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mygramps/MyTimeline.py
Daniel Viegas 0a9ecca878 Fix bug where unchecking all event types in a category re-checks them 
When all event types in a category were unchecked, _update_group_checkbox_state
would set the category checkbox to False, which triggered its toggle handler.
This handler would then set all child checkboxes to match the category state,
causing them to be re-checked.

The fix adds an optional updating_flag parameter to _update_group_checkbox_state
that prevents the group toggle handler from firing during programmatic updates.
The flag is set before updating the checkbox state and cleared after, breaking
the recursion cycle.

Changes:
- Modified _update_group_checkbox_state to accept optional updating_flag parameter
- Updated _make_child_toggle_handler to pass updating_flag
- Store category updating flags in _filter_widgets for reuse
- Updated _update_event_type_widgets to use stored updating flags
- Fixed family checkbox initialization to use updating flag as well
2025-11-30 14:37:55 +01:00

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# -*- coding: utf-8 -*-
#
# Gramps - a GTK+/GNOME based genealogy program
#
# Copyright (C) 2024
#
# 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, see <https://www.gnu.org/licenses/>.
#
"""
MyTimeline View - A vertical timeline showing all events in the database
"""
# -------------------------------------------------------------------------
#
# Python modules
#
# -------------------------------------------------------------------------
import cairo
import colorsys
import datetime
import logging
import math
from dataclasses import dataclass
from typing import Optional, List, Tuple, Any, Set, Dict, TYPE_CHECKING, Union, Callable
if TYPE_CHECKING:
from gramps.gen.lib import Event, Person, Family
from gi.repository import Gtk
from gi.repository import Gdk
from gi.repository import GdkPixbuf
from gi.repository import GLib
from gi.repository import Pango
from gi.repository import PangoCairo
# -------------------------------------------------------------------------
#
# Gramps modules
#
# -------------------------------------------------------------------------
from gramps.gen.const import GRAMPS_LOCALE as glocale
from gramps.gen.lib import EventType, Date
from gramps.gen.utils.db import (
get_birth_or_fallback,
get_death_or_fallback,
get_marriage_or_fallback,
)
from gramps.gen.datehandler import get_date
from gramps.gen.display.name import displayer as name_displayer
from gramps.gui.views.navigationview import NavigationView
from gramps.gui.views.bookmarks import EventBookmarks
_ = glocale.translation.sgettext
# -------------------------------------------------------------------------
#
# Constants
#
# -------------------------------------------------------------------------
# Timeline Layout Constants
TIMELINE_MARGIN_LEFT = 150
TIMELINE_MARGIN_RIGHT = 50
TIMELINE_MARGIN_TOP = 50
TIMELINE_MARGIN_BOTTOM = 50
TIMELINE_LINE_WIDTH = 3
# Event Display Constants
EVENT_MARKER_SIZE = 10
EVENT_SPACING = 80
LABEL_X_OFFSET = 25
MIN_LABEL_SPACING = 30
LABEL_PADDING = 16
MARKER_CLICK_PADDING = 10
CLICKABLE_AREA_WIDTH = 600
CLICKABLE_AREA_HEIGHT = 30
# UI Constants
YEAR_LABEL_WIDTH = 100
YEAR_MARKER_STEP_DIVISOR = 10 # Divisor for calculating year marker step (every Nth year)
TOOLTIP_DELAY = 500 # milliseconds
# Drawing Area Event Masks
DRAWING_AREA_EVENT_MASKS = (
Gdk.EventMask.BUTTON_PRESS_MASK
| Gdk.EventMask.BUTTON_RELEASE_MASK
| Gdk.EventMask.POINTER_MOTION_MASK
| Gdk.EventMask.LEAVE_NOTIFY_MASK
| Gdk.EventMask.SCROLL_MASK
)
TOOLTIP_MAX_WIDTH = 500
LABEL_BACKGROUND_PADDING = 8
LABEL_BACKGROUND_RADIUS = 5
DEFAULT_TIMELINE_HEIGHT = 1000 # Default height, will be recalculated
DEFAULT_TIMELINE_WIDTH = 800
DEFAULT_DRAWING_AREA_HEIGHT = 600
DEFAULT_DRAWING_AREA_WIDTH = 800
EMPTY_TIMELINE_HEIGHT = 600 # Height when no events
FILTER_DIALOG_WIDTH = 600
FILTER_DIALOG_HEIGHT = 700
MIN_GENEALOGICAL_YEAR = 1000 # Minimum year for genealogical data
DATE_SORT_YEAR_MULTIPLIER = 10000 # Year component in date sort value
DATE_SORT_MONTH_MULTIPLIER = 100 # Month component in date sort value
# UI Layout Constants
FILTER_PAGE_MARGIN = 10 # Margin for filter page containers
FILTER_PAGE_SPACING = 10 # Spacing in filter page containers
FILTER_PAGE_VERTICAL_SPACING = 5 # Vertical spacing within filter pages
FILTER_CATEGORY_SPACING = 2 # Spacing within category containers
FILTER_INDENT_MARGIN = 20 # Indent margin for nested elements
CALENDAR_CONTAINER_MARGIN = 5 # Margin for calendar containers
CALENDAR_CONTAINER_SPACING = 5 # Spacing in calendar containers
CALENDAR_HORIZONTAL_SPACING = 15 # Spacing between calendar frames
YEAR_SELECTOR_SPACING = 5 # Spacing in year selector boxes
TOOLBAR_SPACING = 5 # Spacing in toolbar
TOOLBAR_ITEM_MARGIN = 10 # Margin for toolbar items
TOOLTIP_SEPARATOR_LENGTH = 30 # Length of tooltip separator line
TOOLTIP_OFFSET = 15 # Offset for tooltip position to avoid cursor
TOOLTIP_LABEL_MARGIN = 5 # Margin for tooltip label
TOOLTIP_MAX_WIDTH_CHARS = 40 # Maximum width in characters for tooltip label
TOOLTIP_BORDER_WIDTH = 8 # Border width for tooltip window
# Portrait Display Constants
PORTRAIT_SIZE_TIMELINE = 24 # Size of timeline portraits
PORTRAIT_SIZE_TOOLTIP = 120 # Size of tooltip portraits
PORTRAIT_MARGIN = 5 # Margin around portraits
PORTRAIT_GAP = 12 # Gap in pixels between event marker edge and portrait edge
# Font Constants
FONT_FAMILY = "Sans"
FONT_SIZE_NORMAL = 11
FONT_SIZE_SMALL = 9
FONT_SIZE_LARGE = 24
# Visual Effect Constants
MARKER_HOVER_SIZE_MULTIPLIER = 1.3
MARKER_SELECTED_SIZE_MULTIPLIER = 1.2
DEFAULT_EVENT_SHAPE = 'square' # Default shape for events without specific shape mapping
# Mouse Button Constants
MOUSE_BUTTON_LEFT = 1 # Left mouse button
ZOOM_PERCENTAGE_MULTIPLIER = 100 # Multiplier to convert zoom level (0.0-1.0) to percentage
GRADIENT_BRIGHTNESS_OFFSET = 0.2
GRADIENT_DARKNESS_OFFSET = 0.1
SHADOW_OFFSET_X = 1
SHADOW_OFFSET_Y = 1
SHADOW_OPACITY = 0.3
BORDER_OPACITY = 0.3
TIMELINE_SHADOW_OFFSET = 2 # Shadow offset for timeline axis
# Drawing Color Constants
BACKGROUND_GRADIENT_START = (0.98, 0.98, 0.99) # Very light gray-blue
BACKGROUND_GRADIENT_END = (0.95, 0.96, 0.98) # Slightly darker
TIMELINE_AXIS_GRADIENT_START = (0.3, 0.3, 0.3) # Dark gray
TIMELINE_AXIS_GRADIENT_END = (0.5, 0.5, 0.5) # Medium gray
TIMELINE_SHADOW_OPACITY = 0.2 # Shadow opacity for timeline axis
# Connection Line Constants
CONNECTION_LINE_COLOR = (0.2, 0.5, 1.0, 0.75) # Brighter, more opaque blue
CONNECTION_LINE_WIDTH = 3.5
CONNECTION_VERTICAL_LINE_X = 5 # Left of year markers
CONNECTION_LINE_SPACING = 25 # Pixels between vertical lines for different persons
TIMELINE_LEFT_SPACING = 20 # Spacing between rightmost connection line and timeline
CONNECTION_LINE_MIN_DISTANCE = EVENT_MARKER_SIZE * 2 # Minimum distance between events to draw vertical connector line
# Color Generation Constants
PERSON_COLOR_SATURATION = 0.7 # High saturation for vibrant colors
PERSON_COLOR_LIGHTNESS = 0.5 # Medium lightness for good visibility
PERSON_COLOR_ALPHA = 0.75 # Semi-transparent
HSV_HUE_MAX_DEGREES = 360 # Maximum value for hue in HSV color space (degrees)
# Marker State Colors
SELECTED_MARKER_COLOR = (0.2, 0.4, 0.9) # Blue highlight for selected person's events
# Default Colors
DEFAULT_EVENT_COLOR = (0.5, 0.5, 0.5) # Gray for unknown event types
YEAR_MARKER_COLOR = (0.5, 0.5, 0.5) # Gray for year marker tick marks
COLOR_BLACK = (0.0, 0.0, 0.0) # Black color used in multiple drawing operations
# Label Drawing Constants
LABEL_TEXT_COLOR = (0.1, 0.1, 0.1) # Dark gray text color for event labels
LABEL_VERTICAL_OFFSET = 10 # Vertical offset to center label on marker
LABEL_HOVER_BACKGROUND_COLOR = (1.0, 1.0, 1.0, 0.8) # Semi-transparent white background for hovered labels
LABEL_HOVER_BORDER_COLOR = (0.7, 0.7, 0.7, 0.5) # Light gray border for hovered labels
# Marker Drawing Constants
MARKER_BORDER_WIDTH = 1 # Line width for marker borders
# Year Marker Constants
YEAR_MARKER_LABEL_OFFSET = 20 # Horizontal offset for year marker labels from timeline
# Logger
logger = logging.getLogger(__name__)
# Event type categories and color mapping
EVENT_COLORS = {
# Life Events - Green/Red spectrum
EventType.BIRTH: (0.2, 0.8, 0.3), # Bright green
EventType.DEATH: (0.9, 0.2, 0.2), # Bright red
EventType.BURIAL: (0.7, 0.3, 0.3), # Dark red
EventType.CREMATION: (0.8, 0.4, 0.4), # Light red
EventType.ADOPT: (0.3, 0.7, 0.4), # Green
# Family Events - Blue/Purple spectrum
EventType.MARRIAGE: (0.2, 0.4, 0.9), # Blue
EventType.DIVORCE: (0.6, 0.3, 0.7), # Purple
EventType.ENGAGEMENT: (0.4, 0.5, 0.9), # Light blue
EventType.MARR_SETTL: (0.3, 0.4, 0.8), # Dark blue
EventType.MARR_LIC: (0.4, 0.5, 0.85), # Medium blue
EventType.MARR_CONTR: (0.35, 0.45, 0.85), # Medium blue
EventType.MARR_BANNS: (0.45, 0.55, 0.9), # Light blue
EventType.DIV_FILING: (0.65, 0.35, 0.75), # Light purple
EventType.ANNULMENT: (0.7, 0.4, 0.8), # Light purple
EventType.MARR_ALT: (0.5, 0.5, 0.9), # Medium blue
# Religious Events - Gold/Yellow spectrum
EventType.BAPTISM: (0.95, 0.85, 0.2), # Gold
EventType.ADULT_CHRISTEN: (0.9, 0.8, 0.3), # Light gold
EventType.CONFIRMATION: (0.95, 0.9, 0.4), # Yellow
EventType.CHRISTEN: (0.9, 0.85, 0.35), # Gold
EventType.FIRST_COMMUN: (0.95, 0.88, 0.3), # Gold
EventType.BLESS: (0.92, 0.87, 0.4), # Light gold
EventType.BAR_MITZVAH: (0.93, 0.83, 0.3), # Gold
EventType.BAS_MITZVAH: (0.94, 0.84, 0.3), # Gold
EventType.RELIGION: (0.9, 0.8, 0.5), # Light gold
EventType.ORDINATION: (0.88, 0.75, 0.3), # Dark gold
# Vocational Events - Orange spectrum
EventType.OCCUPATION: (0.95, 0.6, 0.2), # Orange
EventType.RETIREMENT: (0.9, 0.55, 0.25), # Dark orange
EventType.ELECTED: (0.95, 0.65, 0.3), # Light orange
EventType.MILITARY_SERV: (0.85, 0.5, 0.2), # Dark orange
# Academic Events - Teal spectrum
EventType.EDUCATION: (0.2, 0.7, 0.7), # Teal
EventType.GRADUATION: (0.3, 0.8, 0.8), # Bright teal
EventType.DEGREE: (0.25, 0.75, 0.75), # Medium teal
# Travel Events - Cyan spectrum
EventType.EMIGRATION: (0.2, 0.7, 0.9), # Cyan
EventType.IMMIGRATION: (0.3, 0.8, 0.95), # Bright cyan
EventType.NATURALIZATION: (0.25, 0.75, 0.9), # Medium cyan
# Legal Events - Brown spectrum
EventType.PROBATE: (0.6, 0.4, 0.2), # Brown
EventType.WILL: (0.65, 0.45, 0.25), # Light brown
# Residence Events - Indigo spectrum
EventType.RESIDENCE: (0.4, 0.3, 0.7), # Indigo
EventType.CENSUS: (0.5, 0.4, 0.8), # Light indigo
EventType.PROPERTY: (0.45, 0.35, 0.75), # Medium indigo
# Other Events - Gray spectrum
EventType.CAUSE_DEATH: (0.5, 0.5, 0.5), # Gray
EventType.MED_INFO: (0.6, 0.6, 0.6), # Light gray
EventType.NOB_TITLE: (0.55, 0.55, 0.55), # Medium gray
EventType.NUM_MARRIAGES: (0.5, 0.5, 0.5), # Gray
EventType.UNKNOWN: (0.4, 0.4, 0.4), # Dark gray
EventType.CUSTOM: (0.45, 0.45, 0.45), # Medium gray
}
# Event shape types: 'triangle', 'circle', 'diamond', 'square', 'star', 'hexagon'
EVENT_SHAPES = {
# Life Events
EventType.BIRTH: 'triangle',
EventType.DEATH: 'circle',
EventType.BURIAL: 'circle',
EventType.CREMATION: 'circle',
EventType.ADOPT: 'triangle',
# Family Events
EventType.MARRIAGE: 'diamond',
EventType.DIVORCE: 'square',
EventType.ENGAGEMENT: 'diamond',
EventType.MARR_SETTL: 'diamond',
EventType.MARR_LIC: 'diamond',
EventType.MARR_CONTR: 'diamond',
EventType.MARR_BANNS: 'diamond',
EventType.DIV_FILING: 'square',
EventType.ANNULMENT: 'square',
EventType.MARR_ALT: 'diamond',
# Religious Events
EventType.BAPTISM: 'star',
EventType.ADULT_CHRISTEN: 'star',
EventType.CONFIRMATION: 'star',
EventType.CHRISTEN: 'star',
EventType.FIRST_COMMUN: 'star',
EventType.BLESS: 'star',
EventType.BAR_MITZVAH: 'star',
EventType.BAS_MITZVAH: 'star',
EventType.RELIGION: 'star',
EventType.ORDINATION: 'star',
# Vocational Events
EventType.OCCUPATION: 'hexagon',
EventType.RETIREMENT: 'hexagon',
EventType.ELECTED: 'hexagon',
EventType.MILITARY_SERV: 'hexagon',
# Academic Events
EventType.EDUCATION: 'square',
EventType.GRADUATION: 'square',
EventType.DEGREE: 'square',
# Travel Events
EventType.EMIGRATION: 'triangle',
EventType.IMMIGRATION: 'triangle',
EventType.NATURALIZATION: 'triangle',
# Legal Events
EventType.PROBATE: 'square',
EventType.WILL: 'square',
# Residence Events
EventType.RESIDENCE: 'square',
EventType.CENSUS: 'square',
EventType.PROPERTY: 'square',
# Other Events
EventType.CAUSE_DEATH: 'circle',
EventType.MED_INFO: 'circle',
EventType.NOB_TITLE: 'square',
EventType.NUM_MARRIAGES: 'square',
EventType.UNKNOWN: 'square',
EventType.CUSTOM: 'square',
}
# Event category mapping for filtering (using EventType objects as keys, like EVENT_COLORS and EVENT_SHAPES)
# Note: EventType members are already integers in Gramps, not enum objects with .value
EVENT_CATEGORIES = {
# Life Events
EventType.BIRTH: "Life Events",
EventType.DEATH: "Life Events",
EventType.BURIAL: "Life Events",
EventType.CREMATION: "Life Events",
EventType.ADOPT: "Life Events",
# Family Events
EventType.MARRIAGE: "Family Events",
EventType.DIVORCE: "Family Events",
EventType.ENGAGEMENT: "Family Events",
EventType.MARR_SETTL: "Family Events",
EventType.MARR_LIC: "Family Events",
EventType.MARR_CONTR: "Family Events",
EventType.MARR_BANNS: "Family Events",
EventType.DIV_FILING: "Family Events",
EventType.ANNULMENT: "Family Events",
EventType.MARR_ALT: "Family Events",
# Religious Events
EventType.BAPTISM: "Religious Events",
EventType.ADULT_CHRISTEN: "Religious Events",
EventType.CONFIRMATION: "Religious Events",
EventType.CHRISTEN: "Religious Events",
EventType.FIRST_COMMUN: "Religious Events",
EventType.BLESS: "Religious Events",
EventType.BAR_MITZVAH: "Religious Events",
EventType.BAS_MITZVAH: "Religious Events",
EventType.RELIGION: "Religious Events",
EventType.ORDINATION: "Religious Events",
# Vocational Events
EventType.OCCUPATION: "Vocational Events",
EventType.RETIREMENT: "Vocational Events",
EventType.ELECTED: "Vocational Events",
EventType.MILITARY_SERV: "Vocational Events",
# Academic Events
EventType.EDUCATION: "Academic Events",
EventType.GRADUATION: "Academic Events",
EventType.DEGREE: "Academic Events",
# Travel Events
EventType.EMIGRATION: "Travel Events",
EventType.IMMIGRATION: "Travel Events",
EventType.NATURALIZATION: "Travel Events",
# Legal Events
EventType.PROBATE: "Legal Events",
EventType.WILL: "Legal Events",
# Residence Events
EventType.RESIDENCE: "Residence Events",
EventType.CENSUS: "Residence Events",
EventType.PROPERTY: "Residence Events",
# Other Events
EventType.CAUSE_DEATH: "Other Events",
EventType.MED_INFO: "Other Events",
EventType.NOB_TITLE: "Other Events",
EventType.NUM_MARRIAGES: "Other Events",
EventType.UNKNOWN: "Other Events",
EventType.CUSTOM: "Other Events",
}
# -------------------------------------------------------------------------
#
# Data Classes
#
# -------------------------------------------------------------------------
@dataclass
class TimelineEvent:
"""Represents an event in the timeline with all necessary data."""
date_sort: int
date_obj: Date
event: 'Event' # gramps.gen.lib.Event
person: Optional['Person'] # gramps.gen.lib.Person
event_type: EventType
y_pos: float = 0.0
# -------------------------------------------------------------------------
#
# MyTimelineView
#
# -------------------------------------------------------------------------
class MyTimelineView(NavigationView):
"""
View for displaying a vertical timeline of all events in the database.
Shows all events with modern design and interactivity, allowing selection
and filtering of events by type, category, and person.
"""
def __init__(self, pdata: Any, dbstate: Any, uistate: Any, nav_group: int = 0) -> None:
"""
Initialize the MyTimeline view.
Args:
pdata: Plugin data object.
dbstate: Database state object.
uistate: UI state object.
nav_group: Navigation group identifier.
"""
NavigationView.__init__(
self, _("MyTimeline"), pdata, dbstate, uistate, EventBookmarks, nav_group
)
self.dbstate = dbstate
self.uistate = uistate
# Current event handle (for selection/highlighting)
self.active_event_handle = None
self.events: List[TimelineEvent] = [] # List of TimelineEvent objects
# UI components
self.scrolledwindow = None
self.drawing_area = None
self.timeline_height = DEFAULT_TIMELINE_HEIGHT
self.zoom_level = 1.0 # Zoom level (1.0 = 100%)
self.min_zoom = 0.5
self.max_zoom = 3.0
self.zoom_step = 0.1
# Interaction state
self.hovered_event_index = None
self.tooltip_timeout_id = None
self.tooltip_window = None
self.selected_person_handles: Set[str] = set() # Set of selected person handles
self.person_colors: Dict[str, Tuple[float, float, float, float]] = {} # Person handle -> RGBA color
self.mouse_x = 0
self.mouse_y = 0
# Performance cache
self._adjusted_events_cache: Optional[List[TimelineEvent]] = None
self._cache_key: Optional[int] = None
self._cached_date_range: Optional[int] = None
self._cached_min_date: Optional[int] = None
self._cached_max_date: Optional[int] = None
self._event_to_person_cache: Dict[str, Optional['Person']] = {} # Event handle -> Person object (or None)
self._event_type_normalization_cache: Dict[int, int] = {} # Cache for event type normalization (key: hash/id, value: normalized int)
self._normalized_active_event_types: Optional[Set[int]] = None # Pre-computed normalized active types
# Filter state
self.filter_enabled: bool = False
self.active_event_types: Set[EventType] = set() # Empty = all enabled
self.person_filter: Optional[Set[str]] = None # Set of person handles to include, None = all
self.category_filter: Optional[Set[str]] = None # Set of event categories to include, None = all
self.all_events: List[TimelineEvent] = [] # Store all events before filtering
# Filter UI components
self.filter_button = None
self.filter_dialog = None
self._filter_widgets = {}
# Initialize temporary surface for text measurement (used in find_event_at_position)
self._temp_surface = cairo.ImageSurface(cairo.FORMAT_ARGB32, 1, 1)
# Connect to database changes
self.dbstate.connect("database-changed", self.change_db)
# Connect to family updates
if self.dbstate.is_open():
self.dbstate.db.connect("family-update", self.family_updated)
self.dbstate.db.connect("person-update", self.person_updated)
self.dbstate.db.connect("event-update", self.event_updated)
def navigation_type(self) -> str:
"""
Return the navigation type for this view.
Returns:
str: The navigation type, always "Event" for this view.
"""
return "Event"
def _queue_draw(self) -> None:
"""
Safely queue a redraw of the drawing area if it exists.
"""
if self.drawing_area:
self.drawing_area.queue_draw()
def change_page(self) -> None:
"""
Called when the page changes.
Updates the view to show all events and highlight the active event if selected.
"""
NavigationView.change_page(self)
active_handle = self.get_active()
if active_handle:
self.goto_handle(active_handle)
else:
# If no event is selected, ensure timeline is displayed
if not self.events and self.dbstate.is_open():
self.collect_events()
self._queue_draw()
def family_updated(self, handle_list: List[str]) -> None:
"""
Called when a family is updated.
Args:
handle_list: List of family handles that were updated.
"""
# Refresh timeline since family updates may affect event display
self.collect_events()
self._queue_draw()
def person_updated(self, handle_list: List[str]) -> None:
"""
Called when a person is updated.
Args:
handle_list: List of person handles that were updated.
"""
# Refresh timeline since person updates may affect event display
self.collect_events()
self._queue_draw()
def event_updated(self, handle_list: List[str]) -> None:
"""
Called when an event is updated.
Args:
handle_list: List of event handles that were updated.
"""
# Re-collect events when events are updated
self.collect_events()
self._queue_draw()
# If the active event was updated, ensure it's still highlighted
if self.active_event_handle in handle_list:
self._scroll_to_event(self.active_event_handle)
def change_db(self, db: Any) -> None:
"""
Called when the database changes.
Args:
db: The new database object.
"""
self.active_event_handle = None
self.all_events = []
self.events = []
# Clear selected persons and colors
self.selected_person_handles.clear()
self.person_colors.clear()
# Clear event-to-person cache
self._event_to_person_cache.clear()
# Connect to new database signals
if db and db.is_open():
db.connect("family-update", self.family_updated)
db.connect("person-update", self.person_updated)
db.connect("event-update", self.event_updated)
self._queue_draw()
def build_widget(self) -> Gtk.Widget:
"""
Build the interface and return the container.
Returns:
Gtk.Widget: The main container widget with toolbar and drawing area.
"""
# Main container
main_box = Gtk.Box(orientation=Gtk.Orientation.VERTICAL, spacing=TOOLBAR_SPACING)
# Toolbar with zoom controls
toolbar = Gtk.Toolbar()
toolbar.set_style(Gtk.ToolbarStyle.ICONS)
# Zoom out button
zoom_out_btn = Gtk.ToolButton(icon_name="zoom-out-symbolic")
zoom_out_btn.set_tooltip_text(_("Zoom Out"))
zoom_out_btn.connect("clicked", self.on_zoom_out)
toolbar.insert(zoom_out_btn, 0)
# Zoom label
self.zoom_label = Gtk.Label(label="100%")
self.zoom_label.set_margin_start(TOOLBAR_ITEM_MARGIN)
self.zoom_label.set_margin_end(TOOLBAR_ITEM_MARGIN)
zoom_item = Gtk.ToolItem()
zoom_item.add(self.zoom_label)
toolbar.insert(zoom_item, 1)
# Zoom in button
zoom_in_btn = Gtk.ToolButton(icon_name="zoom-in-symbolic")
zoom_in_btn.set_tooltip_text(_("Zoom In"))
zoom_in_btn.connect("clicked", self.on_zoom_in)
toolbar.insert(zoom_in_btn, 2)
# Reset zoom button
zoom_reset_btn = Gtk.ToolButton(icon_name="zoom-fit-best-symbolic")
zoom_reset_btn.set_tooltip_text(_("Reset Zoom"))
zoom_reset_btn.connect("clicked", self.on_zoom_reset)
toolbar.insert(zoom_reset_btn, 3)
toolbar.insert(Gtk.SeparatorToolItem(), 4)
# Filter button
self.filter_button = Gtk.ToolButton(icon_name="view-filter-symbolic")
self.filter_button.set_tooltip_text(_("Filter Events"))
self.filter_button.connect("clicked", self.on_filter_button_clicked)
toolbar.insert(self.filter_button, 5)
main_box.pack_start(toolbar, False, False, 0)
# Scrolled window
self.scrolledwindow = Gtk.ScrolledWindow()
self.scrolledwindow.set_policy(
Gtk.PolicyType.AUTOMATIC, Gtk.PolicyType.AUTOMATIC
)
self.drawing_area = Gtk.DrawingArea()
self.drawing_area.set_size_request(DEFAULT_DRAWING_AREA_WIDTH, DEFAULT_DRAWING_AREA_HEIGHT)
self.drawing_area.connect("draw", self.on_draw)
self.drawing_area.add_events(DRAWING_AREA_EVENT_MASKS)
# Connect mouse events
self.drawing_area.connect("button-press-event", self.on_button_press)
self.drawing_area.connect("motion-notify-event", self.on_motion_notify)
self.drawing_area.connect("leave-notify-event", self.on_leave_notify)
self.drawing_area.connect("scroll-event", self.on_scroll)
self.scrolledwindow.add(self.drawing_area)
main_box.pack_start(self.scrolledwindow, True, True, 0)
return main_box
def on_filter_button_clicked(self, button: Gtk.ToolButton) -> None:
"""
Handle filter button click - show filter dialog.
Args:
button: The filter button that was clicked.
"""
if self.filter_dialog is None:
self.filter_dialog = self._build_filter_dialog()
# Update filter dialog state
self._update_filter_dialog_state()
# Show dialog
response = self.filter_dialog.run()
if response == Gtk.ResponseType.APPLY:
self._apply_filter_dialog_settings()
self.filter_dialog.hide()
def _calculate_group_state(self, child_checkboxes: List[Gtk.CheckButton]) -> str:
"""
Calculate the state of a group based on child checkboxes.
Args:
child_checkboxes: List of child checkboxes in the group.
Returns:
str: 'all' if all selected, 'none' if none selected, 'some' if partially selected.
"""
if not child_checkboxes:
return 'none'
active_count = sum(1 for cb in child_checkboxes if cb.get_active())
if active_count == 0:
return 'none'
elif active_count == len(child_checkboxes):
return 'all'
else:
return 'some'
def _update_group_checkbox_state(self, group_checkbox: Gtk.CheckButton,
child_checkboxes: List[Gtk.CheckButton],
updating_flag: Optional[List[bool]] = None) -> None:
"""
Update a group checkbox state based on child checkboxes.
Args:
group_checkbox: The parent group checkbox to update.
child_checkboxes: List of child checkboxes.
updating_flag: Optional list with single boolean to prevent recursion.
If provided, will be set to True during update to prevent
the group checkbox's toggle handler from firing.
"""
# Set updating flag to prevent recursion if provided
if updating_flag is not None:
updating_flag[0] = True
state = self._calculate_group_state(child_checkboxes)
if state == 'all':
group_checkbox.set_active(True)
group_checkbox.set_inconsistent(False)
elif state == 'none':
group_checkbox.set_active(False)
group_checkbox.set_inconsistent(False)
else: # 'some'
group_checkbox.set_inconsistent(True)
# Clear updating flag after update
if updating_flag is not None:
updating_flag[0] = False
def _make_group_toggle_handler(self, child_checkboxes: List[Gtk.CheckButton],
updating_flag: List[bool]) -> Callable[[Gtk.Widget], None]:
"""
Create a handler for group checkbox toggle that toggles all children.
Args:
child_checkboxes: List of child checkboxes to toggle.
updating_flag: List with single boolean to prevent recursion.
Returns:
Callable handler function.
"""
def handler(widget: Gtk.Widget) -> None:
if updating_flag[0]:
return
# Handle inconsistent state - make it consistent
if widget.get_inconsistent():
widget.set_inconsistent(False)
widget.set_active(True)
updating_flag[0] = True
# Toggle all children
is_active = widget.get_active()
for child_cb in child_checkboxes:
child_cb.set_active(is_active)
updating_flag[0] = False
return handler
def _make_child_toggle_handler(self, group_checkbox: Gtk.CheckButton,
child_checkboxes: List[Gtk.CheckButton],
updating_flag: List[bool]) -> Callable[[Gtk.Widget], None]:
"""
Create a handler for child checkbox toggle that updates group state.
Args:
group_checkbox: The parent group checkbox to update.
child_checkboxes: List of all child checkboxes.
updating_flag: List with single boolean to prevent recursion.
Returns:
Callable handler function.
"""
def handler(widget: Gtk.Widget) -> None:
if updating_flag[0]:
return
self._update_group_checkbox_state(group_checkbox, child_checkboxes, updating_flag)
return handler
def _build_filter_dialog(self) -> Gtk.Dialog:
"""
Build the filter dialog with all filter controls.
Returns:
Gtk.Dialog: The filter dialog widget.
"""
dialog = Gtk.Dialog(title=_("Filter Events"), parent=self.uistate.window)
dialog.set_default_size(FILTER_DIALOG_WIDTH, FILTER_DIALOG_HEIGHT)
dialog.add_button(_("Clear All"), Gtk.ResponseType.REJECT)
dialog.add_button(_("Close"), Gtk.ResponseType.CLOSE)
dialog.add_button(_("Apply"), Gtk.ResponseType.APPLY)
# Connect to clear button
dialog.connect("response", self._on_filter_dialog_response)
# Main content area
content_area = dialog.get_content_area()
content_area.set_spacing(FILTER_PAGE_SPACING)
content_area.set_margin_start(FILTER_PAGE_MARGIN)
content_area.set_margin_end(FILTER_PAGE_MARGIN)
content_area.set_margin_top(FILTER_PAGE_MARGIN)
content_area.set_margin_bottom(FILTER_PAGE_MARGIN)
# Notebook for organizing filters
notebook = Gtk.Notebook()
content_area.pack_start(notebook, True, True, 0)
# Store widget references for later access
self._filter_widgets = {}
# Event Type Filter Page
event_type_page = self._build_event_type_filter_page()
notebook.append_page(event_type_page, Gtk.Label(label=_("Event Types")))
# Category Filter Page
category_page = self._build_category_filter_page()
notebook.append_page(category_page, Gtk.Label(label=_("Categories")))
# Person Filter Page
person_page = self._build_person_filter_page()
notebook.append_page(person_page, Gtk.Label(label=_("Persons")))
content_area.show_all()
return dialog
def _build_event_type_filter_page(self) -> Gtk.Widget:
"""
Build the event type filter page with checkboxes for each event type.
Returns:
Gtk.Widget: The event type filter page.
"""
scrolled = Gtk.ScrolledWindow()
scrolled.set_policy(Gtk.PolicyType.AUTOMATIC, Gtk.PolicyType.AUTOMATIC)
box = Gtk.Box(orientation=Gtk.Orientation.VERTICAL, spacing=FILTER_PAGE_VERTICAL_SPACING)
box.set_margin_start(FILTER_PAGE_MARGIN)
box.set_margin_end(FILTER_PAGE_MARGIN)
box.set_margin_top(FILTER_PAGE_MARGIN)
box.set_margin_bottom(FILTER_PAGE_MARGIN)
# Select All / Deselect All buttons
button_box = Gtk.Box(orientation=Gtk.Orientation.HORIZONTAL, spacing=FILTER_PAGE_VERTICAL_SPACING)
select_all_btn = Gtk.Button(label=_("Select All"))
select_all_btn.connect("clicked", self._on_select_all_event_types)
deselect_all_btn = Gtk.Button(label=_("Deselect All"))
deselect_all_btn.connect("clicked", self._on_deselect_all_event_types)
button_box.pack_start(select_all_btn, False, False, 0)
button_box.pack_start(deselect_all_btn, False, False, 0)
box.pack_start(button_box, False, False, 0)
# Group event types by category
event_type_checkboxes = {}
category_boxes = {}
category_checkboxes = {}
category_event_types = {} # Map category to list of event types
category_updating_flags = {} # Map category to updating flag list
# First pass: collect event types by category
for event_type_obj in EVENT_COLORS:
if event_type_obj not in EVENT_CATEGORIES:
continue
category = EVENT_CATEGORIES[event_type_obj]
if category not in category_event_types:
category_event_types[category] = []
category_event_types[category].append(event_type_obj)
# Second pass: create UI with category checkboxes
for category in sorted(category_event_types):
event_types_in_category = category_event_types[category]
# Create category checkbox with three-state support
category_checkbox = Gtk.CheckButton(label=category)
category_checkboxes[category] = category_checkbox
box.pack_start(category_checkbox, False, False, 0)
# Create container for event types in this category
category_box = Gtk.Box(orientation=Gtk.Orientation.VERTICAL, spacing=FILTER_CATEGORY_SPACING)
category_box.set_margin_start(FILTER_INDENT_MARGIN)
category_boxes[category] = category_box
box.pack_start(category_box, False, False, 0)
# Create checkboxes for each event type in this category
child_checkboxes = []
for event_type_obj in sorted(event_types_in_category, key=lambda x: self._get_event_type_display_name(x)):
event_type_name = self._get_event_type_display_name(event_type_obj)
checkbox = Gtk.CheckButton(label=event_type_name)
event_type_checkboxes[event_type_obj] = checkbox
child_checkboxes.append(checkbox)
category_box.pack_start(checkbox, False, False, 0)
# Flag to prevent recursion between category and child checkboxes
updating_category = [False]
category_updating_flags[category] = updating_category
# Connect category checkbox to toggle all children
category_checkbox.connect("toggled",
self._make_group_toggle_handler(child_checkboxes, updating_category))
# Connect child checkboxes to update category checkbox state
for child_cb in child_checkboxes:
child_cb.connect("toggled",
self._make_child_toggle_handler(category_checkbox, child_checkboxes, updating_category))
self._filter_widgets['event_type_checkboxes'] = event_type_checkboxes
self._filter_widgets['category_checkboxes'] = category_checkboxes
self._filter_widgets['category_event_types'] = category_event_types
self._filter_widgets['category_updating_flags'] = category_updating_flags
scrolled.add(box)
return scrolled
def _build_category_filter_page(self) -> Gtk.Widget:
"""
Build the category filter page with checkboxes for each category.
Returns:
Gtk.Widget: The category filter page.
"""
box = Gtk.Box(orientation=Gtk.Orientation.VERTICAL, spacing=FILTER_PAGE_VERTICAL_SPACING)
box.set_margin_start(FILTER_PAGE_MARGIN)
box.set_margin_end(FILTER_PAGE_MARGIN)
box.set_margin_top(FILTER_PAGE_MARGIN)
box.set_margin_bottom(FILTER_PAGE_MARGIN)
# Get unique categories
categories = sorted(set(EVENT_CATEGORIES.values()))
category_checkboxes = {}
for category in categories:
checkbox = Gtk.CheckButton(label=category)
category_checkboxes[category] = checkbox
box.pack_start(checkbox, False, False, 0)
self._filter_widgets['category_checkboxes'] = category_checkboxes
return box
def _build_person_filter_page(self) -> Gtk.Widget:
"""
Build the person filter page with expandable families showing their members.
Returns:
Gtk.Widget: The person filter page.
"""
scrolled = Gtk.ScrolledWindow()
scrolled.set_policy(Gtk.PolicyType.AUTOMATIC, Gtk.PolicyType.AUTOMATIC)
box = Gtk.Box(orientation=Gtk.Orientation.VERTICAL, spacing=FILTER_PAGE_VERTICAL_SPACING)
box.set_margin_start(FILTER_PAGE_MARGIN)
box.set_margin_end(FILTER_PAGE_MARGIN)
box.set_margin_top(FILTER_PAGE_MARGIN)
box.set_margin_bottom(FILTER_PAGE_MARGIN)
# Person checkboxes container - will be populated when dialog is shown
person_checkboxes = {}
self._filter_widgets['person_checkboxes'] = person_checkboxes
self._filter_widgets['person_container'] = box
# Store expanders by family handle
self._filter_widgets['family_expanders'] = {}
info_label = Gtk.Label(label=_("Select families and their members to include in the timeline."))
info_label.set_line_wrap(True)
box.pack_start(info_label, False, False, 0)
scrolled.add(box)
return scrolled
def _update_event_type_widgets(self) -> None:
"""
Update event type filter widgets to reflect current filter state.
"""
if 'event_type_checkboxes' not in self._filter_widgets:
return
# Update event type checkboxes
for event_type, checkbox in self._filter_widgets['event_type_checkboxes'].items():
if not self.active_event_types:
checkbox.set_active(True) # All selected when filter is off
else:
checkbox.set_active(event_type in self.active_event_types)
# Update category checkboxes based on their children's states
if 'category_checkboxes' in self._filter_widgets and 'category_event_types' in self._filter_widgets:
category_updating_flags = self._filter_widgets.get('category_updating_flags', {})
for category, category_checkbox in self._filter_widgets['category_checkboxes'].items():
# Get child checkboxes for this category
event_types_in_category = self._filter_widgets['category_event_types'].get(category, [])
child_checkboxes = [
self._filter_widgets['event_type_checkboxes'][et]
for et in event_types_in_category
if et in self._filter_widgets['event_type_checkboxes']
]
# Get the updating flag for this category to prevent recursion
updating_flag = category_updating_flags.get(category)
# Update category checkbox state based on children
self._update_group_checkbox_state(category_checkbox, child_checkboxes, updating_flag)
def _update_person_filter_widgets(self) -> None:
"""
Update person filter widgets to reflect current filter state.
"""
if 'person_checkboxes' not in self._filter_widgets or 'person_container' not in self._filter_widgets:
return
# Clear existing person checkboxes and family expanders
container = self._filter_widgets['person_container']
# Remove all existing expanders
if 'family_expanders' in self._filter_widgets:
for expander in list(self._filter_widgets['family_expanders'].values()):
container.remove(expander)
expander.destroy()
self._filter_widgets['family_expanders'].clear()
# Remove all existing checkboxes
for checkbox in list(self._filter_widgets['person_checkboxes'].values()):
container.remove(checkbox)
checkbox.destroy()
self._filter_widgets['person_checkboxes'].clear()
# Collect all families and create expanders
if not self.dbstate.is_open():
return
try:
# Initialize family_expanders if not exists
if 'family_expanders' not in self._filter_widgets:
self._filter_widgets['family_expanders'] = {}
# Iterate through all families
for family in self.dbstate.db.iter_families():
family_handle = family.get_handle()
# Get family display name
family_name = self._get_family_display_name(family)
# Create container for family members
members_box = Gtk.Box(orientation=Gtk.Orientation.VERTICAL, spacing=FILTER_CATEGORY_SPACING + 1)
members_box.set_margin_start(FILTER_INDENT_MARGIN)
members_box.set_margin_top(CALENDAR_CONTAINER_MARGIN)
members_box.set_margin_bottom(CALENDAR_CONTAINER_MARGIN)
# Collect all child checkboxes for this family
child_checkboxes = []
# Helper function to add person checkbox
def add_person_checkbox(person_handle: Optional[str], role_label: str) -> None:
"""Add a checkbox for a person if handle is valid."""
if not person_handle:
return
person_name = self._get_person_display_name(person_handle)
if person_name:
label_text = f" {role_label}: {person_name}"
checkbox = Gtk.CheckButton(label=label_text)
checkbox.set_active(True if not self.person_filter else person_handle in self.person_filter)
self._filter_widgets['person_checkboxes'][person_handle] = checkbox
child_checkboxes.append(checkbox)
members_box.pack_start(checkbox, False, False, 0)
# Add father checkbox
add_person_checkbox(family.get_father_handle(), _('Father'))
# Add mother checkbox
add_person_checkbox(family.get_mother_handle(), _('Mother'))
# Add children checkboxes
for child_ref in family.get_child_ref_list():
add_person_checkbox(child_ref.ref, _('Child'))
# Only add expander if there are members to show
if members_box.get_children():
# Create family checkbox with three-state support
family_checkbox = Gtk.CheckButton(label=family_name)
# Create expander with checkbox as label
expander = Gtk.Expander()
# Set the checkbox as the label widget
expander.set_label_widget(family_checkbox)
expander.set_expanded(False)
# Store family checkbox
if 'family_checkboxes' not in self._filter_widgets:
self._filter_widgets['family_checkboxes'] = {}
self._filter_widgets['family_checkboxes'][family_handle] = family_checkbox
# Flag to prevent recursion
updating_family = [False]
# Connect family checkbox to toggle all members
family_checkbox.connect("toggled",
self._make_group_toggle_handler(child_checkboxes, updating_family))
# Connect child checkboxes to update family checkbox
for child_cb in child_checkboxes:
child_cb.connect("toggled",
self._make_child_toggle_handler(family_checkbox, child_checkboxes, updating_family))
# Initialize family checkbox state
self._update_group_checkbox_state(family_checkbox, child_checkboxes, updating_family)
expander.add(members_box)
self._filter_widgets['family_expanders'][family_handle] = expander
container.pack_start(expander, False, False, 0)
container.show_all()
except (AttributeError, KeyError) as e:
logger.warning(f"Error updating person filter widgets in filter dialog: {e}", exc_info=True)
def _update_filter_dialog_state(self) -> None:
"""
Update the filter dialog widgets to reflect current filter state.
"""
if not hasattr(self, '_filter_widgets'):
return
# Update each filter type's widgets
self._update_event_type_widgets()
self._update_person_filter_widgets()
def _on_filter_dialog_response(self, dialog: Gtk.Dialog, response_id: int) -> None:
"""
Handle filter dialog response.
Args:
dialog: The filter dialog.
response_id: The response ID (APPLY, CLOSE, REJECT).
"""
if response_id == Gtk.ResponseType.REJECT:
# Clear all filters
self.filter_enabled = False
self.active_event_types = set()
self._update_normalized_active_event_types() # Invalidate cache
self.person_filter = None
self.category_filter = None
self.apply_filters()
self._update_filter_button_state()
def _apply_filter_dialog_settings(self) -> None:
"""
Apply filter settings from the dialog to the filter state.
"""
# Update event type filter
if 'event_type_checkboxes' in self._filter_widgets:
active_types = set()
total_types = len(self._filter_widgets['event_type_checkboxes'])
for event_type, checkbox in self._filter_widgets['event_type_checkboxes'].items():
if checkbox.get_active():
active_types.add(event_type)
# Logic:
# - If all types are selected: active_event_types = empty set (meaning "all enabled", no filtering)
# - If some types are unselected: active_event_types = set of selected types (filter to show only these)
# - If no types are selected: active_event_types = empty set, but filter_enabled will be False
# (unless other filters are active), so no events will show (correct behavior)
if len(active_types) == total_types:
# All types are selected - no filtering needed
self.active_event_types = set()
else:
# Some or no types are selected - filter to only show selected types
# (If active_types is empty, this means no events will match, which is correct)
self.active_event_types = active_types
self._update_normalized_active_event_types() # Update cache
# Update category filter
if 'category_checkboxes' in self._filter_widgets:
active_categories = set()
for category, checkbox in self._filter_widgets['category_checkboxes'].items():
if checkbox.get_active():
active_categories.add(category)
all_categories = set(self._filter_widgets['category_checkboxes'])
self.category_filter = active_categories if active_categories != all_categories else None
# Update person filter
if 'person_checkboxes' in self._filter_widgets:
active_persons = set()
for person_handle, checkbox in self._filter_widgets['person_checkboxes'].items():
if checkbox.get_active():
active_persons.add(person_handle)
all_persons = set(self._filter_widgets['person_checkboxes'])
self.person_filter = active_persons if active_persons != all_persons else None
# Enable filter if any filter is active
self.filter_enabled = (
self.active_event_types or
self.person_filter is not None or
self.category_filter is not None
)
# Apply filters
self.apply_filters()
self._update_filter_button_state()
def _update_filter_button_state(self) -> None:
"""
Update the filter button visual state to indicate if filters are active.
"""
if self.filter_button:
if self.filter_enabled:
# Highlight button when filters are active
self.filter_button.set_tooltip_text(_("Filter Events (Active)"))
else:
self.filter_button.set_tooltip_text(_("Filter Events"))
def _on_select_all_event_types(self, button: Gtk.Button) -> None:
"""
Select all event type checkboxes.
Args:
button: The button that was clicked.
"""
if 'event_type_checkboxes' in self._filter_widgets:
for checkbox in self._filter_widgets['event_type_checkboxes'].values():
checkbox.set_active(True)
def _on_deselect_all_event_types(self, button: Gtk.Button) -> None:
"""
Deselect all event type checkboxes.
Args:
button: The button that was clicked.
"""
if 'event_type_checkboxes' in self._filter_widgets:
for checkbox in self._filter_widgets['event_type_checkboxes'].values():
checkbox.set_active(False)
def build_tree(self) -> None:
"""
Rebuilds the current display. Called when the view becomes visible.
"""
# Collect all events if not already done
if not self.all_events and self.dbstate.is_open():
self.collect_events()
# Highlight active event if one is selected
active_handle = self.get_active()
if active_handle:
self.goto_handle(active_handle)
else:
self._queue_draw()
def goto_handle(self, handle: str) -> None:
"""
Called when the active event changes.
Args:
handle: The handle of the event to highlight/select.
"""
if handle == self.active_event_handle:
return
self.active_event_handle = handle
# Ensure events are collected
if not self.all_events:
self.collect_events()
else:
# Just refresh display to highlight the selected event
self._queue_draw()
# Scroll to the selected event if possible
self._scroll_to_event(handle)
def _scroll_to_event(self, event_handle: str) -> None:
"""
Scroll the timeline to show the selected event.
Args:
event_handle: The handle of the event to scroll to.
"""
if not self.scrolledwindow or not event_handle:
return
# Find the event in our event list
event_index = None
for i, timeline_event in enumerate(self.events):
if timeline_event.event.get_handle() == event_handle:
event_index = i
break
if event_index is None:
return
# Calculate the y position of the event
if event_index < len(self.events):
event_y = TIMELINE_MARGIN_TOP + (event_index * EVENT_SPACING)
# Get the adjustment and scroll to the event
vadj = self.scrolledwindow.get_vadjustment()
if vadj:
# Center the event in the viewport
viewport_height = self.scrolledwindow.get_allocation().height
scroll_to = max(0, event_y - (viewport_height / 2))
vadj.set_value(scroll_to)
def _invalidate_cache(self) -> None:
"""Invalidate all caches when events change."""
self._adjusted_events_cache = None
self._cache_key = None
self._cached_date_range = None
self._cached_min_date = None
self._cached_max_date = None
self._event_to_person_cache.clear() # Clear event-to-person cache
# Clear event type normalization cache to prevent stale data
self._event_type_normalization_cache.clear()
def _calculate_timeline_height(self) -> None:
"""Calculate and set timeline height based on number of events and zoom."""
if self.events:
base_height = (
TIMELINE_MARGIN_TOP
+ len(self.events) * EVENT_SPACING
+ TIMELINE_MARGIN_BOTTOM
)
self.timeline_height = int(base_height * self.zoom_level)
else:
self.timeline_height = int(EMPTY_TIMELINE_HEIGHT * self.zoom_level)
if self.drawing_area:
self.drawing_area.set_size_request(DEFAULT_DRAWING_AREA_WIDTH, self.timeline_height)
def _create_timeline_event(self, event: 'Event', person_obj: Optional['Person'] = None, y_pos: float = 0.0) -> Optional[TimelineEvent]:
"""
Create a TimelineEvent from an event object.
Args:
event: The event object.
person_obj: Optional person object associated with this event.
y_pos: Initial Y position (default 0.0).
Returns:
Optional[TimelineEvent]: The created TimelineEvent, or None if invalid.
"""
try:
if not event:
return None
date_obj = event.get_date_object()
if not date_obj:
return None
return TimelineEvent(
date_sort=date_obj.get_sort_value(),
date_obj=date_obj,
event=event,
person=person_obj,
event_type=event.get_type(),
y_pos=y_pos
)
except (AttributeError, KeyError, ValueError) as e:
logger.debug(f"Skipping invalid event: {e}")
return None
def _copy_timeline_event_with_y_pos(self, event_data: TimelineEvent, y_pos: float) -> TimelineEvent:
"""
Create a copy of a TimelineEvent with a new Y position.
Args:
event_data: The original TimelineEvent.
y_pos: The new Y position.
Returns:
TimelineEvent: A new TimelineEvent with the updated Y position.
"""
return TimelineEvent(
date_sort=event_data.date_sort,
date_obj=event_data.date_obj,
event=event_data.event,
person=event_data.person,
event_type=event_data.event_type,
y_pos=y_pos
)
def _process_event(self, event: 'Event', person_obj: Optional['Person'] = None) -> Optional[TimelineEvent]:
"""
Process a single event and create a TimelineEvent.
Args:
event: The event object to process.
person_obj: Optional person object associated with this event.
Returns:
Optional[TimelineEvent]: The created TimelineEvent, or None if invalid.
"""
return self._create_timeline_event(event, person_obj)
def _build_event_to_person_index(self) -> None:
"""
Build a reverse index mapping event handles to person objects.
This is much more efficient than searching through all persons for each event.
"""
if not self.dbstate.is_open():
return
self._event_to_person_cache.clear()
try:
# Iterate through all persons once and build the index
for person_handle in self.dbstate.db.get_person_handles():
try:
person = self.dbstate.db.get_person_from_handle(person_handle)
if not person:
continue
# Check primary events first (these take precedence)
self._index_event_refs(person.get_primary_event_ref_list(), person)
# Check all events (for events not in primary list)
self._index_event_refs(person.get_event_ref_list(), person)
except (AttributeError, KeyError):
continue
except (AttributeError, KeyError) as e:
logger.warning(f"Error building event-to-person index from database: {e}", exc_info=True)
def _index_event_refs(self, event_ref_list: List[Any], person: 'Person') -> None:
"""
Index event references from a list, mapping event handles to person.
Args:
event_ref_list: List of event references from a person object.
person: The person object to associate with the events.
"""
for event_ref in event_ref_list:
event_handle = event_ref.ref
# Only store if not already mapped (to preserve priority of primary events)
if event_handle not in self._event_to_person_cache:
self._event_to_person_cache[event_handle] = person
def _find_person_for_event(self, event: 'Event') -> Optional['Person']:
"""
Find a primary person associated with an event using the cached index.
Args:
event: The event object to find a person for.
Returns:
Optional person object, or None if not found or if event is family-only.
Note:
This method now uses the cached index built by _build_event_to_person_index().
If the cache is empty, returns None. For best performance, ensure
_build_event_to_person_index() is called before using this method.
"""
if not event:
return None
event_handle = event.get_handle()
return self._event_to_person_cache.get(event_handle)
def _get_person_display_name(self, person_handle: Optional[str]) -> Optional[str]:
"""
Get display name for a person by handle.
Args:
person_handle: The person handle.
Returns:
Optional[str]: Display name or None if person not found or handle is None.
"""
if not person_handle:
return None
try:
person = self.dbstate.db.get_person_from_handle(person_handle)
if person:
return name_displayer.display(person)
except (AttributeError, KeyError):
pass
return None
def _get_family_display_name(self, family: 'Family') -> str:
"""
Get a display name for a family showing parent names.
Args:
family: The family object.
Returns:
str: Display name for the family.
"""
if not family:
return _("Unknown Family")
father_name = self._get_person_display_name(family.get_father_handle())
mother_name = self._get_person_display_name(family.get_mother_handle())
if father_name and mother_name:
return f"{father_name} & {mother_name}"
elif father_name:
return f"{father_name} & {_('Unknown')}"
elif mother_name:
return f"{_('Unknown')} & {mother_name}"
else:
return _("Unknown Family")
def collect_events(self) -> None:
"""Collect all events from the database."""
self.all_events = []
self.events = []
self._event_to_person_cache.clear()
if not self.dbstate.is_open():
return
try:
# Build event-to-person reverse index for efficient lookup
self._build_event_to_person_index()
# Iterate through all events in the database
for event in self.dbstate.db.iter_events():
# Get associated person from cache
event_handle = event.get_handle()
person_obj = self._event_to_person_cache.get(event_handle)
# Process the event
timeline_event = self._process_event(event, person_obj)
if timeline_event:
self.all_events.append(timeline_event)
except (AttributeError, KeyError) as e:
logger.warning(f"Error collecting events from database: {e}", exc_info=True)
return
# Sort events by date
self.all_events.sort(key=lambda x: x.date_sort)
# Apply filters
self.events = self._apply_filters(self.all_events)
# Invalidate cache when events change
self._invalidate_cache()
# Calculate timeline height
self._calculate_timeline_height()
# Update filter button state
self._update_filter_button_state()
def _update_normalized_active_event_types(self) -> None:
"""
Update the pre-computed normalized active event types set.
Call this whenever active_event_types changes.
"""
if not self.active_event_types:
self._normalized_active_event_types = None
else:
# Normalize all event types and create a set
# Ensure we have at least one normalized type
normalized_set = {self._normalize_event_type(et) for et in self.active_event_types}
if normalized_set:
self._normalized_active_event_types = normalized_set
else:
# If normalization failed for all types, something is wrong
# Set to None to indicate no filtering (show all events)
self._normalized_active_event_types = None
def _apply_event_type_filter(self, event: TimelineEvent) -> bool:
"""
Check if event passes event type filter.
Args:
event: The event to check.
Returns:
bool: True if event passes filter, False otherwise.
"""
# If no event type filter is active (empty set means "all enabled"), pass all events
if not self.active_event_types:
return True
# Use pre-computed normalized set if available, otherwise compute it
if self._normalized_active_event_types is None:
self._update_normalized_active_event_types()
# If normalized set is still None or empty, something went wrong - pass all events
if self._normalized_active_event_types is None or not self._normalized_active_event_types:
return True
# Normalize event.event_type and compare with normalized active_event_types
event_type_normalized = self._normalize_event_type(event.event_type)
return event_type_normalized in self._normalized_active_event_types
def _apply_category_filter(self, event: TimelineEvent) -> bool:
"""
Check if event passes category filter.
Args:
event: The event to check.
Returns:
bool: True if event passes filter, False otherwise.
"""
if not self.category_filter:
return True
category = self._get_event_category(event.event_type)
return category in self.category_filter
def _apply_filters(self, events: List[TimelineEvent]) -> List[TimelineEvent]:
"""
Apply all active filters to events.
Args:
events: List of TimelineEvent objects to filter.
Returns:
List[TimelineEvent]: Filtered list of events.
"""
if not self.filter_enabled:
return events
filtered = []
for event in events:
# Check event type filter
if not self._apply_event_type_filter(event):
continue
# Check person filter
person_handle = event.person.get_handle() if event.person else None
if not self._is_person_included(person_handle):
continue
# Check category filter
if not self._apply_category_filter(event):
continue
filtered.append(event)
return filtered
def _normalize_event_type(self, event_type: EventType) -> int:
"""
Normalize EventType to integer for comparison.
Uses caching to avoid repeated conversions.
Args:
event_type: The event type (may be EventType object or integer).
Returns:
int: The integer value of the event type.
"""
# Normalize to integer first (fast operation)
try:
if isinstance(event_type, int):
normalized = event_type
elif hasattr(event_type, 'value'):
normalized = event_type.value
else:
normalized = int(event_type)
except (TypeError, ValueError, AttributeError):
normalized = 0 # Default to 0 if conversion fails
# Use normalized value as cache key (ensures same values share same key)
# Check cache - if we've seen this normalized value before, we already know it
# This cache is mainly useful for avoiding repeated int() calls on same objects
if normalized not in self._event_type_normalization_cache:
self._event_type_normalization_cache[normalized] = normalized
return normalized
def _is_event_type_enabled(self, event_type: EventType) -> bool:
"""
Check if an event type is enabled in the filter.
Args:
event_type: The event type to check.
Returns:
bool: True if event type is enabled (or no filter active), False otherwise.
"""
if not self.active_event_types:
return True
# Use pre-computed normalized set if available, otherwise compute it
if self._normalized_active_event_types is None:
self._update_normalized_active_event_types()
# Normalize event type and compare with normalized active types
normalized_type = self._normalize_event_type(event_type)
return normalized_type in self._normalized_active_event_types
def _is_person_included(self, person_handle: Optional[str]) -> bool:
"""
Check if a person is included in the filter.
Args:
person_handle: The person handle to check (None for family events).
Returns:
bool: True if person is included (or no filter active), False otherwise.
"""
if self.person_filter is None:
return True
# Family events (person_handle is None) are included if person_filter is not None
# but we might want to exclude them - for now, include them
if person_handle is None:
return True
return person_handle in self.person_filter
def _get_events_for_person(self, person_handle: str, events_list: List['TimelineEvent']) -> List['TimelineEvent']:
"""
Filter events list to only include events for a specific person.
Args:
person_handle: The handle of the person to filter events for.
events_list: List of timeline events to filter.
Returns:
List[TimelineEvent]: Filtered list of events for the specified person.
"""
return [
event for event in events_list
if self._person_matches_handle(event.person, person_handle)
]
def _get_event_type_display_name(self, event_type: EventType) -> str:
"""
Get human-readable display name for an event type.
Args:
event_type: The event type (integer or EventType object).
Returns:
str: Human-readable name for the event type.
"""
# Normalize to integer first
event_type_value = self._normalize_event_type(event_type)
# Map EventType integer values to their human-readable names
event_type_names = {
EventType.BIRTH: _("Birth"),
EventType.DEATH: _("Death"),
EventType.BURIAL: _("Burial"),
EventType.CREMATION: _("Cremation"),
EventType.ADOPT: _("Adoption"),
EventType.MARRIAGE: _("Marriage"),
EventType.DIVORCE: _("Divorce"),
EventType.ENGAGEMENT: _("Engagement"),
EventType.MARR_SETTL: _("Marriage Settlement"),
EventType.MARR_LIC: _("Marriage License"),
EventType.MARR_CONTR: _("Marriage Contract"),
EventType.MARR_BANNS: _("Marriage Banns"),
EventType.DIV_FILING: _("Divorce Filing"),
EventType.ANNULMENT: _("Annulment"),
EventType.MARR_ALT: _("Marriage (Alternative)"),
EventType.BAPTISM: _("Baptism"),
EventType.ADULT_CHRISTEN: _("Adult Christening"),
EventType.CONFIRMATION: _("Confirmation"),
EventType.CHRISTEN: _("Christening"),
EventType.FIRST_COMMUN: _("First Communion"),
EventType.BLESS: _("Blessing"),
EventType.BAR_MITZVAH: _("Bar Mitzvah"),
EventType.BAS_MITZVAH: _("Bat Mitzvah"),
EventType.RELIGION: _("Religion"),
EventType.ORDINATION: _("Ordination"),
EventType.OCCUPATION: _("Occupation"),
EventType.RETIREMENT: _("Retirement"),
EventType.ELECTED: _("Elected"),
EventType.MILITARY_SERV: _("Military Service"),
EventType.EDUCATION: _("Education"),
EventType.GRADUATION: _("Graduation"),
EventType.DEGREE: _("Degree"),
EventType.EMIGRATION: _("Emigration"),
EventType.IMMIGRATION: _("Immigration"),
EventType.NATURALIZATION: _("Naturalization"),
EventType.PROBATE: _("Probate"),
EventType.WILL: _("Will"),
EventType.RESIDENCE: _("Residence"),
EventType.CENSUS: _("Census"),
EventType.PROPERTY: _("Property"),
EventType.CAUSE_DEATH: _("Cause of Death"),
EventType.MED_INFO: _("Medical Information"),
EventType.NOB_TITLE: _("Nobility Title"),
EventType.NUM_MARRIAGES: _("Number of Marriages"),
EventType.UNKNOWN: _("Unknown"),
EventType.CUSTOM: _("Custom"),
}
return event_type_names.get(event_type_value, _("Unknown Event"))
def _get_event_category(self, event_type: EventType) -> str:
"""
Get the category for an event type.
Args:
event_type: The event type (may be EventType object or integer).
Returns:
str: The category name, or "Other Events" if not found.
"""
# Normalize EventType to integer for dictionary lookup
event_type_value = self._normalize_event_type(event_type)
return EVENT_CATEGORIES.get(event_type_value, "Other Events")
def apply_filters(self) -> None:
"""
Apply current filters and update the view.
Public method to trigger filter application.
"""
if self.all_events:
self.events = self._apply_filters(self.all_events)
self._invalidate_cache()
self._calculate_timeline_height()
self._queue_draw()
def _calculate_date_range(self) -> Tuple[int, int, int]:
"""
Calculate date range from events.
Returns:
Tuple[int, int, int]: (min_date, max_date, date_range)
"""
if not self.events:
return (0, 0, 1)
if (self._cached_min_date is not None and
self._cached_max_date is not None and
self._cached_date_range is not None):
return (self._cached_min_date, self._cached_max_date, self._cached_date_range)
min_date = min(event.date_sort for event in self.events)
max_date = max(event.date_sort for event in self.events)
date_range = max_date - min_date if max_date != min_date else 1
self._cached_min_date = min_date
self._cached_max_date = max_date
self._cached_date_range = date_range
return (min_date, max_date, date_range)
def _person_matches_handle(self, person: Optional['Person'], handle: str) -> bool:
"""
Check if a person's handle matches the given handle.
Args:
person: The person object (may be None).
handle: The handle to match against.
Returns:
bool: True if person exists and handle matches, False otherwise.
"""
return person is not None and person.get_handle() == handle
def _get_person_color(self, person_handle: str) -> Tuple[float, float, float, float]:
"""
Get or generate a distinct color for a person handle.
Uses HSL color space to generate evenly distributed colors.
Args:
person_handle: The handle of the person.
Returns:
Tuple[float, float, float, float]: RGBA color tuple (values 0-1).
"""
# If color already assigned, return it
if person_handle in self.person_colors:
return self.person_colors[person_handle]
# Generate color using HSV: vary hue, keep saturation and lightness constant
# Use hash of handle for consistent color even when selection order changes
handle_hash = hash(person_handle)
hue = (abs(handle_hash) % HSV_HUE_MAX_DEGREES) / float(HSV_HUE_MAX_DEGREES) # 0-1 range
# Convert HSV to RGB (HSV is Hue, Saturation, Value)
r, g, b = colorsys.hsv_to_rgb(hue, PERSON_COLOR_SATURATION, PERSON_COLOR_LIGHTNESS)
color = (r, g, b, PERSON_COLOR_ALPHA)
# Store the color
self.person_colors[person_handle] = color
return color
def _get_person_vertical_line_x(self, person_index: int) -> float:
"""
Calculate the X position for a person's vertical connection line.
Args:
person_index: The index of the person in the sorted selection (0-based).
Returns:
float: The X coordinate for the vertical line.
"""
return CONNECTION_VERTICAL_LINE_X + (person_index * CONNECTION_LINE_SPACING)
def _calculate_max_connection_line_x(self) -> float:
"""
Calculate the maximum (rightmost) X position of connection lines.
Returns:
float: The X coordinate of the rightmost connection line, or 0 if no persons selected.
"""
if not self.selected_person_handles:
return 0
# The rightmost line is at the highest index
max_index = len(self.selected_person_handles) - 1
return CONNECTION_VERTICAL_LINE_X + (max_index * CONNECTION_LINE_SPACING)
def _calculate_timeline_x(self) -> float:
"""
Calculate the dynamic timeline X position based on connection lines.
The timeline should be positioned to the right of the rightmost connection line
with appropriate spacing. If no connection lines exist, use the default margin.
Returns:
float: The X coordinate for the timeline.
"""
max_connection_x = self._calculate_max_connection_line_x()
if max_connection_x == 0:
# No connection lines, use default margin
return TIMELINE_MARGIN_LEFT
# Position timeline to the right of connection lines with spacing
timeline_x = max_connection_x + TIMELINE_LEFT_SPACING
# Ensure minimum timeline X to prevent overlap with year labels
# Year labels need space on the left (around 130-150 pixels)
min_timeline_x = TIMELINE_MARGIN_LEFT
return max(timeline_x, min_timeline_x)
def _calculate_y_position(self, date_sort: int, min_date: int, date_range: int,
timeline_y_start: float, timeline_y_end: float) -> float:
"""
Calculate Y position for an event based on date.
Args:
date_sort: The sort value of the event date.
min_date: The minimum date sort value.
date_range: The range of dates (max - min).
timeline_y_start: The Y coordinate of the timeline start.
timeline_y_end: The Y coordinate of the timeline end.
Returns:
float: The calculated Y position.
"""
return timeline_y_start + (
(date_sort - min_date) / date_range
) * (timeline_y_end - timeline_y_start)
def _get_event_label_text(self, event: 'Event', person: Optional['Person'], event_type: EventType) -> str:
"""
Generate label text for an event. Centralized logic.
Args:
event: The event object.
person: The person associated with the event (None for family events).
event_type: The type of event.
Returns:
str: The formatted label text.
"""
date_str = get_date(event)
event_type_str = str(event_type)
if person:
person_name = name_displayer.display(person)
return f"{date_str} - {event_type_str} - {person_name}"
else:
return f"{date_str} - {event_type_str}"
def _calculate_adjusted_positions(self, context: cairo.Context,
events_with_y_pos: List[TimelineEvent],
timeline_y_start: float,
timeline_y_end: float) -> List[TimelineEvent]:
"""
Calculate adjusted Y positions with collision detection.
Reusable by both drawing and click detection.
Args:
context: Cairo drawing context for text measurement.
events_with_y_pos: List of TimelineEvent objects with initial Y positions.
timeline_y_start: The Y coordinate of the timeline start.
timeline_y_end: The Y coordinate of the timeline end.
Returns:
List[TimelineEvent]: List of TimelineEvent objects with adjusted Y positions.
"""
if not events_with_y_pos:
return events_with_y_pos
# Create a temporary layout to measure text
layout = PangoCairo.create_layout(context)
layout.set_font_description(
Pango.font_description_from_string(f"{FONT_FAMILY} {FONT_SIZE_NORMAL}")
)
adjusted_events = []
for event_data in events_with_y_pos:
# Calculate label height using centralized text generation
label_text = self._get_event_label_text(event_data.event, event_data.person, event_data.event_type)
layout.set_text(label_text, -1)
text_width, text_height = layout.get_pixel_size()
label_height = text_height + LABEL_PADDING
# Check for overlap with previous events (optimized: find max y_pos to place after)
adjusted_y = event_data.y_pos
for prev_event in adjusted_events:
# Check if labels would overlap
prev_y = prev_event.y_pos
if adjusted_y < prev_y + MIN_LABEL_SPACING:
# Adjust downward to be below the previous event
adjusted_y = prev_y + MIN_LABEL_SPACING
# Ensure adjusted position is within bounds
adjusted_y = max(timeline_y_start, min(adjusted_y, timeline_y_end))
# Create new event data with adjusted Y position
adjusted_event = self._copy_timeline_event_with_y_pos(event_data, adjusted_y)
adjusted_events.append(adjusted_event)
return adjusted_events
def _recalculate_timeline_height(self) -> None:
"""
Recalculate timeline height based on current events and zoom level.
"""
if self.events:
base_height = (
TIMELINE_MARGIN_TOP
+ len(self.events) * EVENT_SPACING
+ TIMELINE_MARGIN_BOTTOM
)
self.timeline_height = int(base_height * self.zoom_level)
else:
self.timeline_height = int(EMPTY_TIMELINE_HEIGHT * self.zoom_level)
if self.drawing_area:
self.drawing_area.set_size_request(DEFAULT_DRAWING_AREA_WIDTH, self.timeline_height)
# Invalidate cache when zoom changes
self._adjusted_events_cache = None
self._cache_key = None
def _update_zoom(self, level: float) -> None:
"""
Update zoom level and refresh the display.
Args:
level: The new zoom level to set.
"""
self.zoom_level = level
self.update_zoom_display()
self._recalculate_timeline_height()
self._queue_draw()
def on_zoom_in(self, widget: Gtk.Widget) -> None:
"""
Zoom in.
Args:
widget: The widget that triggered the zoom (unused).
"""
if self.zoom_level < self.max_zoom:
new_level = min(self.zoom_level + self.zoom_step, self.max_zoom)
self._update_zoom(new_level)
def on_zoom_out(self, widget: Gtk.Widget) -> None:
"""
Zoom out.
Args:
widget: The widget that triggered the zoom (unused).
"""
if self.zoom_level > self.min_zoom:
new_level = max(self.zoom_level - self.zoom_step, self.min_zoom)
self._update_zoom(new_level)
def on_zoom_reset(self, widget: Gtk.Widget) -> None:
"""
Reset zoom to 100%.
Args:
widget: The widget that triggered the reset (unused).
"""
self._update_zoom(1.0)
def on_scroll(self, widget: Gtk.Widget, event: Gdk.Event) -> bool:
"""
Handle scroll events for zooming with Ctrl+scroll.
Args:
widget: The widget that received the scroll event.
event: The scroll event.
Returns:
bool: True if the event was handled, False otherwise.
"""
if event.state & Gdk.ModifierType.CONTROL_MASK:
if event.direction == Gdk.ScrollDirection.UP:
self.on_zoom_in(widget)
elif event.direction == Gdk.ScrollDirection.DOWN:
self.on_zoom_out(widget)
return True
return False
def update_zoom_display(self) -> None:
"""Update the zoom level display."""
if hasattr(self, 'zoom_label'):
zoom_percentage = int(self.zoom_level * ZOOM_PERCENTAGE_MULTIPLIER)
self.zoom_label.set_text(f"{zoom_percentage}%")
def on_button_press(self, widget: Gtk.Widget, event: Gdk.Event) -> bool:
"""
Handle mouse button press events.
Args:
widget: The widget that received the button press event.
event: The button press event.
Returns:
bool: False to allow other handlers to process the event.
"""
if event.button == MOUSE_BUTTON_LEFT:
# Find which event was clicked
clicked_index = self.find_event_at_position(event.x, event.y)
if clicked_index is not None:
clicked_event_data = self.events[clicked_index]
event_handle = clicked_event_data.event.get_handle()
# Select/highlight this event
if self.active_event_handle == event_handle:
# Deselect if clicking same event
self.active_event_handle = None
else:
# Select this event
self.active_event_handle = event_handle
# Navigate to this event in the view
self.uistate.set_active(event_handle, "Event")
# Toggle person selection (always toggle, even if event is same)
if clicked_event_data.person:
person_handle = clicked_event_data.person.get_handle()
if person_handle in self.selected_person_handles:
# Remove from selection
self.selected_person_handles.remove(person_handle)
# Clean up color if no longer selected
if person_handle in self.person_colors:
del self.person_colors[person_handle]
else:
# Add to selection
self.selected_person_handles.add(person_handle)
# Color will be assigned when drawing
self._queue_draw()
return False
def on_motion_notify(self, widget: Gtk.Widget, event: Gdk.Event) -> bool:
"""
Handle mouse motion events for hover detection.
Args:
widget: The widget that received the motion event.
event: The motion event.
Returns:
bool: False to allow other handlers to process the event.
"""
self.mouse_x = event.x
self.mouse_y = event.y
# Find which event is under the cursor
hovered_index = self.find_event_at_position(event.x, event.y)
if hovered_index != self.hovered_event_index:
self.hovered_event_index = hovered_index
# Cancel existing tooltip timeout
if self.tooltip_timeout_id:
# Try to remove the timeout source
# Note: If the timeout already fired, it's automatically removed and this will log a warning
# but we clear the ID anyway to prevent future attempts
try:
GLib.source_remove(self.tooltip_timeout_id)
except (AttributeError, TypeError):
# Source ID is invalid, ignore
pass
finally:
# Always clear the ID to prevent trying to remove an invalid source later
self.tooltip_timeout_id = None
# Hide existing tooltip
if self.tooltip_window:
self.tooltip_window.destroy()
self.tooltip_window = None
# Schedule new tooltip
if hovered_index is not None:
self.tooltip_timeout_id = GLib.timeout_add(
TOOLTIP_DELAY, self.show_tooltip, hovered_index, event.x_root, event.y_root
)
self._queue_draw()
return False
def on_leave_notify(self, widget: Gtk.Widget, event: Gdk.Event) -> bool:
"""
Handle mouse leave events.
Args:
widget: The widget that received the leave event.
event: The leave event.
Returns:
bool: False to allow other handlers to process the event.
"""
self.hovered_event_index = None
# Cancel tooltip timeout
if self.tooltip_timeout_id:
# Try to remove the timeout source
# Note: If the timeout already fired, it's automatically removed and this will log a warning
# but we clear the ID anyway to prevent future attempts
try:
GLib.source_remove(self.tooltip_timeout_id)
except (AttributeError, TypeError):
# Source ID is invalid, ignore
pass
finally:
# Always clear the ID to prevent trying to remove an invalid source later
self.tooltip_timeout_id = None
# Hide tooltip
if self.tooltip_window:
self.tooltip_window.destroy()
self.tooltip_window = None
self._queue_draw()
return False
def _get_cache_key(self, timeline_y_start: float, timeline_y_end: float) -> int:
"""
Generate cache key for adjusted events.
Args:
timeline_y_start: The Y coordinate of the timeline start.
timeline_y_end: The Y coordinate of the timeline end.
Returns:
int: A hash-based cache key.
"""
return hash((len(self.events), timeline_y_start, timeline_y_end))
def _get_adjusted_events(self, context: cairo.Context,
timeline_y_start: float,
timeline_y_end: float) -> List[TimelineEvent]:
"""
Get adjusted events with collision detection, using cache if available.
Args:
context: Cairo drawing context for text measurement.
timeline_y_start: The Y coordinate of the timeline start.
timeline_y_end: The Y coordinate of the timeline end.
Returns:
List[TimelineEvent]: List of TimelineEvent objects with adjusted Y positions.
"""
# Check if cache is valid using hash-based key
cache_key = self._get_cache_key(timeline_y_start, timeline_y_end)
if (self._adjusted_events_cache is not None and
self._cache_key == cache_key):
return self._adjusted_events_cache
# Calculate date range
if not self.events:
return []
min_date, max_date, date_range = self._calculate_date_range()
# Calculate initial Y positions
events_with_y_pos = []
for event_data in self.events:
y_pos = self._calculate_y_position(
event_data.date_sort, min_date, date_range,
timeline_y_start, timeline_y_end
)
event_with_y = self._copy_timeline_event_with_y_pos(event_data, y_pos)
events_with_y_pos.append(event_with_y)
# Apply collision detection using shared method
adjusted_events = self._calculate_adjusted_positions(
context, events_with_y_pos, timeline_y_start, timeline_y_end
)
# Cache the results
self._adjusted_events_cache = adjusted_events
self._cache_key = cache_key
return adjusted_events
def find_event_at_position(self, x: float, y: float) -> Optional[int]:
"""
Find which event is at the given position.
Args:
x: X coordinate in widget space.
y: Y coordinate in widget space.
Returns:
Optional[int]: Index of the event at the position, or None if no event found.
"""
if not self.events or not self.drawing_area:
return None
# Convert mouse coordinates to drawing coordinates (account for zoom)
scaled_x = x / self.zoom_level
scaled_y = y / self.zoom_level
# Get widget dimensions in drawing coordinates
height = self.drawing_area.get_allocated_height() / self.zoom_level
# Calculate dynamic timeline X position based on connection lines
timeline_x = self._calculate_timeline_x()
timeline_y_start = TIMELINE_MARGIN_TOP
timeline_y_end = height - TIMELINE_MARGIN_BOTTOM
# Get adjusted events using cache (create temporary context for text measurement)
# For click detection, we need a context for text measurement
temp_context = cairo.Context(self._temp_surface)
adjusted_events = self._get_adjusted_events(temp_context, timeline_y_start, timeline_y_end)
# Check each event using adjusted positions
marker_size = EVENT_MARKER_SIZE
label_x = timeline_x + LABEL_X_OFFSET
for i, event_data in enumerate(adjusted_events):
# Check if click is in the event's area (marker + label)
if (scaled_x >= timeline_x - marker_size - MARKER_CLICK_PADDING and
scaled_x <= label_x + CLICKABLE_AREA_WIDTH and
abs(scaled_y - event_data.y_pos) < CLICKABLE_AREA_HEIGHT / 2):
return i
return None
def _get_place_name_for_event(self, event: 'Event') -> Optional[str]:
"""
Get the place name for an event, with error handling.
Args:
event: The event object.
Returns:
Optional[str]: Place name if available, None otherwise.
"""
place_handle = event.get_place_handle()
if not place_handle:
return None
try:
place = self.dbstate.db.get_place_from_handle(place_handle)
if place:
return place.get_title()
except (AttributeError, KeyError) as e:
logger.debug(f"Error accessing place information for event in tooltip: {e}")
return None
def _get_person_portrait_path(self, person: Optional['Person']) -> Optional[str]:
"""
Get the file path for a person's portrait from their media_list.
Args:
person: The person object.
Returns:
Optional[str]: File path to portrait if available, None otherwise.
"""
if not person or not self.dbstate.is_open():
return None
try:
media_list = person.get_media_list()
if not media_list:
return None
# Get the first media reference (primary portrait)
media_ref = media_list[0]
media_handle = media_ref.get_reference_handle()
# Get the media object from database
media_obj = self.dbstate.db.get_media_from_handle(media_handle)
if not media_obj:
return None
# Get the file path
path = media_obj.get_path()
if not path:
return None
# Resolve relative paths using Gramps media path resolution
# Gramps stores paths relative to the database directory
# We need to resolve them to absolute paths
try:
from gramps.gen.utils.file import media_path_full
full_path = media_path_full(self.dbstate.db, path)
return full_path
except (ImportError, AttributeError):
# Fallback: try to use path as-is or resolve relative to current directory
import os
if os.path.isabs(path):
return path if os.path.exists(path) else None
# Try relative to current directory
if os.path.exists(path):
return os.path.abspath(path)
return None
except (AttributeError, KeyError, IndexError) as e:
logger.debug(f"Error accessing portrait for person: {e}")
return None
def _load_portrait_image(self, file_path: str, size: int) -> Optional[GdkPixbuf.Pixbuf]:
"""
Load and scale a portrait image.
Args:
file_path: Path to the image file.
size: Target size (width and height) for the image.
Returns:
Optional[GdkPixbuf.Pixbuf]: Scaled pixbuf if successful, None otherwise.
"""
if not file_path:
return None
try:
# Load the image
pixbuf = GdkPixbuf.Pixbuf.new_from_file(file_path)
# Scale to target size maintaining aspect ratio
scaled_pixbuf = pixbuf.scale_simple(size, size, GdkPixbuf.InterpType.BILINEAR)
return scaled_pixbuf
except (GLib.GError, Exception) as e:
logger.debug(f"Error loading portrait image from {file_path}: {e}")
return None
def _format_person_tooltip(self, person: 'Person', person_events: List[TimelineEvent]) -> str:
"""
Format tooltip for person with multiple events.
Args:
person: The person object.
person_events: List of TimelineEvent objects for this person.
Returns:
str: Formatted tooltip text.
"""
person_name = name_displayer.display(person)
tooltip_text = f"<b>{person_name}</b>\n"
tooltip_text += "" * TOOLTIP_SEPARATOR_LENGTH + "\n"
# Sort by date
person_events_sorted = sorted(person_events, key=lambda x: x.date_sort)
# List all events for this person (date first)
for event_data in person_events_sorted:
date_str = get_date(event_data.event)
event_type_str = str(event_data.event_type)
tooltip_text += f"{date_str} - {event_type_str}\n"
# Add place if available
place_name = self._get_place_name_for_event(event_data.event)
if place_name:
tooltip_text += f" 📍 {place_name}\n"
return tooltip_text
def _format_single_event_tooltip(self, event: 'Event', event_type: EventType) -> str:
"""
Format tooltip for single event.
Args:
event: The event object.
event_type: The type of event.
Returns:
str: Formatted tooltip text.
"""
date_str = get_date(event)
event_type_str = str(event_type)
tooltip_text = f"<b>{date_str}</b>\n{event_type_str}"
# Get place information
place_name = self._get_place_name_for_event(event)
if place_name:
tooltip_text += f"\n📍 {place_name}"
# Get description
description = event.get_description()
if description:
tooltip_text += f"\n{description}"
return tooltip_text
def _get_or_create_tooltip_window(self) -> Gtk.Window:
"""
Get or create tooltip window (reuse if exists).
Returns:
Gtk.Window: The tooltip window.
"""
if not hasattr(self, 'tooltip_window') or self.tooltip_window is None:
self.tooltip_window = Gtk.Window(type=Gtk.WindowType.POPUP)
self.tooltip_window.set_border_width(TOOLTIP_BORDER_WIDTH)
self.tooltip_window.set_decorated(False)
# Get parent window for proper display
toplevel = self.drawing_area.get_toplevel()
if isinstance(toplevel, Gtk.Window):
self.tooltip_window.set_transient_for(toplevel)
return self.tooltip_window
def show_tooltip(self, event_index: int, x_root: float, y_root: float) -> bool:
"""
Show tooltip for an event, including all events for that person.
Args:
event_index: Index of the event in self.events.
x_root: X coordinate in root window space.
y_root: Y coordinate in root window space.
Returns:
bool: False to indicate the timeout should not be repeated.
"""
# Clear timeout_id since this callback firing means the timeout was removed
# This prevents trying to remove it again later
self.tooltip_timeout_id = None
if event_index is None or event_index >= len(self.events):
return False
event_data = self.events[event_index]
# If event has a person, show all events for that person
if event_data.person:
person_handle = event_data.person.get_handle()
# Find all events for this person
person_events = self._get_events_for_person(person_handle, self.events)
tooltip_text = self._format_person_tooltip(event_data.person, person_events)
else:
# Family event (no person) - show single event info
tooltip_text = self._format_single_event_tooltip(event_data.event, event_data.event_type)
# Get or create tooltip window
tooltip_window = self._get_or_create_tooltip_window()
# Clear existing content
for child in tooltip_window.get_children():
tooltip_window.remove(child)
# Create container with background
frame = Gtk.Frame()
frame.set_shadow_type(Gtk.ShadowType.OUT)
frame.get_style_context().add_class("tooltip")
# Create horizontal box for portrait and text
hbox = Gtk.Box(orientation=Gtk.Orientation.HORIZONTAL, spacing=PORTRAIT_MARGIN)
hbox.set_margin_start(TOOLTIP_LABEL_MARGIN)
hbox.set_margin_end(TOOLTIP_LABEL_MARGIN)
hbox.set_margin_top(TOOLTIP_LABEL_MARGIN)
hbox.set_margin_bottom(TOOLTIP_LABEL_MARGIN)
# Add portrait if person has one
if event_data.person:
portrait_path = self._get_person_portrait_path(event_data.person)
if portrait_path:
pixbuf = self._load_portrait_image(portrait_path, PORTRAIT_SIZE_TOOLTIP)
if pixbuf:
portrait_image = Gtk.Image.new_from_pixbuf(pixbuf)
hbox.pack_start(portrait_image, False, False, 0)
# Add text label
label = Gtk.Label()
label.set_markup(tooltip_text)
label.set_line_wrap(True)
label.set_max_width_chars(TOOLTIP_MAX_WIDTH_CHARS)
label.set_halign(Gtk.Align.START)
label.set_valign(Gtk.Align.START)
hbox.pack_start(label, True, True, 0)
frame.add(hbox)
tooltip_window.add(frame)
tooltip_window.show_all()
# Position tooltip (offset to avoid cursor)
tooltip_window.move(int(x_root) + TOOLTIP_OFFSET, int(y_root) + TOOLTIP_OFFSET)
return False
def _draw_background(self, context: cairo.Context, width: float, height: float) -> None:
"""
Draw background gradient.
Args:
context: Cairo drawing context.
width: Widget width.
height: Widget height.
"""
pattern = cairo.LinearGradient(0, 0, 0, height)
pattern.add_color_stop_rgb(0, *BACKGROUND_GRADIENT_START)
pattern.add_color_stop_rgb(1, *BACKGROUND_GRADIENT_END)
context.set_source(pattern)
context.paint()
def _draw_no_events_message(self, context: cairo.Context, width: float, height: float) -> None:
"""
Draw "No events" message.
Args:
context: Cairo drawing context.
width: Widget width.
height: Widget height.
"""
context.set_source_rgb(0.6, 0.6, 0.6)
context.select_font_face(FONT_FAMILY, cairo.FONT_SLANT_NORMAL, cairo.FONT_WEIGHT_NORMAL)
context.set_font_size(FONT_SIZE_LARGE)
text = _("No events found")
(x_bearing, y_bearing, text_width, text_height, x_advance, y_advance) = context.text_extents(text)
context.move_to((width - text_width) / 2, height / 2)
context.show_text(text)
def _draw_timeline_axis(self, context: cairo.Context, timeline_x: float,
y_start: float, y_end: float) -> None:
"""
Draw timeline axis with shadow.
Args:
context: Cairo drawing context.
timeline_x: X coordinate of the timeline.
y_start: Y coordinate of the timeline start.
y_end: Y coordinate of the timeline end.
"""
# Draw shadow
context.set_source_rgba(*COLOR_BLACK, TIMELINE_SHADOW_OPACITY)
context.set_line_width(TIMELINE_LINE_WIDTH)
context.move_to(timeline_x + TIMELINE_SHADOW_OFFSET, y_start + TIMELINE_SHADOW_OFFSET)
context.line_to(timeline_x + TIMELINE_SHADOW_OFFSET, y_end + TIMELINE_SHADOW_OFFSET)
context.stroke()
# Draw main line with gradient
pattern = cairo.LinearGradient(timeline_x, y_start, timeline_x, y_end)
pattern.add_color_stop_rgb(0, *TIMELINE_AXIS_GRADIENT_START)
pattern.add_color_stop_rgb(1, *TIMELINE_AXIS_GRADIENT_END)
context.set_source(pattern)
context.set_line_width(TIMELINE_LINE_WIDTH)
context.move_to(timeline_x, y_start)
context.line_to(timeline_x, y_end)
context.stroke()
def _draw_events(self, context: cairo.Context, events_with_y_pos: List[TimelineEvent],
timeline_x: float) -> None:
"""
Draw all events.
Args:
context: Cairo drawing context.
events_with_y_pos: List of TimelineEvent objects with Y positions.
timeline_x: X coordinate of the timeline.
"""
for i, event_data in enumerate(events_with_y_pos):
# Check if this event is hovered
is_hovered = (i == self.hovered_event_index)
# Check if this event is the active/selected event
is_selected = (self.active_event_handle is not None and
event_data.event.get_handle() == self.active_event_handle)
# Draw event marker with modern styling
self.draw_event_marker(context, timeline_x, event_data.y_pos,
event_data.event_type, is_hovered, is_selected)
# Draw portrait if person has one (between timeline and label)
if event_data.person:
# Position portrait with gap after event marker edge
portrait_x = timeline_x + EVENT_MARKER_SIZE / 2 + PORTRAIT_GAP + PORTRAIT_SIZE_TIMELINE / 2
self.draw_portrait(context, portrait_x, event_data.y_pos,
event_data.person, PORTRAIT_SIZE_TIMELINE)
# Draw event label
label_x = timeline_x + LABEL_X_OFFSET
# Adjust label position if portrait is present
if event_data.person:
label_x = timeline_x + EVENT_MARKER_SIZE / 2 + PORTRAIT_GAP + PORTRAIT_SIZE_TIMELINE + PORTRAIT_MARGIN + LABEL_X_OFFSET
self.draw_event_label(
context, label_x, event_data.y_pos, event_data.date_obj,
event_data.event, event_data.person, event_data.event_type, is_hovered
)
def on_draw(self, widget: Gtk.Widget, context: cairo.Context) -> bool:
"""
Draw the timeline.
Args:
widget: The drawing area widget.
context: Cairo drawing context.
Returns:
bool: True to indicate the draw was handled.
"""
# Apply zoom transformation
context.save()
context.scale(self.zoom_level, self.zoom_level)
# Get widget dimensions (adjusted for zoom)
width = widget.get_allocated_width() / self.zoom_level
height = widget.get_allocated_height() / self.zoom_level
# Draw background
self._draw_background(context, width, height)
if not self.events:
# Draw "No events" message
self._draw_no_events_message(context, width, height)
context.restore()
return True
# Calculate date range
min_date, max_date, date_range = self._calculate_date_range()
# Calculate dynamic timeline X position based on connection lines
timeline_x = self._calculate_timeline_x()
timeline_y_start = TIMELINE_MARGIN_TOP
timeline_y_end = height - TIMELINE_MARGIN_BOTTOM
self._draw_timeline_axis(context, timeline_x, timeline_y_start, timeline_y_end)
# Get adjusted events with collision detection (uses cache)
events_with_y_pos = self._get_adjusted_events(context, timeline_y_start, timeline_y_end)
# Draw visual connections for selected person (from selected event)
# Draw before events so lines appear below event markers
if self.selected_person_handles:
self.draw_person_connections(context, events_with_y_pos, timeline_x,
timeline_y_start, timeline_y_end)
# Draw events
self._draw_events(context, events_with_y_pos, timeline_x)
# Draw year markers on the left
self.draw_year_markers(context, timeline_x, timeline_y_start, timeline_y_end,
min_date, max_date)
context.restore()
return True
def _draw_marker_shadow(self, context: cairo.Context, x: float, y: float,
size: float, shape: str) -> None:
"""
Draw shadow for marker.
Args:
context: Cairo drawing context.
x: X coordinate of marker center.
y: Y coordinate of marker center.
size: Size of the marker.
shape: Shape type ('triangle', 'circle', etc.).
"""
context.set_source_rgba(*COLOR_BLACK, SHADOW_OPACITY)
context.translate(SHADOW_OFFSET_X, SHADOW_OFFSET_Y)
self._draw_shape(context, x, y, size, shape)
context.fill()
context.translate(-SHADOW_OFFSET_X, -SHADOW_OFFSET_Y)
def _draw_marker_gradient(self, context: cairo.Context, x: float, y: float,
size: float, color: Tuple[float, float, float],
shape: str) -> None:
"""
Draw gradient fill for marker.
Args:
context: Cairo drawing context.
x: X coordinate of marker center.
y: Y coordinate of marker center.
size: Size of the marker.
color: RGB color tuple (0.0-1.0).
shape: Shape type ('triangle', 'circle', etc.).
"""
pattern = cairo.RadialGradient(x - size/2, y - size/2, 0, x, y, size)
r, g, b = color
pattern.add_color_stop_rgb(0,
min(1.0, r + GRADIENT_BRIGHTNESS_OFFSET),
min(1.0, g + GRADIENT_BRIGHTNESS_OFFSET),
min(1.0, b + GRADIENT_BRIGHTNESS_OFFSET))
pattern.add_color_stop_rgb(1,
max(0.0, r - GRADIENT_DARKNESS_OFFSET),
max(0.0, g - GRADIENT_DARKNESS_OFFSET),
max(0.0, b - GRADIENT_DARKNESS_OFFSET))
context.set_source(pattern)
self._draw_shape(context, x, y, size, shape)
context.fill()
def draw_event_marker(self, context: cairo.Context, x: float, y: float,
event_type: EventType, is_hovered: bool = False,
is_selected: bool = False) -> None:
"""
Draw a marker for an event with modern styling.
Args:
context: Cairo drawing context.
x: X coordinate for marker center.
y: Y coordinate for marker center.
event_type: Type of event (determines color and shape).
is_hovered: Whether marker is currently hovered.
is_selected: Whether marker belongs to selected person.
"""
context.save()
# Get integer value from EventType object for dictionary lookup
event_type_value = self._normalize_event_type(event_type)
# Get color and shape
color = EVENT_COLORS.get(event_type_value, DEFAULT_EVENT_COLOR)
shape = EVENT_SHAPES.get(event_type_value, DEFAULT_EVENT_SHAPE)
marker_size = EVENT_MARKER_SIZE
# Increase size if hovered or selected
if is_hovered:
marker_size *= MARKER_HOVER_SIZE_MULTIPLIER
elif is_selected:
marker_size *= MARKER_SELECTED_SIZE_MULTIPLIER
# Use highlight color if selected
if is_selected:
color = SELECTED_MARKER_COLOR
# Draw shadow
self._draw_marker_shadow(context, x, y, marker_size, shape)
# Draw main shape with gradient
self._draw_marker_gradient(context, x, y, marker_size, color, shape)
# Draw border
context.set_source_rgba(*COLOR_BLACK, BORDER_OPACITY)
context.set_line_width(MARKER_BORDER_WIDTH)
self._draw_shape(context, x, y, marker_size, shape)
context.stroke()
context.restore()
def _draw_triangle(self, context: cairo.Context, x: float, y: float, size: float) -> None:
"""Draw a triangle shape."""
context.move_to(x, y - size)
context.line_to(x - size, y + size)
context.line_to(x + size, y + size)
context.close_path()
def _draw_circle(self, context: cairo.Context, x: float, y: float, size: float) -> None:
"""Draw a circle shape."""
context.arc(x, y, size, 0, 2 * math.pi)
def _draw_diamond(self, context: cairo.Context, x: float, y: float, size: float) -> None:
"""Draw a diamond shape."""
context.move_to(x, y - size)
context.line_to(x + size, y)
context.line_to(x, y + size)
context.line_to(x - size, y)
context.close_path()
def _draw_square(self, context: cairo.Context, x: float, y: float, size: float) -> None:
"""Draw a square shape."""
context.rectangle(x - size, y - size, size * 2, size * 2)
def _draw_star(self, context: cairo.Context, x: float, y: float, size: float) -> None:
"""Draw a 5-pointed star shape."""
points = 5
outer_radius = size
inner_radius = size * 0.4
for i in range(points * 2):
angle = (i * math.pi) / points - math.pi / 2
radius = outer_radius if i % 2 == 0 else inner_radius
px = x + radius * math.cos(angle)
py = y + radius * math.sin(angle)
if i == 0:
context.move_to(px, py)
else:
context.line_to(px, py)
context.close_path()
def _draw_hexagon(self, context: cairo.Context, x: float, y: float, size: float) -> None:
"""Draw a hexagon shape."""
for i in range(6):
angle = (i * math.pi) / 3
px = x + size * math.cos(angle)
py = y + size * math.sin(angle)
if i == 0:
context.move_to(px, py)
else:
context.line_to(px, py)
context.close_path()
def _draw_shape(self, context: cairo.Context, x: float, y: float,
size: float, shape: str) -> None:
"""
Draw a shape at the given position.
Args:
context: Cairo drawing context.
x: X coordinate of shape center.
y: Y coordinate of shape center.
size: Size of the shape.
shape: Shape type ('triangle', 'circle', 'diamond', 'square', 'star', 'hexagon').
"""
shape_drawers = {
'triangle': self._draw_triangle,
'circle': self._draw_circle,
'diamond': self._draw_diamond,
'square': self._draw_square,
'star': self._draw_star,
'hexagon': self._draw_hexagon,
}
drawer = shape_drawers.get(shape, shape_drawers[DEFAULT_EVENT_SHAPE])
drawer(context, x, y, size)
def draw_event_label(self, context: cairo.Context, x: float, y: float,
date_obj: Date, event: 'Event', person: Optional['Person'],
event_type: EventType, is_hovered: bool = False) -> None:
"""
Draw the label for an event with modern styling.
Args:
context: Cairo drawing context.
x: X coordinate for label start.
y: Y coordinate for label center.
date_obj: Date object for the event.
event: The event object.
person: The person associated with the event (None for family events).
event_type: The type of event.
is_hovered: Whether the label is currently hovered.
"""
context.save()
# Create Pango layout for text
layout = PangoCairo.create_layout(context)
# Use modern font
font_desc = Pango.font_description_from_string(f"{FONT_FAMILY} {FONT_SIZE_NORMAL}")
if is_hovered:
font_desc.set_weight(Pango.Weight.BOLD)
layout.set_font_description(font_desc)
# Build label text using centralized method
label_text = self._get_event_label_text(event, person, event_type)
layout.set_markup(label_text, -1)
layout.set_width(-1) # No width limit
# Draw background for hovered events
if is_hovered:
text_width, text_height = layout.get_pixel_size()
padding = LABEL_BACKGROUND_PADDING
# Draw rounded rectangle background
rect_x = x - padding
rect_y = y - text_height / 2 - padding
rect_width = text_width + padding * 2
rect_height = text_height + padding * 2
# Rounded rectangle
radius = LABEL_BACKGROUND_RADIUS
context.arc(rect_x + radius, rect_y + radius, radius, math.pi, 3 * math.pi / 2)
context.arc(rect_x + rect_width - radius, rect_y + radius, radius, 3 * math.pi / 2, 0)
context.arc(rect_x + rect_width - radius, rect_y + rect_height - radius, radius, 0, math.pi / 2)
context.arc(rect_x + radius, rect_y + rect_height - radius, radius, math.pi / 2, math.pi)
context.close_path()
# Fill with semi-transparent background
context.set_source_rgba(*LABEL_HOVER_BACKGROUND_COLOR)
context.fill()
# Draw border
context.set_source_rgba(*LABEL_HOVER_BORDER_COLOR)
context.set_line_width(MARKER_BORDER_WIDTH)
context.stroke()
# Draw text
context.set_source_rgb(*LABEL_TEXT_COLOR)
context.move_to(x, y - LABEL_VERTICAL_OFFSET)
PangoCairo.show_layout(context, layout)
context.restore()
def draw_portrait(self, context: cairo.Context, x: float, y: float,
person: Optional['Person'], size: int = PORTRAIT_SIZE_TIMELINE) -> None:
"""
Draw a circular portrait for a person.
Args:
context: Cairo drawing context.
x: X coordinate for portrait center.
y: Y coordinate for portrait center.
person: The person object (None if no person or no portrait).
size: Size of the portrait (diameter).
"""
if not person:
return
# Get portrait path and load image
portrait_path = self._get_person_portrait_path(person)
if not portrait_path:
return
pixbuf = self._load_portrait_image(portrait_path, size)
if not pixbuf:
return
context.save()
# Create a circular clipping path
radius = size / 2
context.arc(x, y, radius, 0, 2 * math.pi)
context.clip()
# Use Gdk to set the pixbuf as source for Cairo
# This is the proper way to draw a GdkPixbuf with Cairo
Gdk.cairo_set_source_pixbuf(context, pixbuf, x - radius, y - radius)
context.paint()
context.restore()
# Draw a border around the portrait
context.save()
context.set_source_rgba(0.0, 0.0, 0.0, 0.3) # Semi-transparent black border
context.set_line_width(1.5)
context.arc(x, y, radius, 0, 2 * math.pi)
context.stroke()
context.restore()
def _find_year_range(self) -> Tuple[Optional[int], Optional[int]]:
"""
Find the minimum and maximum years from all events.
Returns:
Tuple[Optional[int], Optional[int]]: (min_year, max_year) or (None, None) if no valid years found.
"""
min_year = None
max_year = None
for event_data in self.events:
try:
year = event_data.date_obj.get_year()
if year and year != 0:
if min_year is None or year < min_year:
min_year = year
if max_year is None or year > max_year:
max_year = year
except (AttributeError, ValueError) as e:
logger.debug(f"Error extracting year from date for timeline year marker: {e}")
return (min_year, max_year)
def _calculate_year_y_position(self, year: int, min_date: int, max_date: int,
y_start: float, y_end: float) -> float:
"""
Calculate Y position for a year marker.
Args:
year: The year to calculate position for.
min_date: Minimum date sort value.
max_date: Maximum date sort value.
y_start: Y coordinate of the timeline start.
y_end: Y coordinate of the timeline end.
Returns:
float: The Y position for the year marker.
"""
year_date = Date()
year_date.set_yr_mon_day(year, 1, 1)
year_sort = year_date.get_sort_value()
if min_date == max_date:
return (y_start + y_end) / 2
else:
return y_start + (
(year_sort - min_date) / (max_date - min_date)
) * (y_end - y_start)
def _draw_year_marker(self, context: cairo.Context, timeline_x: float,
year: int, y_pos: float) -> None:
"""
Draw a single year marker (tick mark and label).
Args:
context: Cairo drawing context.
timeline_x: X coordinate of the timeline.
year: The year to draw.
y_pos: Y position for the marker.
"""
# Draw tick mark
context.set_source_rgb(*YEAR_MARKER_COLOR)
context.set_line_width(1)
context.move_to(timeline_x - 10, y_pos)
context.line_to(timeline_x, y_pos)
context.stroke()
# Draw year label
layout = PangoCairo.create_layout(context)
layout.set_font_description(
Pango.font_description_from_string(f"{FONT_FAMILY} {FONT_SIZE_SMALL}")
)
layout.set_text(str(year), -1)
# Get text size in pixels
text_width, text_height = layout.get_pixel_size()
context.set_source_rgb(*COLOR_BLACK)
context.move_to(timeline_x - YEAR_MARKER_LABEL_OFFSET - text_width, y_pos - text_height / 2)
PangoCairo.show_layout(context, layout)
def draw_year_markers(self, context: cairo.Context, timeline_x: float,
y_start: float, y_end: float, min_date: int,
max_date: int) -> None:
"""
Draw year markers on the left side of the timeline.
Args:
context: Cairo drawing context.
timeline_x: X coordinate of the timeline.
y_start: Y coordinate of the timeline start.
y_end: Y coordinate of the timeline end.
min_date: Minimum date sort value.
max_date: Maximum date sort value.
"""
context.save()
# Find min and max years from events
min_year, max_year = self._find_year_range()
if min_year is None or max_year is None:
context.restore()
return
# Draw markers for major years (every Nth year based on range)
# Ensure year_step is at least 1 to avoid division by zero issues
year_step = max(1, (max_year - min_year) // YEAR_MARKER_STEP_DIVISOR)
for year in range(min_year, max_year + 1, year_step):
# Calculate Y position
y_pos = self._calculate_year_y_position(year, min_date, max_date, y_start, y_end)
# Only draw if within visible range
if y_pos < y_start or y_pos > y_end:
continue
# Draw the year marker
self._draw_year_marker(context, timeline_x, year, y_pos)
context.restore()
def draw_person_connections(self, context: cairo.Context,
events_with_y_pos: List[TimelineEvent],
timeline_x: float, timeline_y_start: float,
timeline_y_end: float) -> None:
"""
Draw visual connections between all events of selected persons.
Each person gets their own colored vertical line at a unique X position.
Args:
context: Cairo drawing context.
events_with_y_pos: List of TimelineEvent objects with Y positions.
timeline_x: X coordinate of the timeline.
timeline_y_start: Y coordinate of the timeline start.
timeline_y_end: Y coordinate of the timeline end.
"""
if not self.selected_person_handles:
return
context.save()
context.set_line_width(CONNECTION_LINE_WIDTH)
context.set_line_cap(cairo.LINE_CAP_ROUND)
context.set_line_join(cairo.LINE_JOIN_ROUND)
# Sort person handles for consistent ordering (affects X position)
sorted_person_handles = sorted(self.selected_person_handles)
# Draw connections for each selected person
for person_index, person_handle in enumerate(sorted_person_handles):
# Get color for this person
person_color = self._get_person_color(person_handle)
# Calculate X position for this person's vertical line
vertical_line_x = self._get_person_vertical_line_x(person_index)
# Find all events for this person
person_events = self._get_events_for_person(person_handle, events_with_y_pos)
if not person_events:
continue
# Sort by Y position
person_events.sort(key=lambda x: x.y_pos)
# Set color for this person's lines
context.set_source_rgba(*person_color)
# Draw vertical connector line on the left side
if len(person_events) > 1:
# Use first and last elements since list is sorted by y_pos
min_y = person_events[0].y_pos
max_y = person_events[-1].y_pos
# Draw vertical line connecting all events
if max_y - min_y > CONNECTION_LINE_MIN_DISTANCE:
context.move_to(vertical_line_x, min_y)
context.line_to(vertical_line_x, max_y)
context.stroke()
# Draw horizontal lines connecting vertical line to each event marker
for event_data in person_events:
# Draw horizontal line from vertical line to event marker
context.move_to(vertical_line_x, event_data.y_pos)
context.line_to(timeline_x, event_data.y_pos)
context.stroke()
context.restore()
def get_stock(self) -> str:
"""
Return the stock icon name.
Returns:
str: The stock icon name for this view.
"""
return "gramps-family"
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