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gramps/src/plugins/DetAncestralReport.py
Alex Roitman 9fd0d9e355 * src/ReportUtils.py: More report-related methods. 
* src/plugins/DetAncestralReport.py: Use ReportUtils methods.
* src/plugins/DetDescendantReport.py: Use ReportUtils methods.


svn: r4011
2005-02-01 05:08:16 +00:00

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#
# Gramps - a GTK+/GNOME based genealogy program
#
# Copyright (C) 2000-2002 Bruce J. DeGrasse
# Copyright (C) 2000-2005 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
#
# $Id$
"Generate files/Detailed Ancestral Report"
#------------------------------------------------------------------------
#
# standard python modules
#
#------------------------------------------------------------------------
from gettext import gettext as _
#------------------------------------------------------------------------
#
# Gnome/GTK modules
#
#------------------------------------------------------------------------
import gtk
#------------------------------------------------------------------------
#
# GRAMPS modules
#
#------------------------------------------------------------------------
import RelLib
import Report
import BaseDoc
import ReportOptions
import const
import ReportUtils
from DateHandler import displayer as _dd
from NameDisplay import displayer as _nd
EMPTY_ENTRY = "_____________"
#------------------------------------------------------------------------
#
#
#
#------------------------------------------------------------------------
class DetAncestorReport(Report.Report):
def __init__(self,database,person,options_class):
"""
Creates the DetAncestorReport object that produces the report.
The arguments are:
database - the GRAMPS database instance
person - currently selected person
options_class - instance of the Options class for this report
This report needs the following parameters (class variables)
that come in the options class.
gen - Maximum number of generations to include.
pagebgg - Whether to include page breaks between generations.
firstName - Whether to use first names instead of pronouns.
fullDate - Whether to use full dates instead of just year.
listChildren - Whether to list children.
includeNotes - Whether to include notes.
blankPlace - Whether to replace missing Places with ___________.
blankDate - Whether to replace missing Dates with ___________.
calcAgeFlag - Whether to compute age.
dupPerson - Whether to omit duplicate ancestors (e.g. when distant cousins mary).
childRef - Whether to add descendant references in child list.
addImages - Whether to include images.
"""
Report.Report.__init__(self,database,person,options_class)
self.map = {}
(self.max_generations,self.pgbrk) \
= options_class.get_report_generations()
self.firstName = options_class.handler.options_dict['firstnameiop']
self.fullDate = options_class.handler.options_dict['fulldates']
self.listChildren = options_class.handler.options_dict['listc']
self.includeNotes = options_class.handler.options_dict['incnotes']
self.blankPlace = options_class.handler.options_dict['repplace']
self.blankDate = options_class.handler.options_dict['repdate']
self.calcAgeFlag = options_class.handler.options_dict['computeage']
self.dupPerson = options_class.handler.options_dict['omitda']
self.childRef = options_class.handler.options_dict['desref']
self.addImages = options_class.handler.options_dict['incphotos']
self.gen_handles = {}
self.prev_gen_hanldes= {}
if self.blankDate:
self.EMPTY_DATE = EMPTY_ENTRY
else:
self.EMPTY_DATE = ""
if self.blankPlace:
self.EMPTY_PLACE = EMPTY_ENTRY
else:
self.EMPTY_PLACE = ""
def apply_filter(self,person_handle,index):
if (not person_handle) or (index >= 2**self.max_generations):
return
self.map[index] = person_handle
person = self.database.get_person_from_handle(person_handle)
family_handle = person.get_main_parents_family_handle()
if family_handle:
family = self.database.get_family_from_handle(family_handle)
self.apply_filter(family.get_father_handle(),index*2)
self.apply_filter(family.get_mother_handle(),(index*2)+1)
def write_report(self):
self.apply_filter(self.start_person.get_handle(),1)
name = self.start_person.get_primary_name().get_regular_name()
self.doc.start_paragraph("DAR-Title")
title = _("Detailed Ancestral Report for %s") % name
self.doc.write_text(title)
self.doc.end_paragraph()
keys = self.map.keys()
keys.sort()
generation = 0
need_header = 1
for key in keys :
if generation == 0 or key >= 2**generation:
if self.pgbrk and generation > 0:
self.doc.page_break()
self.doc.start_paragraph("DAR-Generation")
t = _("%s Generation") % DetAncestorReport.gen[generation+1]
self.doc.write_text(t)
self.doc.end_paragraph()
generation = generation + 1
if self.childRef:
self.prev_gen_hanldes= self.gen_handles.copy()
self.gen_handles.clear()
person_handle = self.map[key]
person = self.database.get_person_from_handle(person_handle)
self.gen_handles[person_handle]= key
dupPerson = self.write_person(key)
if dupPerson == 0: # Is this a duplicate ind record
if person.get_gender() == RelLib.Person.FEMALE and \
self.listChildren:
for family_handle in person.get_family_handle_list():
family = self.database.get_family_from_handle(family_handle)
self.write_children(family)
def write_person(self, key):
"""Output birth, death, parentage, marriage and notes information """
person_handle = self.map[key]
person = self.database.get_person_from_handle(person_handle)
if self.addImages:
ReportUtils.insert_images(self.database,self.doc,person)
self.doc.start_paragraph("DAR-First-Entry","%s." % str(key))
name = _nd.display(person)
if self.firstName:
firstName = person.get_primary_name().get_first_name()
elif person.get_gender() == RelLib.Person.MALE:
firstName = _("He")
else:
firstName = _("She")
self.doc.start_bold()
self.doc.write_text(name)
self.doc.end_bold()
if self.dupPerson:
# Check for duplicate record (result of distant cousins marrying)
keys = self.map.keys()
keys.sort()
for dkey in keys:
if dkey >= key:
break
if self.map[key] == self.map[dkey]:
self.doc.write_text(_("%(name)s is the same person as [%(id_str)s].") %
{ 'name' : '', 'id_str' : str(dkey) })
self.doc.end_paragraph()
return 1 # Duplicate person
# Check birth record
birth_handle = person.get_birth_handle()
if birth_handle:
text = ReportUtils.born_str(self.database,person,"",
self.EMPTY_DATE,self.EMPTY_PLACE)
if text:
self.doc.write_text(text)
if person.get_death_handle():
age,units = self.calc_age(person)
text = ReportUtils.died_str(self.database,person,firstName,
self.EMPTY_DATE,self.EMPTY_PLACE,age,units)
if text:
self.doc.write_text(text)
text = ReportUtils.buried_str(self.database,person,firstName,
self.EMPTY_DATE,self.EMPTY_PLACE)
if text:
self.doc.write_text(text)
self.write_parents(person, firstName)
self.write_marriage(person)
self.doc.end_paragraph()
if key == 1:
self.write_mate(person)
if person.get_note() != "" and self.includeNotes:
self.doc.start_paragraph("DAR-NoteHeader")
self.doc.start_bold()
self.doc.write_text(_("Notes for %(name)s" % { 'name': name } ))
self.doc.end_bold()
self.doc.end_paragraph()
self.doc.write_note(person.get_note(),person.get_note_format(),"DAR-Entry")
return 0 # Not duplicate person
def write_parents(self, person, firstName):
family_handle = person.get_main_parents_family_handle()
if family_handle:
family = self.database.get_family_from_handle(family_handle)
mother_handle = family.get_mother_handle()
father_handle = family.get_father_handle()
if mother_handle:
mother = self.database.get_person_from_handle(mother_handle)
mother_name = mother.get_primary_name().get_regular_name()
else:
mother_name = ""
if father_handle:
father = self.database.get_person_from_handle(father_handle)
father_name = father.get_primary_name().get_regular_name()
else:
father_name = ""
text = ReportUtils.child_str(person,firstName,
father_name,mother_name,
bool(person.get_death_handle()))
if text:
self.doc.write_text(text)
def write_marriage(self, person):
"""
Output marriage sentence.
"""
is_first = True
for family_handle in person.get_family_handle_list():
family = self.database.get_family_from_handle(family_handle)
spouse_handle = ReportUtils.find_spouse(person,family)
spouse = self.database.get_person_from_handle(spouse_handle)
marriage_event = ReportUtils.find_marriage(self.database,family)
text = ""
if marriage_event:
text = ReportUtils.married_str(self.database,person,spouse,
marriage_event,None,
self.EMPTY_DATE,self.EMPTY_PLACE,
is_first)
else:
text = ReportUtils.married_rel_str(self.database,person,family,
is_first)
if text:
self.doc.write_text(text)
is_first = False
def write_children(self, family):
""" List children
Statement formats:
Child of MOTHER and FATHER is:
Children of MOTHER and FATHER are:
NAME Born: DATE PLACE Died: DATE PLACE f
NAME Born: DATE PLACE Died: DATE e
NAME Born: DATE PLACE Died: PLACE d
NAME Born: DATE PLACE c
NAME Born: DATE Died: DATE PLACE b
NAME Born: DATE Died: DATE a
NAME Born: DATE Died: PLACE 9
NAME Born: DATE 8
NAME Born: PLACE Died: DATE PLACE 7
NAME Born: PLACE Died: DATE 6
NAME Born: PLACE Died: PLACE 5
NAME Born: PLACE 4
NAME Died: DATE 2
NAME Died: DATE PLACE 3
NAME Died: PLACE 1
NAME 0
"""
num_children = len(family.get_child_handle_list())
if num_children > 0:
self.doc.start_paragraph("DAR-ChildTitle")
mother_handle = family.get_mother_handle()
if mother_handle:
mother_obj = self.database.get_person_from_handle(mother_handle)
mother = mother_obj.get_primary_name().get_regular_name()
else:
mother = _("unknown")
father_handle = family.get_father_handle()
if father_handle:
father_obj = self.database.get_person_from_handle(father_handle)
father = father_obj.get_primary_name().get_regular_name()
else:
father = _("unknown")
self.doc.start_bold()
if num_children == 1:
self.doc.write_text(_("Child of %s and %s is:") % (mother, father))
else: self.doc.write_text(_("Children of %s and %s are:") % (mother, father))
self.doc.end_bold()
self.doc.end_paragraph()
for child_handle in family.get_child_handle_list():
self.doc.start_paragraph("DAR-ChildList")
child = self.database.get_person_from_handle(child_handle)
name = child.get_primary_name().get_regular_name()
birth_handle = child.get_birth_handle()
death_handle = child.get_death_handle()
if self.childRef:
if self.prev_gen_hanldes.get(child_handle) != None:
name= "[" + str(self.prev_gen_hanldes.get(child_handle)) + "] "+ name
if birth_handle:
birth = self.database.get_event_from_handle(birth_handle)
else:
birth = None
if death_handle:
death = self.database.get_event_from_handle(death_handle)
else:
death = None
if birth and birth.get_date():
if birth.get_place_handle():
bplace = self.database.get_place_from_handle(birth.get_place_handle()).get_title()
if death and death.get_date():
if death.get_place_handle():
dplace = self.database.get_place_from_handle(death.get_place_handle()).get_title()
self.doc.write_text(_("- %s Born: %s %s Died: %s %s") % \
(name, birth.get_date(), bplace,
death.get_date(), dplace)) # f
else:
self.doc.write_text(_("- %s Born: %s %s Died: %s") % \
(name, birth.get_date(), bplace,
death.get_date())) # e
elif death and death.get_place_handle():
dplace = self.database.get_place_from_handle(death.get_place_handle()).get_title()
self.doc.write_text(_("- %s Born: %s %s Died: %s") % \
(name, birth.get_date(), bplace,
dplace)) # d
else:
self.doc.write_text(_("- %s Born: %s %s") % \
(name, birth.get_date(), bplace)) # c
else:
if death and death.get_date():
if death.get_place_handle():
dplace = self.database.get_place_from_handle(death.get_place_handle()).get_title()
self.doc.write_text(_("- %s Born: %s Died: %s %s") % \
(name, birth.get_date(), death.get_date(), \
dplace)) # b
else:
self.doc.write_text(_("- %s Born: %s Died: %s") % \
(name, birth.get_date(), death.get_date())) # a
elif death and death.get_place_handle():
dplace = self.database.get_place_from_handle(death.get_place_handle()).get_title()
self.doc.write_text(_("- %s Born: %s Died: %s") % \
(name, birth.get_date(), dplace)) # 9
else:
self.doc.write_text(_("- %s Born: %s") % \
(name, birth.get_date())) # 8
else:
if birth and birth.get_place_handle():
bplace = self.database.get_place_from_handle(birth.get_place_handle()).get_title()
if death and death.get_date():
if death.get_place_handle():
dplace = self.database.get_place_from_handle(death.get_place_handle()).get_title()
self.doc.write_text(_("- %s Born: %s Died: %s %s") % \
(name, bplace, \
death.get_date(), dplace)) # 7
else:
self.doc.write_text(_("- %s Born: %s Died: %s") % \
(name, bplace, death.get_date())) # 6
elif death and death.get_place_handle():
dplace = self.database.get_place_from_handle(death.get_place_handle()).get_title()
self.doc.write_text(_("- %s Born: %s Died: %s") % \
(name, bplace, dplace)) # 5
else:
self.doc.write_text(_("- %s Born: %s") % \
(name, bplace)) # 4
else:
if death and death.get_date():
if death.get_place_handle():
dplace = self.database.get_place_from_handle(death.get_place_handle()).get_title()
self.doc.write_text(_("- %s Died: %s %s") % \
(name, death.get_date(), dplace)) # 3
else:
self.doc.write_text(_("- %s Died: %s") % \
(name, death.get_date())) # 2
elif death and death.get_place_handle():
dplace = self.database.get_place_from_handle(death.get_place_handle()).get_title()
self.doc.write_text(_("- %s Died: %s") % \
(name, dplace)) # 1
else:
self.doc.write_text(_("- %s") % name) # 0
self.doc.end_paragraph()
def write_mate(self, mate):
"""Output birth, death, parentage, marriage and notes information """
famList = mate.get_family_handle_list()
if len(famList) > 0:
for fam_id in famList:
fam = self.database.get_family_from_handle(fam_id)
person= ""
if mate.get_gender() == RelLib.Person.MALE:
if fam.get_mother_handle():
ind_id= fam.get_mother_handle()
ind = self.database.get_person_from_handle(ind_id)
person = ind.get_primary_name().get_regular_name()
firstName = ind.get_primary_name().get_first_name()
heshe = _("She")
else:
heshe= _("He")
if fam.get_father_handle():
ind_id = fam.get_father_handle()
ind = self.database.get_person_from_handle(ind_id)
person = ind.get_primary_name().get_regular_name()
firstName = ind.get_primary_name().get_first_name()
if person:
if self.addImages:
ReportUtils.insert_images(self.database,self.doc,ind)
self.doc.start_paragraph("DAR-Entry")
if not self.firstName:
firstName = heshe
self.doc.write_text(person)
text = ReportUtils.born_str(self.database,ind,"",
self.EMPTY_DATE,self.EMPTY_PLACE)
if text:
self.doc.write_text(text)
age,units = self.calc_age(ind)
text = ReportUtils.died_str(self.database,ind,heshe,
self.EMPTY_DATE,self.EMPTY_PLACE,age,units)
if text:
self.doc.write_text(text)
text = ReportUtils.buried_str(self.database,ind,heshe,
self.EMPTY_DATE,self.EMPTY_PLACE)
if text:
self.doc.write_text(text)
self.write_parents(ind, firstName)
self.doc.end_paragraph()
if self.listChildren \
and mate.get_gender() == RelLib.Person.MALE:
self.write_children(fam)
def calc_age(self, ind):
"""
Calulate age.
Returns a tuple (age,units) where units is an integer representing
time units:
no age info: 0
years: 1
months: 2
days: 3
"""
age = 0
units = 0
if not self.calcAgeFlag:
return (age,units)
birth_handle = ind.get_birth_handle()
if birth_handle:
birth = self.database.get_event_from_handle(birth_handle).get_date_object()
birth_year_valid = birth.get_year_valid()
else:
birth_year_valid = None
death_handle = ind.get_death_handle()
if death_handle:
death = self.database.get_event_from_handle(death_handle).get_date_object()
death_year_valid = death.get_year_valid()
else:
death_year_valid = None
if birth_year_valid and death_year_valid:
age = death.get_year() - birth.get_year()
units = 1 # year
if birth.get_month_valid() and death.get_month_valid():
if birth.get_month() > death.get_month():
age = age -1
if birth.get_day_valid() and death.get_day_valid():
if birth.get_month() == death.get_month() and birth.get_day() > death.get_day():
age = age -1
if age == 0:
age = death.get_month() - birth.get_month() # calc age in months
if birth.get_day() > death.get_day():
age = age - 1
units = 2 # month
if age == 0:
age = death.get-day() + 31 - birth.get_day() # calc age in days
units = 3 # day
return (age,units)
#------------------------------------------------------------------------
#
#
#
#------------------------------------------------------------------------
class DetAncestorOptions(ReportOptions.ReportOptions):
"""
Defines options and provides handling interface.
"""
def __init__(self,name,person_id=None):
ReportOptions.ReportOptions.__init__(self,name,person_id)
def set_new_options(self):
# Options specific for this report
self.options_dict = {
'firstnameiop' : 0,
'fulldates' : 1,
'listc' : 1,
'incnotes' : 1,
'repplace' : 0,
'repdate' : 0,
'computeage' : 1,
'omitda' : 1,
'desref' : 1,
'incphotos' : 0,
}
self.options_help = {
'firstnameiop' : ("=0/1","Whether to use first names instead of pronouns",
["Do not use first names","Use first names"],
True),
'fulldates' : ("=0/1","Whether to use full dates instead of just year.",
["Do not use full dates","Use full dates"],
True),
'listc' : ("=0/1","Whether to list children.",
["Do not list children","List children"],
True),
'incnotes' : ("=0/1","Whether to include notes.",
["Do not include notes","Include notes"],
True),
'repplace' : ("=0/1","Whether to replace missing Places with blanks.",
["Do not replace missing Places","Replace missing Places"],
True),
'repdate' : ("=0/1","Whether to replace missing Dates with blanks.",
["Do not replace missing Dates","Replace missing Dates"],
True),
'computeage' : ("=0/1","Whether to compute age.",
["Do not compute age","Compute age"],
True),
'omitda' : ("=0/1","Whether to omit duplicate ancestors.",
["Do not omit duplicates","Omit duplicates"],
True),
'desref' : ("=0/1","Whether to add descendant references in child list.",
["Do not add references","Add references"],
True),
'incphotos' : ("=0/1","Whether to include images.",
["Do not include images","Include images"],
True),
}
def enable_options(self):
# Semi-common options that should be enabled for this report
self.enable_dict = {
'gen' : 10,
'pagebbg' : 0,
}
def make_default_style(self,default_style):
"""Make the default output style for the Detailed Ancestral Report"""
font = BaseDoc.FontStyle()
font.set(face=BaseDoc.FONT_SANS_SERIF,size=16,bold=1)
para = BaseDoc.ParagraphStyle()
para.set_font(font)
para.set_header_level(1)
para.set(pad=0.5)
para.set_description(_('The style used for the title of the page.'))
default_style.add_style("DAR-Title",para)
font = BaseDoc.FontStyle()
font.set(face=BaseDoc.FONT_SANS_SERIF,size=14,italic=1)
para = BaseDoc.ParagraphStyle()
para.set_font(font)
para.set_header_level(2)
para.set(pad=0.5)
para.set_description(_('The style used for the generation header.'))
default_style.add_style("DAR-Generation",para)
font = BaseDoc.FontStyle()
font.set(face=BaseDoc.FONT_SANS_SERIF,size=10,italic=0, bold=0)
para = BaseDoc.ParagraphStyle()
para.set_font(font)
#para.set_header_level(3)
para.set_left_margin(1.0) # in centimeters
para.set(pad=0.5)
para.set_description(_('The style used for the children list title.'))
default_style.add_style("DAR-ChildTitle",para)
font = BaseDoc.FontStyle()
font.set(face=BaseDoc.FONT_SANS_SERIF,size=9)
para = BaseDoc.ParagraphStyle()
para.set_font(font)
para.set(first_indent=0.0,lmargin=1.0,pad=0.25)
para.set_description(_('The style used for the children list.'))
default_style.add_style("DAR-ChildList",para)
para = BaseDoc.ParagraphStyle()
para.set(first_indent=0.0,lmargin=0.0,pad=0.25)
default_style.add_style("DAR-NoteHeader",para)
para = BaseDoc.ParagraphStyle()
para.set(first_indent=0.5,lmargin=1.0,pad=0.25)
para.set_description(_('The basic style used for the text display.'))
default_style.add_style("DAR-Entry",para)
para = BaseDoc.ParagraphStyle()
para.set(first_indent=-1.0,lmargin=1.0,pad=0.25)
para.set_description(_('The style used for the first personal entry.'))
default_style.add_style("DAR-First-Entry",para)
def add_user_options(self,dialog):
"""
Override the base class add_user_options task to add a menu that allows
the user to select the sort method.
"""
# Pronoun instead of first name
self.first_name_option = gtk.CheckButton(_("Use first names instead of pronouns"))
self.first_name_option.set_active(self.options_dict['firstnameiop'])
# Full date usage
self.full_date_option = gtk.CheckButton(_("Use full dates instead of only the year"))
self.full_date_option.set_active(self.options_dict['fulldates'])
# Children List
self.list_children_option = gtk.CheckButton(_("List children"))
self.list_children_option.set_active(self.options_dict['listc'])
# Print notes
self.include_notes_option = gtk.CheckButton(_("Include notes"))
self.include_notes_option.set_active(self.options_dict['incnotes'])
# Replace missing Place with ___________
self.place_option = gtk.CheckButton(_("Replace Place with ______"))
self.place_option.set_active(self.options_dict['repplace'])
# Replace missing dates with __________
self.date_option = gtk.CheckButton(_("Replace Dates with ______"))
self.date_option.set_active(self.options_dict['repdate'])
# Add "Died at the age of NN" in text
self.age_option = gtk.CheckButton(_("Compute age"))
self.age_option.set_active(self.options_dict['computeage'])
# Omit duplicate persons, occurs when distant cousins marry
self.dupPersons_option = gtk.CheckButton(_("Omit duplicate ancestors"))
self.dupPersons_option.set_active(self.options_dict['omitda'])
#Add descendant reference in child list
self.childRef_option = gtk.CheckButton(_("Add descendant reference in child list"))
self.childRef_option.set_active(self.options_dict['desref'])
#Add photo/image reference
self.image_option = gtk.CheckButton(_("Include Photo/Images from Gallery"))
self.image_option.set_active(self.options_dict['incphotos'])
# Add new options. The first argument is the tab name for grouping options.
# if you want to put everyting in the generic "Options" category, use
# self.add_option(text,widget) instead of self.add_frame_option(category,text,widget)
dialog.add_frame_option(_('Content'),'',self.first_name_option)
dialog.add_frame_option(_('Content'),'',self.full_date_option)
dialog.add_frame_option(_('Content'),'',self.list_children_option)
dialog.add_frame_option(_('Content'),'',self.include_notes_option)
dialog.add_frame_option(_('Content'),'',self.place_option)
dialog.add_frame_option(_('Content'),'',self.date_option)
dialog.add_frame_option(_('Content'),'',self.age_option)
dialog.add_frame_option(_('Content'),'',self.dupPersons_option)
dialog.add_frame_option(_('Content'),'',self.childRef_option)
dialog.add_frame_option(_('Content'),'',self.image_option)
def parse_user_options(self,dialog):
"""
Parses the custom options that we have added.
"""
self.options_dict['firstnameiop'] = int(self.first_name_option.get_active())
self.options_dict['fulldates'] = int(self.full_date_option.get_active())
self.options_dict['listc'] = int(self.list_children_option.get_active())
self.options_dict['incnotes'] = int(self.include_notes_option.get_active())
self.options_dict['repplace'] = int(self.place_option.get_active())
self.options_dict['repdate'] = int(self.date_option.get_active())
self.options_dict['computeage'] = int(self.age_option.get_active())
self.options_dict['omitda'] = int(self.dupPersons_option.get_active())
self.options_dict['desref'] = int(self.childRef_option.get_active())
self.options_dict['incphotos'] = int(self.image_option.get_active())
#------------------------------------------------------------------------
#
#
#
#------------------------------------------------------------------------
from PluginMgr import register_report
register_report(
name = 'det_ancestor_report',
category = const.CATEGORY_TEXT,
report_class = DetAncestorReport,
options_class = DetAncestorOptions,
modes = Report.MODE_GUI | Report.MODE_BKI | Report.MODE_CLI,
translated_name = _("Detailed Ancestral Report"),
status=(_("Beta")),
description= _("Produces a detailed ancestral report"),
author_name="Bruce DeGrasse",
author_email="bdegrasse1@attbi.com"
)
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