gramps/gramps2/src/plugins/TestcaseGenerator.py

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#
# Gramps - a GTK+/GNOME based genealogy program
#
# Copyright (C) 2000-2005 Martin Hawlisch, 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
#
# $Id$
"Create person and family testcases"
#-------------------------------------------------------------------------
#
# standard python modules
#
#-------------------------------------------------------------------------
import os
import re
import time
from random import randint,choice
from gettext import gettext as _
#-------------------------------------------------------------------------
#
# GNOME libraries
#
#-------------------------------------------------------------------------
import gtk
import gtk.glade
#-------------------------------------------------------------------------
#
# GRAMPS modules
#
#-------------------------------------------------------------------------
import Errors
import RelLib
import latin_utf8
import Utils
import const
from QuestionDialog import ErrorDialog
from DateHandler import parser as _dp
#-------------------------------------------------------------------------
#
#
#
#-------------------------------------------------------------------------
class TestcaseGenerator:
def __init__(self,database,active_person,callback,parent):
self.db = database
self.person_count = 0
self.persons_todo = []
self.parents_todo = []
def run(self):
title = "%s - GRAMPS" % _("Generate testcases")
self.top = gtk.Dialog(title)
self.top.set_default_size(400,150)
self.top.set_has_separator(False)
self.top.vbox.set_spacing(5)
label = gtk.Label('<span size="larger" weight="bold">%s</span>' % _("Generate testcases"))
label.set_use_markup(True)
self.top.vbox.pack_start(label,0,0,5)
self.check_bugs = gtk.CheckButton( _("Generate Database errors"))
self.check_bugs.set_active(True)
self.top.vbox.pack_start(self.check_bugs,0,0,5)
self.check_persons = gtk.CheckButton( _("Generate dummy families"))
self.check_persons.set_active(True)
self.top.vbox.pack_start(self.check_persons,0,0,5)
self.entry_count = gtk.Entry()
self.entry_count.set_text("2000")
self.top.vbox.pack_start(self.entry_count,0,0,5)
self.top.add_button(gtk.STOCK_CANCEL,gtk.RESPONSE_CANCEL)
self.top.add_button(gtk.STOCK_OK,gtk.RESPONSE_OK)
self.top.add_button(gtk.STOCK_HELP,gtk.RESPONSE_HELP)
self.top.show_all()
response = self.top.run()
bugs = self.check_bugs.get_active()
persons = self.check_persons.get_active()
person_count = int(self.entry_count.get_text())
self.top.destroy()
if response == gtk.RESPONSE_OK:
self.run_generator(bugs,persons,person_count)
def run_generator( self, generate_bugs = 1, generate_families = 1, generate_max_persons = 2000):
title = "%s - GRAMPS" % _("Generate testcases")
self.top = gtk.Window()
self.top.set_title(title)
self.top.set_position(gtk.WIN_POS_MOUSE)
self.top.set_modal(True)
self.top.set_default_size(400,150)
vbox = gtk.VBox()
self.top.add(vbox)
label = gtk.Label(_("Generating persons and families.\nPlease wait."))
vbox.pack_start(label,0,0,5)
self.progress = gtk.ProgressBar()
self.progress.set_fraction(0.0)
vbox.pack_end(self.progress,0,0,5)
self.top.show_all()
while gtk.events_pending():
gtk.main_iteration()
self.max_person_count = generate_max_persons
self.trans = self.db.transaction_begin()
self.trans.set_batch(True)
if generate_bugs:
self.generate_broken_relations()
if generate_families:
self.persons_todo.append( self.generate_person(0))
for person_h in self.persons_todo:
self.generate_family(person_h)
if self.person_count > self.max_person_count:
break
for child_h in self.parents_todo:
self.generate_parents(child_h)
if self.person_count > self.max_person_count:
break
self.db.transaction_commit(self.trans,_("Testcase generator"))
self.top.destroy()
def generate_broken_relations(self):
# Create a family, that links to father and mother, but father does not link back
person1_h = self.generate_person(RelLib.Person.MALE,"Broken1","Family links to this person, but person does not link back")
person2_h = self.generate_person(RelLib.Person.FEMALE,"Broken1",None)
fam = RelLib.Family()
fam.set_father_handle(person1_h)
fam.set_mother_handle(person2_h)
fam.set_relationship(RelLib.Family.MARRIED)
fam_h = self.db.add_family(fam,self.trans)
#person1 = self.db.get_person_from_handle(person1_h)
#person1.add_family_handle(fam_h)
#self.db.commit_person(person1,self.trans)
person2 = self.db.get_person_from_handle(person2_h)
person2.add_family_handle(fam_h)
self.db.commit_person(person2,self.trans)
# Create a family, that misses the link to the father
person1_h = self.generate_person(RelLib.Person.MALE,"Broken2",None)
person2_h = self.generate_person(RelLib.Person.FEMALE,"Broken2",None)
fam = RelLib.Family()
#fam.set_father_handle(person1_h)
fam.set_mother_handle(person2_h)
fam.set_relationship(RelLib.Family.MARRIED)
fam_h = self.db.add_family(fam,self.trans)
person1 = self.db.get_person_from_handle(person1_h)
person1.add_family_handle(fam_h)
self.db.commit_person(person1,self.trans)
person2 = self.db.get_person_from_handle(person2_h)
person2.add_family_handle(fam_h)
self.db.commit_person(person2,self.trans)
# Create a family, that misses the link to the mother
person1_h = self.generate_person(RelLib.Person.MALE,"Broken3",None)
person2_h = self.generate_person(RelLib.Person.FEMALE,"Broken3",None)
fam = RelLib.Family()
fam.set_father_handle(person1_h)
#fam.set_mother_handle(person2_h)
fam.set_relationship(RelLib.Family.MARRIED)
fam_h = self.db.add_family(fam,self.trans)
person1 = self.db.get_person_from_handle(person1_h)
person1.add_family_handle(fam_h)
self.db.commit_person(person1,self.trans)
person2 = self.db.get_person_from_handle(person2_h)
person2.add_family_handle(fam_h)
self.db.commit_person(person2,self.trans)
# Create a family, that links to father and mother, but father does not link back
person1_h = self.generate_person(RelLib.Person.MALE,"Broken4",None)
person2_h = self.generate_person(RelLib.Person.FEMALE,"Broken4","Family links to this person, but person does not link back")
fam = RelLib.Family()
fam.set_father_handle(person1_h)
fam.set_mother_handle(person2_h)
fam.set_relationship(RelLib.Family.MARRIED)
fam_h = self.db.add_family(fam,self.trans)
person1 = self.db.get_person_from_handle(person1_h)
person1.add_family_handle(fam_h)
self.db.commit_person(person1,self.trans)
#person2 = self.db.get_person_from_handle(person2_h)
#person2.add_family_handle(fam_h)
#self.db.commit_person(person2,self.trans)
# Create two married people of same sex.
person1_h = self.generate_person(RelLib.Person.MALE,"Broken5",None)
person2_h = self.generate_person(RelLib.Person.MALE,"Broken5",None)
fam = RelLib.Family()
fam.set_father_handle(person1_h)
fam.set_mother_handle(person2_h)
fam.set_relationship(RelLib.Family.MARRIED)
fam_h = self.db.add_family(fam,self.trans)
person1 = self.db.get_person_from_handle(person1_h)
person1.add_family_handle(fam_h)
self.db.commit_person(person1,self.trans)
person2 = self.db.get_person_from_handle(person2_h)
person2.add_family_handle(fam_h)
self.db.commit_person(person2,self.trans)
# Create a family, that contains an invalid handle to for the father
#person1_h = self.generate_person(RelLib.Person.MALE,"Broken6",None)
person2_h = self.generate_person(RelLib.Person.FEMALE,"Broken6",None)
fam = RelLib.Family()
fam.set_father_handle("InvalidHandle1")
fam.set_mother_handle(person2_h)
fam.set_relationship(RelLib.Family.MARRIED)
fam_h = self.db.add_family(fam,self.trans)
#person1 = self.db.get_person_from_handle(person1_h)
#person1.add_family_handle(fam_h)
#self.db.commit_person(person1,self.trans)
person2 = self.db.get_person_from_handle(person2_h)
person2.add_family_handle(fam_h)
self.db.commit_person(person2,self.trans)
# Create a family, that contains an invalid handle to for the mother
person1_h = self.generate_person(RelLib.Person.MALE,"Broken7",None)
#person2_h = self.generate_person(RelLib.Person.FEMALE,"Broken7",None)
fam = RelLib.Family()
fam.set_father_handle(person1_h)
fam.set_mother_handle("InvalidHandle2")
fam.set_relationship(RelLib.Family.MARRIED)
fam_h = self.db.add_family(fam,self.trans)
person1 = self.db.get_person_from_handle(person1_h)
person1.add_family_handle(fam_h)
self.db.commit_person(person1,self.trans)
#person2 = self.db.get_person_from_handle(person2_h)
#person2.add_family_handle(fam_h)
#self.db.commit_person(person2,self.trans)
# Creates a family where the child does not link back to the family
person1_h = self.generate_person(RelLib.Person.MALE,"Broken8",None)
person2_h = self.generate_person(RelLib.Person.FEMALE,"Broken8",None)
child_h = self.generate_person(None,"Broken8",None)
fam = RelLib.Family()
fam.set_father_handle(person1_h)
fam.set_mother_handle(person2_h)
fam.set_relationship(RelLib.Family.MARRIED)
fam.add_child_handle(child_h)
fam_h = self.db.add_family(fam,self.trans)
person1 = self.db.get_person_from_handle(person1_h)
person1.add_family_handle(fam_h)
self.db.commit_person(person1,self.trans)
person2 = self.db.get_person_from_handle(person2_h)
person2.add_family_handle(fam_h)
self.db.commit_person(person2,self.trans)
#child = self.db.get_person_from_handle(child_h)
#person2.add_parent_family_handle(fam_h)
#self.db.commit_person(child,self.trans)
# Creates a family where the child is not linked, but the child links to the family
person1_h = self.generate_person(RelLib.Person.MALE,"Broken9",None)
person2_h = self.generate_person(RelLib.Person.FEMALE,"Broken9",None)
child_h = self.generate_person(None,"Broken9",None)
fam = RelLib.Family()
fam.set_father_handle(person1_h)
fam.set_mother_handle(person2_h)
fam.set_relationship(RelLib.Family.MARRIED)
#fam.add_child_handle(child_h)
fam_h = self.db.add_family(fam,self.trans)
person1 = self.db.get_person_from_handle(person1_h)
person1.add_family_handle(fam_h)
self.db.commit_person(person1,self.trans)
person2 = self.db.get_person_from_handle(person2_h)
person2.add_family_handle(fam_h)
self.db.commit_person(person2,self.trans)
child = self.db.get_person_from_handle(child_h)
2005-03-31 02:14:12 +05:30
child.add_parent_family_handle(fam_h,RelLib.Person.CHILD_REL_BIRTH,RelLib.Person.CHILD_REL_BIRTH)
self.db.commit_person(child,self.trans)
# Creates a person with an event having a witness reference to a nonexisting person
person_h = self.generate_person(None,"Broken10",None)
witness = RelLib.Witness()
witness.set_type(RelLib.Event.ID)
witness.set_value("InvalidHandle3")
witness.set_comment("Pointing to non existing person");
event = RelLib.Event()
event.add_witness(witness)
event.set_name("Christening")
event_h = self.db.add_event(event,self.trans)
person = self.db.get_person_from_handle(person_h)
person.add_event_handle(event_h)
self.db.commit_person(person,self.trans)
# Creates a person having a non existing birth event handle set
person_h = self.generate_person(None,"Broken11",None)
person = self.db.get_person_from_handle(person_h)
person.set_birth_handle("InvalidHandle4")
self.db.commit_person(person,self.trans)
# Creates a person having a non existing death event handle set
person_h = self.generate_person(None,"Broken12",None)
person = self.db.get_person_from_handle(person_h)
person.set_death_handle("InvalidHandle5")
self.db.commit_person(person,self.trans)
# Creates a person having a non existing event handle set
person_h = self.generate_person(None,"Broken13",None)
person = self.db.get_person_from_handle(person_h)
person.add_event_handle("InvalidHandle6")
self.db.commit_person(person,self.trans)
# Creates a person with a birth event having an empty type
person_h = self.generate_person(None,"Broken14",None)
event = RelLib.Event()
event.set_description("Test for Broken14")
event_h = self.db.add_event(event,self.trans)
person = self.db.get_person_from_handle(person_h)
person.set_birth_handle(event_h)
self.db.commit_person(person,self.trans)
# Creates a person with a death event having an empty type
person_h = self.generate_person(None,"Broken15",None)
event = RelLib.Event()
event.set_description("Test for Broken15")
event_h = self.db.add_event(event,self.trans)
person = self.db.get_person_from_handle(person_h)
person.set_death_handle(event_h)
self.db.commit_person(person,self.trans)
# Creates a person with an event having an empty type
person_h = self.generate_person(None,"Broken16",None)
event = RelLib.Event()
event.set_description("Test for Broken16")
event_h = self.db.add_event(event,self.trans)
person = self.db.get_person_from_handle(person_h)
person.add_event_handle(event_h)
self.db.commit_person(person,self.trans)
def generate_person(self,gender=None,lastname=None,note=None):
self.progress.set_fraction(min(1.0,max(0.0, 1.0*self.person_count/self.max_person_count)))
if self.person_count % 10 == 0:
while gtk.events_pending():
gtk.main_iteration()
np = RelLib.Person()
# Note
if note:
np.set_note(note)
# Gender
if gender == None:
gender = randint(0,1)
np.set_gender(gender)
# Name
syllables1 = ["sa","li","na","ma","no","re","mi","cha","ki","du","ba","ku","el"]
syllables2 = ["as","il","an","am","on","er","im","ach","ik","ud","ab","ul","le"]
name = RelLib.Name()
firstname = ""
for i in range(0,randint(1,5)):
for j in range(0,randint(2,5)):
firstname = firstname + choice(syllables2)
if gender == RelLib.Person.FEMALE:
firstname = firstname + choice(("a","e","i","o","u"))
firstname = firstname + " "
firstname = firstname.title().strip()
if not lastname:
lastname = ""
for i in range(0,randint(2,5)):
lastname = lastname + choice(syllables1)
n = randint(0,2)
if n == 0:
lastname = lastname.title()
elif n == 1:
lastname = lastname.upper()
name.set_first_name(firstname)
name.set_surname(lastname)
np.set_primary_name(name)
self.person_count = self.person_count+1
return( self.db.add_person(np,self.trans))
def generate_family(self,person1_h):
person1 = self.db.get_person_from_handle(person1_h)
if person1.get_gender() == 1:
person2_h = self.generate_person(0)
else:
person2_h = person1_h
person1_h = self.generate_person(1)
if randint(0,2) > 0:
self.parents_todo.append(person1_h)
if randint(0,2) > 0:
self.parents_todo.append(person2_h)
fam = RelLib.Family()
fam.set_father_handle(person1_h)
fam.set_mother_handle(person2_h)
fam.set_relationship(RelLib.Family.MARRIED)
fam_h = self.db.add_family(fam,self.trans)
fam = self.db.commit_family(fam,self.trans)
person1 = self.db.get_person_from_handle(person1_h)
person1.add_family_handle(fam_h)
self.db.commit_person(person1,self.trans)
person2 = self.db.get_person_from_handle(person2_h)
person2.add_family_handle(fam_h)
self.db.commit_person(person2,self.trans)
lastname = person1.get_primary_name().get_surname()
for i in range(0,randint(1,10)):
child_h = self.generate_person(None, lastname)
fam = self.db.get_family_from_handle(fam_h)
fam.add_child_handle(child_h)
self.db.commit_family(fam,self.trans)
child = self.db.get_person_from_handle(child_h)
child.add_parent_family_handle(fam_h,RelLib.Person.CHILD_REL_BIRTH,RelLib.Person.CHILD_REL_BIRTH)
self.db.commit_person(child,self.trans)
if randint(0,3) > 0:
self.persons_todo.append(child_h)
def generate_parents(self,child_h):
child = self.db.get_person_from_handle(child_h)
if child.get_parent_family_handle_list():
return
lastname = child.get_primary_name().get_surname()
person1_h = self.generate_person(1,lastname)
person2_h = self.generate_person(0)
if randint(0,2) > 0:
self.parents_todo.append(person1_h)
if randint(0,2) > 0:
self.parents_todo.append(person2_h)
fam = RelLib.Family()
fam.set_father_handle(person1_h)
fam.set_mother_handle(person2_h)
fam.set_relationship(RelLib.Family.MARRIED)
fam.add_child_handle(child_h)
fam_h = self.db.add_family(fam,self.trans)
fam = self.db.commit_family(fam,self.trans)
person1 = self.db.get_person_from_handle(person1_h)
person1.add_family_handle(fam_h)
self.db.commit_person(person1,self.trans)
person2 = self.db.get_person_from_handle(person2_h)
person2.add_family_handle(fam_h)
self.db.commit_person(person2,self.trans)
child.add_parent_family_handle(fam_h,RelLib.Person.CHILD_REL_BIRTH,RelLib.Person.CHILD_REL_BIRTH)
self.db.commit_person(child,self.trans)
#-------------------------------------------------------------------------
#
#
#
#-------------------------------------------------------------------------
def TestcaseGeneratorPlugin(database,active_person,callback,parent=None):
print "TestcaseGeneratorPlugin"
fg = TestcaseGenerator(database,active_person,callback,parent)
fg.run()
#-------------------------------------------------------------------------
#
#
#
#-------------------------------------------------------------------------
from PluginMgr import register_tool
register_tool(
TestcaseGeneratorPlugin,
_("Generate Testcases for persons and families"),
category=_("Debug"),
description=_("The testcase generator will generate some persons and families."
"that habe brolen links in the database or data that is in conflict to a relation.")
)