def import_gedcom_data():
    gedcom_file = Gedcom('family.ged')
    people_elements = []
    fam_dict = {}
    family_codes = []
    for elem in gedcom_file.element_list():
        if elem.tag() == 'NAME':
            people_elements.append(elem)
            if elem.parent().tag() == 'INDI':
                for fam in gedcom_file.families(elem.parent()):
                    p = fam.pointer()
                    if p not in family_codes:
                        family_codes.append(p)
    for fc in family_codes:
        for pe in people_elements:
            if pe.parent().tag() == 'INDI':
                for fam in gedcom_file.families(pe.parent()):
                    if fam.pointer() == fc:
                        if fc in fam_dict.keys():
                            fam_dict[fc].append(pe)
                        else:
                            fam_dict[fc] = [pe]
                for fam in gedcom_file.families(pe.parent(), family_type='FAMC'):
                    if fam.pointer() == fc:
                        if fc in fam_dict.keys():
                            fam_dict[fc].append(pe)
                        else:
                            fam_dict[fc] = [pe]
    print fam_dict
Example #2
0
def checkmemoryusage(fn,n):
    from gedcom import Gedcom
    from time import sleep

    print ( "Creating %s gedcom objects from %s ... " % ( n, fn ) )    
    for i in range(0,n):
        print ( i + 1 )
        g = None
        time.sleep(10)
        g = Gedcom.fromfilename(fn)

    print ( "We should be done now." )
    g=None
    
    while True:
        sleep(10)

#checkstorage()
#checkdb()
#checkmemoryusage(afilename,2)
Example #3
0
        if args.firstname:
            given_names.append(args.firstname)
        if args.middlename:
            given_names.append(args.middlename)
        if given_names:
            match_criteria.append("name={}".format(" ".join(given_names)))

        if args.lastname is not None:
            match_criteria.append("surname={}".format(args.lastname))

        # The matching criteria as defined in gedcom.py criteria_match() function
        criteria = ":".join(match_criteria)

        if args.state:
            # State census dates fall on the fifth year of each decade, e.g. 1915, 1925, etc
            offset = 5
        else:
            # Federal census dates fall on the zero year of each decade, e.g. 1910, 1920, etc
            offset = 0

        # Parse the Gedcom file, using the lovely parser we snatched out of Github
        gedcom = Gedcom(args.gedfilename)

        # Look at EVERYONE
        for element in gedcom.element_list():
            # Do they match?
            if element.criteria_match(criteria):
                # A match, fingerprint them
                data = fingerprint_data(gedcom, element, offset)
                print_fingerprint(data)
Example #4
0
# (A header with FHKB ontology definitions is still required.)
# TODO adoptive families (>1) are not considered (TODO?)
# Author: Evgeny Blokhin
# License: MIT

import os, sys
from gedcom import Gedcom


try: workpath = sys.argv[1]
except IndexError: sys.exit("No gedcom defined!")

def term2id(el):
    return "i" + el.pointer().replace('@', '').lower()

g = Gedcom(workpath)
gedcom_dict = g.element_dict()
individuals, marriages = {}, {}

for k, v in gedcom_dict.iteritems():
    if v.is_individual():
        children, siblings = set(), set()
        idx = term2id(v)

        title = v.name()[0].decode('utf8').encode('ascii', 'xmlcharrefreplace') + " " + v.name()[1].decode('utf8').encode('ascii', 'xmlcharrefreplace')
        title = title.replace('"', '').replace('[', '').replace(']', '').replace('(', '').replace(')', '').strip()

        own_families = g.families(v, 'FAMS')
        for fam in own_families:
            children |= set(term2id(i) for i in g.get_family_members(fam, "CHIL"))
Example #5
0
# Project for SSW-555
# Author: Jiakuan Fan
# Author: Hangbo Li
# Author: Shan Jiang

from gedcom import Gedcom


if __name__ == '__main__':
    sprint_4_demo = Gedcom("sprint_4_test")
    sprint_4_demo.set_output_url("spirnt_4_demo_output.txt")
    sprint_4_demo.print_pretty_table()
    sprint_4_demo.check_all_objects_sprint_4()
Example #6
0
# Project for SSW-555
# Author: Jiakuan Fan
# Author: Hangbo Li
# Author: Shan Jiang

from gedcom import Gedcom
import us01
import us02
import us03
import us04
import us05
import us06

if __name__ == '__main__':
    sprint_1_demo = Gedcom("sprint_1_test")
    sprint_1_demo.set_output_url("spirnt_1_demo_output.txt")
    sprint_1_demo.print_pretty_table()

    us01.check_date_b4_current(sprint_1_demo)
    us02.check_birth_b4_marr(sprint_1_demo)
    us03.check_birth_b4_death(sprint_1_demo)
    us04.check_marr_b4_div(sprint_1_demo)
    us05.check_marr_b4_death(sprint_1_demo)
    us06.check_div_b4_death(sprint_1_demo)

    output_stream = open(sprint_1_demo.output_url, "a")
    output_stream.write("Errors:\n")
    for error in sprint_1_demo.error_list:
        print(error)
        output_stream.write(error + '\n')
    output_stream.close()
Example #7
0
#!/opt/local/bin/python

from gedcom import Gedcom, GedcomIndividual
import json
from migra import MigraPerson, MigraGeocoder, MigraPersonEncoder

import sys
sys.stderr.write ( "Reading file into gedcom object...\n" )

g = Gedcom.fromfilename('/Users/rolando/src/migradata/big.ged')
#g = Gedcom.fromfilename('/Users/rolando/src/migradata/romney2.ged')
gc = MigraGeocoder()

sys.stderr.write ( "Done... Building JSON list...\n" )

pList = []

for i in g.element_list():
    if i.individual():
        pList.append ( MigraPerson(i,0,gc) )

sys.stderr.write ( "Done. Dumping JSON list. . .\n" )

print json.dumps(pList,indent=4,cls=MigraPersonEncoder)

sys.stderr.write ( "Done.\n" )

Example #8
0
 def test(individuals, families, input_errors):
     gedcom = Gedcom(individuals=individuals, families=families)
     errors = validation.validate_corresponding_entries(gedcom)
     for error in errors:
         assert error in input_errors
     assert len(errors) == len(input_errors)
Example #9
0
def test_validate_no_bigamy():
    # Spouse 1 and Spouse 2 each don't have another marriage
    families = [
        Family('f01',
               married=datetime(2000, 10, 10),
               husband_id='i01',
               wife_id='i02')
    ]
    individuals = [
        Individual('i01', spouses=['f01']),
        Individual('i02', spouses=['f01'])
    ]
    gedcom = Gedcom(individuals=individuals, families=families)
    errors = validation.validate_no_bigamy(gedcom)
    assert len(errors) == 0

    # Spouse 1 got married to Spouse 3 during still-existing marriage to Spouse 2
    families = [
        Family('f01',
               married=datetime(2000, 10, 10),
               husband_id='i01',
               wife_id='i02'),
        Family('f02',
               married=datetime(2005, 10, 10),
               husband_id='i01',
               wife_id='i03')
    ]

    individuals = [
        Individual('i01', spouses=['f01', 'f02']),
        Individual('i02', spouses=['f01']),
        Individual('i03', spouses=['f02'])
    ]

    gedcom = Gedcom(individuals=individuals, families=families)
    errors = validation.validate_no_bigamy(gedcom)
    assert errors[
        0] == 'Error: US11: Individual i01 married i03 on 10-10-2005, which was during their marriage to i02'
    assert len(errors) == 1

    # Spouse 1 got married to spouse 3 during marriage to spouse 2
    families = [
        Family('f01',
               married=datetime(2000, 10, 10),
               divorced=datetime(2010, 10, 10),
               husband_id='i01',
               wife_id='i02'),
        Family('f02',
               married=datetime(2005, 10, 10),
               husband_id='i01',
               wife_id='i03')
    ]

    individuals = [
        Individual('i01', spouses=['f01', 'f02']),
        Individual('i02', spouses=['f01']),
        Individual('i03', spouses=['f02'])
    ]

    gedcom = Gedcom(individuals=individuals, families=families)
    errors = validation.validate_no_bigamy(gedcom)
    assert errors[
        0] == 'Error: US11: Individual i01 married i03 on 10-10-2005, which was during their marriage to i02'
    assert len(errors) == 1

    # Spouse 1 married Spouse 2, got divorced, and then married Spouse 3
    families = [
        Family('f01',
               married=datetime(2000, 10, 10),
               divorced=datetime(2010, 10, 10),
               husband_id='i01',
               wife_id='i02'),
        Family('f02',
               married=datetime(2012, 10, 10),
               husband_id='i01',
               wife_id='i03')
    ]

    individuals = [
        Individual('i01', spouses=['f01', 'f02']),
        Individual('i02', spouses=['f01']),
        Individual('i03', spouses=['f02'])
    ]

    gedcom = Gedcom(individuals=individuals, families=families)
    errors = validation.validate_no_bigamy(gedcom)
    assert len(errors) == 0
Example #10
0
def test_correct_gender():
    # Husband is female or anything other than male
    families = [
        Family('F01',
               married=datetime(1999, 9, 9),
               husband_id='I01',
               wife_id='I02')
    ]
    individuals = [
        Individual('I01', spouses=['F01'], sex='X'),
        Individual('I02', spouses=['F01'], sex='F')
    ]
    gedcom = Gedcom(individuals=individuals, families=families)
    errors = validation.validate_correct_gender(gedcom)
    assert errors[0] == 'Error: US21: Husband I01 in Family F01 should be male'
    assert len(errors) == 1

    # Wife is male or anything other than female
    families = [
        Family('F01',
               married=datetime(1999, 9, 9),
               husband_id='I01',
               wife_id='I02')
    ]
    individuals = [
        Individual('I01', spouses=['F01'], sex='M'),
        Individual('I02', spouses=['F01'], sex='X')
    ]
    gedcom = Gedcom(individuals=individuals, families=families)
    errors = validation.validate_correct_gender(gedcom)
    assert errors[0] == 'Error: US21: Wife I02 in Family F01 should be female'
    assert len(errors) == 1

    # Both Husband and wife are not male and femalerespectively
    families = [
        Family('F01',
               married=datetime(1999, 9, 9),
               husband_id='I01',
               wife_id='I02')
    ]
    individuals = [
        Individual('I01', spouses=['F01'], sex='X'),
        Individual('I02', spouses=['F01'], sex='X')
    ]
    gedcom = Gedcom(individuals=individuals, families=families)
    errors = validation.validate_correct_gender(gedcom)
    assert errors[0] == 'Error: US21: Husband I01 in Family F01 should be male'
    assert errors[1] == 'Error: US21: Wife I02 in Family F01 should be female'
    assert len(errors) == 2

    # Both Husband and Wife are correct gender
    families = [
        Family('F01',
               married=datetime(1999, 9, 9),
               husband_id='I01',
               wife_id='I02')
    ]
    individuals = [
        Individual('I01', spouses=['F01'], sex='M'),
        Individual('I02', spouses=['F01'], sex='F')
    ]
    gedcom = Gedcom(individuals=individuals, families=families)
    errors = validation.validate_correct_gender(gedcom)
    assert len(errors) == 0
Example #11
0
def test_marriage_after_fourteen():

    # Husband < 14
    individuals = [
        Individual('I01', spouse='F01', birthday=datetime(2007, 1, 1)),
        Individual('I02', spouse='F01', birthday=datetime(1997, 6, 18))
    ]
    families = [
        Family('F01',
               husband_id='I01',
               wife_id='I02',
               married=datetime(2020, 2, 20))
    ]
    gedcom = Gedcom(individuals=individuals, families=families)
    errors = validation.validate_marriage_after_fourteen(gedcom)
    assert errors[
        0] == 'Error: US10: Spouse I01 in family F01 was married at less than 14 years old, age=13'
    assert len(errors) == 1

    # Wife < 14
    individuals = [
        Individual('I01', spouse='F01', birthday=datetime(2007, 1, 1)),
        Individual('I02', spouse='F01', birthday=datetime(1997, 6, 18))
    ]
    families = [
        Family('F01',
               wife_id='I01',
               husband_id='I02',
               married=datetime(2020, 2, 20))
    ]
    gedcom = Gedcom(individuals=individuals, families=families)
    errors = validation.validate_marriage_after_fourteen(gedcom)
    assert errors[
        0] == 'Error: US10: Spouse I01 in family F01 was married at less than 14 years old, age=13'
    assert len(errors) == 1

    # Husband + Wife < 14
    individuals = [
        Individual('I01', spouse='F01', birthday=datetime(2007, 1, 1)),
        Individual('I02', spouse='F01', birthday=datetime(2007, 1, 1))
    ]
    families = [
        Family('F01',
               wife_id='I01',
               husband_id='I02',
               married=datetime(2020, 2, 20))
    ]
    gedcom = Gedcom(individuals=individuals, families=families)
    errors = validation.validate_marriage_after_fourteen(gedcom)
    assert errors[
        0] == 'Error: US10: Spouse I01 in family F01 was married at less than 14 years old, age=13'
    assert errors[
        1] == 'Error: US10: Spouse I02 in family F01 was married at less than 14 years old, age=13'
    assert len(errors) == 2

    # Husband + Wife > 14
    individuals = [
        Individual('I01', spouse='F01', birthday=datetime(1997, 6, 18)),
        Individual('I02', spouse='F01', birthday=datetime(1997, 6, 18))
    ]
    families = [
        Family('F01',
               wife_id='I01',
               husband_id='I02',
               married=datetime(2020, 2, 20))
    ]
    gedcom = Gedcom(individuals=individuals, families=families)
    errors = validation.validate_marriage_after_fourteen(gedcom)
    assert len(errors) == 0

    # No marriage --> no errors
    individuals = [
        Individual('I01', spouse='F01', birthday=datetime(1997, 6, 18)),
        Individual('I02', spouse='F01', birthday=datetime(1997, 6, 18))
    ]
    families = [Family('F01', wife_id='I01', husband_id='I02')]
    gedcom = Gedcom(individuals=individuals, families=families)
    errors = validation.validate_marriage_after_fourteen(gedcom)
    assert len(errors) == 0
Example #12
-1
def readgedcom(path):
    root = Gedcom(path)
    people = {}
    families = []
    d = root.element_dict()
    for i in d:
        elem = d[i]
        id = i
        if elem.is_individual():
            name = ''
            for i in elem.children():
                if i.tag() == 'NAME':
                    name = i.value().replace('/', '')
            people[id] = name
        else:
            fam = [[], 0, 0]
            for i in elem.children():
                if i.tag() == 'CHIL':
                    fam[0].append(i.value())
                if i.tag() == 'HUSB':
                    fam[1] = i.value()
                if i.tag() == 'WIFE':
                    fam[2] = i.value()
            families.append(fam)
    return (people, families)