/usr/lib/python3/dist-packages/bpython/autocomplete.py is in bpython3 0.16-2.
This file is owned by root:root, with mode 0o644.
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# The MIT License
#
# Copyright (c) 2009-2015 the bpython authors.
#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to deal
# in the Software without restriction, including without limitation the rights
# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
# copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in
# all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
# THE SOFTWARE.
#
from __future__ import unicode_literals
import __main__
import abc
import glob
import keyword
import logging
import os
import re
import rlcompleter
import sys
from six.moves import range, builtins
from six import string_types, iteritems
from bpython import inspection
from bpython import importcompletion
from bpython import line as lineparts
from bpython.line import LinePart
from bpython._py3compat import py3, try_decode
from bpython.lazyre import LazyReCompile
from bpython.simpleeval import (safe_eval, evaluate_current_expression,
EvaluationError)
if not py3:
from types import InstanceType, ClassType
# Autocomplete modes
SIMPLE = 'simple'
SUBSTRING = 'substring'
FUZZY = 'fuzzy'
ALL_MODES = (SIMPLE, SUBSTRING, FUZZY)
MAGIC_METHODS = tuple("__%s__" % s for s in (
"init", "repr", "str", "lt", "le", "eq", "ne", "gt", "ge", "cmp", "hash",
"nonzero", "unicode", "getattr", "setattr", "get", "set", "call", "len",
"getitem", "setitem", "iter", "reversed", "contains", "add", "sub", "mul",
"floordiv", "mod", "divmod", "pow", "lshift", "rshift", "and", "xor", "or",
"div", "truediv", "neg", "pos", "abs", "invert", "complex", "int", "float",
"oct", "hex", "index", "coerce", "enter", "exit"))
if py3:
KEYWORDS = frozenset(keyword.kwlist)
else:
KEYWORDS = frozenset(name.decode('ascii') for name in keyword.kwlist)
def after_last_dot(name):
return name.rstrip('.').rsplit('.')[-1]
def few_enough_underscores(current, match):
"""Returns whether match should be shown based on current
if current is _, True if match starts with 0 or 1 underscore
if current is __, True regardless of match
otherwise True if match does not start with any underscore
"""
if current.startswith('__'):
return True
elif current.startswith('_') and not match.startswith('__'):
return True
elif match.startswith('_'):
return False
else:
return True
def method_match_simple(word, size, text):
return word[:size] == text
def method_match_substring(word, size, text):
return text in word
def method_match_fuzzy(word, size, text):
s = r'.*%s.*' % '.*'.join(list(text))
return re.search(s, word)
MODES_MAP = {
SIMPLE: method_match_simple,
SUBSTRING: method_match_substring,
FUZZY: method_match_fuzzy
}
class BaseCompletionType(object):
"""Describes different completion types"""
def __init__(self, shown_before_tab=True, mode=SIMPLE):
self._shown_before_tab = shown_before_tab
self.method_match = MODES_MAP[mode]
def matches(self, cursor_offset, line, **kwargs):
"""Returns a list of possible matches given a line and cursor, or None
if this completion type isn't applicable.
ie, import completion doesn't make sense if there cursor isn't after
an import or from statement, so it ought to return None.
Completion types are used to:
* `locate(cur, line)` their initial target word to replace given a
line and cursor
* find `matches(cur, line)` that might replace that word
* `format(match)` matches to be displayed to the user
* determine whether suggestions should be `shown_before_tab`
* `substitute(cur, line, match)` in a match for what's found with
`target`
"""
raise NotImplementedError
def locate(self, cursor_offset, line):
"""Returns a Linepart namedtuple instance or None given cursor and line
A Linepart namedtuple contains a start, stop, and word. None is
returned if no target for this type of completion is found under
the cursor."""
raise NotImplementedError
def format(self, word):
return word
def substitute(self, cursor_offset, line, match):
"""Returns a cursor offset and line with match swapped in"""
lpart = self.locate(cursor_offset, line)
offset = lpart.start + len(match)
changed_line = line[:lpart.start] + match + line[lpart.end:]
return offset, changed_line
@property
def shown_before_tab(self):
"""Whether suggestions should be shown before the user hits tab, or only
once that has happened."""
return self._shown_before_tab
class CumulativeCompleter(BaseCompletionType):
"""Returns combined matches from several completers"""
def __init__(self, completers, mode=SIMPLE):
if not completers:
raise ValueError(
"CumulativeCompleter requires at least one completer")
self._completers = completers
super(CumulativeCompleter, self).__init__(True, mode)
def locate(self, current_offset, line):
return self._completers[0].locate(current_offset, line)
def format(self, word):
return self._completers[0].format(word)
def matches(self, cursor_offset, line, **kwargs):
return_value = None
all_matches = set()
for completer in self._completers:
matches = completer.matches(cursor_offset=cursor_offset,
line=line,
**kwargs)
if matches is not None:
all_matches.update(matches)
return_value = all_matches
return return_value
class ImportCompletion(BaseCompletionType):
def matches(self, cursor_offset, line, **kwargs):
return importcompletion.complete(cursor_offset, line)
def locate(self, current_offset, line):
return lineparts.current_word(current_offset, line)
def format(self, word):
return after_last_dot(word)
class FilenameCompletion(BaseCompletionType):
def __init__(self, mode=SIMPLE):
super(FilenameCompletion, self).__init__(False, mode)
if sys.version_info[:2] >= (3, 4):
def safe_glob(self, pathname):
return glob.iglob(glob.escape(pathname) + '*')
else:
def safe_glob(self, pathname):
try:
return glob.glob(pathname + '*')
except re.error:
# see #491
return tuple()
def matches(self, cursor_offset, line, **kwargs):
cs = lineparts.current_string(cursor_offset, line)
if cs is None:
return None
matches = set()
username = cs.word.split(os.path.sep, 1)[0]
user_dir = os.path.expanduser(username)
for filename in self.safe_glob(os.path.expanduser(cs.word)):
if os.path.isdir(filename):
filename += os.path.sep
if cs.word.startswith('~'):
filename = username + filename[len(user_dir):]
matches.add(filename)
return matches
def locate(self, current_offset, line):
return lineparts.current_string(current_offset, line)
def format(self, filename):
filename.rstrip(os.sep).rsplit(os.sep)[-1]
if os.sep in filename[:-1]:
return filename[filename.rindex(os.sep, 0, -1) + 1:]
else:
return filename
class AttrCompletion(BaseCompletionType):
attr_matches_re = LazyReCompile(r"(\w+(\.\w+)*)\.(\w*)")
def matches(self, cursor_offset, line, **kwargs):
if 'locals_' not in kwargs:
return None
locals_ = kwargs['locals_']
r = self.locate(cursor_offset, line)
if r is None:
return None
if locals_ is None: # TODO add a note about why
locals_ = __main__.__dict__
assert '.' in r.word
for i in range(1, len(r.word) + 1):
if r.word[-i] == '[':
i -= 1
break
methodtext = r.word[-i:]
matches = set(''.join([r.word[:-i], m])
for m in self.attr_matches(methodtext, locals_))
return set(m for m in matches
if few_enough_underscores(r.word.split('.')[-1],
m.split('.')[-1]))
def locate(self, current_offset, line):
return lineparts.current_dotted_attribute(current_offset, line)
def format(self, word):
return after_last_dot(word)
def attr_matches(self, text, namespace):
"""Taken from rlcompleter.py and bent to my will.
"""
# Gna, Py 2.6's rlcompleter searches for __call__ inside the
# instance instead of the type, so we monkeypatch to prevent
# side-effects (__getattr__/__getattribute__)
m = self.attr_matches_re.match(text)
if not m:
return []
expr, attr = m.group(1, 3)
if expr.isdigit():
# Special case: float literal, using attrs here will result in
# a SyntaxError
return []
try:
obj = safe_eval(expr, namespace)
except EvaluationError:
return []
with inspection.AttrCleaner(obj):
matches = self.attr_lookup(obj, expr, attr)
return matches
def attr_lookup(self, obj, expr, attr):
"""Second half of original attr_matches method factored out so it can
be wrapped in a safe try/finally block in case anything bad happens to
restore the original __getattribute__ method."""
words = self.list_attributes(obj)
if hasattr(obj, '__class__'):
words.append('__class__')
words = words + rlcompleter.get_class_members(obj.__class__)
if not isinstance(obj.__class__, abc.ABCMeta):
try:
words.remove('__abstractmethods__')
except ValueError:
pass
if not py3 and isinstance(obj, (InstanceType, ClassType)):
# Account for the __dict__ in an old-style class.
words.append('__dict__')
matches = []
n = len(attr)
for word in words:
if self.method_match(word, n, attr) and word != "__builtins__":
matches.append("%s.%s" % (expr, word))
return matches
if py3:
def list_attributes(self, obj):
return dir(obj)
else:
def list_attributes(self, obj):
if isinstance(obj, InstanceType):
try:
return dir(obj)
except Exception:
# This is a case where we can not prevent user code from
# running. We return a default list attributes on error
# instead. (#536)
return ['__doc__', '__module__']
else:
return dir(obj)
class DictKeyCompletion(BaseCompletionType):
def matches(self, cursor_offset, line, **kwargs):
if 'locals_' not in kwargs:
return None
locals_ = kwargs['locals_']
r = self.locate(cursor_offset, line)
if r is None:
return None
_, _, dexpr = lineparts.current_dict(cursor_offset, line)
try:
obj = safe_eval(dexpr, locals_)
except EvaluationError:
return None
if isinstance(obj, dict) and obj.keys():
matches = set("{0!r}]".format(k) for k in obj.keys()
if repr(k).startswith(r.word))
return matches if matches else None
else:
return None
def locate(self, current_offset, line):
return lineparts.current_dict_key(current_offset, line)
def format(self, match):
return match[:-1]
class MagicMethodCompletion(BaseCompletionType):
def matches(self, cursor_offset, line, **kwargs):
if 'current_block' not in kwargs:
return None
current_block = kwargs['current_block']
r = self.locate(cursor_offset, line)
if r is None:
return None
if 'class' not in current_block:
return None
return set(name for name in MAGIC_METHODS if name.startswith(r.word))
def locate(self, current_offset, line):
return lineparts.current_method_definition_name(current_offset, line)
class GlobalCompletion(BaseCompletionType):
def matches(self, cursor_offset, line, **kwargs):
"""Compute matches when text is a simple name.
Return a list of all keywords, built-in functions and names currently
defined in self.namespace that match.
"""
if 'locals_' not in kwargs:
return None
locals_ = kwargs['locals_']
r = self.locate(cursor_offset, line)
if r is None:
return None
matches = set()
n = len(r.word)
for word in KEYWORDS:
if self.method_match(word, n, r.word):
matches.add(word)
for nspace in (builtins.__dict__, locals_):
for word, val in iteritems(nspace):
word = try_decode(word, 'ascii')
# if identifier isn't ascii, don't complete (syntax error)
if word is None:
continue
if (self.method_match(word, n, r.word) and
word != "__builtins__"):
matches.add(_callable_postfix(val, word))
return matches if matches else None
def locate(self, current_offset, line):
return lineparts.current_single_word(current_offset, line)
class ParameterNameCompletion(BaseCompletionType):
def matches(self, cursor_offset, line, **kwargs):
if 'argspec' not in kwargs:
return None
argspec = kwargs['argspec']
if not argspec:
return None
r = self.locate(cursor_offset, line)
if r is None:
return None
if argspec:
matches = set(name + '=' for name in argspec[1][0]
if isinstance(name, string_types) and
name.startswith(r.word))
if py3:
matches.update(name + '=' for name in argspec[1][4]
if name.startswith(r.word))
return matches if matches else None
def locate(self, current_offset, line):
return lineparts.current_word(current_offset, line)
class ExpressionAttributeCompletion(AttrCompletion):
# could replace attr completion as a more general case with some work
def locate(self, current_offset, line):
return lineparts.current_expression_attribute(current_offset, line)
def matches(self, cursor_offset, line, **kwargs):
if 'locals_' not in kwargs:
return None
locals_ = kwargs['locals_']
if locals_ is None:
locals_ = __main__.__dict__
attr = self.locate(cursor_offset, line)
try:
obj = evaluate_current_expression(cursor_offset, line, locals_)
except EvaluationError:
return set()
with inspection.AttrCleaner(obj):
# strips leading dot
matches = [m[1:] for m in self.attr_lookup(obj, '', attr.word)]
return set(m for m in matches if few_enough_underscores(attr.word, m))
try:
import jedi
except ImportError:
class MultilineJediCompletion(BaseCompletionType):
def matches(self, cursor_offset, line, **kwargs):
return None
else:
class JediCompletion(BaseCompletionType):
def matches(self, cursor_offset, line, **kwargs):
if 'history' not in kwargs:
return None
history = kwargs['history']
if not lineparts.current_word(cursor_offset, line):
return None
history = '\n'.join(history) + '\n' + line
try:
script = jedi.Script(history, len(history.splitlines()),
cursor_offset, 'fake.py')
completions = script.completions()
except (jedi.NotFoundError, IndexError, KeyError):
# IndexError for #483
# KeyError for #544
self._orig_start = None
return None
if completions:
diff = len(completions[0].name) - len(completions[0].complete)
self._orig_start = cursor_offset - diff
else:
self._orig_start = None
return None
first_letter = line[self._orig_start:self._orig_start + 1]
matches = [c.name for c in completions]
if any(not m.lower().startswith(matches[0][0].lower())
for m in matches):
# Too general - giving completions starting with multiple
# letters
return None
else:
# case-sensitive matches only
return set(m for m in matches if m.startswith(first_letter))
def locate(self, cursor_offset, line):
start = self._orig_start
end = cursor_offset
return LinePart(start, end, line[start:end])
class MultilineJediCompletion(JediCompletion):
def matches(self, cursor_offset, line, **kwargs):
if 'current_block' not in kwargs or 'history' not in kwargs:
return None
current_block = kwargs['current_block']
history = kwargs['history']
if '\n' in current_block:
assert cursor_offset <= len(line), "%r %r" % (cursor_offset,
line)
results = super(MultilineJediCompletion,
self).matches(cursor_offset, line,
history=history)
return results
else:
return None
def get_completer(completers, cursor_offset, line, **kwargs):
"""Returns a list of matches and an applicable completer
If no matches available, returns a tuple of an empty list and None
cursor_offset is the current cursor column
line is a string of the current line
kwargs (all optional):
locals_ is a dictionary of the environment
argspec is an inspect.ArgSpec instance for the current function where
the cursor is
current_block is the possibly multiline not-yet-evaluated block of
code which the current line is part of
complete_magic_methods is a bool of whether we ought to complete
double underscore methods like __len__ in method signatures
"""
for completer in completers:
try:
matches = completer.matches(cursor_offset, line, **kwargs)
except Exception as e:
# Instead of crashing the UI, log exceptions from autocompleters.
logger = logging.getLogger(__name__)
logger.debug(
'Completer {} failed with unhandled exception: {}'.format(
completer, e))
continue
if matches is not None:
return sorted(matches), (completer if matches else None)
return [], None
def get_default_completer(mode=SIMPLE):
return (
DictKeyCompletion(mode=mode),
ImportCompletion(mode=mode),
FilenameCompletion(mode=mode),
MagicMethodCompletion(mode=mode),
MultilineJediCompletion(mode=mode),
CumulativeCompleter((GlobalCompletion(mode=mode),
ParameterNameCompletion(mode=mode)),
mode=mode),
AttrCompletion(mode=mode),
ExpressionAttributeCompletion(mode=mode),
)
def get_completer_bpython(cursor_offset, line, **kwargs):
""""""
return get_completer(get_default_completer(),
cursor_offset, line, **kwargs)
def _callable_postfix(value, word):
"""rlcompleter's _callable_postfix done right."""
with inspection.AttrCleaner(value):
if inspection.is_callable(value):
word += '('
return word
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