1mod app_menu;
2mod keyboard;
3mod keystroke;
4
5#[cfg(any(target_os = "linux", target_os = "freebsd"))]
6mod linux;
7
8#[cfg(target_os = "macos")]
9mod mac;
10
11#[cfg(any(
12 all(
13 any(target_os = "linux", target_os = "freebsd"),
14 any(feature = "x11", feature = "wayland")
15 ),
16 all(target_os = "macos", feature = "macos-blade")
17))]
18mod blade;
19
20#[cfg(any(test, feature = "test-support"))]
21mod test;
22
23#[cfg(target_os = "windows")]
24mod windows;
25
26#[cfg(all(
27 feature = "screen-capture",
28 any(
29 target_os = "windows",
30 all(
31 any(target_os = "linux", target_os = "freebsd"),
32 any(feature = "wayland", feature = "x11"),
33 )
34 )
35))]
36pub(crate) mod scap_screen_capture;
37
38use crate::{
39 Action, AnyWindowHandle, App, AsyncWindowContext, BackgroundExecutor, Bounds,
40 DEFAULT_WINDOW_SIZE, DevicePixels, DispatchEventResult, Font, FontId, FontMetrics, FontRun,
41 ForegroundExecutor, GlyphId, GpuSpecs, ImageSource, Keymap, LineLayout, Pixels, PlatformInput,
42 Point, RenderGlyphParams, RenderImage, RenderImageParams, RenderSvgParams, Scene, ShapedGlyph,
43 ShapedRun, SharedString, Size, SvgRenderer, SystemWindowTab, Task, TaskLabel, TaskTiming,
44 ThreadTaskTimings, Window, WindowControlArea, hash, point, px, size,
45};
46use anyhow::Result;
47use async_task::Runnable;
48use futures::channel::oneshot;
49use image::codecs::gif::GifDecoder;
50use image::{AnimationDecoder as _, Frame};
51use raw_window_handle::{HasDisplayHandle, HasWindowHandle};
52use schemars::JsonSchema;
53use seahash::SeaHasher;
54use serde::{Deserialize, Serialize};
55use smallvec::SmallVec;
56use std::borrow::Cow;
57use std::hash::{Hash, Hasher};
58use std::io::Cursor;
59use std::ops;
60use std::time::{Duration, Instant};
61use std::{
62 fmt::{self, Debug},
63 ops::Range,
64 path::{Path, PathBuf},
65 rc::Rc,
66 sync::Arc,
67};
68use strum::EnumIter;
69use uuid::Uuid;
70
71pub use app_menu::*;
72pub use keyboard::*;
73pub use keystroke::*;
74
75#[cfg(any(target_os = "linux", target_os = "freebsd"))]
76pub(crate) use linux::*;
77#[cfg(target_os = "macos")]
78pub(crate) use mac::*;
79pub use semantic_version::SemanticVersion;
80#[cfg(any(test, feature = "test-support"))]
81pub(crate) use test::*;
82#[cfg(target_os = "windows")]
83pub(crate) use windows::*;
84
85#[cfg(all(target_os = "linux", feature = "wayland"))]
86pub use linux::layer_shell;
87
88#[cfg(any(test, feature = "test-support"))]
89pub use test::{TestDispatcher, TestScreenCaptureSource, TestScreenCaptureStream};
90
91/// Returns a background executor for the current platform.
92pub fn background_executor() -> BackgroundExecutor {
93 current_platform(true).background_executor()
94}
95
96#[cfg(target_os = "macos")]
97pub(crate) fn current_platform(headless: bool) -> Rc<dyn Platform> {
98 Rc::new(MacPlatform::new(headless))
99}
100
101#[cfg(any(target_os = "linux", target_os = "freebsd"))]
102pub(crate) fn current_platform(headless: bool) -> Rc<dyn Platform> {
103 #[cfg(feature = "x11")]
104 use anyhow::Context as _;
105
106 if headless {
107 return Rc::new(HeadlessClient::new());
108 }
109
110 match guess_compositor() {
111 #[cfg(feature = "wayland")]
112 "Wayland" => Rc::new(WaylandClient::new()),
113
114 #[cfg(feature = "x11")]
115 "X11" => Rc::new(
116 X11Client::new()
117 .context("Failed to initialize X11 client.")
118 .unwrap(),
119 ),
120
121 "Headless" => Rc::new(HeadlessClient::new()),
122 _ => unreachable!(),
123 }
124}
125
126#[cfg(target_os = "windows")]
127pub(crate) fn current_platform(_headless: bool) -> Rc<dyn Platform> {
128 Rc::new(
129 WindowsPlatform::new()
130 .inspect_err(|err| show_error("Failed to launch", err.to_string()))
131 .unwrap(),
132 )
133}
134
135/// Return which compositor we're guessing we'll use.
136/// Does not attempt to connect to the given compositor
137#[cfg(any(target_os = "linux", target_os = "freebsd"))]
138#[inline]
139pub fn guess_compositor() -> &'static str {
140 if std::env::var_os("ZED_HEADLESS").is_some() {
141 return "Headless";
142 }
143
144 #[cfg(feature = "wayland")]
145 let wayland_display = std::env::var_os("WAYLAND_DISPLAY");
146 #[cfg(not(feature = "wayland"))]
147 let wayland_display: Option<std::ffi::OsString> = None;
148
149 #[cfg(feature = "x11")]
150 let x11_display = std::env::var_os("DISPLAY");
151 #[cfg(not(feature = "x11"))]
152 let x11_display: Option<std::ffi::OsString> = None;
153
154 let use_wayland = wayland_display.is_some_and(|display| !display.is_empty());
155 let use_x11 = x11_display.is_some_and(|display| !display.is_empty());
156
157 if use_wayland {
158 "Wayland"
159 } else if use_x11 {
160 "X11"
161 } else {
162 "Headless"
163 }
164}
165
166pub(crate) trait Platform: 'static {
167 fn background_executor(&self) -> BackgroundExecutor;
168 fn foreground_executor(&self) -> ForegroundExecutor;
169 fn text_system(&self) -> Arc<dyn PlatformTextSystem>;
170
171 fn run(&self, on_finish_launching: Box<dyn 'static + FnOnce()>);
172 fn quit(&self);
173 fn restart(&self, binary_path: Option<PathBuf>);
174 fn activate(&self, ignoring_other_apps: bool);
175 fn hide(&self);
176 fn hide_other_apps(&self);
177 fn unhide_other_apps(&self);
178
179 fn displays(&self) -> Vec<Rc<dyn PlatformDisplay>>;
180 fn primary_display(&self) -> Option<Rc<dyn PlatformDisplay>>;
181 fn active_window(&self) -> Option<AnyWindowHandle>;
182 fn window_stack(&self) -> Option<Vec<AnyWindowHandle>> {
183 None
184 }
185
186 #[cfg(feature = "screen-capture")]
187 fn is_screen_capture_supported(&self) -> bool;
188 #[cfg(not(feature = "screen-capture"))]
189 fn is_screen_capture_supported(&self) -> bool {
190 false
191 }
192 #[cfg(feature = "screen-capture")]
193 fn screen_capture_sources(&self)
194 -> oneshot::Receiver<Result<Vec<Rc<dyn ScreenCaptureSource>>>>;
195 #[cfg(not(feature = "screen-capture"))]
196 fn screen_capture_sources(
197 &self,
198 ) -> oneshot::Receiver<anyhow::Result<Vec<Rc<dyn ScreenCaptureSource>>>> {
199 let (sources_tx, sources_rx) = oneshot::channel();
200 sources_tx
201 .send(Err(anyhow::anyhow!(
202 "gpui was compiled without the screen-capture feature"
203 )))
204 .ok();
205 sources_rx
206 }
207
208 fn open_window(
209 &self,
210 handle: AnyWindowHandle,
211 options: WindowParams,
212 ) -> anyhow::Result<Box<dyn PlatformWindow>>;
213
214 /// Returns the appearance of the application's windows.
215 fn window_appearance(&self) -> WindowAppearance;
216
217 fn open_url(&self, url: &str);
218 fn on_open_urls(&self, callback: Box<dyn FnMut(Vec<String>)>);
219 fn register_url_scheme(&self, url: &str) -> Task<Result<()>>;
220
221 fn prompt_for_paths(
222 &self,
223 options: PathPromptOptions,
224 ) -> oneshot::Receiver<Result<Option<Vec<PathBuf>>>>;
225 fn prompt_for_new_path(
226 &self,
227 directory: &Path,
228 suggested_name: Option<&str>,
229 ) -> oneshot::Receiver<Result<Option<PathBuf>>>;
230 fn can_select_mixed_files_and_dirs(&self) -> bool;
231 fn reveal_path(&self, path: &Path);
232 fn open_with_system(&self, path: &Path);
233
234 fn on_quit(&self, callback: Box<dyn FnMut()>);
235 fn on_reopen(&self, callback: Box<dyn FnMut()>);
236
237 fn set_menus(&self, menus: Vec<Menu>, keymap: &Keymap);
238 fn get_menus(&self) -> Option<Vec<OwnedMenu>> {
239 None
240 }
241
242 fn set_dock_menu(&self, menu: Vec<MenuItem>, keymap: &Keymap);
243 fn perform_dock_menu_action(&self, _action: usize) {}
244 fn add_recent_document(&self, _path: &Path) {}
245 fn update_jump_list(
246 &self,
247 _menus: Vec<MenuItem>,
248 _entries: Vec<SmallVec<[PathBuf; 2]>>,
249 ) -> Vec<SmallVec<[PathBuf; 2]>> {
250 Vec::new()
251 }
252 fn on_app_menu_action(&self, callback: Box<dyn FnMut(&dyn Action)>);
253 fn on_will_open_app_menu(&self, callback: Box<dyn FnMut()>);
254 fn on_validate_app_menu_command(&self, callback: Box<dyn FnMut(&dyn Action) -> bool>);
255
256 fn compositor_name(&self) -> &'static str {
257 ""
258 }
259 fn app_path(&self) -> Result<PathBuf>;
260 fn path_for_auxiliary_executable(&self, name: &str) -> Result<PathBuf>;
261
262 fn set_cursor_style(&self, style: CursorStyle);
263 fn should_auto_hide_scrollbars(&self) -> bool;
264
265 #[cfg(any(target_os = "linux", target_os = "freebsd"))]
266 fn write_to_primary(&self, item: ClipboardItem);
267 fn write_to_clipboard(&self, item: ClipboardItem);
268 #[cfg(any(target_os = "linux", target_os = "freebsd"))]
269 fn read_from_primary(&self) -> Option<ClipboardItem>;
270 fn read_from_clipboard(&self) -> Option<ClipboardItem>;
271
272 fn write_credentials(&self, url: &str, username: &str, password: &[u8]) -> Task<Result<()>>;
273 fn read_credentials(&self, url: &str) -> Task<Result<Option<(String, Vec<u8>)>>>;
274 fn delete_credentials(&self, url: &str) -> Task<Result<()>>;
275
276 fn keyboard_layout(&self) -> Box<dyn PlatformKeyboardLayout>;
277 fn keyboard_mapper(&self) -> Rc<dyn PlatformKeyboardMapper>;
278 fn on_keyboard_layout_change(&self, callback: Box<dyn FnMut()>);
279}
280
281/// A handle to a platform's display, e.g. a monitor or laptop screen.
282pub trait PlatformDisplay: Send + Sync + Debug {
283 /// Get the ID for this display
284 fn id(&self) -> DisplayId;
285
286 /// Returns a stable identifier for this display that can be persisted and used
287 /// across system restarts.
288 fn uuid(&self) -> Result<Uuid>;
289
290 /// Get the bounds for this display
291 fn bounds(&self) -> Bounds<Pixels>;
292
293 /// Get the default bounds for this display to place a window
294 fn default_bounds(&self) -> Bounds<Pixels> {
295 let bounds = self.bounds();
296 let center = bounds.center();
297 let clipped_window_size = DEFAULT_WINDOW_SIZE.min(&bounds.size);
298
299 let offset = clipped_window_size / 2.0;
300 let origin = point(center.x - offset.width, center.y - offset.height);
301 Bounds::new(origin, clipped_window_size)
302 }
303}
304
305/// Metadata for a given [ScreenCaptureSource]
306#[derive(Clone)]
307pub struct SourceMetadata {
308 /// Opaque identifier of this screen.
309 pub id: u64,
310 /// Human-readable label for this source.
311 pub label: Option<SharedString>,
312 /// Whether this source is the main display.
313 pub is_main: Option<bool>,
314 /// Video resolution of this source.
315 pub resolution: Size<DevicePixels>,
316}
317
318/// A source of on-screen video content that can be captured.
319pub trait ScreenCaptureSource {
320 /// Returns metadata for this source.
321 fn metadata(&self) -> Result<SourceMetadata>;
322
323 /// Start capture video from this source, invoking the given callback
324 /// with each frame.
325 fn stream(
326 &self,
327 foreground_executor: &ForegroundExecutor,
328 frame_callback: Box<dyn Fn(ScreenCaptureFrame) + Send>,
329 ) -> oneshot::Receiver<Result<Box<dyn ScreenCaptureStream>>>;
330}
331
332/// A video stream captured from a screen.
333pub trait ScreenCaptureStream {
334 /// Returns metadata for this source.
335 fn metadata(&self) -> Result<SourceMetadata>;
336}
337
338/// A frame of video captured from a screen.
339pub struct ScreenCaptureFrame(pub PlatformScreenCaptureFrame);
340
341/// An opaque identifier for a hardware display
342#[derive(PartialEq, Eq, Hash, Copy, Clone)]
343pub struct DisplayId(pub(crate) u32);
344
345impl From<DisplayId> for u32 {
346 fn from(id: DisplayId) -> Self {
347 id.0
348 }
349}
350
351impl Debug for DisplayId {
352 fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
353 write!(f, "DisplayId({})", self.0)
354 }
355}
356
357/// Which part of the window to resize
358#[derive(Debug, Clone, Copy, PartialEq, Eq)]
359pub enum ResizeEdge {
360 /// The top edge
361 Top,
362 /// The top right corner
363 TopRight,
364 /// The right edge
365 Right,
366 /// The bottom right corner
367 BottomRight,
368 /// The bottom edge
369 Bottom,
370 /// The bottom left corner
371 BottomLeft,
372 /// The left edge
373 Left,
374 /// The top left corner
375 TopLeft,
376}
377
378/// A type to describe the appearance of a window
379#[derive(Debug, Copy, Clone, Eq, PartialEq, Hash, Default)]
380pub enum WindowDecorations {
381 #[default]
382 /// Server side decorations
383 Server,
384 /// Client side decorations
385 Client,
386}
387
388/// A type to describe how this window is currently configured
389#[derive(Debug, Copy, Clone, Eq, PartialEq, Hash, Default)]
390pub enum Decorations {
391 /// The window is configured to use server side decorations
392 #[default]
393 Server,
394 /// The window is configured to use client side decorations
395 Client {
396 /// The edge tiling state
397 tiling: Tiling,
398 },
399}
400
401/// What window controls this platform supports
402#[derive(Debug, Copy, Clone, Eq, PartialEq, Hash)]
403pub struct WindowControls {
404 /// Whether this platform supports fullscreen
405 pub fullscreen: bool,
406 /// Whether this platform supports maximize
407 pub maximize: bool,
408 /// Whether this platform supports minimize
409 pub minimize: bool,
410 /// Whether this platform supports a window menu
411 pub window_menu: bool,
412}
413
414impl Default for WindowControls {
415 fn default() -> Self {
416 // Assume that we can do anything, unless told otherwise
417 Self {
418 fullscreen: true,
419 maximize: true,
420 minimize: true,
421 window_menu: true,
422 }
423 }
424}
425
426/// A type to describe which sides of the window are currently tiled in some way
427#[derive(Debug, Copy, Clone, Eq, PartialEq, Hash, Default)]
428pub struct Tiling {
429 /// Whether the top edge is tiled
430 pub top: bool,
431 /// Whether the left edge is tiled
432 pub left: bool,
433 /// Whether the right edge is tiled
434 pub right: bool,
435 /// Whether the bottom edge is tiled
436 pub bottom: bool,
437}
438
439impl Tiling {
440 /// Initializes a [`Tiling`] type with all sides tiled
441 pub fn tiled() -> Self {
442 Self {
443 top: true,
444 left: true,
445 right: true,
446 bottom: true,
447 }
448 }
449
450 /// Whether any edge is tiled
451 pub fn is_tiled(&self) -> bool {
452 self.top || self.left || self.right || self.bottom
453 }
454}
455
456#[derive(Debug, Copy, Clone, Eq, PartialEq, Default)]
457pub(crate) struct RequestFrameOptions {
458 pub(crate) require_presentation: bool,
459 /// Force refresh of all rendering states when true
460 pub(crate) force_render: bool,
461}
462
463pub(crate) trait PlatformWindow: HasWindowHandle + HasDisplayHandle {
464 fn bounds(&self) -> Bounds<Pixels>;
465 fn is_maximized(&self) -> bool;
466 fn window_bounds(&self) -> WindowBounds;
467 fn content_size(&self) -> Size<Pixels>;
468 fn resize(&mut self, size: Size<Pixels>);
469 fn scale_factor(&self) -> f32;
470 fn appearance(&self) -> WindowAppearance;
471 fn display(&self) -> Option<Rc<dyn PlatformDisplay>>;
472 fn mouse_position(&self) -> Point<Pixels>;
473 fn modifiers(&self) -> Modifiers;
474 fn capslock(&self) -> Capslock;
475 fn set_input_handler(&mut self, input_handler: PlatformInputHandler);
476 fn take_input_handler(&mut self) -> Option<PlatformInputHandler>;
477 fn prompt(
478 &self,
479 level: PromptLevel,
480 msg: &str,
481 detail: Option<&str>,
482 answers: &[PromptButton],
483 ) -> Option<oneshot::Receiver<usize>>;
484 fn activate(&self);
485 fn is_active(&self) -> bool;
486 fn is_hovered(&self) -> bool;
487 fn set_title(&mut self, title: &str);
488 fn set_background_appearance(&self, background_appearance: WindowBackgroundAppearance);
489 fn minimize(&self);
490 fn zoom(&self);
491 fn toggle_fullscreen(&self);
492 fn is_fullscreen(&self) -> bool;
493 fn on_request_frame(&self, callback: Box<dyn FnMut(RequestFrameOptions)>);
494 fn on_input(&self, callback: Box<dyn FnMut(PlatformInput) -> DispatchEventResult>);
495 fn on_active_status_change(&self, callback: Box<dyn FnMut(bool)>);
496 fn on_hover_status_change(&self, callback: Box<dyn FnMut(bool)>);
497 fn on_resize(&self, callback: Box<dyn FnMut(Size<Pixels>, f32)>);
498 fn on_moved(&self, callback: Box<dyn FnMut()>);
499 fn on_should_close(&self, callback: Box<dyn FnMut() -> bool>);
500 fn on_hit_test_window_control(&self, callback: Box<dyn FnMut() -> Option<WindowControlArea>>);
501 fn on_close(&self, callback: Box<dyn FnOnce()>);
502 fn on_appearance_changed(&self, callback: Box<dyn FnMut()>);
503 fn draw(&self, scene: &Scene);
504 fn completed_frame(&self) {}
505 fn sprite_atlas(&self) -> Arc<dyn PlatformAtlas>;
506
507 // macOS specific methods
508 fn get_title(&self) -> String {
509 String::new()
510 }
511 fn tabbed_windows(&self) -> Option<Vec<SystemWindowTab>> {
512 None
513 }
514 fn tab_bar_visible(&self) -> bool {
515 false
516 }
517 fn set_edited(&mut self, _edited: bool) {}
518 fn show_character_palette(&self) {}
519 fn titlebar_double_click(&self) {}
520 fn on_move_tab_to_new_window(&self, _callback: Box<dyn FnMut()>) {}
521 fn on_merge_all_windows(&self, _callback: Box<dyn FnMut()>) {}
522 fn on_select_previous_tab(&self, _callback: Box<dyn FnMut()>) {}
523 fn on_select_next_tab(&self, _callback: Box<dyn FnMut()>) {}
524 fn on_toggle_tab_bar(&self, _callback: Box<dyn FnMut()>) {}
525 fn merge_all_windows(&self) {}
526 fn move_tab_to_new_window(&self) {}
527 fn toggle_window_tab_overview(&self) {}
528 fn set_tabbing_identifier(&self, _identifier: Option<String>) {}
529
530 #[cfg(target_os = "windows")]
531 fn get_raw_handle(&self) -> windows::HWND;
532
533 // Linux specific methods
534 fn inner_window_bounds(&self) -> WindowBounds {
535 self.window_bounds()
536 }
537 fn request_decorations(&self, _decorations: WindowDecorations) {}
538 fn show_window_menu(&self, _position: Point<Pixels>) {}
539 fn start_window_move(&self) {}
540 fn start_window_resize(&self, _edge: ResizeEdge) {}
541 fn window_decorations(&self) -> Decorations {
542 Decorations::Server
543 }
544 fn set_app_id(&mut self, _app_id: &str) {}
545 fn map_window(&mut self) -> anyhow::Result<()> {
546 Ok(())
547 }
548 fn window_controls(&self) -> WindowControls {
549 WindowControls::default()
550 }
551 fn set_client_inset(&self, _inset: Pixels) {}
552 fn gpu_specs(&self) -> Option<GpuSpecs>;
553
554 fn update_ime_position(&self, _bounds: Bounds<Pixels>);
555
556 #[cfg(any(test, feature = "test-support"))]
557 fn as_test(&mut self) -> Option<&mut TestWindow> {
558 None
559 }
560}
561
562/// This type is public so that our test macro can generate and use it, but it should not
563/// be considered part of our public API.
564#[doc(hidden)]
565#[derive(Debug)]
566pub struct RunnableMeta {
567 /// Location of the runnable
568 pub location: &'static core::panic::Location<'static>,
569}
570
571#[doc(hidden)]
572pub enum RunnableVariant {
573 Meta(Runnable<RunnableMeta>),
574 Compat(Runnable),
575}
576
577/// This type is public so that our test macro can generate and use it, but it should not
578/// be considered part of our public API.
579#[doc(hidden)]
580pub trait PlatformDispatcher: Send + Sync {
581 fn get_all_timings(&self) -> Vec<ThreadTaskTimings>;
582 fn get_current_thread_timings(&self) -> Vec<TaskTiming>;
583 fn is_main_thread(&self) -> bool;
584 fn dispatch(&self, runnable: RunnableVariant, label: Option<TaskLabel>);
585 fn dispatch_on_main_thread(&self, runnable: RunnableVariant);
586 fn dispatch_after(&self, duration: Duration, runnable: RunnableVariant);
587
588 fn now(&self) -> Instant {
589 Instant::now()
590 }
591
592 #[cfg(any(test, feature = "test-support"))]
593 fn as_test(&self) -> Option<&TestDispatcher> {
594 None
595 }
596}
597
598pub(crate) trait PlatformTextSystem: Send + Sync {
599 fn add_fonts(&self, fonts: Vec<Cow<'static, [u8]>>) -> Result<()>;
600 fn all_font_names(&self) -> Vec<String>;
601 fn font_id(&self, descriptor: &Font) -> Result<FontId>;
602 fn font_metrics(&self, font_id: FontId) -> FontMetrics;
603 fn typographic_bounds(&self, font_id: FontId, glyph_id: GlyphId) -> Result<Bounds<f32>>;
604 fn advance(&self, font_id: FontId, glyph_id: GlyphId) -> Result<Size<f32>>;
605 fn glyph_for_char(&self, font_id: FontId, ch: char) -> Option<GlyphId>;
606 fn glyph_raster_bounds(&self, params: &RenderGlyphParams) -> Result<Bounds<DevicePixels>>;
607 fn rasterize_glyph(
608 &self,
609 params: &RenderGlyphParams,
610 raster_bounds: Bounds<DevicePixels>,
611 ) -> Result<(Size<DevicePixels>, Vec<u8>)>;
612 fn layout_line(&self, text: &str, font_size: Pixels, runs: &[FontRun]) -> LineLayout;
613}
614
615pub(crate) struct NoopTextSystem;
616
617impl NoopTextSystem {
618 #[allow(dead_code)]
619 pub fn new() -> Self {
620 Self
621 }
622}
623
624impl PlatformTextSystem for NoopTextSystem {
625 fn add_fonts(&self, _fonts: Vec<Cow<'static, [u8]>>) -> Result<()> {
626 Ok(())
627 }
628
629 fn all_font_names(&self) -> Vec<String> {
630 Vec::new()
631 }
632
633 fn font_id(&self, _descriptor: &Font) -> Result<FontId> {
634 Ok(FontId(1))
635 }
636
637 fn font_metrics(&self, _font_id: FontId) -> FontMetrics {
638 FontMetrics {
639 units_per_em: 1000,
640 ascent: 1025.0,
641 descent: -275.0,
642 line_gap: 0.0,
643 underline_position: -95.0,
644 underline_thickness: 60.0,
645 cap_height: 698.0,
646 x_height: 516.0,
647 bounding_box: Bounds {
648 origin: Point {
649 x: -260.0,
650 y: -245.0,
651 },
652 size: Size {
653 width: 1501.0,
654 height: 1364.0,
655 },
656 },
657 }
658 }
659
660 fn typographic_bounds(&self, _font_id: FontId, _glyph_id: GlyphId) -> Result<Bounds<f32>> {
661 Ok(Bounds {
662 origin: Point { x: 54.0, y: 0.0 },
663 size: size(392.0, 528.0),
664 })
665 }
666
667 fn advance(&self, _font_id: FontId, glyph_id: GlyphId) -> Result<Size<f32>> {
668 Ok(size(600.0 * glyph_id.0 as f32, 0.0))
669 }
670
671 fn glyph_for_char(&self, _font_id: FontId, ch: char) -> Option<GlyphId> {
672 Some(GlyphId(ch.len_utf16() as u32))
673 }
674
675 fn glyph_raster_bounds(&self, _params: &RenderGlyphParams) -> Result<Bounds<DevicePixels>> {
676 Ok(Default::default())
677 }
678
679 fn rasterize_glyph(
680 &self,
681 _params: &RenderGlyphParams,
682 raster_bounds: Bounds<DevicePixels>,
683 ) -> Result<(Size<DevicePixels>, Vec<u8>)> {
684 Ok((raster_bounds.size, Vec::new()))
685 }
686
687 fn layout_line(&self, text: &str, font_size: Pixels, _runs: &[FontRun]) -> LineLayout {
688 let mut position = px(0.);
689 let metrics = self.font_metrics(FontId(0));
690 let em_width = font_size
691 * self
692 .advance(FontId(0), self.glyph_for_char(FontId(0), 'm').unwrap())
693 .unwrap()
694 .width
695 / metrics.units_per_em as f32;
696 let mut glyphs = Vec::new();
697 for (ix, c) in text.char_indices() {
698 if let Some(glyph) = self.glyph_for_char(FontId(0), c) {
699 glyphs.push(ShapedGlyph {
700 id: glyph,
701 position: point(position, px(0.)),
702 index: ix,
703 is_emoji: glyph.0 == 2,
704 });
705 if glyph.0 == 2 {
706 position += em_width * 2.0;
707 } else {
708 position += em_width;
709 }
710 } else {
711 position += em_width
712 }
713 }
714 let mut runs = Vec::default();
715 if !glyphs.is_empty() {
716 runs.push(ShapedRun {
717 font_id: FontId(0),
718 glyphs,
719 });
720 } else {
721 position = px(0.);
722 }
723
724 LineLayout {
725 font_size,
726 width: position,
727 ascent: font_size * (metrics.ascent / metrics.units_per_em as f32),
728 descent: font_size * (metrics.descent / metrics.units_per_em as f32),
729 runs,
730 len: text.len(),
731 }
732 }
733}
734
735// Adapted from https://github.com/microsoft/terminal/blob/1283c0f5b99a2961673249fa77c6b986efb5086c/src/renderer/atlas/dwrite.cpp
736// Copyright (c) Microsoft Corporation.
737// Licensed under the MIT license.
738#[allow(dead_code)]
739pub(crate) fn get_gamma_correction_ratios(gamma: f32) -> [f32; 4] {
740 const GAMMA_INCORRECT_TARGET_RATIOS: [[f32; 4]; 13] = [
741 [0.0000 / 4.0, 0.0000 / 4.0, 0.0000 / 4.0, 0.0000 / 4.0], // gamma = 1.0
742 [0.0166 / 4.0, -0.0807 / 4.0, 0.2227 / 4.0, -0.0751 / 4.0], // gamma = 1.1
743 [0.0350 / 4.0, -0.1760 / 4.0, 0.4325 / 4.0, -0.1370 / 4.0], // gamma = 1.2
744 [0.0543 / 4.0, -0.2821 / 4.0, 0.6302 / 4.0, -0.1876 / 4.0], // gamma = 1.3
745 [0.0739 / 4.0, -0.3963 / 4.0, 0.8167 / 4.0, -0.2287 / 4.0], // gamma = 1.4
746 [0.0933 / 4.0, -0.5161 / 4.0, 0.9926 / 4.0, -0.2616 / 4.0], // gamma = 1.5
747 [0.1121 / 4.0, -0.6395 / 4.0, 1.1588 / 4.0, -0.2877 / 4.0], // gamma = 1.6
748 [0.1300 / 4.0, -0.7649 / 4.0, 1.3159 / 4.0, -0.3080 / 4.0], // gamma = 1.7
749 [0.1469 / 4.0, -0.8911 / 4.0, 1.4644 / 4.0, -0.3234 / 4.0], // gamma = 1.8
750 [0.1627 / 4.0, -1.0170 / 4.0, 1.6051 / 4.0, -0.3347 / 4.0], // gamma = 1.9
751 [0.1773 / 4.0, -1.1420 / 4.0, 1.7385 / 4.0, -0.3426 / 4.0], // gamma = 2.0
752 [0.1908 / 4.0, -1.2652 / 4.0, 1.8650 / 4.0, -0.3476 / 4.0], // gamma = 2.1
753 [0.2031 / 4.0, -1.3864 / 4.0, 1.9851 / 4.0, -0.3501 / 4.0], // gamma = 2.2
754 ];
755
756 const NORM13: f32 = ((0x10000 as f64) / (255.0 * 255.0) * 4.0) as f32;
757 const NORM24: f32 = ((0x100 as f64) / (255.0) * 4.0) as f32;
758
759 let index = ((gamma * 10.0).round() as usize).clamp(10, 22) - 10;
760 let ratios = GAMMA_INCORRECT_TARGET_RATIOS[index];
761
762 [
763 ratios[0] * NORM13,
764 ratios[1] * NORM24,
765 ratios[2] * NORM13,
766 ratios[3] * NORM24,
767 ]
768}
769
770#[derive(PartialEq, Eq, Hash, Clone)]
771pub(crate) enum AtlasKey {
772 Glyph(RenderGlyphParams),
773 Svg(RenderSvgParams),
774 Image(RenderImageParams),
775}
776
777impl AtlasKey {
778 #[cfg_attr(
779 all(
780 any(target_os = "linux", target_os = "freebsd"),
781 not(any(feature = "x11", feature = "wayland"))
782 ),
783 allow(dead_code)
784 )]
785 pub(crate) fn texture_kind(&self) -> AtlasTextureKind {
786 match self {
787 AtlasKey::Glyph(params) => {
788 if params.is_emoji {
789 AtlasTextureKind::Polychrome
790 } else {
791 AtlasTextureKind::Monochrome
792 }
793 }
794 AtlasKey::Svg(_) => AtlasTextureKind::Monochrome,
795 AtlasKey::Image(_) => AtlasTextureKind::Polychrome,
796 }
797 }
798}
799
800impl From<RenderGlyphParams> for AtlasKey {
801 fn from(params: RenderGlyphParams) -> Self {
802 Self::Glyph(params)
803 }
804}
805
806impl From<RenderSvgParams> for AtlasKey {
807 fn from(params: RenderSvgParams) -> Self {
808 Self::Svg(params)
809 }
810}
811
812impl From<RenderImageParams> for AtlasKey {
813 fn from(params: RenderImageParams) -> Self {
814 Self::Image(params)
815 }
816}
817
818pub(crate) trait PlatformAtlas: Send + Sync {
819 fn get_or_insert_with<'a>(
820 &self,
821 key: &AtlasKey,
822 build: &mut dyn FnMut() -> Result<Option<(Size<DevicePixels>, Cow<'a, [u8]>)>>,
823 ) -> Result<Option<AtlasTile>>;
824 fn remove(&self, key: &AtlasKey);
825}
826
827struct AtlasTextureList<T> {
828 textures: Vec<Option<T>>,
829 free_list: Vec<usize>,
830}
831
832impl<T> Default for AtlasTextureList<T> {
833 fn default() -> Self {
834 Self {
835 textures: Vec::default(),
836 free_list: Vec::default(),
837 }
838 }
839}
840
841impl<T> ops::Index<usize> for AtlasTextureList<T> {
842 type Output = Option<T>;
843
844 fn index(&self, index: usize) -> &Self::Output {
845 &self.textures[index]
846 }
847}
848
849impl<T> AtlasTextureList<T> {
850 #[allow(unused)]
851 fn drain(&mut self) -> std::vec::Drain<'_, Option<T>> {
852 self.free_list.clear();
853 self.textures.drain(..)
854 }
855
856 #[allow(dead_code)]
857 fn iter_mut(&mut self) -> impl DoubleEndedIterator<Item = &mut T> {
858 self.textures.iter_mut().flatten()
859 }
860}
861
862#[derive(Clone, Debug, PartialEq, Eq)]
863#[repr(C)]
864pub(crate) struct AtlasTile {
865 pub(crate) texture_id: AtlasTextureId,
866 pub(crate) tile_id: TileId,
867 pub(crate) padding: u32,
868 pub(crate) bounds: Bounds<DevicePixels>,
869}
870
871#[derive(Clone, Copy, Debug, PartialEq, Eq, Hash)]
872#[repr(C)]
873pub(crate) struct AtlasTextureId {
874 // We use u32 instead of usize for Metal Shader Language compatibility
875 pub(crate) index: u32,
876 pub(crate) kind: AtlasTextureKind,
877}
878
879#[derive(Clone, Copy, Debug, PartialEq, Eq, Hash)]
880#[repr(C)]
881#[cfg_attr(
882 all(
883 any(target_os = "linux", target_os = "freebsd"),
884 not(any(feature = "x11", feature = "wayland"))
885 ),
886 allow(dead_code)
887)]
888pub(crate) enum AtlasTextureKind {
889 Monochrome = 0,
890 Polychrome = 1,
891}
892
893#[derive(Clone, Copy, Debug, PartialEq, Eq, PartialOrd, Ord)]
894#[repr(C)]
895pub(crate) struct TileId(pub(crate) u32);
896
897impl From<etagere::AllocId> for TileId {
898 fn from(id: etagere::AllocId) -> Self {
899 Self(id.serialize())
900 }
901}
902
903impl From<TileId> for etagere::AllocId {
904 fn from(id: TileId) -> Self {
905 Self::deserialize(id.0)
906 }
907}
908
909pub(crate) struct PlatformInputHandler {
910 cx: AsyncWindowContext,
911 handler: Box<dyn InputHandler>,
912}
913
914#[cfg_attr(
915 all(
916 any(target_os = "linux", target_os = "freebsd"),
917 not(any(feature = "x11", feature = "wayland"))
918 ),
919 allow(dead_code)
920)]
921impl PlatformInputHandler {
922 pub fn new(cx: AsyncWindowContext, handler: Box<dyn InputHandler>) -> Self {
923 Self { cx, handler }
924 }
925
926 fn selected_text_range(&mut self, ignore_disabled_input: bool) -> Option<UTF16Selection> {
927 self.cx
928 .update(|window, cx| {
929 self.handler
930 .selected_text_range(ignore_disabled_input, window, cx)
931 })
932 .ok()
933 .flatten()
934 }
935
936 #[cfg_attr(target_os = "windows", allow(dead_code))]
937 fn marked_text_range(&mut self) -> Option<Range<usize>> {
938 self.cx
939 .update(|window, cx| self.handler.marked_text_range(window, cx))
940 .ok()
941 .flatten()
942 }
943
944 #[cfg_attr(
945 any(target_os = "linux", target_os = "freebsd", target_os = "windows"),
946 allow(dead_code)
947 )]
948 fn text_for_range(
949 &mut self,
950 range_utf16: Range<usize>,
951 adjusted: &mut Option<Range<usize>>,
952 ) -> Option<String> {
953 self.cx
954 .update(|window, cx| {
955 self.handler
956 .text_for_range(range_utf16, adjusted, window, cx)
957 })
958 .ok()
959 .flatten()
960 }
961
962 fn replace_text_in_range(&mut self, replacement_range: Option<Range<usize>>, text: &str) {
963 self.cx
964 .update(|window, cx| {
965 self.handler
966 .replace_text_in_range(replacement_range, text, window, cx);
967 })
968 .ok();
969 }
970
971 pub fn replace_and_mark_text_in_range(
972 &mut self,
973 range_utf16: Option<Range<usize>>,
974 new_text: &str,
975 new_selected_range: Option<Range<usize>>,
976 ) {
977 self.cx
978 .update(|window, cx| {
979 self.handler.replace_and_mark_text_in_range(
980 range_utf16,
981 new_text,
982 new_selected_range,
983 window,
984 cx,
985 )
986 })
987 .ok();
988 }
989
990 #[cfg_attr(target_os = "windows", allow(dead_code))]
991 fn unmark_text(&mut self) {
992 self.cx
993 .update(|window, cx| self.handler.unmark_text(window, cx))
994 .ok();
995 }
996
997 fn bounds_for_range(&mut self, range_utf16: Range<usize>) -> Option<Bounds<Pixels>> {
998 self.cx
999 .update(|window, cx| self.handler.bounds_for_range(range_utf16, window, cx))
1000 .ok()
1001 .flatten()
1002 }
1003
1004 #[allow(dead_code)]
1005 fn apple_press_and_hold_enabled(&mut self) -> bool {
1006 self.handler.apple_press_and_hold_enabled()
1007 }
1008
1009 pub(crate) fn dispatch_input(&mut self, input: &str, window: &mut Window, cx: &mut App) {
1010 self.handler.replace_text_in_range(None, input, window, cx);
1011 }
1012
1013 pub fn selected_bounds(&mut self, window: &mut Window, cx: &mut App) -> Option<Bounds<Pixels>> {
1014 let selection = self.handler.selected_text_range(true, window, cx)?;
1015 self.handler.bounds_for_range(
1016 if selection.reversed {
1017 selection.range.start..selection.range.start
1018 } else {
1019 selection.range.end..selection.range.end
1020 },
1021 window,
1022 cx,
1023 )
1024 }
1025
1026 #[allow(unused)]
1027 pub fn character_index_for_point(&mut self, point: Point<Pixels>) -> Option<usize> {
1028 self.cx
1029 .update(|window, cx| self.handler.character_index_for_point(point, window, cx))
1030 .ok()
1031 .flatten()
1032 }
1033
1034 #[allow(dead_code)]
1035 pub(crate) fn accepts_text_input(&mut self, window: &mut Window, cx: &mut App) -> bool {
1036 self.handler.accepts_text_input(window, cx)
1037 }
1038}
1039
1040/// A struct representing a selection in a text buffer, in UTF16 characters.
1041/// This is different from a range because the head may be before the tail.
1042#[derive(Debug)]
1043pub struct UTF16Selection {
1044 /// The range of text in the document this selection corresponds to
1045 /// in UTF16 characters.
1046 pub range: Range<usize>,
1047 /// Whether the head of this selection is at the start (true), or end (false)
1048 /// of the range
1049 pub reversed: bool,
1050}
1051
1052/// Zed's interface for handling text input from the platform's IME system
1053/// This is currently a 1:1 exposure of the NSTextInputClient API:
1054///
1055/// <https://developer.apple.com/documentation/appkit/nstextinputclient>
1056pub trait InputHandler: 'static {
1057 /// Get the range of the user's currently selected text, if any
1058 /// Corresponds to [selectedRange()](https://developer.apple.com/documentation/appkit/nstextinputclient/1438242-selectedrange)
1059 ///
1060 /// Return value is in terms of UTF-16 characters, from 0 to the length of the document
1061 fn selected_text_range(
1062 &mut self,
1063 ignore_disabled_input: bool,
1064 window: &mut Window,
1065 cx: &mut App,
1066 ) -> Option<UTF16Selection>;
1067
1068 /// Get the range of the currently marked text, if any
1069 /// Corresponds to [markedRange()](https://developer.apple.com/documentation/appkit/nstextinputclient/1438250-markedrange)
1070 ///
1071 /// Return value is in terms of UTF-16 characters, from 0 to the length of the document
1072 fn marked_text_range(&mut self, window: &mut Window, cx: &mut App) -> Option<Range<usize>>;
1073
1074 /// Get the text for the given document range in UTF-16 characters
1075 /// Corresponds to [attributedSubstring(forProposedRange: actualRange:)](https://developer.apple.com/documentation/appkit/nstextinputclient/1438238-attributedsubstring)
1076 ///
1077 /// range_utf16 is in terms of UTF-16 characters
1078 fn text_for_range(
1079 &mut self,
1080 range_utf16: Range<usize>,
1081 adjusted_range: &mut Option<Range<usize>>,
1082 window: &mut Window,
1083 cx: &mut App,
1084 ) -> Option<String>;
1085
1086 /// Replace the text in the given document range with the given text
1087 /// Corresponds to [insertText(_:replacementRange:)](https://developer.apple.com/documentation/appkit/nstextinputclient/1438258-inserttext)
1088 ///
1089 /// replacement_range is in terms of UTF-16 characters
1090 fn replace_text_in_range(
1091 &mut self,
1092 replacement_range: Option<Range<usize>>,
1093 text: &str,
1094 window: &mut Window,
1095 cx: &mut App,
1096 );
1097
1098 /// Replace the text in the given document range with the given text,
1099 /// and mark the given text as part of an IME 'composing' state
1100 /// Corresponds to [setMarkedText(_:selectedRange:replacementRange:)](https://developer.apple.com/documentation/appkit/nstextinputclient/1438246-setmarkedtext)
1101 ///
1102 /// range_utf16 is in terms of UTF-16 characters
1103 /// new_selected_range is in terms of UTF-16 characters
1104 fn replace_and_mark_text_in_range(
1105 &mut self,
1106 range_utf16: Option<Range<usize>>,
1107 new_text: &str,
1108 new_selected_range: Option<Range<usize>>,
1109 window: &mut Window,
1110 cx: &mut App,
1111 );
1112
1113 /// Remove the IME 'composing' state from the document
1114 /// Corresponds to [unmarkText()](https://developer.apple.com/documentation/appkit/nstextinputclient/1438239-unmarktext)
1115 fn unmark_text(&mut self, window: &mut Window, cx: &mut App);
1116
1117 /// Get the bounds of the given document range in screen coordinates
1118 /// Corresponds to [firstRect(forCharacterRange:actualRange:)](https://developer.apple.com/documentation/appkit/nstextinputclient/1438240-firstrect)
1119 ///
1120 /// This is used for positioning the IME candidate window
1121 fn bounds_for_range(
1122 &mut self,
1123 range_utf16: Range<usize>,
1124 window: &mut Window,
1125 cx: &mut App,
1126 ) -> Option<Bounds<Pixels>>;
1127
1128 /// Get the character offset for the given point in terms of UTF16 characters
1129 ///
1130 /// Corresponds to [characterIndexForPoint:](https://developer.apple.com/documentation/appkit/nstextinputclient/characterindex(for:))
1131 fn character_index_for_point(
1132 &mut self,
1133 point: Point<Pixels>,
1134 window: &mut Window,
1135 cx: &mut App,
1136 ) -> Option<usize>;
1137
1138 /// Allows a given input context to opt into getting raw key repeats instead of
1139 /// sending these to the platform.
1140 /// TODO: Ideally we should be able to set ApplePressAndHoldEnabled in NSUserDefaults
1141 /// (which is how iTerm does it) but it doesn't seem to work for me.
1142 #[allow(dead_code)]
1143 fn apple_press_and_hold_enabled(&mut self) -> bool {
1144 true
1145 }
1146
1147 /// Returns whether this handler is accepting text input to be inserted.
1148 fn accepts_text_input(&mut self, _window: &mut Window, _cx: &mut App) -> bool {
1149 true
1150 }
1151}
1152
1153/// The variables that can be configured when creating a new window
1154#[derive(Debug)]
1155pub struct WindowOptions {
1156 /// Specifies the state and bounds of the window in screen coordinates.
1157 /// - `None`: Inherit the bounds.
1158 /// - `Some(WindowBounds)`: Open a window with corresponding state and its restore size.
1159 pub window_bounds: Option<WindowBounds>,
1160
1161 /// The titlebar configuration of the window
1162 pub titlebar: Option<TitlebarOptions>,
1163
1164 /// Whether the window should be focused when created
1165 pub focus: bool,
1166
1167 /// Whether the window should be shown when created
1168 pub show: bool,
1169
1170 /// The kind of window to create
1171 pub kind: WindowKind,
1172
1173 /// Whether the window should be movable by the user
1174 pub is_movable: bool,
1175
1176 /// Whether the window should be resizable by the user
1177 pub is_resizable: bool,
1178
1179 /// Whether the window should be minimized by the user
1180 pub is_minimizable: bool,
1181
1182 /// The display to create the window on, if this is None,
1183 /// the window will be created on the main display
1184 pub display_id: Option<DisplayId>,
1185
1186 /// The appearance of the window background.
1187 pub window_background: WindowBackgroundAppearance,
1188
1189 /// Application identifier of the window. Can by used by desktop environments to group applications together.
1190 pub app_id: Option<String>,
1191
1192 /// Window minimum size
1193 pub window_min_size: Option<Size<Pixels>>,
1194
1195 /// Whether to use client or server side decorations. Wayland only
1196 /// Note that this may be ignored.
1197 pub window_decorations: Option<WindowDecorations>,
1198
1199 /// Tab group name, allows opening the window as a native tab on macOS 10.12+. Windows with the same tabbing identifier will be grouped together.
1200 pub tabbing_identifier: Option<String>,
1201}
1202
1203/// The variables that can be configured when creating a new window
1204#[derive(Debug)]
1205#[cfg_attr(
1206 all(
1207 any(target_os = "linux", target_os = "freebsd"),
1208 not(any(feature = "x11", feature = "wayland"))
1209 ),
1210 allow(dead_code)
1211)]
1212pub(crate) struct WindowParams {
1213 pub bounds: Bounds<Pixels>,
1214
1215 /// The titlebar configuration of the window
1216 #[cfg_attr(feature = "wayland", allow(dead_code))]
1217 pub titlebar: Option<TitlebarOptions>,
1218
1219 /// The kind of window to create
1220 #[cfg_attr(any(target_os = "linux", target_os = "freebsd"), allow(dead_code))]
1221 pub kind: WindowKind,
1222
1223 /// Whether the window should be movable by the user
1224 #[cfg_attr(any(target_os = "linux", target_os = "freebsd"), allow(dead_code))]
1225 pub is_movable: bool,
1226
1227 /// Whether the window should be resizable by the user
1228 #[cfg_attr(any(target_os = "linux", target_os = "freebsd"), allow(dead_code))]
1229 pub is_resizable: bool,
1230
1231 /// Whether the window should be minimized by the user
1232 #[cfg_attr(any(target_os = "linux", target_os = "freebsd"), allow(dead_code))]
1233 pub is_minimizable: bool,
1234
1235 #[cfg_attr(
1236 any(target_os = "linux", target_os = "freebsd", target_os = "windows"),
1237 allow(dead_code)
1238 )]
1239 pub focus: bool,
1240
1241 #[cfg_attr(any(target_os = "linux", target_os = "freebsd"), allow(dead_code))]
1242 pub show: bool,
1243
1244 #[cfg_attr(feature = "wayland", allow(dead_code))]
1245 pub display_id: Option<DisplayId>,
1246
1247 pub window_min_size: Option<Size<Pixels>>,
1248 #[cfg(target_os = "macos")]
1249 pub tabbing_identifier: Option<String>,
1250}
1251
1252/// Represents the status of how a window should be opened.
1253#[derive(Debug, Copy, Clone, PartialEq)]
1254pub enum WindowBounds {
1255 /// Indicates that the window should open in a windowed state with the given bounds.
1256 Windowed(Bounds<Pixels>),
1257 /// Indicates that the window should open in a maximized state.
1258 /// The bounds provided here represent the restore size of the window.
1259 Maximized(Bounds<Pixels>),
1260 /// Indicates that the window should open in fullscreen mode.
1261 /// The bounds provided here represent the restore size of the window.
1262 Fullscreen(Bounds<Pixels>),
1263}
1264
1265impl Default for WindowBounds {
1266 fn default() -> Self {
1267 WindowBounds::Windowed(Bounds::default())
1268 }
1269}
1270
1271impl WindowBounds {
1272 /// Retrieve the inner bounds
1273 pub fn get_bounds(&self) -> Bounds<Pixels> {
1274 match self {
1275 WindowBounds::Windowed(bounds) => *bounds,
1276 WindowBounds::Maximized(bounds) => *bounds,
1277 WindowBounds::Fullscreen(bounds) => *bounds,
1278 }
1279 }
1280
1281 /// Creates a new window bounds that centers the window on the screen.
1282 pub fn centered(size: Size<Pixels>, cx: &App) -> Self {
1283 WindowBounds::Windowed(Bounds::centered(None, size, cx))
1284 }
1285}
1286
1287impl Default for WindowOptions {
1288 fn default() -> Self {
1289 Self {
1290 window_bounds: None,
1291 titlebar: Some(TitlebarOptions {
1292 title: Default::default(),
1293 appears_transparent: Default::default(),
1294 traffic_light_position: Default::default(),
1295 }),
1296 focus: true,
1297 show: true,
1298 kind: WindowKind::Normal,
1299 is_movable: true,
1300 is_resizable: true,
1301 is_minimizable: true,
1302 display_id: None,
1303 window_background: WindowBackgroundAppearance::default(),
1304 app_id: None,
1305 window_min_size: None,
1306 window_decorations: None,
1307 tabbing_identifier: None,
1308 }
1309 }
1310}
1311
1312/// The options that can be configured for a window's titlebar
1313#[derive(Debug, Default)]
1314pub struct TitlebarOptions {
1315 /// The initial title of the window
1316 pub title: Option<SharedString>,
1317
1318 /// Should the default system titlebar be hidden to allow for a custom-drawn titlebar? (macOS and Windows only)
1319 /// Refer to [`WindowOptions::window_decorations`] on Linux
1320 pub appears_transparent: bool,
1321
1322 /// The position of the macOS traffic light buttons
1323 pub traffic_light_position: Option<Point<Pixels>>,
1324}
1325
1326/// The kind of window to create
1327#[derive(Clone, Debug, PartialEq, Eq)]
1328pub enum WindowKind {
1329 /// A normal application window
1330 Normal,
1331
1332 /// A window that appears above all other windows, usually used for alerts or popups
1333 /// use sparingly!
1334 PopUp,
1335
1336 /// A floating window that appears on top of its parent window
1337 Floating,
1338
1339 /// A Wayland LayerShell window, used to draw overlays or backgrounds for applications such as
1340 /// docks, notifications or wallpapers.
1341 #[cfg(all(target_os = "linux", feature = "wayland"))]
1342 LayerShell(layer_shell::LayerShellOptions),
1343}
1344
1345/// The appearance of the window, as defined by the operating system.
1346///
1347/// On macOS, this corresponds to named [`NSAppearance`](https://developer.apple.com/documentation/appkit/nsappearance)
1348/// values.
1349#[derive(Copy, Clone, Debug, Default, PartialEq, Eq)]
1350pub enum WindowAppearance {
1351 /// A light appearance.
1352 ///
1353 /// On macOS, this corresponds to the `aqua` appearance.
1354 #[default]
1355 Light,
1356
1357 /// A light appearance with vibrant colors.
1358 ///
1359 /// On macOS, this corresponds to the `NSAppearanceNameVibrantLight` appearance.
1360 VibrantLight,
1361
1362 /// A dark appearance.
1363 ///
1364 /// On macOS, this corresponds to the `darkAqua` appearance.
1365 Dark,
1366
1367 /// A dark appearance with vibrant colors.
1368 ///
1369 /// On macOS, this corresponds to the `NSAppearanceNameVibrantDark` appearance.
1370 VibrantDark,
1371}
1372
1373/// The appearance of the background of the window itself, when there is
1374/// no content or the content is transparent.
1375#[derive(Copy, Clone, Debug, Default, PartialEq)]
1376pub enum WindowBackgroundAppearance {
1377 /// Opaque.
1378 ///
1379 /// This lets the window manager know that content behind this
1380 /// window does not need to be drawn.
1381 ///
1382 /// Actual color depends on the system and themes should define a fully
1383 /// opaque background color instead.
1384 #[default]
1385 Opaque,
1386 /// Plain alpha transparency.
1387 Transparent,
1388 /// Transparency, but the contents behind the window are blurred.
1389 ///
1390 /// Not always supported.
1391 Blurred,
1392}
1393
1394/// The options that can be configured for a file dialog prompt
1395#[derive(Clone, Debug)]
1396pub struct PathPromptOptions {
1397 /// Should the prompt allow files to be selected?
1398 pub files: bool,
1399 /// Should the prompt allow directories to be selected?
1400 pub directories: bool,
1401 /// Should the prompt allow multiple files to be selected?
1402 pub multiple: bool,
1403 /// The prompt to show to a user when selecting a path
1404 pub prompt: Option<SharedString>,
1405}
1406
1407/// What kind of prompt styling to show
1408#[derive(Copy, Clone, Debug, PartialEq)]
1409pub enum PromptLevel {
1410 /// A prompt that is shown when the user should be notified of something
1411 Info,
1412
1413 /// A prompt that is shown when the user needs to be warned of a potential problem
1414 Warning,
1415
1416 /// A prompt that is shown when a critical problem has occurred
1417 Critical,
1418}
1419
1420/// Prompt Button
1421#[derive(Clone, Debug, PartialEq)]
1422pub enum PromptButton {
1423 /// Ok button
1424 Ok(SharedString),
1425 /// Cancel button
1426 Cancel(SharedString),
1427 /// Other button
1428 Other(SharedString),
1429}
1430
1431impl PromptButton {
1432 /// Create a button with label
1433 pub fn new(label: impl Into<SharedString>) -> Self {
1434 PromptButton::Other(label.into())
1435 }
1436
1437 /// Create an Ok button
1438 pub fn ok(label: impl Into<SharedString>) -> Self {
1439 PromptButton::Ok(label.into())
1440 }
1441
1442 /// Create a Cancel button
1443 pub fn cancel(label: impl Into<SharedString>) -> Self {
1444 PromptButton::Cancel(label.into())
1445 }
1446
1447 #[allow(dead_code)]
1448 pub(crate) fn is_cancel(&self) -> bool {
1449 matches!(self, PromptButton::Cancel(_))
1450 }
1451
1452 /// Returns the label of the button
1453 pub fn label(&self) -> &SharedString {
1454 match self {
1455 PromptButton::Ok(label) => label,
1456 PromptButton::Cancel(label) => label,
1457 PromptButton::Other(label) => label,
1458 }
1459 }
1460}
1461
1462impl From<&str> for PromptButton {
1463 fn from(value: &str) -> Self {
1464 match value.to_lowercase().as_str() {
1465 "ok" => PromptButton::Ok("Ok".into()),
1466 "cancel" => PromptButton::Cancel("Cancel".into()),
1467 _ => PromptButton::Other(SharedString::from(value.to_owned())),
1468 }
1469 }
1470}
1471
1472/// The style of the cursor (pointer)
1473#[derive(Copy, Clone, Default, Debug, PartialEq, Eq, Hash, Serialize, Deserialize, JsonSchema)]
1474pub enum CursorStyle {
1475 /// The default cursor
1476 #[default]
1477 Arrow,
1478
1479 /// A text input cursor
1480 /// corresponds to the CSS cursor value `text`
1481 IBeam,
1482
1483 /// A crosshair cursor
1484 /// corresponds to the CSS cursor value `crosshair`
1485 Crosshair,
1486
1487 /// A closed hand cursor
1488 /// corresponds to the CSS cursor value `grabbing`
1489 ClosedHand,
1490
1491 /// An open hand cursor
1492 /// corresponds to the CSS cursor value `grab`
1493 OpenHand,
1494
1495 /// A pointing hand cursor
1496 /// corresponds to the CSS cursor value `pointer`
1497 PointingHand,
1498
1499 /// A resize left cursor
1500 /// corresponds to the CSS cursor value `w-resize`
1501 ResizeLeft,
1502
1503 /// A resize right cursor
1504 /// corresponds to the CSS cursor value `e-resize`
1505 ResizeRight,
1506
1507 /// A resize cursor to the left and right
1508 /// corresponds to the CSS cursor value `ew-resize`
1509 ResizeLeftRight,
1510
1511 /// A resize up cursor
1512 /// corresponds to the CSS cursor value `n-resize`
1513 ResizeUp,
1514
1515 /// A resize down cursor
1516 /// corresponds to the CSS cursor value `s-resize`
1517 ResizeDown,
1518
1519 /// A resize cursor directing up and down
1520 /// corresponds to the CSS cursor value `ns-resize`
1521 ResizeUpDown,
1522
1523 /// A resize cursor directing up-left and down-right
1524 /// corresponds to the CSS cursor value `nesw-resize`
1525 ResizeUpLeftDownRight,
1526
1527 /// A resize cursor directing up-right and down-left
1528 /// corresponds to the CSS cursor value `nwse-resize`
1529 ResizeUpRightDownLeft,
1530
1531 /// A cursor indicating that the item/column can be resized horizontally.
1532 /// corresponds to the CSS cursor value `col-resize`
1533 ResizeColumn,
1534
1535 /// A cursor indicating that the item/row can be resized vertically.
1536 /// corresponds to the CSS cursor value `row-resize`
1537 ResizeRow,
1538
1539 /// A text input cursor for vertical layout
1540 /// corresponds to the CSS cursor value `vertical-text`
1541 IBeamCursorForVerticalLayout,
1542
1543 /// A cursor indicating that the operation is not allowed
1544 /// corresponds to the CSS cursor value `not-allowed`
1545 OperationNotAllowed,
1546
1547 /// A cursor indicating that the operation will result in a link
1548 /// corresponds to the CSS cursor value `alias`
1549 DragLink,
1550
1551 /// A cursor indicating that the operation will result in a copy
1552 /// corresponds to the CSS cursor value `copy`
1553 DragCopy,
1554
1555 /// A cursor indicating that the operation will result in a context menu
1556 /// corresponds to the CSS cursor value `context-menu`
1557 ContextualMenu,
1558
1559 /// Hide the cursor
1560 None,
1561}
1562
1563/// A clipboard item that should be copied to the clipboard
1564#[derive(Clone, Debug, Eq, PartialEq)]
1565pub struct ClipboardItem {
1566 entries: Vec<ClipboardEntry>,
1567}
1568
1569/// Either a ClipboardString or a ClipboardImage
1570#[derive(Clone, Debug, Eq, PartialEq)]
1571pub enum ClipboardEntry {
1572 /// A string entry
1573 String(ClipboardString),
1574 /// An image entry
1575 Image(Image),
1576}
1577
1578impl ClipboardItem {
1579 /// Create a new ClipboardItem::String with no associated metadata
1580 pub fn new_string(text: String) -> Self {
1581 Self {
1582 entries: vec![ClipboardEntry::String(ClipboardString::new(text))],
1583 }
1584 }
1585
1586 /// Create a new ClipboardItem::String with the given text and associated metadata
1587 pub fn new_string_with_metadata(text: String, metadata: String) -> Self {
1588 Self {
1589 entries: vec![ClipboardEntry::String(ClipboardString {
1590 text,
1591 metadata: Some(metadata),
1592 })],
1593 }
1594 }
1595
1596 /// Create a new ClipboardItem::String with the given text and associated metadata
1597 pub fn new_string_with_json_metadata<T: Serialize>(text: String, metadata: T) -> Self {
1598 Self {
1599 entries: vec![ClipboardEntry::String(
1600 ClipboardString::new(text).with_json_metadata(metadata),
1601 )],
1602 }
1603 }
1604
1605 /// Create a new ClipboardItem::Image with the given image with no associated metadata
1606 pub fn new_image(image: &Image) -> Self {
1607 Self {
1608 entries: vec![ClipboardEntry::Image(image.clone())],
1609 }
1610 }
1611
1612 /// Concatenates together all the ClipboardString entries in the item.
1613 /// Returns None if there were no ClipboardString entries.
1614 pub fn text(&self) -> Option<String> {
1615 let mut answer = String::new();
1616 let mut any_entries = false;
1617
1618 for entry in self.entries.iter() {
1619 if let ClipboardEntry::String(ClipboardString { text, metadata: _ }) = entry {
1620 answer.push_str(text);
1621 any_entries = true;
1622 }
1623 }
1624
1625 if any_entries { Some(answer) } else { None }
1626 }
1627
1628 /// If this item is one ClipboardEntry::String, returns its metadata.
1629 #[cfg_attr(not(target_os = "windows"), allow(dead_code))]
1630 pub fn metadata(&self) -> Option<&String> {
1631 match self.entries().first() {
1632 Some(ClipboardEntry::String(clipboard_string)) if self.entries.len() == 1 => {
1633 clipboard_string.metadata.as_ref()
1634 }
1635 _ => None,
1636 }
1637 }
1638
1639 /// Get the item's entries
1640 pub fn entries(&self) -> &[ClipboardEntry] {
1641 &self.entries
1642 }
1643
1644 /// Get owned versions of the item's entries
1645 pub fn into_entries(self) -> impl Iterator<Item = ClipboardEntry> {
1646 self.entries.into_iter()
1647 }
1648}
1649
1650impl From<ClipboardString> for ClipboardEntry {
1651 fn from(value: ClipboardString) -> Self {
1652 Self::String(value)
1653 }
1654}
1655
1656impl From<String> for ClipboardEntry {
1657 fn from(value: String) -> Self {
1658 Self::from(ClipboardString::from(value))
1659 }
1660}
1661
1662impl From<Image> for ClipboardEntry {
1663 fn from(value: Image) -> Self {
1664 Self::Image(value)
1665 }
1666}
1667
1668impl From<ClipboardEntry> for ClipboardItem {
1669 fn from(value: ClipboardEntry) -> Self {
1670 Self {
1671 entries: vec![value],
1672 }
1673 }
1674}
1675
1676impl From<String> for ClipboardItem {
1677 fn from(value: String) -> Self {
1678 Self::from(ClipboardEntry::from(value))
1679 }
1680}
1681
1682impl From<Image> for ClipboardItem {
1683 fn from(value: Image) -> Self {
1684 Self::from(ClipboardEntry::from(value))
1685 }
1686}
1687
1688/// One of the editor's supported image formats (e.g. PNG, JPEG) - used when dealing with images in the clipboard
1689#[derive(Clone, Copy, Debug, Eq, PartialEq, EnumIter, Hash)]
1690pub enum ImageFormat {
1691 // Sorted from most to least likely to be pasted into an editor,
1692 // which matters when we iterate through them trying to see if
1693 // clipboard content matches them.
1694 /// .png
1695 Png,
1696 /// .jpeg or .jpg
1697 Jpeg,
1698 /// .webp
1699 Webp,
1700 /// .gif
1701 Gif,
1702 /// .svg
1703 Svg,
1704 /// .bmp
1705 Bmp,
1706 /// .tif or .tiff
1707 Tiff,
1708 /// .ico
1709 Ico,
1710}
1711
1712impl ImageFormat {
1713 /// Returns the mime type for the ImageFormat
1714 pub const fn mime_type(self) -> &'static str {
1715 match self {
1716 ImageFormat::Png => "image/png",
1717 ImageFormat::Jpeg => "image/jpeg",
1718 ImageFormat::Webp => "image/webp",
1719 ImageFormat::Gif => "image/gif",
1720 ImageFormat::Svg => "image/svg+xml",
1721 ImageFormat::Bmp => "image/bmp",
1722 ImageFormat::Tiff => "image/tiff",
1723 ImageFormat::Ico => "image/ico",
1724 }
1725 }
1726
1727 /// Returns the ImageFormat for the given mime type
1728 pub fn from_mime_type(mime_type: &str) -> Option<Self> {
1729 match mime_type {
1730 "image/png" => Some(Self::Png),
1731 "image/jpeg" | "image/jpg" => Some(Self::Jpeg),
1732 "image/webp" => Some(Self::Webp),
1733 "image/gif" => Some(Self::Gif),
1734 "image/svg+xml" => Some(Self::Svg),
1735 "image/bmp" => Some(Self::Bmp),
1736 "image/tiff" | "image/tif" => Some(Self::Tiff),
1737 "image/ico" => Some(Self::Ico),
1738 _ => None,
1739 }
1740 }
1741}
1742
1743/// An image, with a format and certain bytes
1744#[derive(Clone, Debug, PartialEq, Eq)]
1745pub struct Image {
1746 /// The image format the bytes represent (e.g. PNG)
1747 pub format: ImageFormat,
1748 /// The raw image bytes
1749 pub bytes: Vec<u8>,
1750 /// The unique ID for the image
1751 id: u64,
1752}
1753
1754impl Hash for Image {
1755 fn hash<H: Hasher>(&self, state: &mut H) {
1756 state.write_u64(self.id);
1757 }
1758}
1759
1760impl Image {
1761 /// An empty image containing no data
1762 pub fn empty() -> Self {
1763 Self::from_bytes(ImageFormat::Png, Vec::new())
1764 }
1765
1766 /// Create an image from a format and bytes
1767 pub fn from_bytes(format: ImageFormat, bytes: Vec<u8>) -> Self {
1768 Self {
1769 id: hash(&bytes),
1770 format,
1771 bytes,
1772 }
1773 }
1774
1775 /// Get this image's ID
1776 pub fn id(&self) -> u64 {
1777 self.id
1778 }
1779
1780 /// Use the GPUI `use_asset` API to make this image renderable
1781 pub fn use_render_image(
1782 self: Arc<Self>,
1783 window: &mut Window,
1784 cx: &mut App,
1785 ) -> Option<Arc<RenderImage>> {
1786 ImageSource::Image(self)
1787 .use_data(None, window, cx)
1788 .and_then(|result| result.ok())
1789 }
1790
1791 /// Use the GPUI `get_asset` API to make this image renderable
1792 pub fn get_render_image(
1793 self: Arc<Self>,
1794 window: &mut Window,
1795 cx: &mut App,
1796 ) -> Option<Arc<RenderImage>> {
1797 ImageSource::Image(self)
1798 .get_data(None, window, cx)
1799 .and_then(|result| result.ok())
1800 }
1801
1802 /// Use the GPUI `remove_asset` API to drop this image, if possible.
1803 pub fn remove_asset(self: Arc<Self>, cx: &mut App) {
1804 ImageSource::Image(self).remove_asset(cx);
1805 }
1806
1807 /// Convert the clipboard image to an `ImageData` object.
1808 pub fn to_image_data(&self, svg_renderer: SvgRenderer) -> Result<Arc<RenderImage>> {
1809 fn frames_for_image(
1810 bytes: &[u8],
1811 format: image::ImageFormat,
1812 ) -> Result<SmallVec<[Frame; 1]>> {
1813 let mut data = image::load_from_memory_with_format(bytes, format)?.into_rgba8();
1814
1815 // Convert from RGBA to BGRA.
1816 for pixel in data.chunks_exact_mut(4) {
1817 pixel.swap(0, 2);
1818 }
1819
1820 Ok(SmallVec::from_elem(Frame::new(data), 1))
1821 }
1822
1823 let frames = match self.format {
1824 ImageFormat::Gif => {
1825 let decoder = GifDecoder::new(Cursor::new(&self.bytes))?;
1826 let mut frames = SmallVec::new();
1827
1828 for frame in decoder.into_frames() {
1829 let mut frame = frame?;
1830 // Convert from RGBA to BGRA.
1831 for pixel in frame.buffer_mut().chunks_exact_mut(4) {
1832 pixel.swap(0, 2);
1833 }
1834 frames.push(frame);
1835 }
1836
1837 frames
1838 }
1839 ImageFormat::Png => frames_for_image(&self.bytes, image::ImageFormat::Png)?,
1840 ImageFormat::Jpeg => frames_for_image(&self.bytes, image::ImageFormat::Jpeg)?,
1841 ImageFormat::Webp => frames_for_image(&self.bytes, image::ImageFormat::WebP)?,
1842 ImageFormat::Bmp => frames_for_image(&self.bytes, image::ImageFormat::Bmp)?,
1843 ImageFormat::Tiff => frames_for_image(&self.bytes, image::ImageFormat::Tiff)?,
1844 ImageFormat::Ico => frames_for_image(&self.bytes, image::ImageFormat::Ico)?,
1845 ImageFormat::Svg => {
1846 return svg_renderer
1847 .render_single_frame(&self.bytes, 1.0, false)
1848 .map_err(Into::into);
1849 }
1850 };
1851
1852 Ok(Arc::new(RenderImage::new(frames)))
1853 }
1854
1855 /// Get the format of the clipboard image
1856 pub fn format(&self) -> ImageFormat {
1857 self.format
1858 }
1859
1860 /// Get the raw bytes of the clipboard image
1861 pub fn bytes(&self) -> &[u8] {
1862 self.bytes.as_slice()
1863 }
1864}
1865
1866/// A clipboard item that should be copied to the clipboard
1867#[derive(Clone, Debug, Eq, PartialEq)]
1868pub struct ClipboardString {
1869 pub(crate) text: String,
1870 pub(crate) metadata: Option<String>,
1871}
1872
1873impl ClipboardString {
1874 /// Create a new clipboard string with the given text
1875 pub fn new(text: String) -> Self {
1876 Self {
1877 text,
1878 metadata: None,
1879 }
1880 }
1881
1882 /// Return a new clipboard item with the metadata replaced by the given metadata,
1883 /// after serializing it as JSON.
1884 pub fn with_json_metadata<T: Serialize>(mut self, metadata: T) -> Self {
1885 self.metadata = Some(serde_json::to_string(&metadata).unwrap());
1886 self
1887 }
1888
1889 /// Get the text of the clipboard string
1890 pub fn text(&self) -> &String {
1891 &self.text
1892 }
1893
1894 /// Get the owned text of the clipboard string
1895 pub fn into_text(self) -> String {
1896 self.text
1897 }
1898
1899 /// Get the metadata of the clipboard string, formatted as JSON
1900 pub fn metadata_json<T>(&self) -> Option<T>
1901 where
1902 T: for<'a> Deserialize<'a>,
1903 {
1904 self.metadata
1905 .as_ref()
1906 .and_then(|m| serde_json::from_str(m).ok())
1907 }
1908
1909 #[cfg_attr(any(target_os = "linux", target_os = "freebsd"), allow(dead_code))]
1910 pub(crate) fn text_hash(text: &str) -> u64 {
1911 let mut hasher = SeaHasher::new();
1912 text.hash(&mut hasher);
1913 hasher.finish()
1914 }
1915}
1916
1917impl From<String> for ClipboardString {
1918 fn from(value: String) -> Self {
1919 Self {
1920 text: value,
1921 metadata: None,
1922 }
1923 }
1924}