gramps/gramps2/src/PedView.py
Don Allingham 245fa23f64 * src/Bookmarks.py: use IDs instead of person references
* src/ChooseParents.py: allow for NOSORT option
* src/GrampsParser.py: removed
* src/GrampsXML.py: removed
* src/MediaView.py: allow for NOSORT option
* src/PedView.py: double click to edit
* src/PeopleView.py: allow for NOSORT option
* src/PlaceView.py: allow for NOSORT option
* src/RelLib.py: handle bookmarks in metadata
* src/ReadXML.py: merge GrampsParser
* src/SourceView.py: allow for NOSORT option
* src/const.py.in: fix paths for xml files
* src/gramps_main.py: bookmark fixes
* src/papersize.xml : move to data subdirectory
* src/plugins/ReadGedcom.py: fix menu string
* src/plugins/ReadNative.py: fix menu string
* src/plugins/ReadPkg.py: fix menu string


svn: r3085
2004-04-11 02:37:13 +00:00

602 lines
22 KiB
Python

#
# Gramps - a GTK+/GNOME based genealogy program
#
# Copyright (C) 2001-2004 Donald N. Allingham
#
# 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
#
# $Id$
#-------------------------------------------------------------------------
#
# GTK/Gnome modules
#
#-------------------------------------------------------------------------
import gtk
import gtk.gdk
import gnome.canvas
import pango
#-------------------------------------------------------------------------
#
# Gramps Modules
#
#-------------------------------------------------------------------------
import GrampsCfg
from gettext import gettext as _
_PAD = 3
_CANVASPAD = 3
_PERSON = "p"
_BORN = _('b.')
_DIED = _('d.')
class DispBox:
def __init__(self,root,style,x,y,w,h,person,db,change,edit):
shadow = _PAD
xpad = _PAD
self.change = change
self.edit = edit
self.x = x
self.y = y
self.w = w
self.h = h
self.person = person
self.root = root
self.name = GrampsCfg.nameof(person)
birth_id = self.person.get_birth_id()
death_id = self.person.get_death_id()
if birth_id:
bd = db.find_event_from_id(birth_id).get_date()
else:
bd = ""
if death_id:
dd = db.find_event_from_id(death_id).get_date()
else:
dd = ""
if bd and dd:
self.exp = "%s\n%s %s\n%s %s" % (self.name,_BORN,bd,_DIED,dd )
elif bd:
self.exp = "%s\n%s %s" % (self.name,_BORN,bd )
elif dd:
self.exp = "%s\n%s %s" % (self.name,_DIED,dd )
else:
self.exp = "%s" % self.name
self.group = self.root.add(gnome.canvas.CanvasGroup,x=x,y=y)
self.shadow = self.group.add(gnome.canvas.CanvasRect,
x1=shadow,
y1=shadow,
x2=w+shadow,
y2=h+shadow,
outline_color_gdk=style.dark[gtk.STATE_NORMAL],
fill_color_gdk=style.dark[gtk.STATE_NORMAL])
# draw the real box
self.bkgnd = self.group.add(gnome.canvas.CanvasRect,
x1=0,
y1=0,
x2=w,
y2=h,
outline_color_gdk=style.fg[gtk.STATE_NORMAL],
fill_color_gdk=style.base[gtk.STATE_NORMAL])
font = gtk.gdk.font_from_description(style.font_desc)
self.textbox = self.group.add(gnome.canvas.CanvasText,
x=xpad,
y=h/2.0,
text=self.name,
fill_color_gdk=style.text[gtk.STATE_NORMAL],
font=font, anchor=gtk.ANCHOR_WEST)
self.group.connect('event',self.group_event)
self.group.set_data(_PERSON,person)
def cleanup(self):
self.shadow.destroy()
self.bkgnd.destroy()
self.textbox.destroy()
self.group.destroy()
return
def group_event(self,obj,event):
"""Handle events over a drawn box. Doubleclick would edit,
shift doubleclick would change the active person, entering
the box expands it to display more information, leaving a
box returns it to the original size and information"""
if event.type == gtk.gdk._2BUTTON_PRESS:
self.edit(self.person)
return 0
elif event.type == gtk.gdk.ENTER_NOTIFY:
self.expand()
return 0
elif event.type == gtk.gdk.LEAVE_NOTIFY:
self.shrink()
return 0
return 0
def expand(self):
"""Expand a box to include additional information"""
self.textbox.set(text=self.exp)
self.bkgnd.set(y1=-self.h,y2=self.h*2)
self.shadow.set(y1=-self.h+_PAD,y2=self.h*2+_PAD)
def shrink(self):
"""Expand a box to include additional information"""
self.textbox.set(text=self.name)
self.bkgnd.set(y1=0,y2=self.h)
self.shadow.set(y1=_PAD,y2=self.h+_PAD)
#-------------------------------------------------------------------------
#
# PedigreeView
#
#-------------------------------------------------------------------------
class PedigreeView:
def __init__(self,parent,canvas,update,status_bar,change_active,lp):
self.parent = parent
self.canvas = canvas
self.canvas_items = []
self.boxes = []
self.root = self.canvas.root()
self.active_person = None
self.x1 = 0
self.x2 = 0
self.y1 = 0
self.y2 = 0
self.update = update
self.sb = status_bar
self.change_active_person = change_active
self.load_person = lp
self.anchor = None
self.canvas.connect('button-press-event',self.on_canvas_press)
def clear(self):
for i in self.canvas_items:
i.destroy()
for i in self.boxes:
i.cleanup()
def load_canvas(self, person):
"""Redraws the pedigree view window, using the passed person
as the root person of the tree."""
self.clear()
if person is not self.active_person:
self.active_person = person
if person == None:
return
h = 0
w = 0
(x2,y2) = self.canvas.get_size()
self.canvas.set_scroll_region(0,0,x2,y2)
style = self.canvas.get_style()
font = gtk.gdk.font_from_description(style.font_desc)
list = [None]*31
self.find_tree(self.active_person,0,1,list)
# determine the largest string width and height for calcuation
# of box sizes.
a = pango.Layout(self.canvas.get_pango_context())
for t in list:
if t:
birth_id = t[0].get_birth_id()
death_id = t[0].get_death_id()
if birth_id:
birth = self.parent.db.find_event_from_id(birth_id).get_date()
else:
birth = u""
if death_id:
death = self.parent.db.find_event_from_id(death_id).get_date()
else:
death = u""
for n in [GrampsCfg.nameof(t[0]), u'%s %s' % (_BORN,birth),
u'%s %s' % (_DIED,death)]:
try:
a.set_text(n,len(n))
except TypeError:
a.set_text(n)
(w1,h1) = a.get_pixel_size()
h = max(h,h1)
w = max(w,w1)
cpad = 10
w = w+_PAD
cw = x2-(2*cpad)-10-h
ch = y2-(2*cpad)
if 5*w < cw and 24*h < ch:
gen = 31
xdiv = 5.0
elif 4*w < cw and 12*h < ch:
gen = 15
xdiv = 4.0
else:
gen = 7
xdiv = 3.0
xpts = self.build_x_coords(cw/xdiv,_CANVASPAD+h)
ypts = self.build_y_coords((ch-h)/32.0, h)
self.anchor_txt = self.root.add(gnome.canvas.CanvasText,
x=0,
y=y2-12,
font=font,
text=self.make_anchor_label(),
fill_color_gdk=style.fg[gtk.STATE_NORMAL],
anchor=gtk.ANCHOR_WEST)
self.canvas_items.append(self.anchor_txt)
for family_id in self.active_person.get_family_id_list():
family = self.parent.db.find_family_from_id(family_id)
if len(family.get_child_id_list()) > 0:
button,arrow = self.make_arrow_button(gtk.ARROW_LEFT,
self.on_show_child_menu)
item = self.root.add(gnome.canvas.CanvasWidget, widget=button,
x=_CANVASPAD, y=ypts[0]+(h/2.0),
height=h, width=h,
size_pixels=1, anchor=gtk.ANCHOR_WEST)
self.canvas_items.append(item)
self.canvas_items.append(button)
self.canvas_items.append(arrow)
break
if list[1]:
p = list[1]
self.add_parent_button(p[0],x2-_PAD,ypts[1],h)
if list[2]:
p = list[2]
self.add_parent_button(p[0],x2-_PAD,ypts[2],h)
gen_no = 1
if self.anchor:
gn = get_distance(self.anchor,self.active_person)
if gn == None:
self.remove_anchor()
else:
gen_no = gn
for i in range(int(xdiv)):
item = self.root.add(gnome.canvas.CanvasText, x=(cw*i/xdiv + cpad), y=h,
text=str(gen_no),
font=font,
anchor=gtk.ANCHOR_WEST)
self.canvas_items.append(item)
gen_no = gen_no + 1
for i in range(gen):
if list[i]:
if i < int(gen/2.0):
findex = (2*i)+1
mindex = findex+1
if list[findex]:
p = list[findex]
self.draw_canvas_line(xpts[i], ypts[i], xpts[findex],
ypts[findex], h, w, p[0], style, p[1])
if list[mindex]:
p = list[mindex]
self.draw_canvas_line(xpts[i],ypts[i], xpts[mindex],
ypts[mindex], h, w, p[0], style, p[1])
p = list[i]
box = DispBox(self.root,style,xpts[i],ypts[i],w,h,p[0],self.parent.db,
self.change_active_person, self.load_person)
self.boxes.append(box)
self.change_active_person(person)
def make_arrow_button(self,direction,function):
"""Make a button containing an arrow with the attached callback"""
arrow = gtk.Arrow(direction,gtk.SHADOW_NONE)
button = gtk.Button()
button.add(arrow)
button.connect("clicked",function)
arrow.show()
button.show()
return (button, arrow)
def set_anchor(self):
if self.active_person:
self.anchor = self.active_person
else:
self.anchor = None
self.anchor_txt.set(text=self.make_anchor_label())
def remove_anchor(self):
self.anchor = None
self.anchor_txt.set(text=self.make_anchor_label())
def on_anchor_set(self,junk):
self.set_anchor()
self.load_canvas(self.active_person)
def on_anchor_removed(self,junk):
self.remove_anchor()
self.load_canvas(self.active_person)
def make_anchor_label(self):
"""Make a label containing the name of the anchored person"""
if self.anchor:
anchor_string = self.anchor.get_primary_name().get_regular_name()
return "%s: %s" % (_("Anchor"),anchor_string)
else:
return ""
def on_show_child_menu(self,obj):
"""User clicked button to move to child of active person"""
if self.active_person:
# Build and display the menu attached to the left pointing arrow
# button. The menu consists of the children of the current root
# person of the tree. Attach a child to each menu item.
def find_children(p):
childlist = []
for family_id in p.get_family_id_list():
family = self.parent.db.find_family_from_id(family_id)
for child_id in family.get_child_id_list():
childlist.append(child_id)
return childlist
childlist = find_children(self.active_person)
if len(childlist) == 1:
child = self.parent.db.find_person_from_id(childlist[0])
if child:
self.load_canvas(child)
elif len(childlist) > 1:
myMenu = gtk.Menu()
for child_id in childlist:
child = self.parent.db.find_person_from_id(child_id)
cname = GrampsCfg.nameof(child)
menuitem = gtk.MenuItem(None)
if find_children(child):
label = gtk.Label('<b><i>%s</i></b>' % cname)
else:
label = gtk.Label(cname)
label.set_use_markup(gtk.TRUE)
label.show()
label.set_alignment(0,0)
menuitem.add(label)
myMenu.append(menuitem)
menuitem.set_data(_PERSON,child)
menuitem.connect("activate",self.on_childmenu_changed)
menuitem.show()
myMenu.popup(None,None,None,0,0)
return 1
def on_childmenu_changed(self,obj):
"""Callback for the pulldown menu selection, changing to the person
attached with menu item."""
person = obj.get_data(_PERSON)
if person:
self.load_canvas(person)
return 1
def add_parent_button(self,parent,x,y,h):
"""Add a button with a right pointing button on the main group at
the specified location. Attach the passed parent and the callback
to the button."""
button,arrow = self.make_arrow_button(gtk.ARROW_RIGHT,self.change_to_parent)
button.set_data(_PERSON,parent)
item = self.root.add(gnome.canvas.CanvasWidget, widget=button, x=x, y=y+(h/2),
height=h, width=h, size_pixels=1,
anchor=gtk.ANCHOR_EAST)
self.canvas_items.append(arrow)
self.canvas_items.append(item)
self.canvas_items.append(button)
def change_to_parent(self,obj):
"""Callback to right pointing arrow button. Gets the person
attached to the button and change the root person to that
person, redrawing the view."""
person = obj.get_data(_PERSON)
if self.active_person:
self.active_person = person
self.load_canvas(person)
def draw_canvas_line(self,x1,y1,x2,y2,h,w,data,style,ls):
"""Draw an two segment line between the x,y point pairs. Attach
a event callback and data to the line."""
startx = x1+(w/2.0)
pts = [startx,y1, startx,y2+(h/2.0), x2,y2+(h/2.0)]
item = self.root.add(gnome.canvas.CanvasLine, width_pixels=2,
points=pts, line_style=ls,
fill_color_gdk=style.fg[gtk.STATE_NORMAL])
item.set_data(_PERSON,data)
item.connect("event",self.line_event)
self.canvas_items.append(item)
def build_x_coords(self,x,cpad):
"""Build the array of x coordinates for the possible positions
on the pedegree view."""
return [cpad] + [x+cpad]*2 + [x*2+cpad]*4 + [x*3+cpad]*8 + [x*4+cpad]*16
def build_y_coords(self, y, top_pad):
"""Build the array of y coordinates for the possible positions
on the pedegree view."""
res = [ y*16.0, y*8.0, y*24.0, y*4.0, y*12.0, y*20.0, y*28.0, y*2.0,
y*6.0, y*10.0, y*14.0, y*18.0, y*22.0, y*26.0, y*30.0, y,
y*3.0, y*5.0, y*7.0, y*9.0, y*11.0, y*13.0, y*15.0, y*17.0,
y*19.0, y*21.0, y*23.0, y*25.0, y*27.0, y*29.0, y*31.0 ]
return map(lambda coord, top_pad=top_pad: coord + top_pad, res)
def line_event(self,obj,event):
"""Catch X events over a line and respond to the ones we care about"""
person = obj.get_data(_PERSON)
style = self.canvas.get_style()
if event.type == gtk.gdk._2BUTTON_PRESS:
if event.button == 1 and event.type == gtk.gdk._2BUTTON_PRESS:
self.load_canvas(person)
elif event.type == gtk.gdk.ENTER_NOTIFY:
obj.set(fill_color_gdk=style.bg[gtk.STATE_SELECTED],
width_pixels=4)
name = GrampsCfg.nameof(person)
msg = _("Double clicking will make %s the active person") % name
self.sb.set_status(msg)
elif event.type == gtk.gdk.LEAVE_NOTIFY:
obj.set(fill_color_gdk=style.fg[gtk.STATE_NORMAL], width_pixels=2)
self.update()
def find_tree(self,person,index,depth,list,val=0):
"""Recursively build a list of ancestors"""
if depth > 5 or person == None:
return
(family_id,m,f) = person.get_main_parents_family_idRel()
if family_id:
mrel = (m != "Birth")
frel = (f != "Birth")
family = self.parent.db.find_family_from_id(family_id)
list[index] = (person,val)
if family != None:
father_id = family.get_father_id()
if father_id != None:
father = self.parent.db.find_person_from_id(father_id)
self.find_tree(father,(2*index)+1,depth+1,list,frel)
mother_id = family.get_mother_id()
if mother_id != None:
mother = self.parent.db.find_person_from_id(mother_id)
self.find_tree(mother,(2*index)+2,depth+1,list,mrel)
def on_canvas1_event(self,obj,event):
"""Handle resize events over the canvas, redrawing if the size changes"""
if event.type == gtk.gdk.EXPOSE:
x1,y1,x2,y2 = self.canvas.get_allocation()
if self.x1 != x1 or self.x2 != x2 or \
self.y1 != y1 or self.y2 != y2:
self.x1 = x1; self.x2 = x2
self.y1 = y1; self.y2 = y2
self.load_canvas(self.active_person)
return 0
def on_canvas_press(self,obj,event):
if event.type == gtk.gdk.BUTTON_PRESS and event.button == 3:
self.build_nav_menu(event)
def build_nav_menu(self,event):
"""Builds the menu with navigation."""
back_sensitivity = self.parent.hindex > 0
fwd_sensitivity = self.parent.hindex + 1 < len(self.parent.history)
entries = [
(gtk.STOCK_GO_BACK,self.parent.back_clicked,back_sensitivity),
(gtk.STOCK_GO_FORWARD,self.parent.fwd_clicked,fwd_sensitivity),
#FIXME: revert to stock item when German gtk translation is fixed
#(gtk.STOCK_HOME,self.parent.on_home_clicked,1),
(_("Home"),self.parent.on_home_clicked,1),
(None,None,0),
(_("Set anchor"),self.on_anchor_set,1),
(_("Remove anchor"),self.on_anchor_removed,1),
]
menu = gtk.Menu()
menu.set_title(_('People Menu'))
for stock_id,callback,sensitivity in entries:
item = gtk.ImageMenuItem(stock_id)
#FIXME: remove when German gtk translation is fixed
if stock_id == _("Home"):
im = gtk.image_new_from_stock(gtk.STOCK_HOME,gtk.ICON_SIZE_MENU)
im.show()
item.set_image(im)
if callback:
item.connect("activate",callback)
item.set_sensitive(sensitivity)
item.show()
menu.append(item)
menu.popup(None,None,None,event.button,event.time)
#-------------------------------------------------------------------------
#
# Function to determine distance between people
#
#-------------------------------------------------------------------------
def get_distance(orig_person,other_person):
"""
Returns a number of generations representing distance between two people.
If the two people don't have common ancestors, None is returned.
Otherwise, the returned number is the distance from the orig_person
to the closest common ancestor minus the distance from the other_person
to the closest common ancestor.
"""
firstMap = {}
firstList = []
secondMap = {}
secondList = []
common = []
rank = 9999999
if orig_person == None or other_person == None:
return None
if orig_person == other_person:
return 0
return 0
# FIX THIS
try:
apply_filter(orig_person,0,firstList,firstMap)
apply_filter(other_person,0,secondList,secondMap)
except RuntimeError,msg:
return None
for person in firstList:
if person in secondList:
new_rank = firstMap[person.get_id()]
if new_rank < rank:
rank = new_rank
common = [ person ]
elif new_rank == rank:
common.append(person)
if not common:
return None
firstRel = None
secondRel = None
length = len(common)
person = common[0]
secondRel = secondMap[person.get_id()]
firstRel = firstMap[person.get_id()]
if firstRel == None or secondRel == None:
return None
return firstRel-secondRel