# $Id: __init__.py 5738 2008-11-30 08:59:04Z grubert $ # Author: Lea Wiemann # Copyright: This module has been placed in the public domain. """ LaTeX2e document tree Writer. """ # Thanks to Engelbert Gruber and various contributors for the original # LaTeX writer, some code and many ideas of which have been used for # this writer. __docformat__ = 'reStructuredText' import re import os.path import docutils from docutils import nodes, writers, utils from docutils.writers.newlatex2e import unicode_map from docutils.transforms import writer_aux class Writer(writers.Writer): supported = ('newlatex', 'newlatex2e') """Formats this writer supports.""" default_stylesheet = 'base.tex' default_stylesheet_path = utils.relative_path( os.path.join(os.getcwd(), 'dummy'), os.path.join(os.path.dirname(__file__), default_stylesheet)) settings_spec = ( 'LaTeX-Specific Options', 'Note that this LaTeX writer is still EXPERIMENTAL and not ' 'feature-complete. ', (('Specify a stylesheet file. The path is used verbatim to include ' 'the file. Overrides --stylesheet-path.', ['--stylesheet'], {'default': '', 'metavar': '', 'overrides': 'stylesheet_path'}), ('Specify a stylesheet file, relative to the current working ' 'directory. Overrides --stylesheet. Default: "%s"' % default_stylesheet_path, ['--stylesheet-path'], {'metavar': '', 'overrides': 'stylesheet', 'default': default_stylesheet_path}), ('Specify a user stylesheet file. See --stylesheet.', ['--user-stylesheet'], {'default': '', 'metavar': '', 'overrides': 'user_stylesheet_path'}), ('Specify a user stylesheet file. See --stylesheet-path.', ['--user-stylesheet-path'], {'metavar': '', 'overrides': 'user_stylesheet'}) ),) settings_defaults = { # Many Unicode characters are provided by unicode_map.py, so # we can default to latin-1. 'output_encoding': 'latin-1', 'output_encoding_error_handler': 'strict', # Since we are using superscript footnotes, it is necessary to # trim whitespace in front of footnote references. 'trim_footnote_reference_space': 1, # Currently unsupported: 'docinfo_xform': 0, # During development: 'traceback': 1 } relative_path_settings = ('stylesheet_path', 'user_stylesheet_path') config_section = 'newlatex2e writer' config_section_dependencies = ('writers',) output = None """Final translated form of `document`.""" def get_transforms(self): return writers.Writer.get_transforms(self) + [ writer_aux.Compound, writer_aux.Admonitions] def __init__(self): writers.Writer.__init__(self) self.translator_class = LaTeXTranslator def translate(self): visitor = self.translator_class(self.document) self.document.walkabout(visitor) assert not visitor.context, 'context not empty: %s' % visitor.context self.output = visitor.astext() self.head = visitor.header self.body = visitor.body class LaTeXException(Exception): """ Exception base class to for exceptions which influence the automatic generation of LaTeX code. """ class SkipAttrParentLaTeX(LaTeXException): """ Do not generate ``\DECattr`` and ``\renewcommand{\DEVparent}{...}`` for this node. To be raised from ``before_...`` methods. """ class SkipParentLaTeX(LaTeXException): """ Do not generate ``\renewcommand{\DEVparent}{...}`` for this node. To be raised from ``before_...`` methods. """ class LaTeXTranslator(nodes.SparseNodeVisitor): # Country code by a.schlock. # Partly manually converted from iso and babel stuff. iso639_to_babel = { 'no': 'norsk', # added by hand 'gd': 'scottish', # added by hand 'sl': 'slovenian', 'af': 'afrikaans', 'bg': 'bulgarian', 'br': 'breton', 'ca': 'catalan', 'cs': 'czech', 'cy': 'welsh', 'da': 'danish', 'fr': 'french', # french, francais, canadien, acadian 'de': 'ngerman', # ngerman, naustrian, german, germanb, austrian 'el': 'greek', 'en': 'english', # english, USenglish, american, UKenglish, british, canadian 'eo': 'esperanto', 'es': 'spanish', 'et': 'estonian', 'eu': 'basque', 'fi': 'finnish', 'ga': 'irish', 'gl': 'galician', 'he': 'hebrew', 'hr': 'croatian', 'hu': 'hungarian', 'is': 'icelandic', 'it': 'italian', 'la': 'latin', 'nl': 'dutch', 'pl': 'polish', 'pt': 'portuguese', 'ro': 'romanian', 'ru': 'russian', 'sk': 'slovak', 'sr': 'serbian', 'sv': 'swedish', 'tr': 'turkish', 'uk': 'ukrainian' } # Start with left double quote. left_quote = 1 def __init__(self, document): nodes.NodeVisitor.__init__(self, document) self.settings = document.settings self.header = [] self.body = [] self.context = [] self.stylesheet_path = utils.get_stylesheet_reference( self.settings, os.path.join(os.getcwd(), 'dummy')) if self.stylesheet_path: self.settings.record_dependencies.add(self.stylesheet_path) # This ugly hack will be cleaned up when refactoring the # stylesheet mess. self.settings.stylesheet = self.settings.user_stylesheet self.settings.stylesheet_path = self.settings.user_stylesheet_path self.user_stylesheet_path = utils.get_stylesheet_reference( self.settings, os.path.join(os.getcwd(), 'dummy')) if self.user_stylesheet_path: self.settings.record_dependencies.add(self.user_stylesheet_path) lang = self.settings.language_code or '' if lang.startswith('de'): self.double_quote_replacment = "{\\dq}" elif lang.startswith('it'): self.double_quote_replacment = r'{\char`\"}' else: self.double_quote_replacment = None self.write_header() def write_header(self): a = self.header.append a('%% Generated by Docutils %s .' % docutils.__version__) a('') a('% Docutils settings:') lang = self.settings.language_code or '' a(r'\providecommand{\DEVlanguageiso}{%s}' % lang) a(r'\providecommand{\DEVlanguagebabel}{%s}' % self.iso639_to_babel.get( lang, self.iso639_to_babel.get(lang.split('_')[0], ''))) a('') if self.user_stylesheet_path: a('% User stylesheet:') a(r'\input{%s}' % self.user_stylesheet_path) a('% Docutils stylesheet:') a(r'\input{%s}' % self.stylesheet_path) a('') a('% Default definitions for Docutils nodes:') for node_name in nodes.node_class_names: a(r'\providecommand{\DN%s}[1]{#1}' % node_name.replace('_', '')) a('') a('% Auxiliary definitions:') for attr in (r'\DEVparent \DEVattrlen \DEVtitleastext ' r'\DEVsinglebackref \DEVmultiplebackrefs' ).split(): # Later set using \renewcommand. a(r'\providecommand{%s}{DOCUTILSUNINITIALIZEDVARIABLE}' % attr) for attr in (r'\DEVparagraphindented \DEVhassubtitle').split(): # Initialize as boolean variables. a(r'\providecommand{%s}{false}' % attr) a('\n\n') unicode_map = unicode_map.unicode_map # comprehensive Unicode map # Fix problems with unimap.py. unicode_map.update({ # We have AE or T1 encoding, so "``" etc. work. The macros # from unimap.py may *not* work. u'\u201C': '{``}', u'\u201D': "{''}", u'\u201E': '{,,}', }) character_map = { '\\': r'{\textbackslash}', '{': r'{\{}', '}': r'{\}}', '$': r'{\$}', '&': r'{\&}', '%': r'{\%}', '#': r'{\#}', '[': r'{[}', ']': r'{]}', '-': r'{-}', '`': r'{`}', "'": r"{'}", ',': r'{,}', '"': r'{"}', '|': r'{\textbar}', '<': r'{\textless}', '>': r'{\textgreater}', '^': r'{\textasciicircum}', '~': r'{\textasciitilde}', '_': r'{\DECtextunderscore}', } character_map.update(unicode_map) #character_map.update(special_map) # `att_map` is for encoding attributes. According to # , # the following characters are special: # $ % & ~ _ ^ \ { } # These work without special treatment in macro parameters: # $, &, ~, _, ^ att_map = {'#': '\\#', '%': '\\%', # We cannot do anything about backslashes. '\\': '', '{': '\\{', '}': '\\}', # The quotation mark may be redefined by babel. '"': '"{}', } att_map.update(unicode_map) def encode(self, text, attval=None): """ Encode special characters in ``text`` and return it. If attval is true, preserve as much as possible verbatim (used in attribute value encoding). If attval is 'width' or 'height', `text` is interpreted as a length value. """ if attval in ('width', 'height'): match = re.match(r'([0-9.]+)(\S*)$', text) assert match, '%s="%s" must be a length' % (attval, text) value, unit = match.groups() if unit == '%': value = str(float(value) / 100) unit = r'\DECrelativeunit' elif unit in ('', 'px'): # If \DECpixelunit is "pt", this gives the same notion # of pixels as graphicx. This is a bit of a hack. value = str(float(value) * 0.75) unit = '\DECpixelunit' return '%s%s' % (value, unit) if attval: get = self.att_map.get else: get = self.character_map.get text = ''.join([get(c, c) for c in text]) if (self.literal_block or self.inline_literal) and not attval: # NB: We can have inline literals within literal blocks. # Shrink '\r\n'. text = text.replace('\r\n', '\n') # Convert space. If "{ }~~~~~" is wrapped (at the # brace-enclosed space "{ }"), the following non-breaking # spaces ("~~~~") do *not* wind up at the beginning of the # next line. Also note that no hyphenation is done if the # breaking space ("{ }") comes *after* the non-breaking # spaces. if self.literal_block: # Replace newlines with real newlines. text = text.replace('\n', '\mbox{}\\\\{}') replace_fn = self.encode_replace_for_literal_block_spaces else: replace_fn = self.encode_replace_for_inline_literal_spaces text = re.sub(r'\s+', replace_fn, text) # Protect hyphens; if we don't, line breaks will be # possible at the hyphens and even the \textnhtt macro # from the hyphenat package won't change that. text = text.replace('-', r'\mbox{-}') text = text.replace("'", r'{\DECtextliteralsinglequote}') if self.double_quote_replacment is not None: text = text.replace('"', self.double_quote_replacment) return text else: if not attval: # Replace space with single protected space. text = re.sub(r'\s+', '{ }', text) # Replace double quotes with macro calls. L = [] for part in text.split(self.character_map['"']): if L: # Insert quote. L.append(self.left_quote and r'{\DECtextleftdblquote}' or r'{\DECtextrightdblquote}') self.left_quote = not self.left_quote L.append(part) return ''.join(L) else: return text def encode_replace_for_literal_block_spaces(self, match): return '~' * len(match.group()) def encode_replace_for_inline_literal_spaces(self, match): return '{ }' + '~' * (len(match.group()) - 1) def astext(self): return '\n'.join(self.header) + (''.join(self.body)) def append(self, text, newline='%\n'): """ Append text, stripping newlines, producing nice LaTeX code. """ lines = [' ' * self.indentation_level + line + newline for line in text.splitlines(0)] self.body.append(''.join(lines)) def visit_Text(self, node): self.append(self.encode(node.astext())) def depart_Text(self, node): pass def is_indented(self, paragraph): """Return true if `paragraph` should be first-line-indented.""" assert isinstance(paragraph, nodes.paragraph) siblings = [n for n in paragraph.parent if self.is_visible(n) and not isinstance(n, nodes.Titular)] index = siblings.index(paragraph) if ('continued' in paragraph['classes'] or index > 0 and isinstance(siblings[index-1], nodes.transition)): return 0 # Indent all but the first paragraphs. return index > 0 def before_paragraph(self, node): self.append(r'\renewcommand{\DEVparagraphindented}{%s}' % (self.is_indented(node) and 'true' or 'false')) def before_title(self, node): self.append(r'\renewcommand{\DEVtitleastext}{%s}' % self.encode(node.astext())) self.append(r'\renewcommand{\DEVhassubtitle}{%s}' % ((len(node.parent) > 2 and isinstance(node.parent[1], nodes.subtitle)) and 'true' or 'false')) def before_generated(self, node): if 'sectnum' in node['classes']: node[0] = node[0].strip() literal_block = 0 def visit_literal_block(self, node): self.literal_block = 1 def depart_literal_block(self, node): self.literal_block = 0 visit_doctest_block = visit_literal_block depart_doctest_block = depart_literal_block inline_literal = 0 def visit_literal(self, node): self.inline_literal += 1 def depart_literal(self, node): self.inline_literal -= 1 def _make_encodable(self, text): """ Return text (a unicode object) with all unencodable characters replaced with '?'. Thus, the returned unicode string is guaranteed to be encodable. """ encoding = self.settings.output_encoding return text.encode(encoding, 'replace').decode(encoding) def visit_comment(self, node): """ Insert the comment unchanged into the document, replacing unencodable characters with '?'. (This is done in order not to fail if comments contain unencodable characters, because our default encoding is not UTF-8.) """ self.append('\n'.join(['% ' + self._make_encodable(line) for line in node.astext().splitlines(0)]), newline='\n') raise nodes.SkipChildren def before_topic(self, node): if 'contents' in node['classes']: for bullet_list in list(node.traverse(nodes.bullet_list)): p = bullet_list.parent if isinstance(p, nodes.list_item): p.parent.insert(p.parent.index(p) + 1, bullet_list) del p[1] for paragraph in node.traverse(nodes.paragraph): paragraph.attributes.update(paragraph[0].attributes) paragraph[:] = paragraph[0] paragraph.parent['tocrefid'] = paragraph['refid'] node['contents'] = 1 else: node['contents'] = 0 bullet_list_level = 0 def visit_bullet_list(self, node): self.append(r'\DECsetbullet{\labelitem%s}' % ['i', 'ii', 'iii', 'iv'][min(self.bullet_list_level, 3)]) self.bullet_list_level += 1 def depart_bullet_list(self, node): self.bullet_list_level -= 1 enum_styles = {'arabic': 'arabic', 'loweralpha': 'alph', 'upperalpha': 'Alph', 'lowerroman': 'roman', 'upperroman': 'Roman'} enum_counter = 0 def visit_enumerated_list(self, node): # We create our own enumeration list environment. This allows # to set the style and starting value and unlimited nesting. # Maybe the actual creation (\DEC) can be moved to the # stylesheet? self.enum_counter += 1 enum_prefix = self.encode(node['prefix']) enum_suffix = self.encode(node['suffix']) enum_type = '\\' + self.enum_styles.get(node['enumtype'], r'arabic') start = node.get('start', 1) - 1 counter = 'Denumcounter%d' % self.enum_counter self.append(r'\DECmakeenumeratedlist{%s}{%s}{%s}{%s}{%s}{' % (enum_prefix, enum_type, enum_suffix, counter, start)) # for Emacs: } def depart_enumerated_list(self, node): self.append('}') # for Emacs: { def before_list_item(self, node): # XXX needs cleanup. if (len(node) and (isinstance(node[-1], nodes.TextElement) or isinstance(node[-1], nodes.Text)) and node.parent.index(node) == len(node.parent) - 1): node['lastitem'] = 'true' before_line = before_list_item def before_raw(self, node): if 'latex' in node.get('format', '').split(): # We're inserting the text in before_raw and thus outside # of \DN... and \DECattr in order to make grouping with # curly brackets work. self.append(node.astext()) raise nodes.SkipChildren def process_backlinks(self, node, type): """ Add LaTeX handling code for backlinks of footnote or citation node `node`. `type` is either 'footnote' or 'citation'. """ self.append(r'\renewcommand{\DEVsinglebackref}{}') self.append(r'\renewcommand{\DEVmultiplebackrefs}{}') if len(node['backrefs']) > 1: refs = [] for i in range(len(node['backrefs'])): # \DECmulticitationbacklink or \DECmultifootnotebacklink. refs.append(r'\DECmulti%sbacklink{%s}{%s}' % (type, node['backrefs'][i], i + 1)) self.append(r'\renewcommand{\DEVmultiplebackrefs}{(%s){ }}' % ', '.join(refs)) elif len(node['backrefs']) == 1: self.append(r'\renewcommand{\DEVsinglebackref}{%s}' % node['backrefs'][0]) def visit_footnote(self, node): self.process_backlinks(node, 'footnote') def visit_citation(self, node): self.process_backlinks(node, 'citation') def before_table(self, node): # A table contains exactly one tgroup. See before_tgroup. pass def before_tgroup(self, node): widths = [] total_width = 0 for i in range(int(node['cols'])): assert isinstance(node[i], nodes.colspec) widths.append(int(node[i]['colwidth']) + 1) total_width += widths[-1] del node[:len(widths)] tablespec = '|' for w in widths: # 0.93 is probably wrong in many cases. XXX Find a # solution which works *always*. tablespec += r'p{%s\textwidth}|' % (0.93 * w / max(total_width, 60)) self.append(r'\DECmaketable{%s}{' % tablespec) self.context.append('}') raise SkipAttrParentLaTeX def depart_tgroup(self, node): self.append(self.context.pop()) def before_row(self, node): raise SkipAttrParentLaTeX def before_thead(self, node): raise SkipAttrParentLaTeX def before_tbody(self, node): raise SkipAttrParentLaTeX def is_simply_entry(self, node): return (len(node) == 1 and isinstance(node[0], nodes.paragraph) or len(node) == 0) def before_entry(self, node): is_leftmost = 0 if node.hasattr('morerows'): self.document.reporter.severe('Rowspans are not supported.') # Todo: Add empty cells below rowspanning cell and issue # warning instead of severe. if node.hasattr('morecols'): # The author got a headache trying to implement # multicolumn support. if not self.is_simply_entry(node): self.document.reporter.severe( 'Colspanning table cells may only contain one paragraph.') # Todo: Same as above. # The number of columns this entry spans (as a string). colspan = int(node['morecols']) + 1 del node['morecols'] else: colspan = 1 # Macro to call -- \DECcolspan or \DECcolspanleft. macro_name = r'\DECcolspan' if node.parent.index(node) == 0: # Leftmost column. macro_name += 'left' is_leftmost = 1 if colspan > 1: self.append('%s{%s}{' % (macro_name, colspan)) self.context.append('}') else: # Do not add a multicolumn with colspan 1 beacuse we need # at least one non-multicolumn cell per column to get the # desired column widths, and we can only do colspans with # cells consisting of only one paragraph. if not is_leftmost: self.append(r'\DECsubsequententry{') self.context.append('}') else: self.context.append('') if isinstance(node.parent.parent, nodes.thead): node['tableheaderentry'] = 'true' # Don't add \renewcommand{\DEVparent}{...} because there must # not be any non-expandable commands in front of \multicolumn. raise SkipParentLaTeX def depart_entry(self, node): self.append(self.context.pop()) def before_substitution_definition(self, node): raise nodes.SkipNode indentation_level = 0 def node_name(self, node): return node.__class__.__name__.replace('_', '') # Attribute propagation order. attribute_order = ['align', 'classes', 'ids'] def attribute_cmp(self, a1, a2): """ Compare attribute names `a1` and `a2`. Used in propagate_attributes to determine propagation order. See built-in function `cmp` for return value. """ if a1 in self.attribute_order and a2 in self.attribute_order: return cmp(self.attribute_order.index(a1), self.attribute_order.index(a2)) if (a1 in self.attribute_order) != (a2 in self.attribute_order): # Attributes not in self.attribute_order come last. return a1 in self.attribute_order and -1 or 1 else: return cmp(a1, a2) def propagate_attributes(self, node): # Propagate attributes using \DECattr macros. node_name = self.node_name(node) attlist = [] if isinstance(node, nodes.Element): attlist = node.attlist() attlist.sort(lambda pair1, pair2: self.attribute_cmp(pair1[0], pair2[0])) # `numatts` may be greater than len(attlist) due to list # attributes. numatts = 0 pass_contents = self.pass_contents(node) for key, value in attlist: if isinstance(value, list): self.append(r'\renewcommand{\DEVattrlen}{%s}' % len(value)) for i in range(len(value)): self.append(r'\DECattr{%s}{%s}{%s}{%s}{' % (i+1, key, self.encode(value[i], attval=key), node_name)) if not pass_contents: self.append('}') numatts += len(value) else: self.append(r'\DECattr{}{%s}{%s}{%s}{' % (key, self.encode(unicode(value), attval=key), node_name)) if not pass_contents: self.append('}') numatts += 1 if pass_contents: self.context.append('}' * numatts) # for Emacs: { else: self.context.append('') def visit_docinfo(self, node): raise NotImplementedError('Docinfo not yet implemented.') def visit_document(self, node): document = node # Move IDs into TextElements. This won't work for images. # Need to review this. for node in document.traverse(nodes.Element): if 'ids' in node and not isinstance(node, nodes.TextElement): next_text_element = node.next_node(nodes.TextElement) if next_text_element: next_text_element['ids'].extend(node['ids']) node['ids'] = [] def pass_contents(self, node): r""" Return True if the node contents should be passed in \DN{} and \DECattr{}{}{}{}{}. Return False if the node contents should be passed in \DECvisit \DECdepart, and no attribute handler should be called. """ # Passing the whole document or whole sections as parameters # to \DN... or \DECattr causes LaTeX to run out of memory. return not isinstance(node, (nodes.document, nodes.section)) def dispatch_visit(self, node): skip_attr = skip_parent = 0 # TreePruningException to be propagated. tree_pruning_exception = None if hasattr(self, 'before_' + node.__class__.__name__): try: getattr(self, 'before_' + node.__class__.__name__)(node) except SkipParentLaTeX: skip_parent = 1 except SkipAttrParentLaTeX: skip_attr = 1 skip_parent = 1 except nodes.SkipNode: raise except (nodes.SkipChildren, nodes.SkipSiblings), instance: tree_pruning_exception = instance except nodes.SkipDeparture: raise NotImplementedError( 'SkipDeparture not usable in LaTeX writer') if not isinstance(node, nodes.Text): node_name = self.node_name(node) # attribute_deleters will be appended to self.context. attribute_deleters = [] if not skip_parent and not isinstance(node, nodes.document): self.append(r'\renewcommand{\DEVparent}{%s}' % self.node_name(node.parent)) for name, value in node.attlist(): if not isinstance(value, list) and not ':' in name: # For non-list and non-special (like # 'xml:preserve') attributes, set # \DEVcurrentNA to the # attribute value, so that the value of the # attribute is available in the node handler # and all children. macro = r'\DEVcurrentN%sA%s' % (node_name, name) self.append(r'\def%s{%s}' % ( macro, self.encode(unicode(value), attval=name))) # Make the attribute undefined afterwards. attribute_deleters.append(r'\let%s=\relax' % macro) self.context.append('\n'.join(attribute_deleters)) if self.pass_contents(node): # Call \DN{}. self.append(r'\DN%s{' % node_name) self.context.append('}') else: # Call \DECvisit # \DECdepart. (Maybe we should use LaTeX # environments for this?) self.append(r'\DECvisit%s' % node_name) self.context.append(r'\DECdepart%s' % node_name) self.indentation_level += 1 if not skip_attr: self.propagate_attributes(node) else: self.context.append('') if (isinstance(node, nodes.TextElement) and not isinstance(node.parent, nodes.TextElement)): # Reset current quote to left. self.left_quote = 1 # Call visit_... method. try: nodes.SparseNodeVisitor.dispatch_visit(self, node) except LaTeXException: raise NotImplementedError( 'visit_... methods must not raise LaTeXExceptions') if tree_pruning_exception: # Propagate TreePruningException raised in before_... method. raise tree_pruning_exception def is_invisible(self, node): # Return true if node is invisible or moved away in the LaTeX # rendering. return (not isinstance(node, nodes.Text) and (isinstance(node, nodes.Invisible) or isinstance(node, nodes.footnote) or isinstance(node, nodes.citation) or # Assume raw nodes to be invisible. isinstance(node, nodes.raw) or # Floating image or figure. node.get('align') in ('left', 'right'))) def is_visible(self, node): return not self.is_invisible(node) def needs_space(self, node): """Two nodes for which `needs_space` is true need auxiliary space.""" # Return true if node is a visible block-level element. return ((isinstance(node, nodes.Body) or isinstance(node, nodes.topic)) and not (self.is_invisible(node) or isinstance(node.parent, nodes.TextElement))) def always_needs_space(self, node): """ Always add space around nodes for which `always_needs_space()` is true, regardless of whether the other node needs space as well. (E.g. transition next to section.) """ return isinstance(node, nodes.transition) def dispatch_departure(self, node): # Call departure method. nodes.SparseNodeVisitor.dispatch_departure(self, node) if not isinstance(node, nodes.Text): # Close attribute and node handler call (\DN...{...}). self.indentation_level -= 1 self.append(self.context.pop() + self.context.pop()) # Delete \DECcurrentN... attribute macros. self.append(self.context.pop()) # Get next sibling. next_node = node.next_node( ascend=0, siblings=1, descend=0, condition=self.is_visible) # Insert space if necessary. if (self.needs_space(node) and self.needs_space(next_node) or self.always_needs_space(node) or self.always_needs_space(next_node)): if isinstance(node, nodes.paragraph) and isinstance(next_node, nodes.paragraph): # Space between paragraphs. self.append(r'\DECparagraphspace') else: # One of the elements is not a paragraph. self.append(r'\DECauxiliaryspace')