gramps/src/gui/views/treemodels/flatbasemodel.py

#
# Gramps - a GTK+/GNOME based genealogy program
#
# Copyright (C) 2000-2006  Donald N. Allingham
# Copyright (C) 2009  Benny Malengier
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program 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 General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
#
# $Id: _BaseModel.py 12559 2009-05-21 17:19:50Z gbritton $

"""
This module provides the flat treemodel that is used for all flat treeviews.

For performance, GRAMPS does not use gtk.TreeStore, as that would mean keeping
the entire database table of an object in memory. 
Instead, it suffices to keep in memory the sortkey and the matching handle, 
as well as a map of sortkey,handle to treeview path, and vice versa. 

For a flat view, the index of sortkey,handle will be the path, so it suffices
to keep in memory a map that given a sortkey,handle returns the path.
As we need to be able to insert/delete/update objects, and for that the handle
is all we know initially, and as sortkey,handle is uniquely determined by 
handle, instead of keeping a map of sortkey,handle to path, we keep a map of
handle to path

As a user selects another column to sort, the sortkey must be rebuild, and the
map remade. 

The class FlatNodeMap keeps a sortkeyhandle list with (sortkey, handle) entries,
and a handle2path dictionary. As the Map is flat, the index in sortkeyhandle
corresponds to the path.

The class FlatBaseModel, is the base class for all flat treeview models. 
It keeps a FlatNodeMap, and obtains data from database as needed
"""

#-------------------------------------------------------------------------
#
# python modules
#
#-------------------------------------------------------------------------

from __future__ import with_statement
import locale
import logging
import bisect

_LOG = logging.getLogger(".gui.basetreemodel")
    
#-------------------------------------------------------------------------
#
# GNOME/GTK modules
#
#-------------------------------------------------------------------------
import gtk

#-------------------------------------------------------------------------
#
# GRAMPS modules
#
#-------------------------------------------------------------------------
from Filters import SearchFilter
import Config
import time

#-------------------------------------------------------------------------
#
# FlatNodeMap
#
#-------------------------------------------------------------------------
class FlatNodeMap(object):
    """
    A NodeMap for a flat treeview. In such a TreeView, the paths possible are
    0, 1, 2, ..., n-1, where n is the number of items to show. For the model
    it is needed to keep the Path to Iter mappings of the TreeView in memory
    
    The order of what is shown is based on the unique key: (sortkey, handle)
    Naming:
        * srtkey : key on which to sort
        * hndl   : handle of the object, makes it possible to retrieve the 
                   object from the database. As handle is unique, it is used
                   as the iter for the TreeView
        * index  : the index in the internal lists. When a view is in reverse, 
                    this is not kept physically, but instead via an offset
        * path   : integer path in the TreeView. This will be index if view is
                    ascending, but will begin at back of list if view shows
                    the entries in reverse.
        * index2hndl : list of (srtkey, hndl) tuples. The index gives the 
                        (srtkey, hndl) it belongs to
        * hndl2index : dictionary of *hndl: index* values
        
    The implementation provides a list of (srtkey, hndl) of which the index is
    the path, and a dictionary mapping hndl to index.
    To obtain index given a path, method real_index() is available
    
    ..Note: If a string sortkey is used, apply locale.strxfrm on it , so as 
            to have localized sort
    """

    def __init__(self):
        """
        Create a new instance.
        """
        self._index2hndl = []
        self._hndl2index = {}
        self._reverse = False
        self.__corr = (0, 1)

    def set_path_map(self, index2hndllist, reverse=False):
        """
        This is the core method to set up the FlatNodeMap
        Input is a list of (srtkey, handle), of which the index is the path
        Calling this method sets the index2hndllist, and creates the hndl2index
        map.
        
        :param index2hndllist: the ascending sorted (sortkey, handle) values 
                    as they will appear in the flat treeview. 
        :type index2hndllist: a list of (sortkey, handle) tuples
        """
        self._index2hndl = index2hndllist
        self._hndl2index = {}
        self._reverse = reverse
        self.reverse_order()

    def reverse_order(self):
        """
        This method keeps the index2hndl map, but sets it up the index in 
        reverse order. If the hndl2index map does not exist yet, it is created
        in the acending order as given in index2hndl
        The result is always a hndl2index map wich is correct, so or ascending
        order, or reverse order.
        """
        if self._hndl2index:
            #if hndl2index is build already, invert order, otherwise keep 
            # requested order
            self._reverse = not self._reverse
        if self._reverse:
            self.__corr = (len(self._index2hndl) - 1, -1)
        else:
            self.__corr = (0, 1)
        if not self._hndl2index: 
            for index, key in enumerate(self._index2hndl):
                #the handle is key[1]
                self._hndl2index[key[1]] = index
    
    def real_path(self, index):
        """
        Given the index in the maps, return the real path. 
        If reverse = False, then index is path, otherwise however, the 
        path must be calculated so that the last index is the first path
        """
        return self.__corr[0] + self.__corr[1] * index
    
    def real_index(self, path):
        """
        Given the path in the view, return the real index.
        If reverse = False, then path is index, otherwise however, the 
        index must be calculated so that the last index is the first path
        """
        return self.__corr[0] + self.__corr[1] * path

    def clear_map(self):
        """
        Clears out the index2hndl and the hndl2index
        """
        self._index2hndl = []
        self._hndl2index = {}

    def get_path(self, handle):
        """
        Return the path from the passed handle.
        
        :param handle: the key of the object for which the path in the treeview
                        is needed
        :param type: an object handle
        """
        return self.real_path(self._hndl2index.get(handle))

    def get_handle(self, path):
        """
        Return the handle from the path. The path is assumed to be an integer.
        This is accomplished by indexing into the index2hndl
        
        Will raise IndexError if the maps are not filled yet, or if it is empty.
        Caller should take care of this if it allows calling with invalid path
        
        :param path: path as it appears in the treeview
        :type path: integer
        """
        return self._index2hndl[self.real_index(path)][1]

    def find_next_handle(self, handle):
        """
        Finds the next handle based off the passed handle. This is accomplished
        by finding the index associated with the handle, adding or substracting
        one to find the next index, then finding the handle associated with 
        that.
        
        :param handle: the key of the object for which the next handle shown
                        in the treeview is needed
        :param type: an object handle
        """
        index = self._hndl2index.get(handle)
        if self._reverse : 
            index -= 1
            if index < 0:
                # -1 does not raise IndexError, as -1 is last element. Catch.
                return None
        else:
            index += 1

        try:
            return self._index2hndl[index][1]
        except IndexError:
            return None
    
    def get_first_handle(self):
        """
        Return the first handle that must be shown (corresponding to path 0)
        
        Will raise IndexError if the maps are not filled yet, or if it is empty.
        Caller should take care of this if it allows calling with invalid path
        """
        return self._index2hndl[self.real_index(0)][1]

    def __len__(self):
        """
        Return the number of entries in the map.
        """
        return len(self._index2hndl)
    
    def insert(self, srtkey_hndl):
        """
        Insert a node. Given is a tuple (sortkey, handle), and this is added
        in the correct place, while the hndl2index map is updated.
        Returns the path of the inserted row
        
        :param srtkey_hndl: the (sortkey, handle) tuple that must be inserted
        
        :Returns: path of the row inserted in the treeview
        :Returns type: integer
        """
        insert_pos = bisect.bisect_left(self._index2hndl, srtkey_hndl)
        self._index2hndl.insert(insert_pos, srtkey_hndl)
        #make sure the index map is updated
        for hndl, index in self._hndl2index.iteritems():
            if index >= insert_pos:
                self._hndl2index[hndl] += 1
        self._hndl2index[srtkey_hndl[1]] = insert_pos
        #update self.__corr so it remains correct
        if self._reverse:
            self.__corr = (len(self._index2hndl) - 1, -1)
        return self.real_path(insert_pos)
    
    def delete(self, handle):
        """
        Delete the row with handle.
        This then rebuilds the hndl2index, subtracting one from each item
        greater than the deleted index.
        
        :param handle: the handle that must be removed
        :type handle: an object handle
        
        :Returns: path of the row deleted from the treeview
        :Returns type: integer
        """
        index = self._hndl2index[handle]
        del self._index2hndl[index]
        del self._hndl2index[handle]
        #update self.__corr so it remains correct
        delpath = self.real_path(index)
        if self._reverse:
            self.__corr = (len(self._index2hndl) - 1, -1)
        #update the handle2path map so it remains correct
        for key, val in self._hndl2index.iteritems():
            if val > index:
                self._hndl2index[key] -= 1
        return delpath

#-------------------------------------------------------------------------
#
# FlatBaseModel
#
#-------------------------------------------------------------------------
class FlatBaseModel(gtk.GenericTreeModel):
    """
    The base class for all flat treeview models. 
    It keeps a FlatNodeMap, and obtains data from database as needed
    """

    def __init__(self, db, scol=0, order=gtk.SORT_ASCENDING,
                 tooltip_column=None, search=None, skip=set(),
                 sort_map=None):
        cput = time.clock()
        gtk.GenericTreeModel.__init__(self)
        self.prev_handle = None
        self.prev_data = None
        self.set_property("leak_references", False)
        self.db = db
        if sort_map:
            self.sort_map = [ f for f in sort_map if f[0]]
            col = self.sort_map[scol][1]
            self.sort_func = self.smap[col]
        else:
            self.sort_func = self.smap[scol]
        self.sort_col = scol
        self.skip = skip

        self.total = 0
        self.displayed = 0

        self.node_map = FlatNodeMap()

        if search:
            if search[0]:
                self.search = search[1]
                self.rebuild_data = self._rebuild_filter
            else:
                if search[1]:
                    # we have search[1] = (index, text_unicode, inversion)
                    col = search[1][0]
                    text = search[1][1]
                    inv = search[1][2]
                    func = lambda x: self.on_get_value(x, col) or u""
                    self.search = SearchFilter(func, text, inv)
                else:
                    self.search = None
                self.rebuild_data = self._rebuild_search
        else:
            self.search = None
            self.rebuild_data = self._rebuild_search
            
        self._reverse = (order == gtk.SORT_DESCENDING)
        self.tooltip_column = tooltip_column

        Config.client.notify_add("/apps/gramps/preferences/todo-color",
                                 self.__update_todo)
        Config.client.notify_add("/apps/gramps/preferences/custom-marker-color",
                                 self.__update_custom)
        Config.client.notify_add("/apps/gramps/preferences/complete-color",
                                 self.__update_complete)

        self.complete_color = Config.get(Config.COMPLETE_COLOR)
        self.todo_color = Config.get(Config.TODO_COLOR)
        self.custom_color = Config.get(Config.CUSTOM_MARKER_COLOR)
        self.rebuild_data()
        _LOG.debug(self.__class__.__name__ + ' __init__ ' +
                    str(time.clock() - cput) + ' sec')

    def __update_todo(self, client, cnxn_id, entry, data):
        """
        Callback if preferences todo color changes
        """
        self.todo_color = Config.get(Config.TODO_COLOR)
        
    def __update_custom(self, client, cnxn_id, entry, data):
        """
        Callback if preferences todo color changes
        """
        self.custom_color = Config.get(Config.CUSTOM_MARKER_COLOR)

    def __update_complete(self, client, cnxn_id, entry, data):
        """
        Callback if preferences todo color changes
        """
        self.complete_color = Config.get(Config.COMPLETE_COLOR)

    def set_sort_column(self, col):
        """
        set sort column to column with index col
        """
        self.sort_func = self.smap[col]

    def reverse_order(self):
        """
        reverse the sort order of the sort column
        """
        self._reverse = not self._reverse
        self.node_map.reverse_order()

    def sort_keys(self):
        """
        Return the (sort_key, handle) list of all data that can maximally 
        be shown. 
        This list is sorted ascending (via localized string sort)
        """
        sort_data = []
        self.total = 0
        
        with self.gen_cursor() as cursor:    # use cursor as a context manager
            #loop over database and store the sort field, and the handle
            for key, data in cursor:
                ## as per locale doc, use strxfrm for frequent compare.
                ##  apparently broken in Win --> they should fix base lib !!
                #add to sort_data in such a way that bisect module can be
                #  used on the result later on.
                sort_data.append((locale.strxfrm(self.sort_func(data)), 
                                        key))
                #bisect.insort_left(sort_data,
                #                   (locale.strxfrm(self.sort_func(data)), key))
        sort_data.sort()
        self.total = len(sort_data)
        return sort_data

    def _rebuild_search(self, ignore=None):
        """ function called when view must be build, given a search text
            in the top search bar
        """
        self.total = 0
        if self.db.is_open():
            if self.search and self.search.text:
                dlist = [h for h  in self.sort_keys()\
                             if self.search.match(h[1],self.db) and \
                             h[1] not in self.skip and h[1] != ignore]
            else:
                dlist = [h for h in self.sort_keys() \
                             if h[1] not in self.skip and h[1] != ignore]
            self.displayed = len(dlist)
            self.node_map.set_path_map(dlist, reverse=self._reverse)
        else:
            self.displayed = 0
            self.node_map.clear_map()

    def _rebuild_filter(self, ignore=None):
        """ function called when view must be build, given filter options
            in the filter sidebar
        """
        self.total = 0
        if self.db.is_open():
            if self.search:
                dlist = self.search.apply(self.db, 
                    [ k for k in self.sort_keys()\
                        if k[1] != ignore])
            else:
                dlist = [ k for k in self.sort_keys() \
                              if k[1] != ignore ]
            self.displayed = len(dlist)
            self.node_map.set_path_map(dlist, reverse=self._reverse)
        else:
            self.displayed = 0
            self.node_map.clear_map()
        
    def add_row_by_handle(self, handle):
        """
        Add a row. This is called after object with handle is created.
        Row is only added if search/filter data is such that it must be shown
        """
        if not self.search or \
                (self.search and self.search.match(handle, self.db)):
            #row needs to be added to the model
            data = self.map(handle)
            insert_val = (locale.strxfrm(self.sort_func(data)), handle)
            insert_path = self.node_map.insert(insert_val)

            if insert_path is not None:
                node = self.get_iter(insert_path)
                self.row_inserted(insert_path, node)

    def delete_row_by_handle(self, handle):
        """
        Delete a row, called after the object with handle is deleted
        """
        delete_path = self.node_map.delete(handle)
        self.row_deleted(delete_path)

    def update_row_by_handle(self, handle):
        """
        Update a row, called after the object with handle is changed
        """
        ## TODO: if sort key changes, this is not updated correctly ....
        path = self.node_map.get_path(handle)
        node = self.get_iter(path)
        self.row_changed(path, node)

    def on_get_flags(self):
        """
        Returns the GtkTreeModelFlags for this particular type of model
        See gtk.TreeModel
        """
        return gtk.TREE_MODEL_LIST_ONLY | gtk.TREE_MODEL_ITERS_PERSIST

    def on_get_n_columns(self):
        """
        Return the number of columns. Must be implemented in the child objects
        See gtk.TreeModel
        """
        raise NotImplementedError

    def on_get_path(self, handle):
        """
        Return the tree path (a tuple of indices at the various
        levels) for a particular iter. We use handles for unique key iters
        See gtk.TreeModel
        """
        return self.node_map.get_path(handle)

    def on_get_column_type(self, index):
        """
        See gtk.TreeModel
        """
        if index == self.tooltip_column:
            return object
        return str

    def on_get_iter(self, path):
        """
        See gtk.TreeModel
        """
        try:
            return self.node_map.get_handle(path[0])
        except:
            return None

    def on_get_value(self, handle, col):
        """
        See gtk.TreeModel
        """
        try:
            if handle != self.prev_handle:
                self.prev_data = self.map(str(handle))
                self.prev_handle = handle
            return self.fmap[col](self.prev_data)
        except:
            return u''

    def on_iter_next(self, handle):
        """
        Returns the next node at this level of the tree
        See gtk.TreeModel
        """
        return self.node_map.find_next_handle(handle)

    def on_iter_children(self, handle):
        """
        Return the first child of the node
        See gtk.TreeModel
        """
        if handle is None and len(self.node_map):
            return self.node_map.get_first_handle()
        return None

    def on_iter_has_child(self, handle):
        """
        Returns true if this node has children
        See gtk.TreeModel
        """
        if handle is None:
            return len(self.node_map) > 0
        return False

    def on_iter_n_children(self, handle):
        """
        See gtk.TreeModel
        """
        if handle is None:
            return len(self.node_map)
        return 0

    def on_iter_nth_child(self, handle, nth):
        """
        See gtk.TreeModel
        """
        if handle is None:
            return self.node_map.get_handle(nth)
        return None

    def on_iter_parent(self, handle):
        """
        Returns the parent of this node
        See gtk.TreeModel
        """
        return None