ea6f4ef442
Merge remote-tracking branch 'kif/master' into develop Conflicts: pyqtgraph/pgcollections.py
478 lines
15 KiB
Python
478 lines
15 KiB
Python
# -*- coding: utf-8 -*-
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"""
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advancedTypes.py - Basic data structures not included with python
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Copyright 2010 Luke Campagnola
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Distributed under MIT/X11 license. See license.txt for more infomation.
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Includes:
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- OrderedDict - Dictionary which preserves the order of its elements
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- BiDict, ReverseDict - Bi-directional dictionaries
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- ThreadsafeDict, ThreadsafeList - Self-mutexed data structures
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"""
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import threading, sys, copy, collections
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#from debug import *
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try:
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from collections import OrderedDict
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except ImportError:
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# fallback: try to use the ordereddict backport when using python 2.6
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from ordereddict import OrderedDict
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class ReverseDict(dict):
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"""extends dict so that reverse lookups are possible by requesting the key as a list of length 1:
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d = BiDict({'x': 1, 'y': 2})
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d['x']
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1
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d[[2]]
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'y'
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"""
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def __init__(self, data=None):
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if data is None:
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data = {}
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self.reverse = {}
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for k in data:
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self.reverse[data[k]] = k
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dict.__init__(self, data)
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def __getitem__(self, item):
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if type(item) is list:
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return self.reverse[item[0]]
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else:
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return dict.__getitem__(self, item)
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def __setitem__(self, item, value):
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self.reverse[value] = item
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dict.__setitem__(self, item, value)
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def __deepcopy__(self, memo):
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raise Exception("deepcopy not implemented")
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class BiDict(dict):
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"""extends dict so that reverse lookups are possible by adding each reverse combination to the dict.
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This only works if all values and keys are unique."""
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def __init__(self, data=None):
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if data is None:
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data = {}
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dict.__init__(self)
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for k in data:
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self[data[k]] = k
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def __setitem__(self, item, value):
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dict.__setitem__(self, item, value)
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dict.__setitem__(self, value, item)
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def __deepcopy__(self, memo):
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raise Exception("deepcopy not implemented")
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class ThreadsafeDict(dict):
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"""Extends dict so that getitem, setitem, and contains are all thread-safe.
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Also adds lock/unlock functions for extended exclusive operations
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Converts all sub-dicts and lists to threadsafe as well.
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"""
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def __init__(self, *args, **kwargs):
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self.mutex = threading.RLock()
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dict.__init__(self, *args, **kwargs)
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for k in self:
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if type(self[k]) is dict:
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self[k] = ThreadsafeDict(self[k])
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def __getitem__(self, attr):
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self.lock()
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try:
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val = dict.__getitem__(self, attr)
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finally:
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self.unlock()
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return val
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def __setitem__(self, attr, val):
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if type(val) is dict:
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val = ThreadsafeDict(val)
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self.lock()
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try:
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dict.__setitem__(self, attr, val)
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finally:
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self.unlock()
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def __contains__(self, attr):
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self.lock()
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try:
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val = dict.__contains__(self, attr)
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finally:
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self.unlock()
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return val
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def __len__(self):
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self.lock()
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try:
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val = dict.__len__(self)
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finally:
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self.unlock()
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return val
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def clear(self):
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self.lock()
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try:
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dict.clear(self)
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finally:
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self.unlock()
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def lock(self):
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self.mutex.acquire()
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def unlock(self):
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self.mutex.release()
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def __deepcopy__(self, memo):
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raise Exception("deepcopy not implemented")
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class ThreadsafeList(list):
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"""Extends list so that getitem, setitem, and contains are all thread-safe.
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Also adds lock/unlock functions for extended exclusive operations
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Converts all sub-lists and dicts to threadsafe as well.
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"""
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def __init__(self, *args, **kwargs):
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self.mutex = threading.RLock()
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list.__init__(self, *args, **kwargs)
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for k in self:
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self[k] = mkThreadsafe(self[k])
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def __getitem__(self, attr):
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self.lock()
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try:
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val = list.__getitem__(self, attr)
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finally:
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self.unlock()
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return val
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def __setitem__(self, attr, val):
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val = makeThreadsafe(val)
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self.lock()
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try:
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list.__setitem__(self, attr, val)
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finally:
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self.unlock()
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def __contains__(self, attr):
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self.lock()
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try:
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val = list.__contains__(self, attr)
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finally:
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self.unlock()
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return val
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def __len__(self):
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self.lock()
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try:
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val = list.__len__(self)
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finally:
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self.unlock()
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return val
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def lock(self):
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self.mutex.acquire()
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def unlock(self):
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self.mutex.release()
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def __deepcopy__(self, memo):
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raise Exception("deepcopy not implemented")
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def makeThreadsafe(obj):
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if type(obj) is dict:
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return ThreadsafeDict(obj)
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elif type(obj) is list:
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return ThreadsafeList(obj)
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elif type(obj) in [str, int, float, bool, tuple]:
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return obj
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else:
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raise Exception("Not sure how to make object of type %s thread-safe" % str(type(obj)))
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class Locker(object):
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def __init__(self, lock):
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self.lock = lock
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self.lock.acquire()
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def __del__(self):
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try:
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self.lock.release()
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except:
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pass
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class CaselessDict(OrderedDict):
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"""Case-insensitive dict. Values can be set and retrieved using keys of any case.
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Note that when iterating, the original case is returned for each key."""
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def __init__(self, *args):
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OrderedDict.__init__(self, {}) ## requirement for the empty {} here seems to be a python bug?
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self.keyMap = OrderedDict([(k.lower(), k) for k in OrderedDict.keys(self)])
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if len(args) == 0:
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return
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elif len(args) == 1 and isinstance(args[0], dict):
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for k in args[0]:
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self[k] = args[0][k]
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else:
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raise Exception("CaselessDict may only be instantiated with a single dict.")
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#def keys(self):
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#return self.keyMap.values()
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def __setitem__(self, key, val):
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kl = key.lower()
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if kl in self.keyMap:
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OrderedDict.__setitem__(self, self.keyMap[kl], val)
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else:
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OrderedDict.__setitem__(self, key, val)
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self.keyMap[kl] = key
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def __getitem__(self, key):
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kl = key.lower()
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if kl not in self.keyMap:
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raise KeyError(key)
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return OrderedDict.__getitem__(self, self.keyMap[kl])
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def __contains__(self, key):
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return key.lower() in self.keyMap
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def update(self, d):
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for k, v in d.iteritems():
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self[k] = v
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def copy(self):
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return CaselessDict(OrderedDict.copy(self))
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def __delitem__(self, key):
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kl = key.lower()
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if kl not in self.keyMap:
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raise KeyError(key)
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OrderedDict.__delitem__(self, self.keyMap[kl])
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del self.keyMap[kl]
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def __deepcopy__(self, memo):
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raise Exception("deepcopy not implemented")
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def clear(self):
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OrderedDict.clear(self)
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self.keyMap.clear()
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class ProtectedDict(dict):
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"""
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A class allowing read-only 'view' of a dict.
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The object can be treated like a normal dict, but will never modify the original dict it points to.
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Any values accessed from the dict will also be read-only.
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"""
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def __init__(self, data):
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self._data_ = data
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## List of methods to directly wrap from _data_
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wrapMethods = ['_cmp_', '__contains__', '__eq__', '__format__', '__ge__', '__gt__', '__le__', '__len__', '__lt__', '__ne__', '__reduce__', '__reduce_ex__', '__repr__', '__str__', 'count', 'has_key', 'iterkeys', 'keys', ]
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## List of methods which wrap from _data_ but return protected results
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protectMethods = ['__getitem__', '__iter__', 'get', 'items', 'values']
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## List of methods to disable
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disableMethods = ['__delitem__', '__setitem__', 'clear', 'pop', 'popitem', 'setdefault', 'update']
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## Template methods
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def wrapMethod(methodName):
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return lambda self, *a, **k: getattr(self._data_, methodName)(*a, **k)
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def protectMethod(methodName):
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return lambda self, *a, **k: protect(getattr(self._data_, methodName)(*a, **k))
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def error(self, *args, **kargs):
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raise Exception("Can not modify read-only list.")
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## Directly (and explicitly) wrap some methods from _data_
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## Many of these methods can not be intercepted using __getattribute__, so they
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## must be implemented explicitly
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for methodName in wrapMethods:
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locals()[methodName] = wrapMethod(methodName)
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## Wrap some methods from _data_ with the results converted to protected objects
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for methodName in protectMethods:
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locals()[methodName] = protectMethod(methodName)
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## Disable any methods that could change data in the list
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for methodName in disableMethods:
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locals()[methodName] = error
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## Add a few extra methods.
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def copy(self):
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raise Exception("It is not safe to copy protected dicts! (instead try deepcopy, but be careful.)")
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def itervalues(self):
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for v in self._data_.itervalues():
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yield protect(v)
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def iteritems(self):
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for k, v in self._data_.iteritems():
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yield (k, protect(v))
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def deepcopy(self):
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return copy.deepcopy(self._data_)
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def __deepcopy__(self, memo):
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return copy.deepcopy(self._data_, memo)
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class ProtectedList(collections.Sequence):
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"""
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A class allowing read-only 'view' of a list or dict.
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The object can be treated like a normal list, but will never modify the original list it points to.
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Any values accessed from the list will also be read-only.
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Note: It would be nice if we could inherit from list or tuple so that isinstance checks would work.
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However, doing this causes tuple(obj) to return unprotected results (importantly, this means
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unpacking into function arguments will also fail)
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"""
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def __init__(self, data):
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self._data_ = data
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#self.__mro__ = (ProtectedList, object)
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## List of methods to directly wrap from _data_
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wrapMethods = ['__contains__', '__eq__', '__format__', '__ge__', '__gt__', '__le__', '__len__', '__lt__', '__ne__', '__reduce__', '__reduce_ex__', '__repr__', '__str__', 'count', 'index']
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## List of methods which wrap from _data_ but return protected results
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protectMethods = ['__getitem__', '__getslice__', '__mul__', '__reversed__', '__rmul__']
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## List of methods to disable
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disableMethods = ['__delitem__', '__delslice__', '__iadd__', '__imul__', '__setitem__', '__setslice__', 'append', 'extend', 'insert', 'pop', 'remove', 'reverse', 'sort']
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## Template methods
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def wrapMethod(methodName):
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return lambda self, *a, **k: getattr(self._data_, methodName)(*a, **k)
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def protectMethod(methodName):
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return lambda self, *a, **k: protect(getattr(self._data_, methodName)(*a, **k))
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def error(self, *args, **kargs):
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raise Exception("Can not modify read-only list.")
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## Directly (and explicitly) wrap some methods from _data_
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## Many of these methods can not be intercepted using __getattribute__, so they
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## must be implemented explicitly
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for methodName in wrapMethods:
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locals()[methodName] = wrapMethod(methodName)
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## Wrap some methods from _data_ with the results converted to protected objects
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for methodName in protectMethods:
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locals()[methodName] = protectMethod(methodName)
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## Disable any methods that could change data in the list
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for methodName in disableMethods:
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locals()[methodName] = error
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## Add a few extra methods.
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def __iter__(self):
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for item in self._data_:
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yield protect(item)
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def __add__(self, op):
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if isinstance(op, ProtectedList):
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return protect(self._data_.__add__(op._data_))
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elif isinstance(op, list):
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return protect(self._data_.__add__(op))
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else:
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raise TypeError("Argument must be a list.")
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def __radd__(self, op):
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if isinstance(op, ProtectedList):
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return protect(op._data_.__add__(self._data_))
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elif isinstance(op, list):
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return protect(op.__add__(self._data_))
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else:
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raise TypeError("Argument must be a list.")
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def deepcopy(self):
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return copy.deepcopy(self._data_)
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def __deepcopy__(self, memo):
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return copy.deepcopy(self._data_, memo)
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def poop(self):
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raise Exception("This is a list. It does not poop.")
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class ProtectedTuple(collections.Sequence):
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"""
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A class allowing read-only 'view' of a tuple.
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The object can be treated like a normal tuple, but its contents will be returned as protected objects.
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Note: It would be nice if we could inherit from list or tuple so that isinstance checks would work.
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However, doing this causes tuple(obj) to return unprotected results (importantly, this means
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unpacking into function arguments will also fail)
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"""
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def __init__(self, data):
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self._data_ = data
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## List of methods to directly wrap from _data_
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wrapMethods = ['__contains__', '__eq__', '__format__', '__ge__', '__getnewargs__', '__gt__', '__hash__', '__le__', '__len__', '__lt__', '__ne__', '__reduce__', '__reduce_ex__', '__repr__', '__str__', 'count', 'index']
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## List of methods which wrap from _data_ but return protected results
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protectMethods = ['__getitem__', '__getslice__', '__iter__', '__add__', '__mul__', '__reversed__', '__rmul__']
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## Template methods
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def wrapMethod(methodName):
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return lambda self, *a, **k: getattr(self._data_, methodName)(*a, **k)
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def protectMethod(methodName):
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return lambda self, *a, **k: protect(getattr(self._data_, methodName)(*a, **k))
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## Directly (and explicitly) wrap some methods from _data_
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## Many of these methods can not be intercepted using __getattribute__, so they
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## must be implemented explicitly
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for methodName in wrapMethods:
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locals()[methodName] = wrapMethod(methodName)
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## Wrap some methods from _data_ with the results converted to protected objects
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for methodName in protectMethods:
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locals()[methodName] = protectMethod(methodName)
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## Add a few extra methods.
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def deepcopy(self):
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return copy.deepcopy(self._data_)
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def __deepcopy__(self, memo):
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return copy.deepcopy(self._data_, memo)
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def protect(obj):
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if isinstance(obj, dict):
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return ProtectedDict(obj)
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elif isinstance(obj, list):
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return ProtectedList(obj)
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elif isinstance(obj, tuple):
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return ProtectedTuple(obj)
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else:
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return obj
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if __name__ == '__main__':
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d = {'x': 1, 'y': [1,2], 'z': ({'a': 2, 'b': [3,4], 'c': (5,6)}, 1, 2)}
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dp = protect(d)
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l = [1, 'x', ['a', 'b'], ('c', 'd'), {'x': 1, 'y': 2}]
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lp = protect(l)
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t = (1, 'x', ['a', 'b'], ('c', 'd'), {'x': 1, 'y': 2})
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tp = protect(t)
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