]> git.saurik.com Git - wxWidgets.git/blobdiff - wxPython/wx/lib/pubsub.py
docstring update
[wxWidgets.git] / wxPython / wx / lib / pubsub.py
index a2a576a03759f057c5932d871b15a2c5bc7aa990..ba36e70cd2df431c444492acffd1c397c500b190 100644 (file)
 
-"""Renamer stub: provides a way to drop the wx prefix from wxPython objects."""
+#---------------------------------------------------------------------------
+"""
+This module provides a publish-subscribe component that allows
+listeners to subcribe to messages of a given topic. Contrary to the
+original wxPython.lib.pubsub module, which it is based on, it uses 
+weak referencing to the subscribers so the subscribers are not kept
+alive by the Publisher. Also, callable objects can be used in addition
+to functions and bound methods. See Publisher class docs for more
+details. 
 
-from wx import _rename
-from wxPython.lib import pubsub
-_rename(globals(), pubsub.__dict__, modulename='lib.pubsub')
-del pubsub
-del _rename
+Thanks to Robb Shecter and Robin Dunn for having provided 
+the basis for this module (which now shares most of the concepts but
+very little design or implementation with the original 
+wxPython.lib.pubsub).
+
+:Author:      Oliver Schoenborn
+:Since:       Apr 2004
+:Version:     $Id$
+:Copyright:   \(c) 2004 Oliver Schoenborn
+:License:     wxWidgets
+
+Implementation notes
+--------------------
+
+In class Publisher, I represent the topics-listener set as a tree
+where each node is a topic, and contains a list of listeners of that
+topic, and a dictionary of subtopics of that topic. When the Publisher
+is told to send a message for a given topic, it traverses the tree
+down to the topic for which a message is being generated, all
+listeners on the way get sent the message.
+
+Publisher currently uses a weak listener topic tree to store the
+topics for each listener, and if a listener dies before being
+unsubscribed, the tree is notified, and the tree eliminates the
+listener from itself.
+
+Ideally, _TopicTreeNode would be a generic _TreeNode with named
+subnodes, and _TopicTreeRoot would be a generic _Tree with named
+nodes, and Publisher would store listeners in each node and a topic
+tuple would be converted to a path in the tree.  This would lead to a
+much cleaner separation of concerns. But time is over, tim to move on.
+
+"""
+#---------------------------------------------------------------------------
+
+# for function and method parameter counting:
+from types   import InstanceType
+from inspect import getargspec, ismethod, isfunction
+# for weakly bound methods:
+from new     import instancemethod as InstanceMethod
+from weakref import ref as WeakRef
+
+# -----------------------------------------------------------------------------
+
+def _isbound(method):
+    """Return true if method is a bound method, false otherwise"""
+    assert ismethod(method)
+    return method.im_self is not None
+
+
+def _paramMinCountFunc(function):
+    """Given a function, return pair (min,d) where min is minimum # of
+    args required, and d is number of default arguments."""
+    assert isfunction(function)
+    (args, va, kwa, dflt) = getargspec(function)
+    lenDef = len(dflt or ())
+    return (len(args or ()) - lenDef, lenDef)
+
+
+def _paramMinCount(callableObject):
+    """
+    Given a callable object (function, method or callable instance),
+    return pair (min,d) where min is minimum # of args required, and d
+    is number of default arguments. The 'self' parameter, in the case
+    of methods, is not counted.
+    """
+    if type(callableObject) is InstanceType:
+        min, d = _paramMinCountFunc(callableObject.__call__.im_func)
+        return min-1, d
+    elif ismethod(callableObject):
+        min, d = _paramMinCountFunc(callableObject.im_func)
+        return min-1, d
+    elif isfunction(callableObject):
+        return _paramMinCountFunc(callableObject)
+    else:
+        raise 'Cannot determine type of callable: '+repr(callableObject)
+
+
+def _tupleize(items):
+    """Convert items to tuple if not already one, 
+    so items must be a list, tuple or non-sequence"""
+    if isinstance(items, type([])):
+        raise TypeError, 'Not allowed to tuple-ize a list'
+    elif not isinstance(items, type(())):
+        items = (items,)
+    return items
+
+
+def _getCallableName(callable):
+    """Get name for a callable, ie function, bound 
+    method or callable instance"""
+    if ismethod(callable):
+        return '%s.%s ' % (callable.im_self, callable.im_func.func_name)
+    elif isfunction(callable):
+        return '%s ' % callable.__name__
+    else:
+        return '%s ' % callable
+    
+    
+def _removeItem(item, fromList):
+    """Attempt to remove item from fromList, return true 
+    if successful, false otherwise."""
+    try: 
+        fromList.remove(item)
+        return True
+    except ValueError:
+        return False
+        
+        
+# -----------------------------------------------------------------------------
+
+class _WeakMethod:
+    """Represent a weak bound method, i.e. a method doesn't keep alive the 
+    object that it is bound to. It uses WeakRef which, used on its own, 
+    produces weak methods that are dead on creation, not very useful. 
+    Typically, you will use the getRef() function instead of using
+    this class directly. """
+    
+    def __init__(self, method, notifyDead = None):
+        """The method must be bound. notifyDead will be called when 
+        object that method is bound to dies. """
+        assert ismethod(method)
+        if method.im_self is None:
+            raise ValueError, "We need a bound method!"
+        if notifyDead is None:
+            self.objRef = WeakRef(method.im_self)
+        else:
+            self.objRef = WeakRef(method.im_self, notifyDead)
+        self.fun = method.im_func
+        self.cls = method.im_class
+        
+    def __call__(self):
+        """Returns a new.instancemethod if object for method still alive. 
+        Otherwise return None. Note that instancemethod causes a 
+        strong reference to object to be created, so shouldn't save 
+        the return value of this call. Note also that this __call__
+        is required only for compatibility with WeakRef.ref(), otherwise
+        there would be more efficient ways of providing this functionality."""
+        if self.objRef() is None:
+            return None
+        else:
+            return InstanceMethod(self.fun, self.objRef(), self.cls)
+        
+    def __cmp__(self, method2):
+        """Two _WeakMethod objects compare equal if they refer to the same method
+        of the same instance."""
+        return hash(self) - hash(method2)
+    
+    def __hash__(self):
+        """Hash must depend on WeakRef of object, and on method, so that
+        separate methods, bound to same object, can be distinguished. 
+        I'm not sure how robust this hash function is, any feedback 
+        welcome."""
+        return hash(self.fun)/2 + hash(self.objRef)/2
+    
+    def __repr__(self):
+        dead = ''
+        if self.objRef() is None: 
+            dead = '; DEAD'
+        obj = '<%s at %s%s>' % (self.__class__, id(self), dead)
+        return obj
+        
+    def refs(self, weakRef):
+        """Return true if we are storing same object referred to by weakRef."""
+        return self.objRef == weakRef
+
+
+def _getWeakRef(obj, notifyDead=None):
+    """Get a weak reference to obj. If obj is a bound method, a _WeakMethod
+    object, that behaves like a WeakRef, is returned, if it is
+    anything else a WeakRef is returned. If obj is an unbound method,
+    a ValueError will be raised."""
+    if ismethod(obj):
+        createRef = _WeakMethod
+    else:
+        createRef = WeakRef
+        
+    if notifyDead is None:
+        return createRef(obj)
+    else:
+        return createRef(obj, notifyDead)
+    
+    
+# -----------------------------------------------------------------------------
+
+def getStrAllTopics():
+    """Function to call if, for whatever reason, you need to know 
+    explicitely what is the string to use to indicate 'all topics'."""
+    return ''
+
+
+# alias, easier to see where used
+ALL_TOPICS = getStrAllTopics()
+
+# -----------------------------------------------------------------------------
+
+
+class _NodeCallback:
+    """Encapsulate a weak reference to a method of a TopicTreeNode
+    in such a way that the method can be called, if the node is 
+    still alive, but the callback does not *keep* the node alive.
+    Also, define two methods, preNotify() and noNotify(), which can 
+    be redefined to something else, very useful for testing. 
+    """
+    
+    def __init__(self, obj):
+        self.objRef = _getWeakRef(obj)
+        
+    def __call__(self, weakCB):
+        notify = self.objRef()
+        if notify is not None: 
+            self.preNotify(weakCB)
+            notify(weakCB)
+        else: 
+            self.noNotify()
+            
+    def preNotify(self, dead):
+        """'Gets called just before our callback (self.objRef) is called"""
+        pass
+        
+    def noNotify(self):
+        """Gets called if the TopicTreeNode for this callback is dead"""
+        pass
+
+
+class _TopicTreeNode:
+    """A node in the topic tree. This contains a list of callables
+    that are interested in the topic that this node is associated
+    with, and contains a dictionary of subtopics, whose associated
+    values are other _TopicTreeNodes. The topic of a node is not stored
+    in the node, so that the tree can be implemented as a dictionary
+    rather than a list, for ease of use (and, likely, performance).
+    
+    Note that it uses _NodeCallback to encapsulate a callback for 
+    when a registered listener dies, possible thanks to WeakRef.
+    Whenever this callback is called, the onDeadListener() function, 
+    passed in at construction time, is called (unless it is None).
+    """
+    
+    def __init__(self, topicPath, onDeadListenerWeakCB):
+        self.__subtopics = {}
+        self.__callables = []
+        self.__topicPath = topicPath
+        self.__onDeadListenerWeakCB = onDeadListenerWeakCB
+        
+    def getPathname(self): 
+        """The complete node path to us, ie., the topic tuple that would lead to us"""
+        return self.__topicPath
+    
+    def createSubtopic(self, subtopic, topicPath):
+        """Create a child node for subtopic"""
+        return self.__subtopics.setdefault(subtopic,
+                    _TopicTreeNode(topicPath, self.__onDeadListenerWeakCB))
+    
+    def hasSubtopic(self, subtopic):
+        """Return true only if topic string is one of subtopics of this node"""
+        return self.__subtopics.has_key(subtopic)
+    
+    def getNode(self, subtopic):
+        """Return ref to node associated with subtopic"""
+        return self.__subtopics[subtopic]
+    
+    def addCallable(self, callable):
+        """Add a callable to list of callables for this topic node"""
+        try:
+            id = self.__callables.index(_getWeakRef(callable))
+            return self.__callables[id]
+        except ValueError:
+            wrCall = _getWeakRef(callable, _NodeCallback(self.__notifyDead))
+            self.__callables.append(wrCall)
+            return wrCall
+            
+    def getCallables(self):
+        """Get callables associated with this topic node"""
+        return [cb() for cb in self.__callables if cb() is not None]
+    
+    def hasCallable(self, callable):
+        """Return true if callable in this node"""
+        try: 
+            self.__callables.index(_getWeakRef(callable))
+            return True
+        except ValueError:
+            return False
+    
+    def sendMessage(self, message):
+        """Send a message to our callables"""
+        deliveryCount = 0
+        for cb in self.__callables:
+            listener = cb()
+            if listener is not None:
+                listener(message)
+                deliveryCount += 1
+        return deliveryCount
+    
+    def removeCallable(self, callable):
+        """Remove weak callable from our node (and return True). 
+        Does nothing if not here (and returns False)."""
+        try: 
+            self.__callables.remove(_getWeakRef(callable))
+            return True
+        except ValueError:
+            return False
+        
+    def clearCallables(self):
+        """Abandon list of callables to caller. We no longer have 
+        any callables after this method is called."""
+        tmpList = [cb for cb in self.__callables if cb() is not None]
+        self.__callables = []
+        return tmpList
+        
+    def __notifyDead(self, dead):
+        """Gets called when a listener dies, thanks to WeakRef"""
+        #print 'TreeNODE', `self`, 'received death certificate for ', dead
+        self.__cleanupDead()
+        if self.__onDeadListenerWeakCB is not None:
+            cb = self.__onDeadListenerWeakCB()
+            if cb is not None: 
+                cb(dead)
+        
+    def __cleanupDead(self):
+        """Remove all dead objects from list of callables"""
+        self.__callables = [cb for cb in self.__callables if cb() is not None]
+        
+    def __str__(self):
+        """Print us in a not-so-friendly, but readable way, good for debugging."""
+        strVal = []
+        for callable in self.getCallables():
+            strVal.append(_getCallableName(callable))
+        for topic, node in self.__subtopics.iteritems():
+            strVal.append(' (%s: %s)' %(topic, node))
+        return ''.join(strVal)
+      
+      
+class _TopicTreeRoot(_TopicTreeNode):
+    """
+    The root of the tree knows how to access other node of the 
+    tree and is the gateway of the tree user to the tree nodes. 
+    It can create topics, and and remove callbacks, etc. 
+    
+    For efficiency, it stores a dictionary of listener-topics, 
+    so that unsubscribing a listener just requires finding the 
+    topics associated to a listener, and finding the corresponding
+    nodes of the tree. Without it, unsubscribing would require 
+    that we search the whole tree for all nodes that contain 
+    given listener. Since Publisher is a singleton, it will 
+    contain all topics in the system so it is likely to be a large
+    tree. However, it is possible that in some runs, unsubscribe()
+    is called very little by the user, in which case most unsubscriptions
+    are automatic, ie caused by the listeners dying. In this case, 
+    a flag is set to indicate that the dictionary should be cleaned up
+    at the next opportunity. This is not necessary, it is just an 
+    optimization.
+    """
+    
+    def __init__(self):
+        self.__callbackDict  = {}
+        self.__callbackDictCleanup = 0
+        # all child nodes will call our __rootNotifyDead method
+        # when one of their registered listeners dies 
+        _TopicTreeNode.__init__(self, (ALL_TOPICS,), 
+                                _getWeakRef(self.__rootNotifyDead))
+        
+    def addTopic(self, topic, listener):
+        """Add topic to tree if doesnt exist, and add listener to topic node"""
+        assert isinstance(topic, tuple)
+        topicNode = self.__getTreeNode(topic, make=True)
+        weakCB = topicNode.addCallable(listener)
+        assert topicNode.hasCallable(listener)
+
+        theList = self.__callbackDict.setdefault(weakCB, [])
+        assert self.__callbackDict.has_key(weakCB)
+        # add it only if we don't already have it
+        try:
+            weakTopicNode = WeakRef(topicNode)
+            theList.index(weakTopicNode)
+        except ValueError:
+            theList.append(weakTopicNode)
+        assert self.__callbackDict[weakCB].index(weakTopicNode) >= 0
+        
+    def getTopics(self, listener):
+        """Return the list of topics for given listener"""
+        weakNodes = self.__callbackDict.get(_getWeakRef(listener), [])
+        return [weakNode().getPathname() for weakNode in weakNodes 
+                if weakNode() is not None]
+
+    def isSubscribed(self, listener, topic=None):
+        """Return true if listener is registered for topic specified. 
+        If no topic specified, return true if subscribed to something.
+        Use topic=getStrAllTopics() to determine if a listener will receive 
+        messages for all topics."""
+        weakCB = _getWeakRef(listener)
+        if topic is None: 
+            return self.__callbackDict.has_key(weakCB)
+        else:
+            topicPath = _tupleize(topic)
+            for weakNode in self.__callbackDict[weakCB]:
+                if topicPath == weakNode().getPathname():
+                    return True
+            return False
+            
+    def unsubscribe(self, listener, topicList):
+        """Remove listener from given list of topics. If topicList
+        doesn't have any topics for which listener has subscribed,
+        the onNotSubscribed callback, if not None, will be called,
+        as onNotSubscribed(listener, topic)."""
+        weakCB = _getWeakRef(listener)
+        if not self.__callbackDict.has_key(weakCB):
+            return
+        
+        cbNodes = self.__callbackDict[weakCB] 
+        if topicList is None:
+            for weakNode in cbNodes:
+                weakNode().removeCallable(listener)
+            del self.__callbackDict[weakCB] 
+            return
+
+        for weakNode in cbNodes:
+            node = weakNode()
+            if node is not None and node.getPathname() in topicList:
+                success = node.removeCallable(listener)
+                assert success == True
+                cbNodes.remove(weakNode)
+                assert not self.isSubscribed(listener, node.getPathname())
+
+    def unsubAll(self, topicList, onNoSuchTopic):
+        """Unsubscribe all listeners registered for any topic in 
+        topicList. If a topic in the list does not exist, and 
+        onNoSuchTopic is not None, a call
+        to onNoSuchTopic(topic) is done for that topic."""
+        for topic in topicList:
+            node = self.__getTreeNode(topic)
+            if node is not None:
+                weakCallables = node.clearCallables()
+                for callable in weakCallables:
+                    weakNodes = self.__callbackDict[callable]
+                    success = _removeItem(WeakRef(node), weakNodes)
+                    assert success == True
+                    if weakNodes == []:
+                        del self.__callbackDict[callable]
+            elif onNoSuchTopic is not None: 
+                onNoSuchTopic(topic)
+            
+    def sendMessage(self, topic, message, onTopicNeverCreated):
+        """Send a message for given topic to all registered listeners. If 
+        topic doesn't exist, call onTopicNeverCreated(topic)."""
+        # send to the all-toipcs listeners
+        deliveryCount = _TopicTreeNode.sendMessage(self, message)
+        # send to those who listen to given topic or any of its supertopics
+        node = self
+        for topicItem in topic:
+            assert topicItem != ''
+            if node.hasSubtopic(topicItem):
+                node = node.getNode(topicItem)
+                deliveryCount += node.sendMessage(message)
+            else: # topic never created, don't bother continuing
+                if onTopicNeverCreated is not None:
+                    onTopicNeverCreated(aTopic)
+                break
+        return deliveryCount
+
+    def numListeners(self):
+        """Return a pair (live, dead) with count of live and dead listeners in tree"""
+        dead, live = 0, 0
+        for cb in self.__callbackDict:
+            if cb() is None: 
+                dead += 1
+            else:
+                live += 1
+        return live, dead
+    
+    # clean up the callback dictionary after how many dead listeners
+    callbackDeadLimit = 10
+
+    def __rootNotifyDead(self, dead):
+        #print 'TreeROOT received death certificate for ', dead
+        self.__callbackDictCleanup += 1
+        if self.__callbackDictCleanup > _TopicTreeRoot.callbackDeadLimit:
+            self.__callbackDictCleanup = 0
+            oldDict = self.__callbackDict
+            self.__callbackDict = {}
+            for weakCB, weakNodes in oldDict.iteritems():
+                if weakCB() is not None:
+                    self.__callbackDict[weakCB] = weakNodes
+        
+    def __getTreeNode(self, topic, make=False):
+        """Return the tree node for 'topic' from the topic tree. If it 
+        doesnt exist and make=True, create it first."""
+        # if the all-topics, give root; 
+        if topic == (ALL_TOPICS,):
+            return self
+            
+        # not root, so traverse tree
+        node = self
+        path = ()
+        for topicItem in topic:
+            path += (topicItem,)
+            if topicItem == ALL_TOPICS:
+                raise ValueError, 'Topic tuple must not contain ""'
+            if make: 
+                node = node.createSubtopic(topicItem, path)
+            elif node.hasSubtopic(topicItem):
+                node = node.getNode(topicItem)
+            else:
+                return None
+        # done
+        return node
+        
+    def printCallbacks(self):
+        strVal = ['Callbacks:\n']
+        for listener, weakTopicNodes in self.__callbackDict.iteritems():
+            topics = [topic() for topic in weakTopicNodes if topic() is not None]
+            strVal.append('  %s: %s\n' % (_getCallableName(listener()), topics))
+        return ''.join(strVal)
+        
+    def __str__(self):
+        return 'all: %s' % _TopicTreeNode.__str__(self)
+    
+    
+# -----------------------------------------------------------------------------
+
+class Publisher:
+    """
+    The publish/subscribe manager.  It keeps track of which listeners
+    are interested in which topics (see subscribe()), and sends a
+    Message for a given topic to listeners that have subscribed to
+    that topic, with optional user data (see sendMessage()).
+    
+    The three important concepts for Publisher are:
+        
+    - listener: a function, bound method or
+      callable object that can be called with only one parameter
+      (not counting 'self' in the case of methods). The parameter
+      will be a reference to a Message object. E.g., these listeners
+      are ok::
+          
+          class Foo:
+              def __call__(self, a, b=1): pass # can be called with only one arg
+              def meth(self,  a):         pass # takes only one arg
+              def meth2(self, a=2, b=''): pass # can be called with one arg
+        
+          def func(a, b=''): pass
+          
+          Foo foo
+          Publisher().subscribe(foo)           # functor
+          Publisher().subscribe(foo.meth)      # bound method
+          Publisher().subscribe(foo.meth2)     # bound method
+          Publisher().subscribe(func)          # function
+          
+      The three types of callables all have arguments that allow a call 
+      with only one argument. In every case, the parameter 'a' will contain
+      the message. 
+
+    - topic: a single word or tuple of words (though word could probably 
+      be any kind of object, not just a string, but this has not been 
+      tested). A tuple denotes a hierarchy of topics from most general
+      to least. For example, a listener of this topic::
+
+          ('sports','baseball')
+
+      would receive messages for these topics::
+
+          ('sports', 'baseball')                 # because same
+          ('sports', 'baseball', 'highscores')   # because more specific
+
+      but not these::
+
+           'sports'      # because more general
+          ('sports',)    # because more general
+          () or ('')     # because only for those listening to 'all' topics
+          ('news')       # because different topic
+          
+    - message: this is an instance of Message, containing the topic for 
+      which the message was sent, and any data the sender specified. 
+      
+    :note: This class is visible to importers of pubsub only as a 
+    Singleton. I.e., every time you execute 'Publisher()', it's 
+    actually the same instance of publisher that is returned. So to 
+    use, just do 'Publisher().method()'.
+    """
+    
+    __ALL_TOPICS_TPL = (ALL_TOPICS, )
+    
+    def __init__(self):
+        self.__messageCount  = 0
+        self.__deliveryCount = 0
+        self.__topicTree     = _TopicTreeRoot()
+
+    #
+    # Public API
+    #
+
+    def getDeliveryCount(self):
+        """How many listeners have received a message since beginning of run"""
+        return self.__deliveryCount
+    
+    def getMessageCount(self):
+        """How many times sendMessage() was called since beginning of run"""
+        return self.__messageCount
+    
+    def subscribe(self, listener, topic = ALL_TOPICS):
+        """
+        Subscribe listener for given topic. If topic is not specified,
+        listener will be subscribed for all topics (that listener will 
+        receive a Message for any topic for which a message is generated). 
+        
+        This method may be
+        called multiple times for one listener, registering it with
+        many topics.  It can also be invoked many times for a
+        particular topic, each time with a different listener.
+        See the class doc for requirements on listener and topic.
+
+        :note: Calling 
+        this method for the same listener, with two topics in the same 
+        branch of the topic hierarchy, will cause the listener to be
+        notified twice when a message for the deepest topic is sent. E.g.
+        subscribe(listener, 't1') and then subscribe(listener, ('t1','t2'))
+        means that when calling sendMessage('t1'), listener gets one message,
+        but when calling sendMessage(('t1','t2')), listener gets message 
+        twice. This effect could be eliminated but it would not be safe to 
+        do so: how do we know what topic to give the listener? Answer appears
+        trivial at first but is far from obvious. It is best to rely on the
+        user to be careful about who registers for what topics. 
+        """
+        self.validate(listener)
+
+        if topic is None: 
+            raise TypeError, 'Topic must be either a word, tuple of '\
+                             'words, or getStrAllTopics()'
+            
+        self.__topicTree.addTopic(_tupleize(topic), listener)
+
+    def isSubscribed(self, listener, topic=None):
+        """Return true if listener has subscribed to topic specified. 
+        If no topic specified, return true if subscribed to something.
+        Use getStrAllTopics() to determine if a listener will receive 
+        messages for all topics."""
+        return self.__topicTree.isSubscribed(listener, topic)
+            
+    def validate(self, listener):
+        """Similar to isValid(), but raises a TypeError exception if not valid"""
+        # check callable
+        if not callable(listener):
+            raise TypeError, 'Listener '+`listener`+' must be a '\
+                             'function, bound method or instance.'
+        # ok, callable, but if method, is it bound:
+        elif ismethod(listener) and not _isbound(listener):
+            raise TypeError, 'Listener '+`listener`+\
+                             ' is a method but it is unbound!'
+                             
+        # check that it takes the right number of parameters
+        min, d = _paramMinCount(listener)
+        if min > 1:
+            raise TypeError, 'Listener '+`listener`+" can't"\
+                             ' require more than one parameter!'
+        if min <= 0 and d == 0:
+            raise TypeError, 'Listener '+`listener`+' lacking arguments!'
+                             
+        assert (min == 0 and d>0) or (min == 1)
+
+    def isValid(self, listener):
+        """Return true only if listener will be able to subscribe to Publisher."""
+        try: 
+            self.validate(listener)
+            return True
+        except TypeError:
+            return False
+
+    def unsubAll(self, topics=None, onNoSuchTopic=None):
+        """Unsubscribe all listeners subscribed for topics. Topics can 
+        be a single topic (string or tuple) or a list of topics (ie 
+        list containing strings and/or tuples). If topics is not 
+        specified, all listeners for all topics will be unsubscribed, 
+        ie. the Publisher singleton will have no topics and no listeners
+        left. If topics was specified and is not found among contained
+        topics, the onNoSuchTopic, if specified, will be called, with 
+        the name of the topic."""
+        if topics is None: 
+            del self.__topicTree
+            self.__topicTree = _TopicTreeRoot()
+            return
+        
+        # make sure every topics are in tuple form
+        if isinstance(topics, type([])):
+            topicList = [_tupleize(x) for x in topics]
+        else:
+            topicList = [_tupleize(topics)]
+            
+        # unsub every listener of topics
+        self.__topicTree.unsubAll(topicList, onNoSuchTopic)
+            
+    def unsubscribe(self, listener, topics=None):
+        """Unsubscribe listener. If topics not specified, listener is
+        completely unsubscribed. Otherwise, it is unsubscribed only 
+        for the topic (the usual tuple) or list of topics (ie a list
+        of tuples) specified. In this case, if listener is not actually
+        subscribed for (one of) the topics, the optional onNotSubscribed
+        callback will be called, as onNotSubscribed(listener, missingTopic).
+        
+        Note that if listener subscribed for two topics (a,b) and (a,c), 
+        then unsubscribing for topic (a) will do nothing. You must 
+        use getAssociatedTopics(listener) and give unsubscribe() the returned 
+        list (or a subset thereof).
+        """
+        self.validate(listener)
+        topicList = None
+        if topics is not None:
+            if isinstance(topics, list):
+                topicList = [_tupleize(x) for x in topics]
+            else:
+                topicList = [_tupleize(topics)]
+            
+        self.__topicTree.unsubscribe(listener, topicList)
+        
+    def getAssociatedTopics(self, listener):
+        """Return a list of topics the given listener is registered with. 
+        Returns [] if listener never subscribed.
+        
+        :attention: when using the return of this method to compare to 
+        expected list of topics, remember that topics that are not in the
+        form of a tuple appear as a one-tuple in the return. E.g. if you 
+        have subscribed a listener to 'topic1' and ('topic2','subtopic2'), 
+        this method returns::
+            
+            associatedTopics = [('topic1',), ('topic2','subtopic2')]
+        """
+        return self.__topicTree.getTopics(listener)
+    
+    def sendMessage(self, topic=ALL_TOPICS, data=None, onTopicNeverCreated=None):
+        """Send a message for given topic, with optional data, to
+        subscribed listeners. If topic is not specified, only the
+        listeners that are interested in all topics will receive
+        message. The onTopicNeverCreated is an optional callback of
+        your choice that will be called if the topic given was never
+        created (i.e. it, or one of its subtopics, was never
+        subscribed to). The callback must be of the form f(a)."""
+        aTopic  = _tupleize(topic)
+        message = Message(aTopic, data)
+        self.__messageCount += 1
+        
+        # send to those who listen to all topics
+        self.__deliveryCount += \
+            self.__topicTree.sendMessage(aTopic, message, onTopicNeverCreated)
+        
+    #
+    # Private methods
+    #
+
+    def __call__(self):
+        """Allows for singleton"""
+        return self
+    
+    def __str__(self):
+        return str(self.__topicTree)
+
+# Create an instance with the same name as the class, effectivly
+# hiding the class object so it can't be instantiated any more.  From
+# this point forward any calls to Publisher() will invoke the __call__
+# of this instance which just returns itself.
+#
+# The only flaw with this approach is that you can't derive a new
+# class from Publisher without jumping through hoops.  If this ever
+# becomes an issue then a new Singleton implementaion will need to be
+# employed.
+Publisher = Publisher()
+
+
+#---------------------------------------------------------------------------
+
+class Message:
+    """
+    A simple container object for the two components of
+    a message; the topic and the user data.
+    """
+    def __init__(self, topic, data):
+        self.topic = topic
+        self.data  = data
+
+    def __str__(self):
+        return '[Topic: '+`self.topic`+',  Data: '+`self.data`+']'
+
+
+#---------------------------------------------------------------------------
+
+
+#
+# Code for a simple command-line test
+#
+def test():
+    def done(funcName):
+        print '----------- Done %s -----------' % funcName
+        
+    def testParam():
+        def testFunc(a,b,c=1): pass
+        class Foo:
+            def testMeth(self,a,b): pass
+            def __call__(self, a): pass
+            
+        foo = Foo()
+        assert _paramMinCount(testFunc)==(2,1)
+        assert _paramMinCount(Foo.testMeth)==(2,0)
+        assert _paramMinCount(foo.testMeth)==(2,0)
+        assert _paramMinCount(foo)==(1,0)
+    
+        done('testParam')
+
+    testParam()
+    #------------------------
+
+    _NodeCallback.notified = 0
+    def testPreNotifyNode(self, dead):
+        _NodeCallback.notified += 1
+        print 'testPreNotifyNODE heard notification of', `dead`
+    _NodeCallback.preNotify = testPreNotifyNode
+    
+    def testTreeNode():
+
+        class WS:
+            def __init__(self, s):
+                self.s = s
+            def __call__(self, msg):
+                print 'WS#', self.s, ' received msg ', msg
+            def __str__(self):
+                return self.s
+            
+        def testPreNotifyRoot(dead):
+            print 'testPreNotifyROOT heard notification of', `dead`
+    
+        node = _TopicTreeNode((ALL_TOPICS,), WeakRef(testPreNotifyRoot))
+        boo, baz, bid = WS('boo'), WS('baz'), WS('bid')
+        node.addCallable(boo)
+        node.addCallable(baz)
+        node.addCallable(boo)
+        assert node.getCallables() == [boo,baz]
+        assert node.hasCallable(boo)
+        
+        node.removeCallable(bid) # no-op
+        assert node.hasCallable(baz)
+        assert node.getCallables() == [boo,baz]
+        
+        node.removeCallable(boo)
+        assert node.getCallables() == [baz]
+        assert node.hasCallable(baz)
+        assert not node.hasCallable(boo)
+        
+        node.removeCallable(baz)
+        assert node.getCallables() == []
+        assert not node.hasCallable(baz)
+
+        node2 = node.createSubtopic('st1', ('st1',))
+        node3 = node.createSubtopic('st2', ('st2',))
+        cb1, cb2, cb = WS('st1_cb1'), WS('st1_cb2'), WS('st2_cb')
+        node2.addCallable(cb1)
+        node2.addCallable(cb2)
+        node3.addCallable(cb)
+        node2.createSubtopic('st3', ('st1','st3'))
+        node2.createSubtopic('st4', ('st1','st4'))
+       
+        print str(node)
+        assert str(node) == ' (st1: st1_cb1 st1_cb2  (st4: ) (st3: )) (st2: st2_cb )'
+    
+        # verify send message, and that a dead listener does not get sent one
+        delivered = node2.sendMessage('hello')
+        assert delivered == 2
+        del cb1
+        delivered = node2.sendMessage('hello')
+        assert delivered == 1
+        assert _NodeCallback.notified == 1
+        
+        done('testTreeNode')
+        
+    testTreeNode()
+    #------------------------
+    
+    def testValidate():
+        class Foo:
+            def __call__(self, a):   pass
+            def fun(self, b):        pass
+            def fun2(self, b=1):     pass
+            def fun3(self, a, b=2):  pass
+            def badFun(self):        pass
+            def badFun2():           pass
+            def badFun3(self, a, b): pass
+            
+        server = Publisher()
+        foo = Foo()
+        server.validate(foo)
+        server.validate(foo.fun)
+        server.validate(foo.fun2)
+        server.validate(foo.fun3)
+        assert not server.isValid(foo.badFun)
+        assert not server.isValid(foo.badFun2)
+        assert not server.isValid(foo.badFun3)
+    
+        done('testValidate')
+
+    testValidate()
+    #------------------------
+    
+    class SimpleListener:
+        def __init__(self, number):
+            self.number = number
+        def __call__(self, message = ''): 
+            print 'Callable #%s got the message "%s"' %(self.number, message)
+        def notify(self, message):
+            print '%s.notify() got the message "%s"' %(self.number, message)
+        def __str__(self):
+            return "SimpleListener_%s" % self.number
+
+    def testSubscribe():
+        publisher = Publisher()
+        
+        topic1 = 'politics'
+        topic2 = ('history','middle age')
+        topic3 = ('politics','UN')
+        topic4 = ('politics','NATO')
+        topic5 = ('politics','NATO','US')
+        
+        lisnr1 = SimpleListener(1)
+        lisnr2 = SimpleListener(2)
+        def func(message, a=1): 
+            print 'Func received message "%s"' % message
+        lisnr3 = func
+        lisnr4 = lambda x: 'Lambda received message "%s"' % x
+
+        assert not publisher.isSubscribed(lisnr1)
+        assert not publisher.isSubscribed(lisnr2)
+        assert not publisher.isSubscribed(lisnr3)
+        assert not publisher.isSubscribed(lisnr4)
+        
+        publisher.subscribe(lisnr1, topic1)
+        assert publisher.getAssociatedTopics(lisnr1) == [(topic1,)]
+        publisher.subscribe(lisnr1, topic2)
+        publisher.subscribe(lisnr1, topic1) # do it again, should be no-op
+        assert publisher.getAssociatedTopics(lisnr1) == [(topic1,),topic2]
+        publisher.subscribe(lisnr2.notify, topic3)
+        assert publisher.getAssociatedTopics(lisnr2.notify) == [topic3]
+        assert publisher.getAssociatedTopics(lisnr1) == [(topic1,),topic2]
+        publisher.subscribe(lisnr3, topic5)
+        assert publisher.getAssociatedTopics(lisnr3) == [topic5]
+        assert publisher.getAssociatedTopics(lisnr2.notify) == [topic3]
+        assert publisher.getAssociatedTopics(lisnr1) == [(topic1,),topic2]
+        publisher.subscribe(lisnr4)
+        
+        print "Publisher tree: ", publisher
+        assert publisher.isSubscribed(lisnr1)
+        assert publisher.isSubscribed(lisnr1, topic1)
+        assert publisher.isSubscribed(lisnr1, topic2)
+        assert publisher.isSubscribed(lisnr2.notify)
+        assert publisher.isSubscribed(lisnr3, topic5)
+        assert publisher.isSubscribed(lisnr4, ALL_TOPICS)
+        expectTopicTree = 'all: <lambda>  (politics: SimpleListener_1  (UN: SimpleListener_2.notify ) (NATO:  (US: func ))) (history:  (middle age: SimpleListener_1 ))'
+        print "Publisher tree: ", publisher
+        assert str(publisher) == expectTopicTree
+        
+        publisher.unsubscribe(lisnr1, 'booboo') # should do nothing
+        assert publisher.getAssociatedTopics(lisnr1) == [(topic1,),topic2]
+        assert publisher.getAssociatedTopics(lisnr2.notify) == [topic3]
+        assert publisher.getAssociatedTopics(lisnr3) == [topic5]
+        publisher.unsubscribe(lisnr1, topic1)
+        assert publisher.getAssociatedTopics(lisnr1) == [topic2]
+        assert publisher.getAssociatedTopics(lisnr2.notify) == [topic3]
+        assert publisher.getAssociatedTopics(lisnr3) == [topic5]
+        publisher.unsubscribe(lisnr1, topic2)
+        publisher.unsubscribe(lisnr1, topic2)
+        publisher.unsubscribe(lisnr2.notify, topic3)
+        publisher.unsubscribe(lisnr3, topic5)
+        assert publisher.getAssociatedTopics(lisnr1) == []
+        assert publisher.getAssociatedTopics(lisnr2.notify) == []
+        assert publisher.getAssociatedTopics(lisnr3) == []
+        publisher.unsubscribe(lisnr4)
+        
+        expectTopicTree = 'all:  (politics:  (UN: ) (NATO:  (US: ))) (history:  (middle age: ))'
+        print "Publisher tree: ", publisher
+        assert str(publisher) == expectTopicTree
+        assert publisher.getDeliveryCount() == 0
+        assert publisher.getMessageCount() == 0
+        
+        publisher.unsubAll()
+        assert str(publisher) == 'all: '
+        
+        done('testSubscribe')
+    
+    testSubscribe()
+    #------------------------
+    
+    def testUnsubAll():
+        publisher = Publisher()
+        
+        topic1 = 'politics'
+        topic2 = ('history','middle age')
+        topic3 = ('politics','UN')
+        topic4 = ('politics','NATO')
+        topic5 = ('politics','NATO','US')
+        
+        lisnr1 = SimpleListener(1)
+        lisnr2 = SimpleListener(2)
+        def func(message, a=1): 
+            print 'Func received message "%s"' % message
+        lisnr3 = func
+        lisnr4 = lambda x: 'Lambda received message "%s"' % x
+
+        publisher.subscribe(lisnr1, topic1)
+        publisher.subscribe(lisnr1, topic2)
+        publisher.subscribe(lisnr2.notify, topic3)
+        publisher.subscribe(lisnr3, topic2)
+        publisher.subscribe(lisnr3, topic5)
+        publisher.subscribe(lisnr4)
+        
+        expectTopicTree = 'all: <lambda>  (politics: SimpleListener_1  (UN: SimpleListener_2.notify ) (NATO:  (US: func ))) (history:  (middle age: SimpleListener_1 func ))'
+        print "Publisher tree: ", publisher
+        assert str(publisher) == expectTopicTree
+    
+        publisher.unsubAll(topic1)
+        assert publisher.getAssociatedTopics(lisnr1) == [topic2]
+        assert not publisher.isSubscribed(lisnr1, topic1)
+        
+        publisher.unsubAll(topic2)
+        print publisher
+        assert publisher.getAssociatedTopics(lisnr1) == []
+        assert publisher.getAssociatedTopics(lisnr3) == [topic5]
+        assert not publisher.isSubscribed(lisnr1)
+        assert publisher.isSubscribed(lisnr3, topic5)
+        
+        #print "Publisher tree: ", publisher
+        expectTopicTree = 'all: <lambda>  (politics:  (UN: SimpleListener_2.notify ) (NATO:  (US: func ))) (history:  (middle age: ))'
+        assert str(publisher) == expectTopicTree
+        publisher.unsubAll(ALL_TOPICS)
+        #print "Publisher tree: ", publisher
+        expectTopicTree = 'all:  (politics:  (UN: SimpleListener_2.notify ) (NATO:  (US: func ))) (history:  (middle age: ))'
+        assert str(publisher) == expectTopicTree
+        
+        publisher.unsubAll()
+        done('testUnsubAll')
+    
+    testUnsubAll()
+    #------------------------
+    
+    def testSend():
+        publisher = Publisher()
+        called = []
+        
+        class TestListener:
+            def __init__(self, num):
+                self.number = num
+            def __call__(self, b): 
+                called.append( 'TL%scb' % self.number )
+            def notify(self, b):
+                called.append( 'TL%sm' % self.number )
+        def funcListener(b):
+            called.append('func')
+            
+        lisnr1 = TestListener(1)
+        lisnr2 = TestListener(2)
+        lisnr3 = funcListener
+        lisnr4 = lambda x: called.append('lambda')
+
+        topic1 = 'politics'
+        topic2 = 'history'
+        topic3 = ('politics','UN')
+        topic4 = ('politics','NATO','US')
+        topic5 = ('politics','NATO')
+        
+        publisher.subscribe(lisnr1, topic1)
+        publisher.subscribe(lisnr2, topic2)
+        publisher.subscribe(lisnr2.notify, topic2)
+        publisher.subscribe(lisnr3, topic4)
+        publisher.subscribe(lisnr4)
+        
+        print publisher
+        
+        # setup ok, now test send/receipt
+        publisher.sendMessage(topic1)
+        assert called == ['lambda','TL1cb']
+        called = []
+        publisher.sendMessage(topic2)
+        assert called == ['lambda','TL2cb','TL2m']
+        called = []
+        publisher.sendMessage(topic3)
+        assert called == ['lambda','TL1cb']
+        called = []
+        publisher.sendMessage(topic4)
+        assert called == ['lambda','TL1cb','func']
+        called = []
+        publisher.sendMessage(topic5)
+        assert called == ['lambda','TL1cb']
+        assert publisher.getDeliveryCount() == 12
+        assert publisher.getMessageCount() == 5
+    
+        # test weak referencing works:
+        _NodeCallback.notified = 0
+        del lisnr2
+        called = []
+        publisher.sendMessage(topic2)
+        assert called == ['lambda']
+        assert _NodeCallback.notified == 2
+        
+        done('testSend')
+        
+    testSend()
+    assert _NodeCallback.notified == 5
+    
+    def testDead():
+        # verify if weak references work as expected
+        print '------ Starting testDead ----------'
+        node = _TopicTreeNode('t1', None)
+        lisnr1 = SimpleListener(1)
+        lisnr2 = SimpleListener(2)
+        lisnr3 = SimpleListener(3)
+        lisnr4 = SimpleListener(4)
+
+        node.addCallable(lisnr1)
+        node.addCallable(lisnr2)
+        node.addCallable(lisnr3)
+        node.addCallable(lisnr4)
+        
+        print 'Deleting listeners first'
+        _NodeCallback.notified = 0
+        del lisnr1
+        del lisnr2
+        assert _NodeCallback.notified == 2
+        
+        print 'Deleting node first'
+        _NodeCallback.notified = 0
+        del node
+        del lisnr3
+        del lisnr4
+        assert _NodeCallback.notified == 0
+        
+        lisnr1 = SimpleListener(1)
+        lisnr2 = SimpleListener(2)
+        lisnr3 = SimpleListener(3)
+        lisnr4 = SimpleListener(4)
+        
+        # try same with root of tree
+        node = _TopicTreeRoot()
+        node.addTopic(('',), lisnr1)
+        node.addTopic(('',), lisnr2)
+        node.addTopic(('',), lisnr3)
+        node.addTopic(('',), lisnr4)
+        # add objects that will die immediately to see if cleanup occurs
+        # this must be done visually as it is a low-level detail
+        _NodeCallback.notified = 0
+        _TopicTreeRoot.callbackDeadLimit = 3
+        node.addTopic(('',), SimpleListener(5))
+        node.addTopic(('',), SimpleListener(6))
+        node.addTopic(('',), SimpleListener(7))
+        print node.numListeners()
+        assert node.numListeners() == (4, 3)
+        node.addTopic(('',), SimpleListener(8))
+        assert node.numListeners() == (4, 0)
+        assert _NodeCallback.notified == 4
+        
+        print 'Deleting listeners first'
+        _NodeCallback.notified = 0
+        del lisnr1
+        del lisnr2
+        assert _NodeCallback.notified == 2
+        print 'Deleting node first'
+        _NodeCallback.notified = 0
+        del node
+        del lisnr3
+        del lisnr4
+        assert _NodeCallback.notified == 0
+        
+        done('testDead')
+    
+    testDead()
+    
+    print 'Exiting tests'
+#---------------------------------------------------------------------------
+
+if __name__ == '__main__':
+    test()