Source code for myst_parser.docutils_renderer

import inspect
import json
import os
import re
from collections import OrderedDict
from contextlib import contextmanager
from copy import deepcopy
from datetime import date, datetime
from types import ModuleType
from typing import (

import jinja2
import yaml
from docutils import nodes
from docutils.frontend import OptionParser
from docutils.languages import get_language
from docutils.parsers.rst import Directive, DirectiveError
from docutils.parsers.rst import Parser as RSTParser
from docutils.parsers.rst import directives, roles
from docutils.parsers.rst.directives.misc import Include
from docutils.parsers.rst.languages import get_language as get_language_rst
from docutils.statemachine import StringList
from docutils.transforms.components import Filter
from docutils.utils import Reporter, new_document
from markdown_it import MarkdownIt
from markdown_it.common.utils import escapeHtml
from markdown_it.renderer import RendererProtocol
from markdown_it.token import Token
from markdown_it.tree import SyntaxTreeNode

from myst_parser.mocking import (
from .html_to_nodes import html_to_nodes
from .parse_directives import DirectiveParsingError, parse_directive_text
from .utils import is_external_url

[docs]def make_document(source_path="notset") -> nodes.document: """Create a new docutils document.""" settings = OptionParser(components=(RSTParser,)).get_default_values() return new_document(source_path, settings=settings)
REGEX_DIRECTIVE_START = re.compile(r"^[\s]{0,3}([`]{3,10}|[~]{3,10}|[:]{3,10})\{") def token_line(token: SyntaxTreeNode, default: Optional[int] = None) -> int: """Retrieve the initial line of a token.""" if not getattr(token, "map", None): if default is not None: return default raise ValueError(f"token map not set: {token}") return[0] # type: ignore[index]
[docs]class DocutilsRenderer(RendererProtocol): """A markdown-it-py renderer to populate (in-place) a `docutils.document` AST. Note, this render is not dependent on Sphinx. """ __output__ = "docutils"
[docs] def __init__(self, parser: MarkdownIt) -> None: """Load the renderer (called by ``MarkdownIt``)""" = parser self.rules = { k: v for k, v in inspect.getmembers(self, predicate=inspect.ismethod) if k.startswith("render_") and k != "render_children" }
def setup_render( self, options: Dict[str, Any], env: MutableMapping[str, Any] ) -> None: """Setup the renderer with per render variables.""" self.md_env = env self.config: Dict[str, Any] = options self.document: nodes.document = self.config.get("document", make_document()) self.current_node: nodes.Element = self.config.get( "current_node", self.document ) self.reporter: Reporter = self.document.reporter # note there are actually two possible language modules: # one from docutils.languages, and one from docutils.parsers.rst.languages self.language_module_rst: ModuleType = get_language_rst( self.document.settings.language_code ) self._level_to_elem: Dict[int, nodes.Element] = {0: self.document} @property def sphinx_env(self) -> Optional[Any]: """Return the sphinx env, if using Sphinx.""" try: return self.document.settings.env except AttributeError: return None def create_warning( self, message: str, *, line: Optional[int] = None, append_to: Optional[nodes.Element] = None, wtype: str = "myst", subtype: str = "other", ) -> Optional[nodes.system_message]: """Generate a warning, logging if it is necessary. Note this is overridden in the ``SphinxRenderer``, to handle suppressed warning types. """ kwargs = {"line": line} if line is not None else {} msg_node = self.reporter.warning(message, **kwargs) if append_to is not None: append_to.append(msg_node) return msg_node def _render_tokens(self, tokens: List[Token]) -> None: """Render the tokens.""" # propagate line number down to inline elements for token in tokens: if not continue # For docutils we want 1 based line numbers (not 0) = [[0] + 1,[1] + 1] for token_child in token.children or []: = # nest tokens node_tree = SyntaxTreeNode(tokens) # move footnote definitions to env self.md_env.setdefault("foot_refs", {}) for node in node_tree.walk(include_self=True): new_children = [] for child in node.children: if child.type == "footnote_reference": label = child.meta["label"] self.md_env["foot_refs"].setdefault(label, []).append(child) else: new_children.append(child) node.children = new_children # render for child in node_tree.children: # skip hidden? if f"render_{child.type}" in self.rules: self.rules[f"render_{child.type}"](child) else: self.create_warning( f"No render method for: {child.type}", line=token_line(child, default=0), subtype="render", append_to=self.current_node, )
[docs] def render( self, tokens: Sequence[Token], options, md_env: MutableMapping[str, Any] ) -> nodes.document: """Run the render on a token stream. :param tokens: list on block tokens to render :param options: params of parser instance :param md_env: the markdown-it environment sandbox associated with the tokens, containing additional metadata like reference info """ self.setup_render(options, md_env) self._render_tokens(list(tokens)) # log warnings for duplicate reference definitions # "duplicate_refs": [{"href": "ijk", "label": "B", "map": [4, 5], "title": ""}], for dup_ref in self.md_env.get("duplicate_refs", []): self.create_warning( f"Duplicate reference definition: {dup_ref['label']}", line=dup_ref["map"][0] + 1, subtype="ref", append_to=self.document, ) if not self.config.get("output_footnotes", True): return self.document # we don't use the foot_references stored in the env # since references within directives/roles will have been added after # those from the initial markdown parse # instead we gather them from a walk of the created document foot_refs = OrderedDict() for refnode in self.document.traverse(nodes.footnote_reference): if refnode["refname"] not in foot_refs: foot_refs[refnode["refname"]] = True if foot_refs and self.config.get("myst_footnote_transition", False): self.current_node.append(nodes.transition(classes=["footnotes"])) for footref in foot_refs: foot_ref_tokens = self.md_env["foot_refs"].get(footref, []) if len(foot_ref_tokens) > 1: self.create_warning( f"Multiple footnote definitions found for label: '{footref}'", subtype="footnote", append_to=self.current_node, ) if len(foot_ref_tokens) < 1: self.create_warning( f"No footnote definitions found for label: '{footref}'", subtype="footnote", append_to=self.current_node, ) else: self.render_footnote_reference(foot_ref_tokens[0]) self.add_document_wordcount() return self.document
def add_document_wordcount(self) -> None: """Add the wordcount, generated by the ``mdit_py_plugins.wordcount_plugin``.""" wordcount_metadata = self.md_env.get("wordcount", {}) if not wordcount_metadata: return # save the wordcount to the sphinx BuildEnvironment metadata if self.sphinx_env is not None: meta = self.sphinx_env.metadata.setdefault(self.sphinx_env.docname, {}) meta["wordcount"] = wordcount_metadata # now add the wordcount as substitution definitions, # so we can reference them in the document for key in ("words", "minutes"): value = wordcount_metadata.get(key, None) if value is None: continue substitution_node = nodes.substitution_definition( str(value), nodes.Text(str(value)) ) substitution_node.source = self.document["source"] substitution_node["names"].append(f"wordcount-{key}") self.document.note_substitution_def(substitution_node, f"wordcount-{key}")
[docs] def nested_render_text(self, text: str, lineno: int) -> None: """Render unparsed text.""" tokens = + "\n", self.md_env) # remove front matter if tokens and tokens[0].type == "front_matter": tokens.pop(0) self._render_tokens(tokens)
[docs] @contextmanager def current_node_context( self, node: nodes.Element, append: bool = False ) -> Iterator: """Context manager for temporarily setting the current node.""" if append: self.current_node.append(node) current_node = self.current_node self.current_node = node yield self.current_node = current_node
def render_children(self, token: SyntaxTreeNode) -> None: for child in token.children or []: if f"render_{child.type}" in self.rules: self.rules[f"render_{child.type}"](child) else: self.create_warning( f"No render method for: {child.type}", line=token_line(child, default=0), subtype="render", append_to=self.current_node, )
[docs] def add_line_and_source_path(self, node, token: SyntaxTreeNode) -> None: """Copy the line number and document source path to the docutils node.""" try: node.line = token_line(token) except ValueError: pass node.source = self.document["source"]
def is_section_level(self, level, section): return self._level_to_elem.get(level, None) == section def add_section(self, section, level): parent_level = max( section_level for section_level in self._level_to_elem if level > section_level ) if (level > parent_level) and (parent_level + 1 != level): self.create_warning( "Non-consecutive header level increase; {} to {}".format( parent_level, level ), line=section.line, subtype="header", append_to=self.current_node, ) parent = self._level_to_elem[parent_level] parent.append(section) self._level_to_elem[level] = section # Prune level to limit self._level_to_elem = { section_level: section for section_level, section in self._level_to_elem.items() if section_level <= level } def renderInlineAsText(self, tokens: List[SyntaxTreeNode]) -> str: """Special kludge for image `alt` attributes to conform CommonMark spec. Don't try to use it! Spec requires to show `alt` content with stripped markup, instead of simple escaping. """ result = "" for token in tokens or []: if token.type == "text": result += token.content # elif token.type == "image": # result += self.renderInlineAsText(token.children) else: result += self.renderInlineAsText(token.children or []) return result # ### render methods for commonmark tokens def render_paragraph(self, token: SyntaxTreeNode) -> None: para = nodes.paragraph(token.children[0].content if token.children else "") self.add_line_and_source_path(para, token) with self.current_node_context(para, append=True): self.render_children(token) def render_inline(self, token: SyntaxTreeNode) -> None: self.render_children(token) def render_text(self, token: SyntaxTreeNode) -> None: self.current_node.append(nodes.Text(token.content, token.content)) def render_bullet_list(self, token: SyntaxTreeNode) -> None: list_node = nodes.bullet_list() if token.attrs.get("class"): # this is used e.g. by tasklist list_node["classes"] = str(token.attrs["class"]).split() self.add_line_and_source_path(list_node, token) with self.current_node_context(list_node, append=True): self.render_children(token) def render_ordered_list(self, token: SyntaxTreeNode) -> None: list_node = nodes.enumerated_list() self.add_line_and_source_path(list_node, token) with self.current_node_context(list_node, append=True): self.render_children(token) def render_list_item(self, token: SyntaxTreeNode) -> None: item_node = nodes.list_item() if token.attrs.get("class"): # this is used e.g. by tasklist item_node["classes"] = str(token.attrs["class"]).split() self.add_line_and_source_path(item_node, token) with self.current_node_context(item_node, append=True): self.render_children(token) def render_em(self, token: SyntaxTreeNode) -> None: node = nodes.emphasis() self.add_line_and_source_path(node, token) with self.current_node_context(node, append=True): self.render_children(token) def render_softbreak(self, token: SyntaxTreeNode) -> None: self.current_node.append(nodes.Text("\n")) def render_hardbreak(self, token: SyntaxTreeNode) -> None: self.current_node.append(nodes.raw("", "<br />\n", format="html")) def render_strong(self, token: SyntaxTreeNode) -> None: node = nodes.strong() self.add_line_and_source_path(node, token) with self.current_node_context(node, append=True): self.render_children(token) def render_blockquote(self, token: SyntaxTreeNode) -> None: quote = nodes.block_quote() self.add_line_and_source_path(quote, token) with self.current_node_context(quote, append=True): self.render_children(token) def render_hr(self, token: SyntaxTreeNode) -> None: node = nodes.transition() self.add_line_and_source_path(node, token) self.current_node.append(node) def render_code_inline(self, token: SyntaxTreeNode) -> None: node = nodes.literal(token.content, token.content) self.add_line_and_source_path(node, token) self.current_node.append(node) def render_code_block(self, token: SyntaxTreeNode) -> None: # this should never have a language, since it is just indented text, however, # creating a literal_block with no language will raise a warning in sphinx text = token.content language =[0] if else "none" language = language or "none" node = nodes.literal_block(text, text, language=language) self.add_line_and_source_path(node, token) self.current_node.append(node) def render_fence(self, token: SyntaxTreeNode) -> None: text = token.content # Ensure that we'll have an empty string if info exists but is only spaces info = if else language = info.split()[0] if info else "" if not self.config.get("commonmark_only", False) and language == "{eval-rst}": # copy necessary elements (source, line no, env, reporter) newdoc = make_document() newdoc["source"] = self.document["source"] newdoc.settings = self.document.settings newdoc.reporter = self.reporter # pad the line numbers artificially so they offset with the fence block pseudosource = ("\n" * token_line(token)) + token.content # actually parse the rst into our document MockRSTParser().parse(pseudosource, newdoc) for node in newdoc: if node["names"]: self.document.note_explicit_target(node, node) self.current_node.extend(newdoc[:]) return elif ( not self.config.get("commonmark_only", False) and language.startswith("{") and language.endswith("}") ): return self.render_directive(token) if not language: if self.sphinx_env is not None: language = self.sphinx_env.temp_data.get( "highlight_language", self.sphinx_env.config.highlight_language ) if not language: language = self.config.get("highlight_language", "") node = nodes.literal_block(text, text, language=language) self.add_line_and_source_path(node, token) self.current_node.append(node) def render_heading(self, token: SyntaxTreeNode) -> None: if self.md_env.get("match_titles", None) is False: self.create_warning( "Header nested in this element can lead to unexpected outcomes", line=token_line(token, default=0), subtype="nested_header", append_to=self.current_node, ) # Test if we're replacing a section level first level = int(token.tag[1]) if isinstance(self.current_node, nodes.section): if self.is_section_level(level, self.current_node): self.current_node = cast(nodes.Element, self.current_node.parent) title_node = nodes.title(token.children[0].content if token.children else "") self.add_line_and_source_path(title_node, token) new_section = nodes.section() if level == 1 and ( self.sphinx_env is None or ( "myst_update_mathjax" in self.sphinx_env.config and self.sphinx_env.config.myst_update_mathjax ) ): new_section["classes"].extend(["tex2jax_ignore", "mathjax_ignore"]) self.add_line_and_source_path(new_section, token) new_section.append(title_node) self.add_section(new_section, level) self.current_node = title_node self.render_children(token) assert isinstance(self.current_node, nodes.title) text = self.current_node.astext() # if self.translate_section_name: # text = self.translate_section_name(text) name = nodes.fully_normalize_name(text) section = cast(nodes.section, self.current_node.parent) section["names"].append(name) self.document.note_implicit_target(section, section) self.current_node = section def render_link(self, token: SyntaxTreeNode) -> None: if token.markup == "autolink": return self.render_autolink(token) ref_node = nodes.reference() self.add_line_and_source_path(ref_node, token) destination = cast(str, token.attrGet("href") or "") if self.config.get( "relative-docs", None ) is not None and destination.startswith(self.config["relative-docs"][0]): # make the path relative to an "including" document source_dir, include_dir = self.config["relative-docs"][1:] destination = os.path.relpath( os.path.join(include_dir, os.path.normpath(destination)), source_dir ) ref_node["refuri"] = destination # type: ignore[index] title = token.attrGet("title") if title: ref_node["title"] = title # type: ignore[index] next_node = ref_node # TODO currently any reference with a fragment # is deemed external # (if anchors are not enabled) # This comes from recommonmark, but I am not sure of the rationale for it if is_external_url( destination, self.config.get("myst_url_schemes", None), "heading_anchors" not in self.config.get("myst_extensions", []), ): self.current_node.append(next_node) with self.current_node_context(ref_node): self.render_children(token) else: self.handle_cross_reference(token, destination) def handle_cross_reference(self, token: SyntaxTreeNode, destination: str) -> None: if not self.config.get("ignore_missing_refs", False): self.create_warning( f"Reference not found: {destination}", line=token_line(token), subtype="ref", append_to=self.current_node, ) def render_autolink(self, token: SyntaxTreeNode) -> None: refuri = target = escapeHtml(token.attrGet("href") or "") # type: ignore[arg-type] ref_node = nodes.reference(target, target, refuri=refuri) self.add_line_and_source_path(ref_node, token) self.current_node.append(ref_node) def render_html_inline(self, token: SyntaxTreeNode) -> None: self.render_html_block(token) def render_html_block(self, token: SyntaxTreeNode) -> None: node_list = html_to_nodes(token.content, token_line(token), self) self.current_node.extend(node_list) def render_image(self, token: SyntaxTreeNode) -> None: img_node = nodes.image() self.add_line_and_source_path(img_node, token) destination = cast(str, token.attrGet("src") or "") if self.config.get("relative-images", None) is not None and not is_external_url( destination, None, True ): # make the path relative to an "including" document destination = os.path.normpath( os.path.join( self.config.get("relative-images", ""), os.path.normpath(destination), ) ) img_node["uri"] = destination img_node["alt"] = self.renderInlineAsText(token.children or []) title = token.attrGet("title") if title: img_node["title"] = token.attrGet("title") self.current_node.append(img_node) # ### render methods for plugin tokens def render_front_matter(self, token: SyntaxTreeNode) -> None: """Pass document front matter data.""" position = token_line(token, default=0) if not isinstance(token.content, dict): try: data = yaml.safe_load(token.content) except (yaml.parser.ParserError, yaml.scanner.ScannerError) as error: msg_node = self.reporter.error( "Front matter block:\n" + str(error), line=position ) msg_node += nodes.literal_block(token.content, token.content) self.current_node.append(msg_node) return else: data = deepcopy(token.content) substitutions = data.pop("substitutions", {}) html_meta = data.pop("html_meta", {}) if data: field_list = self.dict_to_fm_field_list( data, language_code=self.document.settings.language_code ) self.current_node.append(field_list) if isinstance(substitutions, dict): self.document.fm_substitutions = substitutions else: msg_node = self.reporter.error( "Front-matter 'substitutions' is not a dict", line=position ) msg_node += nodes.literal_block(token.content, token.content) self.current_node.append(msg_node) if not isinstance(html_meta, dict): msg_node = self.reporter.error( "Front-matter 'html_meta' is not a dict", line=position ) msg_node += nodes.literal_block(token.content, token.content) self.current_node.append(msg_node) self.current_node.extend( html_meta_to_nodes( { **self.config.get("myst_html_meta", {}), **html_meta, }, document=self.document, line=position, reporter=self.reporter, ) ) def dict_to_fm_field_list( self, data: Dict[str, Any], language_code: str, line: int = 0 ) -> nodes.field_list: """Render each key/val pair as a docutils ``field_node``. Bibliographic keys below will be parsed as Markdown, all others will be left as literal text. The field list should be at the start of the document, and will then be converted to a `docinfo` node during the `docutils.docutils.transforms.frontmatter.DocInfo` transform (priority 340), and bibliographic keys (or their translation) will be converted to nodes:: {'author':, 'authors': docutils.nodes.authors, 'organization': docutils.nodes.organization, 'address': docutils.nodes.address, 'contact':, 'version': docutils.nodes.version, 'revision': docutils.nodes.revision, 'status': docutils.nodes.status, 'date':, 'copyright': docutils.nodes.copyright, 'dedication': docutils.nodes.topic, 'abstract': docutils.nodes.topic} Also, the 'dedication' and 'abstract' will be placed outside the `docinfo`, and so will always be shown in the document. If using sphinx, this `docinfo` node will later be extracted from the AST, by the `DoctreeReadEvent` transform (priority 880), calling `MetadataCollector.process_doc`. In this case keys and values will be converted to strings and stored in `app.env.metadata[app.env.docname]` See for docinfo fields used by sphinx. """ field_list = nodes.field_list() bibliofields = get_language(language_code).bibliographic_fields state_machine = MockStateMachine(self, line) state = MockState(self, state_machine, line) for key, value in data.items(): if not isinstance(value, (str, int, float, date, datetime)): value = json.dumps(value) value = str(value) if key in bibliofields: para_nodes, _ = state.inline_text(value, line) body_children = [nodes.paragraph("", "", *para_nodes)] else: body_children = [nodes.Text(value, value)] field_node = nodes.field() field_node.source = value field_node += nodes.field_name(key, "", nodes.Text(key, key)) field_node += nodes.field_body(value, *body_children) field_list += field_node return field_list def render_table(self, token: SyntaxTreeNode) -> None: assert token.children and len(token.children) > 1 # markdown-it table always contains two elements: header = token.children[0] body = token.children[1] # with one header row assert header.children header_row = header.children[0] assert header_row.children # top-level element table = nodes.table() table["classes"] += ["colwidths-auto"] self.add_line_and_source_path(table, token) self.current_node.append(table) # column settings element maxcols = len(header_row.children) colwidths = [round(100 / maxcols, 2)] * maxcols tgroup = nodes.tgroup(cols=len(colwidths)) table += tgroup for colwidth in colwidths: colspec = nodes.colspec(colwidth=colwidth) tgroup += colspec # header thead = nodes.thead() tgroup += thead with self.current_node_context(thead): self.render_table_row(header_row) # body tbody = nodes.tbody() tgroup += tbody with self.current_node_context(tbody): for body_row in body.children or []: self.render_table_row(body_row) def render_table_row(self, token: SyntaxTreeNode) -> None: row = nodes.row() with self.current_node_context(row, append=True): for child in token.children or []: entry = nodes.entry() para = nodes.paragraph( child.children[0].content if child.children else "" ) style = child.attrGet("style") # i.e. the alignment when using e.g. :-- if style: entry["classes"].append(style) with self.current_node_context(entry, append=True): with self.current_node_context(para, append=True): self.render_children(child) def render_math_inline(self, token: SyntaxTreeNode) -> None: content = token.content if token.markup == "$$": # available when dmath_double_inline is True node = nodes.math_block(content, content, nowrap=False, number=None) else: node = nodes.math(content, content) self.add_line_and_source_path(node, token) self.current_node.append(node) def render_math_single(self, token: SyntaxTreeNode) -> None: content = token.content node = nodes.math(content, content) self.add_line_and_source_path(node, token) self.current_node.append(node) def render_math_block(self, token: SyntaxTreeNode) -> None: content = token.content node = nodes.math_block(content, content, nowrap=False, number=None) self.add_line_and_source_path(node, token) self.current_node.append(node) def render_footnote_ref(self, token: SyntaxTreeNode) -> None: """Footnote references are added as auto-numbered, .i.e. `[^a]` is read as rST `[#a]_` """ target = token.meta["label"] refnode = nodes.footnote_reference("[^{}]".format(target)) self.add_line_and_source_path(refnode, token) if not target.isdigit(): refnode["auto"] = 1 self.document.note_autofootnote_ref(refnode) else: refnode += nodes.Text(target) refnode["refname"] = target self.document.note_footnote_ref(refnode) self.current_node.append(refnode) def render_footnote_reference(self, token: SyntaxTreeNode) -> None: target = token.meta["label"] footnote = nodes.footnote() self.add_line_and_source_path(footnote, token) footnote["names"].append(target) if not target.isdigit(): footnote["auto"] = 1 self.document.note_autofootnote(footnote) else: footnote += nodes.label("", target) self.document.note_footnote(footnote) self.document.note_explicit_target(footnote, footnote) with self.current_node_context(footnote, append=True): self.render_children(token) def render_myst_block_break(self, token: SyntaxTreeNode) -> None: block_break = nodes.comment(token.content, token.content) block_break["classes"] += ["block_break"] self.add_line_and_source_path(block_break, token) self.current_node.append(block_break) def render_myst_target(self, token: SyntaxTreeNode) -> None: text = token.content name = nodes.fully_normalize_name(text) target = target["names"].append(name) self.add_line_and_source_path(target, token) self.document.note_explicit_target(target, self.current_node) self.current_node.append(target) def render_myst_line_comment(self, token: SyntaxTreeNode) -> None: self.current_node.append(nodes.comment(token.content, token.content.strip())) def render_myst_role(self, token: SyntaxTreeNode) -> None: name = token.meta["name"] text = token.content rawsource = f":{name}:`{token.content}`" lineno = token_line(token) if else 0 role_func, messages = roles.role( name, self.language_module_rst, lineno, self.reporter ) inliner = MockInliner(self, lineno) if role_func: nodes, messages2 = role_func(name, rawsource, text, lineno, inliner) # return nodes, messages + messages2 self.current_node += nodes else: message = self.reporter.error( 'Unknown interpreted text role "{}".'.format(name), line=lineno ) problematic = inliner.problematic(text, rawsource, message) self.current_node += problematic def render_colon_fence(self, token: SyntaxTreeNode) -> None: """Render a code fence with ``:`` colon delimiters.""" if token.content.startswith(":::"): # the content starts with a nested fence block, # but must distinguish between ``:options:``, so we add a new line assert token.token is not None, '"colon_fence" must have a `token`' linear_token = token.token.copy() linear_token.content = "\n" + linear_token.content token.token = linear_token return self.render_fence(token) def render_dl(self, token: SyntaxTreeNode) -> None: """Render a definition list.""" node = nodes.definition_list(classes=["simple", "myst"]) self.add_line_and_source_path(node, token) with self.current_node_context(node, append=True): item = None for child in token.children or []: if child.type == "dt": item = nodes.definition_list_item() self.add_line_and_source_path(item, child) with self.current_node_context(item, append=True): term = nodes.term( child.children[0].content if child.children else "" ) self.add_line_and_source_path(term, child) with self.current_node_context(term, append=True): self.render_children(child) elif child.type == "dd": if item is None: error = self.reporter.error( ( "Found a definition in a definition list, " "with no preceding term" ), # nodes.literal_block(content, content), line=token_line(child), ) self.current_node += [error] with self.current_node_context(item): definition = nodes.definition() self.add_line_and_source_path(definition, child) with self.current_node_context(definition, append=True): self.render_children(child) else: error_msg = self.reporter.error( ( "Expected a term/definition as a child of a definition list" f", but found a: {child.type}" ), # nodes.literal_block(content, content), line=token_line(child), ) self.current_node += [error_msg] def render_directive(self, token: SyntaxTreeNode) -> None: """Render special fenced code blocks as directives.""" first_line = name = first_line[0][1:-1] arguments = "" if len(first_line) == 1 else first_line[1] content = token.content position = token_line(token) nodes_list = self.run_directive(name, arguments, content, position) self.current_node += nodes_list def run_directive( self, name: str, first_line: str, content: str, position: int ) -> List[nodes.Element]: """Run a directive and return the generated nodes. :param name: the name of the directive :param first_line: The text on the same line as the directive name. May be an argument or body text, dependent on the directive :param content: All text after the first line. Can include options. :param position: The line number of the first line """ # TODO directive name white/black lists self.document.current_line = position # get directive class directive_class, messages = directives.directive( name, self.language_module_rst, self.document ) # type: (Directive, list) if not directive_class: error = self.reporter.error( 'Unknown directive type "{}".\n'.format(name), # nodes.literal_block(content, content), line=position, ) return [error] + messages if issubclass(directive_class, Include): # this is a Markdown only option, # to allow for altering relative image reference links directive_class.option_spec["relative-images"] = directives.flag directive_class.option_spec["relative-docs"] = directives.path try: arguments, options, body_lines = parse_directive_text( directive_class, first_line, content ) except DirectiveParsingError as error: error = self.reporter.error( "Directive '{}': {}".format(name, error), nodes.literal_block(content, content), line=position, ) return [error] # initialise directive if issubclass(directive_class, Include): directive_instance = MockIncludeDirective( self, name=name, klass=directive_class, arguments=arguments, options=options, body=body_lines, lineno=position, ) else: state_machine = MockStateMachine(self, position) state = MockState(self, state_machine, position) directive_instance = directive_class( name=name, # the list of positional arguments arguments=arguments, # a dictionary mapping option names to values options=options, # the directive content line by line content=StringList(body_lines, self.document["source"]), # the absolute line number of the first line of the directive lineno=position, # the line offset of the first line of the content content_offset=0, # TODO get content offset from `parse_directive_text` # a string containing the entire directive block_text="\n".join(body_lines), state=state, state_machine=state_machine, ) # run directive try: result = except DirectiveError as error: msg_node = self.reporter.system_message( error.level, error.msg, line=position ) msg_node += nodes.literal_block(content, content) result = [msg_node] except MockingError as exc: error_msg = self.reporter.error( "Directive '{}' cannot be mocked: {}: {}".format( name, exc.__class__.__name__, exc ), nodes.literal_block(content, content), line=position, ) return [error_msg] assert isinstance( result, list ), 'Directive "{}" must return a list of nodes.'.format(name) for i in range(len(result)): assert isinstance( result[i], nodes.Node ), 'Directive "{}" returned non-Node object (index {}): {}'.format( name, i, result[i] ) return result def render_substitution_inline(self, token: SyntaxTreeNode) -> None: """Render inline substitution {{key}}.""" self.render_substitution(token, inline=True) def render_substitution_block(self, token: SyntaxTreeNode) -> None: """Render block substitution {{key}}.""" self.render_substitution(token, inline=False) def render_substitution(self, token: SyntaxTreeNode, inline: bool) -> None: """Substitutions are rendered by: 1. Combining global substitutions with front-matter substitutions to create a variable context (front-matter takes priority) 2. Add the sphinx `env` to the variable context (if available) 3. Create the string content with Jinja2 (passing it the variable context) 4. If the substitution is inline and not a directive, parse to nodes ignoring block syntaxes (like lists or block-quotes), otherwise parse to nodes with all syntax rules. """ position = token_line(token) # front-matter substitutions take priority over config ones variable_context = { **self.config.get("myst_substitutions", {}), **getattr(self.document, "fm_substitutions", {}), } if self.sphinx_env is not None: variable_context["env"] = self.sphinx_env # fail on undefined variables env = jinja2.Environment(undefined=jinja2.StrictUndefined) # try rendering try: rendered = env.from_string(f"{{{{{token.content}}}}}").render( variable_context ) except Exception as error: error_msg = self.reporter.error( f"Substitution error:{error.__class__.__name__}: {error}", line=position, ) self.current_node += [error_msg] return # handle circular references ast = env.parse(f"{{{{{token.content}}}}}") references = { for n in ast.find_all(jinja2.nodes.Name) if != "env" } self.document.sub_references = getattr(self.document, "sub_references", set()) cyclic = references.intersection(self.document.sub_references) if cyclic: error_msg = self.reporter.error( f"circular substitution reference: {cyclic}", line=position, ) self.current_node += [error_msg] return # parse rendered text state_machine = MockStateMachine(self, position) state = MockState(self, state_machine, position) # TODO improve error reporting; # at present, for a multi-line substitution, # an error may point to a line lower than the substitution # should it point to the source of the substitution? # or the error message should at least indicate that its a substitution # we record used references before nested parsing, then remove them after self.document.sub_references.update(references) try: if inline and not REGEX_DIRECTIVE_START.match(rendered): sub_nodes, _ = state.inline_text(rendered, position) else: base_node = nodes.Element() state.nested_parse( StringList(rendered.splitlines(), self.document["source"]), 0, base_node, ) sub_nodes = base_node.children finally: self.document.sub_references.difference_update(references) self.current_node.extend(sub_nodes)
[docs]def html_meta_to_nodes( data: Dict[str, Any], document: nodes.document, line: int, reporter: Reporter ) -> List[Union[nodes.pending, nodes.system_message]]: """Replicate the `meta` directive, by converting a dictionary to a list of pending meta nodes See: """ if not data: return [] try: from sphinx.addnodes import meta as meta_cls except ImportError: from docutils.parsers.rst.directives.html import MetaBody meta_cls = MetaBody.meta # type: ignore output = [] for key, value in data.items(): content = str(value or "") meta_node = meta_cls(content) meta_node.source = document["source"] meta_node.line = line meta_node["content"] = content try: if not content: raise ValueError("No content") for i, key_part in enumerate(key.split()): if "=" not in key_part and i == 0: meta_node["name"] = key_part continue if "=" not in key_part: raise ValueError(f"no '=' in {key_part}") attr_name, attr_val = key_part.split("=", 1) if not (attr_name and attr_val): raise ValueError(f"malformed {key_part}") meta_node[attr_name.lower()] = attr_val except ValueError as error: msg = reporter.error(f'Error parsing meta tag attribute "{key}": {error}.') output.append(msg) continue pending = nodes.pending( Filter, {"component": "writer", "format": "html", "nodes": [meta_node]}, ) document.note_pending(pending) output.append(pending) return output