def test_US23_unique_name_and_birth_date(self):
SUPPORT_TAGS = {
"INDI", "NAME", "SEX", "BIRT", "DEAT", "FAMC", "FAMS", "FAM",
"MARR", "HUSB", "WIFE", "CHIL", "DIV", "DATE", "HEAD", "TRLR",
"NOTE"
}
self.G1 = Gedcom('testing_files/Jiashu_Wang.ged', SUPPORT_TAGS)
G2 = Gedcom('testing_files/MichealFahimGEDCOM.ged', SUPPORT_TAGS)
G3 = Gedcom('testing_files/mock-family.ged', SUPPORT_TAGS)
# --------------------------------------------------
assert self.G1.unique_name_and_birth_date() == True
assert G2.unique_name_and_birth_date() == True
assert G3.unique_name_and_birth_date() == True
class TestSprint1(unittest.TestCase):
def setUp(self):
SUPPORT_TAGS = {
"INDI", "NAME", "SEX", "BIRT", "DEAT", "FAMC", "FAMS", "FAM",
"MARR", "HUSB", "WIFE", "CHIL", "DIV", "DATE", "HEAD", "TRLR",
"NOTE"
}
# self.G1 = Gedcom('../testing_files/right.ged', SUPPORT_TAGS)
# self.G2 = Gedcom('../testing_files/wrong.ged', SUPPORT_TAGS)
self.ind_1 = Individual("01")
self.ind_2 = Individual("02")
self.ind_3 = Individual("03")
self.fam_1 = Family("01")
self.fam_2 = Family("02")
def tearDown(self):
self.ind_1 = Individual("01")
self.ind_2 = Individual("02")
self.ind_3 = Individual("03")
self.fam_1 = Family("01")
self.fam_2 = Family("02")
def test_US11_no_bigamy(self):
self.ind_1.set_birthDate(["09", "APR", "1997"])
self.ind_2.set_birthDate(["19", "DEC", "1997"])
self.ind_1.add_to_family(self.fam_1)
self.fam_1.set_marriedDate(["01", "JUN", "2017"])
self.assertTrue(self.ind_1.no_bigamy())
self.fam_2.set_marriedDate(["05", "JUN", "2016"])
self.ind_1.add_to_family(self.fam_2)
self.assertFalse(self.ind_1.no_bigamy())
self.fam_2.set_divorcedDate(("01", "JAN", "2017"))
self.assertTrue(self.ind_1.no_bigamy())
self.fam_2.set_divorcedDate(("01", "AUG", "2017"))
self.assertFalse(self.ind_1.no_bigamy())
self.fam_1.set_divorcedDate(("01", "DEC", "2018"))
self.assertFalse(self.ind_1.no_bigamy())
self.fam_2.set_divorcedDate(("01", "JAN", "2017"))
self.assertTrue(self.ind_1.no_bigamy())
def test_US02_birth_before_marriage(self):
self.ind_1.set_birthDate(["09", "APR", "1997"])
self.ind_1.add_to_family(self.fam_1)
self.fam_1.set_marriedDate(["01", "JUN", "2018"])
self.assertTrue(self.ind_1.birth_before_marriage())
def test_US03_birth_before_death(self):
self.ind_1.set_birthDate(["09", "APR", "1997"])
self.ind_1.set_deathDate(["01", "JUN", "2018"])
self.assertTrue(self.ind_1.birth_before_death())
def test_US07_less_then_150_years_old(self):
self.ind_1.set_birthDate(["09", "APR", "1997"])
self.assertTrue(self.ind_1.less_then_150_years_old())
self.ind_2.set_birthDate(["09", "APR", "997"])
self.assertFalse(self.ind_2.less_then_150_years_old())
def test_US04_marriage_before_divorce(self):
t1 = Family("F01")
male1 = Individual("P01")
female1 = Individual("P02")
male1.set_deathDate(['8', 'SEP', '2010'])
female1.set_deathDate(['8', 'SEP', '2011'])
t1.set_husband(male1)
t1.set_wife(female1)
t1.set_marriedDate(['8', 'SEP', '2000'])
t1.set_divorcedDate(['8', 'SEP', '2009'])
# ---------------------------------
t2 = Family("F02")
male2 = Individual("P03")
female2 = Individual("P04")
male2.set_deathDate(['8', 'SEP', '2012'])
female2.set_deathDate(['8', 'SEP', '2013'])
t2.set_husband(male2)
t2.set_wife(female2)
t2.set_marriedDate(['8', 'SEP', '2005'])
t2.set_divorcedDate(['8', 'SEP', '2004'])
# ---------------------------------
assert t1.marriage_before_divorce() == True
assert t2.marriage_before_divorce() == False
def test_US05_marriage_before_death(self):
t1 = Family("F01")
male1 = Individual("P01")
female1 = Individual("P02")
male1.set_deathDate(['8', 'SEP', '2010'])
female1.set_deathDate(['8', 'SEP', '2011'])
t1.set_husband(male1)
t1.set_wife(female1)
t1.set_marriedDate(['8', 'SEP', '2000'])
# ---------------------------------
t2 = Family("F02")
male2 = Individual("P03")
female2 = Individual("P04")
male2.set_deathDate(['8', 'SEP', '1999'])
female2.set_deathDate(['9', 'SEP', '2011'])
t2.set_husband(male2)
t2.set_wife(female2)
t2.set_marriedDate(['8', 'SEP', '2000'])
# ---------------------------------
t3 = Family("F03")
male3 = Individual("P05")
female3 = Individual("P06")
male3.set_deathDate(['8', 'SEP', '2003'])
female3.set_deathDate(['9', 'SEP', '1998'])
t3.set_husband(male3)
t3.set_wife(female3)
t3.set_marriedDate(['8', 'SEP', '2000'])
# ---------------------------------
t4 = Family("F04")
male4 = Individual("P07")
female4 = Individual("P08")
male4.set_deathDate(['8', 'SEP', '1998'])
female4.set_deathDate(['9', 'SEP', '1999'])
t4.set_husband(male4)
t4.set_wife(female4)
t4.set_marriedDate(['8', 'SEP', '2000'])
# ---------------------------------
t5 = Family("F05")
male5 = Individual("P09")
female5 = Individual("P10")
male5.set_deathDate(['8', 'SEP', '2009'])
female5.set_deathDate(['8', 'SEP', '2009'])
t5.set_husband(male5)
t5.set_wife(female5)
t5.set_marriedDate(['8', 'SEP', '2009'])
# ---------------------------------
assert t1.marriage_before_death() == True
assert t2.marriage_before_death() == False
assert t3.marriage_before_death() == False
assert t4.marriage_before_death() == False
assert t5.marriage_before_death() == True
def test_US06_divorse_before_death(self):
t1 = Family("F01")
male1 = Individual("P01")
female1 = Individual("P02")
male1.set_deathDate(["5", "MAR", "2000"])
female1.set_deathDate(["9", "APR", "2002"])
t1.set_husband(male1)
t1.set_wife(female1)
t1.set_divorcedDate(["1", "JAN", "1999"])
# ---------------------------------
t2 = Family("F02")
male2 = Individual("P03")
female2 = Individual("P04")
male2.set_deathDate(["5", "MAR", "2000"])
female2.set_deathDate(["9", "APR", "2002"])
t2.set_husband(male2)
t2.set_wife(female2)
t2.set_divorcedDate(["1", "JAN", "2003"])
# ---------------------------------
assert t1.divorce_before_death() == True
assert t2.divorce_before_death() == False
def test_US08_birth_before_marriage_of_parents(self):
t1 = Family("F01")
male1 = Individual("P01")
female1 = Individual("P02")
child1 = Individual("P03")
t1.add_child(child1)
t1.set_marriedDate(['8', 'SEP', '2000'])
child1.set_birthDate(["6", "JAN", "1998"])
t1.set_husband(male1)
t1.set_wife(female1)
# ---------------------------------
t2 = Family("F02")
male2 = Individual("P04")
female2 = Individual("P05")
child2 = Individual("P06")
t2.add_child(child2)
t2.set_marriedDate(['8', 'SEP', '2000'])
child2.set_birthDate(["6", "JAN", "2001"])
t2.set_husband(male2)
t2.set_wife(female2)
# ---------------------------------
t3 = Family("F03")
male3 = Individual("P07")
female3 = Individual("P08")
child3 = Individual("P09")
t3.add_child(child3)
t3.set_marriedDate(['6', 'MAR', '2000'])
child3.set_birthDate(["6", "MAR", "2000"])
t3.set_husband(male3)
t3.set_wife(female3)
# ---------------------------------
assert t1.birth_before_marriage_of_parents() == False
assert t2.birth_before_marriage_of_parents() == True
assert t3.birth_before_marriage_of_parents() == False
def test_US09_birth_before_death_of_parent(self):
t1 = Family("F01")
male1 = Individual("P01")
female1 = Individual("P02")
child1 = Individual("P03")
t1.add_child(child1)
male1.set_deathDate(["5", "MAR", "2000"])
female1.set_deathDate(["9", "APR", "2002"])
child1.set_birthDate(["6", "JAN", "1998"])
t1.set_husband(male1)
t1.set_wife(female1)
# ---------------------------------
t2 = Family("F02")
male2 = Individual("P04")
female2 = Individual("P05")
child2 = Individual("P06")
t2.add_child(child2)
male2.set_deathDate(["5", "MAR", "2000"])
female2.set_deathDate(["9", "APR", "2002"])
child2.set_birthDate(["6", "JAN", "2001"])
t2.set_husband(male2)
t2.set_wife(female2)
# ---------------------------------
t3 = Family("F03")
male3 = Individual("P07")
female3 = Individual("P08")
child3 = Individual("P09")
t3.add_child(child3)
male3.set_deathDate(["5", "MAR", "2000"])
female3.set_deathDate(["9", "APR", "2002"])
child3.set_birthDate(["6", "MAR", "2000"])
t3.set_husband(male3)
t3.set_wife(female3)
# ---------------------------------
assert t1.birth_before_death_of_parents() == True
assert t2.birth_before_death_of_parents() == False
assert t3.birth_before_death_of_parents() == True
def test_US10_marriage_after_14(self):
t1 = Family("F01")
male1 = Individual("P01")
female1 = Individual("P02")
male1.set_birthDate(['8', 'SEP', '2000'])
female1.set_birthDate(['8', 'SEP', '2000'])
t1.set_husband(male1)
t1.set_wife(female1)
t1.set_marriedDate(['8', 'SEP', '2014'])
# --------------------------------------------------
t2 = Family("F02")
male2 = Individual("P03")
female2 = Individual("P04")
male2.set_birthDate(['7', 'SEP', '2000'])
female2.set_birthDate(['8', 'SEP', '2000'])
t2.set_husband(male2)
t2.set_wife(female2)
t2.set_marriedDate(['8', 'SEP', '2014'])
# --------------------------------------------------
t3 = Family("F03")
male3 = Individual("P05")
female3 = Individual("P06")
male3.set_birthDate(['8', 'SEP', '2000'])
female3.set_birthDate(['7', 'SEP', '2000'])
t3.set_husband(male3)
t3.set_wife(female3)
t3.set_marriedDate(['8', 'SEP', '2014'])
# --------------------------------------------------
t4 = Family("F04")
male4 = Individual("P07")
female4 = Individual("P08")
male4.set_birthDate(['1', 'SEP', '1990'])
female4.set_birthDate(['2', 'SEP', '1990'])
t4.set_husband(male4)
t4.set_wife(female4)
t4.set_marriedDate(['8', 'SEP', '2014'])
# --------------------------------------------------
t5 = Family("F05")
male5 = Individual("P09")
female5 = Individual("P10")
male5.set_birthDate(['09', 'APR', '1997'])
female5.set_birthDate(['19', 'DEC', '1997'])
t5.set_husband(male5)
t5.set_wife(female5)
t5.set_marriedDate(['1', 'JUN', '2007'])
# --------------------------------------------------
assert t1.marriage_after_14() == False
assert t2.marriage_after_14() == False
assert t3.marriage_after_14() == False
assert t4.marriage_after_14() == True
assert t5.marriage_after_14() == False
def test_US13_siblings_spacing(self):
t1 = Family("t1")
t2 = Family("t2")
t3 = Family("t3")
t4 = Family("t4")
t5 = Family("t5")
t6 = Family("t6")
p1 = Individual("p1")
p1.set_birthDate(("1", "JAN", "1990"))
p2 = Individual("p2")
p2.set_birthDate(("1", "JAN", "1990"))
p3 = Individual("p3")
p3.set_birthDate(("1", "SEP", "1990"))
p4 = Individual("p4")
p4.set_birthDate(("2", "JAN", "1990"))
p5 = Individual("p5")
p5.set_birthDate(("3", "JAN", "1990"))
p6 = Individual("p6")
p6.set_birthDate(("30", "MAY", "1990"))
# --------------------------------------------------
t1.add_child(p1)
t1.add_child(p2)
t2.add_child(p1)
t2.add_child(p3)
t3.add_child(p1)
t3.add_child(p4)
t4.add_child(p1)
t4.add_child(p5)
t5.add_child(p1)
t5.add_child(p6)
t6.add_child(p1)
t6.add_child(p3)
t6.add_child(p6)
# --------------------------------------------------
assert t1.siblings_spacing() == True
assert t2.siblings_spacing() == True
assert t3.siblings_spacing() == True
assert t4.siblings_spacing() == False
assert t5.siblings_spacing() == False
assert t6.siblings_spacing() == False
def test_US14_multiple_births_lessOrEqual_than_5(self):
t1 = Family("t1")
t2 = Family("t2")
t3 = Family("t3")
p1 = Individual("p1")
p1.set_birthDate(("1", "JAN", "1990"))
p2 = Individual("p2")
p2.set_birthDate(("1", "JAN", "1990"))
p3 = Individual("p3")
p3.set_birthDate(("1", "JAN", "1990"))
p4 = Individual("p4")
p4.set_birthDate(("3", "JAN", "1990"))
p5 = Individual("p5")
p5.set_birthDate(("2", "JAN", "1990"))
p6 = Individual("p6")
p6.set_birthDate(("30", "MAY", "1990"))
p7 = Individual("p7")
p7.set_birthDate(("2", "JAN", "1990"))
p8 = Individual("p8")
p8.set_birthDate(("2", "JAN", "1990"))
p9 = Individual("p9")
p9.set_birthDate(("2", "SEP", "1990"))
p10 = Individual("p10")
p10.set_birthDate(("2", "SEP", "1990"))
p11 = Individual("p11")
p11.set_birthDate(("3", "SEP", "1990"))
p12 = Individual("p12")
p12.set_birthDate(("3", "SEP", "1990"))
p13 = Individual("p13")
p13.set_birthDate(("3", "SEP", "1990"))
# -------------------------------
t1.add_child(p1)
t1.add_child(p2)
t1.add_child(p3)
t1.add_child(p4)
t1.add_child(p5)
t1.add_child(p6)
t1.add_child(p7)
t1.add_child(p8)
t2.add_child(p1)
t2.add_child(p2)
t2.add_child(p3)
t2.add_child(p4)
t2.add_child(p5)
t2.add_child(p6)
t3.add_child(p3)
t3.add_child(p4)
t3.add_child(p5)
t3.add_child(p6)
t3.add_child(p7)
t3.add_child(p8)
t3.add_child(p9)
t3.add_child(p10)
t3.add_child(p11)
t3.add_child(p12)
t3.add_child(p13)
# ---------------------------------
assert t1.multiple_births_lessOrEqual_than_5() == False
assert t2.multiple_births_lessOrEqual_than_5() == True
assert t3.multiple_births_lessOrEqual_than_5() == False
def test_US12_parents_not_too_old(self):
t1 = Family("t1")
t2 = Family("t2")
p1 = Individual("p1")
p2 = Individual("p2")
p3 = Individual("p3")
p4 = Individual("p4")
p5 = Individual("p5")
p6 = Individual("p6")
t1.set_wife(p1)
t1.set_husband(p2)
t1.add_child(p3)
t2.set_wife(p4)
t2.set_husband(p5)
t2.add_child(p6)
p1.set_birthDate(["1", "JAN", "1990"])
p2.set_birthDate(["1", "JAN", "1990"])
p4.set_birthDate(["1", "JAN", "1790"])
p5.set_birthDate(["1", "JAN", "1790"])
p3.set_birthDate(["1", "JAN", "2010"])
p6.set_birthDate(["1", "JAN", "2000"])
# ---------------------------------
assert t1.parents_not_too_old() == True
assert t2.parents_not_too_old() == False
def test_US15_Fewer_than_15_siblings(self):
t1 = Family("t1")
t2 = Family("t2")
p1 = Individual("p1")
p2 = Individual("p2")
p3 = Individual("p3")
p4 = Individual("p4")
p5 = Individual("p5")
p6 = Individual("p6")
p7 = Individual("p7")
p8 = Individual("p8")
p9 = Individual("p9")
p10 = Individual("p10")
p11 = Individual("p11")
p12 = Individual("p12")
p13 = Individual("p13")
p14 = Individual("p14")
p15 = Individual("p15")
p16 = Individual("p16")
p17 = Individual("p17")
p18 = Individual("p18")
p19 = Individual("p19")
p20 = Individual("p20")
p21 = Individual("p21")
p22 = Individual("p22")
p23 = Individual("p23")
p24 = Individual("p24")
p25 = Individual("p25")
p26 = Individual("p26")
p27 = Individual("p27")
p28 = Individual("p28")
# ---------------------------------
t1.add_child(p1)
t1.add_child(p2)
t1.add_child(p3)
t1.add_child(p4)
t1.add_child(p5)
t1.add_child(p6)
t1.add_child(p7)
t1.add_child(p8)
t1.add_child(p9)
t1.add_child(p10)
t1.add_child(p11)
t1.add_child(p12)
t2.add_child(p13)
t2.add_child(p14)
t2.add_child(p15)
t2.add_child(p16)
t2.add_child(p17)
t2.add_child(p18)
t2.add_child(p19)
t2.add_child(p20)
t2.add_child(p21)
t2.add_child(p22)
t2.add_child(p23)
t2.add_child(p24)
t2.add_child(p25)
t2.add_child(p26)
t2.add_child(p27)
t2.add_child(p28)
# ---------------------------------
assert t1.fewer_than_15_siblings() == True
assert t2.fewer_than_15_siblings() == False
def test_US21_Correct_Gender_For_Role(self):
t1 = Family("t1")
t2 = Family("t2")
p1 = Individual("p1")
p2 = Individual("p2")
p3 = Individual("p3")
p4 = Individual("p4")
# ---------------------------------
t1.set_wife(p1)
t1.set_husband(p2)
t2.set_wife(p3)
t2.set_husband(p4)
p1.set_gender('F')
p2.set_gender('M')
p4.set_gender('F')
p3.set_gender('M')
# ---------------------------------
assert t1.correct_gender_for_role() == True
assert t2.correct_gender_for_role() == False
def test_US24_Unique_families_by_spouses(self):
SUPPORT_TAGS = {
"INDI", "NAME", "SEX", "BIRT", "DEAT", "FAMC", "FAMS", "FAM",
"MARR", "HUSB", "WIFE", "CHIL", "DIV", "DATE", "HEAD", "TRLR",
"NOTE"
}
self.G1 = Gedcom('testing_files/Jiashu_Wang.ged', SUPPORT_TAGS)
G2 = Gedcom('testing_files/MichealFahimGEDCOM.ged', SUPPORT_TAGS)
G3 = Gedcom('testing_files/mock-family.ged', SUPPORT_TAGS)
# ---------------------------------
assert self.G1.unique_families_by_spouses() == True
assert G2.unique_families_by_spouses() == True
assert G3.unique_families_by_spouses() == True
def test_US25_Unique_first_names_in_families(self):
SUPPORT_TAGS = {
"INDI", "NAME", "SEX", "BIRT", "DEAT", "FAMC", "FAMS", "FAM",
"MARR", "HUSB", "WIFE", "CHIL", "DIV", "DATE", "HEAD", "TRLR",
"NOTE"
}
self.G1 = Gedcom('testing_files/Jiashu_Wang.ged', SUPPORT_TAGS)
G2 = Gedcom('testing_files/MichealFahimGEDCOM.ged', SUPPORT_TAGS)
G3 = Gedcom('testing_files/mock-family.ged', SUPPORT_TAGS)
# ---------------------------------
assert self.G1.unique_first_names_in_families() == True
assert G2.unique_first_names_in_families() == True
assert G3.unique_first_names_in_families() == True
def test_US22_UniqueId(self):
pass
# finished in main funciton
def test_US23_unique_name_and_birth_date(self):
SUPPORT_TAGS = {
"INDI", "NAME", "SEX", "BIRT", "DEAT", "FAMC", "FAMS", "FAM",
"MARR", "HUSB", "WIFE", "CHIL", "DIV", "DATE", "HEAD", "TRLR",
"NOTE"
}
self.G1 = Gedcom('testing_files/Jiashu_Wang.ged', SUPPORT_TAGS)
G2 = Gedcom('testing_files/MichealFahimGEDCOM.ged', SUPPORT_TAGS)
G3 = Gedcom('testing_files/mock-family.ged', SUPPORT_TAGS)
# --------------------------------------------------
assert self.G1.unique_name_and_birth_date() == True
assert G2.unique_name_and_birth_date() == True
assert G3.unique_name_and_birth_date() == True
def test_US18_Siblings_should_not_marry(self):
t1 = Family("t1")
t2 = Family("t2")
t3 = Family("t3")
t4 = Family("t4")
t5 = Family("t5")
t6 = Family("t6")
p1 = Individual("p1")
p2 = Individual("p2")
p3 = Individual("p3")
p4 = Individual("p4")
# --------------------------------------------------
t1.set_husband(p1)
t1.set_wife(p2)
t4.set_husband(p3)
t4.set_wife(p4)
'''
t2.add_child(p1)
t3.add_child(p2)
t4.set_husband(p3)
t4.set_wife(p4)
t5.add_child(p3)
t5.add_child(p4)
'''
# --------------------------------------------------
p1.set_parentFamily(t2)
p2.set_parentFamily(t3)
p3.set_parentFamily(t5)
p4.set_parentFamily(t5)
# --------------------------------------------------
assert t1.siblings_should_not_marry() == True
#assert t2.siblings_should_not_marry() == True
assert t4.siblings_should_not_marry() == False
#assert t5.siblings_should_not_marry() == False
def test_US19_First_cousins_should_not_marry(self):
t1 = Family("t1")
t2 = Family("t2")
t3 = Family("t3")
t4 = Family("t4")
t5 = Family("t5")
t6 = Family("t6")
t7 = Family("t7")
t8 = Family("t8")
t9 = Family("t9")
p1 = Individual("p1")
p2 = Individual("p2")
p3 = Individual("p3")
p4 = Individual("p4")
p5 = Individual("p5")
p6 = Individual("p6")
p7 = Individual("p7")
p8 = Individual("p8")
# --------------------------------------------------
'''
t1.add_child(p1)
t1.add_child(p2)
t2.set_wife(p1)
t2.add_child(p3)
t3.set_wife(p2)
t3.add_child(p4)
t4.set_husband(p3)
t5.set_wife(p4)
t6.add_child(p5)
t6.add_child(p6)
t7.set_wife(p5)
t8.set_wife(p6)
t7.add_child(p7)
t8.add_child(p8)
t9.set_wife(p7)
t9.set_husband(p8)
'''
# --------------------------------------------------
p3.set_parentFamily(t1)
t1.set_husband(p8)
t1.set_wife(p7)
p8.set_parentFamily(t2)
p7.set_parentFamily(t3)
t2.add_child(p8)
t3.add_child(p7)
assert p3.first_cousins_should_not_marry() == True
#assert p4.first_cousins_should_not_marry()==True
def test_US16_Male_last_names(self):
t1 = Family("t1")
t2 = Family("t2")
t3 = Family("t3")
t4 = Family("t4")
t5 = Family("t5")
t6 = Family("t6")
t7 = Family("t7")
t8 = Family("t8")
t9 = Family("t9")
t10 = Family("t10")
p1 = Individual("p1")
p2 = Individual("p2")
p3 = Individual("p3")
p4 = Individual("p4")
p5 = Individual("p5")
p6 = Individual("p6")
p7 = Individual("p7")
p8 = Individual("p8")
p9 = Individual("p9")
p10 = Individual("p10")
# --------------------------------------------------
t1.set_husband(p1)
t1.add_child(p2)
t1.add_child(p3)
t2.set_husband(p2)
t3.set_husband(p3)
t2.add_child(p4)
t3.add_child(p5)
t4.set_husband(p4)
t5.set_husband(p5)
t6.set_husband(p6)
t6.add_child(p7)
t6.add_child(p8)
t7.set_husband(p7)
t8.set_husband(p8)
t7.add_child(p9)
t8.add_child(p10)
t9.set_husband(p9)
t10.set_husband(p10)
p1.set_gender("M")
p1.set_name("Charles Glass")
p2.set_gender("M")
p2.set_name("Charles Glass")
p3.set_gender("M")
p3.set_name("Charles Glass")
p4.set_gender("M")
p4.set_name("Charles Glass")
p5.set_gender("M")
p5.set_name("Charles Glass")
p6.set_gender("M")
p6.set_name("Charles Glass")
p7.set_gender("M")
p7.set_name("Charles Glass")
p8.set_gender("M")
p8.set_name("Charles WDNMD")
p9.set_gender("M")
p9.set_name("Charles Glass")
p10.set_gender("M")
p10.set_name("Charles Glass")
# --------------------------------------------------
assert t3.male_last_names() == True
assert t8.male_last_names() == False
def test_US17_No_marriages_to_descendants(self):
t1 = Family("t1")
t2 = Family("t2")
t3 = Family("t3")
t4 = Family("t4")
p1 = Individual("p1")
p2 = Individual("p2")
p3 = Individual("p3")
p4 = Individual("p4")
p5 = Individual("p5")
p6 = Individual("p6")
p7 = Individual("p7")
p8 = Individual("p8")
p9 = Individual("p9")
t1.set_husband(p1)
t1.set_wife(p2)
t1.add_child(p3)
t2.set_wife(p3)
t2.set_husband(p4)
t2.add_child(p5)
t3.set_husband(p6)
t3.set_wife(p7)
t3.add_child(p8)
t4.set_husband(p6)
t4.set_wife(p8)
t4.add_child(p9)
# --------------------------------------------------
#assert p3.no_marriages_to_descendants()==True
#assert p6.no_marriages_to_descendants()==False
#assert p8.no_marriages_to_descendants()==True
def test_US27_eInclude_individual_ags(self):
SUPPORT_TAGS = {
"INDI", "NAME", "SEX", "BIRT", "DEAT", "FAMC", "FAMS", "FAM",
"MARR", "HUSB", "WIFE", "CHIL", "DIV", "DATE", "HEAD", "TRLR",
"NOTE"
}
self.G1 = Gedcom('testing_files/Jiashu_Wang.ged', SUPPORT_TAGS)
G2 = Gedcom('testing_files/MichealFahimGEDCOM.ged', SUPPORT_TAGS)
G3 = Gedcom('testing_files/mock-family.ged', SUPPORT_TAGS)
# --------------------------------------------------
'''
assert self.G1.include_individual_ages() == True
assert G2.include_individual_ages() == True
assert G3.include_individual_ages() == True
'''
def test_US28_Order_siblings_by_age(self):
t1 = Family("t1")
t2 = Family("t2")
p1 = Individual("p1")
p1.set_birthDate((1990, 4, 1))
p2 = Individual("p2")
p2.set_birthDate((1990, 1, 1))
p3 = Individual("p3")
p3.set_birthDate((1990, 9, 1))
p4 = Individual("p4")
p4.set_birthDate((1987, 1, 1))
p5 = Individual("p5")
p5.set_birthDate((2019, 1, 1))
p6 = Individual("p6")
p6.set_birthDate((2017, 5, 30))
p7 = Individual("p7")
p7.set_birthDate((2018, 3, 30))
p8 = Individual("p8")
p8.set_birthDate((2019, 8, 30))
# --------------------------------------------------
t1.add_child(p1)
t1.add_child(p2)
t1.add_child(p3)
t1.add_child(p4)
t1.add_child(p5)
t1.add_child(p6)
t2.add_child(p1)
t2.add_child(p2)
t2.add_child(p3)
t2.add_child(p4)
t2.add_child(p7)
t2.add_child(p8)
# --------------------------------------------------
assert t1.order_siblings_by_age() == [p4, p2, p1, p3, p6, p5]
assert t2.order_siblings_by_age() == [p4, p2, p1, p3, p7, p8]
def test_US20_Aunts_and_uncles(self):
t1 = Family("t1")
t2 = Family("t2")
t3 = Family("t3")
t4 = Family("t4")
t5 = Family("t5")
t6 = Family("t6")
t7 = Family("t7")
t8 = Family("t8")
t9 = Family("t9")
t10 = Family("t10")
t11 = Family("t11")
t12 = Family("t12")
p1 = Individual("p1")
p2 = Individual("p2")
p3 = Individual("p3")
p4 = Individual("p4")
p5 = Individual("p5")
p6 = Individual("p6")
p7 = Individual("p7")
p8 = Individual("p8")
p9 = Individual("p9")
p10 = Individual("p10")
p11 = Individual("p11")
# --------------------------------------------------
p11.set_parentFamily(t1)
t1.set_husband(p1)
t1.set_wife(p2)
p1.set_parentFamily(t2)
p2.set_parentFamily(t3)
#t2.set_husband(p3)
#t2.set_wife(p4)
#t3.set_husband(p5)
#t3.set_wife(p6)
t2.set_children([p1, p7, p8])
t3.set_children([p2, p9, p10])
'''
t1.add_child(p3)
t1.add_child(p4)
t2.set_husband(p3)
t3.set_wife(p4)
t2.add_child(p5)
t3.add_child(p6)
t4.set_husband(p7)
t4.set_wife(p8)
t4.add_child(p9)
t4.add_child(p10)
t5.set_husband(p9)
t5.add_child(p11)
t6.set_husband(p10)
t6.set_wife(p11)
'''
# --------------------------------------------------
assert p11.aunts_and_uncles() == True
#assert p10.aunts_and_uncles()==False
def test_US26_Corresponding_entries(self):
SUPPORT_TAGS = {
"INDI", "NAME", "SEX", "BIRT", "DEAT", "FAMC", "FAMS", "FAM",
"MARR", "HUSB", "WIFE", "CHIL", "DIV", "DATE", "HEAD", "TRLR",
"NOTE"
}
self.G1 = Gedcom('testing_files/Jiashu_Wang.ged', SUPPORT_TAGS)
G2 = Gedcom('testing_files/MichealFahimGEDCOM.ged', SUPPORT_TAGS)
G3 = Gedcom('testing_files/mock-family.ged', SUPPORT_TAGS)
# --------------------------------------------------
assert self.G1.corresponding_entries() == True
assert G2.corresponding_entries() == True
assert G3.corresponding_entries() == True
def test_US29_list_deceased(self):
self.assertEqual(self.G1.listDeceased().len(), 5)
self.assertNotEqual(self.G1.listDeceased().len(), 3)
deceasedPeople = []
for indi in deceasedPeople:
self.assertIn(indi, self.G1.listDeceased())
#List all living married people in a GEDCOM file
def test_US30_list_living_married(self):
self.assertEqual(self.G1.listLivingMarried().len(), 5)
self.assertNotEqual(self.G1.listLivingMarried().len(), 3)
marriedPeople = []
for indi in marriedPeople:
self.assertIn(indi, self.G1.listLivingmarried())
#List all living people over 30 who have never been married in a GEDCOM file
def test_US31_list_living_single(self):
self.assertEqual(self.G1.listLivingSingle().len(), 5)
self.assertNotEqual(self.G1.listLivingSingle().len(), 3)
singlePeople = []
for indi in singlePeople:
self.assertIn(indi, self.G1.listLivingSingle())
#List all multiple births in a GEDCOM file
def test_US32_list_multiple_births(self):
self.assertEqual(self.G1.listMultipleBirths().len(), 4)
MultipleBirths = []
for birt in MultipleBirths:
self.assertIn(birt, self.G1.listMultipleBirths())
#List all orphaned children (both parents dead and child < 18 years old) in a GEDCOM file
def test_US33_list_orphans(self):
self.assertEqual(self.G1.listOrphans().len(), 4)
OrphansPeople = []
for indi in OrphansPeople:
self.assertIn(indi, self.G1.listOrphans())
#List all couples who were married when the older spouse was more than twice as old as the younger spouse
def test_US34_list_large_age_differences(self):
self.assertEqual(self.G1.listLargeAgeDifferences().len(), 4)
ageDifferences = []
for birt in ageDifferences:
self.assertIn(birt, self.G1.listLargeAgeDifferences())
#List all people in a GEDCOM file who were born in the last 30 days
def test_US35_list_recent_births(self):
self.assertEqual(self.G1.listRecentBirths().len(), 5)
self.assertNotEqual(self.G1.listRecentBirths().len(), 3)
bornPeople = []
for indi in bornPeople:
self.assertIn(indi, self.G1.listRecentBirths())
#list all people in a GEDCOM file who died in the last 30 days
def test_US36_ListRecentDeaths(self):
self.assertEqual(self.G1.listRecentDeaths().len(), 5)
self.assertNotEqual(self.G1.listRecentDeaths().len(), 3)
#manually input deceased people and append to the array
deceasedProple = []
for indi in deceasedProple:
self.assertIn(indi, self.G1.listRecentDeaths())
#list all living spouses and descendants of people in the GEDCOM who died in the last 30 days
def test_US37_listRecentSurvivors(self):
self.assertEqual(self.G1.listRecentSurviors().len(), 7)
self.assertNotEqual(self.G1.listRecentSurviors().len(), 8)
# manually input deceased people's relatives and append to the array
deceasedProple = []
for indi in deceasedProple:
self.assertIn(indi, self.G1.listRecentSurviors())
#list all living people in a GEDCOM file whose birthdays occur in the next 30 days
def test_US38_listUpcomingBirthdays(self):
self.assertEqual(self.G1.listUpcomingBirthdays().len(), 6)
#manually input people with birthdays
birthdayPeople = []
for indi in birthdayPeople:
self.assertIn(indi, self.G1.listUpcomingBirthdays())
# list all living people in a GEDCOM file whose marriage anniversaries occur in the next 30 days
def test_US39_UpcomingAnniversaries(self):
self.assertEqual(self.G1.upcomingAnniversaries().len(), 4)
#manually input individuals who have anniversaries coming up
AnniversaryIndi = []
for indi in AnniversaryIndi:
self.assertIn(indi, self.G1.upcomingAnniversaries())
# list line numbers from GEDCOM source file when reporting errors
def test_US40_includeInputLineNumbers(self):
self.assertEqual(self.G1.includeInputLineNumbers().len(), 2)
self.assertTrue(self.G1.includeInputLineNumbers() == ['20', '25'])
self.assertTrue(self.G2.includeInputLineNumbers() == ['15'])
# Accept and use dates without days or without days and months
def test_US41_IncludePartialDates(self):
self.assertTrue(self.G1.IncludePartialDates())
# All dates should be legitimate dates for the months specified(e.g. 2/30/2015 is not legitimate)
def test_US42_RejectIllegitimateDates(self):
self.assertTrue(self.G1.rejectIllegitimateDates())
self.assertFalse(self.G2.rejectIllegitimateDates())
def testInputValidation(self):
pass