gramps/src/plugins/drawreport/StatisticsChart.py

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#
# Gramps - a GTK+/GNOME based genealogy program
#
# Copyright (C) 2003-2006 Donald N. Allingham
# Copyright (C) 2004-2005 Eero Tamminen
# Copyright (C) 2007-2008 Brian G. Matherly
# Copyright (C) 2008 Peter Landgren
#
# 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
#
# To see things still missing, search for "TODO"...
#
# $Id$
"""Reports/Graphical Reports/Statistics Report"""
#------------------------------------------------------------------------
#
# python modules
#
#------------------------------------------------------------------------
import time
from TransUtils import sgettext as _
#------------------------------------------------------------------------
#
# GRAMPS modules
#
#------------------------------------------------------------------------
# Person and relation types
from gen.lib import Person, FamilyRelType, EventType
# gender and report type names
from gen.plug.docgen import (FontStyle, ParagraphStyle, GraphicsStyle,
FONT_SANS_SERIF, FONT_SERIF,
PARA_ALIGN_CENTER, PARA_ALIGN_LEFT)
from gen.plug import PluginManager
from gen.plug.menu import BooleanOption, NumberOption, EnumeratedListOption, \
FilterOption, PersonOption
from ReportBase import Report, ReportUtils, MenuReportOptions, CATEGORY_DRAW
import DateHandler
from gui.utils import ProgressMeter
#------------------------------------------------------------------------
#
# Global options and their names
#
#------------------------------------------------------------------------
class _options:
# sort type identifiers
SORT_VALUE = 0
SORT_KEY = 1
sorts = [
(SORT_VALUE, "Item count", _("Item count")),
(SORT_KEY, "Item name", _("Item name"))
]
genders = [
(Person.UNKNOWN, "Both", _("Both")),
(Person.MALE, "Men", _("Men")),
(Person.FEMALE, "Women", _("Women"))
]
#------------------------------------------------------------------------
#
# Data extraction methods from the database
#
#------------------------------------------------------------------------
class Extract(object):
def __init__(self):
"""Methods for extracting statistical data from the database"""
# key, non-localized name, localized name, type method, data method
self.extractors = {
'data_title': ("Title", _("person|Title"),
self.get_person, self.get_title),
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'data_sname': ("Surname", _("Surname"),
self.get_person, self.get_surname),
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'data_fname': ("Forename", _("Forename"),
self.get_person, self.get_forename),
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'data_gender': ("Gender", _("Gender"),
self.get_person, self.get_gender),
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'data_byear': ("Birth year", _("Birth year"),
self.get_birth, self.get_year),
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'data_dyear': ("Death year", _("Death year"),
self.get_death, self.get_year),
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'data_bmonth': ("Birth month", _("Birth month"),
self.get_birth, self.get_month),
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'data_dmonth': ("Death month", _("Death month"),
self.get_death, self.get_month),
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'data_bplace': ("Birth place", _("Birth place"),
self.get_birth, self.get_place),
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'data_dplace': ("Death place", _("Death place"),
self.get_death, self.get_place),
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'data_mplace': ("Marriage place", _("Marriage place"),
self.get_marriage_handles, self.get_places),
'data_mcount': ("Number of relationships", _("Number of relationships"),
self.get_family_handles, self.get_handle_count),
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'data_fchild': ("Age when first child born", _("Age when first child born"),
self.get_child_handles, self.get_first_child_age),
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'data_lchild': ("Age when last child born", _("Age when last child born"),
self.get_child_handles, self.get_last_child_age),
'data_ccount': ("Number of children", _("Number of children"),
self.get_child_handles, self.get_handle_count),
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'data_mage': ("Age at marriage", _("Age at marriage"),
self.get_marriage_handles, self.get_event_ages),
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'data_dage': ("Age at death", _("Age at death"),
self.get_person, self.get_death_age),
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'data_age': ("Age", _("Age"),
self.get_person, self.get_person_age),
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'data_etypes': ("Event type", _("Event type"),
self.get_event_handles, self.get_event_type)
}
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# ----------------- data extraction methods --------------------
# take an object and return a list of strings
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def get_title(self, person):
"return title for given person"
# TODO: return all titles, not just primary ones...
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title = person.get_primary_name().get_title()
if title:
return [title]
else:
return [_("(Preferred) title missing")]
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def get_forename(self, person):
"return forenames for given person"
# TODO: return all forenames, not just primary ones...
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firstnames = person.get_primary_name().get_first_name().strip()
if firstnames:
return firstnames.split()
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else:
return [_("(Preferred) forename missing")]
def get_surname(self, person):
"return surnames for given person"
# TODO: return all surnames, not just primary ones...
surnames = person.get_primary_name().get_surname().strip()
if surnames:
return surnames.split()
else:
return [_("(Preferred) surname missing")]
def get_gender(self, person):
"return gender for given person"
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# TODO: why there's no Person.getGenderName?
# It could be used by getDisplayInfo & this...
if person.gender == Person.MALE:
return [_("Men")]
if person.gender == Person.FEMALE:
return [_("Women")]
return [_("Gender unknown")]
def get_year(self, event):
"return year for given event"
date = event.get_date_object()
if date:
year = date.get_year()
if year:
return [str(year)]
return [_("Date(s) missing")]
def get_month(self, event):
"return month for given event"
date = event.get_date_object()
if date:
month = date.get_month()
if month:
return [DateHandler.displayer._months[month]]
return [_("Date(s) missing")]
def get_place(self, event):
"return place for given event"
place_handle = event.get_place_handle()
if place_handle:
place = self.db.get_place_from_handle(place_handle).get_title()
if place:
return [place]
return [_("Place missing")]
def get_places(self, data):
"return places for given (person,event_handles)"
places = []
person, event_handles = data
for event_handle in event_handles:
event = self.db.get_event_from_handle(event_handle)
place_handle = event.get_place_handle()
if place_handle:
place = self.db.get_place_from_handle(place_handle).get_title()
if place:
places.append(place)
else:
places.append(_("Place missing"))
return places
def get_person_age(self, person):
"return age for given person, if alive"
death_ref = person.get_death_ref()
if not death_ref:
return [self.estimate_age(person)]
return [_("Already dead")]
def get_death_age(self, person):
"return age at death for given person, if dead"
death_ref = person.get_death_ref()
if death_ref:
return [self.estimate_age(person, death_ref.ref)]
return [_("Still alive")]
def get_event_ages(self, data):
"return ages at given (person,event_handles)"
ages = []
person, event_handles = data
for event_handle in event_handles:
ages.append(self.estimate_age(person, event_handle))
if ages:
return ages
return [_("Events missing")]
def get_event_type(self, data):
"return event types at given (person,event_handles)"
types = []
person, event_handles = data
for event_handle in event_handles:
event = self.db.get_event_from_handle(event_handle)
evtType = str(event.get_type())
types.append(evtType)
if types:
return types
return [_("Events missing")]
def get_first_child_age(self, data):
"return age when first child in given (person,child_handles) was born"
ages, errors = self.get_sorted_child_ages(data)
if ages:
errors.append(ages[0])
return errors
return [_("Children missing")]
def get_last_child_age(self, data):
"return age when last child in given (person,child_handles) was born"
ages, errors = self.get_sorted_child_ages(data)
if ages:
errors.append(ages[-1])
return errors
return [_("Children missing")]
def get_handle_count(self, data):
"return number of handles in given (person, handle_list) used for child count, family count"
return ["%3d" % len(data[1])]
# ------------------- utility methods -------------------------
def get_sorted_child_ages(self, data):
"return (sorted_ages,errors) for given (person,child_handles)"
ages = []
errors = []
person, child_handles = data
for child_handle in child_handles:
child = self.db.get_person_from_handle(child_handle)
birth_ref = child.get_birth_ref()
if birth_ref:
ages.append(self.estimate_age(person, birth_ref.ref))
else:
errors.append(_("Birth missing"))
continue
ages.sort()
return (ages, errors)
def estimate_age(self, person, end=None, begin=None):
"""return estimated age (range) for given person or error message.
age string is padded with spaces so that it can be sorted"""
age = ReportUtils.estimate_age(self.db, person, end, begin)
if age[0] < 0 or age[1] < 0:
# inadequate information
return _("Date(s) missing")
if age[0] == age[1]:
# exact year
return "%3d" % age[0]
else:
# minimum and maximum
return "%3d-%d" % (age[0], age[1])
# ------------------- type methods -------------------------
# take db and person and return suitable gramps object(s)
def get_person(self, person):
"return person"
return person
def get_birth(self, person):
"return birth event for given person or None"
birth_ref = person.get_birth_ref()
if birth_ref:
return self.db.get_event_from_handle(birth_ref.ref)
return None
def get_death(self, person):
"return death event for given person or None"
death_ref = person.get_death_ref()
if death_ref:
return self.db.get_event_from_handle(death_ref.ref)
return None
def get_child_handles(self, person):
"return list of child handles for given person or None"
children = []
for fam_handle in person.get_family_handle_list():
fam = self.db.get_family_from_handle(fam_handle)
for child_ref in fam.get_child_ref_list():
children.append(child_ref.ref)
# TODO: it would be good to return only biological children,
# but GRAMPS doesn't offer any efficient way to check that
# (I don't want to check each children's parent family mother
# and father relations as that would make this *much* slower)
if children:
return (person, children)
return None
def get_marriage_handles(self, person):
"return list of marriage event handles for given person or None"
marriages = []
for family_handle in person.get_family_handle_list():
family = self.db.get_family_from_handle(family_handle)
if int(family.get_relationship()) == FamilyRelType.MARRIED:
for event_ref in family.get_event_ref_list():
event = self.db.get_event_from_handle(event_ref.ref)
if event.type == EventType.MARRIAGE:
marriages.append(event_ref.ref)
if marriages:
return (person, marriages)
return None
def get_family_handles(self, person):
"return list of family handles for given person or None"
families = person.get_family_handle_list()
if families:
return (person, families)
return None
def get_event_handles(self, person):
"return list of event handles for given person or None"
events = []
for event_ref in person.get_event_ref_list():
events.append(event_ref.ref)
if events:
return (person, events)
return None
# ----------------- data collection methods --------------------
def get_person_data(self, person, collect):
"""Add data from the database to 'collect' for the given person,
using methods rom the 'collect' data dict tuple
"""
for chart in collect:
# get the information
type_func = chart[2]
data_func = chart[3]
obj = type_func(person) # e.g. get_date()
if obj:
value = data_func(obj) # e.g. get_year()
else:
value = [_("Personal information missing")]
# list of information found
for key in value:
if key in chart[1]:
chart[1][key] += 1
else:
chart[1][key] = 1
def collect_data(self, db, filter_func, menu, genders,
year_from, year_to, no_years):
"""goes through the database and collects the selected personal
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data persons fitting the filter and birth year criteria. The
arguments are:
db - the GRAMPS database
filter_func - filtering function selected by the StatisticsDialog
options - report options_dict which sets which methods are used
genders - which gender(s) to include into statistics
year_from - use only persons who've born this year of after
year_to - use only persons who've born this year or before
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no_years - use also people without known birth year
Returns an array of tuple of:
- Extraction method title
- Dict of values with their counts
(- Method)
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"""
self.db = db # store for use by methods
data = []
ext = self.extractors
# which methods to use
for name in self.extractors:
option = menu.get_option_by_name(name)
if option.get_value() == True:
# localized data title, value dict, type and data method
data.append((ext[name][1], {}, ext[name][2], ext[name][3]))
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# go through the people and collect data
for person_handle in filter_func.apply(db, db.get_person_handles(sort_handles=False)):
person = db.get_person_from_handle(person_handle)
# check whether person has suitable gender
if person.gender != genders and genders != Person.UNKNOWN:
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continue
# check whether birth year is within required range
birth = self.get_birth(person)
if birth:
birthdate = birth.get_date_object()
if birthdate.get_year_valid():
year = birthdate.get_year()
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if not (year >= year_from and year <= year_to):
continue
else:
# if death before range, person's out of range too...
death = self.get_death(person)
if death:
deathdate = death.get_date_object()
if deathdate.get_year_valid() and deathdate.get_year() < year_from:
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continue
if not no_years:
# do not accept people who are not known to be in range
continue
else:
continue
else:
continue
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self.get_person_data(person, data)
return data
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# GLOBAL: required so that we get access to _Extract.extractors[]
# Unfortunately class variables cannot reference instance methods :-/
_Extract = Extract()
#------------------------------------------------------------------------
#
# Statistics report
#
#------------------------------------------------------------------------
class StatisticsChart(Report):
def __init__(self, database, options_class):
"""
Create the Statistics object that produces the report.
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Uses the Extractor class to extract the data from the database.
The arguments are:
database - the GRAMPS database instance
person - currently selected person
options_class - instance of the Options class for this report
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To see what the options are, check the options help in the options class.
"""
Report.__init__(self, database, options_class)
menu = options_class.menu
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self.filter_option = menu.get_option_by_name('filter')
self.filter = self.filter_option.get_filter()
self.bar_items = menu.get_option_by_name('bar_items').get_value()
year_from = menu.get_option_by_name('year_from').get_value()
year_to = menu.get_option_by_name('year_to').get_value()
gender = menu.get_option_by_name('gender').get_value()
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# title needs both data extraction method name + gender name
if gender == Person.MALE:
genders = _("Men")
elif gender == Person.FEMALE:
genders = _("Women")
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else:
genders = None
# needed for keyword based localization
mapping = {
'genders': genders,
'year_from': year_from,
'year_to': year_to
}
self.progress = ProgressMeter(_('Statistics Charts'))
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# extract requested items from the database and count them
self.progress.set_pass(_('Collecting data...'), 1)
tables = _Extract.collect_data(database, self.filter, menu,
gender, year_from, year_to,
menu.get_option_by_name('no_years').get_value())
self.progress.step()
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self.progress.set_pass(_('Sorting data...'), len(tables))
self.data = []
sortby = menu.get_option_by_name('sortby').get_value()
reverse = menu.get_option_by_name('reverse').get_value()
for table in tables:
# generate sorted item lookup index index
lookup = self.index_items(table[1], sortby, reverse)
# document heading
mapping['chart_title'] = table[0]
if genders:
heading = _("%(genders)s born %(year_from)04d-%(year_to)04d: %(chart_title)s") % mapping
else:
heading = _("Persons born %(year_from)04d-%(year_to)04d: %(chart_title)s") % mapping
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self.data.append((heading, table[0], table[1], lookup))
self.progress.step()
#DEBUG
#print heading
#print table[1]
def lookup_compare(self, a, b):
"compare given keys according to corresponding lookup values"
return cmp(self.lookup_items[a], self.lookup_items[b])
def index_items(self, data, sort, reverse):
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"""creates & stores a sorted index for the items"""
# sort by item keys
index = sorted(data, reverse=True if reverse else False)
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if sort == _options.SORT_VALUE:
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# set for the sorting function
self.lookup_items = data
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# then sort by value
index.sort(self.lookup_compare,
reverse=True if reverse else False)
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return index
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def write_report(self):
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"output the selected statistics..."
self.progress.set_pass(_('Saving charts...'), len(self.data))
for data in self.data:
self.doc.start_page()
if len(data[2]) < self.bar_items:
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self.output_piechart(*data[:4])
else:
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self.output_barchart(*data[:4])
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self.doc.end_page()
self.progress.step()
self.progress.close()
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def output_piechart(self, title, typename, data, lookup):
# set layout variables
middle_w = self.doc.get_usable_width() / 2
middle_h = self.doc.get_usable_height() / 2
middle = min(middle_w,middle_h)
# start output
self.doc.center_text('SC-title', title, middle_w, 0)
style_sheet = self.doc.get_style_sheet()
pstyle = style_sheet.get_paragraph_style('SC-Title')
yoffset = ReportUtils.pt2cm(pstyle.get_font().get_size())
# collect data for output
color = 0
chart_data = []
for key in lookup:
style = "SC-color-%d" % color
text = "%s (%d)" % (key, data[key])
# graphics style, value, and it's label
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chart_data.append((style, data[key], text))
color = (color+1) % 7 # There are only 7 color styles defined
margin = 1.0
legendx = 2.0
# output data...
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radius = middle - 2*margin
yoffset = yoffset + margin + radius
ReportUtils.draw_pie_chart(self.doc, middle_w, yoffset, radius, chart_data, -90)
yoffset = yoffset + radius + 2*margin
if middle == middle_h: # Landscape
legendx = 1.0
yoffset = margin
text = _("%s (persons):") % typename
ReportUtils.draw_legend(self.doc, legendx, yoffset, chart_data, text,'SC-legend')
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def output_barchart(self, title, typename, data, lookup):
pt2cm = ReportUtils.pt2cm
style_sheet = self.doc.get_style_sheet()
pstyle = style_sheet.get_paragraph_style('SC-Text')
font = pstyle.get_font()
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# set layout variables
width = self.doc.get_usable_width()
row_h = pt2cm(font.get_size())
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max_y = self.doc.get_usable_height() - row_h
pad = row_h * 0.5
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# check maximum value
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max_value = 0
for key in lookup:
max_value = max(data[key], max_value)
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# horizontal area for the gfx bars
margin = 1.0
middle = width/2.0
textx = middle + margin/2.0
stopx = middle - margin/2.0
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maxsize = stopx - margin
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# start output
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self.doc.center_text('SC-title', title, middle, 0)
pstyle = style_sheet.get_paragraph_style('SC-Title')
yoffset = pt2cm(pstyle.get_font().get_size())
#print title
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# header
yoffset += (row_h + pad)
text = _("%s (persons):") % typename
self.doc.draw_text('SC-text', text, textx, yoffset)
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for key in lookup:
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yoffset += (row_h + pad)
if yoffset > max_y:
# for graphical report, page_break() doesn't seem to work
self.doc.end_page()
self.doc.start_page()
yoffset = 0
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# right align bar to the text
value = data[key]
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startx = stopx - (maxsize * value / max_value)
self.doc.draw_box('SC-bar',"",startx,yoffset,stopx-startx,row_h)
# text after bar
text = "%s (%d)" % (key, data[key])
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self.doc.draw_text('SC-text', text, textx, yoffset)
#print key + ":",
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return
#------------------------------------------------------------------------
#
# StatisticsChartOptions
#
#------------------------------------------------------------------------
class StatisticsChartOptions(MenuReportOptions):
def __init__(self, name, dbase):
self.__pid = None
self.__filter = None
self.__db = dbase
MenuReportOptions.__init__(self, name, dbase)
def add_menu_options(self, menu):
"""
Add options to the menu for the statistics report.
"""
category_name = _("Report Options")
self.__filter = FilterOption(_("Filter"), 0)
self.__filter.set_help(
_("Determines what people are included in the report"))
menu.add_option(category_name, "filter", self.__filter)
self.__filter.connect('value-changed', self.__filter_changed)
self.__pid = PersonOption(_("Filter Person"))
self.__pid.set_help(_("The center person for the filter"))
menu.add_option(category_name, "pid", self.__pid)
self.__pid.connect('value-changed', self.__update_filters)
self.__update_filters()
sortby = EnumeratedListOption(_('Sort chart items by'),
_options.SORT_VALUE )
for item_idx in range(len(_options.sorts)):
item = _options.sorts[item_idx]
sortby.add_item(item_idx,item[2])
sortby.set_help( _("Select how the statistical data is sorted."))
menu.add_option(category_name,"sortby",sortby)
reverse = BooleanOption(_("Sort in reverse order"), False)
reverse.set_help(_("Check to reverse the sorting order."))
menu.add_option(category_name,"reverse", reverse)
this_year = time.localtime()[0]
year_from = NumberOption(_("People Born After"),
1700, 1, this_year)
year_from.set_help(_("Birth year from which to include people"))
menu.add_option(category_name,"year_from", year_from)
year_to = NumberOption(_("People Born Before"),
this_year, 1, this_year)
year_to.set_help(_("Birth year until which to include people"))
menu.add_option(category_name,"year_to", year_to)
no_years = BooleanOption(_("Include people without known birth years"),
False)
no_years.set_help(_("Whether to include people without "
"known birth years"))
menu.add_option(category_name,"no_years", no_years)
gender = EnumeratedListOption(_('Genders included'),
Person.UNKNOWN )
for item_idx in range(len(_options.genders)):
item = _options.genders[item_idx]
gender.add_item(item[0],item[2])
gender.set_help( _("Select which genders are included into "
"statistics."))
menu.add_option(category_name,"gender",gender)
bar_items = NumberOption(_("Max. items for a pie"), 8, 0, 20)
bar_items.set_help(_("With fewer items pie chart and legend will be "
"used instead of a bar chart."))
menu.add_option(category_name,"bar_items", bar_items)
# -------------------------------------------------
# List of available charts on separate option tabs
idx = 0
half = (len(_Extract.extractors))/2
self.charts = {}
for key in _Extract.extractors:
if idx < half:
category_name = _("Charts 1")
else:
category_name = _("Charts 2")
opt = BooleanOption(_Extract.extractors[key][1], False)
opt.set_help(_("Include charts with indicated data"))
menu.add_option(category_name,key, opt)
idx += 1
# Enable a couple of charts by default
menu.get_option_by_name("data_gender").set_value(True)
menu.get_option_by_name("data_ccount").set_value(True)
menu.get_option_by_name("data_bmonth").set_value(True)
def __update_filters(self):
"""
Update the filter list based on the selected person
"""
gid = self.__pid.get_value()
person = self.__db.get_person_from_gramps_id(gid)
filter_list = ReportUtils.get_person_filters(person, False)
self.__filter.set_filters(filter_list)
def __filter_changed(self):
"""
Handle filter change. If the filter is not specific to a person,
disable the person option
"""
filter_value = self.__filter.get_value()
if filter_value in [1, 2, 3, 4]:
# Filters 1, 2, 3 and 4 rely on the center person
self.__pid.set_available(True)
else:
# The rest don't
self.__pid.set_available(False)
def make_default_style(self, default_style):
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"""Make the default output style for the Statistics report."""
# Paragraph Styles
f = FontStyle()
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f.set_size(10)
f.set_type_face(FONT_SERIF)
p = ParagraphStyle()
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p.set_font(f)
p.set_alignment(PARA_ALIGN_LEFT)
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p.set_description(_("The style used for the items and values."))
default_style.add_paragraph_style("SC-Text",p)
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f = FontStyle()
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f.set_size(14)
f.set_type_face(FONT_SANS_SERIF)
p = ParagraphStyle()
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p.set_font(f)
p.set_alignment(PARA_ALIGN_CENTER)
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p.set_description(_("The style used for the title of the page."))
default_style.add_paragraph_style("SC-Title",p)
"""
Graphic Styles:
SC-title - Contains the SC-Title paragraph style used for
the title of the document
SC-text - Contains the SC-Name paragraph style used for
the individual's name
SC-color-N - The colors for drawing pies.
SC-bar - A red bar with 0.5pt black line.
"""
g = GraphicsStyle()
g.set_paragraph_style("SC-Title")
g.set_color((0,0,0))
g.set_fill_color((255,255,255))
g.set_line_width(0)
default_style.add_draw_style("SC-title",g)
g = GraphicsStyle()
g.set_paragraph_style("SC-Text")
g.set_color((0,0,0))
g.set_fill_color((255,255,255))
g.set_line_width(0)
default_style.add_draw_style("SC-text",g)
width = 0.8
# red
g = GraphicsStyle()
g.set_paragraph_style('SC-Text')
g.set_color((0,0,0))
g.set_fill_color((255,0,0))
g.set_line_width(width)
default_style.add_draw_style("SC-color-0",g)
# orange
g = GraphicsStyle()
g.set_paragraph_style('SC-Text')
g.set_color((0,0,0))
g.set_fill_color((255,158,33))
g.set_line_width(width)
default_style.add_draw_style("SC-color-1",g)
# green
g = GraphicsStyle()
g.set_paragraph_style('SC-Text')
g.set_color((0,0,0))
g.set_fill_color((0,178,0))
g.set_line_width(width)
default_style.add_draw_style("SC-color-2",g)
# violet
g = GraphicsStyle()
g.set_paragraph_style('SC-Text')
g.set_color((0,0,0))
g.set_fill_color((123,0,123))
g.set_line_width(width)
default_style.add_draw_style("SC-color-3",g)
# yellow
g = GraphicsStyle()
g.set_paragraph_style('SC-Text')
g.set_color((0,0,0))
g.set_fill_color((255,255,0))
g.set_line_width(width)
default_style.add_draw_style("SC-color-4",g)
# blue
g = GraphicsStyle()
g.set_paragraph_style('SC-Text')
g.set_color((0,0,0))
g.set_fill_color((0,105,214))
g.set_line_width(width)
default_style.add_draw_style("SC-color-5",g)
# gray
g = GraphicsStyle()
g.set_paragraph_style('SC-Text')
g.set_color((0,0,0))
g.set_fill_color((210,204,210))
g.set_line_width(width)
default_style.add_draw_style("SC-color-6",g)
g = GraphicsStyle()
g.set_color((0,0,0))
g.set_fill_color((255,0,0))
g.set_line_width(width)
default_style.add_draw_style("SC-bar",g)
# legend
g = GraphicsStyle()
g.set_paragraph_style('SC-Text')
g.set_color((0,0,0))
g.set_fill_color((255,255,255))
g.set_line_width(0)
default_style.add_draw_style("SC-legend",g)
#------------------------------------------------------------------------
#
# Register report/options
#
#------------------------------------------------------------------------
pmgr = PluginManager.get_instance()
pmgr.register_report(
name = 'statistics_chart',
category = CATEGORY_DRAW,
report_class = StatisticsChart,
options_class = StatisticsChartOptions,
modes = PluginManager.REPORT_MODE_GUI | \
PluginManager.REPORT_MODE_BKI | \
PluginManager.REPORT_MODE_CLI,
translated_name = _("Statistics Charts"),
status = _("Stable"),
author_name = "Eero Tamminen",
author_email = "",
description = _("Produces statistical bar and pie charts of the people "
"in the database"),
require_active = False,
)