diff --git a/gramps2/ChangeLog b/gramps2/ChangeLog index 744ef2d55..6122110f7 100644 --- a/gramps2/ChangeLog +++ b/gramps2/ChangeLog @@ -1,3 +1,14 @@ +2005-01-22 Eero Tamminen + * src/plugins/StatisticsChart.py: + - Move data item options to separate tab in report GUI + - Each data item option can now be selected separately and + therefore they have separate option names + - Note: Generating separate Chart for data options maybe be + broken because I couldn't test it because of BaseDoc problems + - Put options with predefined values to separate class + (like in GraphViz.py) + - Add non-localized option value descriptions for CLI + 2005-01-21 Eero Tamminen * src/plugins/GraphViz.py: Change CLI help to use non-localized option descriptions diff --git a/gramps2/src/plugins/StatisticsChart.py b/gramps2/src/plugins/StatisticsChart.py index a496407a8..adc30e7ab 100755 --- a/gramps2/src/plugins/StatisticsChart.py +++ b/gramps2/src/plugins/StatisticsChart.py @@ -62,10 +62,6 @@ from DateHandler import displayer as _dd # #------------------------------------------------------------------------ -# sort type identifiers -_SORT_VALUE = 0 -_SORT_KEY = 1 - # needs to be global for the lookup_value_compare() _lookup_items = {} @@ -74,6 +70,22 @@ def lookup_value_compare(a, b): "compare given keys according to corresponding _lookup_items values" return cmp(_lookup_items[a],_lookup_items[b]) +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 @@ -83,24 +95,24 @@ class Extract: def __init__(self): """Methods for extracting statistical data from the database""" - self.extractors = [ - (_("Titles"), self.title), - (_("Forenames"), self.forename), - (_("Birth years"), self.birth_year), - (_("Death years"), self.death_year), - (_("Birth months"), self.birth_month), - (_("Death months"), self.death_month), - (_("Estimated ages at death"), self.death_age), - #(_("TODO: Estimated (first) marriage ages"), self.marriage_age), - #(_("TODO: Estimated ages for bearing the first child"), self.first_child_age), - #(_("TODO: Estimated Ages for bearing the last child"), self.last_child_age), - #(_("TODO: Number of children"), self.child_count), - #(_("TODO: Cause of death"), self.death_cause), - #(_("TODO: Birth place"), self.birth_place), - #(_("TODO: Marriage place"), self.marriage_place), - #(_("TODO: Death place"), self.death_place), - (_("Genders"), self.gender) - ] + self.extractors = { + 'data_title': (self.title, "Titles", _("Titles")), + 'data_fname': (self.forename, "Forenames", _("Forenames")), + 'data_byear': (self.birth_year, "Birth years", _("Birth years")), + 'data_dyear': (self.death_year, "Death years", _("Death years")), + 'data_bmonth': (self.birth_month, "Birth months", _("Birth months")), + 'data_dmonth': (self.death_month, "Death months", _("Death months")), + 'data_dage': (self.death_age, "Estimated ages at death", _("Estimated ages at death")), + #'data_mage': (self.marriage_age, "Estimated (first) marriage ages", _("Estimated (first) marriage ages")), + #'data_fchild': (self.first_child_age, "Estimated ages for bearing the first child", _("Estimated ages for bearing the first child")), + #'data_lchild': (self.last_child_age, "Estimated Ages for bearing the last child", _("Estimated Ages for bearing the last child")), + #'data_ccount': (self.child_count, "Number of children", _("Number of children")), + #'data_dcause': (self.death_cause, "Cause of death", _("Cause of death")), + #'data_bplace': (self.birth_place, "Birth place", _("Birth place")), + #'data_mplace': (self.marriage_place, "Marriage place", _("Marriage place")), + #'data_dplace': (self.death_place, "Death place", _("Death place")), + 'data_gender': (self.gender, "Genders", _("Genders")) + } def estimate_age(self, db, person, date): """Utility method to estimate person's age at given date: @@ -223,21 +235,50 @@ class Extract: else: gender = const.unknown return [gender] + + def get_person_data(self, db, person, collect): + """Adds 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 + extract_func = chart[2] + value = extract_func(db, person) + # list of information found + for key in value: + if key in chart[1].keys(): + chart[1][key] += 1 + else: + chart[1][key] = 1 + - def collect_data(self, db, filter_func, extract_func, genders, + def collect_data(self, db, filter_func, options, genders, year_from, year_to, no_years): """goes through the database and collects the selected personal data persons fitting the filter and birth year criteria. The arguments are: - db - the GRAMPS database - filter_func - filtering function selected by the StatisticsDialog - extract_func - extraction method selected by the StatisticsDialog - 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 - no_years - use also people without any birth year + 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 + no_years - use also people without any birth year + + Returns an array of tuple of: + - Extraction method title + - Dict of values with their counts + (- Method) """ - items = {} + + data = [] + ext = self.extractors + # initialize data + for key in options: + if options[key] and key in self.extractors: + # localized data title, value dict and method + data.append((ext[key][2], {}, ext[key][0])) + # go through the people and collect data for person_handle in filter_func.apply(db, db.get_person_handles(sort_handles=False)): @@ -265,15 +306,8 @@ class Extract: # do not accept people who are not known to be in range continue - # get the information - value = extract_func(db,person) - # list of information found - for key in value: - if key in items.keys(): - items[key] += 1 - else: - items[key] = 1 - return items + self.get_person_data(db, person, data) + return data # GLOBAL: required so that we get access to _Extract.extractors[] # Unfortunately class variables cannot reference instance methods :-/ @@ -311,13 +345,6 @@ class StatisticsChart(Report.Report): year_to = options['year_to'] gender = options['gender'] - (title, extractfun) = _Extract.extractors[options['extract']] - # extract requested items from the database and count them - self.items = _Extract.collect_data(database, filterfun, extractfun, - gender, year_from, year_to, options['no_years']) - # generate sorted item lookup index index - self.index_items(options['sortby'], options['reverse']) - # title needs both data extraction method name + gender name if gender == Person.male: genderstr = _("men") @@ -326,33 +353,49 @@ class StatisticsChart(Report.Report): else: genderstr = None - if genderstr: - self.title = "%s (%s): %04d-%04d" % (title, genderstr, year_from, year_to) - else: - self.title = "%s: %04d-%04d" % (title, year_from, year_to) + # extract requested items from the database and count them + tables = _Extract.collect_data(database, filterfun, options, + gender, year_from, year_to, options['no_years']) + self.data = [] + sortby = options['sortby'] + reverse = options['reverse'] + for table in tables: + # generate sorted item lookup index index + lookup = self.index_items(table[1], sortby, reverse) + # document heading + if genderstr: + heading = "%s (%s): %04d-%04d" % (table[0], genderstr, year_from, year_to) + else: + heading = "%s: %04d-%04d" % (table[0], year_from, year_to) + self.data.append((heading, table[1], lookup)) + print heading + print table[1] + print lookup + self.setup() + - def index_items(self, sort, reverse): + def index_items(self, data, sort, reverse): """creates & stores a sorted index for the items""" global _lookup_items # sort by item keys - index = self.items.keys() + index = data.keys() index.sort() if reverse: index.reverse() - if sort == _SORT_VALUE: + if sort == _options.SORT_VALUE: # set for the sorting function - _lookup_items = self.items + _lookup_items = data # then sort by value index.sort(lookup_value_compare) if reverse: index.reverse() - self.index = index + return index def setup(self): @@ -391,6 +434,16 @@ class StatisticsChart(Report.Report): def write_report(self): "output the selected statistics..." + self.doc.start_page() + + for data in self.data: + self.output_chart(data[0], data[1], data[3]) + + self.doc.end_page() + + + def output_chart(self, title, data, lookup): + font = self.doc.style_list['SC-Text'].get_font() # set layout variables @@ -402,22 +455,19 @@ class StatisticsChart(Report.Report): # calculate maximum key string size max_size = 0 max_value = 0 - for key in self.index: + for key in lookup: max_size = max(self.doc.string_width(font, key), max_size) - max_value = max(self.items[key], max_value) + max_value = max(data[key], max_value) # horizontal area for the gfx bars start = pt2cm(max_size) + 1.0 size = width - 1.5 - start - # start page - self.doc.start_page() - # start output - self.doc.center_text('SC-title', self.title, width/2, 0) - #print self.title + self.doc.center_text('SC-title', title, width/2, 0) + print title yoffset = pt2cm(self.doc.style_list['SC-Title'].get_font().get_size()) - for key in self.index: + for key in lookup: yoffset += (row_h + pad) if yoffset > max_y: # for graphical report, page_break() doesn't seem to work @@ -428,9 +478,9 @@ class StatisticsChart(Report.Report): # right align the text to the value x = start - pt2cm(self.doc.string_width(font, key)) - 1.0 self.doc.draw_text('SC-text', key, x, yoffset) - #print key + ":", + print key + ":", - value = self.items[key] + value = data[key] stop = start + (size * value / max_value) path = ((start, yoffset), (stop, yoffset), @@ -438,9 +488,7 @@ class StatisticsChart(Report.Report): (start, yoffset + row_h)) self.doc.draw_path('SC-bar', path) self.doc.draw_text('SC-text', str(value), stop + 0.5, yoffset) - #print "%d/%d" % (value, max_value) - - self.doc.end_page() + print "%d/%d" % (value, max_value) return @@ -453,36 +501,29 @@ class StatisticsChartOptions(ReportOptions.ReportOptions): """ Defines options and provides their handling interface. """ - _sorts = [ - (_SORT_VALUE, _("Item count")), - (_SORT_KEY, _("Item name")) - ] - _genders = [ - (Person.unknown, _("Both")), - (Person.male, _("Men")), - (Person.female, _("Women")) - ] - 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 = { - 'extract' : 0, - 'sortby' : _SORT_VALUE, + 'gender' : Person.unknown, + 'sortby' : _options.SORT_VALUE, 'reverse' : 0, 'year_from' : 1700, 'year_to' : time.localtime()[0], - 'no_years' : 0, - 'gender' : Person.unknown + 'no_years' : 0 } + for key in _Extract.extractors: + self.options_dict[key] = 0 + self.options_dict['data_gender'] = 1 + self.options_help = { - 'extract' : ("=num", "Data to show", - [item[0] for item in _Extract.extractors], - True), - 'sortby' : ("=num", "Sorted by", - ["%d\t%s" % item for item in self._sorts], + 'gender' : ("=num", "Genders included", + ["%d\t%s" % (item[0], item[1]) for item in _options.genders], + False), + 'sortby' : ("=num", "Sort chart items by", + ["%d\t%s" % (item[0], item[1]) for item in _options.sorts], False), 'reverse' : ("=0/1", "Whether to sort in reverse order", ["Do not sort in reverse", "Sort in reverse"], @@ -492,11 +533,12 @@ class StatisticsChartOptions(ReportOptions.ReportOptions): 'year_to' : ("=num", "Birth year until which to include people", "smaller than %d" % self.options_dict['year_to']), 'no_years' : ("=0/1", "Whether to include people without birth years", - ["Do not include", "Include"], True), - 'gender' : ("=num", "Genders included", - ["%d\t%s" % item for item in self._genders], - False) + ["Do not include", "Include"], True) } + for key in _Extract.extractors: + self.options_help[key] = ("=0/1", _Extract.extractors[key][1], + ["Leave this data out", "Include chart with this data"], + True) def enable_options(self): # Semi-common options that should be enabled for this report @@ -557,23 +599,15 @@ class StatisticsChartOptions(ReportOptions.ReportOptions): Override the base class add_user_options task to add report specific options """ - # what data to extract from database - self.extract_menu = gtk.combo_box_new_text() - for item in _Extract.extractors: - self.extract_menu.append_text(item[0]) - self.extract_menu.set_active(self.options_dict['extract']) - tip = _("Select which data is collected and which statistics is shown.") - dialog.add_option(_("Data to show"), self.extract_menu, tip) - # how to sort the data self.sort_menu = gtk.combo_box_new_text() - for item_idx in range(len(self._sorts)): - item = self._sorts[item_idx] - self.sort_menu.append_text(item[1]) + for item_idx in range(len(_options.sorts)): + item = _options.sorts[item_idx] + self.sort_menu.append_text(item[2]) if item[0] == self.options_dict['sortby']: self.sort_menu.set_active(item_idx) tip = _("Select how the statistical data is sorted.") - dialog.add_option(_("Sorted by"), self.sort_menu, tip) + dialog.add_option(_("Sort chart items by"), self.sort_menu, tip) # sorting order tip = _("Check to reverse the sorting order.") @@ -605,25 +639,46 @@ class StatisticsChartOptions(ReportOptions.ReportOptions): # gender selection self.gender_menu = gtk.combo_box_new_text() - for item_idx in range(len(self._genders)): - item = self._genders[item_idx] - self.gender_menu.append_text(item[1]) + for item_idx in range(len(_options.genders)): + item = _options.genders[item_idx] + self.gender_menu.append_text(item[2]) if item[0] == self.options_dict['gender']: self.gender_menu.set_active(item_idx) tip = _("Select which genders are included into statistics.") dialog.add_option(_("Genders included"), self.gender_menu, tip) + # List of available charts on a separate option tab + idx = 0 + half = len(_Extract.extractors)/2 + hbox = gtk.HBox() + vbox = gtk.VBox() + self.charts = {} + for key in _Extract.extractors: + check = gtk.CheckButton(_Extract.extractors[key][2]) + check.set_active(self.options_dict[key]) + self.charts[key] = check + vbox.add(check) + idx += 1 + if idx == half: + hbox.add(vbox) + vbox = gtk.VBox() + hbox.add(vbox) + tip = _("Mark checkboxes to add charts with indicated data") + dialog.add_frame_option("Chart Selection", "", hbox, tip) + hbox.show_all() + def parse_user_options(self, dialog): """ Parses the custom options that we have added. """ - self.options_dict['extract'] = self.extract_menu.get_active() - self.options_dict['sortby'] = self._sorts[self.sort_menu.get_active()][0] + self.options_dict['sortby'] = _options.sorts[self.sort_menu.get_active()][0] self.options_dict['reverse'] = int(self.reverse.get_active()) self.options_dict['year_to'] = int(self.to_box.get_text()) self.options_dict['year_from'] = int(self.from_box.get_text()) self.options_dict['no_years'] = int(self.no_years.get_active()) - self.options_dict['gender'] = self._genders[self.gender_menu.get_active()][0] + self.options_dict['gender'] = _options.genders[self.gender_menu.get_active()][0] + for key in _Extract.extractors: + self.options_dict[key] = int(self.charts[key].get_active()) #------------------------------------------------------------------------ #