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# Copyright 2012-2013 Amazon.com, Inc. or its affiliates. All Rights Reserved.
#
# Licensed under the Apache License, Version 2.0 (the "License"). You
# may not use this file except in compliance with the License. A copy of
# the License is located at
#
# http://aws.amazon.com/apache2.0/
#
# or in the "license" file accompanying this file. This file is
# distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF
# ANY KIND, either express or implied. See the License for the specific
# language governing permissions and limitations under the License.
from html.parser import HTMLParser
from itertools import zip_longest
PRIORITY_PARENT_TAGS = ('code', 'a')
OMIT_NESTED_TAGS = ('span', 'i', 'code', 'a')
OMIT_SELF_TAGS = ('i', 'b')
HTML_BLOCK_DISPLAY_TAGS = ('p', 'note', 'ul', 'li')
class DocStringParser(HTMLParser):
"""
A simple HTML parser. Focused on converting the subset of HTML
that appears in the documentation strings of the JSON models into
simple ReST format.
"""
def __init__(self, doc):
self.tree = None
self.doc = doc
super().__init__()
def reset(self):
HTMLParser.reset(self)
self.tree = HTMLTree(self.doc)
def feed(self, data):
super().feed(data)
self.tree.write()
self.tree = HTMLTree(self.doc)
def close(self):
super().close()
# Write if there is anything remaining.
self.tree.write()
self.tree = HTMLTree(self.doc)
def handle_starttag(self, tag, attrs):
self.tree.add_tag(tag, attrs=attrs)
def handle_endtag(self, tag):
self.tree.add_tag(tag, is_start=False)
def handle_data(self, data):
self.tree.add_data(data)
class HTMLTree:
"""
A tree which handles HTML nodes. Designed to work with a python HTML parser,
meaning that the current_node will be the most recently opened tag. When
a tag is closed, the current_node moves up to the parent node.
"""
def __init__(self, doc):
self.doc = doc
self.head = StemNode()
self.current_node = self.head
self.unhandled_tags = []
def add_tag(self, tag, attrs=None, is_start=True):
if not self._doc_has_handler(tag, is_start):
self.unhandled_tags.append(tag)
return
if is_start:
node = TagNode(tag, attrs)
self.current_node.add_child(node)
self.current_node = node
else:
self.current_node = self.current_node.parent
def _doc_has_handler(self, tag, is_start):
if is_start:
handler_name = f'start_{tag}'
else:
handler_name = f'end_{tag}'
return hasattr(self.doc.style, handler_name)
def add_data(self, data):
self.current_node.add_child(DataNode(data))
def write(self):
self.head.write(self.doc)
class Node:
def __init__(self, parent=None):
self.parent = parent
def write(self, doc):
raise NotImplementedError
class StemNode(Node):
def __init__(self, parent=None):
super().__init__(parent)
self.children = []
def add_child(self, child):
child.parent = self
self.children.append(child)
def write(self, doc):
self.collapse_whitespace()
self._write_children(doc)
def _write_children(self, doc):
for child, next_child in zip_longest(self.children, self.children[1:]):
if isinstance(child, TagNode) and next_child is not None:
child.write(doc, next_child)
else:
child.write(doc)
def is_whitespace(self):
return all(child.is_whitespace() for child in self.children)
def startswith_whitespace(self):
return self.children and self.children[0].startswith_whitespace()
def endswith_whitespace(self):
return self.children and self.children[-1].endswith_whitespace()
def lstrip(self):
while self.children and self.children[0].is_whitespace():
self.children = self.children[1:]
if self.children:
self.children[0].lstrip()
def rstrip(self):
while self.children and self.children[-1].is_whitespace():
self.children = self.children[:-1]
if self.children:
self.children[-1].rstrip()
def collapse_whitespace(self):
"""Remove collapsible white-space from HTML.
HTML in docstrings often contains extraneous white-space around tags,
for readability. Browsers would collapse this white-space before
rendering. If not removed before conversion to RST where white-space is
part of the syntax, for example for indentation, it can result in
incorrect output.
"""
self.lstrip()
self.rstrip()
for child in self.children:
child.collapse_whitespace()
class TagNode(StemNode):
"""
A generic Tag node. It will verify that handlers exist before writing.
"""
def __init__(self, tag, attrs=None, parent=None):
super().__init__(parent)
self.attrs = attrs
self.tag = tag
def _has_nested_tags(self):
# Returns True if any children are TagNodes and False otherwise.
return any(isinstance(child, TagNode) for child in self.children)
def write(self, doc, next_child=None):
prioritize_nested_tags = (
self.tag in OMIT_SELF_TAGS and self._has_nested_tags()
)
prioritize_parent_tag = (
isinstance(self.parent, TagNode)
and self.parent.tag in PRIORITY_PARENT_TAGS
and self.tag in OMIT_NESTED_TAGS
)
if prioritize_nested_tags or prioritize_parent_tag:
self._write_children(doc)
return
self._write_start(doc)
self._write_children(doc)
self._write_end(doc, next_child)
def collapse_whitespace(self):
"""Remove collapsible white-space.
All tags collapse internal whitespace. Block-display HTML tags also
strip all leading and trailing whitespace.
Approximately follows the specification used in browsers:
https://www.w3.org/TR/css-text-3/#white-space-rules
https://developer.mozilla.org/en-US/docs/Web/API/Document_Object_Model/Whitespace
"""
if self.tag in HTML_BLOCK_DISPLAY_TAGS:
self.lstrip()
self.rstrip()
# Collapse whitespace in situations like ``</b> <i> foo</i>`` into
# ``</b><i> foo</i>``.
for prev, cur in zip(self.children[:-1], self.children[1:]):
if (
isinstance(prev, DataNode)
and prev.endswith_whitespace()
and cur.startswith_whitespace()
):
cur.lstrip()
# Same logic, but for situations like ``<b>bar </b> <i>``:
for cur, nxt in zip(self.children[:-1], self.children[1:]):
if (
isinstance(nxt, DataNode)
and cur.endswith_whitespace()
and nxt.startswith_whitespace()
):
cur.rstrip()
# Recurse into children
for child in self.children:
child.collapse_whitespace()
def _write_start(self, doc):
handler_name = f'start_{self.tag}'
if hasattr(doc.style, handler_name):
getattr(doc.style, handler_name)(self.attrs)
def _write_end(self, doc, next_child):
handler_name = f'end_{self.tag}'
if hasattr(doc.style, handler_name):
if handler_name == 'end_a':
# We use lookahead to determine if a space is needed after a link node
getattr(doc.style, handler_name)(next_child)
else:
getattr(doc.style, handler_name)()
class DataNode(Node):
"""
A Node that contains only string data.
"""
def __init__(self, data, parent=None):
super().__init__(parent)
if not isinstance(data, str):
raise ValueError(f"Expecting string type, {type(data)} given.")
self._leading_whitespace = ''
self._trailing_whitespace = ''
self._stripped_data = ''
if data == '':
return
if data.isspace():
self._trailing_whitespace = data
return
first_non_space = next(
idx for idx, ch in enumerate(data) if not ch.isspace()
)
last_non_space = len(data) - next(
idx for idx, ch in enumerate(reversed(data)) if not ch.isspace()
)
self._leading_whitespace = data[:first_non_space]
self._trailing_whitespace = data[last_non_space:]
self._stripped_data = data[first_non_space:last_non_space]
@property
def data(self):
return (
f'{self._leading_whitespace}{self._stripped_data}'
f'{self._trailing_whitespace}'
)
def is_whitespace(self):
return self._stripped_data == '' and (
self._leading_whitespace != '' or self._trailing_whitespace != ''
)
def startswith_whitespace(self):
return self._leading_whitespace != '' or (
self._stripped_data == '' and self._trailing_whitespace != ''
)
def endswith_whitespace(self):
return self._trailing_whitespace != '' or (
self._stripped_data == '' and self._leading_whitespace != ''
)
def lstrip(self):
if self._leading_whitespace != '':
self._leading_whitespace = ''
elif self._stripped_data == '':
self.rstrip()
def rstrip(self):
if self._trailing_whitespace != '':
self._trailing_whitespace = ''
elif self._stripped_data == '':
self.lstrip()
def collapse_whitespace(self):
"""Noop, ``DataNode.write`` always collapses whitespace"""
return
def write(self, doc):
words = doc.translate_words(self._stripped_data.split())
str_data = (
f'{self._leading_whitespace}{" ".join(words)}'
f'{self._trailing_whitespace}'
)
if str_data != '':
doc.handle_data(str_data)
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