kuroko/modules/collections.krk
2021-01-11 14:08:05 +09:00

201 lines
6.0 KiB
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class defaultdict(dict):
def __init__(self, default_factory=None, *args, **kwargs):
super().__init__(*args,**kwargs)
self.default_factory = default_factory
def __missing__(self, key):
if not self.default_factory: raise KeyError(key)
let result = self.default_factory()
self.__set__(key, result)
return result
def __get__(self, key):
if key not in self:
return self.__missing__(key)
return super().__get__(key)
class deque():
def __init__(self, iterable=None, maxlen=None):
self._head = None
self._tail = None
self._size = 0
self.__inrepr = False
self.maxlen = maxlen
if iterable:
for i in iterable:
self.append(i)
def __len__(self):
return self._size
def append(self, item):
if not self._head:
let ref = [None, item, None]
self._head = ref
self._tail = ref
else:
let ref = [self._tail, item, None]
self._tail[2] = ref
self._tail = ref
if self._size == self.maxlen:
self.popleft()
return
self._size += 1
def appendleft(self, item):
if not self._head:
let ref = [None, item, None]
self._head = ref
self._tail = ref
else:
let ref = [None, item, self._head]
self._head[0] = ref
self._head = ref
if self._size == self.maxlen:
self.pop()
return
self._size += 1
def count(self, x):
let counter = 0
let ptr = self._head
while ptr != None:
if ptr[1] == x: counter++
ptr = ptr[2]
return counter
def extend(self, iterable):
for i in iterable:
self.append(i)
def extendleft(self, iterable):
for i in iterable:
self.appendleft(i)
def index(self, x, start=None, stop=None):
let i = 0
let ptr = self._head
while ptr != None:
if ptr[1] == x and (start == None or i >= start) and (stop == None or i < stop):
return i
i++
ptr = ptr[2]
raise ValueError("value not found")
def insert(self, i, x):
if self._size == self.maxlen:
raise IndexError('attempt to grow bounded deque beyond bound')
let c = 0
let ptr = self._head
while ptr != None:
if c == i:
let l = ptr[0]
let r = ptr[2]
if l == None:
return self.extendleft(x)
else if r == None:
return self.extend(x)
let ref = [l, x, r]
l[2] = ref
r[0] = ref
self._size += 1
return
i++
raise IndexError("invalid insertion index")
def pop(self):
if not self._tail:
raise IndexError("pop from empty deque")
let item = self._tail[1]
self._tail = self._tail[0]
self._size--
if self._tail:
self._tail[2] = None
return item
def popleft(self):
if not self._head:
raise IndexError("pop from empty deque")
let item = self._head[1]
self._head = self._head[2]
self._size--
if self._head:
self._head[0] = None
return item
def remove(self, value):
let ptr = self._head
while ptr:
if ptr[1] == value:
if ptr == self._head:
self._head = self._head[2]
if self._head:
self._head[0] = None
else if ptr == self._tail:
self._tail = self._tail[0]
if self._tail:
self._tail[2] = None
else:
let l = ptr[0]
let r = ptr[2]
if l: l[2] = r
if r: r[0] = l
return
raise ValueError("value not found")
def rotate(self, n=1):
if n == 0 or self._size == 0: return
if n > 0:
while n > 0:
self.appendleft(self.pop())
n--
while n < 0:
self.append(self.popleft())
n++
def reverse(self):
if not self._head: return None
let ptr = self._head
self._head = self._tail
self._tail = ptr
while ptr:
let l = ptr[0]
let r = ptr[2]
ptr[2] = l
ptr[0] = r
ptr = r
return None
def __repr__(self):
if self.__inrepr: return 'deque(...)'
self.__inrepr = True
let out = 'deque(['
let ptr = self._head
while ptr:
out += repr(ptr[1])
ptr = ptr[2]
if ptr:
out += ', '
out += '])'
self.__inrepr = False
return out
def __str__(self):
return repr(self)
def __iter__(self):
let s = self._head
def _():
if not s: return _
let out = s[1]
s = s[2]
return out
return _
def __get__(self, index):
if index >= self._size or index < -self._size: raise IndexError("Invalid index")
if index == 0: return self._head[1]
if index > 0:
let ptr = self._head
while ptr:
if index == 0: return ptr[1]
index--
ptr = ptr[2]
else:
index = -(index + 1)
let ptr = self._tail
while ptr:
if index == 0: return ptr[1]
index--
ptr = ptr[0]
raise IndexError("This probably shouldn't happen?")
def __contains__(self, value):
if not self._head: return False
let ptr = self._head
while ptr:
if ptr[1] == value: return True
ptr = ptr[2]
return False