CofeehousePy/nlpfr/nltk/corpus/reader/util.py

871 lines
31 KiB
Python

# Natural Language Toolkit: Corpus Reader Utilities
#
# Copyright (C) 2001-2019 NLTK Project
# Author: Steven Bird <stevenbird1@gmail.com>
# Edward Loper <edloper@gmail.com>
# URL: <http://nltk.org/>
# For license information, see LICENSE.TXT
import os
import bisect
import re
import tempfile
from functools import reduce
try:
import cPickle as pickle
except ImportError:
import pickle
try: # Use the c version of ElementTree, which is faster, if possible.
from xml.etree import cElementTree as ElementTree
except ImportError:
from xml.etree import ElementTree
from six import string_types, text_type
from nltk.tokenize import wordpunct_tokenize
from nltk.internals import slice_bounds
from nltk.data import PathPointer, FileSystemPathPointer, ZipFilePathPointer
from nltk.data import SeekableUnicodeStreamReader
from nltk.util import AbstractLazySequence, LazySubsequence, LazyConcatenation, py25
######################################################################
# { Corpus View
######################################################################
class StreamBackedCorpusView(AbstractLazySequence):
"""
A 'view' of a corpus file, which acts like a sequence of tokens:
it can be accessed by index, iterated over, etc. However, the
tokens are only constructed as-needed -- the entire corpus is
never stored in memory at once.
The constructor to ``StreamBackedCorpusView`` takes two arguments:
a corpus fileid (specified as a string or as a ``PathPointer``);
and a block reader. A "block reader" is a function that reads
zero or more tokens from a stream, and returns them as a list. A
very simple example of a block reader is:
>>> def simple_block_reader(stream):
... return stream.readline().split()
This simple block reader reads a single line at a time, and
returns a single token (consisting of a string) for each
whitespace-separated substring on the line.
When deciding how to define the block reader for a given
corpus, careful consideration should be given to the size of
blocks handled by the block reader. Smaller block sizes will
increase the memory requirements of the corpus view's internal
data structures (by 2 integers per block). On the other hand,
larger block sizes may decrease performance for random access to
the corpus. (But note that larger block sizes will *not*
decrease performance for iteration.)
Internally, ``CorpusView`` maintains a partial mapping from token
index to file position, with one entry per block. When a token
with a given index *i* is requested, the ``CorpusView`` constructs
it as follows:
1. First, it searches the toknum/filepos mapping for the token
index closest to (but less than or equal to) *i*.
2. Then, starting at the file position corresponding to that
index, it reads one block at a time using the block reader
until it reaches the requested token.
The toknum/filepos mapping is created lazily: it is initially
empty, but every time a new block is read, the block's
initial token is added to the mapping. (Thus, the toknum/filepos
map has one entry per block.)
In order to increase efficiency for random access patterns that
have high degrees of locality, the corpus view may cache one or
more blocks.
:note: Each ``CorpusView`` object internally maintains an open file
object for its underlying corpus file. This file should be
automatically closed when the ``CorpusView`` is garbage collected,
but if you wish to close it manually, use the ``close()``
method. If you access a ``CorpusView``'s items after it has been
closed, the file object will be automatically re-opened.
:warning: If the contents of the file are modified during the
lifetime of the ``CorpusView``, then the ``CorpusView``'s behavior
is undefined.
:warning: If a unicode encoding is specified when constructing a
``CorpusView``, then the block reader may only call
``stream.seek()`` with offsets that have been returned by
``stream.tell()``; in particular, calling ``stream.seek()`` with
relative offsets, or with offsets based on string lengths, may
lead to incorrect behavior.
:ivar _block_reader: The function used to read
a single block from the underlying file stream.
:ivar _toknum: A list containing the token index of each block
that has been processed. In particular, ``_toknum[i]`` is the
token index of the first token in block ``i``. Together
with ``_filepos``, this forms a partial mapping between token
indices and file positions.
:ivar _filepos: A list containing the file position of each block
that has been processed. In particular, ``_toknum[i]`` is the
file position of the first character in block ``i``. Together
with ``_toknum``, this forms a partial mapping between token
indices and file positions.
:ivar _stream: The stream used to access the underlying corpus file.
:ivar _len: The total number of tokens in the corpus, if known;
or None, if the number of tokens is not yet known.
:ivar _eofpos: The character position of the last character in the
file. This is calculated when the corpus view is initialized,
and is used to decide when the end of file has been reached.
:ivar _cache: A cache of the most recently read block. It
is encoded as a tuple (start_toknum, end_toknum, tokens), where
start_toknum is the token index of the first token in the block;
end_toknum is the token index of the first token not in the
block; and tokens is a list of the tokens in the block.
"""
def __init__(self, fileid, block_reader=None, startpos=0, encoding="utf8"):
"""
Create a new corpus view, based on the file ``fileid``, and
read with ``block_reader``. See the class documentation
for more information.
:param fileid: The path to the file that is read by this
corpus view. ``fileid`` can either be a string or a
``PathPointer``.
:param startpos: The file position at which the view will
start reading. This can be used to skip over preface
sections.
:param encoding: The unicode encoding that should be used to
read the file's contents. If no encoding is specified,
then the file's contents will be read as a non-unicode
string (i.e., a str).
"""
if block_reader:
self.read_block = block_reader
# Initialize our toknum/filepos mapping.
self._toknum = [0]
self._filepos = [startpos]
self._encoding = encoding
# We don't know our length (number of tokens) yet.
self._len = None
self._fileid = fileid
self._stream = None
self._current_toknum = None
"""This variable is set to the index of the next token that
will be read, immediately before ``self.read_block()`` is
called. This is provided for the benefit of the block
reader, which under rare circumstances may need to know
the current token number."""
self._current_blocknum = None
"""This variable is set to the index of the next block that
will be read, immediately before ``self.read_block()`` is
called. This is provided for the benefit of the block
reader, which under rare circumstances may need to know
the current block number."""
# Find the length of the file.
try:
if isinstance(self._fileid, PathPointer):
self._eofpos = self._fileid.file_size()
else:
self._eofpos = os.stat(self._fileid).st_size
except Exception as exc:
raise ValueError("Unable to open or access %r -- %s" % (fileid, exc))
# Maintain a cache of the most recently read block, to
# increase efficiency of random access.
self._cache = (-1, -1, None)
fileid = property(
lambda self: self._fileid,
doc="""
The fileid of the file that is accessed by this view.
:type: str or PathPointer""",
)
def read_block(self, stream):
"""
Read a block from the input stream.
:return: a block of tokens from the input stream
:rtype: list(any)
:param stream: an input stream
:type stream: stream
"""
raise NotImplementedError("Abstract Method")
def _open(self):
"""
Open the file stream associated with this corpus view. This
will be called performed if any value is read from the view
while its file stream is closed.
"""
if isinstance(self._fileid, PathPointer):
self._stream = self._fileid.open(self._encoding)
elif self._encoding:
self._stream = SeekableUnicodeStreamReader(
open(self._fileid, "rb"), self._encoding
)
else:
self._stream = open(self._fileid, "rb")
def close(self):
"""
Close the file stream associated with this corpus view. This
can be useful if you are worried about running out of file
handles (although the stream should automatically be closed
upon garbage collection of the corpus view). If the corpus
view is accessed after it is closed, it will be automatically
re-opened.
"""
if self._stream is not None:
self._stream.close()
self._stream = None
def __len__(self):
if self._len is None:
# iterate_from() sets self._len when it reaches the end
# of the file:
for tok in self.iterate_from(self._toknum[-1]):
pass
return self._len
def __getitem__(self, i):
if isinstance(i, slice):
start, stop = slice_bounds(self, i)
# Check if it's in the cache.
offset = self._cache[0]
if offset <= start and stop <= self._cache[1]:
return self._cache[2][start - offset : stop - offset]
# Construct & return the result.
return LazySubsequence(self, start, stop)
else:
# Handle negative indices
if i < 0:
i += len(self)
if i < 0:
raise IndexError("index out of range")
# Check if it's in the cache.
offset = self._cache[0]
if offset <= i < self._cache[1]:
return self._cache[2][i - offset]
# Use iterate_from to extract it.
try:
return next(self.iterate_from(i))
except StopIteration:
raise IndexError("index out of range")
# If we wanted to be thread-safe, then this method would need to
# do some locking.
def iterate_from(self, start_tok):
# Start by feeding from the cache, if possible.
if self._cache[0] <= start_tok < self._cache[1]:
for tok in self._cache[2][start_tok - self._cache[0] :]:
yield tok
start_tok += 1
# Decide where in the file we should start. If `start` is in
# our mapping, then we can jump straight to the correct block;
# otherwise, start at the last block we've processed.
if start_tok < self._toknum[-1]:
block_index = bisect.bisect_right(self._toknum, start_tok) - 1
toknum = self._toknum[block_index]
filepos = self._filepos[block_index]
else:
block_index = len(self._toknum) - 1
toknum = self._toknum[-1]
filepos = self._filepos[-1]
# Open the stream, if it's not open already.
if self._stream is None:
self._open()
# If the file is empty, the while loop will never run.
# This *seems* to be all the state we need to set:
if self._eofpos == 0:
self._len = 0
# Each iteration through this loop, we read a single block
# from the stream.
while filepos < self._eofpos:
# Read the next block.
self._stream.seek(filepos)
self._current_toknum = toknum
self._current_blocknum = block_index
tokens = self.read_block(self._stream)
assert isinstance(tokens, (tuple, list, AbstractLazySequence)), (
"block reader %s() should return list or tuple."
% self.read_block.__name__
)
num_toks = len(tokens)
new_filepos = self._stream.tell()
assert new_filepos > filepos, (
"block reader %s() should consume at least 1 byte (filepos=%d)"
% (self.read_block.__name__, filepos)
)
# Update our cache.
self._cache = (toknum, toknum + num_toks, list(tokens))
# Update our mapping.
assert toknum <= self._toknum[-1]
if num_toks > 0:
block_index += 1
if toknum == self._toknum[-1]:
assert new_filepos > self._filepos[-1] # monotonic!
self._filepos.append(new_filepos)
self._toknum.append(toknum + num_toks)
else:
# Check for consistency:
assert (
new_filepos == self._filepos[block_index]
), "inconsistent block reader (num chars read)"
assert (
toknum + num_toks == self._toknum[block_index]
), "inconsistent block reader (num tokens returned)"
# If we reached the end of the file, then update self._len
if new_filepos == self._eofpos:
self._len = toknum + num_toks
# Generate the tokens in this block (but skip any tokens
# before start_tok). Note that between yields, our state
# may be modified.
for tok in tokens[max(0, start_tok - toknum) :]:
yield tok
# If we're at the end of the file, then we're done.
assert new_filepos <= self._eofpos
if new_filepos == self._eofpos:
break
# Update our indices
toknum += num_toks
filepos = new_filepos
# If we reach this point, then we should know our length.
assert self._len is not None
# Enforce closing of stream once we reached end of file
# We should have reached EOF once we're out of the while loop.
self.close()
# Use concat for these, so we can use a ConcatenatedCorpusView
# when possible.
def __add__(self, other):
return concat([self, other])
def __radd__(self, other):
return concat([other, self])
def __mul__(self, count):
return concat([self] * count)
def __rmul__(self, count):
return concat([self] * count)
class ConcatenatedCorpusView(AbstractLazySequence):
"""
A 'view' of a corpus file that joins together one or more
``StreamBackedCorpusViews<StreamBackedCorpusView>``. At most
one file handle is left open at any time.
"""
def __init__(self, corpus_views):
self._pieces = corpus_views
"""A list of the corpus subviews that make up this
concatenation."""
self._offsets = [0]
"""A list of offsets, indicating the index at which each
subview begins. In particular::
offsets[i] = sum([len(p) for p in pieces[:i]])"""
self._open_piece = None
"""The most recently accessed corpus subview (or None).
Before a new subview is accessed, this subview will be closed."""
def __len__(self):
if len(self._offsets) <= len(self._pieces):
# Iterate to the end of the corpus.
for tok in self.iterate_from(self._offsets[-1]):
pass
return self._offsets[-1]
def close(self):
for piece in self._pieces:
piece.close()
def iterate_from(self, start_tok):
piecenum = bisect.bisect_right(self._offsets, start_tok) - 1
while piecenum < len(self._pieces):
offset = self._offsets[piecenum]
piece = self._pieces[piecenum]
# If we've got another piece open, close it first.
if self._open_piece is not piece:
if self._open_piece is not None:
self._open_piece.close()
self._open_piece = piece
# Get everything we can from this piece.
for tok in piece.iterate_from(max(0, start_tok - offset)):
yield tok
# Update the offset table.
if piecenum + 1 == len(self._offsets):
self._offsets.append(self._offsets[-1] + len(piece))
# Move on to the next piece.
piecenum += 1
def concat(docs):
"""
Concatenate together the contents of multiple documents from a
single corpus, using an appropriate concatenation function. This
utility function is used by corpus readers when the user requests
more than one document at a time.
"""
if len(docs) == 1:
return docs[0]
if len(docs) == 0:
raise ValueError("concat() expects at least one object!")
types = set(d.__class__ for d in docs)
# If they're all strings, use string concatenation.
if all(isinstance(doc, string_types) for doc in docs):
return "".join(docs)
# If they're all corpus views, then use ConcatenatedCorpusView.
for typ in types:
if not issubclass(typ, (StreamBackedCorpusView, ConcatenatedCorpusView)):
break
else:
return ConcatenatedCorpusView(docs)
# If they're all lazy sequences, use a lazy concatenation
for typ in types:
if not issubclass(typ, AbstractLazySequence):
break
else:
return LazyConcatenation(docs)
# Otherwise, see what we can do:
if len(types) == 1:
typ = list(types)[0]
if issubclass(typ, list):
return reduce((lambda a, b: a + b), docs, [])
if issubclass(typ, tuple):
return reduce((lambda a, b: a + b), docs, ())
if ElementTree.iselement(typ):
xmltree = ElementTree.Element("documents")
for doc in docs:
xmltree.append(doc)
return xmltree
# No method found!
raise ValueError("Don't know how to concatenate types: %r" % types)
######################################################################
# { Corpus View for Pickled Sequences
######################################################################
class PickleCorpusView(StreamBackedCorpusView):
"""
A stream backed corpus view for corpus files that consist of
sequences of serialized Python objects (serialized using
``pickle.dump``). One use case for this class is to store the
result of running feature detection on a corpus to disk. This can
be useful when performing feature detection is expensive (so we
don't want to repeat it); but the corpus is too large to store in
memory. The following example illustrates this technique:
>>> from nltk.corpus.reader.util import PickleCorpusView
>>> from nltk.util import LazyMap
>>> feature_corpus = LazyMap(detect_features, corpus) # doctest: +SKIP
>>> PickleCorpusView.write(feature_corpus, some_fileid) # doctest: +SKIP
>>> pcv = PickleCorpusView(some_fileid) # doctest: +SKIP
"""
BLOCK_SIZE = 100
PROTOCOL = -1
def __init__(self, fileid, delete_on_gc=False):
"""
Create a new corpus view that reads the pickle corpus
``fileid``.
:param delete_on_gc: If true, then ``fileid`` will be deleted
whenever this object gets garbage-collected.
"""
self._delete_on_gc = delete_on_gc
StreamBackedCorpusView.__init__(self, fileid)
def read_block(self, stream):
result = []
for i in range(self.BLOCK_SIZE):
try:
result.append(pickle.load(stream))
except EOFError:
break
return result
def __del__(self):
"""
If ``delete_on_gc`` was set to true when this
``PickleCorpusView`` was created, then delete the corpus view's
fileid. (This method is called whenever a
``PickledCorpusView`` is garbage-collected.
"""
if getattr(self, "_delete_on_gc"):
if os.path.exists(self._fileid):
try:
os.remove(self._fileid)
except (OSError, IOError):
pass
self.__dict__.clear() # make the garbage collector's job easier
@classmethod
def write(cls, sequence, output_file):
if isinstance(output_file, string_types):
output_file = open(output_file, "wb")
for item in sequence:
pickle.dump(item, output_file, cls.PROTOCOL)
@classmethod
def cache_to_tempfile(cls, sequence, delete_on_gc=True):
"""
Write the given sequence to a temporary file as a pickle
corpus; and then return a ``PickleCorpusView`` view for that
temporary corpus file.
:param delete_on_gc: If true, then the temporary file will be
deleted whenever this object gets garbage-collected.
"""
try:
fd, output_file_name = tempfile.mkstemp(".pcv", "nltk-")
output_file = os.fdopen(fd, "wb")
cls.write(sequence, output_file)
output_file.close()
return PickleCorpusView(output_file_name, delete_on_gc)
except (OSError, IOError) as e:
raise ValueError("Error while creating temp file: %s" % e)
######################################################################
# { Block Readers
######################################################################
def read_whitespace_block(stream):
toks = []
for i in range(20): # Read 20 lines at a time.
toks.extend(stream.readline().split())
return toks
def read_wordpunct_block(stream):
toks = []
for i in range(20): # Read 20 lines at a time.
toks.extend(wordpunct_tokenize(stream.readline()))
return toks
def read_line_block(stream):
toks = []
for i in range(20):
line = stream.readline()
if not line:
return toks
toks.append(line.rstrip("\n"))
return toks
def read_blankline_block(stream):
s = ""
while True:
line = stream.readline()
# End of file:
if not line:
if s:
return [s]
else:
return []
# Blank line:
elif line and not line.strip():
if s:
return [s]
# Other line:
else:
s += line
def read_alignedsent_block(stream):
s = ""
while True:
line = stream.readline()
if line[0] == "=" or line[0] == "\n" or line[:2] == "\r\n":
continue
# End of file:
if not line:
if s:
return [s]
else:
return []
# Other line:
else:
s += line
if re.match("^\d+-\d+", line) is not None:
return [s]
def read_regexp_block(stream, start_re, end_re=None):
"""
Read a sequence of tokens from a stream, where tokens begin with
lines that match ``start_re``. If ``end_re`` is specified, then
tokens end with lines that match ``end_re``; otherwise, tokens end
whenever the next line matching ``start_re`` or EOF is found.
"""
# Scan until we find a line matching the start regexp.
while True:
line = stream.readline()
if not line:
return [] # end of file.
if re.match(start_re, line):
break
# Scan until we find another line matching the regexp, or EOF.
lines = [line]
while True:
oldpos = stream.tell()
line = stream.readline()
# End of file:
if not line:
return ["".join(lines)]
# End of token:
if end_re is not None and re.match(end_re, line):
return ["".join(lines)]
# Start of new token: backup to just before it starts, and
# return the token we've already collected.
if end_re is None and re.match(start_re, line):
stream.seek(oldpos)
return ["".join(lines)]
# Anything else is part of the token.
lines.append(line)
def read_sexpr_block(stream, block_size=16384, comment_char=None):
"""
Read a sequence of s-expressions from the stream, and leave the
stream's file position at the end the last complete s-expression
read. This function will always return at least one s-expression,
unless there are no more s-expressions in the file.
If the file ends in in the middle of an s-expression, then that
incomplete s-expression is returned when the end of the file is
reached.
:param block_size: The default block size for reading. If an
s-expression is longer than one block, then more than one
block will be read.
:param comment_char: A character that marks comments. Any lines
that begin with this character will be stripped out.
(If spaces or tabs precede the comment character, then the
line will not be stripped.)
"""
start = stream.tell()
block = stream.read(block_size)
encoding = getattr(stream, "encoding", None)
assert encoding is not None or isinstance(block, text_type)
if encoding not in (None, "utf-8"):
import warnings
warnings.warn(
"Parsing may fail, depending on the properties "
"of the %s encoding!" % encoding
)
# (e.g., the utf-16 encoding does not work because it insists
# on adding BOMs to the beginning of encoded strings.)
if comment_char:
COMMENT = re.compile("(?m)^%s.*$" % re.escape(comment_char))
while True:
try:
# If we're stripping comments, then make sure our block ends
# on a line boundary; and then replace any comments with
# space characters. (We can't just strip them out -- that
# would make our offset wrong.)
if comment_char:
block += stream.readline()
block = re.sub(COMMENT, _sub_space, block)
# Read the block.
tokens, offset = _parse_sexpr_block(block)
# Skip whitespace
offset = re.compile(r"\s*").search(block, offset).end()
# Move to the end position.
if encoding is None:
stream.seek(start + offset)
else:
stream.seek(start + len(block[:offset].encode(encoding)))
# Return the list of tokens we processed
return tokens
except ValueError as e:
if e.args[0] == "Block too small":
next_block = stream.read(block_size)
if next_block:
block += next_block
continue
else:
# The file ended mid-sexpr -- return what we got.
return [block.strip()]
else:
raise
def _sub_space(m):
"""Helper function: given a regexp match, return a string of
spaces that's the same length as the matched string."""
return " " * (m.end() - m.start())
def _parse_sexpr_block(block):
tokens = []
start = end = 0
while end < len(block):
m = re.compile(r"\S").search(block, end)
if not m:
return tokens, end
start = m.start()
# Case 1: sexpr is not parenthesized.
if m.group() != "(":
m2 = re.compile(r"[\s(]").search(block, start)
if m2:
end = m2.start()
else:
if tokens:
return tokens, end
raise ValueError("Block too small")
# Case 2: parenthesized sexpr.
else:
nesting = 0
for m in re.compile(r"[()]").finditer(block, start):
if m.group() == "(":
nesting += 1
else:
nesting -= 1
if nesting == 0:
end = m.end()
break
else:
if tokens:
return tokens, end
raise ValueError("Block too small")
tokens.append(block[start:end])
return tokens, end
######################################################################
# { Finding Corpus Items
######################################################################
def find_corpus_fileids(root, regexp):
if not isinstance(root, PathPointer):
raise TypeError("find_corpus_fileids: expected a PathPointer")
regexp += "$"
# Find fileids in a zipfile: scan the zipfile's namelist. Filter
# out entries that end in '/' -- they're directories.
if isinstance(root, ZipFilePathPointer):
fileids = [
name[len(root.entry) :]
for name in root.zipfile.namelist()
if not name.endswith("/")
]
items = [name for name in fileids if re.match(regexp, name)]
return sorted(items)
# Find fileids in a directory: use os.walk to search all (proper
# or symlinked) subdirectories, and match paths against the regexp.
elif isinstance(root, FileSystemPathPointer):
items = []
# workaround for py25 which doesn't support followlinks
kwargs = {}
if not py25():
kwargs = {"followlinks": True}
for dirname, subdirs, fileids in os.walk(root.path, **kwargs):
prefix = "".join("%s/" % p for p in _path_from(root.path, dirname))
items += [
prefix + fileid
for fileid in fileids
if re.match(regexp, prefix + fileid)
]
# Don't visit svn directories:
if ".svn" in subdirs:
subdirs.remove(".svn")
return sorted(items)
else:
raise AssertionError("Don't know how to handle %r" % root)
def _path_from(parent, child):
if os.path.split(parent)[1] == "":
parent = os.path.split(parent)[0]
path = []
while parent != child:
child, dirname = os.path.split(child)
path.insert(0, dirname)
assert os.path.split(child)[0] != child
return path
######################################################################
# { Paragraph structure in Treebank files
######################################################################
def tagged_treebank_para_block_reader(stream):
# Read the next paragraph.
para = ""
while True:
line = stream.readline()
# End of paragraph:
if re.match("======+\s*$", line):
if para.strip():
return [para]
# End of file:
elif line == "":
if para.strip():
return [para]
else:
return []
# Content line:
else:
para += line