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531 lines
18 KiB
Python
531 lines
18 KiB
Python
# coding: utf-8
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# Natural Language Toolkit: Toolbox Reader
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#
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# Copyright (C) 2001-2020 NLTK Project
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# Author: Greg Aumann <greg_aumann@sil.org>
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# URL: <http://nltk.org>
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# For license information, see LICENSE.TXT
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"""
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Module for reading, writing and manipulating
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Toolbox databases and settings files.
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"""
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import re, codecs
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from xml.etree.ElementTree import ElementTree, TreeBuilder, Element, SubElement
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from io import StringIO
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from nltk.data import PathPointer, find
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class StandardFormat(object):
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"""
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Class for reading and processing standard format marker files and strings.
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"""
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def __init__(self, filename=None, encoding=None):
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self._encoding = encoding
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if filename is not None:
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self.open(filename)
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def open(self, sfm_file):
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"""
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Open a standard format marker file for sequential reading.
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:param sfm_file: name of the standard format marker input file
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:type sfm_file: str
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"""
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if isinstance(sfm_file, PathPointer):
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# [xx] We don't use 'rU' mode here -- do we need to?
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# (PathPointer.open doesn't take a mode option)
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self._file = sfm_file.open(self._encoding)
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else:
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self._file = codecs.open(sfm_file, "rU", self._encoding)
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def open_string(self, s):
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"""
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Open a standard format marker string for sequential reading.
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:param s: string to parse as a standard format marker input file
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:type s: str
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"""
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self._file = StringIO(s)
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def raw_fields(self):
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"""
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Return an iterator that returns the next field in a (marker, value)
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tuple. Linebreaks and trailing white space are preserved except
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for the final newline in each field.
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:rtype: iter(tuple(str, str))
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"""
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join_string = "\n"
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line_regexp = r"^%s(?:\\(\S+)\s*)?(.*)$"
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# discard a BOM in the first line
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first_line_pat = re.compile(line_regexp % "(?:\xef\xbb\xbf)?")
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line_pat = re.compile(line_regexp % "")
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# need to get first line outside the loop for correct handling
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# of the first marker if it spans multiple lines
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file_iter = iter(self._file)
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# PEP 479, prevent RuntimeError when StopIteration is raised inside generator
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try:
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line = next(file_iter)
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except StopIteration:
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# no more data is available, terminate the generator
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return
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mobj = re.match(first_line_pat, line)
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mkr, line_value = mobj.groups()
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value_lines = [line_value]
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self.line_num = 0
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for line in file_iter:
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self.line_num += 1
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mobj = re.match(line_pat, line)
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line_mkr, line_value = mobj.groups()
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if line_mkr:
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yield (mkr, join_string.join(value_lines))
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mkr = line_mkr
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value_lines = [line_value]
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else:
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value_lines.append(line_value)
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self.line_num += 1
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yield (mkr, join_string.join(value_lines))
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def fields(
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self,
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strip=True,
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unwrap=True,
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encoding=None,
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errors="strict",
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unicode_fields=None,
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):
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"""
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Return an iterator that returns the next field in a ``(marker, value)``
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tuple, where ``marker`` and ``value`` are unicode strings if an ``encoding``
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was specified in the ``fields()`` method. Otherwise they are non-unicode strings.
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:param strip: strip trailing whitespace from the last line of each field
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:type strip: bool
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:param unwrap: Convert newlines in a field to spaces.
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:type unwrap: bool
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:param encoding: Name of an encoding to use. If it is specified then
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the ``fields()`` method returns unicode strings rather than non
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unicode strings.
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:type encoding: str or None
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:param errors: Error handling scheme for codec. Same as the ``decode()``
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builtin string method.
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:type errors: str
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:param unicode_fields: Set of marker names whose values are UTF-8 encoded.
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Ignored if encoding is None. If the whole file is UTF-8 encoded set
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``encoding='utf8'`` and leave ``unicode_fields`` with its default
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value of None.
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:type unicode_fields: sequence
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:rtype: iter(tuple(str, str))
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"""
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if encoding is None and unicode_fields is not None:
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raise ValueError("unicode_fields is set but not encoding.")
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unwrap_pat = re.compile(r"\n+")
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for mkr, val in self.raw_fields():
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if unwrap:
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val = unwrap_pat.sub(" ", val)
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if strip:
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val = val.rstrip()
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yield (mkr, val)
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def close(self):
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"""Close a previously opened standard format marker file or string."""
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self._file.close()
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try:
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del self.line_num
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except AttributeError:
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pass
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class ToolboxData(StandardFormat):
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def parse(self, grammar=None, **kwargs):
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if grammar:
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return self._chunk_parse(grammar=grammar, **kwargs)
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else:
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return self._record_parse(**kwargs)
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def _record_parse(self, key=None, **kwargs):
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"""
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Returns an element tree structure corresponding to a toolbox data file with
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all markers at the same level.
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Thus the following Toolbox database::
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\_sh v3.0 400 Rotokas Dictionary
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\_DateStampHasFourDigitYear
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\lx kaa
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\ps V.A
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\ge gag
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\gp nek i pas
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\lx kaa
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\ps V.B
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\ge strangle
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\gp pasim nek
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after parsing will end up with the same structure (ignoring the extra
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whitespace) as the following XML fragment after being parsed by
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ElementTree::
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<toolbox_data>
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<header>
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<_sh>v3.0 400 Rotokas Dictionary</_sh>
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<_DateStampHasFourDigitYear/>
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</header>
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<record>
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<lx>kaa</lx>
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<ps>V.A</ps>
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<ge>gag</ge>
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<gp>nek i pas</gp>
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</record>
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<record>
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<lx>kaa</lx>
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<ps>V.B</ps>
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<ge>strangle</ge>
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<gp>pasim nek</gp>
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</record>
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</toolbox_data>
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:param key: Name of key marker at the start of each record. If set to
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None (the default value) the first marker that doesn't begin with
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an underscore is assumed to be the key.
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:type key: str
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:param kwargs: Keyword arguments passed to ``StandardFormat.fields()``
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:type kwargs: dict
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:rtype: ElementTree._ElementInterface
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:return: contents of toolbox data divided into header and records
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"""
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builder = TreeBuilder()
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builder.start("toolbox_data", {})
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builder.start("header", {})
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in_records = False
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for mkr, value in self.fields(**kwargs):
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if key is None and not in_records and mkr[0] != "_":
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key = mkr
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if mkr == key:
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if in_records:
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builder.end("record")
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else:
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builder.end("header")
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in_records = True
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builder.start("record", {})
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builder.start(mkr, {})
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builder.data(value)
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builder.end(mkr)
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if in_records:
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builder.end("record")
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else:
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builder.end("header")
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builder.end("toolbox_data")
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return builder.close()
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def _tree2etree(self, parent):
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from nltk.tree import Tree
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root = Element(parent.label())
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for child in parent:
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if isinstance(child, Tree):
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root.append(self._tree2etree(child))
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else:
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text, tag = child
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e = SubElement(root, tag)
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e.text = text
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return root
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def _chunk_parse(self, grammar=None, root_label="record", trace=0, **kwargs):
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"""
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Returns an element tree structure corresponding to a toolbox data file
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parsed according to the chunk grammar.
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:type grammar: str
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:param grammar: Contains the chunking rules used to parse the
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database. See ``chunk.RegExp`` for documentation.
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:type root_label: str
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:param root_label: The node value that should be used for the
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top node of the chunk structure.
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:type trace: int
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:param trace: The level of tracing that should be used when
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parsing a text. ``0`` will generate no tracing output;
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``1`` will generate normal tracing output; and ``2`` or
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higher will generate verbose tracing output.
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:type kwargs: dict
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:param kwargs: Keyword arguments passed to ``toolbox.StandardFormat.fields()``
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:rtype: ElementTree._ElementInterface
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"""
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from nltk import chunk
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from nltk.tree import Tree
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cp = chunk.RegexpParser(grammar, root_label=root_label, trace=trace)
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db = self.parse(**kwargs)
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tb_etree = Element("toolbox_data")
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header = db.find("header")
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tb_etree.append(header)
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for record in db.findall("record"):
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parsed = cp.parse([(elem.text, elem.tag) for elem in record])
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tb_etree.append(self._tree2etree(parsed))
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return tb_etree
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_is_value = re.compile(r"\S")
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def to_sfm_string(tree, encoding=None, errors="strict", unicode_fields=None):
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"""
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Return a string with a standard format representation of the toolbox
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data in tree (tree can be a toolbox database or a single record).
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:param tree: flat representation of toolbox data (whole database or single record)
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:type tree: ElementTree._ElementInterface
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:param encoding: Name of an encoding to use.
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:type encoding: str
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:param errors: Error handling scheme for codec. Same as the ``encode()``
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builtin string method.
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:type errors: str
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:param unicode_fields:
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:type unicode_fields: dict(str) or set(str)
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:rtype: str
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"""
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if tree.tag == "record":
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root = Element("toolbox_data")
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root.append(tree)
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tree = root
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if tree.tag != "toolbox_data":
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raise ValueError("not a toolbox_data element structure")
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if encoding is None and unicode_fields is not None:
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raise ValueError(
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"if encoding is not specified then neither should unicode_fields"
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)
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l = []
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for rec in tree:
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l.append("\n")
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for field in rec:
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mkr = field.tag
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value = field.text
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if encoding is not None:
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if unicode_fields is not None and mkr in unicode_fields:
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cur_encoding = "utf8"
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else:
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cur_encoding = encoding
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if re.search(_is_value, value):
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l.append(
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("\\%s %s\n" % (mkr, value)).encode(cur_encoding, errors)
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)
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else:
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l.append(
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("\\%s%s\n" % (mkr, value)).encode(cur_encoding, errors)
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)
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else:
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if re.search(_is_value, value):
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l.append("\\%s %s\n" % (mkr, value))
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else:
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l.append("\\%s%s\n" % (mkr, value))
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return "".join(l[1:])
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class ToolboxSettings(StandardFormat):
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"""This class is the base class for settings files."""
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def __init__(self):
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super(ToolboxSettings, self).__init__()
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def parse(self, encoding=None, errors="strict", **kwargs):
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"""
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Return the contents of toolbox settings file with a nested structure.
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:param encoding: encoding used by settings file
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:type encoding: str
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:param errors: Error handling scheme for codec. Same as ``decode()`` builtin method.
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:type errors: str
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:param kwargs: Keyword arguments passed to ``StandardFormat.fields()``
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:type kwargs: dict
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:rtype: ElementTree._ElementInterface
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"""
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builder = TreeBuilder()
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for mkr, value in self.fields(encoding=encoding, errors=errors, **kwargs):
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# Check whether the first char of the field marker
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# indicates a block start (+) or end (-)
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block = mkr[0]
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if block in ("+", "-"):
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mkr = mkr[1:]
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else:
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block = None
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# Build tree on the basis of block char
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if block == "+":
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builder.start(mkr, {})
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builder.data(value)
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elif block == "-":
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builder.end(mkr)
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else:
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builder.start(mkr, {})
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builder.data(value)
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builder.end(mkr)
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return builder.close()
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def to_settings_string(tree, encoding=None, errors="strict", unicode_fields=None):
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# write XML to file
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l = list()
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_to_settings_string(
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tree.getroot(),
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l,
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encoding=encoding,
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errors=errors,
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unicode_fields=unicode_fields,
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)
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return "".join(l)
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def _to_settings_string(node, l, **kwargs):
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# write XML to file
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tag = node.tag
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text = node.text
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if len(node) == 0:
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if text:
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l.append("\\%s %s\n" % (tag, text))
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else:
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l.append("\\%s\n" % tag)
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else:
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if text:
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l.append("\\+%s %s\n" % (tag, text))
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else:
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l.append("\\+%s\n" % tag)
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for n in node:
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_to_settings_string(n, l, **kwargs)
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l.append("\\-%s\n" % tag)
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return
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def remove_blanks(elem):
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"""
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Remove all elements and subelements with no text and no child elements.
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:param elem: toolbox data in an elementtree structure
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:type elem: ElementTree._ElementInterface
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"""
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out = list()
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for child in elem:
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remove_blanks(child)
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if child.text or len(child) > 0:
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out.append(child)
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elem[:] = out
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|
|
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def add_default_fields(elem, default_fields):
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"""
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Add blank elements and subelements specified in default_fields.
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:param elem: toolbox data in an elementtree structure
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:type elem: ElementTree._ElementInterface
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:param default_fields: fields to add to each type of element and subelement
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:type default_fields: dict(tuple)
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"""
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for field in default_fields.get(elem.tag, []):
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if elem.find(field) is None:
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SubElement(elem, field)
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for child in elem:
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add_default_fields(child, default_fields)
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|
|
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def sort_fields(elem, field_orders):
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"""
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Sort the elements and subelements in order specified in field_orders.
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:param elem: toolbox data in an elementtree structure
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:type elem: ElementTree._ElementInterface
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:param field_orders: order of fields for each type of element and subelement
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:type field_orders: dict(tuple)
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"""
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order_dicts = dict()
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for field, order in field_orders.items():
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order_dicts[field] = order_key = dict()
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for i, subfield in enumerate(order):
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order_key[subfield] = i
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_sort_fields(elem, order_dicts)
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|
|
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def _sort_fields(elem, orders_dicts):
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"""sort the children of elem"""
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try:
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order = orders_dicts[elem.tag]
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except KeyError:
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pass
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else:
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tmp = sorted(
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[((order.get(child.tag, 1e9), i), child) for i, child in enumerate(elem)]
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)
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elem[:] = [child for key, child in tmp]
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for child in elem:
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if len(child):
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_sort_fields(child, orders_dicts)
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|
|
|
|
|
def add_blank_lines(tree, blanks_before, blanks_between):
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"""
|
|
Add blank lines before all elements and subelements specified in blank_before.
|
|
|
|
:param elem: toolbox data in an elementtree structure
|
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:type elem: ElementTree._ElementInterface
|
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:param blank_before: elements and subelements to add blank lines before
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:type blank_before: dict(tuple)
|
|
"""
|
|
try:
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before = blanks_before[tree.tag]
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between = blanks_between[tree.tag]
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except KeyError:
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for elem in tree:
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if len(elem):
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add_blank_lines(elem, blanks_before, blanks_between)
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else:
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last_elem = None
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for elem in tree:
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tag = elem.tag
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if last_elem is not None and last_elem.tag != tag:
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if tag in before and last_elem is not None:
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e = last_elem.getiterator()[-1]
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e.text = (e.text or "") + "\n"
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else:
|
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if tag in between:
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e = last_elem.getiterator()[-1]
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e.text = (e.text or "") + "\n"
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if len(elem):
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add_blank_lines(elem, blanks_before, blanks_between)
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last_elem = elem
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|
|
|
|
def demo():
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from itertools import islice
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|
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# zip_path = find('corpora/toolbox.zip')
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# lexicon = ToolboxData(ZipFilePathPointer(zip_path, 'toolbox/rotokas.dic')).parse()
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file_path = find("corpora/toolbox/rotokas.dic")
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lexicon = ToolboxData(file_path).parse()
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print("first field in fourth record:")
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print(lexicon[3][0].tag)
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print(lexicon[3][0].text)
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|
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print("\nfields in sequential order:")
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for field in islice(lexicon.find("record"), 10):
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print(field.tag, field.text)
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|
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print("\nlx fields:")
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for field in islice(lexicon.findall("record/lx"), 10):
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print(field.text)
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|
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settings = ToolboxSettings()
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|
file_path = find("corpora/toolbox/MDF/MDF_AltH.typ")
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settings.open(file_path)
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# settings.open(ZipFilePathPointer(zip_path, entry='toolbox/MDF/MDF_AltH.typ'))
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tree = settings.parse(unwrap=False, encoding="cp1252")
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print(tree.find("expset/expMDF/rtfPageSetup/paperSize").text)
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settings_tree = ElementTree(tree)
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|
print(to_settings_string(settings_tree).encode("utf8"))
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|
|
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if __name__ == "__main__":
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demo()
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