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generictreemodel.py
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# -*- Mode: Python; py-indent-offset: 4 -*- # generictreemodel - GenericTreeModel implementation for pygtk compatibility. # Copyright (C) 2013 Simon Feltman # # generictreemodel.py: GenericTreeModel implementation for pygtk compatibility # # This library is free software; you can redistribute it and/or # modify it under the terms of the GNU Lesser General Public # License as published by the Free Software Foundation; either # version 2.1 of the License, or (at your option) any later version. # # This library is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU # Lesser General Public License for more details. # # You should have received a copy of the GNU Lesser General Public # License along with this library; if not, see <http://www.gnu.org/licenses/>. # System import sys import random import collections import ctypes # GObject from gi.repository import GObject from gi.repository import Gtk class _CTreeIter(ctypes.Structure): _fields_ = [('stamp', ctypes.c_int), ('user_data', ctypes.c_void_p), ('user_data2', ctypes.c_void_p), ('user_data3', ctypes.c_void_p)] @classmethod def from_iter(cls, iter): offset = sys.getsizeof(object()) # size of PyObject_HEAD return ctypes.POINTER(cls).from_address(id(iter) + offset) def _get_user_data_as_pyobject(iter): citer = _CTreeIter.from_iter(iter) return ctypes.cast(citer.contents.user_data, ctypes.py_object).value def handle_exception(default_return): """Returns a function which can act as a decorator for wrapping exceptions and returning "default_return" upon an exception being thrown. This is used to wrap Gtk.TreeModel "do_" method implementations so we can return a proper value from the override upon an exception occurring with client code implemented by the "on_" methods. """ def decorator(func): def wrapped_func(*args, **kargs): try: return func(*args, **kargs) except: # Use excepthook directly to avoid any printing to the screen # if someone installed an except hook. sys.excepthook(*sys.exc_info()) return default_return return wrapped_func return decorator class GenericTreeModel(GObject.GObject, Gtk.TreeModel): """A base implementation of a Gtk.TreeModel for python. The GenericTreeModel eases implementing the Gtk.TreeModel interface in Python. The class can be subclassed to provide a TreeModel implementation which works directly with Python objects instead of iterators. All of the on_* methods should be overridden by subclasses to provide the underlying implementation a way to access custom model data. For the purposes of this API, all custom model data supplied or handed back through the overridable API will use the argument names: node, parent, and child in regards to user data python objects. The create_tree_iter, set_user_data, invalidate_iters, iter_is_valid methods are available to help manage Gtk.TreeIter objects and their Python object references. GenericTreeModel manages a pool of user data nodes that have been used with iters. This pool stores a references to user data nodes as a dictionary value with the key being the integer id of the data. This id is what the Gtk.TreeIter objects use to reference data in the pool. References will be removed from the pool when the model is deleted or explicitly by using the optional "node" argument to the "row_deleted" method when notifying the model of row deletion. """ leak_references = GObject.Property(default=True, type=bool, blurb="If True, strong references to user data attached to iters are " "stored in a dictionary pool (default). Otherwise the user data is " "stored as a raw pointer to a python object without a reference.") # # Methods # def __init__(self): """Initialize. Make sure to call this from derived classes if overridden.""" super(GenericTreeModel, self).__init__() self.stamp = 0 #: Dictionary of (id(user_data): user_data), used when leak-refernces=False self._held_refs = dict() # Set initial stamp self.invalidate_iters() def iter_depth_first(self): """Depth-first iteration of the entire TreeModel yielding the python nodes.""" stack = collections.deque([None]) while stack: it = stack.popleft() if it is not None: yield self.get_user_data(it) children = [self.iter_nth_child(it, i) for i in range(self.iter_n_children(it))] stack.extendleft(reversed(children)) def invalidate_iter(self, iter): """Clear user data and its reference from the iter and this model.""" iter.stamp = 0 if iter.user_data: if iter.user_data in self._held_refs: del self._held_refs[iter.user_data] iter.user_data = None def invalidate_iters(self): """ This method invalidates all TreeIter objects associated with this custom tree model and frees their locally pooled references. """ self.stamp = random.randint(-2147483648, 2147483647) self._held_refs.clear() def iter_is_valid(self, iter): """ :Returns: True if the gtk.TreeIter specified by iter is valid for the custom tree model. """ return iter.stamp == self.stamp def get_user_data(self, iter): """Get the user_data associated with the given TreeIter. GenericTreeModel stores arbitrary Python objects mapped to instances of Gtk.TreeIter. This method allows to retrieve the Python object held by the given iterator. """ if self.leak_references: return self._held_refs[iter.user_data] else: return _get_user_data_as_pyobject(iter) def set_user_data(self, iter, user_data): """Applies user_data and stamp to the given iter. If the models "leak_references" property is set, a reference to the user_data is stored with the model to ensure we don't run into bad memory problems with the TreeIter. """ iter.user_data = id(user_data) if user_data is None: self.invalidate_iter(iter) else: iter.stamp = self.stamp if self.leak_references: self._held_refs[iter.user_data] = user_data def create_tree_iter(self, user_data): """Create a Gtk.TreeIter instance with the given user_data specific for this model. Use this method to create Gtk.TreeIter instance instead of directly calling Gtk.Treeiter(), this will ensure proper reference managment of wrapped used_data. """ iter = Gtk.TreeIter() self.set_user_data(iter, user_data) return iter def _create_tree_iter(self, data): """Internal creation of a (bool, TreeIter) pair for returning directly back to the view interfacing with this model.""" if data is None: return (False, None) else: it = self.create_tree_iter(data) return (True, it) def row_deleted(self, path, node=None): """Notify the model a row has been deleted. Use the node parameter to ensure the user_data reference associated with the path is properly freed by this model. :Parameters: path : Gtk.TreePath Path to the row that has been deleted. node : object Python object used as the node returned from "on_get_iter". This is optional but ensures the model will not leak references to this object. """ super(GenericTreeModel, self).row_deleted(path) node_id = id(node) if node_id in self._held_refs: del self._held_refs[node_id] # # GtkTreeModel Interface Implementation # @handle_exception(0) def do_get_flags(self): """Internal method.""" return self.on_get_flags() @handle_exception(0) def do_get_n_columns(self): """Internal method.""" return self.on_get_n_columns() @handle_exception(GObject.TYPE_INVALID) def do_get_column_type(self, index): """Internal method.""" return self.on_get_column_type(index) @handle_exception((False, None)) def do_get_iter(self, path): """Internal method.""" return self._create_tree_iter(self.on_get_iter(path)) @handle_exception(False) def do_iter_next(self, iter): """Internal method.""" if iter is None: next_data = self.on_iter_next(None) else: next_data = self.on_iter_next(self.get_user_data(iter)) self.set_user_data(iter, next_data) return next_data is not None @handle_exception(None) def do_get_path(self, iter): """Internal method.""" path = self.on_get_path(self.get_user_data(iter)) if path is None: return None else: return Gtk.TreePath(path) @handle_exception(None) def do_get_value(self, iter, column): """Internal method.""" return self.on_get_value(self.get_user_data(iter), column) @handle_exception((False, None)) def do_iter_children(self, parent): """Internal method.""" data = self.get_user_data(parent) if parent else None return self._create_tree_iter(self.on_iter_children(data)) @handle_exception(False) def do_iter_has_child(self, parent): """Internal method.""" return self.on_iter_has_child(self.get_user_data(parent)) @handle_exception(0) def do_iter_n_children(self, iter): """Internal method.""" if iter is None: return self.on_iter_n_children(None) return self.on_iter_n_children(self.get_user_data(iter)) @handle_exception((False, None)) def do_iter_nth_child(self, parent, n): """Internal method.""" if parent is None: data = self.on_iter_nth_child(None, n) else: data = self.on_iter_nth_child(self.get_user_data(parent), n) return self._create_tree_iter(data) @handle_exception((False, None)) def do_iter_parent(self, child): """Internal method.""" return self._create_tree_iter(self.on_iter_parent(self.get_user_data(child))) @handle_exception(None) def do_ref_node(self, iter): self.on_ref_node(self.get_user_data(iter)) @handle_exception(None) def do_unref_node(self, iter): self.on_unref_node(self.get_user_data(iter)) # # Python Subclass Overridables # def on_get_flags(self): """Overridable. :Returns Gtk.TreeModelFlags: The flags for this model. See: Gtk.TreeModelFlags """ raise NotImplementedError def on_get_n_columns(self): """Overridable. :Returns: The number of columns for this model. """ raise NotImplementedError def on_get_column_type(self, index): """Overridable. :Returns: The column type for the given index. """ raise NotImplementedError def on_get_iter(self, path): """Overridable. :Returns: A python object (node) for the given TreePath. """ raise NotImplementedError def on_iter_next(self, node): """Overridable. :Parameters: node : object Node at current level. :Returns: A python object (node) following the given node at the current level. """ raise NotImplementedError def on_get_path(self, node): """Overridable. :Returns: A TreePath for the given node. """ raise NotImplementedError def on_get_value(self, node, column): """Overridable. :Parameters: node : object column : int Column index to get the value from. :Returns: The value of the column for the given node.""" raise NotImplementedError def on_iter_children(self, parent): """Overridable. :Returns: The first child of parent or None if parent has no children. If parent is None, return the first node of the model. """ raise NotImplementedError def on_iter_has_child(self, node): """Overridable. :Returns: True if the given node has children. """ raise NotImplementedError def on_iter_n_children(self, node): """Overridable. :Returns: The number of children for the given node. If node is None, return the number of top level nodes. """ raise NotImplementedError def on_iter_nth_child(self, parent, n): """Overridable. :Parameters: parent : object n : int Index of child within parent. :Returns: The child for the given parent index starting at 0. If parent None, return the top level node corresponding to "n". If "n" is larger then available nodes, return None. """ raise NotImplementedError def on_iter_parent(self, child): """Overridable. :Returns: The parent node of child or None if child is a top level node.""" raise NotImplementedError def on_ref_node(self, node): pass def on_unref_node(self, node): pass