Geography: convert to gtk3 and some cleaning. not finished, but it works.

svn: r20358
This commit is contained in:
Serge Noiraud 2012-09-10 18:55:23 +00:00
parent 136438c5c5
commit 1fe42b7f49
8 changed files with 86 additions and 77 deletions

View File

@ -46,6 +46,7 @@ _LOG = logging.getLogger("maps.datelayer")
#
#-------------------------------------------------------------------------
from gi.repository import Gtk
from gi.repository import Gdk
#-------------------------------------------------------------------------
#
@ -109,11 +110,10 @@ class DateLayer(GObject.GObject, osmgpsmap.MapLayer):
if date > self.last or self.last == " ":
self.last = date
def do_draw(self, gpsmap, drawable):
def do_draw(self, gpsmap, ctx):
"""
Draw the two extreme dates
"""
ctx = drawable.cairo_create()
ctx.select_font_face(self.font,
cairo.FONT_SLANT_NORMAL,
cairo.FONT_WEIGHT_NORMAL)

View File

@ -41,6 +41,7 @@ from math import pi
#-------------------------------------------------------------------------
from gi.repository import Gtk
from gi.repository import GdkPixbuf
import cairo
#-------------------------------------------------------------------------
#
@ -145,14 +146,12 @@ class GeoGraphyView(OsmGps, NavigationView):
self.place_list = []
self.places_found = []
self.select_fct = None
self.geo_mainmap = GdkPixbuf.Pixbuf.new_from_file_at_size(
self.geo_mainmap = cairo.ImageSurface.create_from_png(
os.path.join(ROOT_DIR, "images", "48x48",
('gramps-geo-mainmap' + '.png' )),
48, 48)
self.geo_altmap = GdkPixbuf.Pixbuf.new_from_file_at_size(
('gramps-geo-mainmap' + '.png' )))
self.geo_altmap = cairo.ImageSurface.create_from_png(
os.path.join(ROOT_DIR, "images", "48x48",
('gramps-geo-altmap' + '.png' )),
48, 48)
('gramps-geo-altmap' + '.png' )))
if ( config.get('geography.map_service') in
( constants.OPENSTREETMAP, constants.OPENSTREETMAP_RENDERER )):
default_image = self.geo_mainmap
@ -162,10 +161,9 @@ class GeoGraphyView(OsmGps, NavigationView):
for ident in ( gen.lib.EventType.BIRTH,
gen.lib.EventType.DEATH,
gen.lib.EventType.MARRIAGE ):
self.geo_othermap[ident] = GdkPixbuf.Pixbuf.new_from_file_at_size(
self.geo_othermap[ident] = cairo.ImageSurface.create_from_png(
os.path.join(ROOT_DIR, "images", "48x48",
(constants.ICONS.get(int(ident), default_image) + '.png' )),
48, 48)
(constants.ICONS.get(int(ident), default_image) + '.png' )))
def change_page(self):
"""
@ -175,6 +173,29 @@ class GeoGraphyView(OsmGps, NavigationView):
self.uistate.clear_filter_results()
self.end_selection = None
def do_size_request(self, requisition):
"""
Overridden method to handle size request events.
"""
requisition.width = 400
requisition.height = 300
def do_get_preferred_width(self):
""" GTK3 uses width for height sizing model. This method will
override the virtual method
"""
req = Gtk.Requisition()
self.do_size_request(req)
return req.width, req.width
def do_get_preferred_height(self):
""" GTK3 uses width for height sizing model. This method will
override the virtual method
"""
req = Gtk.Requisition()
self.do_size_request(req)
return req.height, req.height
def on_delete(self):
"""
Save all modified environment
@ -585,10 +606,6 @@ class GeoGraphyView(OsmGps, NavigationView):
level_start = self.osm.props.zoom
p1lat, p1lon = self.begin_selection.get_degrees()
p2lat, p2lon = self.end_selection.get_degrees()
#p1lat = 180 * self.begin_selection.rlat / pi
#p1lon = 180 * self.begin_selection.rlon / pi
#p2lat = 180 * self.end_selection.rlat / pi
#p2lon = 180 * self.end_selection.rlon / pi
lat = p1lat + ( p2lat - p1lat ) / 2
lon = p1lon + ( p2lon - p1lon ) / 2
# We center the map on the center of the region
@ -754,7 +771,6 @@ class GeoGraphyView(OsmGps, NavigationView):
Edit the selected family at the marker position
"""
_LOG.debug("edit_family : %s" % mark[11])
# need to add code here to edit the family.
family = self.dbstate.db.get_family_from_gramps_id(mark[11])
try:
EditFamily(self.dbstate, self.uistate, [], family)
@ -766,7 +782,6 @@ class GeoGraphyView(OsmGps, NavigationView):
Edit the selected event at the marker position
"""
_LOG.debug("edit_event : %s" % mark[10])
# need to add code here to edit the event.
event = self.dbstate.db.get_event_from_gramps_id(mark[10])
try:
EditEvent(self.dbstate, self.uistate, [], event)
@ -833,7 +848,6 @@ class GeoGraphyView(OsmGps, NavigationView):
"""
Edit the selected place at the marker position
"""
# need to add code here to edit the event.
self.select_fct.close()
place = self.dbstate.db.get_place_from_gramps_id(self.mark[9])
place.set_latitude(str(plat))

View File

@ -45,6 +45,7 @@ _LOG = logging.getLogger("maps.lifeway")
#
#-------------------------------------------------------------------------
from gi.repository import Gtk
from gi.repository import Gdk
#-------------------------------------------------------------------------
#
@ -98,31 +99,31 @@ class LifeWayLayer(GObject.GObject, osmgpsmap.MapLayer):
"""
Add a track or life way.
"""
if isinstance(color,str):
color = Gdk.color_parse(color)
self.lifeways.append((points, color))
def do_draw(self, gpsmap, drawable):
def do_draw(self, gpsmap, ctx):
"""
Draw all tracks or life ways.
"""
ctx = drawable.cairo_create()
for lifeway in self.lifeways_ref:
ctx.set_line_cap(cairo.LINE_CAP_ROUND)
ctx.set_line_join(cairo.LINE_JOIN_ROUND)
ctx.set_line_width(3)
color = Gdk.color_parse(lifeway[1])
color = lifeway[1]
ctx.set_source_rgba(float(color.red / 65535.0),
float(color.green / 65535.0),
float(color.blue / 65535.0),
0.1) # transparency
ggc = drawable.new_gc()
rds = float(lifeway[2])
for point in lifeway[0]:
conv_pt1 = osmgpsmap.point_new_degrees(point[0], point[1])
conv_pt1 = osmgpsmap.MapPoint.new_degrees(point[0], point[1])
coord_x1, coord_y1 = gpsmap.convert_geographic_to_screen(conv_pt1)
conv_pt2 = osmgpsmap.point_new_degrees(point[0]+rds, point[1])
conv_pt2 = osmgpsmap.MapPoint.new_degrees(point[0]+rds, point[1])
coord_x2, coord_y2 = gpsmap.convert_geographic_to_screen(conv_pt2)
coy = abs(coord_y2-coord_y1)
conv_pt2 = osmgpsmap.point_new_degrees(point[0], point[1]+rds)
conv_pt2 = osmgpsmap.MapPoint.new_degrees(point[0], point[1]+rds)
coord_x2, coord_y2 = gpsmap.convert_geographic_to_screen(conv_pt2)
cox = abs(coord_x2-coord_x1)
cox = cox if cox > 0.001 else 0.001
@ -135,25 +136,21 @@ class LifeWayLayer(GObject.GObject, osmgpsmap.MapLayer):
ctx.translate(coord_x1, coord_y1/coz)
ctx.arc(0.0, 0.0, cox, 0.0, 2*pi)
ctx.fill()
ctx.set_line_width(2.0)
ctx.arc(0.0, 0.0, cox, 0.0, 2*pi)
ctx.set_source_rgba(1.0,0.0,0.0,0.5)
ctx.stroke()
ctx.restore()
top_left = osmgpsmap.point_new_degrees(point[0] + lifeway[2],
point[1] - lifeway[2])
bottom_right = osmgpsmap.point_new_degrees(point[0] - lifeway[2],
point[1] + lifeway[2])
crd_x, crd_y = gpsmap.convert_geographic_to_screen(top_left)
crd_x2, crd_y2 = gpsmap.convert_geographic_to_screen(bottom_right)
drawable.draw_arc(ggc, False, crd_x, crd_y, crd_x2 - crd_x,
crd_y2 - crd_y, 0, 360*64)
for lifeway in self.lifeways:
ctx.set_operator(cairo.OPERATOR_ATOP)
ctx.set_line_width(3.0)
map_points = []
for point in lifeway[0]:
conv_pt = osmgpsmap.point_new_degrees(point[0], point[1])
conv_pt = osmgpsmap.MapPoint.new_degrees(point[0], point[1])
coord_x, coord_y = gpsmap.convert_geographic_to_screen(conv_pt)
map_points.append((coord_x, coord_y))
color = Gdk.color_parse(lifeway[1])
color = lifeway[1]
ctx.set_source_rgb(float(color.red / 65535.0),
float(color.green / 65535.0),
float(color.blue / 65535.0))

View File

@ -115,13 +115,12 @@ class MarkerLayer(GObject.GObject, osmgpsmap.MapLayer):
self.min_value = count
self.nb_ref_by_places = self.max_references / self.max_places
def do_draw(self, gpsmap, drawable):
def do_draw(self, gpsmap, ctx):
"""
Draw all markers here. Calculate where to draw the marker.
Depending of the average, minimum and maximum value, resize the marker.
We use cairo to resize the marker.
"""
ctx = drawable.cairo_create()
max_interval = self.max_value - self.nb_ref_by_places
min_interval = self.nb_ref_by_places - self.min_value
if max_interval == 0: # This to avoid divide by zero
@ -144,7 +143,7 @@ class MarkerLayer(GObject.GObject, osmgpsmap.MapLayer):
size -= (0.3 * ((self.nb_ref_by_places - mark)
/ min_interval) )
conv_pt = osmgpsmap.point_new_degrees(float(marker[0][0]),
conv_pt = osmgpsmap.MapPoint.new_degrees(float(marker[0][0]),
float(marker[0][1]))
coord_x, coord_y = gpsmap.convert_geographic_to_screen(conv_pt)
ctx.translate(coord_x, coord_y)
@ -156,7 +155,7 @@ class MarkerLayer(GObject.GObject, osmgpsmap.MapLayer):
# So we shift the image position.
posY = - int( 48 * size + 0.5 ) - 10
posX = - int(( 48 * size ) / 6 + 0.5 ) - 10
ctx.set_source_pixbuf(marker[1], posX, posY)
ctx.set_source_surface(marker[1], posX, posY)
ctx.paint()
ctx.restore()
_LOG.debug("%s" % time.strftime("end drawing : "

View File

@ -48,6 +48,7 @@ _LOG = logging.getLogger("maps.messagelayer")
from gi.repository import Gdk
#from gi.repository import Cairo
import cairo
import pangocairo
#-------------------------------------------------------------------------
#
@ -112,11 +113,10 @@ class MessageLayer(GObject.GObject, osmgpsmap.MapLayer):
"""
self.message.append(message)
def do_draw(self, gpsmap, drawable):
def do_draw(self, gpsmap, ctx):
"""
Draw the two extreme dates
"""
ctx = drawable.cairo_create()
ctx.select_font_face(self.font,
cairo.FONT_SLANT_NORMAL,
cairo.FONT_WEIGHT_NORMAL)
@ -128,12 +128,19 @@ class MessageLayer(GObject.GObject, osmgpsmap.MapLayer):
0.9) # transparency
coord_x = 100
coord_y = int(self.size) # Show the first line under the zoom button
(d_width, d_height) = drawable.get_size()
#(d_width, d_height) = drawable.get_size()
pcr = pangocairo.CairoContext(ctx)
ctx_layout = pcr.create_layout()
(d_width, d_height) = ctx_layout.get_size()
print d_width, d_height
d_width -= 100
for line in self.message:
line_to_print = line
(x_bearing, y_bearing, width, height, x_advance, y_advance) = ctx.text_extents(line_to_print)
while ( width > d_width):
#while ( width > d_width):
# BUG here d_with is negative
while ( width > 1000):
print width, " > ", d_width
line_length = len(line_to_print)
character_length = int(width/line_length) + 1
max_length = int(d_width / character_length) - 5

View File

@ -28,7 +28,6 @@
#
#-------------------------------------------------------------------------
import os
from math import pi
from gi.repository import GObject
#------------------------------------------------------------------------
@ -250,9 +249,6 @@ class OsmGps():
"""
current = osmmap.convert_screen_to_geographic(int(event.x), int(event.y))
lat, lon = current.get_degrees()
#lat = 180 * current.rlat / pi
#lon = 180 * current.rlon / pi
#print event.x, event.y, lat, lon
if self.zone_selection:
# We draw a rectangle to show the selected region.
layer = self.get_selection_layer()
@ -307,12 +303,8 @@ class OsmGps():
mouse button 3 : call the menu
"""
lat, lon = self.osm.get_event_location(event).get_degrees()
#lat = 180 * self.osm.get_event_location(event).rlat / pi
#lon = 180 * self.osm.get_event_location(event).rlon / pi
current = osm.convert_screen_to_geographic(int(event.x), int(event.y))
lat, lon = current.get_degrees()
#lat = 180 * current.rlat / pi
#lon = 180 * current.rlon / pi
if event.button == 1:
if self.end_selection is not None:
self.activate_selection_zoom(osm, event)

View File

@ -76,20 +76,20 @@ class SelectionLayer(GObject.GObject, osmgpsmap.MapLayer):
"""
self.rectangles.append((cp1, cp2))
def do_draw(self, gpsmap, drawable):
def do_draw(self, gpsmap, ctx):
"""
draw the circles and the rectangles
"""
ggc = drawable.new_gc()
for circle in self.circles:
top_left = osmgpsmap.point_new_degrees(circle[1] + circle[0],
top_left = osmgpsmap.MapPoint.new_degrees(circle[1] + circle[0],
circle[2] - circle[0])
bottom_right = osmgpsmap.point_new_degrees(circle[1] - circle[0],
bottom_right = osmgpsmap.MapPoint.new_degrees(circle[1] - circle[0],
circle[2] + circle[0])
crd_x, crd_y = gpsmap.convert_geographic_to_screen(top_left)
crd_x2, crd_y2 = gpsmap.convert_geographic_to_screen(bottom_right)
drawable.draw_arc(ggc, False, crd_x, crd_y, crd_x2 - crd_x,
crd_y2 - crd_y, 0, 360*64)
#drawable.draw_arc(ggc, False, crd_x, crd_y, crd_x2 - crd_x,
# crd_y2 - crd_y, 0, 360*64)
ctx.arc(crd_x, crd_y, crd_x2 - crd_x, crd_y2 - crd_y, 0, 360*64)
for rectangle in self.rectangles:
top_left, bottom_right = rectangle
crd_x, crd_y = gpsmap.convert_geographic_to_screen(top_left)
@ -97,18 +97,22 @@ class SelectionLayer(GObject.GObject, osmgpsmap.MapLayer):
# be sure when can select a region in all case.
if ( crd_x < crd_x2 ):
if ( crd_y < crd_y2 ):
drawable.draw_rectangle(ggc, False, crd_x, crd_y,
crd_x2 - crd_x, crd_y2 - crd_y)
#drawable.draw_rectangle(ggc, False, crd_x, crd_y,
# crd_x2 - crd_x, crd_y2 - crd_y)
ctx.rectangle(crd_x, crd_y, crd_x2 - crd_x, crd_y2 - crd_y)
else:
drawable.draw_rectangle(ggc, False, crd_x, crd_y2,
crd_x2 - crd_x, crd_y - crd_y2)
#drawable.draw_rectangle(ggc, False, crd_x, crd_y2,
# crd_x2 - crd_x, crd_y - crd_y2)
ctx.rectangle(crd_x, crd_y2, crd_x2 - crd_x, crd_y - crd_y2)
else:
if ( crd_y < crd_y2 ):
drawable.draw_rectangle(ggc, False, crd_x2, crd_y,
crd_x - crd_x2, crd_y2 - crd_y)
#drawable.draw_rectangle(ggc, False, crd_x2, crd_y,
# crd_x - crd_x2, crd_y2 - crd_y)
ctx.rectangle(crd_x2, crd_y, crd_x - crd_x2, crd_y2 - crd_y)
else:
drawable.draw_rectangle(ggc, False, crd_x2, crd_y2,
crd_x - crd_x2, crd_y - crd_y2)
#drawable.draw_rectangle(ggc, False, crd_x2, crd_y2,
# crd_x - crd_x2, crd_y - crd_y2)
ctx.rectangle(crd_x2, crd_y2, crd_x - crd_x2, crd_y - crd_y2)
def do_render(self, gpsmap):
"""

View File

@ -521,30 +521,26 @@ class GeoMoves(GeoGraphyView):
death = high_date
new_list.append([level, plxp, birth, death])
pidx = 0;
if isinstance(color, str) :
color = Gdk.color_parse(color)
#try:
# color = Gdk.color_parse(color)
#except:
# # We have already a Gdk.color
# pass
for (level, plxp, birth, death) in sorted(new_list, key=operator.itemgetter(0,2)):
if index == int(self._config.get("geography.maximum_generations")):
break
if level == index:
pidx += 1
self._createmap_for_one_person(plxp, str(color))
color.red = (float(color.red - (index)*3000))
self._createmap_for_one_person(plxp, color)
color.red = (float(color.red - (index)*3000)%65535)
if ( index % 2 ):
color.green = float((color.green + (index)*3000))
color.green = float((color.green + (index)*3000)%65535)
else:
color.blue = float((color.blue + (index)*3000))
self._createmap_for_one_person(person, str(color))
color.blue = float((color.blue + (index)*3000)%65535)
self._createmap_for_one_person(person, color)
if index < int(self._config.get("geography.maximum_generations")):
time_to_wait = int(self._config.get("geography.generation_interval"))
self._create_markers()
# process next generation in a few milliseconds
GObject.timeout_add(time_to_wait, self.animate_moves,
index+1, person, str(color))
index+1, person, color)
else:
self.started = False
return False