depart_desc_signature_line(self, node: Element) -> None: self.add_text('\n') def visit_desc_name(self, node: Element) -> None: pass def depart_desc_name(self, node: Element) -> None: pass def visit_desc_addname(self, node: Element) -> None: pass def depart_desc_addname(self, node: Element) -> None: pass def visit_desc_type(self, node: Element) -> None: pass def depart_desc_type(self, node: Element) -> None: pass def visit_desc_returns(self, node: Element) -> None: self.add_text(' -> ') def depart_desc_returns(self, node: Element) -> None: pass def visit_desc_parameterlist(self, node: Element) -> None: self.add_text('(') self.first_param = 1 def depart_desc_parameterlist(self, node: Element) -> None: self.add_text(')') def visit_desc_parameter(self, node: Element) -> None: if not self.first_param: self.add_text(', ') else: self.first_param = 0 self.add_text(node.astext()) raise nodes.SkipNode def visit_desc_optional(self, node: Element) -> None: self.add_text('[') def depart_desc_optional(self, node: Element) -> None: self.add_text(']') def visit_desc_annotation(self, node: Element) -> None: pass def depart_desc_annotation(self, node: Element) -> None: pass def visit_desc_content(self, node: Element) -> None: self.new_state() self.add_text(self.nl) def depart_desc_content(self, node: Element) -> None: self.end_state() def visit_figure(self, node: Element) -> None: self.new_state() def depart_figure(self, node: Element) -> None: self.end_state() def visit_caption(self, node: Element) -> None: pass def depart_caption(self, node: Element) -> None: pass def visit_productionlist(self, node: Element) -> None: self.new_state() names = [] productionlist = cast(Iterable[addnodes.production], node) for production in productionlist: names.append(production['tokenname']) maxlen = max(len(name) for name in names) lastname = None for production in productionlist: if production['tokenname']: self.add_text(production['tokenname'].ljust(maxlen) + ' ::=') lastname = production['tokenname'] elif lastname is not None: self.add_text('%s ' % (' ' * len(lastname))) self.add_text(production.astext() + self.nl) self.end_state(wrap=False) raise nodes.SkipNode def visit_footnote(self, node: Element) -> None: label = cast(nodes.label, node[0]) self._footnote = label.astext().strip() self.new_state(len(self._footnote) + 3) def depart_footnote(self, node: Element) -> None: self.end_state(first='[%s] ' % self._footnote) def visit_citation(self, node: Element) -> None: if len(node) and isinstance(node[0], nodes.label): self._citlabel = node[0].astext() else: self._citlabel = '' self.new_state(len(self._citlabel) + 3) def depart_citation(self, node: Element) -> None: self.end_state(first='[%s] ' % self._citlabel) def visit_label(self, node: Element) -> None: raise nodes.SkipNode def visit_legend(self, node: Element) -> None: pass def depart_legend(self, node: Element) -> None: pass # XXX: option list could use some better styling def visit_option_list(self, node: Element) -> None: pass def depart_option_list(self, node: Element) -> None: pass def visit_option_list_item(self, node: Element) -> None: self.new_state(0) def depart_option_list_item(self, node: Element) -> None: self.end_state() def visit_option_group(self, node: Element) -> None: self._firstoption = True def depart_option_group(self, node: Element) -> None: self.add_text(' ') def visit_option(self, node: Element) -> None: if self._firstoption: self._firstoption = False else: self.add_text(', ') def depart_option(self, node: Element) -> None: pass def visit_option_string(self, node: Element) -> None: pass def depart_option_string(self, node: Element) -> None: pass def visit_option_argument(self, node: Element) -> None: self.add_text(node['delimiter']) def depart_option_argument(self, node: Element) -> None: pass def visit_description(self, node: Element) -> None: pass def depart_description(self, node: Element) -> None: pass def visit_tabular_col_spec(self, node: Element) -> None: raise nodes.SkipNode def visit_colspec(self, node: Element) -> None: self.table.colwidth.append(node["colwidth"]) raise nodes.SkipNode def visit_tgroup(self, node: Element) -> None: pass def depart_tgroup(self, node: Element) -> None: pass def visit_thead(self, node: Element) -> None: pass def depart_thead(self, node: Element) -> None: pass def visit_tbody(self, node: Element) -> None: self.table.set_separator() def depart_tbody(self, node: Element) -> None: pass def visit_row(self, node: Element) -> None: if self.table.lines: self.table.add_row() def depart_row(self, node: Element) -> None: pass def visit_entry(self, node: Element) -> None: self.entry = Cell( rowspan=node.get("morerows", 0) + 1, colspan=node.get("morecols", 0) + 1 ) self.new_state(0) def depart_entry(self, node: Element) -> None: text = self.nl.join(self.nl.join(x[1]) for x in self.states.pop()) self.stateindent.pop() self.entry.text = text self.table.add_cell(self.entry) self.entry = None def visit_table(self, node: Element) -> None: if self.table: raise NotImplementedError('Nested tables are not supported.') self.new_state(0) self.table = Table() def depart_table(self, node: Element) -> None: self.add_text(str(self.table)) self.table = None self.end_state(wrap=False) def visit_acks(self, node: Element) -> None: bullet_list = cast(nodes.bullet_list, node[0]) list_items = cast(Iterable[nodes.list_item], bullet_list) self.new_state(0) self.add_text(', '.join(n.astext() for n in list_items) + '.') self.end_state() raise nodes.SkipNode def visit_image(self, node: Element) -> None: if 'alt' in node.attributes: self.add_text(_('[image: %s]') % node['alt']) self.add_text(_('[image]')) raise nodes.SkipNode def visit_transition(self, node: Element) -> None: indent = sum(self.stateindent) self.new_state(0) self.add_text('=' * (MAXWIDTH - indent)) self.end_state() raise nodes.SkipNode def visit_bullet_list(self, node: Element) -> None: self.list_counter.append(-1) def depart_bullet_list(self, node: Element) -> None: self.list_counter.pop() def visit_enumerated_list(self, node: Element) -> None: self.list_counter.append(node.get('start', 1) - 1) def depart_enumerated_list(self, node: Element) -> None: self.list_counter.pop() def visit_definition_list(self, node: Element) -> None: self.list_counter.append(-2) def depart_definition_list(self, node: Element) -> None: self.list_counter.pop() def visit_list_item(self, node: Element) -> None: if self.list_counter[-1] == -1: # bullet list self.new_state(2) elif self.list_counter[-1] == -2: # definition list pass else: # enumerated list self.list_counter[-1] += 1 self.new_state(len(str(self.list_counter[-1])) + 2) def depart_list_item(self, node: Element) -> None: if self.list_counter[-1] == -1: self.end_state(first='* ') elif self.list_counter[-1] == -2: pass else: self.end_state(first='%s. ' % self.list_counter[-1]) def visit_definition_list_item(self, node: Element) -> None: self._classifier_count_in_li = len(node.traverse(nodes.classifier)) def depart_definition_list_item(self, node: Element) -> None: pass def visit_term(self, node: Element) -> None: self.new_state(0) def depart_term(self, node: Element) -> None: if not self._classifier_count_in_li: self.end_state(end=None) def visit_classifier(self, node: Element) -> None: self.add_text(' : ') def depart_classifier(self, node: Element) -> None: self._classifier_count_in_li -= 1 if not self._classifier_count_in_li: self.end_state(end=None) def visit_definition(self, node: Element) -> None: self.new_state() def depart_definition(self, node: Element) -> None: self.end_state() def visit_field_list(self, node: Element) -> None: pass def depart_field_list(self, node: Element) -> None: pass def visit_field(self, node: Element) -> None: pass def depart_field(self, node: Element) -> None: pass def visit_field_name(self, node: Element) -> None: self.new_state(0) def depart_field_name(self, node: Element) -> None: self.add_text(':') self.end_state(end=None) def visit_field_body(self, node: Element) -> None: self.new_state() def depart_field_body(self, node: Element) -> None: self.end_state() def visit_centered(self, node: Element) -> None: pass def depart_centered(self, node: Element) -> None: pass def visit_hlist(self, node: Element) -> None: pass def depart_hlist(self, node: Element) -> None: pass def visit_hlistcol(self, node: Element) -> None: pass def depart_hlistcol(self, node: Element) -> None: pass def visit_admonition(self, node: Element) -> None: self.new_state(0) def depart_admonition(self, node: Element) -> None: self.end_state() def _visit_admonition(self, node: Element) -> None: self.new_state(2) def _depart_admonition(self, node: Element) -> None: label = admonitionlabels[node.tagname] indent = sum(self.stateindent) + len(label) if (len(self.states[-1]) == 1 and self.states[-1][0][0] == 0 and MAXWIDTH - indent >= sum(len(s) for s in self.states[-1][0][1])): # short text: append text after admonition label self.stateindent[-1] += len(label) self.end_state(first=label + ': ') else: # long text: append label before the block self.states[-1].insert(0, (0, [self.nl])) self.end_state(first=label + ':') visit_attention = _visit_admonition depart_attention = _depart_admonition visit_caution = _visit_admonition depart_caution = _depart_admonition visit_danger = _visit_admonition depart_danger = _depart_admonition visit_error = _visit_admonition depart_error = _depart_admonition visit_hint = _visit_admonition depart_hint = _depart_admonition visit_important = _visit_admonition depart_important = _depart_admonition visit_note = _visit_admonition depart_note = _depart_admonition visit_tip = _visit_admonition depart_tip = _depart_admonition visit_warning = _visit_admonition depart_warning = _depart_admonition visit_seealso = _visit_admonition depart_seealso = _depart_admonition def visit_versionmodified(self, node: Element) -> None: self.new_state(0) def depart_versionmodified(self, node: Element) -> None: self.end_state() def visit_literal_block(self, node: Element) -> None: self.new_state() def depart_literal_block(self, node: Element) -> None: self.end_state(wrap=False) def visit_doctest_block(self, node: Element) -> None: self.new_state(0) def depart_doctest_block(self, node: Element) -> None: self.end_state(wrap=False) def visit_line_block(self, node: Element) -> None: self.new_state() self.lineblocklevel += 1 def depart_line_block(self, node: Element) -> None: self.lineblocklevel -= 1 self.end_state(wrap=False, end=None) if not self.lineblocklevel: self.add_text('\n') def visit_line(self, node: Element) -> None: pass def depart_line(self, node: Element) -> None: self.add_text('\n') def visit_block_quote(self, node: Element) -> None: self.new_state() def depart_block_quote(self, node: Element) -> None: self.end_state() def visit_compact_paragraph(self, node: Element) -> None: pass def depart_compact_paragraph(self, node: Element) -> None: pass def visit_paragraph(self, node: Element) -> None: if not isinstance(node.parent, nodes.Admonition) or \ isinstance(node.parent, addnodes.seealso): self.new_state(0) def depart_paragraph(self, node: Element) -> None: if not isinstance(node.parent, nodes.Admonition) or \ isinstance(node.parent, addnodes.seealso): self.end_state() def visit_target(self, node: Element) -> None: raise nodes.SkipNode def visit_index(self, node: Element) -> None: raise nodes.SkipNode def visit_toctree(self, node: Element) -> None: raise nodes.SkipNode def visit_substitution_definition(self, node: Element) -> None: raise nodes.SkipNode def visit_pending_xref(self, node: Element) -> None: pass def depart_pending_xref(self, node: Element) -> None: pass def visit_reference(self, node: Element) -> None: if self.add_secnumbers: numbers = node.get("secnumber") if numbers is not None: self.add_text('.'.join(map(str, numbers)) + self.secnumber_suffix) def depart_reference(self, node: Element) -> None: pass def visit_number_reference(self, node: Element) -> None: text = nodes.Text(node.get('title', '#')) self.visit_Text(text) raise nodes.SkipNode def visit_download_reference(self, node: Element) -> None: pass def depart_download_reference(self, node: Element) -> None: pass def visit_emphasis(self, node: Element) -> None: self.add_text('*') def depart_emphasis(self, node: Element) -> None: self.add_text('*') def visit_literal_emphasis(self, node: Element) -> None: self.add_text('*') def depart_literal_emphasis(self, node: Element) -> None: self.add_text('*') def visit_strong(self, node: Element) -> None: self.add_text('**') def depart_strong(self, node: Element) -> None: self.add_text('**') def visit_literal_strong(self, node: Element) -> None: self.add_text('**') def depart_literal_strong(self, node: Element) -> None: self.add_text('**') def visit_abbreviation(self, node: Element) -> None: self.add_text('') def depart_abbreviation(self, node: Element) -> None: if node.hasattr('explanation'): self.add_text(' (%s)' % node['explanation']) def visit_manpage(self, node: Element) -> None: return self.visit_literal_emphasis(node) def depart_manpage(self, node: Element) -> None: return self.depart_literal_emphasis(node) def visit_title_reference(self, node: Element) -> None: self.add_text('*') def depart_title_reference(self, node: Element) -> None: self.add_text('*') def visit_literal(self, node: Element) -> None: self.add_text('"') def depart_literal(self, node: Element) -> None: self.add_text('"') def visit_subscript(self, node: Element) -> None: self.add_text('_') def depart_subscript(self, node: Element) -> None: pass def visit_superscript(self, node: Element) -> None: self.add_text('^') def depart_superscript(self, node: Element) -> None: pass def visit_footnote_reference(self, node: Element) -> None: self.add_text('[%s]' % node.astext()) raise nodes.SkipNode def visit_citation_reference(self, node: Element) -> None: self.add_text('[%s]' % node.astext()) raise nodes.SkipNode def visit_Text(self, node: Text) -> None: self.add_text(node.astext()) def depart_Text(self, node: Text) -> None: pass def visit_generated(self, node: Element) -> None: pass def depart_generated(self, node: Element) -> None: pass def visit_inline(self, node: Element) -> None: if 'xref' in node['classes'] or 'term' in node['classes']: self.add_text('*') def depart_inline(self, node: Element) -> None: if 'xref' in node['classes'] or 'term' in node['classes']: self.add_text('*') def visit_container(self, node: Element) -> None: pass def depart_container(self, node: Element) -> None: pass def visit_problematic(self, node: Element) -> None: self.add_text('>>') def depart_problematic(self, node: Element) -> None: self.add_text('<<') def visit_system_message(self, node: Element) -> None: self.new_state(0) self.add_text('' % node.astext()) self.end_state() raise nodes.SkipNode def visit_comment(self, node: Element) -> None: raise nodes.SkipNode def visit_meta(self, node: Element) -> None: # only valid for HTML raise nodes.SkipNode def visit_raw(self, node: Element) -> None: if 'text' in node.get('format', '').split(): self.new_state(0) self.add_text(node.astext()) self.end_state(wrap = False) raise nodes.SkipNode def visit_math(self, node: Element) -> None: pass def depart_math(self, node: Element) -> None: pass def visit_math_block(self, node: Element) -> None: self.new_state() def depart_math_block(self, node: Element) -> None: self.end_state() def unknown_visit(self, node: Node) -> None: raise NotImplementedError('Unknown node: ' + node.__class__.__name__)