from __future__ import absolute_import
from __future__ import print_function
from typing import Dict, List, Optional, Set
import re
from collections import defaultdict
from .template_parser import (
tokenize,
Token,
)
class HtmlBranchesException(Exception):
# TODO: Have callers pass in line numbers.
pass
class HtmlTreeBranch(object):
"""
For
bla
, store a
representation of the tags all the way down to the leaf, which would
conceptually be something like "p div(#yo) span(.bar)".
"""
def __init__(self, tags, fn):
# type: (List[TagInfo], Optional[str]) -> None
self.tags = tags
self.fn = fn
self.line = tags[-1].token.line
self.words = set() # type: Set[str]
for tag in tags:
for word in tag.words:
self.words.add(word)
def staircase_text(self):
# type: () -> str
"""
produces representation of a node in staircase-like format:
html
body.main-section
p#intro
"""
res = '\n'
indent = ' ' * 4
for t in self.tags:
res += indent + t.text() + '\n'
indent += ' ' * 4
return res
def text(self):
# type: () -> str
"""
produces one-line representation of branch:
html body.main-section p#intro
"""
return ' '.join(t.text() for t in self.tags)
class Node(object):
def __init__(self, token, parent): # FIXME parent parameter is not used!
# type: (Token, Optional[Node]) -> None
self.token = token
self.children = [] # type: List[Node]
self.parent = None # type: Optional[Node]
class TagInfo(object):
def __init__(self, tag, classes, ids, token):
# type: (str, List[str], List[str], Token) -> None
self.tag = tag
self.classes = classes
self.ids = ids
self.token = token
self.words = \
[self.tag] + \
['.' + s for s in classes] + \
['#' + s for s in ids]
def text(self):
# type: () -> str
s = self.tag
if self.classes:
s += '.' + '.'.join(self.classes)
if self.ids:
s += '#' + '#'.join(self.ids)
return s
def get_tag_info(token):
# type: (Token) -> TagInfo
s = token.s
tag = token.tag
classes = [] # type: List[str]
ids = [] # type: List[str]
searches = [
(classes, ' class="(.*?)"'),
(classes, " class='(.*?)'"),
(ids, ' id="(.*?)"'),
(ids, " id='(.*?)'"),
]
for lst, regex in searches:
m = re.search(regex, s)
if m:
for g in m.groups():
lst += split_for_id_and_class(g)
return TagInfo(tag=tag, classes=classes, ids=ids, token=token)
def split_for_id_and_class(element):
# type: (str) -> List[str]
# Here we split a given string which is expected to contain id or class
# attributes from HTML tags. This also takes care of template variables
# in string during splitting process. For eg. 'red black {{ a|b|c }}'
# is split as ['red', 'black', '{{ a|b|c }}']
outside_braces = True # type: bool
lst = []
s = ''
for ch in element:
if ch == '{':
outside_braces = False
if ch == '}':
outside_braces = True
if ch == ' ' and outside_braces:
if not s == '':
lst.append(s)
s = ''
else:
s += ch
if not s == '':
lst.append(s)
return lst
def html_branches(text, fn=None):
# type: (str, Optional[str]) -> List[HtmlTreeBranch]
tree = html_tag_tree(text)
branches = [] # type: List[HtmlTreeBranch]
def walk(node, tag_info_list=None):
# type: (Node, Optional[List[TagInfo]]) -> None
info = get_tag_info(node.token)
if tag_info_list is None:
tag_info_list = [info]
else:
tag_info_list = tag_info_list[:] + [info]
if node.children:
for child in node.children:
walk(node=child, tag_info_list=tag_info_list)
else:
tree_branch = HtmlTreeBranch(tags=tag_info_list, fn=fn)
branches.append(tree_branch)
for node in tree.children:
walk(node, None)
return branches
def html_tag_tree(text):
# type: (str) -> Node
tokens = tokenize(text)
top_level = Node(token=None, parent=None)
stack = [top_level]
for token in tokens:
# Add tokens to the Node tree first (conditionally).
if token.kind in ('html_start', 'html_singleton'):
parent = stack[-1]
node = Node(token=token, parent=parent)
parent.children.append(node)
# Then update the stack to have the next node that
# we will be appending to at the top.
if token.kind == 'html_start':
stack.append(node)
elif token.kind == 'html_end':
stack.pop()
return top_level
def build_id_dict(templates):
# type: (List[str]) -> (Dict[str,List[str]])
template_id_dict = defaultdict(list) # type: (Dict[str,List[str]])
for fn in templates:
text = open(fn).read()
list_tags = tokenize(text)
for tag in list_tags:
info = get_tag_info(tag)
for ids in info.ids:
template_id_dict[ids].append("Line " + str(info.token.line) + ":" + fn)
return template_id_dict