PCQRSCANER/venv/Lib/site-packages/nltk/test/toolbox.doctest
2019-12-22 21:51:47 +01:00

308 lines
9.8 KiB
Plaintext

.. Copyright (C) 2001-2019 NLTK Project
.. For license information, see LICENSE.TXT
===============================
Unit test cases for ``toolbox``
===============================
>>> from nltk import toolbox
--------------------------
``toolbox.StandardFormat``
--------------------------
>>> f = toolbox.StandardFormat()
``toolbox.StandardFormat.open()``
---------------------------------
>>> import os, tempfile
>>> (fd, fname) = tempfile.mkstemp()
>>> tf = os.fdopen(fd, "w")
>>> _ = tf.write('\\lx a value\n\\lx another value\n')
>>> tf.close()
>>> f = toolbox.StandardFormat()
>>> f.open(fname)
>>> list(f.fields())
[('lx', 'a value'), ('lx', 'another value')]
>>> f.close()
>>> os.unlink(fname)
``toolbox.StandardFormat.open_string()``
----------------------------------------
>>> f = toolbox.StandardFormat()
>>> f.open_string('\\lx a value\n\\lx another value\n')
>>> list(f.fields())
[('lx', 'a value'), ('lx', 'another value')]
>>> f.close()
``toolbox.StandardFormat.close()``
----------------------------------
>>> f = toolbox.StandardFormat()
>>> f.open_string('\\lx a value\n\\lx another value\n')
>>> list(f.fields())
[('lx', 'a value'), ('lx', 'another value')]
>>> f.close()
``toolbox.StandardFormat.line_num``
---------------------------------------
``StandardFormat.line_num`` contains the line number of the last line returned:
>>> f = toolbox.StandardFormat()
>>> f.open_string('\\lx a value\n\\lx another value\n\\lx a third value\n')
>>> line_nums = []
>>> for l in f.raw_fields():
... line_nums.append(f.line_num)
>>> line_nums
[1, 2, 3]
``StandardFormat.line_num`` contains the line number of the last line returned:
>>> f = toolbox.StandardFormat()
>>> f.open_string('\\lx two\nlines\n\\lx three\nlines\n\n\\lx two\nlines\n')
>>> line_nums = []
>>> for l in f.raw_fields():
... line_nums.append(f.line_num)
>>> line_nums
[2, 5, 7]
``StandardFormat.line_num`` doesn't exist before openning or after closing
a file or string:
>>> f = toolbox.StandardFormat()
>>> f.line_num
Traceback (most recent call last):
...
AttributeError: 'StandardFormat' object has no attribute 'line_num'
>>> f.open_string('\\lx two\nlines\n\\lx three\nlines\n\n\\lx two\nlines\n')
>>> line_nums = []
>>> for l in f.raw_fields():
... line_nums.append(f.line_num)
>>> line_nums
[2, 5, 7]
>>> f.close()
>>> f.line_num
Traceback (most recent call last):
...
AttributeError: 'StandardFormat' object has no attribute 'line_num'
``toolbox.StandardFormat.raw_fields()``
---------------------------------------
``raw_fields()`` returns an iterator over tuples of two strings representing the
marker and its value. The marker is given without the backslash and the value
without its trailing newline:
>>> f = toolbox.StandardFormat()
>>> f.open_string('\\lx a value\n\\lx another value\n')
>>> list(f.raw_fields())
[('lx', 'a value'), ('lx', 'another value')]
an empty file returns nothing:
>>> f = toolbox.StandardFormat()
>>> f.open_string('')
>>> list(f.raw_fields())
[]
file with only a newline returns WHAT SHOULD IT RETURN???:
>>> f = toolbox.StandardFormat()
>>> f.open_string('\n')
>>> list(f.raw_fields())
[(None, '')]
file with only one field should be parsed ok:
>>> f = toolbox.StandardFormat()
>>> f.open_string('\\lx one value\n')
>>> list(f.raw_fields())
[('lx', 'one value')]
file without a trailing newline should be parsed ok:
>>> f = toolbox.StandardFormat()
>>> f.open_string('\\lx a value\n\\lx another value')
>>> list(f.raw_fields())
[('lx', 'a value'), ('lx', 'another value')]
trailing white space is preserved except for the final newline:
>>> f = toolbox.StandardFormat()
>>> f.open_string('\\lx trailing space \n\\lx trailing tab\t\n\\lx extra newline\n\n')
>>> list(f.raw_fields())
[('lx', 'trailing space '), ('lx', 'trailing tab\t'), ('lx', 'extra newline\n')]
line wrapping is preserved:
>>> f = toolbox.StandardFormat()
>>> f.open_string('\\lx a value\nmore of the value\nand still more\n\\lc another val\n')
>>> list(f.raw_fields())
[('lx', 'a value\nmore of the value\nand still more'), ('lc', 'another val')]
file beginning with a multiline record should be parsed ok:
>>> f = toolbox.StandardFormat()
>>> f.open_string('\\lx a value\nmore of the value\nand still more\n\\lc another val\n')
>>> list(f.raw_fields())
[('lx', 'a value\nmore of the value\nand still more'), ('lc', 'another val')]
file ending with a multiline record should be parsed ok:
>>> f = toolbox.StandardFormat()
>>> f.open_string('\\lc a value\n\\lx another value\nmore of the value\nand still more\n')
>>> list(f.raw_fields())
[('lc', 'a value'), ('lx', 'another value\nmore of the value\nand still more')]
file beginning with a BOM should be parsed ok:
>>> f = toolbox.StandardFormat()
>>> f.open_string('\xef\xbb\xbf\\lx a value\n\\lx another value\n')
>>> list(f.raw_fields())
[('lx', 'a value'), ('lx', 'another value')]
file beginning with two BOMs should ignore only the first one:
>>> f = toolbox.StandardFormat()
>>> f.open_string('\xef\xbb\xbf\xef\xbb\xbf\\lx a value\n\\lx another value\n')
>>> list(f.raw_fields())
[(None, '\xef\xbb\xbf\\lx a value'), ('lx', 'another value')]
should not ignore a BOM not at the beginning of the file:
>>> f = toolbox.StandardFormat()
>>> f.open_string('\\lx a value\n\xef\xbb\xbf\\lx another value\n')
>>> list(f.raw_fields())
[('lx', 'a value\n\xef\xbb\xbf\\lx another value')]
``toolbox.StandardFormat.fields()``
-----------------------------------
trailing white space is not preserved:
>>> f = toolbox.StandardFormat()
>>> f.open_string('\\lx trailing space \n\\lx trailing tab\t\n\\lx extra newline\n\n')
>>> list(f.fields())
[('lx', 'trailing space'), ('lx', 'trailing tab'), ('lx', 'extra newline')]
multiline fields are unwrapped:
>>> f = toolbox.StandardFormat()
>>> f.open_string('\\lx a value\nmore of the value\nand still more\n\\lc another val\n')
>>> list(f.fields())
[('lx', 'a value more of the value and still more'), ('lc', 'another val')]
markers
-------
A backslash in the first position on a new line indicates the start of a
marker. The backslash is not part of the marker:
>>> f = toolbox.StandardFormat()
>>> f.open_string('\\mk a value\n')
>>> list(f.fields())
[('mk', 'a value')]
If the backslash occurs later in the line it does not indicate the start
of a marker:
>>> f = toolbox.StandardFormat()
>>> f.open_string('\\mk a value\n \\mk another one\n')
>>> list(f.raw_fields())
[('mk', 'a value\n \\mk another one')]
There is no specific limit to the length of a marker:
>>> f = toolbox.StandardFormat()
>>> f.open_string('\\this_is_an_extremely_long_marker value\n')
>>> list(f.fields())
[('this_is_an_extremely_long_marker', 'value')]
A marker can contain any non white space character:
>>> f = toolbox.StandardFormat()
>>> f.open_string('\\`~!@#$%^&*()_-=+[{]}\|,<.>/?;:"0123456789 value\n')
>>> list(f.fields())
[('`~!@#$%^&*()_-=+[{]}\\|,<.>/?;:"0123456789', 'value')]
A marker is terminated by any white space character:
>>> f = toolbox.StandardFormat()
>>> f.open_string('\\mk a value\n\\mk\tanother one\n\\mk\rthird one\n\\mk\ffourth one')
>>> list(f.fields())
[('mk', 'a value'), ('mk', 'another one'), ('mk', 'third one'), ('mk', 'fourth one')]
Consecutive whitespace characters (except newline) are treated the same as one:
>>> f = toolbox.StandardFormat()
>>> f.open_string('\\mk \t\r\fa value\n')
>>> list(f.fields())
[('mk', 'a value')]
-----------------------
``toolbox.ToolboxData``
-----------------------
>>> db = toolbox.ToolboxData()
``toolbox.ToolboxData.parse()``
-------------------------------
check that normal parsing works:
>>> from xml.etree import ElementTree
>>> td = toolbox.ToolboxData()
>>> s = """\\_sh v3.0 400 Rotokas Dictionary
... \\_DateStampHasFourDigitYear
...
... \\lx kaa
... \\ps V.A
... \\ge gag
... \\gp nek i pas
...
... \\lx kaa
... \\ps V.B
... \\ge strangle
... \\gp pasim nek
... """
>>> td.open_string(s)
>>> tree = td.parse(key='lx')
>>> tree.tag
'toolbox_data'
>>> ElementTree.tostring(list(tree)[0]).decode('utf8')
'<header><_sh>v3.0 400 Rotokas Dictionary</_sh><_DateStampHasFourDigitYear /></header>'
>>> ElementTree.tostring(list(tree)[1]).decode('utf8')
'<record><lx>kaa</lx><ps>V.A</ps><ge>gag</ge><gp>nek i pas</gp></record>'
>>> ElementTree.tostring(list(tree)[2]).decode('utf8')
'<record><lx>kaa</lx><ps>V.B</ps><ge>strangle</ge><gp>pasim nek</gp></record>'
check that guessing the key marker works:
>>> from xml.etree import ElementTree
>>> td = toolbox.ToolboxData()
>>> s = """\\_sh v3.0 400 Rotokas Dictionary
... \\_DateStampHasFourDigitYear
...
... \\lx kaa
... \\ps V.A
... \\ge gag
... \\gp nek i pas
...
... \\lx kaa
... \\ps V.B
... \\ge strangle
... \\gp pasim nek
... """
>>> td.open_string(s)
>>> tree = td.parse()
>>> ElementTree.tostring(list(tree)[0]).decode('utf8')
'<header><_sh>v3.0 400 Rotokas Dictionary</_sh><_DateStampHasFourDigitYear /></header>'
>>> ElementTree.tostring(list(tree)[1]).decode('utf8')
'<record><lx>kaa</lx><ps>V.A</ps><ge>gag</ge><gp>nek i pas</gp></record>'
>>> ElementTree.tostring(list(tree)[2]).decode('utf8')
'<record><lx>kaa</lx><ps>V.B</ps><ge>strangle</ge><gp>pasim nek</gp></record>'
-----------------------
``toolbox`` functions
-----------------------
``toolbox.to_sfm_string()``
-------------------------------