You cannot select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.

1137 lines
38 KiB
Python

5 years ago
# Natural Language Toolkit: Internal utility functions
#
# Copyright (C) 2001-2020 NLTK Project
5 years ago
# Author: Steven Bird <stevenbird1@gmail.com>
# Edward Loper <edloper@gmail.com>
# Nitin Madnani <nmadnani@ets.org>
# URL: <http://nltk.org/>
# For license information, see LICENSE.TXT
import subprocess
import os
import fnmatch
import re
import warnings
import textwrap
import types
import sys
import stat
import locale
from xml.etree import ElementTree
5 years ago
##########################################################################
# Java Via Command-Line
##########################################################################
_java_bin = None
_java_options = []
# [xx] add classpath option to config_java?
def config_java(bin=None, options=None, verbose=False):
"""
Configure nltk's java interface, by letting nltk know where it can
find the Java binary, and what extra options (if any) should be
passed to Java when it is run.
:param bin: The full path to the Java binary. If not specified,
then nltk will search the system for a Java binary; and if
one is not found, it will raise a ``LookupError`` exception.
:type bin: str
:param options: A list of options that should be passed to the
Java binary when it is called. A common value is
``'-Xmx512m'``, which tells Java binary to increase
the maximum heap size to 512 megabytes. If no options are
specified, then do not modify the options list.
:type options: list(str)
"""
global _java_bin, _java_options
_java_bin = find_binary(
"java",
5 years ago
bin,
env_vars=["JAVAHOME", "JAVA_HOME"],
5 years ago
verbose=verbose,
binary_names=["java.exe"],
5 years ago
)
if options is not None:
if isinstance(options, str):
5 years ago
options = options.split()
_java_options = list(options)
def java(cmd, classpath=None, stdin=None, stdout=None, stderr=None, blocking=True):
"""
Execute the given java command, by opening a subprocess that calls
Java. If java has not yet been configured, it will be configured
by calling ``config_java()`` with no arguments.
:param cmd: The java command that should be called, formatted as
a list of strings. Typically, the first string will be the name
of the java class; and the remaining strings will be arguments
for that java class.
:type cmd: list(str)
:param classpath: A ``':'`` separated list of directories, JAR
archives, and ZIP archives to search for class files.
:type classpath: str
:param stdin, stdout, stderr: Specify the executed programs'
standard input, standard output and standard error file
handles, respectively. Valid values are ``subprocess.PIPE``,
an existing file descriptor (a positive integer), an existing
file object, 'pipe', 'stdout', 'devnull' and None. ``subprocess.PIPE`` indicates that a
new pipe to the child should be created. With None, no
redirection will occur; the child's file handles will be
inherited from the parent. Additionally, stderr can be
``subprocess.STDOUT``, which indicates that the stderr data
from the applications should be captured into the same file
handle as for stdout.
:param blocking: If ``false``, then return immediately after
spawning the subprocess. In this case, the return value is
the ``Popen`` object, and not a ``(stdout, stderr)`` tuple.
:return: If ``blocking=True``, then return a tuple ``(stdout,
stderr)``, containing the stdout and stderr outputs generated
by the java command if the ``stdout`` and ``stderr`` parameters
were set to ``subprocess.PIPE``; or None otherwise. If
``blocking=False``, then return a ``subprocess.Popen`` object.
:raise OSError: If the java command returns a nonzero return code.
"""
subprocess_output_dict = {
"pipe": subprocess.PIPE,
"stdout": subprocess.STDOUT,
"devnull": subprocess.DEVNULL,
}
5 years ago
stdin = subprocess_output_dict.get(stdin, stdin)
stdout = subprocess_output_dict.get(stdout, stdout)
stderr = subprocess_output_dict.get(stderr, stderr)
if isinstance(cmd, str):
raise TypeError("cmd should be a list of strings")
5 years ago
# Make sure we know where a java binary is.
if _java_bin is None:
config_java()
# Set up the classpath.
if isinstance(classpath, str):
5 years ago
classpaths = [classpath]
else:
classpaths = list(classpath)
classpath = os.path.pathsep.join(classpaths)
# Construct the full command string.
cmd = list(cmd)
cmd = ["-cp", classpath] + cmd
5 years ago
cmd = [_java_bin] + _java_options + cmd
# Call java via a subprocess
p = subprocess.Popen(cmd, stdin=stdin, stdout=stdout, stderr=stderr)
if not blocking:
return p
(stdout, stderr) = p.communicate()
# Check the return code.
if p.returncode != 0:
print(_decode_stdoutdata(stderr))
raise OSError("Java command failed : " + str(cmd))
5 years ago
return (stdout, stderr)
if 0:
# config_java(options='-Xmx512m')
# Write:
# java('weka.classifiers.bayes.NaiveBayes',
# ['-d', '/tmp/names.model', '-t', '/tmp/train.arff'],
# classpath='/Users/edloper/Desktop/weka/weka.jar')
# Read:
(a, b) = java(
[
"weka.classifiers.bayes.NaiveBayes",
"-l",
"/tmp/names.model",
"-T",
"/tmp/test.arff",
"-p",
"0",
5 years ago
], # , '-distribution'],
classpath="/Users/edloper/Desktop/weka/weka.jar",
5 years ago
)
######################################################################
# Parsing
######################################################################
class ReadError(ValueError):
"""
Exception raised by read_* functions when they fail.
:param position: The index in the input string where an error occurred.
:param expected: What was expected when an error occurred.
"""
def __init__(self, expected, position):
ValueError.__init__(self, expected, position)
self.expected = expected
self.position = position
def __str__(self):
return "Expected %s at %s" % (self.expected, self.position)
5 years ago
_STRING_START_RE = re.compile(r"[uU]?[rR]?(\"\"\"|\'\'\'|\"|\')")
def read_str(s, start_position):
"""
If a Python string literal begins at the specified position in the
given string, then return a tuple ``(val, end_position)``
containing the value of the string literal and the position where
it ends. Otherwise, raise a ``ReadError``.
:param s: A string that will be checked to see if within which a
Python string literal exists.
:type s: str
:param start_position: The specified beginning position of the string ``s``
to begin regex matching.
:type start_position: int
:return: A tuple containing the matched string literal evaluated as a
string and the end position of the string literal.
:rtype: tuple(str, int)
:raise ReadError: If the ``_STRING_START_RE`` regex doesn't return a
match in ``s`` at ``start_position``, i.e., open quote. If the
``_STRING_END_RE`` regex doesn't return a match in ``s`` at the
end of the first match, i.e., close quote.
:raise ValueError: If an invalid string (i.e., contains an invalid
escape sequence) is passed into the ``eval``.
:Example:
>>> from nltk.internals import read_str
>>> read_str('"Hello", World!', 0)
('Hello', 7)
"""
# Read the open quote, and any modifiers.
m = _STRING_START_RE.match(s, start_position)
if not m:
raise ReadError("open quote", start_position)
5 years ago
quotemark = m.group(1)
# Find the close quote.
_STRING_END_RE = re.compile(r"\\|%s" % quotemark)
5 years ago
position = m.end()
while True:
match = _STRING_END_RE.search(s, position)
if not match:
raise ReadError("close quote", position)
if match.group(0) == "\\":
5 years ago
position = match.end() + 1
else:
break
# Process it, using eval. Strings with invalid escape sequences
# might raise ValueEerror.
try:
return eval(s[start_position : match.end()]), match.end()
except ValueError as e:
raise ReadError("invalid string (%s)" % e)
5 years ago
_READ_INT_RE = re.compile(r"-?\d+")
5 years ago
def read_int(s, start_position):
"""
If an integer begins at the specified position in the given
string, then return a tuple ``(val, end_position)`` containing the
value of the integer and the position where it ends. Otherwise,
raise a ``ReadError``.
:param s: A string that will be checked to see if within which a
Python integer exists.
:type s: str
:param start_position: The specified beginning position of the string ``s``
to begin regex matching.
:type start_position: int
:return: A tuple containing the matched integer casted to an int,
and the end position of the int in ``s``.
:rtype: tuple(int, int)
:raise ReadError: If the ``_READ_INT_RE`` regex doesn't return a
match in ``s`` at ``start_position``.
:Example:
>>> from nltk.internals import read_int
>>> read_int('42 is the answer', 0)
(42, 2)
"""
m = _READ_INT_RE.match(s, start_position)
if not m:
raise ReadError("integer", start_position)
5 years ago
return int(m.group()), m.end()
_READ_NUMBER_VALUE = re.compile(r"-?(\d*)([.]?\d*)?")
5 years ago
def read_number(s, start_position):
"""
If an integer or float begins at the specified position in the
given string, then return a tuple ``(val, end_position)``
containing the value of the number and the position where it ends.
Otherwise, raise a ``ReadError``.
:param s: A string that will be checked to see if within which a
Python number exists.
:type s: str
:param start_position: The specified beginning position of the string ``s``
to begin regex matching.
:type start_position: int
:return: A tuple containing the matched number casted to a ``float``,
and the end position of the number in ``s``.
:rtype: tuple(float, int)
:raise ReadError: If the ``_READ_NUMBER_VALUE`` regex doesn't return a
match in ``s`` at ``start_position``.
:Example:
>>> from nltk.internals import read_number
>>> read_number('Pi is 3.14159', 6)
(3.14159, 13)
"""
m = _READ_NUMBER_VALUE.match(s, start_position)
if not m or not (m.group(1) or m.group(2)):
raise ReadError("number", start_position)
5 years ago
if m.group(2):
return float(m.group()), m.end()
else:
return int(m.group()), m.end()
######################################################################
# Check if a method has been overridden
######################################################################
def overridden(method):
"""
:return: True if ``method`` overrides some method with the same
name in a base class. This is typically used when defining
abstract base classes or interfaces, to allow subclasses to define
either of two related methods:
>>> class EaterI:
... '''Subclass must define eat() or batch_eat().'''
... def eat(self, food):
... if overridden(self.batch_eat):
... return self.batch_eat([food])[0]
... else:
... raise NotImplementedError()
... def batch_eat(self, foods):
... return [self.eat(food) for food in foods]
:type method: instance method
"""
if isinstance(method, types.MethodType) and method.__self__.__class__ is not None:
5 years ago
name = method.__name__
funcs = [
cls.__dict__[name]
for cls in _mro(method.__self__.__class__)
5 years ago
if name in cls.__dict__
]
return len(funcs) > 1
else:
raise TypeError("Expected an instance method.")
5 years ago
def _mro(cls):
"""
Return the method resolution order for ``cls`` -- i.e., a list
containing ``cls`` and all its base classes, in the order in which
they would be checked by ``getattr``. For new-style classes, this
is just cls.__mro__. For classic classes, this can be obtained by
a depth-first left-to-right traversal of ``__bases__``.
"""
if isinstance(cls, type):
return cls.__mro__
else:
mro = [cls]
for base in cls.__bases__:
mro.extend(_mro(base))
return mro
######################################################################
# Deprecation decorator & base class
######################################################################
# [xx] dedent msg first if it comes from a docstring.
def _add_epytext_field(obj, field, message):
"""Add an epytext @field to a given object's docstring."""
indent = ""
5 years ago
# If we already have a docstring, then add a blank line to separate
# it from the new field, and check its indentation.
if obj.__doc__:
obj.__doc__ = obj.__doc__.rstrip() + "\n\n"
indents = re.findall(r"(?<=\n)[ ]+(?!\s)", obj.__doc__.expandtabs())
5 years ago
if indents:
indent = min(indents)
# If we don't have a docstring, add an empty one.
else:
obj.__doc__ = ""
5 years ago
obj.__doc__ += textwrap.fill(
"@%s: %s" % (field, message),
5 years ago
initial_indent=indent,
subsequent_indent=indent + " ",
5 years ago
)
def deprecated(message):
"""
A decorator used to mark functions as deprecated. This will cause
a warning to be printed the when the function is used. Usage:
>>> from nltk.internals import deprecated
>>> @deprecated('Use foo() instead')
... def bar(x):
... print(x/10)
"""
def decorator(func):
msg = "Function %s() has been deprecated. %s" % (func.__name__, message)
msg = "\n" + textwrap.fill(msg, initial_indent=" ", subsequent_indent=" ")
5 years ago
def newFunc(*args, **kwargs):
warnings.warn(msg, category=DeprecationWarning, stacklevel=2)
return func(*args, **kwargs)
# Copy the old function's name, docstring, & dict
newFunc.__dict__.update(func.__dict__)
newFunc.__name__ = func.__name__
newFunc.__doc__ = func.__doc__
newFunc.__deprecated__ = True
# Add a @deprecated field to the docstring.
_add_epytext_field(newFunc, "deprecated", message)
5 years ago
return newFunc
return decorator
class Deprecated(object):
"""
A base class used to mark deprecated classes. A typical usage is to
alert users that the name of a class has changed:
>>> from nltk.internals import Deprecated
>>> class NewClassName(object):
... pass # All logic goes here.
...
>>> class OldClassName(Deprecated, NewClassName):
... "Use NewClassName instead."
The docstring of the deprecated class will be used in the
deprecation warning message.
"""
def __new__(cls, *args, **kwargs):
# Figure out which class is the deprecated one.
dep_cls = None
for base in _mro(cls):
if Deprecated in base.__bases__:
dep_cls = base
break
assert dep_cls, "Unable to determine which base is deprecated."
5 years ago
# Construct an appropriate warning.
doc = dep_cls.__doc__ or "".strip()
5 years ago
# If there's a @deprecated field, strip off the field marker.
doc = re.sub(r"\A\s*@deprecated:", r"", doc)
5 years ago
# Strip off any indentation.
doc = re.sub(r"(?m)^\s*", "", doc)
5 years ago
# Construct a 'name' string.
name = "Class %s" % dep_cls.__name__
5 years ago
if cls != dep_cls:
name += " (base class for %s)" % cls.__name__
5 years ago
# Put it all together.
msg = "%s has been deprecated. %s" % (name, doc)
5 years ago
# Wrap it.
msg = "\n" + textwrap.fill(msg, initial_indent=" ", subsequent_indent=" ")
5 years ago
warnings.warn(msg, category=DeprecationWarning, stacklevel=2)
# Do the actual work of __new__.
return object.__new__(cls)
##########################################################################
# COUNTER, FOR UNIQUE NAMING
##########################################################################
class Counter:
"""
A counter that auto-increments each time its value is read.
"""
def __init__(self, initial_value=0):
self._value = initial_value
def get(self):
self._value += 1
return self._value
##########################################################################
# Search for files/binaries
##########################################################################
def find_file_iter(
filename,
env_vars=(),
searchpath=(),
file_names=None,
url=None,
verbose=False,
finding_dir=False,
):
"""
Search for a file to be used by nltk.
:param filename: The name or path of the file.
:param env_vars: A list of environment variable names to check.
:param file_names: A list of alternative file names to check.
:param searchpath: List of directories to search.
:param url: URL presented to user for download help.
:param verbose: Whether or not to print path when a file is found.
"""
file_names = [filename] + (file_names or [])
assert isinstance(filename, str)
assert not isinstance(file_names, str)
assert not isinstance(searchpath, str)
if isinstance(env_vars, str):
5 years ago
env_vars = env_vars.split()
yielded = False
# File exists, no magic
for alternative in file_names:
path_to_file = os.path.join(filename, alternative)
if os.path.isfile(path_to_file):
if verbose:
print("[Found %s: %s]" % (filename, path_to_file))
5 years ago
yielded = True
yield path_to_file
# Check the bare alternatives
if os.path.isfile(alternative):
if verbose:
print("[Found %s: %s]" % (filename, alternative))
5 years ago
yielded = True
yield alternative
# Check if the alternative is inside a 'file' directory
path_to_file = os.path.join(filename, "file", alternative)
5 years ago
if os.path.isfile(path_to_file):
if verbose:
print("[Found %s: %s]" % (filename, path_to_file))
5 years ago
yielded = True
yield path_to_file
# Check environment variables
for env_var in env_vars:
if env_var in os.environ:
if finding_dir: # This is to file a directory instead of file
yielded = True
yield os.environ[env_var]
for env_dir in os.environ[env_var].split(os.pathsep):
# Check if the environment variable contains a direct path to the bin
if os.path.isfile(env_dir):
if verbose:
print("[Found %s: %s]" % (filename, env_dir))
5 years ago
yielded = True
yield env_dir
# Check if the possible bin names exist inside the environment variable directories
for alternative in file_names:
path_to_file = os.path.join(env_dir, alternative)
if os.path.isfile(path_to_file):
if verbose:
print("[Found %s: %s]" % (filename, path_to_file))
5 years ago
yielded = True
yield path_to_file
# Check if the alternative is inside a 'file' directory
# path_to_file = os.path.join(env_dir, 'file', alternative)
# Check if the alternative is inside a 'bin' directory
path_to_file = os.path.join(env_dir, "bin", alternative)
5 years ago
if os.path.isfile(path_to_file):
if verbose:
print("[Found %s: %s]" % (filename, path_to_file))
5 years ago
yielded = True
yield path_to_file
# Check the path list.
for directory in searchpath:
for alternative in file_names:
path_to_file = os.path.join(directory, alternative)
if os.path.isfile(path_to_file):
yielded = True
yield path_to_file
# If we're on a POSIX system, then try using the 'which' command
# to find the file.
if os.name == "posix":
5 years ago
for alternative in file_names:
try:
p = subprocess.Popen(
["which", alternative],
5 years ago
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
)
stdout, stderr = p.communicate()
path = _decode_stdoutdata(stdout).strip()
if path.endswith(alternative) and os.path.exists(path):
if verbose:
print("[Found %s: %s]" % (filename, path))
5 years ago
yielded = True
yield path
except (KeyboardInterrupt, SystemExit, OSError):
raise
finally:
pass
if not yielded:
msg = (
"NLTK was unable to find the %s file!"
"\nUse software specific "
"configuration paramaters" % filename
)
if env_vars:
msg += " or set the %s environment variable" % env_vars[0]
msg += "."
5 years ago
if searchpath:
msg += "\n\n Searched in:"
msg += "".join("\n - %s" % d for d in searchpath)
5 years ago
if url:
msg += "\n\n For more information on %s, see:\n <%s>" % (filename, url)
div = "=" * 75
raise LookupError("\n\n%s\n%s\n%s" % (div, msg, div))
5 years ago
def find_file(
filename, env_vars=(), searchpath=(), file_names=None, url=None, verbose=False
):
return next(
find_file_iter(filename, env_vars, searchpath, file_names, url, verbose)
)
def find_dir(
filename, env_vars=(), searchpath=(), file_names=None, url=None, verbose=False
):
return next(
find_file_iter(
filename, env_vars, searchpath, file_names, url, verbose, finding_dir=True
)
)
def find_binary_iter(
name,
path_to_bin=None,
env_vars=(),
searchpath=(),
binary_names=None,
url=None,
verbose=False,
):
"""
Search for a file to be used by nltk.
:param name: The name or path of the file.
:param path_to_bin: The user-supplied binary location (deprecated)
:param env_vars: A list of environment variable names to check.
:param file_names: A list of alternative file names to check.
:param searchpath: List of directories to search.
:param url: URL presented to user for download help.
:param verbose: Whether or not to print path when a file is found.
"""
for file in find_file_iter(
path_to_bin or name, env_vars, searchpath, binary_names, url, verbose
):
yield file
def find_binary(
name,
path_to_bin=None,
env_vars=(),
searchpath=(),
binary_names=None,
url=None,
verbose=False,
):
return next(
find_binary_iter(
name, path_to_bin, env_vars, searchpath, binary_names, url, verbose
)
)
def find_jar_iter(
name_pattern,
path_to_jar=None,
env_vars=(),
searchpath=(),
url=None,
verbose=False,
is_regex=False,
):
"""
Search for a jar that is used by nltk.
:param name_pattern: The name of the jar file
:param path_to_jar: The user-supplied jar location, or None.
:param env_vars: A list of environment variable names to check
in addition to the CLASSPATH variable which is
checked by default.
:param searchpath: List of directories to search.
:param is_regex: Whether name is a regular expression.
"""
assert isinstance(name_pattern, str)
assert not isinstance(searchpath, str)
if isinstance(env_vars, str):
5 years ago
env_vars = env_vars.split()
yielded = False
# Make sure we check the CLASSPATH first
env_vars = ["CLASSPATH"] + list(env_vars)
5 years ago
# If an explicit location was given, then check it, and yield it if
# it's present; otherwise, complain.
if path_to_jar is not None:
if os.path.isfile(path_to_jar):
yielded = True
yield path_to_jar
else:
raise LookupError(
"Could not find %s jar file at %s" % (name_pattern, path_to_jar)
5 years ago
)
# Check environment variables
for env_var in env_vars:
if env_var in os.environ:
if env_var == "CLASSPATH":
classpath = os.environ["CLASSPATH"]
5 years ago
for cp in classpath.split(os.path.pathsep):
if os.path.isfile(cp):
filename = os.path.basename(cp)
if (
is_regex
and re.match(name_pattern, filename)
or (not is_regex and filename == name_pattern)
):
if verbose:
print("[Found %s: %s]" % (name_pattern, cp))
5 years ago
yielded = True
yield cp
# The case where user put directory containing the jar file in the classpath
if os.path.isdir(cp):
if not is_regex:
if os.path.isfile(os.path.join(cp, name_pattern)):
if verbose:
print("[Found %s: %s]" % (name_pattern, cp))
5 years ago
yielded = True
yield os.path.join(cp, name_pattern)
else:
# Look for file using regular expression
for file_name in os.listdir(cp):
if re.match(name_pattern, file_name):
if verbose:
print(
"[Found %s: %s]"
5 years ago
% (
name_pattern,
os.path.join(cp, file_name),
)
)
yielded = True
yield os.path.join(cp, file_name)
else:
jar_env = os.environ[env_var]
jar_iter = (
(
os.path.join(jar_env, path_to_jar)
for path_to_jar in os.listdir(jar_env)
)
if os.path.isdir(jar_env)
else (jar_env,)
)
for path_to_jar in jar_iter:
if os.path.isfile(path_to_jar):
filename = os.path.basename(path_to_jar)
if (
is_regex
and re.match(name_pattern, filename)
or (not is_regex and filename == name_pattern)
):
if verbose:
print("[Found %s: %s]" % (name_pattern, path_to_jar))
5 years ago
yielded = True
yield path_to_jar
# Check the path list.
for directory in searchpath:
if is_regex:
for filename in os.listdir(directory):
path_to_jar = os.path.join(directory, filename)
if os.path.isfile(path_to_jar):
if re.match(name_pattern, filename):
if verbose:
print("[Found %s: %s]" % (filename, path_to_jar))
5 years ago
yielded = True
yield path_to_jar
else:
path_to_jar = os.path.join(directory, name_pattern)
if os.path.isfile(path_to_jar):
if verbose:
print("[Found %s: %s]" % (name_pattern, path_to_jar))
5 years ago
yielded = True
yield path_to_jar
if not yielded:
# If nothing was found, raise an error
msg = "NLTK was unable to find %s!" % name_pattern
if env_vars:
msg += " Set the %s environment variable" % env_vars[0]
msg = textwrap.fill(msg + ".", initial_indent=" ", subsequent_indent=" ")
5 years ago
if searchpath:
msg += "\n\n Searched in:"
msg += "".join("\n - %s" % d for d in searchpath)
5 years ago
if url:
msg += "\n\n For more information, on %s, see:\n <%s>" % (
5 years ago
name_pattern,
url,
)
div = "=" * 75
raise LookupError("\n\n%s\n%s\n%s" % (div, msg, div))
5 years ago
def find_jar(
name_pattern,
path_to_jar=None,
env_vars=(),
searchpath=(),
url=None,
verbose=False,
is_regex=False,
):
return next(
find_jar_iter(
name_pattern, path_to_jar, env_vars, searchpath, url, verbose, is_regex
)
)
def find_jars_within_path(path_to_jars):
return [
os.path.join(root, filename)
for root, dirnames, filenames in os.walk(path_to_jars)
for filename in fnmatch.filter(filenames, "*.jar")
5 years ago
]
def _decode_stdoutdata(stdoutdata):
""" Convert data read from stdout/stderr to unicode """
if not isinstance(stdoutdata, bytes):
return stdoutdata
encoding = getattr(sys.__stdout__, "encoding", locale.getpreferredencoding())
if encoding is None:
return stdoutdata.decode()
return stdoutdata.decode(encoding)
##########################################################################
# Import Stdlib Module
##########################################################################
def import_from_stdlib(module):
"""
When python is run from within the nltk/ directory tree, the
current directory is included at the beginning of the search path.
Unfortunately, that means that modules within nltk can sometimes
shadow standard library modules. As an example, the stdlib
'inspect' module will attempt to import the stdlib 'tokenize'
module, but will instead end up importing NLTK's 'tokenize' module
instead (causing the import to fail).
"""
old_path = sys.path
sys.path = [d for d in sys.path if d not in ("", ".")]
5 years ago
m = __import__(module)
sys.path = old_path
return m
##########################################################################
# Wrapper for ElementTree Elements
##########################################################################
5 years ago
class ElementWrapper(object):
"""
A wrapper around ElementTree Element objects whose main purpose is
to provide nicer __repr__ and __str__ methods. In addition, any
of the wrapped Element's methods that return other Element objects
are overridden to wrap those values before returning them.
This makes Elements more convenient to work with in
interactive sessions and doctests, at the expense of some
efficiency.
"""
# Prevent double-wrapping:
def __new__(cls, etree):
"""
Create and return a wrapper around a given Element object.
If ``etree`` is an ``ElementWrapper``, then ``etree`` is
returned as-is.
"""
if isinstance(etree, ElementWrapper):
return etree
else:
return object.__new__(ElementWrapper)
def __init__(self, etree):
r"""
Initialize a new Element wrapper for ``etree``.
If ``etree`` is a string, then it will be converted to an
Element object using ``ElementTree.fromstring()`` first:
>>> ElementWrapper("<test></test>")
<Element "<?xml version='1.0' encoding='utf8'?>\n<test />">
"""
if isinstance(etree, str):
5 years ago
etree = ElementTree.fromstring(etree)
self.__dict__["_etree"] = etree
5 years ago
def unwrap(self):
"""
Return the Element object wrapped by this wrapper.
"""
return self._etree
##////////////////////////////////////////////////////////////
# { String Representation
##////////////////////////////////////////////////////////////
def __repr__(self):
s = ElementTree.tostring(self._etree, encoding="utf8").decode("utf8")
5 years ago
if len(s) > 60:
e = s.rfind("<")
5 years ago
if (len(s) - e) > 30:
e = -20
s = "%s...%s" % (s[:30], s[e:])
return "<Element %r>" % s
5 years ago
def __str__(self):
"""
:return: the result of applying ``ElementTree.tostring()`` to
the wrapped Element object.
"""
return (
ElementTree.tostring(self._etree, encoding="utf8").decode("utf8").rstrip()
5 years ago
)
##////////////////////////////////////////////////////////////
# { Element interface Delegation (pass-through)
##////////////////////////////////////////////////////////////
def __getattr__(self, attrib):
return getattr(self._etree, attrib)
def __setattr__(self, attr, value):
return setattr(self._etree, attr, value)
def __delattr__(self, attr):
return delattr(self._etree, attr)
def __setitem__(self, index, element):
self._etree[index] = element
def __delitem__(self, index):
del self._etree[index]
def __setslice__(self, start, stop, elements):
self._etree[start:stop] = elements
def __delslice__(self, start, stop):
del self._etree[start:stop]
def __len__(self):
return len(self._etree)
##////////////////////////////////////////////////////////////
# { Element interface Delegation (wrap result)
##////////////////////////////////////////////////////////////
def __getitem__(self, index):
return ElementWrapper(self._etree[index])
def __getslice__(self, start, stop):
return [ElementWrapper(elt) for elt in self._etree[start:stop]]
def getchildren(self):
return [ElementWrapper(elt) for elt in self._etree]
def getiterator(self, tag=None):
return (ElementWrapper(elt) for elt in self._etree.getiterator(tag))
def makeelement(self, tag, attrib):
return ElementWrapper(self._etree.makeelement(tag, attrib))
def find(self, path):
elt = self._etree.find(path)
if elt is None:
return elt
else:
return ElementWrapper(elt)
def findall(self, path):
return [ElementWrapper(elt) for elt in self._etree.findall(path)]
######################################################################
# Helper for Handling Slicing
######################################################################
def slice_bounds(sequence, slice_obj, allow_step=False):
"""
Given a slice, return the corresponding (start, stop) bounds,
taking into account None indices and negative indices. The
following guarantees are made for the returned start and stop values:
- 0 <= start <= len(sequence)
- 0 <= stop <= len(sequence)
- start <= stop
:raise ValueError: If ``slice_obj.step`` is not None.
:param allow_step: If true, then the slice object may have a
non-None step. If it does, then return a tuple
(start, stop, step).
"""
start, stop = (slice_obj.start, slice_obj.stop)
# If allow_step is true, then include the step in our return
# value tuple.
if allow_step:
step = slice_obj.step
if step is None:
step = 1
# Use a recursive call without allow_step to find the slice
# bounds. If step is negative, then the roles of start and
# stop (in terms of default values, etc), are swapped.
if step < 0:
start, stop = slice_bounds(sequence, slice(stop, start))
else:
start, stop = slice_bounds(sequence, slice(start, stop))
return start, stop, step
# Otherwise, make sure that no non-default step value is used.
elif slice_obj.step not in (None, 1):
raise ValueError(
"slices with steps are not supported by %s" % sequence.__class__.__name__
5 years ago
)
# Supply default offsets.
if start is None:
start = 0
if stop is None:
stop = len(sequence)
# Handle negative indices.
if start < 0:
start = max(0, len(sequence) + start)
if stop < 0:
stop = max(0, len(sequence) + stop)
# Make sure stop doesn't go past the end of the list. Note that
# we avoid calculating len(sequence) if possible, because for lazy
# sequences, calculating the length of a sequence can be expensive.
if stop > 0:
try:
sequence[stop - 1]
except IndexError:
stop = len(sequence)
# Make sure start isn't past stop.
start = min(start, stop)
# That's all folks!
return start, stop
######################################################################
# Permission Checking
######################################################################
def is_writable(path):
# Ensure that it exists.
if not os.path.exists(path):
return False
# If we're on a posix system, check its permissions.
if hasattr(os, "getuid"):
5 years ago
statdata = os.stat(path)
perm = stat.S_IMODE(statdata.st_mode)
# is it world-writable?
if perm & 0o002:
return True
# do we own it?
elif statdata.st_uid == os.getuid() and (perm & 0o200):
return True
# are we in a group that can write to it?
elif (statdata.st_gid in [os.getgid()] + os.getgroups()) and (perm & 0o020):
return True
# otherwise, we can't write to it.
else:
return False
# Otherwise, we'll assume it's writable.
# [xx] should we do other checks on other platforms?
return True
######################################################################
# NLTK Error reporting
######################################################################
def raise_unorderable_types(ordering, a, b):
raise TypeError(
"unorderable types: %s() %s %s()"
% (type(a).__name__, ordering, type(b).__name__)
)