93add4967a
svn: r6155
490 lines
18 KiB
Python
490 lines
18 KiB
Python
#
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# Gramps - a GTK+/GNOME based genealogy program
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#
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# Copyright (C) 2001-2006 Donald N. Allingham
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#
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# This program is free software; you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation; either version 2 of the License, or
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# (at your option) any later version.
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#
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# This program is distributed in the hope that it will be useful,
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# but WITHOUT ANY WARRANTY; without even the implied warranty of
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# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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# GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License
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# along with this program; if not, write to the Free Software
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# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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#
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# $Id$
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#-------------------------------------------------------------------------
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#
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# Python modules
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#
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#-------------------------------------------------------------------------
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from TransUtils import sgettext as _
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import gc
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import re
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import logging
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import os
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log = logging.getLogger(".")
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#-------------------------------------------------------------------------
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#
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# GTK/Gnome modules
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#
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#-------------------------------------------------------------------------
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import gobject
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import gtk
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import gtk.gdk
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#-------------------------------------------------------------------------
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#
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# Gramps Modules
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#
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#-------------------------------------------------------------------------
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import RelLib
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import PageView
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import const
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glob_loc_data = [ # (Name, longitude, latitude)
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("_Center", 0,0),
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("_North",0,90),
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("_South",0,-90),
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("_West",-180,0),
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("_East",180,0),
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("Chicago",-87.75,41.83),
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("Berlin",13.42,52.53),
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("Honolulu",-157.83,21.32),
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("Madrid",-3.72,40.42),
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("Moscow",37.70,55.75),
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("Vienna",16.37,48.22),
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("Sidney",151.17,-33.92),
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("Rio de Janeiro",-43.28,-22.88),
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("Tokyo",139.75,35.67),
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("Cape Town",18.47,-33.93),
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("Anchorage",-150.00,61.17)]
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# Draws a map image and tries to allocate space in the correct aspect ratio
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class GuideMap(gtk.DrawingArea):
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def __init__(self, map_pixbuf):
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gtk.DrawingArea.__init__(self)
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self.map_pixbuf = map_pixbuf
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self.connect("expose-event", self.expose_cb)
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self.connect("size-allocate", self.size_allocate_cb)
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self.gc = None
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self.current_area = None
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self.old_size = (-1,-1)
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# Set hightlight region
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def hightlight_area( self, area):
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self.current_area = area
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self.queue_draw()
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# Redraw the image
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def expose_cb(self,widget,event):
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if not self.gc:
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self.gc = self.window.new_gc()
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self.gc.set_foreground( self.get_colormap().alloc_color("red"))
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self.gc.set_background( self.get_colormap().alloc_color("blue"))
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if self.backbuf and self.gc:
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self.window.draw_pixbuf( self.gc, self.backbuf, 0,0, 0,0, -1,-1)
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if self.current_area:
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r = self.map_to_screen(self.current_area[0],
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self.current_area[1],
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self.current_area[2],
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self.current_area[3])
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self.window.draw_rectangle( self.gc, False,
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r[0],r[1],r[2],r[3])
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# Scale backbuffer
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def size_allocate_cb(self,widget,allocation):
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# Always request a height, that is half of the width
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w = max( 128,allocation.width)
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self.set_size_request(-1,w/2)
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# only create new backbuffer if size is different
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new_size = (allocation.width,allocation.height)
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if new_size is not self.old_size:
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self.old_size = new_size
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self.backbuf = self.map_pixbuf.scale_simple(
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self.old_size[0],
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self.old_size[1],
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gtk.gdk.INTERP_BILINEAR)
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gc.collect()
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def map_to_screen( self, x,y,w,h):
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px = int((float(x) + 180.0) / 360.0 * self.backbuf.get_width())
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py = int((90-float(y)) / 180.0 * self.backbuf.get_height())
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pw = int(float(w) / 360.0 * self.backbuf.get_width())
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ph = int(float(h) / 180.0 * self.backbuf.get_height())
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return (px,py,pw,ph)
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# Zoomable map image
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class ZoomMap( gtk.DrawingArea):
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def __init__(self, map_pixbuf, place_marker_pixbuf,
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hightlight_marker_pixbuf):
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gtk.DrawingArea.__init__(self)
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self.map_pixbuf = map_pixbuf
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self.place_marker_pixbuf = place_marker_pixbuf
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self.hightlight_marker_pixbuf = hightlight_marker_pixbuf
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self.connect("expose-event", self.expose_cb)
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self.connect("size-allocate", self.size_allocate_cb)
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self.gc = None
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self.old_size = (-1,-1)
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self.zoom_pos = (0,0)
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self.current_area = (0,0,0,0)
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self.magnifer = 0.5
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self.guide = None
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self.textlayout = self.create_pango_layout("")
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# Set the guide map that should follow the zoom area
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def set_guide( self, guide):
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self.guide = guide
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def set_location_model( self, model, idx_name, idx_long, idx_lat):
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self.location_model = model
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self.idx_name = idx_name
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self.idx_long = idx_long
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self.idx_lat = idx_lat
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# Redraw the image
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def expose_cb(self,widget,event):
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if not self.gc:
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self.gc = self.window.new_gc()
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self.gc.set_foreground( self.get_colormap().alloc_color("red"))
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self.gc.set_background( self.get_colormap().alloc_color("blue"))
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if not self.backbuf:
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self.size_allocate_cb( self,self.get_allocation())
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if self.backbuf and self.gc:
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self.window.draw_pixbuf( self.gc, self.backbuf, 0,0, 0,0, -1,-1)
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# draw all available locations
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if self.location_model:
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iter = self.location_model.get_iter_first()
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while iter:
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(n,x,y) = self.location_model.get( iter, self.idx_name, self.idx_long, self.idx_lat)
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(px,py) = self.map_to_screen( x, y)
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if px > 0 and py > 0 and px < self.backbuf.get_width() and py < self.backbuf.get_height():
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# draw only visible markers
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#self.window.draw_pixbuf(
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# self.gc,
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# self.place_marker_pixbuf,
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# 0,0,
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# px-self.place_marker_pixbuf.get_width()/2,
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# py-self.place_marker_pixbuf.get_height()/2,
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# -1,-1)
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self.textlayout.set_text(n)
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self.window.draw_layout(
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self.gc,
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px,py,
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self.textlayout)
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iter = self.location_model.iter_next( iter)
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# hightlight current location
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(px,py) = self.map_to_screen( self.zoom_pos[0], self.zoom_pos[1])
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self.window.draw_pixbuf(
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self.gc,
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self.hightlight_marker_pixbuf,
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0,0,
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px-self.hightlight_marker_pixbuf.get_width()/2,
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py-self.hightlight_marker_pixbuf.get_height()/2,
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-1,-1)
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#self.window.draw_rectangle( self.gc, False, px-3,py-3, 6,6)
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def map_to_screen( self, long, lat):
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px = int(self.backbuf.get_width() / self.current_map_area[2] *
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(float(long) - self.current_map_area[0]))
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py = int(self.backbuf.get_height() / self.current_map_area[3] *
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(-float(lat) + self.current_map_area[1]))
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return( px, py)
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# Scale backbuffer
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def size_allocate_cb(self,widget,allocation):
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# only create new backbuffer if size is different
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new_size = (allocation.width,allocation.height)
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if new_size is not self.old_size or not self.backbuf:
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self.old_size = new_size
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# Desired midpoint in map
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pw = int(self.old_size[0]*self.magnifer)
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ph = int(self.old_size[1]*self.magnifer)
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px = int((float(self.zoom_pos[0]) + 180.0) / 360.0
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* self.map_pixbuf.get_width())
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py = int((90-float(self.zoom_pos[1])) / 180.0
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* self.map_pixbuf.get_height())
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px = max( pw/2, px)
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py = max( ph/2, py)
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px = min( px, self.map_pixbuf.get_width()-1-pw/2)
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py = min( py, self.map_pixbuf.get_height()-1-ph/2)
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try:
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zoomebuf = self.map_pixbuf.subpixbuf( max(0,int(px-pw/2)),max(0,int(py-ph/2)),
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min(self.map_pixbuf.get_width(),pw),
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min(self.map_pixbuf.get_height(),ph))
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self.backbuf = zoomebuf.scale_simple(self.old_size[0],
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self.old_size[1],
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gtk.gdk.INTERP_BILINEAR)
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gc.collect()
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mx = 360.0 / self.map_pixbuf.get_width() * (px-pw/2.0) - 180.0
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my = 90.0 - 180.0 / self.map_pixbuf.get_height() * (py-ph/2.0)
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mw = 360.0 / self.map_pixbuf.get_width() * pw
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mh = 180.0 / self.map_pixbuf.get_height() * ph
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self.current_area = (px-pw/2, py-ph/2, pw,ph)
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self.current_map_area = (mx, my, mw, mh)
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if self.guide:
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self.guide.hightlight_area( (mx,my,mw,mh))
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except:
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pass
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# Scroll to requested position
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def scroll_to( self, long, lat):
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self.zoom_pos = ( min(180,(max(-180,long))), min(90,(max(-90,lat))))
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self.backbuf = None
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self.queue_draw()
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def zoom_out(self):
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self.magnifer = min( 10, self.magnifer * 1.5)
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self.backbuf = None
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self.queue_draw()
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def zoom_in(self):
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self.magnifer = max( 0.1, self.magnifer * 0.75)
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self.backbuf = None
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self.queue_draw()
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def zoom_normal(self):
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self.magnifer = 1
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self.backbuf = None
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self.queue_draw()
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def zoom_fit(self):
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self.magnifer = 2
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self.backbuf = None
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self.queue_draw()
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# Place list widget
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class MapPlacesList(gtk.TreeView):
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def __init__(self, data):
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self.lstore = gtk.ListStore(
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gobject.TYPE_STRING,
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gobject.TYPE_FLOAT,
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gobject.TYPE_FLOAT)
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self.change_data( data)
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gtk.TreeView.__init__(self, self.lstore)
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self.set_rules_hint(True)
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self.set_search_column(0)
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column = gtk.TreeViewColumn('Place', gtk.CellRendererText(), text=0)
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column.set_sort_column_id(0)
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self.append_column(column)
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column = gtk.TreeViewColumn('Lat', gtk.CellRendererText(), text=1)
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column.set_sort_column_id(1)
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self.append_column(column)
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column = gtk.TreeViewColumn('Long', gtk.CellRendererText(),text=2)
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column.set_sort_column_id(2)
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self.append_column(column)
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def change_data( self, data):
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self.lstore.clear()
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for item in data:
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iter = self.lstore.append()
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self.lstore.set(iter,
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0, item[0],
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1, item[1],
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2, item[2])
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# Map View main class
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class MapView(PageView.PageView):
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def __init__(self,dbstate,uistate):
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PageView.PageView.__init__(self,'Map View',dbstate,uistate)
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dbstate.connect('database-changed',self.change_db)
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self.current_marker = None
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def navigation_type(self):
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return PageView.NAVIGATION_NONE
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def define_actions(self):
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self.add_action('ZoomIn',gtk.STOCK_ZOOM_IN,
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"Zoom _In",callback=self.zoom_in_cb)
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self.add_action('ZoomOut',gtk.STOCK_ZOOM_OUT,
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"Zoom _Out",callback=self.zoom_out_cb)
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self.add_action('ZoomNormal',gtk.STOCK_ZOOM_100,
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"_Normal Size", callback=self.zoom_100_cb)
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self.add_action('ZoomFit',gtk.STOCK_ZOOM_FIT,
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"Best _Fit",callback=self.zoom_fit_cb)
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def get_stock(self):
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"""
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Returns the name of the stock icon to use for the display.
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This assumes that this icon has already been registered with
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GNOME as a stock icon.
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"""
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return 'gramps-map'
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# For debugging: Reads in location from xearth
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def get_xearth_markers(self):
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data = []
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try:
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f = open("/etc/xearth/xearth.markers")
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l = f.readline()
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#linere = re.compile('[^0-9.-]*(-?[0-9]+\.[0-9]+)[^0-9.-]*(-?[0-9]+\.[0-9]+).*"([^"])".*', "I")
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while l:
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if not l[0] == "#":
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l = l.strip().replace('"',"").replace(" "," ").replace(" "," ").replace(" "," ").replace(" # ",", ")
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m = l.split( None, 2)
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if len(m) == 3:
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data.append( (m[2],float(m[1]),float(m[0])))
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l = f.readline()
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except IOError:
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pass
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return data
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# Reads in locations from current GRAMPS database
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def get_markers_from_database(self, db):
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data = []
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for place_handle in db.get_place_handles():
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place = db.get_place_from_handle( place_handle)
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if place:
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try:
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data.append( (place.get_title(),float(place.get_longitude()),float(place.get_latitude())))
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except (TypeError, ValueError):
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# ignore places that dont have usable data
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pass
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return data
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# Reads in textfiles from NIMA:
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# http://earth-info.nga.mil/gns/html/cntry_files.html
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def parse_nima_countryfile(self, filename):
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import csv
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data = []
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try:
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csvreader = csv.reader(open(filename), "excel-tab")
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l = csvreader.next() # skip header
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l = csvreader.next()
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line = 1
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while l:
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if l[17] == "N" and l[9] == "P":
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city = l[22]
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lat = float( l[3])
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lon = float( l[4])
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if line % 10 == 0:
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data.append( (city, lon, lat))
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l = csvreader.next()
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line = line + 1
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except (IOError,StopIteration):
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pass
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return data
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def build_widget(self):
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hbox = gtk.HBox( False, 4)
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hbox.set_border_width( 4)
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no = gtk.Image()
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# The large zoomable map
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self.zoom_map = ZoomMap(
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gtk.gdk.pixbuf_new_from_file(os.path.join(const.image_dir,"land_shallow_topo_2048.jpg")),
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gtk.gdk.pixbuf_new_from_file(os.path.join(const.image_dir,"bad.png")),
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gtk.gdk.pixbuf_new_from_file(os.path.join(const.image_dir,"good.png")))
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self.zoom_map.set_size_request(300,300)
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hbox.pack_start( self.zoom_map, True, True, 0)
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# On the right side
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vbox = gtk.VBox( False, 4)
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hbox.pack_start( vbox, False, False, 0)
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# The small guide map
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self.guide_map = GuideMap(
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gtk.gdk.pixbuf_new_from_file(os.path.join(const.image_dir,"land_shallow_topo_350.jpg")))
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self.guide_map.set_size_request(128,64)
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vbox.pack_start( self.guide_map, False, True, 0)
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self.zoom_map.set_guide(self.guide_map)
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# and the place list
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self.place_list_view = MapPlacesList( [])
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self.zoom_map.set_location_model(self.place_list_view.get_model(), 0,1,2)
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self.place_list_view.connect("cursor-changed", self.entry_select_cb)
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self.place_list_view.set_size_request(128,-1)
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vport = gtk.ScrolledWindow()
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vbox.pack_start(vport,True,True,0)
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vport.add( self.place_list_view)
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self.rebuild_places()
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return hbox
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def ui_definition(self):
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"""
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Specifies the UIManager XML code that defines the menus and buttons
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associated with the interface.
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"""
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return '''<ui>
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<toolbar name="ToolBar">
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<toolitem action="ZoomIn"/>
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<toolitem action="ZoomOut"/>
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<toolitem action="ZoomNormal"/>
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<toolitem action="ZoomFit"/>
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</toolbar>
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</ui>'''
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def change_db(self,db):
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"""
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Callback associated with DbState. Whenenver the database
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changes, this task is called. In this case, we rebuild the
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columns, and connect signals to the connected database. Tere
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is no need to store the database, since we will get the value
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from self.state.db
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"""
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db.connect('place-rebuild',self.rebuild_places)
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db.connect('place-update',self.rebuild_places)
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def rebuild_places(self,handle_list=None):
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d = glob_loc_data
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try:
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d = d + self.get_xearth_markers()
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#d = self.parse_nima_countryfile("/tmp/gm.txt")
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d = d + self.get_markers_from_database( self.dbstate.db)
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except:
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log.error("Failed to rebuild places.", exc_info=True)
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self.place_list_view.change_data( d)
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def entry_select_cb(self,treeview):
|
|
s = treeview.get_selection()
|
|
(model,sel) = s.get_selected_rows()
|
|
for path in sel:
|
|
iter = model.get_iter(path)
|
|
self.zoom_map.scroll_to(model.get_value(iter,1),
|
|
model.get_value(iter,2))
|
|
break
|
|
|
|
def zoom_in_cb(self,obj):
|
|
self.zoom_map.zoom_in()
|
|
|
|
def zoom_out_cb(self,obj):
|
|
self.zoom_map.zoom_out()
|
|
|
|
def zoom_100_cb(self,obj):
|
|
self.zoom_map.zoom_normal()
|
|
|
|
def zoom_fit_cb(self,obj):
|
|
self.zoom_map.zoom_fit()
|