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slint/internal/core/window.rs
Olivier Goffart 3823c1e8da Experimental support for Drag & Drop 
Add a `DragArea` and `DropArea` elements.
It is currently gated as experimental.
2025-06-26 15:39:18 +02:00

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// Copyright © SixtyFPS GmbH <info@slint.dev>
// SPDX-License-Identifier: GPL-3.0-only OR LicenseRef-Slint-Royalty-free-2.0 OR LicenseRef-Slint-Software-3.0
// cSpell: ignore backtab
#![warn(missing_docs)]
//! Exposed Window API
use crate::api::{
CloseRequestResponse, LogicalPosition, PhysicalPosition, PhysicalSize, PlatformError, Window,
WindowPosition, WindowSize,
};
use crate::input::{
key_codes, ClickState, FocusEvent, FocusReason, InternalKeyboardModifierState, KeyEvent,
KeyEventType, MouseEvent, MouseInputState, PointerEventButton, TextCursorBlinker,
};
use crate::item_tree::{
ItemRc, ItemTreeRc, ItemTreeRef, ItemTreeVTable, ItemTreeWeak, ItemWeak,
ParentItemTraversalMode,
};
use crate::items::{ColorScheme, InputType, ItemRef, MouseCursor, PopupClosePolicy};
use crate::lengths::{LogicalLength, LogicalPoint, LogicalRect, SizeLengths};
use crate::menus::MenuVTable;
use crate::properties::{Property, PropertyTracker};
use crate::renderer::Renderer;
use crate::{Callback, Coord, SharedString};
use alloc::boxed::Box;
use alloc::rc::{Rc, Weak};
use alloc::vec::Vec;
use core::cell::{Cell, RefCell};
use core::num::NonZeroU32;
use core::pin::Pin;
use euclid::num::Zero;
use vtable::VRcMapped;
pub mod popup;
fn next_focus_item(item: ItemRc) -> ItemRc {
item.next_focus_item()
}
fn previous_focus_item(item: ItemRc) -> ItemRc {
item.previous_focus_item()
}
/// This trait represents the adaptation layer between the [`Window`] API and then
/// windowing specific window representation, such as a Win32 `HWND` handle or a `wayland_surface_t`.
///
/// Implement this trait to establish the link between the two, and pass messages in both
/// directions:
///
/// - When receiving messages from the windowing system about state changes, such as the window being resized,
/// the user requested the window to be closed, input being received, etc. you need to create a
/// [`WindowEvent`](crate::platform::WindowEvent) and send it to Slint via [`Window::try_dispatch_event()`].
///
/// - Slint sends requests to change visibility, position, size, etc. via functions such as [`Self::set_visible`],
/// [`Self::set_size`], [`Self::set_position`], or [`Self::update_window_properties()`]. Re-implement these functions
/// and delegate the requests to the windowing system.
///
/// If the implementation of this bi-directional message passing protocol is incomplete, the user may
/// experience unexpected behavior, or the intention of the developer calling functions on the [`Window`]
/// API may not be fulfilled.
///
/// Your implementation must hold a renderer, such as [`SoftwareRenderer`](crate::software_renderer::SoftwareRenderer).
/// In the [`Self::renderer()`] function, you must return a reference to it.
///
/// It is also required to hold a [`Window`] and return a reference to it in your
/// implementation of [`Self::window()`].
///
/// See also [`MinimalSoftwareWindow`](crate::software_renderer::MinimalSoftwareWindow)
/// for a minimal implementation of this trait using the software renderer
pub trait WindowAdapter {
/// Returns the window API.
fn window(&self) -> &Window;
/// Show the window if the argument is true, hide otherwise.
fn set_visible(&self, _visible: bool) -> Result<(), PlatformError> {
Ok(())
}
/// Returns the position of the window on the screen, in physical screen coordinates and including
/// a window frame (if present).
///
/// The default implementation returns `None`
///
/// Called from [`Window::position()`]
fn position(&self) -> Option<PhysicalPosition> {
None
}
/// Sets the position of the window on the screen, in physical screen coordinates and including
/// a window frame (if present).
///
/// The default implementation does nothing
///
/// Called from [`Window::set_position()`]
fn set_position(&self, _position: WindowPosition) {}
/// Request a new size for the window to the specified size on the screen, in physical or logical pixels
/// and excluding a window frame (if present).
///
/// This is called from [`Window::set_size()`]
///
/// The default implementation does nothing
///
/// This function should sent the size to the Windowing system. If the window size actually changes, you
/// should dispatch a [`WindowEvent::Resized`](crate::platform::WindowEvent::Resized) using
/// [`Window::dispatch_event()`] to propagate the new size to the slint view
fn set_size(&self, _size: WindowSize) {}
/// Return the size of the Window on the screen
fn size(&self) -> PhysicalSize;
/// Issues a request to the windowing system to re-render the contents of the window.
///
/// This request is typically asynchronous.
/// It is called when a property that was used during window rendering is marked as dirty.
///
/// An implementation should repaint the window in a subsequent iteration of the event loop,
/// throttled to the screen refresh rate if possible.
/// It is important not to query any Slint properties to avoid introducing a dependency loop in the properties,
/// including the use of the render function, which itself queries properties.
///
/// See also [`Window::request_redraw()`]
fn request_redraw(&self) {}
/// Return the renderer.
///
/// The `Renderer` trait is an internal trait that you are not expected to implement.
/// In your implementation you should return a reference to an instance of one of the renderers provided by Slint.
///
/// Currently, the only public struct that implement renderer is [`SoftwareRenderer`](crate::software_renderer::SoftwareRenderer).
fn renderer(&self) -> &dyn Renderer;
/// Re-implement this function to update the properties such as window title or layout constraints.
///
/// This function is called before `set_visible(true)`, and will be called again when the properties
/// that were queried on the last call are changed. If you do not query any properties, it may not
/// be called again.
fn update_window_properties(&self, _properties: WindowProperties<'_>) {}
#[doc(hidden)]
fn internal(&self, _: crate::InternalToken) -> Option<&dyn WindowAdapterInternal> {
None
}
/// Re-implement this to support exposing raw window handles (version 0.6).
#[cfg(feature = "raw-window-handle-06")]
fn window_handle_06(
&self,
) -> Result<raw_window_handle_06::WindowHandle<'_>, raw_window_handle_06::HandleError> {
Err(raw_window_handle_06::HandleError::NotSupported)
}
/// Re-implement this to support exposing raw display handles (version 0.6).
#[cfg(feature = "raw-window-handle-06")]
fn display_handle_06(
&self,
) -> Result<raw_window_handle_06::DisplayHandle<'_>, raw_window_handle_06::HandleError> {
Err(raw_window_handle_06::HandleError::NotSupported)
}
}
/// Implementation details behind [`WindowAdapter`], but since this
/// trait is not exported in the public API, it is not possible for the
/// users to call or re-implement these functions.
// TODO: add events for window receiving and loosing focus
#[doc(hidden)]
pub trait WindowAdapterInternal {
/// This function is called by the generated code when a component and therefore its tree of items are created.
fn register_item_tree(&self) {}
/// This function is called by the generated code when a component and therefore its tree of items are destroyed. The
/// implementation typically uses this to free the underlying graphics resources cached via [`crate::graphics::RenderingCache`].
fn unregister_item_tree(
&self,
_component: ItemTreeRef,
_items: &mut dyn Iterator<Item = Pin<ItemRef<'_>>>,
) {
}
/// Create a window for a popup.
///
/// `geometry` is the location of the popup in the window coordinate
///
/// If this function return None (the default implementation), then the
/// popup will be rendered within the window itself.
fn create_popup(&self, _geometry: LogicalRect) -> Option<Rc<dyn WindowAdapter>> {
None
}
/// Set the mouse cursor
// TODO: Make the enum public and make public
fn set_mouse_cursor(&self, _cursor: MouseCursor) {}
/// This method allow editable input field to communicate with the platform about input methods
fn input_method_request(&self, _: InputMethodRequest) {}
/// Return self as any so the backend can upcast
// TODO: consider using the as_any crate, or deriving the traint from Any to provide a better default
fn as_any(&self) -> &dyn core::any::Any {
&()
}
/// Handle focus change
// used for accessibility
fn handle_focus_change(&self, _old: Option<ItemRc>, _new: Option<ItemRc>) {}
/// returns the color scheme used
fn color_scheme(&self) -> ColorScheme {
ColorScheme::Unknown
}
/// Returns whether we can have a native menu bar
fn supports_native_menu_bar(&self) -> bool {
false
}
fn setup_menubar(&self, _menubar: vtable::VBox<MenuVTable>) {}
/// Re-implement this to support exposing raw window handles (version 0.6).
#[cfg(all(feature = "std", feature = "raw-window-handle-06"))]
fn window_handle_06_rc(
&self,
) -> Result<
std::sync::Arc<dyn raw_window_handle_06::HasWindowHandle>,
raw_window_handle_06::HandleError,
> {
Err(raw_window_handle_06::HandleError::NotSupported)
}
/// Re-implement this to support exposing raw display handles (version 0.6).
#[cfg(all(feature = "std", feature = "raw-window-handle-06"))]
fn display_handle_06_rc(
&self,
) -> Result<
std::sync::Arc<dyn raw_window_handle_06::HasDisplayHandle>,
raw_window_handle_06::HandleError,
> {
Err(raw_window_handle_06::HandleError::NotSupported)
}
/// Brings the window to the front and focuses it.
fn bring_to_front(&self) -> Result<(), PlatformError> {
Ok(())
}
}
/// This is the parameter from [`WindowAdapterInternal::input_method_request()`] which lets the editable text input field
/// communicate with the platform about input methods.
#[non_exhaustive]
#[derive(Debug, Clone)]
pub enum InputMethodRequest {
/// Enables the input method with the specified properties.
Enable(InputMethodProperties),
/// Updates the input method with new properties.
Update(InputMethodProperties),
/// Disables the input method.
Disable,
}
/// This struct holds properties related to an input method.
#[non_exhaustive]
#[derive(Clone, Default, Debug)]
pub struct InputMethodProperties {
/// The text surrounding the cursor.
///
/// This field does not include pre-edit text or composition.
pub text: SharedString,
/// The position of the cursor in bytes within the `text`.
pub cursor_position: usize,
/// When there is a selection, this is the position of the second anchor
/// for the beginning (or the end) of the selection.
pub anchor_position: Option<usize>,
/// The current value of the pre-edit text as known by the input method.
/// This is the text currently being edited but not yet committed.
/// When empty, there is no pre-edit text.
pub preedit_text: SharedString,
/// When the `preedit_text` is not empty, this is the offset of the pre-edit within the `text`.
pub preedit_offset: usize,
/// The top-left corner of the cursor rectangle in window coordinates.
pub cursor_rect_origin: LogicalPosition,
/// The size of the cursor rectangle.
pub cursor_rect_size: crate::api::LogicalSize,
/// The position of the anchor (bottom). Only meaningful if anchor_position is Some
pub anchor_point: LogicalPosition,
/// The type of input for the text edit.
pub input_type: InputType,
}
/// This struct describes layout constraints of a resizable element, such as a window.
#[non_exhaustive]
#[derive(Copy, Clone, Debug, PartialEq, Default)]
pub struct LayoutConstraints {
/// The minimum size.
pub min: Option<crate::api::LogicalSize>,
/// The maximum size.
pub max: Option<crate::api::LogicalSize>,
/// The preferred size.
pub preferred: crate::api::LogicalSize,
}
/// This struct contains getters that provide access to properties of the `Window`
/// element, and is used with [`WindowAdapter::update_window_properties`].
pub struct WindowProperties<'a>(&'a WindowInner);
impl WindowProperties<'_> {
/// Returns the Window's title
pub fn title(&self) -> SharedString {
self.0.window_item().map(|w| w.as_pin_ref().title()).unwrap_or_default()
}
/// The background color or brush of the Window
pub fn background(&self) -> crate::Brush {
self.0
.window_item()
.map(|w: VRcMapped<ItemTreeVTable, crate::items::WindowItem>| {
w.as_pin_ref().background()
})
.unwrap_or_default()
}
/// Returns the layout constraints of the window
pub fn layout_constraints(&self) -> LayoutConstraints {
let component = self.0.component();
let component = ItemTreeRc::borrow_pin(&component);
let h = component.as_ref().layout_info(crate::layout::Orientation::Horizontal);
let v = component.as_ref().layout_info(crate::layout::Orientation::Vertical);
let (min, max) = crate::layout::min_max_size_for_layout_constraints(h, v);
LayoutConstraints {
min,
max,
preferred: crate::api::LogicalSize::new(
h.preferred_bounded() as f32,
v.preferred_bounded() as f32,
),
}
}
/// Returns true if the window should be shown fullscreen; false otherwise.
#[deprecated(note = "Please use `is_fullscreen` instead")]
pub fn fullscreen(&self) -> bool {
self.is_fullscreen()
}
/// Returns true if the window should be shown fullscreen; false otherwise.
pub fn is_fullscreen(&self) -> bool {
self.0.is_fullscreen()
}
/// true if the window is in a maximized state, otherwise false
pub fn is_maximized(&self) -> bool {
self.0.maximized.get()
}
/// true if the window is in a minimized state, otherwise false
pub fn is_minimized(&self) -> bool {
self.0.minimized.get()
}
}
struct WindowPropertiesTracker {
window_adapter_weak: Weak<dyn WindowAdapter>,
}
impl crate::properties::PropertyDirtyHandler for WindowPropertiesTracker {
fn notify(self: Pin<&Self>) {
let win = self.window_adapter_weak.clone();
crate::timers::Timer::single_shot(Default::default(), move || {
if let Some(window_adapter) = win.upgrade() {
WindowInner::from_pub(window_adapter.window()).update_window_properties();
};
})
}
}
struct WindowRedrawTracker {
window_adapter_weak: Weak<dyn WindowAdapter>,
}
impl crate::properties::PropertyDirtyHandler for WindowRedrawTracker {
fn notify(self: Pin<&Self>) {
if let Some(window_adapter) = self.window_adapter_weak.upgrade() {
window_adapter.request_redraw();
};
}
}
/// This enum describes the different ways a popup can be rendered by the back-end.
#[derive(Clone)]
pub enum PopupWindowLocation {
/// The popup is rendered in its own top-level window that is know to the windowing system.
TopLevel(Rc<dyn WindowAdapter>),
/// The popup is rendered as an embedded child window at the given position.
ChildWindow(LogicalPoint),
}
/// This structure defines a graphical element that is designed to pop up from the surrounding
/// UI content, for example to show a context menu.
#[derive(Clone)]
pub struct PopupWindow {
/// The ID of the associated popup.
pub popup_id: NonZeroU32,
/// The location defines where the pop up is rendered.
pub location: PopupWindowLocation,
/// The component that is responsible for providing the popup content.
pub component: ItemTreeRc,
/// Defines the close behaviour of the popup.
pub close_policy: PopupClosePolicy,
/// the item that had the focus in the parent window when the popup was opened
focus_item_in_parent: ItemWeak,
/// The item from where the Popup was invoked from
pub parent_item: ItemWeak,
/// Whether the popup is a popup menu.
/// Popup menu allow the mouse event to be propagated on their parent menu/menubar
is_menu: bool,
}
#[pin_project::pin_project]
struct WindowPinnedFields {
#[pin]
redraw_tracker: PropertyTracker<WindowRedrawTracker>,
/// Gets dirty when the layout restrictions, or some other property of the windows change
#[pin]
window_properties_tracker: PropertyTracker<WindowPropertiesTracker>,
#[pin]
scale_factor: Property<f32>,
#[pin]
active: Property<bool>,
#[pin]
text_input_focused: Property<bool>,
}
/// Inner datastructure for the [`crate::api::Window`]
pub struct WindowInner {
window_adapter_weak: Weak<dyn WindowAdapter>,
component: RefCell<ItemTreeWeak>,
/// When the window is visible, keep a strong reference
strong_component_ref: RefCell<Option<ItemTreeRc>>,
mouse_input_state: Cell<MouseInputState>,
pub(crate) modifiers: Cell<InternalKeyboardModifierState>,
/// ItemRC that currently have the focus. (possibly a, instance of TextInput)
pub focus_item: RefCell<crate::item_tree::ItemWeak>,
/// The last text that was sent to the input method
pub(crate) last_ime_text: RefCell<SharedString>,
/// Don't let ComponentContainers's instantiation change the focus.
/// This is a workaround for a recursion when instantiating ComponentContainer because the
/// init code for the component might have code that sets the focus, but we don't want that
/// for the ComponentContainer
pub(crate) prevent_focus_change: Cell<bool>,
cursor_blinker: RefCell<pin_weak::rc::PinWeak<crate::input::TextCursorBlinker>>,
pinned_fields: Pin<Box<WindowPinnedFields>>,
maximized: Cell<bool>,
minimized: Cell<bool>,
/// Stack of currently active popups
active_popups: RefCell<Vec<PopupWindow>>,
next_popup_id: Cell<NonZeroU32>,
had_popup_on_press: Cell<bool>,
close_requested: Callback<(), CloseRequestResponse>,
click_state: ClickState,
pub(crate) ctx: once_cell::unsync::Lazy<crate::SlintContext>,
}
impl Drop for WindowInner {
fn drop(&mut self) {
if let Some(existing_blinker) = self.cursor_blinker.borrow().upgrade() {
existing_blinker.stop();
}
}
}
impl WindowInner {
/// Create a new instance of the window, given the window_adapter factory fn
pub fn new(window_adapter_weak: Weak<dyn WindowAdapter>) -> Self {
#![allow(unused_mut)]
let mut window_properties_tracker =
PropertyTracker::new_with_dirty_handler(WindowPropertiesTracker {
window_adapter_weak: window_adapter_weak.clone(),
});
let mut redraw_tracker = PropertyTracker::new_with_dirty_handler(WindowRedrawTracker {
window_adapter_weak: window_adapter_weak.clone(),
});
#[cfg(slint_debug_property)]
{
window_properties_tracker
.set_debug_name("i_slint_core::Window::window_properties_tracker".into());
redraw_tracker.set_debug_name("i_slint_core::Window::redraw_tracker".into());
}
Self {
window_adapter_weak,
component: Default::default(),
strong_component_ref: Default::default(),
mouse_input_state: Default::default(),
modifiers: Default::default(),
pinned_fields: Box::pin(WindowPinnedFields {
redraw_tracker,
window_properties_tracker,
scale_factor: Property::new_named(1., "i_slint_core::Window::scale_factor"),
active: Property::new_named(false, "i_slint_core::Window::active"),
text_input_focused: Property::new_named(
false,
"i_slint_core::Window::text_input_focused",
),
}),
maximized: Cell::new(false),
minimized: Cell::new(false),
focus_item: Default::default(),
last_ime_text: Default::default(),
cursor_blinker: Default::default(),
active_popups: Default::default(),
next_popup_id: Cell::new(NonZeroU32::MIN),
had_popup_on_press: Default::default(),
close_requested: Default::default(),
click_state: ClickState::default(),
prevent_focus_change: Default::default(),
// The ctx is lazy so that a Window can be initialized before the backend.
// (for example in test_empty_window)
ctx: once_cell::unsync::Lazy::new(|| {
crate::context::GLOBAL_CONTEXT.with(|ctx| ctx.get().unwrap().clone())
}),
}
}
/// Associates this window with the specified component. Further event handling and rendering, etc. will be
/// done with that component.
pub fn set_component(&self, component: &ItemTreeRc) {
self.close_all_popups();
self.focus_item.replace(Default::default());
self.mouse_input_state.replace(Default::default());
self.modifiers.replace(Default::default());
self.component.replace(ItemTreeRc::downgrade(component));
self.pinned_fields.window_properties_tracker.set_dirty(); // component changed, layout constraints for sure must be re-calculated
let window_adapter = self.window_adapter();
window_adapter.renderer().set_window_adapter(&window_adapter);
{
let component = ItemTreeRc::borrow_pin(component);
let root_item = component.as_ref().get_item_ref(0);
let window_item = ItemRef::downcast_pin::<crate::items::WindowItem>(root_item).unwrap();
let default_font_size_prop =
crate::items::WindowItem::FIELD_OFFSETS.default_font_size.apply_pin(window_item);
if default_font_size_prop.get().get() <= 0 as Coord {
default_font_size_prop.set(window_adapter.renderer().default_font_size());
}
}
self.set_window_item_geometry(
window_adapter.size().to_logical(self.scale_factor()).to_euclid(),
);
window_adapter.request_redraw();
let weak = Rc::downgrade(&window_adapter);
crate::timers::Timer::single_shot(Default::default(), move || {
if let Some(window_adapter) = weak.upgrade() {
WindowInner::from_pub(window_adapter.window()).update_window_properties();
}
})
}
/// return the component.
/// Panics if it wasn't set.
pub fn component(&self) -> ItemTreeRc {
self.component.borrow().upgrade().unwrap()
}
/// returns the component or None if it isn't set.
pub fn try_component(&self) -> Option<ItemTreeRc> {
self.component.borrow().upgrade()
}
/// Returns a slice of the active poppups.
pub fn active_popups(&self) -> core::cell::Ref<'_, [PopupWindow]> {
core::cell::Ref::map(self.active_popups.borrow(), |v| v.as_slice())
}
/// Receive a mouse event and pass it to the items of the component to
/// change their state.
pub fn process_mouse_input(&self, mut event: MouseEvent) {
crate::animations::update_animations();
// handle multiple press release
event = self.click_state.check_repeat(event, self.ctx.platform().click_interval());
let window_adapter = self.window_adapter();
let mut mouse_input_state = self.mouse_input_state.take();
if let Some(mut drop_event) = mouse_input_state.drag_data.clone() {
match &event {
MouseEvent::Released { position, button: PointerEventButton::Left, .. } => {
if let Some(window_adapter) = window_adapter.internal(crate::InternalToken) {
window_adapter.set_mouse_cursor(MouseCursor::Default);
}
drop_event.position = crate::lengths::logical_position_to_api(*position);
event = MouseEvent::Drop(drop_event);
mouse_input_state.drag_data = None;
}
MouseEvent::Moved { position } => {
if let Some(window_adapter) = window_adapter.internal(crate::InternalToken) {
window_adapter.set_mouse_cursor(MouseCursor::NoDrop);
}
drop_event.position = crate::lengths::logical_position_to_api(*position);
event = MouseEvent::DragMove(drop_event);
}
MouseEvent::Exit => {
mouse_input_state.drag_data = None;
}
_ => {}
}
}
let pressed_event = matches!(event, MouseEvent::Pressed { .. });
let released_event = matches!(event, MouseEvent::Released { .. });
let last_top_item = mouse_input_state.top_item_including_delayed();
if released_event {
mouse_input_state =
crate::input::process_delayed_event(&window_adapter, mouse_input_state);
}
let Some(item_tree) = self.try_component() else { return };
// Try to get the root window in case `self` is the popup itself (to get the active_popups list)
let mut root_adapter = None;
ItemTreeRc::borrow_pin(&item_tree).as_ref().window_adapter(false, &mut root_adapter);
let root_adapter = root_adapter.unwrap_or_else(|| window_adapter.clone());
let active_popups = &WindowInner::from_pub(root_adapter.window()).active_popups;
let native_popup_index = active_popups.borrow().iter().position(|p| {
if let PopupWindowLocation::TopLevel(wa) = &p.location {
Rc::ptr_eq(wa, &window_adapter)
} else {
false
}
});
if pressed_event {
self.had_popup_on_press.set(!active_popups.borrow().is_empty());
}
let mut popup_to_close = active_popups.borrow().last().and_then(|popup| {
let mouse_inside_popup = || {
if let PopupWindowLocation::ChildWindow(coordinates) = &popup.location {
event.position().is_none_or(|pos| {
ItemTreeRc::borrow_pin(&popup.component)
.as_ref()
.item_geometry(0)
.contains(pos - coordinates.to_vector())
})
} else {
native_popup_index.is_some_and(|idx| idx == active_popups.borrow().len() - 1)
&& event.position().is_none_or(|pos| {
ItemTreeRc::borrow_pin(&item_tree)
.as_ref()
.item_geometry(0)
.contains(pos)
})
}
};
match popup.close_policy {
PopupClosePolicy::CloseOnClick => {
let mouse_inside_popup = mouse_inside_popup();
(mouse_inside_popup && released_event && self.had_popup_on_press.get())
|| (!mouse_inside_popup && pressed_event)
}
PopupClosePolicy::CloseOnClickOutside => !mouse_inside_popup() && pressed_event,
PopupClosePolicy::NoAutoClose => false,
}
.then_some(popup.popup_id)
});
mouse_input_state = if let Some(mut event) =
crate::input::handle_mouse_grab(&event, &window_adapter, &mut mouse_input_state)
{
let mut item_tree = self.component.borrow().upgrade();
let mut offset = LogicalPoint::default();
let mut menubar_item = None;
for (idx, popup) in active_popups.borrow().iter().enumerate().rev() {
item_tree = None;
menubar_item = None;
if let PopupWindowLocation::ChildWindow(coordinates) = &popup.location {
let geom = ItemTreeRc::borrow_pin(&popup.component).as_ref().item_geometry(0);
let mouse_inside_popup = event
.position()
.is_none_or(|pos| geom.contains(pos - coordinates.to_vector()));
if mouse_inside_popup {
item_tree = Some(popup.component.clone());
offset = *coordinates;
break;
}
} else if native_popup_index.is_some_and(|i| i == idx) {
item_tree = self.component.borrow().upgrade();
break;
}
if !popup.is_menu {
break;
} else if popup_to_close.is_some() {
// clicking outside of a popup menu should close all the menus
popup_to_close = Some(popup.popup_id);
}
menubar_item = popup.parent_item.upgrade();
}
let root = match menubar_item {
None => item_tree.map(|item_tree| ItemRc::new(item_tree.clone(), 0)),
Some(menubar_item) => {
assert_ne!(menubar_item.index(), 0, "ContextMenuInternal cannot be root");
event.translate(
menubar_item
.map_to_item_tree(Default::default(), &self.component())
.to_vector(),
);
menubar_item.parent_item(ParentItemTraversalMode::StopAtPopups)
}
};
if let Some(root) = root {
event.translate(-offset.to_vector());
let mut new_input_state = crate::input::process_mouse_input(
root,
&event,
&window_adapter,
mouse_input_state,
);
new_input_state.offset = offset;
new_input_state
} else {
// When outside, send exit event
let mut new_input_state = MouseInputState::default();
crate::input::send_exit_events(
&mouse_input_state,
&mut new_input_state,
event.position(),
&window_adapter,
);
new_input_state
}
} else {
mouse_input_state
};
if last_top_item != mouse_input_state.top_item_including_delayed() {
self.click_state.reset();
self.click_state.check_repeat(event, self.ctx.platform().click_interval());
}
self.mouse_input_state.set(mouse_input_state);
if let Some(popup_id) = popup_to_close {
WindowInner::from_pub(root_adapter.window()).close_popup(popup_id);
}
crate::properties::ChangeTracker::run_change_handlers();
}
/// Called by the input code's internal timer to send an event that was delayed
pub(crate) fn process_delayed_event(&self) {
self.mouse_input_state.set(crate::input::process_delayed_event(
&self.window_adapter(),
self.mouse_input_state.take(),
));
}
/// Receive a key event and pass it to the items of the component to
/// change their state.
///
/// Arguments:
/// * `event`: The key event received by the windowing system.
/// * `component`: The Slint compiled component that provides the tree of items.
pub fn process_key_input(&self, mut event: KeyEvent) {
if let Some(updated_modifier) = self
.modifiers
.get()
.state_update(event.event_type == KeyEventType::KeyPressed, &event.text)
{
// Updates the key modifiers depending on the key code and pressed state.
self.modifiers.set(updated_modifier);
}
event.modifiers = self.modifiers.get().into();
let mut item = self.focus_item.borrow().clone().upgrade();
if item.as_ref().is_some_and(|i| !i.is_visible()) {
// Reset the focus... not great, but better than keeping it.
self.take_focus_item(&FocusEvent::FocusOut(FocusReason::TabNavigation));
item = None;
}
while let Some(focus_item) = item {
if focus_item.borrow().as_ref().key_event(&event, &self.window_adapter(), &focus_item)
== crate::input::KeyEventResult::EventAccepted
{
crate::properties::ChangeTracker::run_change_handlers();
return;
}
item = focus_item.parent_item(ParentItemTraversalMode::StopAtPopups);
}
// Make Tab/Backtab handle keyboard focus
let extra_mod = event.modifiers.control || event.modifiers.meta || event.modifiers.alt;
if event.text.starts_with(key_codes::Tab)
&& !event.modifiers.shift
&& !extra_mod
&& event.event_type == KeyEventType::KeyPressed
{
self.focus_next_item();
} else if (event.text.starts_with(key_codes::Backtab)
|| (event.text.starts_with(key_codes::Tab) && event.modifiers.shift))
&& event.event_type == KeyEventType::KeyPressed
&& !extra_mod
{
self.focus_previous_item();
} else if event.event_type == KeyEventType::KeyPressed
&& event.text.starts_with(key_codes::Escape)
{
// Closes top most popup on esc key pressed when policy is not no-auto-close
// Try to get the parent window in case `self` is the popup itself
let mut adapter = self.window_adapter();
let item_tree = self.component();
let mut a = None;
ItemTreeRc::borrow_pin(&item_tree).as_ref().window_adapter(false, &mut a);
if let Some(a) = a {
adapter = a;
}
let window = WindowInner::from_pub(adapter.window());
let close_on_escape = if let Some(popup) = window.active_popups.borrow().last() {
popup.close_policy == PopupClosePolicy::CloseOnClick
|| popup.close_policy == PopupClosePolicy::CloseOnClickOutside
} else {
false
};
if close_on_escape {
window.close_top_popup();
}
}
crate::properties::ChangeTracker::run_change_handlers();
}
/// Installs a binding on the specified property that's toggled whenever the text cursor is supposed to be visible or not.
pub fn set_cursor_blink_binding(&self, prop: &crate::Property<bool>) {
let existing_blinker = self.cursor_blinker.borrow().clone();
let blinker = existing_blinker.upgrade().unwrap_or_else(|| {
let new_blinker = TextCursorBlinker::new();
*self.cursor_blinker.borrow_mut() =
pin_weak::rc::PinWeak::downgrade(new_blinker.clone());
new_blinker
});
TextCursorBlinker::set_binding(blinker, prop);
}
/// Sets the focus to the item pointed to by item_ptr. This will remove the focus from any
/// currently focused item. If set_focus is false, the focus is cleared.
pub fn set_focus_item(&self, new_focus_item: &ItemRc, set_focus: bool, reason: FocusReason) {
if self.prevent_focus_change.get() {
return;
}
let popup_wa = self.active_popups.borrow().last().and_then(|p| match &p.location {
PopupWindowLocation::TopLevel(wa) => Some(wa.clone()),
PopupWindowLocation::ChildWindow(..) => None,
});
if let Some(popup_wa) = popup_wa {
// Set the focus item on the popup's Window instead
popup_wa.window().0.set_focus_item(new_focus_item, set_focus, reason);
return;
}
let current_focus_item = self.focus_item.borrow().clone();
if let Some(current_focus_item_rc) = current_focus_item.upgrade() {
if set_focus {
if current_focus_item_rc == *new_focus_item {
// don't send focus out and in even to the same item if focus doesn't change
return;
}
} else if current_focus_item_rc != *new_focus_item {
// can't clear focus unless called with currently focused item.
return;
}
}
let old = self.take_focus_item(&FocusEvent::FocusOut(reason));
let new = if set_focus {
self.move_focus(new_focus_item.clone(), next_focus_item, reason)
} else {
None
};
let window_adapter = self.window_adapter();
if let Some(window_adapter) = window_adapter.internal(crate::InternalToken) {
window_adapter.handle_focus_change(old, new);
}
}
/// Take the focus_item out of this Window
///
/// This sends the event whiwh must be either FocusOut or WindowLostFocus for popups
fn take_focus_item(&self, event: &FocusEvent) -> Option<ItemRc> {
let focus_item = self.focus_item.take();
assert!(matches!(event, FocusEvent::FocusOut(_)));
if let Some(focus_item_rc) = focus_item.upgrade() {
focus_item_rc.borrow().as_ref().focus_event(
event,
&self.window_adapter(),
&focus_item_rc,
);
Some(focus_item_rc)
} else {
None
}
}
/// Publish the new focus_item to this Window and return the FocusEventResult
///
/// This sends a FocusIn event!
fn publish_focus_item(
&self,
item: &Option<ItemRc>,
reason: FocusReason,
) -> crate::input::FocusEventResult {
match item {
Some(item) => {
*self.focus_item.borrow_mut() = item.downgrade();
item.borrow().as_ref().focus_event(
&FocusEvent::FocusIn(reason),
&self.window_adapter(),
item,
)
}
None => {
*self.focus_item.borrow_mut() = Default::default();
crate::input::FocusEventResult::FocusAccepted // We were removing the focus, treat that as OK
}
}
}
fn move_focus(
&self,
start_item: ItemRc,
forward: impl Fn(ItemRc) -> ItemRc,
reason: FocusReason,
) -> Option<ItemRc> {
let mut current_item = start_item;
let mut visited = Vec::new();
loop {
if current_item.is_visible()
&& self.publish_focus_item(&Some(current_item.clone()), reason)
== crate::input::FocusEventResult::FocusAccepted
{
return Some(current_item); // Item was just published.
}
visited.push(current_item.clone());
current_item = forward(current_item);
if visited.iter().any(|i| *i == current_item) {
return None; // Nothing to do: We took the focus_item already
}
}
}
/// Move keyboard focus to the next item
pub fn focus_next_item(&self) {
let start_item = self
.take_focus_item(&FocusEvent::FocusOut(FocusReason::TabNavigation))
.map(next_focus_item)
.unwrap_or_else(|| {
ItemRc::new(
self.active_popups
.borrow()
.last()
.map_or_else(|| self.component(), |p| p.component.clone()),
0,
)
});
let end_item =
self.move_focus(start_item.clone(), next_focus_item, FocusReason::TabNavigation);
let window_adapter = self.window_adapter();
if let Some(window_adapter) = window_adapter.internal(crate::InternalToken) {
window_adapter.handle_focus_change(Some(start_item), end_item);
}
}
/// Move keyboard focus to the previous item.
pub fn focus_previous_item(&self) {
let start_item = previous_focus_item(
self.take_focus_item(&FocusEvent::FocusOut(FocusReason::TabNavigation)).unwrap_or_else(
|| {
ItemRc::new(
self.active_popups
.borrow()
.last()
.map_or_else(|| self.component(), |p| p.component.clone()),
0,
)
},
),
);
let end_item =
self.move_focus(start_item.clone(), previous_focus_item, FocusReason::TabNavigation);
let window_adapter = self.window_adapter();
if let Some(window_adapter) = window_adapter.internal(crate::InternalToken) {
window_adapter.handle_focus_change(Some(start_item), end_item);
}
}
/// Marks the window to be the active window. This typically coincides with the keyboard
/// focus. One exception though is when a popup is shown, in which case the window may
/// remain active but temporarily loose focus to the popup.
///
/// This results in WindowFocusReceived and WindowFocusLost events.
pub fn set_active(&self, have_focus: bool) {
self.pinned_fields.as_ref().project_ref().active.set(have_focus);
let event = if have_focus {
FocusEvent::FocusIn(FocusReason::WindowActivation)
} else {
FocusEvent::FocusOut(FocusReason::WindowActivation)
};
if let Some(focus_item) = self.focus_item.borrow().upgrade() {
focus_item.borrow().as_ref().focus_event(&event, &self.window_adapter(), &focus_item);
}
// If we lost focus due to for example a global shortcut, then when we regain focus
// should not assume that the modifiers are in the same state.
if !have_focus {
self.modifiers.take();
}
}
/// Returns true of the window is the active window. That typically implies having the
/// keyboard focus, except when a popup is shown and temporarily takes the focus.
pub fn active(&self) -> bool {
self.pinned_fields.as_ref().project_ref().active.get()
}
/// If the component's root item is a Window element, then this function synchronizes its properties, such as the title
/// for example, with the properties known to the windowing system.
pub fn update_window_properties(&self) {
let window_adapter = self.window_adapter();
// No `if !dirty { return; }` check here because the backend window may be newly mapped and not up-to-date, so force
// an evaluation.
self.pinned_fields
.as_ref()
.project_ref()
.window_properties_tracker
.evaluate_as_dependency_root(|| {
window_adapter.update_window_properties(WindowProperties(self));
});
}
/// Calls the render_components to render the main component and any sub-window components, tracked by a
/// property dependency tracker.
/// Returns None if no component is set yet.
pub fn draw_contents<T>(
&self,
render_components: impl FnOnce(&[(&ItemTreeRc, LogicalPoint)]) -> T,
) -> Option<T> {
let component_rc = self.try_component()?;
Some(self.pinned_fields.as_ref().project_ref().redraw_tracker.evaluate_as_dependency_root(
|| {
if !self
.active_popups
.borrow()
.iter()
.any(|p| matches!(p.location, PopupWindowLocation::ChildWindow(..)))
{
render_components(&[(&component_rc, LogicalPoint::default())])
} else {
let borrow = self.active_popups.borrow();
let mut cmps = Vec::with_capacity(borrow.len() + 1);
cmps.push((&component_rc, LogicalPoint::default()));
for popup in borrow.iter() {
if let PopupWindowLocation::ChildWindow(location) = &popup.location {
cmps.push((&popup.component, *location));
}
}
render_components(&cmps)
}
},
))
}
/// Registers the window with the windowing system, in order to render the component's items and react
/// to input events once the event loop spins.
pub fn show(&self) -> Result<(), PlatformError> {
if let Some(component) = self.try_component() {
let was_visible = self.strong_component_ref.replace(Some(component)).is_some();
if !was_visible {
*(self.ctx.0.window_count.borrow_mut()) += 1;
}
}
self.update_window_properties();
self.window_adapter().set_visible(true)?;
// Make sure that the window's inner size is in sync with the root window item's
// width/height.
let size = self.window_adapter().size();
self.set_window_item_geometry(size.to_logical(self.scale_factor()).to_euclid());
self.window_adapter().renderer().resize(size).unwrap();
if let Some(hook) = self.ctx.0.window_shown_hook.borrow_mut().as_mut() {
hook(&self.window_adapter());
}
Ok(())
}
/// De-registers the window with the windowing system.
pub fn hide(&self) -> Result<(), PlatformError> {
let result = self.window_adapter().set_visible(false);
let was_visible = self.strong_component_ref.borrow_mut().take().is_some();
if was_visible {
let mut count = self.ctx.0.window_count.borrow_mut();
*count -= 1;
if *count <= 0 {
drop(count);
let _ = self.ctx.event_loop_proxy().and_then(|p| p.quit_event_loop().ok());
}
}
result
}
/// returns the color theme used
pub fn color_scheme(&self) -> ColorScheme {
self.window_adapter()
.internal(crate::InternalToken)
.map_or(ColorScheme::Unknown, |x| x.color_scheme())
}
/// Return whether the platform supports native menu bars
pub fn supports_native_menu_bar(&self) -> bool {
self.window_adapter()
.internal(crate::InternalToken)
.is_some_and(|x| x.supports_native_menu_bar())
}
/// Setup the native menu bar
pub fn setup_menubar(&self, menubar: vtable::VBox<MenuVTable>) {
if let Some(x) = self.window_adapter().internal(crate::InternalToken) {
x.setup_menubar(menubar);
}
}
/// Show a popup at the given position relative to the `parent_item` and returns its ID.
/// The returned ID will always be non-zero.
/// `is_menu` specifies whether the popup is a popup menu.
pub fn show_popup(
&self,
popup_componentrc: &ItemTreeRc,
position: LogicalPosition,
close_policy: PopupClosePolicy,
parent_item: &ItemRc,
is_menu: bool,
) -> NonZeroU32 {
let position = parent_item
.map_to_window(parent_item.geometry().origin + position.to_euclid().to_vector());
let root_of = |mut item_tree: ItemTreeRc| loop {
if ItemRc::new(item_tree.clone(), 0).downcast::<crate::items::WindowItem>().is_some() {
return item_tree;
}
let mut r = crate::item_tree::ItemWeak::default();
ItemTreeRc::borrow_pin(&item_tree).as_ref().parent_node(&mut r);
match r.upgrade() {
None => return item_tree,
Some(x) => item_tree = x.item_tree().clone(),
}
};
let parent_root_item_tree = root_of(parent_item.item_tree().clone());
let (parent_window_adapter, position) = if let Some(parent_popup) = self
.active_popups
.borrow()
.iter()
.find(|p| ItemTreeRc::ptr_eq(&p.component, &parent_root_item_tree))
{
match &parent_popup.location {
PopupWindowLocation::TopLevel(wa) => (wa.clone(), position),
PopupWindowLocation::ChildWindow(offset) => {
(self.window_adapter(), position + offset.to_vector())
}
}
} else {
(self.window_adapter(), position)
};
let popup_component = ItemTreeRc::borrow_pin(popup_componentrc);
let popup_root = popup_component.as_ref().get_item_ref(0);
let (mut w, mut h) = if let Some(window_item) =
ItemRef::downcast_pin::<crate::items::WindowItem>(popup_root)
{
(window_item.width(), window_item.height())
} else {
(LogicalLength::zero(), LogicalLength::zero())
};
let layout_info_h =
popup_component.as_ref().layout_info(crate::layout::Orientation::Horizontal);
let layout_info_v =
popup_component.as_ref().layout_info(crate::layout::Orientation::Vertical);
if w <= LogicalLength::zero() {
w = LogicalLength::new(layout_info_h.preferred);
}
if h <= LogicalLength::zero() {
h = LogicalLength::new(layout_info_v.preferred);
}
w = w.max(LogicalLength::new(layout_info_h.min)).min(LogicalLength::new(layout_info_h.max));
h = h.max(LogicalLength::new(layout_info_v.min)).min(LogicalLength::new(layout_info_v.max));
let size = crate::lengths::LogicalSize::from_lengths(w, h);
if let Some(window_item) = ItemRef::downcast_pin(popup_root) {
let width_property =
crate::items::WindowItem::FIELD_OFFSETS.width.apply_pin(window_item);
let height_property =
crate::items::WindowItem::FIELD_OFFSETS.height.apply_pin(window_item);
width_property.set(size.width_length());
height_property.set(size.height_length());
};
let popup_id = self.next_popup_id.get();
self.next_popup_id.set(self.next_popup_id.get().checked_add(1).unwrap());
let location = match parent_window_adapter
.internal(crate::InternalToken)
.and_then(|x| x.create_popup(LogicalRect::new(position, size)))
{
None => {
let clip = LogicalRect::new(
LogicalPoint::new(0.0 as crate::Coord, 0.0 as crate::Coord),
self.window_adapter().size().to_logical(self.scale_factor()).to_euclid(),
);
let rect = popup::place_popup(
popup::Placement::Fixed(LogicalRect::new(position, size)),
&Some(clip),
);
self.window_adapter().request_redraw();
PopupWindowLocation::ChildWindow(rect.origin)
}
Some(window_adapter) => {
WindowInner::from_pub(window_adapter.window()).set_component(popup_componentrc);
PopupWindowLocation::TopLevel(window_adapter)
}
};
let focus_item = self
.take_focus_item(&FocusEvent::FocusOut(FocusReason::PopupActivation))
.map(|item| item.downgrade())
.unwrap_or_default();
self.active_popups.borrow_mut().push(PopupWindow {
popup_id,
location,
component: popup_componentrc.clone(),
close_policy,
focus_item_in_parent: focus_item,
parent_item: parent_item.downgrade(),
is_menu,
});
popup_id
}
/// Attempt to show a native popup menu
///
/// context_menu_item is an instance of a ContextMenu
///
/// Returns false if the native platform doesn't support it
pub fn show_native_popup_menu(
&self,
_context_menu_item: &ItemRc,
_position: LogicalPosition,
) -> bool {
// TODO
false
}
// Close the popup associated with the given popup window.
fn close_popup_impl(&self, current_popup: &PopupWindow) {
match &current_popup.location {
PopupWindowLocation::ChildWindow(offset) => {
// Refresh the area that was previously covered by the popup.
let popup_region = crate::properties::evaluate_no_tracking(|| {
let popup_component = ItemTreeRc::borrow_pin(&current_popup.component);
popup_component.as_ref().item_geometry(0)
})
.translate(offset.to_vector());
if !popup_region.is_empty() {
let window_adapter = self.window_adapter();
window_adapter.renderer().mark_dirty_region(popup_region.into());
window_adapter.request_redraw();
}
}
PopupWindowLocation::TopLevel(adapter) => {
let _ = adapter.set_visible(false);
}
}
if let Some(focus) = current_popup.focus_item_in_parent.upgrade() {
self.set_focus_item(&focus, true, FocusReason::PopupActivation);
}
}
/// Removes the popup matching the given ID.
pub fn close_popup(&self, popup_id: NonZeroU32) {
let mut active_popups = self.active_popups.borrow_mut();
let maybe_index = active_popups.iter().position(|popup| popup.popup_id == popup_id);
if let Some(popup_index) = maybe_index {
let p = active_popups.remove(popup_index);
drop(active_popups);
self.close_popup_impl(&p);
if p.is_menu {
// close all sub-menus
while self.active_popups.borrow().get(popup_index).is_some_and(|p| p.is_menu) {
let p = self.active_popups.borrow_mut().remove(popup_index);
self.close_popup_impl(&p);
}
}
}
}
/// Close all active popups.
pub fn close_all_popups(&self) {
for popup in self.active_popups.take() {
self.close_popup_impl(&popup);
}
}
/// Close the top-most popup.
pub fn close_top_popup(&self) {
let popup = self.active_popups.borrow_mut().pop();
if let Some(popup) = popup {
self.close_popup_impl(&popup);
}
}
/// Returns the scale factor set on the window, as provided by the windowing system.
pub fn scale_factor(&self) -> f32 {
self.pinned_fields.as_ref().project_ref().scale_factor.get()
}
/// Sets the scale factor for the window. This is set by the backend or for testing.
pub(crate) fn set_scale_factor(&self, factor: f32) {
self.pinned_fields.scale_factor.set(factor)
}
/// Reads the global property `TextInputInterface.text-input-focused`
pub fn text_input_focused(&self) -> bool {
self.pinned_fields.as_ref().project_ref().text_input_focused.get()
}
/// Sets the global property `TextInputInterface.text-input-focused`
pub fn set_text_input_focused(&self, value: bool) {
self.pinned_fields.text_input_focused.set(value)
}
/// Returns true if the window is visible
pub fn is_visible(&self) -> bool {
self.strong_component_ref.borrow().is_some()
}
/// Returns the window item that is the first item in the component. When Some()
/// is returned, it's guaranteed to be safe to downcast to `WindowItem`.
pub fn window_item_rc(&self) -> Option<ItemRc> {
self.try_component().and_then(|component_rc| {
let item_rc = ItemRc::new(component_rc, 0);
if item_rc.downcast::<crate::items::WindowItem>().is_some() {
Some(item_rc)
} else {
None
}
})
}
/// Returns the window item that is the first item in the component.
pub fn window_item(&self) -> Option<VRcMapped<ItemTreeVTable, crate::items::WindowItem>> {
self.try_component().and_then(|component_rc| {
ItemRc::new(component_rc, 0).downcast::<crate::items::WindowItem>()
})
}
/// Sets the size of the window item. This method is typically called in response to receiving a
/// window resize event from the windowing system.
pub(crate) fn set_window_item_geometry(&self, size: crate::lengths::LogicalSize) {
if let Some(component_rc) = self.try_component() {
let component = ItemTreeRc::borrow_pin(&component_rc);
let root_item = component.as_ref().get_item_ref(0);
if let Some(window_item) = ItemRef::downcast_pin::<crate::items::WindowItem>(root_item)
{
window_item.width.set(size.width_length());
window_item.height.set(size.height_length());
}
}
}
/// Sets the close_requested callback. The callback will be run when the user tries to close a window.
pub fn on_close_requested(&self, mut callback: impl FnMut() -> CloseRequestResponse + 'static) {
self.close_requested.set_handler(move |()| callback());
}
/// Runs the close_requested callback.
/// If the callback returns KeepWindowShown, this function returns false. That should prevent the Window from closing.
/// Otherwise it returns true, which allows the Window to hide.
pub fn request_close(&self) -> bool {
match self.close_requested.call(&()) {
CloseRequestResponse::HideWindow => true,
CloseRequestResponse::KeepWindowShown => false,
}
}
/// Returns if the window is currently maximized
pub fn is_fullscreen(&self) -> bool {
if let Some(window_item) = self.window_item() {
window_item.as_pin_ref().full_screen()
} else {
false
}
}
/// Set or unset the window to display fullscreen.
pub fn set_fullscreen(&self, enabled: bool) {
if let Some(window_item) = self.window_item() {
window_item.as_pin_ref().full_screen.set(enabled);
self.update_window_properties()
}
}
/// Returns if the window is currently maximized
pub fn is_maximized(&self) -> bool {
self.maximized.get()
}
/// Set the window as maximized or unmaximized
pub fn set_maximized(&self, maximized: bool) {
self.maximized.set(maximized);
self.update_window_properties()
}
/// Returns if the window is currently minimized
pub fn is_minimized(&self) -> bool {
self.minimized.get()
}
/// Set the window as minimized or unminimized
pub fn set_minimized(&self, minimized: bool) {
self.minimized.set(minimized);
self.update_window_properties()
}
/// Returns the (context global) xdg app id for use with wayland and x11.
pub fn xdg_app_id(&self) -> Option<SharedString> {
self.ctx.xdg_app_id()
}
/// Returns the upgraded window adapter
pub fn window_adapter(&self) -> Rc<dyn WindowAdapter> {
self.window_adapter_weak.upgrade().unwrap()
}
/// Private access to the WindowInner for a given window.
pub fn from_pub(window: &crate::api::Window) -> &Self {
&window.0
}
/// Provides access to the Windows' Slint context.
pub fn context(&self) -> &crate::SlintContext {
&self.ctx
}
}
/// Internal alias for `Rc<dyn WindowAdapter>`.
pub type WindowAdapterRc = Rc<dyn WindowAdapter>;
/// This module contains the functions needed to interface with the event loop and window traits
/// from outside the Rust language.
#[cfg(feature = "ffi")]
pub mod ffi {
#![allow(unsafe_code)]
#![allow(clippy::missing_safety_doc)]
#![allow(missing_docs)]
use super::*;
use crate::api::{RenderingNotifier, RenderingState, SetRenderingNotifierError};
use crate::graphics::Size;
use crate::graphics::{IntSize, Rgba8Pixel};
use crate::SharedVector;
use core::ptr::NonNull;
/// This enum describes a low-level access to specific graphics APIs used
/// by the renderer.
#[repr(u8)]
pub enum GraphicsAPI {
/// The rendering is done using OpenGL.
NativeOpenGL,
/// The rendering is done using APIs inaccessible from C++, such as WGPU.
Inaccessible,
}
#[allow(non_camel_case_types)]
type c_void = ();
/// Same layout as WindowAdapterRc
#[repr(C)]
pub struct WindowAdapterRcOpaque(*const c_void, *const c_void);
/// Releases the reference to the windowrc held by handle.
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_drop(handle: *mut WindowAdapterRcOpaque) {
assert_eq!(
core::mem::size_of::<Rc<dyn WindowAdapter>>(),
core::mem::size_of::<WindowAdapterRcOpaque>()
);
assert_eq!(
core::mem::size_of::<Option<Rc<dyn WindowAdapter>>>(),
core::mem::size_of::<WindowAdapterRcOpaque>()
);
drop(core::ptr::read(handle as *mut Option<Rc<dyn WindowAdapter>>));
}
/// Releases the reference to the component window held by handle.
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_clone(
source: *const WindowAdapterRcOpaque,
target: *mut WindowAdapterRcOpaque,
) {
assert_eq!(
core::mem::size_of::<Rc<dyn WindowAdapter>>(),
core::mem::size_of::<WindowAdapterRcOpaque>()
);
let window = &*(source as *const Rc<dyn WindowAdapter>);
core::ptr::write(target as *mut Rc<dyn WindowAdapter>, window.clone());
}
/// Spins an event loop and renders the items of the provided component in this window.
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_show(handle: *const WindowAdapterRcOpaque) {
let window_adapter = &*(handle as *const Rc<dyn WindowAdapter>);
window_adapter.window().show().unwrap();
}
/// Spins an event loop and renders the items of the provided component in this window.
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_hide(handle: *const WindowAdapterRcOpaque) {
let window_adapter = &*(handle as *const Rc<dyn WindowAdapter>);
window_adapter.window().hide().unwrap();
}
/// Returns the visibility state of the window. This function can return false even if you previously called show()
/// on it, for example if the user minimized the window.
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_is_visible(
handle: *const WindowAdapterRcOpaque,
) -> bool {
let window = &*(handle as *const Rc<dyn WindowAdapter>);
window.window().is_visible()
}
/// Returns the window scale factor.
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_get_scale_factor(
handle: *const WindowAdapterRcOpaque,
) -> f32 {
assert_eq!(
core::mem::size_of::<Rc<dyn WindowAdapter>>(),
core::mem::size_of::<WindowAdapterRcOpaque>()
);
let window_adapter = &*(handle as *const Rc<dyn WindowAdapter>);
WindowInner::from_pub(window_adapter.window()).scale_factor()
}
/// Sets the window scale factor, merely for testing purposes.
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_set_scale_factor(
handle: *const WindowAdapterRcOpaque,
value: f32,
) {
let window_adapter = &*(handle as *const Rc<dyn WindowAdapter>);
WindowInner::from_pub(window_adapter.window()).set_scale_factor(value)
}
/// Returns the text-input-focused property value.
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_get_text_input_focused(
handle: *const WindowAdapterRcOpaque,
) -> bool {
assert_eq!(
core::mem::size_of::<Rc<dyn WindowAdapter>>(),
core::mem::size_of::<WindowAdapterRcOpaque>()
);
let window_adapter = &*(handle as *const Rc<dyn WindowAdapter>);
WindowInner::from_pub(window_adapter.window()).text_input_focused()
}
/// Set the text-input-focused property.
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_set_text_input_focused(
handle: *const WindowAdapterRcOpaque,
value: bool,
) {
let window_adapter = &*(handle as *const Rc<dyn WindowAdapter>);
WindowInner::from_pub(window_adapter.window()).set_text_input_focused(value)
}
/// Sets the focus item.
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_set_focus_item(
handle: *const WindowAdapterRcOpaque,
focus_item: &ItemRc,
set_focus: bool,
reason: FocusReason,
) {
let window_adapter = &*(handle as *const Rc<dyn WindowAdapter>);
WindowInner::from_pub(window_adapter.window()).set_focus_item(focus_item, set_focus, reason)
}
/// Associates the window with the given component.
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_set_component(
handle: *const WindowAdapterRcOpaque,
component: &ItemTreeRc,
) {
let window_adapter = &*(handle as *const Rc<dyn WindowAdapter>);
WindowInner::from_pub(window_adapter.window()).set_component(component)
}
/// Show a popup and return its ID. The returned ID will always be non-zero.
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_show_popup(
handle: *const WindowAdapterRcOpaque,
popup: &ItemTreeRc,
position: LogicalPosition,
close_policy: PopupClosePolicy,
parent_item: &ItemRc,
is_menu: bool,
) -> NonZeroU32 {
let window_adapter = &*(handle as *const Rc<dyn WindowAdapter>);
WindowInner::from_pub(window_adapter.window()).show_popup(
popup,
position,
close_policy,
parent_item,
is_menu,
)
}
/// Close the popup by the given ID.
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_close_popup(
handle: *const WindowAdapterRcOpaque,
popup_id: NonZeroU32,
) {
let window_adapter = &*(handle as *const Rc<dyn WindowAdapter>);
WindowInner::from_pub(window_adapter.window()).close_popup(popup_id);
}
/// C binding to the set_rendering_notifier() API of Window
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_set_rendering_notifier(
handle: *const WindowAdapterRcOpaque,
callback: extern "C" fn(
rendering_state: RenderingState,
graphics_api: GraphicsAPI,
user_data: *mut c_void,
),
drop_user_data: extern "C" fn(user_data: *mut c_void),
user_data: *mut c_void,
error: *mut SetRenderingNotifierError,
) -> bool {
struct CNotifier {
callback: extern "C" fn(
rendering_state: RenderingState,
graphics_api: GraphicsAPI,
user_data: *mut c_void,
),
drop_user_data: extern "C" fn(*mut c_void),
user_data: *mut c_void,
}
impl Drop for CNotifier {
fn drop(&mut self) {
(self.drop_user_data)(self.user_data)
}
}
impl RenderingNotifier for CNotifier {
fn notify(&mut self, state: RenderingState, graphics_api: &crate::api::GraphicsAPI) {
let cpp_graphics_api = match graphics_api {
crate::api::GraphicsAPI::NativeOpenGL { .. } => GraphicsAPI::NativeOpenGL,
crate::api::GraphicsAPI::WebGL { .. } => unreachable!(), // We don't support wasm with C++
#[cfg(feature = "unstable-wgpu-24")]
crate::api::GraphicsAPI::WGPU24 { .. } => GraphicsAPI::Inaccessible, // There is no C++ API for wgpu (maybe wgpu c in the future?)
};
(self.callback)(state, cpp_graphics_api, self.user_data)
}
}
let window = &*(handle as *const Rc<dyn WindowAdapter>);
match window.renderer().set_rendering_notifier(Box::new(CNotifier {
callback,
drop_user_data,
user_data,
})) {
Ok(()) => true,
Err(err) => {
*error = err;
false
}
}
}
/// C binding to the on_close_requested() API of Window
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_on_close_requested(
handle: *const WindowAdapterRcOpaque,
callback: extern "C" fn(user_data: *mut c_void) -> CloseRequestResponse,
drop_user_data: extern "C" fn(user_data: *mut c_void),
user_data: *mut c_void,
) {
struct WithUserData {
callback: extern "C" fn(user_data: *mut c_void) -> CloseRequestResponse,
drop_user_data: extern "C" fn(*mut c_void),
user_data: *mut c_void,
}
impl Drop for WithUserData {
fn drop(&mut self) {
(self.drop_user_data)(self.user_data)
}
}
impl WithUserData {
fn call(&self) -> CloseRequestResponse {
(self.callback)(self.user_data)
}
}
let with_user_data = WithUserData { callback, drop_user_data, user_data };
let window_adapter = &*(handle as *const Rc<dyn WindowAdapter>);
window_adapter.window().on_close_requested(move || with_user_data.call());
}
/// This function issues a request to the windowing system to redraw the contents of the window.
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_request_redraw(handle: *const WindowAdapterRcOpaque) {
let window_adapter = &*(handle as *const Rc<dyn WindowAdapter>);
window_adapter.request_redraw();
}
/// Returns the position of the window on the screen, in physical screen coordinates and including
/// a window frame (if present).
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_position(
handle: *const WindowAdapterRcOpaque,
pos: &mut euclid::default::Point2D<i32>,
) {
let window_adapter = &*(handle as *const Rc<dyn WindowAdapter>);
*pos = window_adapter.position().unwrap_or_default().to_euclid()
}
/// Sets the position of the window on the screen, in physical screen coordinates and including
/// a window frame (if present).
/// Note that on some windowing systems, such as Wayland, this functionality is not available.
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_set_physical_position(
handle: *const WindowAdapterRcOpaque,
pos: &euclid::default::Point2D<i32>,
) {
let window_adapter = &*(handle as *const Rc<dyn WindowAdapter>);
window_adapter.set_position(crate::api::PhysicalPosition::new(pos.x, pos.y).into());
}
/// Sets the position of the window on the screen, in physical screen coordinates and including
/// a window frame (if present).
/// Note that on some windowing systems, such as Wayland, this functionality is not available.
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_set_logical_position(
handle: *const WindowAdapterRcOpaque,
pos: &euclid::default::Point2D<f32>,
) {
let window_adapter = &*(handle as *const Rc<dyn WindowAdapter>);
window_adapter.set_position(LogicalPosition::new(pos.x, pos.y).into());
}
/// Returns the size of the window on the screen, in physical screen coordinates and excluding
/// a window frame (if present).
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_size(handle: *const WindowAdapterRcOpaque) -> IntSize {
let window_adapter = &*(handle as *const Rc<dyn WindowAdapter>);
window_adapter.size().to_euclid().cast()
}
/// Resizes the window to the specified size on the screen, in physical pixels and excluding
/// a window frame (if present).
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_set_physical_size(
handle: *const WindowAdapterRcOpaque,
size: &IntSize,
) {
let window_adapter = &*(handle as *const Rc<dyn WindowAdapter>);
window_adapter.window().set_size(crate::api::PhysicalSize::new(size.width, size.height));
}
/// Resizes the window to the specified size on the screen, in physical pixels and excluding
/// a window frame (if present).
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_set_logical_size(
handle: *const WindowAdapterRcOpaque,
size: &Size,
) {
let window_adapter = &*(handle as *const Rc<dyn WindowAdapter>);
window_adapter.window().set_size(crate::api::LogicalSize::new(size.width, size.height));
}
/// Return whether the style is using a dark theme
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_color_scheme(
handle: *const WindowAdapterRcOpaque,
) -> ColorScheme {
let window_adapter = &*(handle as *const Rc<dyn WindowAdapter>);
window_adapter
.internal(crate::InternalToken)
.map_or(ColorScheme::Unknown, |x| x.color_scheme())
}
/// Return whether the platform supports native menu bars
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_supports_native_menu_bar(
handle: *const WindowAdapterRcOpaque,
) -> bool {
let window_adapter = &*(handle as *const Rc<dyn WindowAdapter>);
window_adapter.internal(crate::InternalToken).is_some_and(|x| x.supports_native_menu_bar())
}
/// Setup the native menu bar
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_setup_native_menu_bar(
handle: *const WindowAdapterRcOpaque,
vtable: NonNull<MenuVTable>,
menu_instance: NonNull<c_void>,
) {
let window_adapter = &*(handle as *const Rc<dyn WindowAdapter>);
window_adapter
.internal(crate::InternalToken)
.map(|x| x.setup_menubar(vtable::VBox::from_raw(vtable, menu_instance.cast())));
}
/// Return the default-font-size property of the WindowItem
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_default_font_size(
handle: *const WindowAdapterRcOpaque,
) -> f32 {
let window_adapter = &*(handle as *const Rc<dyn WindowAdapter>);
window_adapter.window().0.window_item().unwrap().as_pin_ref().default_font_size().get()
}
/// Dispatch a key pressed or release event
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_dispatch_key_event(
handle: *const WindowAdapterRcOpaque,
event_type: crate::input::KeyEventType,
text: &SharedString,
repeat: bool,
) {
let window_adapter = &*(handle as *const Rc<dyn WindowAdapter>);
window_adapter.window().0.process_key_input(crate::items::KeyEvent {
text: text.clone(),
repeat,
event_type,
..Default::default()
});
}
/// Dispatch a mouse event
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_dispatch_pointer_event(
handle: *const WindowAdapterRcOpaque,
event: &crate::input::MouseEvent,
) {
let window_adapter = &*(handle as *const Rc<dyn WindowAdapter>);
window_adapter.window().0.process_mouse_input(event.clone());
}
/// Dispatch a window event
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_dispatch_event(
handle: *const WindowAdapterRcOpaque,
event: &crate::platform::WindowEvent,
) {
let window_adapter = &*(handle as *const Rc<dyn WindowAdapter>);
window_adapter.window().dispatch_event(event.clone());
}
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_is_fullscreen(
handle: *const WindowAdapterRcOpaque,
) -> bool {
let window_adapter = &*(handle as *const Rc<dyn WindowAdapter>);
window_adapter.window().is_fullscreen()
}
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_is_minimized(
handle: *const WindowAdapterRcOpaque,
) -> bool {
let window_adapter = &*(handle as *const Rc<dyn WindowAdapter>);
window_adapter.window().is_minimized()
}
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_is_maximized(
handle: *const WindowAdapterRcOpaque,
) -> bool {
let window_adapter = &*(handle as *const Rc<dyn WindowAdapter>);
window_adapter.window().is_maximized()
}
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_set_fullscreen(
handle: *const WindowAdapterRcOpaque,
value: bool,
) {
let window_adapter = &*(handle as *const Rc<dyn WindowAdapter>);
window_adapter.window().set_fullscreen(value)
}
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_set_minimized(
handle: *const WindowAdapterRcOpaque,
value: bool,
) {
let window_adapter = &*(handle as *const Rc<dyn WindowAdapter>);
window_adapter.window().set_minimized(value)
}
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_set_maximized(
handle: *const WindowAdapterRcOpaque,
value: bool,
) {
let window_adapter = &*(handle as *const Rc<dyn WindowAdapter>);
window_adapter.window().set_maximized(value)
}
/// Takes a snapshot of the window contents and returns it as RGBA8 encoded pixel buffer.
#[unsafe(no_mangle)]
pub unsafe extern "C" fn slint_windowrc_take_snapshot(
handle: *const WindowAdapterRcOpaque,
data: &mut SharedVector<Rgba8Pixel>,
width: &mut u32,
height: &mut u32,
) -> bool {
let window_adapter = &*(handle as *const Rc<dyn WindowAdapter>);
if let Ok(snapshot) = window_adapter.window().take_snapshot() {
*data = snapshot.data.clone();
*width = snapshot.width();
*height = snapshot.height();
true
} else {
false
}
}
}
#[cfg(feature = "software-renderer")]
#[test]
fn test_empty_window() {
// Test that when creating an empty window without a component, we don't panic when render() is called.
// This isn't typically done intentionally, but for example if we receive a paint event in Qt before a component
// is set, this may happen. Concretely as per #2799 this could happen with popups where the call to
// QWidget::show() with egl delivers an immediate paint event, before we've had a chance to call set_component.
// Let's emulate this scenario here using public platform API.
let msw = crate::software_renderer::MinimalSoftwareWindow::new(
crate::software_renderer::RepaintBufferType::NewBuffer,
);
msw.window().request_redraw();
let mut region = None;
let render_called = msw.draw_if_needed(|renderer| {
let mut buffer =
crate::graphics::SharedPixelBuffer::<crate::graphics::Rgb8Pixel>::new(100, 100);
let stride = buffer.width() as usize;
region = Some(renderer.render(buffer.make_mut_slice(), stride));
});
assert!(render_called);
let region = region.unwrap();
assert_eq!(region.bounding_box_size(), PhysicalSize::default());
assert_eq!(region.bounding_box_origin(), PhysicalPosition::default());
}
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