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wting_autojump/bin/autojump
William Ting 681068a2bc Don't check path existence when displaying tab completion menu.
The check is to avoided since tab menu paths may be on slow IO devices (network
mounts, low power devices, etc).

Closes #258.
2014-01-28 23:55:15 -06:00

411 lines
13 KiB
Python
Executable File

#!/usr/bin/env python
# -*- coding: utf-8 -*-
"""
Copyright © 2008-2012 Joel Schaerer
Copyright © 2012-2014 William Ting
* This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
* This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
* You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
"""
from __future__ import print_function
from difflib import SequenceMatcher
from itertools import chain
from math import sqrt
from operator import attrgetter
from operator import itemgetter
import os
import re
import sys
if sys.version_info[0] == 3:
ifilter = filter
imap = map
os.getcwdu = os.getcwd
else:
from itertools import ifilter
from itertools import imap
from autojump_argparse import ArgumentParser
from autojump_data import dictify
from autojump_data import entriefy
from autojump_data import Entry
from autojump_data import load
from autojump_data import save
from autojump_utils import first
from autojump_utils import get_tab_entry_info
from autojump_utils import get_pwd
from autojump_utils import has_uppercase
from autojump_utils import is_osx
from autojump_utils import is_windows
from autojump_utils import last
from autojump_utils import print_entry
from autojump_utils import print_local
from autojump_utils import print_tab_menu
from autojump_utils import sanitize
from autojump_utils import take
from autojump_utils import unico
VERSION = '22.0.0-alpha'
FUZZY_MATCH_THRESHOLD = 0.6
TAB_ENTRIES_COUNT = 9
TAB_SEPARATOR = '__'
def set_defaults():
config = {}
if is_osx():
data_home = os.path.join(
os.path.expanduser('~'),
'Library',
'autojump')
elif is_windows():
data_home = os.path.join(
os.getenv('APPDATA'),
'autojump')
else:
data_home = os.getenv(
'XDG_DATA_HOME',
os.path.join(
os.path.expanduser('~'),
'.local',
'share',
'autojump'))
config['data_path'] = os.path.join(data_home, 'autojump.txt')
config['backup_path'] = os.path.join(data_home, 'autojump.txt.bak')
config['tmp_path'] = os.path.join(data_home, 'data.tmp')
return config
def parse_arguments():
parser = ArgumentParser(
description='Automatically jump to directory passed as an \
argument.',
epilog="Please see autojump(1) man pages for full documentation.")
parser.add_argument(
'directory', metavar='DIRECTORY', nargs='*', default='',
help='directory to jump to')
parser.add_argument(
'-a', '--add', metavar='DIRECTORY',
help='add path')
parser.add_argument(
'-i', '--increase', metavar='WEIGHT', nargs='?', type=int,
const=10, default=False,
help='increase current directory weight')
parser.add_argument(
'-d', '--decrease', metavar='WEIGHT', nargs='?', type=int,
const=15, default=False,
help='decrease current directory weight')
parser.add_argument(
'--complete', action="store_true", default=False,
help='used for tab completion')
parser.add_argument(
'--purge', action="store_true", default=False,
help='remove non-existent paths from database')
parser.add_argument(
'-s', '--stat', action="store_true", default=False,
help='show database entries and their key weights')
parser.add_argument(
'-v', '--version', action="version", version="%(prog)s v" +
VERSION, help='show version information')
return parser.parse_args()
def add_path(data, path, weight=10):
"""
Add a new path or increment an existing one.
os.path.realpath() is not used because it's preferable to use symlinks
with resulting duplicate entries in the database than a single canonical
path.
"""
path = unico(path).rstrip(os.sep)
if path == os.path.expanduser('~'):
return data, Entry(path, 0)
data[path] = sqrt((data.get(path, 0) ** 2) + (weight ** 2))
return data, Entry(path, data[path])
def decrease_path(data, path, weight=15):
"""Decrease or zero out a path."""
path = unico(path).rstrip(os.sep)
data[path] = max(0, data.get(path, 0) - weight)
return data, Entry(path, data[path])
def detect_smartcase(needles):
"""
If any needles contain an uppercase letter then use case sensitive
searching. Otherwise use case insensitive searching.
"""
return not any(imap(has_uppercase, needles))
def find_matches(entries, needles, check_entries=True):
"""Return an iterator to matching entries."""
ignore_case = detect_smartcase(needles)
try:
pwd = os.getcwdu()
except OSError:
pwd = None
# using closure and comparing vs string to prevent constantly hitting hdd
def not_cwd(entry):
return entry.path != pwd
if check_entries:
exists = lambda entry: os.path.exists(entry.path)
else:
exists = lambda _: True
data = sorted(
entries,
key=attrgetter('weight'),
reverse=True)
return ifilter(
not_cwd,
ifilter(
exists,
chain(
match_consecutive(needles, data, ignore_case),
match_fuzzy(needles, data, ignore_case),
match_anywhere(needles, data, ignore_case),
# default return value so calling shell functions have an
# argument to `cd` to
[Entry('.', 0)])))
def handle_tab_completion(needle, entries):
if not needle:
sys.exit(0)
tab_needle, tab_index, tab_path = get_tab_entry_info(needle, TAB_SEPARATOR)
if tab_path:
print_local(tab_path)
elif tab_index:
get_ith_path = lambda i, iterable: last(take(i, iterable)).path
print_local(get_ith_path(
tab_index,
find_matches(entries, tab_needle, check_entries=False)))
elif tab_needle:
# found partial tab completion entry
print_tab_menu(
tab_needle,
take(TAB_ENTRIES_COUNT, find_matches(
entries,
tab_needle,
check_entries=False)),
TAB_SEPARATOR)
else:
print_tab_menu(
needle,
take(TAB_ENTRIES_COUNT, find_matches(
entries,
needle,
check_entries=False)),
TAB_SEPARATOR)
def match_anywhere(needles, haystack, ignore_case=False):
"""
Matches needles anywhere in the path as long as they're in the same (but
not necessary consecutive) order.
For example:
needles = ['foo', 'baz']
regex needle = r'.*foo.*baz.*'
haystack = [
(path="/foo/bar/baz", weight=10),
(path="/baz/foo/bar", weight=10),
(path="/foo/baz", weight=10)]
result = [
(path="/moo/foo/baz", weight=10),
(path="/foo/baz", weight=10)]
"""
regex_needle = '.*' + '.*'.join(needles) + '.*'
regex_flags = re.IGNORECASE | re.UNICODE if ignore_case else re.UNICODE
found = lambda haystack: re.search(
regex_needle,
haystack.path,
flags=regex_flags)
return ifilter(found, haystack)
def match_consecutive(needles, haystack, ignore_case=False):
"""
Matches consecutive needles at the end of a path.
For example:
needles = ['foo', 'baz']
haystack = [
(path="/foo/bar/baz", weight=10),
(path="/foo/baz/moo", weight=10),
(path="/moo/foo/baz", weight=10),
(path="/foo/baz", weight=10)]
regex_needle = re.compile(r'''
foo # needle #1
[^/]* # all characters except os.sep zero or more times
/ # os.sep
[^/]* # all characters except os.sep zero or more times
baz # needle #2
[^/]* # all characters except os.sep zero or more times
$ # end of string
''')
result = [
(path="/moo/foo/baz", weight=10),
(path="/foo/baz", weight=10)]
"""
if is_windows():
# The normal \\ separator needs to be escaped again for use in regex.
sep = '\\\\'
else:
sep = os.sep
regex_no_sep = '[^' + sep + ']*'
regex_no_sep_end = regex_no_sep + '$'
regex_one_sep = regex_no_sep + sep + regex_no_sep
# can't use compiled regex because of flags
regex_needle = regex_one_sep.join(needles) + regex_no_sep_end
regex_flags = re.IGNORECASE | re.UNICODE if ignore_case else re.UNICODE
found = lambda entry: re.search(
regex_needle,
entry.path,
flags=regex_flags)
return ifilter(found, haystack)
def match_fuzzy(needles, haystack, ignore_case=False):
"""
Performs an approximate match with the last needle against the end of
every path past an acceptable threshold (FUZZY_MATCH_THRESHOLD).
For example:
needles = ['foo', 'bar']
haystack = [
(path="/foo/bar/baz", weight=11),
(path="/foo/baz/moo", weight=10),
(path="/moo/foo/baz", weight=10),
(path="/foo/baz", weight=10),
(path="/foo/bar", weight=10)]
result = [
(path="/foo/bar/baz", weight=11),
(path="/moo/foo/baz", weight=10),
(path="/foo/baz", weight=10),
(path="/foo/bar", weight=10)]
This is a weak heuristic and used as a last resort to find matches.
"""
end_dir = lambda path: last(os.path.split(path))
if ignore_case:
needle = last(needles).lower()
match_percent = lambda entry: SequenceMatcher(
a=needle,
b=end_dir(entry.path.lower())).ratio()
else:
needle = last(needles)
match_percent = lambda entry: SequenceMatcher(
a=needle,
b=end_dir(entry.path)).ratio()
meets_threshold = lambda entry: match_percent(entry) >= \
FUZZY_MATCH_THRESHOLD
return ifilter(meets_threshold, haystack)
def purge_missing_paths(entries):
"""Remove non-existent paths from a list of entries."""
exists = lambda entry: os.path.exists(entry.path)
return ifilter(exists, entries)
def print_stats(data, data_path):
for path, weight in sorted(data.items(), key=itemgetter(1)):
print_entry(Entry(path, weight))
print("________________________________________\n")
print("%d:\t total weight" % sum(data.values()))
print("%d:\t number of entries" % len(data))
try:
print_local(
"%.2f:\t current directory weight" % data.get(os.getcwdu(), 0))
except OSError:
# current directory no longer exists
pass
print("\ndata:\t %s" % data_path)
def main(args): # noqa
config = set_defaults()
# all arguments are mutually exclusive
if args.add:
save(config, first(add_path(load(config), args.add)))
elif args.complete:
handle_tab_completion(
needle=first(sanitize(args.directory)),
entries=entriefy(load(config)))
elif args.decrease:
data, entry = decrease_path(load(config), get_pwd(), args.decrease)
save(config, data)
print_entry(entry)
elif args.increase:
data, entry = add_path(load(config), get_pwd(), args.increase)
save(config, data)
print_entry(entry)
elif args.purge:
old_data = load(config)
new_data = dictify(purge_missing_paths(entriefy(old_data)))
save(config, new_data)
print("Purged %d entries." % (len(old_data) - len(new_data)))
elif args.stat:
print_stats(load(config), config['data_path'])
elif not args.directory:
# default return value so calling shell functions have an argument
# to `cd` to
print_local('.')
else:
entries = entriefy(load(config))
needles = sanitize(args.directory)
tab_needle, tab_index, tab_path = \
get_tab_entry_info(first(needles), TAB_SEPARATOR)
if tab_path:
print_local(tab_path)
elif tab_index:
get_ith_path = lambda i, iterable: last(take(i, iterable)).path
print_local(
get_ith_path(tab_index, find_matches(entries, tab_needle)))
else:
print_local(first(find_matches(entries, needles)).path)
return 0
if __name__ == "__main__":
sys.exit(main(parse_arguments()))