Mercurial > repos > shellac > sam_consensus_v3

"""Diagnostic functions, mainly for use when doing tech support."""

# Use of this source code is governed by the MIT license.
__license__ = "MIT"

import cProfile
from io import StringIO
from html.parser import HTMLParser
import bs4
from bs4 import BeautifulSoup, __version__
from bs4.builder import builder_registry

import os
import pstats
import random
import tempfile
import time
import traceback
import sys
import cProfile

def diagnose(data):
    """Diagnostic suite for isolating common problems.

    :param data: A string containing markup that needs to be explained.
    :return: None; diagnostics are printed to standard output.
    """
    print(("Diagnostic running on Beautiful Soup %s" % __version__))
    print(("Python version %s" % sys.version))

    basic_parsers = ["html.parser", "html5lib", "lxml"]
    for name in basic_parsers:
        for builder in builder_registry.builders:
            if name in builder.features:
                break
        else:
            basic_parsers.remove(name)
            print((
                "I noticed that %s is not installed. Installing it may help." %
                name))

    if 'lxml' in basic_parsers:
        basic_parsers.append("lxml-xml")
        try:
            from lxml import etree
            print(("Found lxml version %s" % ".".join(map(str,etree.LXML_VERSION))))
        except ImportError as e:
            print(
                "lxml is not installed or couldn't be imported.")


    if 'html5lib' in basic_parsers:
        try:
            import html5lib
            print(("Found html5lib version %s" % html5lib.__version__))
        except ImportError as e:
            print(
                "html5lib is not installed or couldn't be imported.")

    if hasattr(data, 'read'):
        data = data.read()
    elif data.startswith("http:") or data.startswith("https:"):
        print(('"%s" looks like a URL. Beautiful Soup is not an HTTP client.' % data))
        print("You need to use some other library to get the document behind the URL, and feed that document to Beautiful Soup.")
        return
    else:
        try:
            if os.path.exists(data):
                print(('"%s" looks like a filename. Reading data from the file.' % data))
                with open(data) as fp:
                    data = fp.read()
        except ValueError:
            # This can happen on some platforms when the 'filename' is
            # too long. Assume it's data and not a filename.
            pass
        print("")

    for parser in basic_parsers:
        print(("Trying to parse your markup with %s" % parser))
        success = False
        try:
            soup = BeautifulSoup(data, features=parser)
            success = True
        except Exception as e:
            print(("%s could not parse the markup." % parser))
            traceback.print_exc()
        if success:
            print(("Here's what %s did with the markup:" % parser))
            print((soup.prettify()))

        print(("-" * 80))

def lxml_trace(data, html=True, **kwargs):
    """Print out the lxml events that occur during parsing.

    This lets you see how lxml parses a document when no Beautiful
    Soup code is running. You can use this to determine whether
    an lxml-specific problem is in Beautiful Soup's lxml tree builders
    or in lxml itself.

    :param data: Some markup.
    :param html: If True, markup will be parsed with lxml's HTML parser.
       if False, lxml's XML parser will be used.
    """
    from lxml import etree
    for event, element in etree.iterparse(StringIO(data), html=html, **kwargs):
        print(("%s, %4s, %s" % (event, element.tag, element.text)))

class AnnouncingParser(HTMLParser):
    """Subclass of HTMLParser that announces parse events, without doing
    anything else.

    You can use this to get a picture of how html.parser sees a given
    document. The easiest way to do this is to call `htmlparser_trace`.
    """

    def _p(self, s):
        print(s)

    def handle_starttag(self, name, attrs):
        self._p("%s START" % name)

    def handle_endtag(self, name):
        self._p("%s END" % name)

    def handle_data(self, data):
        self._p("%s DATA" % data)

    def handle_charref(self, name):
        self._p("%s CHARREF" % name)

    def handle_entityref(self, name):
        self._p("%s ENTITYREF" % name)

    def handle_comment(self, data):
        self._p("%s COMMENT" % data)

    def handle_decl(self, data):
        self._p("%s DECL" % data)

    def unknown_decl(self, data):
        self._p("%s UNKNOWN-DECL" % data)

    def handle_pi(self, data):
        self._p("%s PI" % data)

def htmlparser_trace(data):
    """Print out the HTMLParser events that occur during parsing.

    This lets you see how HTMLParser parses a document when no
    Beautiful Soup code is running.

    :param data: Some markup.
    """
    parser = AnnouncingParser()
    parser.feed(data)

_vowels = "aeiou"
_consonants = "bcdfghjklmnpqrstvwxyz"

def rword(length=5):
    "Generate a random word-like string."
    s = ''
    for i in range(length):
        if i % 2 == 0:
            t = _consonants
        else:
            t = _vowels
        s += random.choice(t)
    return s

def rsentence(length=4):
    "Generate a random sentence-like string."
    return " ".join(rword(random.randint(4,9)) for i in range(length))

def rdoc(num_elements=1000):
    """Randomly generate an invalid HTML document."""
    tag_names = ['p', 'div', 'span', 'i', 'b', 'script', 'table']
    elements = []
    for i in range(num_elements):
        choice = random.randint(0,3)
        if choice == 0:
            # New tag.
            tag_name = random.choice(tag_names)
            elements.append("<%s>" % tag_name)
        elif choice == 1:
            elements.append(rsentence(random.randint(1,4)))
        elif choice == 2:
            # Close a tag.
            tag_name = random.choice(tag_names)
            elements.append("</%s>" % tag_name)
    return "<html>" + "\n".join(elements) + "</html>"

def benchmark_parsers(num_elements=100000):
    """Very basic head-to-head performance benchmark."""
    print(("Comparative parser benchmark on Beautiful Soup %s" % __version__))
    data = rdoc(num_elements)
    print(("Generated a large invalid HTML document (%d bytes)." % len(data)))

    for parser in ["lxml", ["lxml", "html"], "html5lib", "html.parser"]:
        success = False
        try:
            a = time.time()
            soup = BeautifulSoup(data, parser)
            b = time.time()
            success = True
        except Exception as e:
            print(("%s could not parse the markup." % parser))
            traceback.print_exc()
        if success:
            print(("BS4+%s parsed the markup in %.2fs." % (parser, b-a)))

    from lxml import etree
    a = time.time()
    etree.HTML(data)
    b = time.time()
    print(("Raw lxml parsed the markup in %.2fs." % (b-a)))

    import html5lib
    parser = html5lib.HTMLParser()
    a = time.time()
    parser.parse(data)
    b = time.time()
    print(("Raw html5lib parsed the markup in %.2fs." % (b-a)))

def profile(num_elements=100000, parser="lxml"):
    """Use Python's profiler on a randomly generated document."""
    filehandle = tempfile.NamedTemporaryFile()
    filename = filehandle.name

    data = rdoc(num_elements)
    vars = dict(bs4=bs4, data=data, parser=parser)
    cProfile.runctx('bs4.BeautifulSoup(data, parser)' , vars, vars, filename)

    stats = pstats.Stats(filename)
    # stats.strip_dirs()
    stats.sort_stats("cumulative")
    stats.print_stats('_html5lib|bs4', 50)

# If this file is run as a script, standard input is diagnosed.
if __name__ == '__main__':
    diagnose(sys.stdin.read())
author	shellac
date	Mon, 22 Mar 2021 18:12:50 +0000
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