# util.py # Copyright (C) 2005,2006 Michael Bayer mike_mp@zzzcomputing.com # # This module is part of SQLAlchemy and is released under # the MIT License: http://www.opensource.org/licenses/mit-license.php import thread, threading, weakref, UserList, time, string, inspect, sys, sets from exceptions import * import __builtin__ try: Set = set except: Set = sets.Set def to_list(x): if x is None: return None if not isinstance(x, list) and not isinstance(x, tuple): return [x] else: return x def to_set(x): if x is None: return Set() if not isinstance(x, Set): return Set(to_list(x)) else: return x def reversed(seq): try: return __builtin__.reversed(seq) except: def rev(): i = len(seq) -1 while i >= 0: yield seq[i] i -= 1 raise StopIteration() return rev() class SimpleProperty(object): """a "default" property accessor.""" def __init__(self, key): self.key = key def __set__(self, obj, value): setattr(obj, self.key, value) def __delete__(self, obj): delattr(obj, self.key) def __get__(self, obj, owner): if obj is None: return self else: return getattr(obj, self.key) class Logger(object): """defines various forms of logging""" def __init__(self, logger=None, usethreads=False, usetimestamp=True, origin=None): self.logger = logger or sys.stdout self.usethreads = usethreads self.usetimestamp = usetimestamp self.origin = origin def write(self, msg): if self.usetimestamp: t = time.time() ms = (t - long(t)) * 1000 timestamp = time.strftime("%Y-%m-%d %H:%M:%S", time.localtime(t)) timestamp = "[%s,%03d]" % (timestamp, ms) else: timestamp = None if self.origin: origin = "[%s]" % self.origin origin = "%-8s" % origin else: origin = None if self.usethreads: threadname = threading.currentThread().getName() threadname = "[" + threadname + ' '*(8-len(threadname)) + "]" else: threadname = None self.logger.write(string.join([s for s in (timestamp, threadname, origin) if s is not None]) + ": " + msg + "\n") class OrderedProperties(object): """ An object that maintains the order in which attributes are set upon it. also provides an iterator and a very basic getitem/setitem interface to those attributes. (Not really a dict, since it iterates over values, not keys. Not really a list, either, since each value must have a key associated; hence there is no append or extend.) """ def __init__(self): self.__dict__['_list'] = [] def __len__(self): return len(self._list) def keys(self): return list(self._list) def get(self, key, default): return getattr(self, key, default) def has_key(self, key): return hasattr(self, key) def __iter__(self): return iter([self[x] for x in self._list]) def __setitem__(self, key, object): setattr(self, key, object) def __getitem__(self, key): try: return getattr(self, key) except AttributeError: raise KeyError(key) def __delitem__(self, key): delattr(self, key) del self._list[self._list.index(key)] def __setattr__(self, key, object): if not hasattr(self, key): self._list.append(key) self.__dict__[key] = object def clear(self): self.__dict__.clear() self.__dict__['_list'] = [] class OrderedDict(dict): """A Dictionary that keeps its own internal ordering""" def __init__(self, values = None): self._list = [] if values is not None: for val in values: self.update(val) def keys(self): return list(self._list) def clear(self): self._list = [] dict.clear(self) def update(self, dict): for key in dict.keys(): self.__setitem__(key, dict[key]) def setdefault(self, key, value): if not self.has_key(key): self.__setitem__(key, value) return value else: return self.__getitem__(key) def values(self): return map(lambda key: self[key], self._list) def __iter__(self): return iter(self._list) def itervalues(self): return iter([self[key] for key in self._list]) def iterkeys(self): return self.__iter__() def iteritems(self): return iter([(key, self[key]) for key in self.keys()]) def __delitem__(self, key): try: del self._list[self._list.index(key)] except ValueError: raise KeyError(key) dict.__delitem__(self, key) def __setitem__(self, key, object): if not self.has_key(key): self._list.append(key) dict.__setitem__(self, key, object) def __getitem__(self, key): return dict.__getitem__(self, key) class ThreadLocal(object): """an object in which attribute access occurs only within the context of the current thread""" def __init__(self): self.__dict__['_tdict'] = {} def __delattr__(self, key): try: del self._tdict["%d_%s" % (thread.get_ident(), key)] except KeyError: raise AttributeError(key) def __getattr__(self, key): try: return self._tdict["%d_%s" % (thread.get_ident(), key)] except KeyError: raise AttributeError(key) def __setattr__(self, key, value): self._tdict["%d_%s" % (thread.get_ident(), key)] = value class DictDecorator(dict): """a Dictionary that delegates items not found to a second wrapped dictionary.""" def __init__(self, decorate): self.decorate = decorate def __getitem__(self, key): try: return dict.__getitem__(self, key) except KeyError: return self.decorate[key] def __repr__(self): return dict.__repr__(self) + repr(self.decorate) class OrderedSet(sets.Set): def __init__(self, iterable=None): """Construct a set from an optional iterable.""" self._data = OrderedDict() if iterable is not None: self._update(iterable) class HistoryArraySet(UserList.UserList): """extends a UserList to provide unique-set functionality as well as history-aware functionality, including information about what list elements were modified and commit/rollback capability. When a HistoryArraySet is created with or without initial data, it is in a "committed" state. as soon as changes are made to the list via the normal list-based access, it tracks "added" and "deleted" items, which remain until the history is committed or rolled back.""" def __init__(self, data = None, readonly=False): # stores the array's items as keys, and a value of True, False or None indicating # added, deleted, or unchanged for that item self.records = OrderedDict() if data is not None: self.data = data for item in data: # add items without triggering any change events # *ASSUME* the list is unique already. might want to change this. self.records[item] = None else: self.data = [] self.readonly=readonly def __iter__(self): return iter(self.data) def __getattr__(self, attr): """proxies unknown HistoryArraySet methods and attributes to the underlying data array. this allows custom list classes to be used.""" return getattr(self.data, attr) def set_data(self, data): """sets the data for this HistoryArraySet to be that of the given data. duplicates in the incoming list will be removed.""" # first mark everything current as "deleted" for item in self.data: self.records[item] = False self.do_value_deleted(item) # switch array self.data = data # TODO: fix this up, remove items from array while iterating for i in range(0, len(self.data)): if not self.__setrecord(self.data[i], False): del self.data[i] i -= 1 for item in self.data: self.do_value_appended(item) def history_contains(self, obj): """returns true if the given object exists within the history for this HistoryArrayList.""" return self.records.has_key(obj) def __hash__(self): return id(self) def do_value_appended(self, value): pass def do_value_deleted(self, value): pass def __setrecord(self, item, dochanged=True): try: val = self.records[item] if val is True or val is None: return False else: self.records[item] = None if dochanged: self.do_value_appended(item) return True except KeyError: self.records[item] = True if dochanged: self.do_value_appended(item) return True def __delrecord(self, item, dochanged=True): try: val = self.records[item] if val is None: self.records[item] = False if dochanged: self.do_value_deleted(item) return True elif val is True: del self.records[item] if dochanged: self.do_value_deleted(item) return True return False except KeyError: return False def commit(self): """commits the added values in this list to be the new "unchanged" values. values that have been marked as deleted are removed from the history.""" for key in self.records.keys(): value = self.records[key] if value is False: del self.records[key] else: self.records[key] = None def rollback(self): """rolls back changes to this list to the last "committed" state.""" # TODO: speed this up list = [] for key, status in self.records.iteritems(): if status is False or status is None: list.append(key) self._clear_data() self.records = {} for l in list: self.append_nohistory(l) def clear(self): """clears the list and removes all history.""" self._clear_data() self.records = {} def _clear_data(self): if isinstance(self.data, dict): self.data.clear() else: self.data[:] = [] def added_items(self): """returns a list of items that have been added since the last "committed" state.""" return [key for key in self.data if self.records[key] is True] def deleted_items(self): """returns a list of items that have been deleted since the last "committed" state.""" return [key for key, value in self.records.iteritems() if value is False] def unchanged_items(self): """returns a list of items that have not been changed since the last "committed" state.""" return [key for key in self.data if self.records[key] is None] def append_nohistory(self, item): """appends an item to the list without affecting the "history".""" if not self.records.has_key(item): self.records[item] = None self.data.append(item) def remove_nohistory(self, item): """removes an item from the list without affecting the "history".""" if self.records.has_key(item): del self.records[item] self.data.remove(item) def has_item(self, item): return self.records.has_key(item) and self.records[item] is not False def __setitem__(self, i, item): if self.__setrecord(item): self.data[i] = item def __delitem__(self, i): self.__delrecord(self.data[i]) del self.data[i] def __setslice__(self, i, j, other): print "HAS SETSLICE" i = max(i, 0); j = max(j, 0) if isinstance(other, UserList.UserList): l = other.data elif isinstance(other, type(self.data)): l = other else: l = list(other) [self.__delrecord(x) for x in self.data[i:]] g = [a for a in l if self.__setrecord(a)] self.data[i:] = g def __delslice__(self, i, j): i = max(i, 0); j = max(j, 0) for a in self.data[i:j]: self.__delrecord(a) del self.data[i:j] def append(self, item): if self.__setrecord(item): self.data.append(item) def insert(self, i, item): if self.__setrecord(item): self.data.insert(i, item) def pop(self, i=-1): item = self.data[i] if self.__delrecord(item): return self.data.pop(i) def remove(self, item): if self.__delrecord(item): self.data.remove(item) def extend(self, item_list): for item in item_list: self.append(item) def __add__(self, other): raise NotImplementedError() def __radd__(self, other): raise NotImplementedError() def __iadd__(self, other): raise NotImplementedError() class ScopedRegistry(object): """a Registry that can store one or multiple instances of a single class on a per-thread scoped basis, or on a customized scope createfunc - a callable that returns a new object to be placed in the registry scopefunc - a callable that will return a key to store/retrieve an object, defaults to thread.get_ident for thread-local objects. use a value like lambda: True for application scope. """ def __init__(self, createfunc, scopefunc=None): self.createfunc = createfunc if scopefunc is None: self.scopefunc = thread.get_ident else: self.scopefunc = scopefunc self.registry = {} def __call__(self): key = self._get_key() try: return self.registry[key] except KeyError: return self.registry.setdefault(key, self.createfunc()) def set(self, obj): self.registry[self._get_key()] = obj def clear(self): try: del self.registry[self._get_key()] except KeyError: pass def _get_key(self): return self.scopefunc() def constructor_args(instance, **kwargs): """given an object instance and keyword arguments, inspects the argument signature of the instance's __init__ method and returns a tuple of list and keyword arguments, suitable for creating a new instance of the class. The returned arguments are drawn from the given keyword dictionary, or if not found are drawn from the corresponding attributes of the original instance.""" classobj = instance.__class__ argspec = inspect.getargspec(classobj.__init__.im_func) argnames = argspec[0] or [] defaultvalues = argspec[3] or [] (requiredargs, namedargs) = ( argnames[0:len(argnames) - len(defaultvalues)], argnames[len(argnames) - len(defaultvalues):] ) newparams = {} for arg in requiredargs: if arg == 'self': continue elif kwargs.has_key(arg): newparams[arg] = kwargs[arg] else: newparams[arg] = getattr(instance, arg) for arg in namedargs: if kwargs.has_key(arg): newparams[arg] = kwargs[arg] else: if hasattr(instance, arg): newparams[arg] = getattr(instance, arg) else: raise AssertionError("instance has no attribute '%s'" % arg) return newparams