/usr/lib/python2.7/dist-packages/myghtyutils/util.py is in python-myghtyutils 0.52-5.
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The actual contents of the file can be viewed below.
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# util.py - utility functions for Myghty
# Copyright (C) 2004, 2005 Michael Bayer mike_mp@zzzcomputing.com
#
# This module is part of Myghty and is released under
# the MIT License: http://www.opensource.org/licenses/mit-license.php
#
__all__ = ["OrderedDict", "ThreadLocal", "Value", "InheritedDict", "ConstructorClone", "Registry", "WeakValuedRegistry", "SyncDict", "LRUCache", "argdict", "EncodedPath", "pid", "thread_id", "verify_directory", "PrefixArgs", "module"]
try:
import thread as _thread
import threading as _threading
except ImportError:
import dummy_thread as _thread
import dummy_threading as _threading
import weakref, inspect, sha, string, os, UserDict, copy, sys, imp, re, stat, types, time
def thread_id():
return _thread.get_ident()
def pid():
return os.getpid()
def verify_directory(dir):
"""verifies and creates a directory. tries to
ignore collisions with other threads and processes."""
tries = 0
while not os.access(dir, os.F_OK):
try:
tries += 1
os.makedirs(dir, 0750)
except:
if tries > 5:
raise
def module(name):
"""imports a module, in the ordinary way, by string name"""
mod = __import__(name)
components = name.split('.')
for comp in components[1:]:
mod = getattr(mod, comp)
return mod
class argdict(dict):
"""supports the argument constructor form of dict which doesnt seem to
be present in python 2.2"""
def __init__(self, **params):
dict.__init__(self)
self.update(params)
class Value:
"""allows pass-by-reference operations"""
def __init__(self, value = None): self.value = value
def __call__(self, *arg):
if len(arg):
self.assign(arg[0])
else:
return self.value
def __str__(self):
return str(self.value)
def assign(self, value):
self.value = value
class ThreadLocal:
"""stores a value on a per-thread basis"""
def __init__(self, value = None, default = None, creator = None):
self.dict = {}
self.default = default
self.creator = creator
if value:
self.put(value)
def __call__(self, *arg):
if len(arg):
self.put(arg[0])
else:
return self.get()
def __str__(self):
return str(self.get())
def assign(self, value):
self.dict[_thread.get_ident()] = value
def put(self, value):
self.assign(value)
def exists(self):
return self.dict.has_key(_thread.get_ident())
def get(self, *args, **params):
if not self.dict.has_key(_thread.get_ident()):
if self.default is not None:
self.put(self.default)
elif self.creator is not None:
self.put(self.creator(*args, **params))
return self.dict[_thread.get_ident()]
def remove(self):
del self.dict[_thread.get_ident()]
class OrderedDict(UserDict.DictMixin):
"""A Dictionary that keeps its own internal ordering"""
def __init__(self, values = None):
self.list = []
self.dict = {}
if values is not None:
for val in values:
self.update(val)
def keys(self):
return self.list
def update(self, dict):
for key in dict.keys():
self.__setitem__(key, dict[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):
del self.dict[key]
del self.list[self.list.index(key)]
def __setitem__(self, key, object):
if not self.has_key(key):
self.list.append(key)
self.dict.__setitem__(key, object)
def __getitem__(self, key):
return self.dict.__getitem__(key)
class InheritedDict(UserDict.DictMixin):
"""a dictionary that can defer lookups to a second dictionary
if the key is not found locally."""
def __init__(self, dict, superfunc):
self.dict = dict
self.superfunc = superfunc
def __call__(self, key = None, value = None):
if key is None and value is None:
return self.dict
elif value is None:
try:
return self.__getitem__(key)
except KeyError:
return None
else:
self.__setitem__(key, value)
def __getitem__(self, key):
dict = self.dict
if dict.has_key(key): return dict[key]
else:
parent = self.superfunc()
if parent is not None:
return parent[key]
raise KeyError(key)
def __setitem__(self, key, value):
self.dict[key] = value
def __delitem__(self, key):
del self.dict[key]
def keys(self):
return self.dict.keys()
def __contains__(self, key):
return self.has_key(key)
def has_key(self, key):
if self.dict.has_key(key):
return True
parent = self.superfunc()
if parent is not None:
return parent.has_key(key)
return False
class ConstructorClone:
"""cloning methods that take additional parameters. one method is a straight shallow copy,
the other recreates the object via its constructor. both methods assume a relationship
between the given parameters and the attribute names of the object."""
def __init__(self, instance, **params):
self.classobj = instance.__class__
self.instance = instance
self.params = params
def copyclone(self):
cl = copy.copy(self.instance)
for key, value in self.params.iteritems():
setattr(cl, key, value)
return cl
# store the argument specs in a static hash
argspecs = {}
def clone(self):
"""creates a new instance of the class using the regular class
constructor. the arguments to the constructor are divined from
inspecting the parameter names, and pulling those parameters from the
original instance's attributes.
this is essentially a quickie cheater way to get a clone of an object
if you can name your instance variables the same as that of the constructor
arguments. """
key = self.classobj.__module__ + "." + self.classobj.__name__
if not ConstructorClone.argspecs.has_key(key):
argspec = inspect.getargspec(self.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):]
)
ConstructorClone.argspecs[key] = (requiredargs, namedargs)
(requiredargs, namedargs) = ConstructorClone.argspecs[key]
newargs = []
newparams = {}
addlparams = self.params.copy()
for arg in requiredargs:
if arg == 'self': continue
elif self.params.has_key(arg):
newargs.append(self.params[arg])
else:
newargs.append(getattr(self.instance, arg))
if addlparams.has_key(arg): del addlparams[arg]
for arg in namedargs:
if addlparams.has_key(arg): del addlparams[arg]
if self.params.has_key(arg):
newparams[arg] = self.params[arg]
else:
if hasattr(self.instance, arg):
newparams[arg] = getattr(self.instance, arg)
else:
raise "instance has no attribute '%s'" % arg
newparams.update(addlparams)
return self.classobj(*newargs, **newparams)
class PrefixArgs:
"""extracts from the given argument dictionary all values with a key '<prefix><key>'
and stores a reference. """
def __init__(self, prefix):
self.prefix = prefix
self.params = {}
self.prelen = len(prefix)
def set_prefix_params(self, **params):
"""from the given dictionary, copies all values with keys in the
form "<prefix><key>" to this one."""
for key, item in params.iteritems():
if key[0:self.prelen] == self.prefix:
self.params[key[self.prelen:]] = item
def set_params(self, **params):
"""from the given dictionary, copies all key/values to this one."""
self.params.update(params)
def get_params(self, **params):
"""returns a new dictionary
with this object's values plus those in the given dictionary,
with prefixes stripped from the keys."""
p = self.params.copy()
for key, item in params.iteritems():
if key[0:self.prelen] == self.prefix:
p[key[self.prelen:]] = item
else:
p[key] = item
return p
class SyncDict:
"""
an efficient/threadsafe singleton map algorithm, a.k.a.
"get a value based on this key, and create if not found or not valid" paradigm:
exists && isvalid ? get : create
works with weakref dictionaries and the LRUCache to handle items asynchronously
disappearing from the dictionary.
use python 2.3.3 or greater ! a major bug was just fixed in Nov. 2003 that
was driving me nuts with garbage collection/weakrefs in this section.
"""
def __init__(self, mutex, dictionary):
self.mutex = mutex
self.dict = dictionary
def get(self, key, createfunc, mutex = None, isvalidfunc = None):
"""regular get method. returns the object asynchronously, if present
and also passes the optional isvalidfunc,
else defers to the synchronous get method which will create it."""
try:
if self.has_key(key):
return self._get_obj(key, createfunc, mutex, isvalidfunc)
else:
return self.sync_get(key, createfunc, mutex, isvalidfunc)
except KeyError:
return self.sync_get(key, createfunc, mutex, isvalidfunc)
def sync_get(self, key, createfunc, mutex = None, isvalidfunc = None):
if mutex is None: mutex = self.mutex
mutex.acquire()
try:
try:
if self.has_key(key):
return self._get_obj(key, createfunc, mutex, isvalidfunc, create = True)
else:
return self._create(key, createfunc)
except KeyError:
return self._create(key, createfunc)
finally:
mutex.release()
def _get_obj(self, key, createfunc, mutex, isvalidfunc, create = False):
obj = self[key]
if isvalidfunc is not None and not isvalidfunc(obj):
if create:
return self._create(key, createfunc)
else:
return self.sync_get(key, createfunc, mutex, isvalidfunc)
else:
return obj
def _create(self, key, createfunc):
obj = createfunc()
self[key] = obj
return obj
def has_key(self, key):
return self.dict.has_key(key)
def __contains__(self, key):
return self.dict.__contains__(key)
def __getitem__(self, key):
return self.dict.__getitem__(key)
def __setitem__(self, key, value):
self.dict.__setitem__(key, value)
def __delitem__(self, key):
return self.dict.__delitem__(key)
class Registry(SyncDict):
"""a registry object."""
def __init__(self):
SyncDict.__init__(self, _threading.Lock(), {})
class WeakValuedRegistry(SyncDict):
"""a registry that stores objects only as long as someone has a reference to them."""
def __init__(self):
# weakrefs apparently can trigger the __del__ method of other
# unreferenced objects, when you create a new reference. this can occur
# when you place new items into the WeakValueDictionary. if that __del__
# method happens to want to access this same registry, well, then you need
# the RLock instead of a regular lock, since at the point of dictionary
# insertion, we are already inside the lock.
SyncDict.__init__(self, _threading.RLock(), weakref.WeakValueDictionary())
class LRUCache(SyncDict):
"""a cache (mapping class) that stores only a certain number of elements, and discards
its least recently used element when full."""
class ListElement:
def __init__(self, key, value):
self.key = key
self.setvalue(value)
def setvalue(self, value):
self.value = value
if hasattr(value, 'size'):
self.size = value.size
else:
self.size = 1
def __init__(self, size, deletefunc = None, sizethreshhold = .2):
SyncDict.__init__(self, _threading.Lock(), {})
self.size = size
self.maxelemsize = sizethreshhold * size
self.head = None
self.tail = None
self.deletefunc = deletefunc
self.currentsize = 0
# inner mutex to synchronize list manipulation
# operations independently of the SyncDict
self.listmutex = _threading.Lock()
def __setitem__(self, key, value):
self.listmutex.acquire()
try:
existing = self.dict.get(key, None)
if existing is None:
element = LRUCache.ListElement(key, value)
#if element.size > self.maxelemsize: return
self.dict[key] = element
self._insertElement(element)
else:
#if element.size > self.maxelemsize:
#del self.dict[key]
#self._removeElement(element)
oldsize = existing.size
existing.setvalue(value)
self.currentsize += (existing.size - oldsize)
self._updateElement(existing)
self._manageSize()
finally:
self.listmutex.release()
def __getitem__(self, key):
self.listmutex.acquire()
try:
element = self.dict[key]
self._updateElement(element)
return element.value
finally:
self.listmutex.release()
def __contains__(self, key):
return self.dict.has_key(key)
def has_key(self, key):
return self.dict.has_key(key)
def _insertElement(self, element):
# zero-length elements are not managed in the LRU queue since they
# have no affect on the total size
if element.size == 0:
return
element.previous = None
element.next = self.head
if self.head is not None:
self.head.previous = element
else:
self.tail = element
self.head = element
self.currentsize += element.size
self._manageSize()
def _manageSize(self):
# TODO: dont remove one element at a time, remove the
# excess in one step
while self.currentsize > self.size:
oldelem = self.dict[self.tail.key]
if self.deletefunc is not None:
self.deletefunc(oldelem.value)
self.currentsize -= oldelem.size
del self.dict[self.tail.key]
if self.tail != self.head:
self.tail = self.tail.previous
self.tail.next = None
else:
self.tail = None
self.head = None
def _updateElement(self, element):
# zero-length elements are not managed in the LRU queue since they
# have no affect on the total size
if element.size == 0:
return
if self.head == element: return
e = element.previous
e.next = element.next
if element.next is not None:
element.next.previous = e
else:
self.tail = e
element.previous = None
element.next = self.head
self.head.previous = element
self.head = element
# TODO: iteration
class EncodedPath:
"""generates a unique file-accessible path from the given list of identifiers
starting at the given root directory."""
def __init__(self, root, identifiers, extension = ".enc", depth = 3, verify = True, digest = True):
ident = string.join(identifiers, "_")
if digest:
ident = sha.new(ident).hexdigest()
tokens = []
for d in range(1, depth):
tokens.append(ident[0:d])
dir = os.path.join(root, *tokens)
if verify:
verify_directory(dir)
self.dir = dir
self.path = os.path.join(dir, ident + extension)
def verify_directory(self):
verify_directory(self.dir)
def get_path(self):
return self.path
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