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Cluster url pattern automatically.

Project description

os-urlpattern

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This package is used for unsupervised URLs clustering. Furthermore, it generate URL Pattern(RegEx) from cluster for matching purpose. It is a pure python package tested under python2.7 python3.6, pypy can also be used for performance(4x-8x). Command line tools are provided for standalone clustering and matching, APIs are also convenient. Several extra packages can be installed for additional features. Under CPython 1cpu, 100 thousand URLs clustering cost almost 1min and 200M memory. Built-in matching strategy is efficient enough at most use case(3k/s, depend on patterns complexity).

$ pip install -U os-urlpattern
$ wget -qO- 'https://git.io/vhXGq' | pattern-make
/[0-9]{2}[\.]html
      http://example.com/01.html
      http://example.com/02.html
      http://example.com/03.html
/[0-9]{3}/test[0-9]{2}[\.]html
      http://example.com/123/test01.html
      http://example.com/456/test02.html
      http://example.com/789/test03.html

Aknowledgement

Similar URLs

  • URLs with the same URL structure.

  • Components of the parsed URLs at the same position are in the same character space.

  • Corresponding components of the different URLs have the same character space order.

URL structure

Typically, URL can be parsed into 6 components:

<scheme>://<netloc>/<path>;<params>?<query>#<fragment>

Because different sites may have similar URLs structure and <params> is rare, so <schema> <netloc> and <params> are ignored, <path> <query> <fragment> are used to define URL structure.

If the URLs have the same path levels, same query keys(also keys order) and with the same fragment existence, their URL structure should be the same.

http://example.com/p1/p2?k1=v1&k2=v2#pos

URL structure:
path levels: 2
query keys: k1, k2
have fragment: True

Character space

Consider RFC 3986 (Section 2: Characters), URL with the following characters would be legal:

ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789-._~:/?#[]@!$&'()*+,;=

There are three major character space: lower-case letters(a-z), upper-case letters(A-Z), number letters(0-9). Other symbols are in their own character space.

HeLlOwoRd233!

character space: a-z A-Z 0-9 !

Character space order

Split a string by character, consecutive character space can be joined.

HELLOword233!

split into: HELLO word 233 !

character space order: A-Z a-z 0-9 !

Complex consecutive major character space can be joined.

HellWorld233!

split into: H ell W orld 233 !

major join: HellWorld233 !

character space order: A-Za-z0-9 !

Because of URL quote, ‘%’ can be joined with major character space.

%E4%BD%A0%E5%A5%BD!

split into: % E 4 % BD % A 0 % E 5 % A 5 % BD !

major join: %E4%BD%A0%E5%A5%BD !

character space order: A-Z0-9% !

URL Pattern

URL Pattern is used to express each cluster. It is normal regex string. Each URL in the same cluster can be matched with the pattern.

pattern examples:

/news/[0-9]{8}/[a-z]+[\\.]html
/newsShow[\\.]asp[\\?]dataID=[0-9]+
/thread[\\-][0-9]+[\\-][0-9][\\-]1[\\.]html

The built-in matching strategy is strict, it can’t tolerate incomplet matching.

letter: helloword

pattern01: [a-z0-9]+  # not match, because no number in the letter
pattern02: [a-z]+ # match

Install

Install with pip

$ pip install os-urlpattern

Install extra packages

subpackage

install command

enables

memory

pip install os-urlpattern[memroy]

Show memory useage

ete-tree

pip install os-urlpattern[ete_tree]

Enable ete pattern tree formatter

Usage

Command line

  • pattern-make

    Load urls, cluster and dump patterns.

    $ pattern-make -h
    usage: pattern-make [-h] [-f FILE [FILE ...]]
                        [-L {NOTSET,DEBUG,INFO,WARN,ERROR,FATAL}]
                        [-c CONFIG [CONFIG ...]] [-F {JSON,ETE}]
    
    optional arguments:
      -h, --help            show this help message and exit
      -f FILE [FILE ...], --file FILE [FILE ...]
                            file to be processed (default: stdin)
      -L {NOTSET,DEBUG,INFO,WARN,ERROR,FATAL}, --loglevel {NOTSET,DEBUG,INFO,WARN,ERROR,FATAL}
                            log level (default: NOTSET)
      -c CONFIG [CONFIG ...], --config CONFIG [CONFIG ...]
                            config file
      -F {JSON,CLUSTER,PATTERN,ETE}, --formatter {PATTERN,CLUSTER,JSON,ETE}
                            output formatter (default: CLUSTER)

    Dump clustered URLs with patterns:

    $ cat urls.txt | pattern-make -L debug > clustered.txt

    Only generate URL Pattern:

    $ cat urls.txt | pattern-make -L debug -F pattern > patterns.txt

    Generate pattern tree from URLs(ete installed):

    $ cat urls.txt | pattern-make -L debug -F ete
  • pattern-match

    Load patterns, dump URLs match results.

    $ pattern-match -h
    usage: pattern-match [-h] [-f FILE [FILE ...]]
                      [-L {NOTSET,DEBUG,INFO,WARN,ERROR,FATAL}] -p PATTERN_FILE
                      [PATTERN_FILE ...]
    
    optional arguments:
      -h, --help            show this help message and exit
      -f FILE [FILE ...], --file FILE [FILE ...]
                            file to be processed (default: stdin)
      -L {NOTSET,DEBUG,INFO,WARN,ERROR,FATAL}, --loglevel {NOTSET,DEBUG,INFO,WARN,ERROR,FATAL}
                            log level (default: NOTSET)
      -p PATTERN_FILE [PATTERN_FILE ...], --pattern-file PATTERN_FILE [PATTERN_FILE ...]
                            pattern file to be loaded

    Match URLs:

    $ cat urls.txt | pattern-match -L debug -p patterns.txt

APIs

Cluster and generate URL Pattern:

from os_urlpattern.config import get_default_config
from os_urlpattern.formatter import PatternFormatter
from os_urlpattern.pattern_maker import PatternMaker

conf = get_default_config()
pattern_maker = PatternMaker(conf)

# load URLs(unicode)
for url in urls:
    pattern_maker.load(url)

# cluster and dump patterns
formatter = PatternFormatter()
for url_meta, clustered in pattern_maker.make():
    for pattern in formatter.format(url_meta, clusterd)
        print(pattern)

Match URLs:

from os_urlpattern.pattern_matcher import PatternMatcher

pattern_matcher = PatternMatcher()

# load pattern(unicode)
for pattern in patterns:
    pattern_matcher.load(pattern, data=pattern) # data will bind to matched result

# match URLs(unicode)
for url in urls:
    matched_results = patterm_matcher.match(url)
    # the most matched result:
    # sorted(matched_results, reverse=True)[0]
    patterns = [n.meta for n in matched_results]

Unit Tests

$ tox

License

MIT licensed.

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