cfa0faff26bd3e083ad499b3e0f41f2e11dd39e1
11 Commits
| Author | SHA1 | Message | Date | |
|---|---|---|---|---|
| cfa0faff26 |
ltk: subsurface slides over overlays, axis-locked swipes, physical-space layout, touch reset on resume
Subsurfaces can now be parented to an overlay surface, not just the main surface. `SubsurfaceSpec` gains `parent: SubsurfaceParent { Main, Overlay(id) }` so a sliding panel can ride above app windows the way an overlay panel does, and an optional `gpu: bool` so content that uses the `surface-panel` backdrop-filter glass (a GLES-only pass) keeps it while sliding instead of dropping to the software rasteriser. `reconcile_subsurfaces` resolves each spec's parent independently — skipping an `Overlay` parent that is absent, unconfigured, or zero-sized — tracks the rastered size on the slot, and commits each touched parent once per frame. The ~14 GLES shader programs are compiled once into a shared `AppData::subsurface_gles_canvas` reused across every subsurface, so a lazily re-created sliding panel never recompiles them (hundreds of ms on a mobile GPU).
Vertical and horizontal swipes are now mutually exclusive: a gesture locks onto its dominant axis within the first 8 px of travel (new `SwipeAxis`) and ignores the perpendicular axis for the rest of the gesture, so a vertical swipe that drifts sideways no longer also drives the pager (and vice-versa). The upward swipe progress is no longer clamped at 1.0 — follow-the-finger panels can keep tracking the finger past the commit threshold — and a release below threshold delivers a final `progress = 0.0` cancellation pulse. A vertical swipe also no longer re-rasters the full-screen main surface on every motion event: only the overlays it drives are refreshed, while the horizontal pager (which does move the main surface) still redraws it. Re-rastering the main on every frame of a vertical drag was wasted work that stalled the loop and made the gesture feel laggy to start on a slow GPU.
Layout-affecting `Length` values (widths, paddings, gaps, widget sizes, including `Vw` / `Vh`) now resolve against the physical viewport via the new `Canvas::viewport_layout()` — the space the layout tree is actually computed in — so a `Vw(100)` fills the surface on a HiDPI (scale 2) output instead of covering half of it. Font sizes are unchanged: they still resolve against the logical viewport and are scaled at raster time. Switched column, row, spacer, wrap_grid, container, image, and vslider over to it; `img_widget` and `vslider` now document `Length::vw` / `vh` sizing and the showcase example demonstrates a viewport-relative image.
Touch gesture state is reset when the touch capability is added or removed — suspend / resume on devices that power the touchscreen down. A yanked capability never delivers the pending `up` / `cancel`, so the shared `reset_touch_state()` (also used by the `wl_touch.cancel` handler) drops the stranded `primary_touch_id` / slot state across the main surface and every overlay, keeping the first post-resume gesture clean. Also drops an accidental duplicate `on_scale_changed` call from the scale-change handler.
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| d221d5a0cd |
app: add App::subsurface_motion_only so a slide-to-reveal panel animates without re-rastering the main surface
An app whose gesture/animation only moves an input-transparent subsurface (a slide-to-reveal panel over a static main surface) still paid a full main-surface re-raster on every frame of the slide, because the runtime force-dirties the main view on two paths it cannot tell apart from a real content change: `MoveOutcome::Swipe` calls `dirty_caches()` + `request_redraw()` per motion sample, and the `WlCallback` Main handler sets `view_dirty` + `request_redraw()` on every frame callback while `is_animating`. The subsurface reconcile already repositions the panel with a cheap `set_position` + bare parent commit, so the main re-raster is wasted work — and on slow targets (Librem5) it competes with the reposition and makes the slide stutter. New opt-in `App::subsurface_motion_only` (default `false`, so existing apps are unaffected). When it returns `true`: - the swipe dispatch (`input/dispatch/outcomes.rs`) still calls the `on_swipe_progress` family but skips `dirty_caches()` / `request_redraw()`; incoming motion events pump the loop and the per-iteration `reconcile_subsurfaces` carries the move. - the frame-callback animation pump (`event_loop/handlers.rs`) keeps the vsync cadence without a re-raster by requesting a bare `wl.frame()` + `commit()` on the main surface (no buffer attach) instead of dirtying the view; `poll_external` advances the animation and the reconcile repositions each frame. The main surface still redraws for genuine content changes (messages, resize, the one-shot redraw on swipe release) — only the per-frame slide raster is dropped. |
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| 48c5a89712 |
touch: treat a compositor re-grab down as a drag continuation
When the surface that owns a touch drag is destroyed mid-gesture, the compositor re-opens the touch grab by issuing a fresh `down` on the surface now under the finger (smithay pins touch focus at `down` and won't re-target on motion). That `down` arrives for a slot the main surface already holds as its primary, with the drag state already migrated here. Handling it through the normal `down` path would either restart the gesture or, since the slot is taken, demote it to an auxiliary touch — both abandon the in-flight drag. `TouchHandler::down` now early-returns when the focused surface's `primary_touch_id` already equals the incoming slot, so the redundant `down` is a no-op and the following motion/up keep driving the migrated drag. Completes the cross-surface drag fix whose other half (migrating `primary_touch_id` on overlay teardown) already landed. |
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| 582f9e1a37 | Removed extra debug prints | |||
| 9ca3b60f3a |
ltk: responsive padding/spacing and scrolling, expanded theme palette, and bundled Adwaita cursors
A mixed pass over the default theme and the layout/input core, plus the toolkit's own cursor set. Grouped by area below. == Responsive sizing == Add `Length::dp( px )` — a "design pixel". It interprets `px` against a configurable reference vmin (default 412 px, the eydos mobile reference width) and returns `Vmin( px / reference * 100 ).clamp( px * 0.7, px * 1.5 )`, so a value authored against a mock-up scales with the surface without collapsing on tiny screens or ballooning on a 4K desktop. The reference is process-global, set via `set_design_reference()` and read via `design_reference()` (stored as f32 bits in an AtomicU32); both are re-exported from `lib.rs`. Make container and grid insets relative. `Container`'s four padding fields become `Length` instead of `f32`; every setter (`padding`, `padding_h`, `padding_v`, `padding_top`/`right`/`bottom`/`left`) now takes `impl Into<Length>`, so existing `f32` call sites keep compiling via the `From<f32>` shim. The values are resolved against the viewport in `Container::preferred_size` and in the container draw path (`draw/layout.rs`). `WrapGrid`'s `spacing_x`, `spacing_y` and `padding` get the same treatment, with a `resolved( canvas )` helper funnelling the per-frame resolution and `grid()` seeding `Length::px` defaults. Container tests now compare against `Length::px( … )`. == Scrolling == `Scroll::preferred_size` is now axis-aware. A horizontal-only scroll reports its child's natural height rather than claiming all remaining vertical space, so it no longer steals Y from its siblings when it sits inside a `Column`; vertical and both-axis scrolls keep the spacer-like `( max_width, 0.0 )`. `Column`'s space-distribution correspondingly treats a `Scroll` as a vertical space-claimer only when its axis allows Y. Disambiguate nested scroll viewports by direction. On press the gesture state now collects every scroll viewport under the point (`scroll_candidates`, innermost first) instead of committing to one; on the first 8 px of motion it locks onto the candidate whose axis matches the dominant direction (`scroll_locked`), so a horizontal scroller nested inside a vertical list no longer grabs the wrong axis. The pointer scroll hit test is aligned to the same innermost-first ordering. == Theme palette == `themes/default/theme.json` gains named colours (green / green-deep, yellow, orange / orange-deep, pink / pink-soft, sky-deep, error / error-soft, neutral-tertiary) and new semantic slots in both light and dark modes: `danger`, `text-tertiary`, `accept`, `chip` / `chip-active` / `chip-active-fg`, and `avatar-1` … `avatar-9`. == Cursors == Bundle GNOME's Adwaita cursor theme — the cursors GNOME Shell uses — into `themes/default/cursors/` so a Wayland compositor can draw consistent, complete pointers for ltk applications without the toolkit rasterising cursors itself and without depending on adwaita-icon-theme being installed on the target. The cursors are copied verbatim in XCursor binary format: 35 image files, one per CSS/freedesktop cursor name (default, text, pointer, *-resize, …), plus 27 customary X11 alias symlinks (arrow → default, hand2 → pointer, …); a sibling `cursor.theme` makes the tree a valid XCursor theme. The existing `ltk-theme-default.install` copies `themes/default` recursively, so the directory ships with no packaging change. Applications keep declaring a `CursorShape` per widget over `wp_cursor_shape_v1`; the compositor resolves it against the active theme's `cursors/` directory by name, and the set covers all 34 `CursorShape` variants. Document the set in `themes/default/cursors/README.md` (what it is, the XCursor layout, the full shape list, how the compositor consumes it, guidance for forks) and `themes/default/cursors/LICENSE.md` (attribution and licence options, modelled on the icons catalogue LICENSE). `lib.rs` lists the cursors in its third-party-assets section. Close out licensing in `debian/copyright`: a `Files: themes/default/cursors/*` paragraph records the upstream dual offer (CC-BY-SA-3.0 or LGPL-3, and CC-BY-SA-4.0 for the newer assets) attributed to the GNOME Project, with standalone CC-BY-SA-3.0, CC-BY-SA-4.0 and LGPL-3 paragraphs (summary-plus-canonical-URL for the CC licences, matching the existing CC-BY-4.0 entry; LGPL-3 referencing /usr/share/common-licenses/LGPL-3). The files are unmodified from upstream, so there is nothing to declare under the ShareAlike "indicate if changes were made" clause. Add `tests/cursor_assets.rs`: every `CursorShape` name resolves to a valid XCursor file (Xcur magic, following symlinks), `cursor.theme` is present, no entry is a dangling symlink, and the expected-name list stays in sync with the enum's 34 variants. |
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| a8bbd1e35c |
input/keyboard: fall through to App::on_key when the Enter dispatch target widget has no submit/press message
`handle_key_return` previously routed `Return` to either the focused or hovered widget's submit/press message and, only when neither index existed, fell through to `app.on_key_with_modifiers`. If a stale `hovered_idx` (left over from a prior screen) pointed at a widget that exists in the new `widget_rects` but exposes no submit or press handler, `target.is_some()` was true and the message-less dispatch silently swallowed the key — the `else` branch never ran and `App::on_key` never saw the keysym. This manifested in the eydos-loginmanager greeter as `Enter` on the Lock screen failing to fire `Message::Unlock` after a pause/resume cycle, until the user clicked something to refresh `hovered_idx`. Track whether the widget path actually pushed a message and, when it didn't, fall through to the app-level handler so the `Return` keysym still gets a chance to be interpreted by the application's `on_key`. No behaviour change when the focused/hovered widget does provide a `submit_msg` or `press_msg`. |
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| 4a80165428 |
event_loop, a11y, text_shaping: AccessKit AT-SPI2 bridge, cross-app clipboard, xdg-activation, HarfBuzz shaping, multi-touch hooks
Five orthogonal capabilities land together because they share the same `try_run` plumbing: an optional global is bound at startup, a piece of state is added to `AppData`, the run-loop iteration drains an inbox / pushes a frame snapshot, and the public surface gains a small set of opt-in `App` hooks. Nothing here breaks an existing app — every new path degrades to a no-op when the compositor does not advertise the relevant global or when the platform adapter cannot start. AT-SPI2 accessibility via AccessKit. A new `src/a11y/` module owns the platform adapter and the inbound `ActionRequest` channel. `A11yState::try_new` constructs an `accesskit_unix::Adapter`; when the AT-SPI2 daemon is not on the session bus (headless CI, locked-down compositors) the constructor returns `None` and the rest of the pipeline runs unchanged. After every successful `draw_frame`, the run loop builds a fresh `accesskit::TreeUpdate` from `widget_rects` and pushes it through the adapter — main surface plus every visible overlay, each translated to global coordinates via `surface_offset_for` so screen readers report positions in the same frame the user sees. Buttons / toggles / checkboxes / radios / list items / sliders / text edits map to the matching `Role`s; `Click` and `Focus` actions are advertised on every interactive node; inbound action requests are drained at the top of each iteration and translated into a synthetic press / focus on the matching widget. The integration is documented as best-effort in `docs/architecture.md` under "Known gaps and non-goals": hierarchical nesting, per-widget accessible names, live regions and `Action::SetValue` are listed as the natural follow-ups that the foundation now supports but does not yet wire. Cross-application clipboard via `wl_data_device_manager`. A new `src/event_loop/data_device.rs` bridges the existing process-local `clipboard: String` to the Wayland selection. Outbound (Ctrl+C / Cut): after the local clipboard is populated, `publish_clipboard_selection` creates a `CopyPasteSource` offering `text/plain;charset=utf-8` and installs it as the seat's selection; `DataSourceHandler::send` writes the cached string into the fd the peer hands us. Inbound (Ctrl+V from another app): `DataDeviceHandler::selection` asks for the offered text via `WlDataOffer::receive`, spawns a tiny worker thread to drain the read pipe with a 16 MiB cap to prevent paste-bomb DoS, and posts the result back through an `mpsc::Sender` that the run loop drains each iteration into `data.clipboard`. The `clipboard:` field's doc-comment is updated to reflect the new behaviour: process-local when the compositor does not advertise the global, synchronised with the seat selection otherwise. External drag-and-drop reception. The same `data_device` module handles `DragOffer` enter / motion / leave / drop_performed: `on_drop_motion( x, y )` fires while the drag hovers over the surface, `on_drop_leave()` when it withdraws without dropping, and `on_drop_received( x, y, mime, text )` when an external payload (`text/uri-list`, `text/plain`, …) is released on top of an ltk window. The receive path reuses the same worker-thread / channel pattern as the clipboard so the run loop never blocks on the read fd. Three new `App` hooks expose the events with no-op defaults; apps that ignore them get the previous behaviour. `xdg-activation-v1`. The global is bound optionally; when it is present, `try_run` reads `$XDG_ACTIVATION_TOKEN` from the environment, removes it immediately (single-use; preventing leaks into child processes) and stashes it on `AppData::activation_token_pending`. After the first successful configure of the main surface — the earliest point at which `xdg_activation_v1.activate` is meaningful — the token is consumed once and the surface raised to focus. Compositors without the global leave `activation_state` as `None` and the inbound path silently degrades. An `App::request_activation_token` outbound path is reserved on the trait but not yet exercised here. HarfBuzz shaping. A new `src/text_shaping.rs::shape_line` drives both renderers: the logical-order string is run through `unicode-bidi`, split into per-font sub-runs, and shaped through `rustybuzz`. Each `PositionedGlyph` carries the per-font `glyph_id`, the visual advance and the ink offsets — exactly what `fontdue::Font::rasterize_indexed` needs to render Arabic connected forms, Devanagari clusters and CJK shaped glyphs correctly. The GLES atlas is re-keyed on `(glyph_id, size_bits, font_id)` so glyphs from different fonts at the same size no longer collide, and the atlas format is selected per ES profile (`GL_R8` / `GL_RED` on ES3, `GL_LUMINANCE` on ES2) — the fragment shader samples `.r` for both, since `GL_LUMINANCE` replicates the coverage byte into `.r=.g=.b`. Software path follows the same key. New `Cargo.toml` deps: `unicode-bidi = "0.3"`, `rustybuzz = "0.14"`. Multi-touch hooks. `App::on_touch_down / on_touch_move / on_touch_up( id, x, y )` expose the raw `wl_touch.id` of every secondary finger. The first finger to land remains the *primary slot* and is fed through the regular gesture machine (`on_pointer_*`, swipe, scroll, long-press, drag-and-drop). Every additional finger fires the new callbacks instead, leaving the existing single-slot behaviour untouched for apps that do not override them. This is the substrate for app-defined pinch-zoom / two-finger pan; the toolkit itself does not yet ship a built-in pinch gesture (called out in the same "Known gaps" doc section). `event_loop::frame` extracted from `draw/mod.rs`. The `draw_frame` orchestrator and its per-format SHM helper (`pick_shm_format`) move into `src/event_loop/frame.rs`, leaving `draw/` strictly responsible for per-surface paint primitives. The import in `event_loop/run.rs` is rewritten accordingly; `draw/mod.rs` shrinks from 192-line orchestrator to a thin module index. Overlay teardown safety. `AppData::discard_overlay( id )` synchronously removes a destroyed overlay from the map and rewrites every per-device focus that pointed at it (pointer, keyboard, every touch slot), migrating an in-flight long-press drag to the main surface the same way `reconcile_overlays` does. Used by the compositor-driven destruction paths (`PopupHandler::done`, `LayerShellHandler::closed`) where waiting for the next reconcile would leave a window in which `surface()` / `surface_mut()` panic. The non-panicking siblings `try_surface` / `try_surface_mut` are added for callers on async dispatch paths (IME `Done`, tooltip arm) that may race a teardown. Miscellaneous. CI: `master` → `main` to match the actual default branch. `Makefile` adds `cargo run --example dialog` to the examples target. `src/lib.rs` re-exports `widget::scroll::ScrollAxis` so apps can configure a `scroll()` axis without reaching into a `pub(crate)` module. `Cargo.toml` adds `accesskit = "0.17"` and `accesskit_unix = "0.13"`. `docs/architecture.md` gains the "Known gaps and non-goals" section that enumerates the new capabilities, what still ships flat, and what is deferred (per-widget a11y labels, primary selection, intra-process multi-touch gestures, `wp_fractional_scale_v1`). |
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| 4aa3480b64 |
refactor: split every monolithic module into focused submodules
Each source file that had grown beyond a single concern is replaced by an identically-named directory containing focused submodules. `src/event_loop/mod.rs` (878 lines) becomes a directory with clipboard, context_menu, cursor_shape, drag, focus, handlers, invalidation, overlays_reconcile, repeat, run, surface, text_editing, and tooltip. Every widget, input handler, and theme component follows the same split. Public interfaces are unchanged — only the internal file layout moves. image bumped from 0.25.2 to 0.25.9. |
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| 3d237039c6 |
input/keyboard: let the app intercept arrow / Tab keys before the default text-edit and focus-shift behaviours
The keysym dispatcher used to give the focused widget first refusal on Left / Right / Up / Down / Tab. A `text_edit` swallowed the four arrows for cursor movement, and Tab walked the keyboard-focus ring through `next_focusable_index`. Apps only got `on_key_with_modifiers` for those keys when no text input was focused (Tab never), so a search field with autocomplete couldn't drive a selection cursor through arrows or Tab without putting focus on something else first — which is exactly the wrong UX for a search-as-you-type list. Three arms in `AppData::handle_key_press` now query `self.app.on_key_with_modifiers( keysym, ctrl, shift )` *first* and only fall back to the default behaviour if the app returns `None`: - `Left | Right`: previously branched on `is_text_input` and routed the keypress to `handle_cursor_left/right` for text fields, otherwise asked the app. Now: app first; if app says `None`, the existing text-cursor path runs for text inputs and non-text widgets get nothing (their previous fallback already produced no useful action without an app handler). - `Up | Down`: the previous logic was a four-way decision that tried text-cursor movement, then `move_keyboard_hover` for combo / list widgets, then the app handler. Now the app gets first refusal too. When it declines, the original cascade (text-cursor → hover navigation) still runs, so multiline `text_edit` cursor walking and combo / scrollable-list keyboard nav are unchanged for any app that doesn't intercept these keys. - `Tab | ISO_Left_Tab`: app first; on `None` the focus-shift path (`next_focusable_index` + `set_focus`) runs. Apps that want Tab as a navigation message between custom UI states (a search field cycling through results, a wizard advancing pages) finally have a hook; apps that don't get the standard tab-through-focusable behaviour by leaving `on_key_with_modifiers` returning `None` for Tab, which is the trait's default. The interception is keysym-only — modifier state is forwarded so an app can distinguish `Tab` from `Shift+Tab`, `Right` from `Ctrl+Right`. The text-input check is preserved as a local before the dispatch so the fallback doesn't lose the "is this even a text edit?" question; it just runs *after* the app instead of before. Net effect: a list / autocomplete that needs arrow / Tab navigation can now be implemented purely by overriding `App::on_key_with_modifiers`, with no changes to `text_edit` itself and no risk of breaking apps that don't need it. The Up / Down branch's old comment about the "fall through to list hover-navigation" rationale is dropped — the cascade still exists, but the app-first ordering is the new contract and the comment was about the previous one. |
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| bfe27b6fef |
event_loop, widget, input: pointer-dwell tooltips, global drag coords, foreign-toplevel name cascade
`Button::tooltip( text )` registers a hint string that fires after a 600 ms pointer dwell. `LaidOutWidget` gains a `tooltip: Option<String>` field, `Element::tooltip()` exposes it to the input layer, and the existing pointer-hover path now calls `arm_tooltip` on hover-enter and `cancel_tooltip` on hover-leave / touch. The deadline is polled alongside `next_long_press_wakeup` in `try_run` so an idle pointer still gets a wake-up at the firing instant; on fire, `tooltip_overlay()` synthesises an `OverlaySpec` — a rounded `text_primary @ 95%` pill drawn with `bg` text — anchored above the hovered widget, flipping below or clamping inside the screen if it would clip, and pushed alongside the app's own overlays both in the redraw path and in `reconcile_overlays` so the layer surface is created the same frame the tooltip becomes visible. Pointer-only by design: touch events explicitly cancel because a tap-and-release should never linger into a hint. The `showcase` example wires `.tooltip(..)` on the three button variants as a smoke test. The drag pipeline now reports positions in main-surface (global) coordinates instead of per-surface. `surface_offset_for( focus )` derives the top-left of an overlay surface from `SurfaceState::layer_anchor` — newly stored at `reconcile_overlays` time from `OverlaySpec::anchor` — combined with the main surface's dimensions; `on_drag_move`, `on_drop`, the synthetic move emitted on drag-promotion in `pointer.rs`, and the `pending_drag_inits` push site in `gesture::start_drag` all translate before handing coordinates to the app. The motion and release paths additionally `request_redraw()` every overlay so a dock-style drop target painted on an `Anchor::Bottom` layer surface gets repainted as the drag moves — without that, the visible drop indicator only updates when the cursor re-enters the main surface. Drops still target whichever surface fired the release; only the coordinates are unified. `ForeignToplevelListHandler` previously read `app_id` directly via `ForeignToplevelList::info()`. Clients that never set `app_id` (some winit-windowed compositors, simple test clients) were silently invisible to crustace-style docks because the empty string fell through `unwrap_or_default()` and the dock then keyed entries off `""`. `toplevel_display_id()` cascades: prefer `app_id` for desktop-entry matching, fall back to `title` for human-readable identification, and finally to the protocol-issued `identifier` which is always present and unique per handle. Applied to both `new_toplevel` and `update_toplevel`. `theme::system_fontdb()` lazily loads the system font database once via `OnceLock` and reuses the `Arc` for every `decode_svg_bytes` call. resvg's default `Options::fontdb` is empty, so any SVG containing `<text>` rendered with the built-in fallback font or no font at all; with the system DB attached, icons and decorative SVGs with embedded labels now resolve glyphs correctly. Cached because `load_system_fonts()` walks every font path on the system and is comfortably tens of milliseconds on a cold cache — not something to repeat per icon decode. `themes/default/theme.json` tweaks one variant's slot palette: `surface-alt` from `@indigo/D9` to `@white/D9` and `text-primary` from `@white` to `@navy`, plus a cosmetic re-alignment of the `"value"` columns in the same slots block. |
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| bbab5e238d | First commit. Version 0.1.0 |