### # Copyright (c) 2002-2004, Jeremiah Fincher # All rights reserved. # # Redistribution and use in source and binary forms, with or without # modification, are permitted provided that the following conditions are met: # # * Redistributions of source code must retain the above copyright notice, # this list of conditions, and the following disclaimer. # * Redistributions in binary form must reproduce the above copyright notice, # this list of conditions, and the following disclaimer in the # documentation and/or other materials provided with the distribution. # * Neither the name of the author of this software nor the name of # contributors to this software may be used to endorse or promote products # derived from this software without specific prior written consent. # # THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" # AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE # IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE # ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE # LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR # CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF # SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS # INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN # CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) # ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE # POSSIBILITY OF SUCH DAMAGE. ### """ Data structures for Python. """ __revision__ = "$Id$" import supybot.fix as fix import time import types from itertools import imap, ilen class RingBuffer(object): """Class to represent a fixed-size ring buffer.""" __slots__ = ('L', 'i', 'full', 'maxSize') def __init__(self, maxSize, seq=()): if maxSize <= 0: raise ValueError, 'maxSize must be > 0.' self.maxSize = maxSize self.reset() for elt in seq: self.append(elt) def reset(self): self.full = False self.L = [] self.i = 0 def resize(self, i): if self.full: L = list(self) self.reset() self.L = L self.maxSize = i def __len__(self): return len(self.L) def __eq__(self, other): if self.__class__ == other.__class__ and \ self.maxSize == other.maxSize and len(self) == len(other): iterator = iter(other) for elt in self: otherelt = iterator.next() if not elt == otherelt: return False return True return False def __nonzero__(self): return len(self) > 0 def __contains__(self, elt): return elt in self.L def append(self, elt): if self.full: self.L[self.i] = elt self.i += 1 self.i %= len(self.L) elif len(self) == self.maxSize: self.full = True self.append(elt) else: self.L.append(elt) def extend(self, seq): for elt in seq: self.append(elt) def __getitem__(self, idx): if self.full: oidx = idx if type(oidx) == types.SliceType: L = [] for i in xrange(*slice.indices(oidx, len(self))): L.append(self[i]) return L else: (m, idx) = divmod(oidx, len(self.L)) if m and m != -1: raise IndexError, oidx idx = (idx + self.i) % len(self.L) return self.L[idx] else: if type(idx) == types.SliceType: L = [] for i in xrange(*slice.indices(idx, len(self))): L.append(self[i]) return L else: return self.L[idx] def __setitem__(self, idx, elt): if self.full: oidx = idx if type(oidx) == types.SliceType: range = xrange(*slice.indices(oidx, len(self))) if len(range) != len(elt): raise ValueError, 'seq must be the same length as slice.' else: for (i, x) in zip(range, elt): self[i] = x else: (m, idx) = divmod(oidx, len(self.L)) if m and m != -1: raise IndexError, oidx idx = (idx + self.i) % len(self.L) self.L[idx] = elt else: if type(idx) == types.SliceType: range = xrange(*slice.indices(idx, len(self))) if len(range) != len(elt): raise ValueError, 'seq must be the same length as slice.' else: for (i, x) in zip(range, elt): self[i] = x else: self.L[idx] = elt def __repr__(self): return 'RingBuffer(%r, %r)' % (self.maxSize, list(self)) def __getstate__(self): return (self.maxSize, self.full, self.i, self.L) def __setstate__(self, (maxSize, full, i, L)): self.maxSize = maxSize self.full = full self.i = i self.L = L class queue(object): """Queue class for handling large queues. Queues smaller than 1,000 or so elements are probably better served by the smallqueue class. """ __slots__ = ('front', 'back') def __init__(self, seq=()): self.back = [] self.front = [] for elt in seq: self.enqueue(elt) def reset(self): self.back[:] = [] self.front[:] = [] def enqueue(self, elt): self.back.append(elt) def dequeue(self): try: return self.front.pop() except IndexError: self.back.reverse() self.front = self.back self.back = [] return self.front.pop() def peek(self): if self.front: return self.front[-1] else: return self.back[0] def __len__(self): return len(self.front) + len(self.back) def __nonzero__(self): return bool(self.back or self.front) def __contains__(self, elt): return elt in self.front or elt in self.back def __iter__(self): for elt in reversed(self.front): yield elt for elt in self.back: yield elt def __eq__(self, other): if len(self) == len(other): otheriter = iter(other) for elt in self: otherelt = otheriter.next() if not (elt == otherelt): return False return True else: return False def __repr__(self): return 'queue([%s])' % ', '.join(imap(repr, self)) def __getitem__(self, oidx): if len(self) == 0: raise IndexError, 'queue index out of range' if type(oidx) == types.SliceType: L = [] for i in xrange(*slice.indices(oidx, len(self))): L.append(self[i]) return L else: (m, idx) = divmod(oidx, len(self)) if m and m != -1: raise IndexError, oidx if len(self.front) > idx: return self.front[-(idx+1)] else: return self.back[(idx-len(self.front))] def __setitem__(self, oidx, value): if len(self) == 0: raise IndexError, 'queue index out of range' if type(oidx) == types.SliceType: range = xrange(*slice.indices(oidx, len(self))) if len(range) != len(value): raise ValueError, 'seq must be the same length as slice.' else: for i in range: (m, idx) = divmod(oidx, len(self)) if m and m != -1: raise IndexError, oidx for (i, x) in zip(range, value): self[i] = x else: (m, idx) = divmod(oidx, len(self)) if m and m != -1: raise IndexError, oidx if len(self.front) > idx: self.front[-(idx+1)] = value else: self.back[idx-len(self.front)] = value def __delitem__(self, oidx): if type(oidx) == types.SliceType: range = xrange(*slice.indices(oidx, len(self))) for i in range: del self[i] else: (m, idx) = divmod(oidx, len(self)) if m and m != -1: raise IndexError, oidx if len(self.front) > idx: del self.front[-(idx+1)] else: del self.back[idx-len(self.front)] def __getstate__(self): return (list(self),) def __setstate__(self, (L,)): L.reverse() self.front = L self.back = [] class smallqueue(list): __slots__ = () def enqueue(self, elt): self.append(elt) def dequeue(self): return self.pop(0) def peek(self): return self[0] def __repr__(self): return 'smallqueue([%s])' % ', '.join(imap(repr, self)) def reset(self): self[:] = [] class TimeoutQueue(object): def __init__(self, timeout, queue=None): if queue is None: queue = smallqueue() self.queue = queue self.timeout = timeout def __repr__(self): return '%s(timeout=%r, queue=%r)' % (self.__class__.__name__, self.timeout, self.queue) def _getTimeout(self): if callable(self.timeout): return self.timeout() else: return self.timeout def _clearOldElements(self): now = time.time() while now - self.queue.peek()[0] > self._getTimeout(): self.queue.dequeue() def setTimeout(self, i): self.timeout = i def enqueue(self, elt, at=None): if at is None: at = time.time() self.queue.enqueue((at, elt)) def dequeue(self): self._clearOldElements() return self.queue.dequeue()[1] def __iter__(self): # We could _clearOldElements here, but what happens if someone stores # the resulting generator and elements that should've timed out are # yielded? Hmm? What happens then, smarty-pants? for (t, elt) in self.queue: if time.time() - t < self._getTimeout(): yield elt def __len__(self): return ilen(self) class MaxLengthQueue(queue): __slots__ = ('length',) def __init__(self, length, seq=()): self.length = length queue.__init__(self, seq) def __getstate__(self): return (self.length, queue.__getstate__(self)) def __setstate__(self, (length, q)): self.length = length queue.__setstate__(self, q) def enqueue(self, elt): queue.enqueue(self, elt) if len(self) > self.length: self.dequeue() class TwoWayDictionary(dict): __slots__ = () def __init__(self, seq=(), **kwargs): if hasattr(seq, 'iteritems'): seq = seq.iteritems() elif hasattr(seq, 'items'): seq = seq.items() for (key, value) in seq: self[key] = value self[value] = key for (key, value) in kwargs.iteritems(): self[key] = value self[value] = key def __setitem__(self, key, value): dict.__setitem__(self, key, value) dict.__setitem__(self, value, key) def __delitem__(self, key): value = self[key] dict.__delitem__(self, key) dict.__delitem__(self, value) # vim:set shiftwidth=4 tabstop=8 expandtab textwidth=78: