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UltraData-Math-L0-Parser / ultradata_math_parser /readability_plus.py
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# -*- coding:utf-8 -*-
from lxml.etree import tounicode
from lxml.html import document_fromstring, fragment_fromstring
from ultradata_math_parser.utils import *
def to_int(x):
 if not x:
 return None
 x = x.strip()
 if x.endswith("px"):
 return int(x[:-2])
 if x.endswith("em"):
 return int(x[:-2]) * 12
 return int(x)
def clean(text):
 text = re.sub(r"\s{255,}", " " * 255, text)
 text = re.sub(r"\s*\n\s*", "\n", text)
 text = re.sub(r"\t|[ \t]{2,}", " ", text)
 return text.strip()
def text_length(i):
 return len(clean(i.text_content() or ""))
bad_attrs = ["width", "height", "style", "[-a-z]*color", "background[-a-z]*", "on*"]
single_quoted = "'[^']+'"
double_quoted = '"[^"]+"'
non_space = "[^ \"'>]+"
htmlstrip = re.compile(
 "<" # open
 "([^>]+) " # prefix
 "(?:%s) *" % ("|".join(bad_attrs),)
 + "= *(?:%s|%s|%s)" # undesirable attributes
 % (non_space, single_quoted, double_quoted)
 + "([^>]*)" # value # postfix
 ">", # end
 re.I,
)
def clean_attributes(html):
 while htmlstrip.search(html):
 html = htmlstrip.sub("<\\1\\2>", html)
 return html
class Document:
 def __init__(
 self,
 input,
 url=None,
 min_text_length=25,
 retry_length=250,
 xpath=False,
 handle_failures="discard",
 xp_num="others",
 need_comment=False,
 ):
 self.input = input
 self.html = None
 self.encoding = None
 self.positive_keywords = None
 self.negative_keywords = None
 self.url = url
 self.min_text_length = min_text_length
 self.retry_length = retry_length
 self.xpath = xpath
 self.handle_failures = handle_failures
 self.xp_num = xp_num
 self.need_comment = need_comment
 if not need_comment:
 self.REGEXES = {
 "unlikelyCandidatesRe": re.compile(
 r"combx|comment|community|disqus|extra|foot|header|menu|remark|rss|shoutbox|sidebar|sponsor|ad-break|agegate|pagination|pager|popup|tweet|twitter",
 re.I,
 ),
 "okMaybeItsACandidateRe": re.compile(
 r"and|article|body|column|main|shadow", re.I
 ),
 "positiveRe": re.compile(
 r"article|body|content|entry|hentry|main|page|pagination|post|text|blog|story",
 re.I,
 ),
 "negativeRe": re.compile(
 r"combx|comment|com-|contact|foot|footer|footnote|masthead|media|meta|outbrain|promo|related|scroll|shoutbox|sidebar|sponsor|shopping|tags|tool|widget",
 re.I,
 ),
 "divToPElementsRe": re.compile(
 r"<(a|blockquote|dl|div|img|ol|p|pre|table|ul)", re.I
 ),
 "videoRe": re.compile(r"https?:\/\/(www\.)?(youtube|vimeo)\.com", re.I),
 }
 else:
 self.REGEXES = {
 "unlikelyCandidatesRe": re.compile(
 r"combx|community|disqus|extra|foot|header|menu|remark|rss|shoutbox|sidebar|sponsor|ad-break|agegate|pagination|pager|popup|tweet|twitter",
 re.I,
 ),
 "okMaybeItsACandidateRe": re.compile(
 r"and|article|body|column|main|shadow", re.I
 ),
 "positiveRe": re.compile(
 r"article|body|content|entry|hentry|main|page|pagination|post|text|blog|story",
 re.I,
 ),
 "negativeRe": re.compile(
 r"combx|com-|contact|foot|footer|footnote|masthead|media|meta|outbrain|promo|related|scroll|shoutbox|sidebar|sponsor|shopping|tags|tool|widget",
 re.I,
 ),
 "divToPElementsRe": re.compile(
 r"<(a|blockquote|dl|div|img|ol|p|pre|table|ul)", re.I
 ),
 "videoRe": re.compile(r"https?:\/\/(www\.)?(youtube|vimeo)\.com", re.I),
 }
def _html(self, force=False):
 if force or self.html is None:
 self.html = self._parse(self.input)
 if self.xpath:
 root = self.html.getroottree()
 for i in self.html.getiterator():
 i.attrib["x"] = root.getpath(i)
 return self.html
def _parse(self, input: HtmlElement):
 doc = input
 base_href = self.url
 if base_href:
 try:
 doc.make_links_absolute(
 base_href,
 resolve_base_href=True,
 handle_failures=self.handle_failures,
 )
 except TypeError:
 doc.make_links_absolute(
 base_href,
 resolve_base_href=True,
 handle_failures=self.handle_failures,
 )
 else:
 doc.resolve_base_href(handle_failures=self.handle_failures)
 return doc
def summary(self, html_partial=False):
 try:
 ruthless = True
 while True:
 self._html(True)
 for i in self.tags(self.html, "body"):
 i.set("id", "readabilityplusBody")
 if ruthless and self.xp_num == "others":
 self.remove_unlikely_candidates()
 self.transform_misused_divs_into_paragraphs()
 if self.xp_num == "others":
 candidates = self.score_paragraphs()
 best_candidate = self.select_best_candidate(candidates)
 else:
 best_candidate = None
 ruthless = False
 candidates = {}
 if best_candidate:
 article = self.get_article(
 candidates, best_candidate, html_partial=html_partial
 )
 else:
 if ruthless:
 ruthless = False
 continue
 else:
 article = self.html.find("body")
 if article is None:
 article = self.html
 cleaned_article = self.sanitize(article, candidates)
article_length = len(cleaned_article or "")
 retry_length = self.retry_length
 of_acceptable_length = article_length >= retry_length
 if ruthless and not of_acceptable_length:
 ruthless = False
 continue
 else:
 return cleaned_article
 except Exception as e:
 return None
def get_article(self, candidates, best_candidate, html_partial=False):
 sibling_score_threshold = max([10, best_candidate["content_score"] * 0.2])
 if html_partial:
 output = fragment_fromstring("<div/>")
 else:
 output = document_fromstring("<div/>")
 best_elem = best_candidate["elem"]
 parent = best_elem.getparent()
 siblings = parent.getchildren() if parent is not None else [best_elem]
 for sibling in siblings:
 append = False
 if sibling is best_elem:
 append = True
 sibling_key = sibling
 if (
 sibling_key in candidates
 and candidates[sibling_key]["content_score"] >= sibling_score_threshold
 ):
 append = True
if sibling.tag == "p":
 link_density = self.get_link_density(sibling)
 node_content = sibling.text or ""
 node_length = len(node_content)
if node_length > 80 and link_density < 0.25:
 append = True
 elif (
 node_length <= 80
 and link_density == 0
 and re.search(r"\.( |$)", node_content)
 ):
 append = True
if append:
 if html_partial:
 output.append(sibling)
 else:
 output.getchildren()[0].getchildren()[0].append(sibling)
 return output
def select_best_candidate(self, candidates):
 if not candidates:
 return None
sorted_candidates = sorted(
 candidates.values(), key=lambda x: x["content_score"], reverse=True
 )
 for candidate in sorted_candidates[:5]:
 elem = candidate["elem"]
best_candidate = sorted_candidates[0]
 return best_candidate
def get_link_density(self, elem):
 link_length = 0
 for i in elem.findall(".//a"):
 link_length += text_length(i)
 total_length = text_length(elem)
 return float(link_length) / max(total_length, 1)
def score_paragraphs(self):
 MIN_LEN = self.min_text_length
 candidates = {}
 ordered = []
 for elem in self.tags(self._html(), "p", "pre", "td"):
 parent_node = elem.getparent()
 if parent_node is None:
 continue
 grand_parent_node = parent_node.getparent()
inner_text = clean(elem.text_content() or "")
 inner_text_len = len(inner_text)
if inner_text_len < MIN_LEN:
 continue
if parent_node not in candidates:
 candidates[parent_node] = self.score_node(parent_node)
 ordered.append(parent_node)
if grand_parent_node is not None and grand_parent_node not in candidates:
 candidates[grand_parent_node] = self.score_node(grand_parent_node)
 ordered.append(grand_parent_node)
content_score = 1
 content_score += len(inner_text.split(","))
 content_score += len(inner_text.split(","))
 content_score += min((inner_text_len / 100), 3)
candidates[parent_node]["content_score"] += content_score
 if grand_parent_node is not None:
 candidates[grand_parent_node]["content_score"] += content_score / 2.0
for elem in ordered:
 candidate = candidates[elem]
 ld = self.get_link_density(elem)
 score = candidate["content_score"]
candidate["content_score"] *= 1 - ld
return candidates
def class_weight(self, e):
 weight = 0
 for feature in [e.get("class", None), e.get("id", None)]:
 if feature:
 if self.xp_num == "others":
 if self.REGEXES["negativeRe"].search(feature):
 weight -= 25
if self.REGEXES["positiveRe"].search(feature):
 weight += 25
 else:
 if self.REGEXES["positiveRe"].search(feature):
 weight += 25
if self.positive_keywords and self.positive_keywords.search(feature):
 weight += 25
if self.negative_keywords and self.negative_keywords.search(feature):
 weight -= 25
if self.positive_keywords and self.positive_keywords.match("tag-" + e.tag):
 weight += 25
if self.negative_keywords and self.negative_keywords.match("tag-" + e.tag):
 weight -= 25
return weight
def score_node(self, elem):
 content_score = self.class_weight(elem)
 name = elem.tag.lower()
 if name in ["div", "article"]:
 content_score += 5
 elif name in ["pre", "td", "blockquote"]:
 content_score += 3
 elif name in ["address", "ol", "ul", "dl", "dd", "dt", "li", "form", "aside"]:
 content_score -= 3
 elif name in [
 "h1",
 "h2",
 "h3",
 "h4",
 "h5",
 "h6",
 "th",
 "header",
 "footer",
 "nav",
 ]:
 content_score -= 5
 return {"content_score": content_score, "elem": elem}
def remove_unlikely_candidates(self):
 for elem in self.html.findall(".//*"):
 s = "%s %s" % (elem.get("class", ""), elem.get("id", ""))
 if len(s) < 2:
 continue
 if (
 self.REGEXES["unlikelyCandidatesRe"].search(s)
 and (not self.REGEXES["okMaybeItsACandidateRe"].search(s))
 and elem.tag not in ["html", "body"]
 ):
 elem.drop_tree()
def transform_misused_divs_into_paragraphs(self):
 for elem in self.tags(self.html, "div"):
 if not self.REGEXES["divToPElementsRe"].search(
 str(b"".join(map(tostring, list(elem))))
 ):
 elem.tag = "p"
for elem in self.tags(self.html, "div"):
 if elem.text and elem.text.strip():
 p = fragment_fromstring("<p/>")
 p.text = elem.text
 elem.text = None
 elem.insert(0, p)
for pos, child in reversed(list(enumerate(elem))):
 if child.tail and child.tail.strip():
 p = fragment_fromstring("<p/>")
 p.text = child.tail
 child.tail = None
 elem.insert(pos + 1, p)
 if child.tag == "br":
 child.drop_tree()
def tags(self, node, *tag_names):
 for tag_name in tag_names:
 for e in node.findall(".//%s" % tag_name):
 yield e
def reverse_tags(self, node, *tag_names):
 for tag_name in tag_names:
 for e in reversed(node.findall(".//%s" % tag_name)):
 yield e
def sanitize(self, node, candidates):
 MIN_LEN = self.min_text_length
 for header in self.tags(node, "h1", "h2", "h3", "h4", "h5", "h6"):
 if self.class_weight(header) < 0 or self.get_link_density(header) > 0.33:
 header.drop_tree()
for elem in self.tags(node, "iframe"):
 if "src" in elem.attrib and self.REGEXES["videoRe"].search(
 elem.attrib["src"]
 ):
 elem.text = "VIDEO"
 else:
 elem.drop_tree()
allowed = {}
 # Conditionally clean <table>s, <ul>s, and <div>s
 for el in self.reverse_tags(
 node, "table", "ul", "div", "aside", "header", "footer", "section"
 ):
 if el in allowed:
 continue
 weight = self.class_weight(el)
 if el in candidates:
 content_score = candidates[el]["content_score"]
 else:
 content_score = 0
 tag = el.tag
if weight + content_score < 0:
 el.drop_tree()
 elif el.text_content().count(",") + el.text_content().count(",") < 10:
 counts = {}
 for kind in ["p", "img", "li", "a", "embed", "input"]:
 counts[kind] = len(el.findall(".//%s" % kind))
 counts["li"] -= 100
 counts["input"] -= len(el.findall('.//input[@type="hidden"]'))
content_length = text_length(el)
 link_density = self.get_link_density(el)
to_remove = False
 reason = ""
# 修改
 if el.tag == "div" and counts["img"] >= 1:
 continue
 if counts["p"] and counts["img"] > 1 + counts["p"] * 1.3:
 reason = "too many images (%s)" % counts["img"]
 # to_remove = True
 elif counts["li"] > counts["p"] and tag not in ("ol", "ul"):
 reason = "more <li>s than <p>s"
 # to_remove = True
 elif counts["input"] > (counts["p"] / 3):
 reason = "less than 3x <p>s than <input>s"
 to_remove = True
 elif content_length < MIN_LEN and counts["img"] == 0:
 # 代码块内容过短,导致删除
 if el.tag in ['code', 'pre']:
 continue
 if ancestor_node_check(el, ['code', 'pre']):
 continue
 # 保留table中的链接
 if el.tag in ['ul', 'div'] and ancestor_node_check(el, ['td']):
 continue
 reason = (
 "too short content length %s without a single image"
 % content_length
 )
 to_remove = True
 elif content_length < MIN_LEN and counts["img"] > 2:
 reason = (
 "too short content length %s and too many images"
 % content_length
 )
 to_remove = True
 elif weight < 25 and link_density > 0.2:
 if tag in ["div", "ul", "table"]:
 ptest = el.xpath(".//text()[not(ancestor::a)]")
 ptest_len = text_len("".join(ptest))
 if ptest_len >= MIN_LEN and link_density <= 0.3:
 continue
 if tag == "table":
 if len(el.xpath('.//tr[1]/td')) >=2:
 continue
 if tag == "div":
 if el.xpath('.//table'):
 continue
 reason = "too many links %.3f for its weight %s" % (
 link_density,
 weight,
 )
 to_remove = True
 elif weight >= 25 and link_density > 0.5:
 if tag == "table":
 if len(el.xpath('.//tr[1]/td')) >= 2:
 continue
 if tag == "div":
 if el.xpath('.//table'):
 continue
 reason = "too many links %.3f for its weight %s" % (
 link_density,
 weight,
 )
 to_remove = True
 elif (counts["embed"] == 1 and content_length < 75) or counts[
 "embed"
 ] > 1:
 reason = (
 "<embed>s with too short content length, or too many <embed>s"
 )
 to_remove = True
 elif not content_length:
 reason = "no content"
 to_remove = True
i, j = 0, 0
 x = 1
 siblings = []
 for sib in el.itersiblings():
 sib_content_length = text_length(sib)
 if sib_content_length:
 i = +1
 siblings.append(sib_content_length)
 if i == x:
 break
 for sib in el.itersiblings(preceding=True):
 sib_content_length = text_length(sib)
 if sib_content_length:
 j = +1
 siblings.append(sib_content_length)
 if j == x:
 break
 if siblings and sum(siblings) > 1000:
 to_remove = False
 for desnode in self.tags(el, "table", "ul", "div", "section"):
 allowed[desnode] = True
if to_remove:
 el.drop_tree()
 else:
 pass
self.html = node
 return self.get_clean_html()
def get_clean_html(self):
 return clean_attributes(tounicode(self.html, method="html"))