# coding=utf-8
if __name__ == '__main__': from __init__ import init; init()
from unittest import TestCase, main
from inspect import isfunction, getargspec
import inspect
import sys
from string import ascii_lowercase
try:
from sys import intern
except:
pass
FUNC = 'func'
DIRECTION = 'direction'
DIRARG = 'dir'
DIRKEY = 9001
ANYKEY = 9002
def to_string(i):
"""convert a ord'd integer to a string"""
try:
return chr(i)
except ValueError:
return '?'
def is_ascii_digit(n):
return n >= 48 and n <= 57
class Direction(object):
"""An object with a down and right method"""
def __init__(self, down=0, right=0):
self.down = down
self.right = right
def copy(self):
new = type(self)()
new.__dict__.update(self.__dict__)
return new
def __mul__(self, other):
copy = self.copy()
if other is not None:
copy.down *= other
copy.right *= other
return copy
__rmul__ = __mul__
class CommandArgs(object):
"""The arguments which are passed to a keybinding function"""
def __init__(self, fm, widget, keybuffer):
self.fm = fm
self.wdg = widget
self.keybuffer = keybuffer
self.n = keybuffer.quant
self.direction = keybuffer.directions and keybuffer.directions[0] or None
self.directions = keybuffer.directions
self.keys = str(keybuffer)
self.matches = keybuffer.matches
self.binding = keybuffer.command
class KeyBuffer(object):
"""The evaluator and storage for pressed keys"""
def __init__(self, keymap, direction_keys):
self.keymap = keymap
self.direction_keys = direction_keys
self.clear()
def add(self, key):
if self.failure:
return None
assert isinstance(key, int)
assert key >= 0
# evaluate quantifiers
if self.eval_quantifier and self._do_eval_quantifier(key):
return
# evaluate the command
if self.eval_command and self._do_eval_command(key):
return
# evaluate (the first number of) the direction-quantifier
if self.eval_quantifier and self._do_eval_quantifier(key):
return
# evaluate direction keys {j,k,gg,pagedown,...}
if not self.eval_command:
self._do_eval_direction(key)
def _do_eval_direction(self, key):
# swap quant and direction_quant in bindings like '
'
if self.quant is not None and self.command is None \
and self.direction_quant is None:
self.direction_quant = self.quant
self.quant = None
try:
assert isinstance(self.dir_tree_pointer, dict)
self.dir_tree_pointer = self.dir_tree_pointer[key]
except KeyError:
self.failure = True
else:
if not isinstance(self.dir_tree_pointer, dict):
match = self.dir_tree_pointer
assert isinstance(match, Binding)
direction = match.actions['dir'] * self.direction_quant
self.directions.append(direction)
self.direction_quant = None
self.eval_command = True
self._try_to_finish()
def _do_eval_quantifier(self, key):
if self.eval_command:
tree = self.tree_pointer
else:
tree = self.dir_tree_pointer
if is_ascii_digit(key) and ANYKEY not in tree:
attr = self.eval_command and 'quant' or 'direction_quant'
if getattr(self, attr) is None:
setattr(self, attr, 0)
setattr(self, attr, getattr(self, attr) * 10 + key - 48)
else:
self.eval_quantifier = False
return None
return True
def _do_eval_command(self, key):
try:
assert isinstance(self.tree_pointer, dict)
self.tree_pointer = self.tree_pointer[key]
except TypeError:
print(self.tree_pointer)
self.failure = True
return None
except KeyError:
if DIRKEY in self.tree_pointer:
self.eval_command = False
self.eval_quantifier = True
self.tree_pointer = self.tree_pointer[DIRKEY]
assert isinstance(self.tree_pointer, (Binding, dict))
self.dir_tree_pointer = self.direction_keys._tree
elif ANYKEY in self.tree_pointer:
self.matches.append(key)
self.tree_pointer = self.tree_pointer[ANYKEY]
assert isinstance(self.tree_pointer, (Binding, dict))
self._try_to_finish()
else:
self.failure = True
return None
else:
self._try_to_finish()
def _try_to_finish(self):
assert isinstance(self.tree_pointer, (Binding, dict))
if not isinstance(self.tree_pointer, dict):
self.command = self.tree_pointer
self.done = True
def clear(self):
self.failure = False
self.done = False
self.quant = None
self.matches = []
self.command = None
self.direction_quant = None
self.directions = []
self.all_keys = []
self.tree_pointer = self.keymap._tree
self.dir_tree_pointer = self.direction_keys._tree
self.eval_quantifier = True
self.eval_command = True
def __str__(self):
"""returns a concatenation of all characters"""
return "".join(to_string(c) for c in self.all_keys)
def simulate_press(self, string):
for char in string:
self.add(ord(char))
if self.done:
return self.command
if self.failure:
break
key_map = {
'dir': DIRKEY,
'any': ANYKEY,
'cr': ord("\n"),
'enter': ord("\n"),
'space': ord(" "),
'space': ord(" "),
'tab': ord('\t'),
}
for char in ascii_lowercase:
key_map['c-' + char] = ord(char) - 96
def translate_keys(obj):
"""
Translate a keybinding to a sequence of integers
Example:
lol => (108, 111, 108, 10)
"""
assert isinstance(obj, (tuple, int, str))
if isinstance(obj, tuple):
for char in obj:
yield char
elif isinstance(obj, int):
yield obj
elif isinstance(obj, str):
in_brackets = False
bracket_content = None
for char in obj:
if in_brackets:
if char == '>':
in_brackets = False
string = ''.join(bracket_content).lower()
try:
yield key_map[string]
except KeyError:
yield ord('<')
for c in bracket_content:
yield ord(c)
yield ord('>')
else:
bracket_content.append(char)
else:
if char == '<':
in_brackets = True
bracket_content = []
else:
yield ord(char)
if in_brackets:
yield ord('<')
for c in bracket_content:
yield ord(c)
class Tree(object):
def __init__(self, dictionary=None, parent=None, key=None):
if dictionary is None:
self._tree = dict()
else:
self._tree = dictionary
self.key = key
self.parent = parent
def copy(self):
"""Create a deep copy"""
def deep_copy_dict(dct):
dct = dct.copy()
for key, val in dct.items():
if isinstance(val, dict):
dct[key] = deep_copy_dict(val)
return dct
newtree = Tree()
if isinstance(self._tree, dict):
newtree._tree = deep_copy_dict(self._tree)
else:
newtree._tree = self._tree
return newtree
def merge(self, other, copy=True):
"""Merge another Tree into a copy of self"""
def deep_merge(branch, otherbranch):
assert isinstance(otherbranch, dict)
if not isinstance(branch, dict):
branch = dict()
elif copy:
branch = branch.copy()
for key, val in otherbranch.items():
if isinstance(val, dict):
if key not in branch:
branch[key] = None
branch[key] = deep_merge(branch[key], val)
else:
branch[key] = val
return branch
if isinstance(self._tree, dict) and isinstance(other._tree, dict):
content = deep_merge(self._tree, other._tree)
elif copy and hasattr(other._tree, 'copy'):
content = other._tree.copy()
else:
content = other._tree
return type(self)(content)
def set(self, keys, value, force=True):
"""Sets the element at the end of the path to ."""
if not isinstance(keys, (list, tuple)):
keys = tuple(keys)
if len(keys) == 0:
self.replace(value)
else:
fnc = force and self.plow or self.traverse
subtree = fnc(keys)
subtree.replace(value)
def replace(self, value):
if self.parent:
self.parent[self.key] = value
self._tree = value
def plow(self, iterable):
"""Move along a path, creating nonexistant subtrees"""
tree = self._tree
last_tree = None
char = None
for char in iterable:
try:
newtree = tree[char]
if not isinstance(newtree, dict):
raise KeyError()
except KeyError:
newtree = dict()
tree[char] = newtree
last_tree = tree
tree = newtree
if isinstance(tree, dict):
return type(self)(tree, parent=last_tree, key=char)
else:
return tree
def traverse(self, iterable):
"""Move along a path, raising exceptions when failed"""
tree = self._tree
last_tree = tree
char = None
for char in iterable:
last_tree = tree
try:
tree = tree[char]
except TypeError:
raise KeyError("trying to enter leaf")
except KeyError:
raise KeyError(str(char) + " not in tree " + str(tree))
if isinstance(tree, dict):
return type(self)(tree, parent=last_tree, key=char)
else:
return tree
__getitem__ = traverse
class KeyMap(Tree):
"""Contains a tree with all the keybindings"""
def add(self, *args, **keywords):
if keywords:
return self.add_binding(*args, **keywords)
firstarg = args[0]
if isfunction(firstarg):
keywords[FUNC] = firstarg
return self.add_binding(*args[1:], **keywords)
def decorator_function(func):
keywords = {FUNC:func}
self.add(*args, **keywords)
return func
return decorator_function
def add_binding(self, *keys, **actions):
assert keys
bind = Binding(keys, actions)
for key in keys:
self.set(translate_keys(key), bind)
def __getitem__(self, key):
return self.traverse(translate_keys(key))
class Binding(object):
"""The keybinding object"""
def __init__(self, keys, actions):
assert hasattr(keys, '__iter__')
assert isinstance(actions, dict)
self.actions = actions
try:
self.function = self.actions[FUNC]
except KeyError:
self.function = None
self.has_direction = False
else:
argnames = getargspec(self.function)[0]
try:
self.has_direction = actions['with_direction']
except KeyError:
self.has_direction = DIRECTION in argnames
try:
self.direction = self.actions[DIRARG]
except KeyError:
self.direction = None
class PressTestCase(TestCase):
"""Some useful methods for the actual test"""
def _mkpress(self, keybuffer, keymap):
def press(keys):
keybuffer.clear()
match = keybuffer.simulate_press(keys)
self.assertFalse(keybuffer.failure,
"parsing keys '"+keys+"' did fail!")
self.assertTrue(keybuffer.done,
"parsing keys '"+keys+"' did not complete!")
arg = CommandArgs(None, None, keybuffer)
self.assert_(match.function, match.__dict__)
return match.function(arg)
return press
def assertPressFails(self, kb, keys):
kb.clear()
kb.simulate_press(keys)
self.assertTrue(kb.failure, "Keypress did not fail as expected")
kb.clear()
def assertPressIncomplete(self, kb, keys):
kb.clear()
kb.simulate_press(keys)
self.assertFalse(kb.failure, "Keypress failed, expected incomplete")
self.assertFalse(kb.done, "Keypress done which was unexpected")
kb.clear()
class Test(PressTestCase):
"""The test cases"""
def test_translate_keys(self):
def test(string, *args):
if not args:
args = (string, )
self.assertEqual(ordtuple(*args), tuple(translate_keys(string)))
def ordtuple(*args):
lst = []
for arg in args:
if isinstance(arg, str):
lst.extend(ord(c) for c in arg)
else:
lst.append(arg)
return tuple(lst)
test('k')
test('kj')
test('k', 'k', DIRKEY)
test('kz', 'k', ANYKEY, 'z', ANYKEY)
test('kz', 'k', ANYKEY, 'z', DIRKEY)
test('', "\n")
test('', "\t\t\n")
test('<')
test('>')
test('', 1)
test('', 2)
for i in range(1, 26):
test('', i)
test('k')
test('k')
test('k')
test('knz>')
test('>nz>')
def test_tree(self):
t = Tree()
t.set('abcd', "Yes")
self.assertEqual("Yes", t.traverse('abcd'))
self.assertRaises(KeyError, t.traverse, 'abcde')
self.assertRaises(KeyError, t.traverse, 'xyz')
self.assert_(isinstance(t.traverse('abc'), Tree))
t2 = Tree()
self.assertRaises(KeyError, t2.set, 'axy', "Lol", force=False)
subtree = t2.set('axy', "Lol")
self.assertEqual("Yes", t.traverse('abcd'))
self.assertRaises(KeyError, t2.traverse, 'abcd')
self.assertEqual("Lol", t2.traverse('axy'))
def test_merge_trees(self):
def makeTreeA():
t = Tree()
t.set('aaaX', 1)
t.set('aaaY', 2)
t.set('aaaZ', 3)
t.set('bbbA', 11)
t.set('bbbB', 12)
t.set('bbbC', 13)
t.set('bbbD', 14)
t.set('bP', 21)
t.set('bQ', 22)
return t
def makeTreeB():
u = Tree()
u.set('aaaX', 0)
u.set('bbbC', 'Yes')
u.set('bbbD', None)
u.set('bbbE', 15)
u.set('bbbF', 16)
u.set('bQ', 22)
u.set('bR', 23)
u.set('ffff', 1337)
return u
# test 1
t = Tree('a')
u = Tree('b')
merged = t.merge(u)
self.assertEqual('b', merged._tree)
# test 2
t = Tree('a')
u = makeTreeA()
merged = t.merge(u)
self.assertEqual(u._tree, merged._tree)
# test 3
t = makeTreeA()
u = makeTreeB()
v = t.merge(u)
self.assertEqual(0, v['aaaX'])
self.assertEqual(2, v['aaaY'])
self.assertEqual(3, v['aaaZ'])
self.assertEqual(11, v['bbbA'])
self.assertEqual('Yes', v['bbbC'])
self.assertEqual(None, v['bbbD'])
self.assertEqual(15, v['bbbE'])
self.assertEqual(16, v['bbbF'])
self.assertRaises(KeyError, t.__getitem__, 'bbbG')
self.assertEqual(21, v['bP'])
self.assertEqual(22, v['bQ'])
self.assertEqual(23, v['bR'])
self.assertEqual(1337, v['ffff'])
# merge shouldn't be destructive
self.assertEqual(makeTreeA()._tree, t._tree)
self.assertEqual(makeTreeB()._tree, u._tree)
v['fff'].replace('Lolz')
self.assertEqual('Lolz', v['fff'])
v['aaa'].replace('Very bad')
v.plow('qqqqqqq').replace('eww.')
self.assertEqual(makeTreeA()._tree, t._tree)
self.assertEqual(makeTreeB()._tree, u._tree)
def test_add(self):
c = KeyMap()
c.add(lambda *_: 'lolz', 'aa', 'b')
self.assert_(c['aa'].function(), 'lolz')
@c.add('a', 'c')
def test():
return 5
self.assert_(c['b'].function(), 'lolz')
self.assert_(c['c'].function(), 5)
self.assert_(c['a'].function(), 5)
def test_quantifier(self):
km = KeyMap()
directions = KeyMap()
kb = KeyBuffer(km, directions)
def n(value):
"""return n or value"""
def fnc(arg=None):
if arg is None or arg.n is None:
return value
return arg.n
return fnc
km.add(n(5), 'p')
press = self._mkpress(kb, km)
self.assertEqual(5, press('p'))
self.assertEqual(3, press('3p'))
self.assertEqual(6223, press('6223p'))
def test_direction(self):
km = KeyMap()
directions = KeyMap()
kb = KeyBuffer(km, directions)
directions.add('j', dir=Direction(down=1))
directions.add('k', dir=Direction(down=-1))
def nd(arg):
""" n * direction """
n = arg.n is None and 1 or arg.n
dir = arg.direction is None and Direction(down=1) \
or arg.direction
return n * dir.down
km.add(nd, 'd')
km.add('dd', func=nd, with_direction=False)
press = self._mkpress(kb, km)
self.assertPressIncomplete(kb, 'd')
self.assertEqual( 1, press('dj'))
self.assertEqual( 3, press('3ddj'))
self.assertEqual( 15, press('3d5j'))
self.assertEqual(-15, press('3d5k'))
# supporting this kind of key combination would be too confusing:
# self.assertEqual( 15, press('3d5d'))
self.assertEqual( 3, press('3dd'))
self.assertEqual( 33, press('33dd'))
self.assertEqual( 1, press('dd'))
km.add(nd, 'x')
km.add('xxxx', func=nd, with_direction=False)
self.assertEqual(1, press('xxxxj'))
self.assertEqual(1, press('xxxxjsomeinvalitchars'))
# these combinations should break:
self.assertPressFails(kb, 'xxxj')
self.assertPressFails(kb, 'xxj')
self.assertPressFails(kb, 'xxkldfjalksdjklsfsldkj')
self.assertPressFails(kb, 'xyj')
self.assertPressIncomplete(kb, 'x') # direction missing
def test_any_key(self):
km = KeyMap()
directions = KeyMap()
kb = KeyBuffer(km, directions)
directions.add('j', dir=Direction(down=1))
directions.add('k', dir=Direction(down=-1))
directions.add('g', dir=Direction(down=-1))
def cat(arg):
n = arg.n is None and 1 or arg.n
return ''.join(chr(c) for c in arg.matches) * n
km.add(cat, 'return')
km.add(cat, 'cat4')
km.add(cat, 'foo')
press = self._mkpress(kb, km)
self.assertEqual('x', press('returnx'))
self.assertEqual('abcd', press('cat4abcd'))
self.assertEqual('abcdabcd', press('2cat4abcd'))
self.assertEqual('55555', press('5return5'))
self.assertEqual('x', press('foojx'))
self.assertPressFails(kb, 'fooggx') # ANYKEY forbidden in DIRECTION
km.add(lambda _: Ellipsis, '')
self.assertEqual('x', press('returnx'))
self.assertEqual('abcd', press('cat4abcd'))
self.assertEqual(Ellipsis, press('2cat4abcd'))
self.assertEqual(Ellipsis, press('5return5'))
self.assertEqual(Ellipsis, press('g'))
self.assertEqual(Ellipsis, press('ß'))
self.assertEqual(Ellipsis, press('ア'))
self.assertEqual(Ellipsis, press('9'))
def test_multiple_directions(self):
km = KeyMap()
directions = KeyMap()
kb = KeyBuffer(km, directions)
directions.add('j', dir=Direction(down=1))
directions.add('k', dir=Direction(down=-1))
def add_dirs(arg):
n = 0
for dir in arg.directions:
n += dir.down
return n
km.add(add_dirs, 'xy')
km.add(add_dirs, 'four')
press = self._mkpress(kb, km)
self.assertEqual(2, press('xjyj'))
self.assertEqual(0, press('fourjkkj'))
self.assertEqual(2, press('four2j4k2j2j'))
self.assertEqual(10, press('four1j2j3j4j'))
self.assertEqual(10, press('four1j2j3j4jafslkdfjkldj'))
def test_corruptions(self):
km = KeyMap()
directions = KeyMap()
kb = KeyBuffer(km, directions)
press = self._mkpress(kb, km)
directions.add('j', dir=Direction(down=1))
directions.add('k', dir=Direction(down=-1))
km.add('xxx', func=lambda _: 1)
self.assertEqual(1, press('xxx'))
# corrupt the tree
tup = tuple(translate_keys('xxx'))
x = ord('x')
km._tree[x][x][x] = "Boo"
self.assertPressFails(kb, 'xxy')
self.assertPressFails(kb, 'xzy')
self.assertPressIncomplete(kb, 'xx')
self.assertPressIncomplete(kb, 'x')
if not sys.flags.optimize:
self.assertRaises(AssertionError, kb.simulate_press, 'xxx')
kb.clear()
def test_directions_as_functions(self):
km = KeyMap()
directions = KeyMap()
kb = KeyBuffer(km, directions)
press = self._mkpress(kb, km)
def move(arg):
return arg.direction.down
directions.add('j', dir=Direction(down=1))
directions.add('k', dir=Direction(down=-1))
km.add('', func=move)
self.assertEqual(1, press('j'))
self.assertEqual(-1, press('k'))
km.add('k', func=lambda _: 'love')
self.assertEqual(1, press('j'))
self.assertEqual('love', press('k'))
self.assertEqual(40, press('40j'))
km.add('', func=move)
self.assertEqual(40, press('40jkhl'))
def test_tree_deep_copy(self):
t = Tree()
s = t.plow('abcd')
s.replace('X')
u = t.copy()
self.assertEqual(t._tree, u._tree)
s = t.traverse('abc')
s.replace('Y')
self.assertNotEqual(t._tree, u._tree)
if __name__ == '__main__': main()