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', []
python类definition_list_item()的实例源码
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
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 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
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 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
def run(self):
self.assert_has_content()
title = self.arguments[0]
content = '\n'.join(self.content)
math_node = self.make_math_node(self.prepare_latex(content))
tid = nodes.make_id(title)
target = nodes.target('', '', ids=['inference-' + tid])
self.state.document.note_explicit_target(target)
term, desc = nodes.term('', title), nodes.description('', math_node)
dli = nodes.definition_list_item('', term, desc)
dl = nodes.definition_list(content, target, dli)
set_source_info(self, dl)
return [dl]
def _format_subcommands(self, parser_info):
assert 'children' in parser_info
items = []
for subcmd in parser_info['children']:
subcmd_items = []
if subcmd['help']:
subcmd_items.append(nodes.paragraph(text=subcmd['help']))
else:
subcmd_items.append(nodes.paragraph(text='Undocumented'))
items.append(
nodes.definition_list_item(
'',
nodes.term('', '', nodes.strong(
text=subcmd['bare_usage'])),
nodes.definition('', *subcmd_items)))
return nodes.definition_list('', *items)
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 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
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 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
states.py 文件源码
项目:tf_aws_ecs_instance_draining_on_scale_in
作者: terraform-community-modules
项目源码
文件源码
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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', []
states.py 文件源码
项目:tf_aws_ecs_instance_draining_on_scale_in
作者: terraform-community-modules
项目源码
文件源码
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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
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', []
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', []
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', []
def add_coqtop_output(self):
"""Add coqtop's responses to a Sphinx AST
Finds nodes to process using is_coqtop_block."""
with CoqTop(color=True) as repl:
for node in self.document.traverse(CoqtopBlocksTransform.is_coqtop_block):
options = node['coqtop_options']
opt_undo, opt_reset, opt_input, opt_output = self.parse_options(options)
if opt_reset:
repl.sendone("Reset Initial.")
pairs = []
for sentence in self.split_sentences(node.rawsource):
pairs.append((sentence, repl.sendone(sentence)))
if opt_undo:
repl.sendone("Undo {}.".format(len(pairs)))
dli = nodes.definition_list_item()
for sentence, output in pairs:
# Use Coqdoq to highlight input
in_chunks = highlight_using_coqdoc(sentence)
dli += nodes.term(sentence, '', *in_chunks, classes=self.block_classes(opt_input))
# Parse ANSI sequences to highlight output
out_chunks = AnsiColorsParser().colorize_str(output)
dli += nodes.definition(output, *out_chunks, classes=self.block_classes(opt_output, output))
node.clear()
node.rawsource = self.make_rawsource(pairs, opt_input, opt_output)
node['classes'].extend(self.block_classes(opt_input or opt_output))
node += nodes.inline('', '', classes=['coqtop-reset'] * opt_reset)
node += nodes.definition_list(node.rawsource, dli)
def map_nested_definitions(nested_content):
if nested_content is None:
raise Exception('Nested content should be iterable, not null')
# build definition dictionary
definitions = {}
for item in nested_content:
if not isinstance(item, nodes.definition_list):
continue
for subitem in item:
if not isinstance(subitem, nodes.definition_list_item):
continue
if not len(subitem.children) > 0:
continue
classifier = '@after'
idx = subitem.first_child_matching_class(nodes.classifier)
if idx is not None:
ci = subitem[idx]
if len(ci.children) > 0:
classifier = ci.children[0].astext()
if classifier is not None and classifier not in (
'@replace', '@before', '@after'):
raise Exception('Unknown classifier: %s' % classifier)
idx = subitem.first_child_matching_class(nodes.term)
if idx is not None:
ch = subitem[idx]
if len(ch.children) > 0:
term = ch.children[0].astext()
idx = subitem.first_child_matching_class(nodes.definition)
if idx is not None:
def_node = subitem[idx]
def_node.attributes['classifier'] = classifier
definitions[term] = def_node
return definitions
def print_command_args_and_opts(arg_list, opt_list, sub_list=None):
items = []
if arg_list:
items.append(nodes.definition_list_item(
'', nodes.term(text='Positional arguments:'),
nodes.definition('', arg_list)))
if opt_list:
items.append(nodes.definition_list_item(
'', nodes.term(text='Options:'),
nodes.definition('', opt_list)))
if sub_list and len(sub_list):
items.append(nodes.definition_list_item(
'', nodes.term(text='Sub-commands:'),
nodes.definition('', sub_list)))
return nodes.definition_list('', *items)
def print_subcommand_list(data, nested_content):
definitions = map_nested_definitions(nested_content)
items = []
if 'children' in data:
for child in data['children']:
my_def = [nodes.paragraph(
text=child['help'])] if child['help'] else []
name = child['name']
my_def = apply_definition(definitions, my_def, name)
if len(my_def) == 0:
my_def.append(nodes.paragraph(text='Undocumented'))
if 'description' in child:
my_def.append(nodes.paragraph(text=child['description']))
my_def.append(nodes.literal_block(text=child['usage']))
my_def.append(print_command_args_and_opts(
print_arg_list(child, nested_content),
print_opt_list(child, nested_content),
print_subcommand_list(child, nested_content)
))
items.append(
nodes.definition_list_item(
'',
nodes.term('', '', nodes.strong(text=name)),
nodes.definition('', *my_def)
)
)
return nodes.definition_list('', *items)
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', []
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', []
states.py 文件源码
项目:tf_aws_ecs_instance_draining_on_scale_in
作者: terraform-community-modules
项目源码
文件源码
阅读 20
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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', []
def _parse_definition_list(
def_list_node: nodes.definition_list) -> ExtraContentDict:
"""Parse a definition list inside the directive.
Args:
def_list_node: A definition list node containing definitions for
extending the Sphinx output.
Raises:
ValueError: The given classifier was unrecognized.
Returns:
A dict where keys are item IDs and values contain the classifiers
and the content as lists of docutils nodes.
"""
definitions = collections.defaultdict(lambda: None)
for node in def_list_node:
if not isinstance(node, nodes.definition_list_item):
continue
term = _get_matching_child(node, nodes.term, last=False).astext()
classifiers = set()
for child_node in node.children:
if not isinstance(child_node, nodes.classifier):
continue
classifier = child_node.astext()
if classifier not in ALL_CLASSIFIERS:
raise ValueError("unknown classifier '{0}'".format(classifier))
classifiers.add(classifier)
if not classifiers & CONTENT_CLASSIFIERS:
classifiers.add("@after")
if not classifiers & MARKUP_CLASSIFIERS:
classifiers.add("@auto")
content = _get_matching_child(
node, nodes.definition, last=False).children
if not definitions[term]:
definitions[term] = []
definitions[term].append(ExtraContent(classifiers, content))
return definitions
