Commit Graph

4 Commits

Author SHA1 Message Date
cfa0faff26 ltk: subsurface slides over overlays, axis-locked swipes, physical-space layout, touch reset on resume
Some checks failed
CI / build + test (push) Has been cancelled
CI / cargo audit (push) Has been cancelled
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.
2026-06-07 16:45:59 +02:00
24f4d2703a ltk: introduce viewport-relative Length so any size, padding, spacing or font height can scale with the surface instead of being frozen at a px constant, fix text::preferred_size to honour the font-declared line gap, and add a responsive typographic scale
Some checks failed
CI / build + test (push) Has been cancelled
CI / cargo audit (push) Has been cancelled
The motivating bug was a lockscreen in a downstream app (eydos-loginmanager) where the clock at 87 px overlapped the date at 24 px on a Pinephone but not on a winit dev screen. The root cause split in two: the layout was wired with a single `f32` spacing constant that worked at the dev resolution and broke at the smaller one, and `text::Text::preferred_size` was returning `ascent - descent` for the line height — fontdue's terminology for "the minimum bounding box of an unaccented line", which deliberately drops the `line_gap` that every typographic renderer (Pango, CoreText, DirectWrite) reserves between adjacent rows. At Sora's 200/em line gap, an 87 px row was visually 17 px taller than the rect the column allocated for it; stacked tight against the row above, the descenders bled into the row below. This commit fixes both halves at the toolkit level so every consumer benefits without bolting on a per-screen `Sizing` helper in their own view code.
`types::Length` (with the `LengthBase` enum behind it) is the new currency for any "how big" or "how far apart" parameter. Six variants — `Px`, `Vw`, `Vh`, `Vmin`, `Vmax`, `Em` — cover the cases a real UI hits: absolute pixels for fixed-chrome decisions, viewport-relative percentages for sizes that have to survive a portrait/landscape rotation, and root-font-size multiples for typographic hierarchy. Optional `min_px` / `max_px` bounds attach to the same `Length` value via `.clamp( lo, hi )` (both ends), `.at_least( lo )` and `.at_most( hi )` (one-sided); the names are intentionally divergent from `f32::min`/`f32::max` to avoid being read with the opposite semantics (`x.min(24)` in std means "the smaller of x and 24", which is the inverse of what a min bound expresses). The bounds are stored as raw `f32` rather than nested `Length` values, which keeps `Length` `Copy` and avoids a `Box` allocation per widget per frame — the bounded-by-relative case (`Vmin(20).clamp(Vmin(10), Vmin(40))`) is rare enough that the trade is the right one. `From<f32>`, `From<i32>` and `From<u32>` are implemented so every legacy `.size( 24.0 )` / `.padding( 8.0 )` / `.spacing( 4.0 )` call keeps compiling unchanged; the migration is opt-in per call site. The `EM_BASE_DEFAULT = 16.0` constant matches `theme::typography::BODY` so `Length::em( 2.0 )` resolves consistently with the body-text default; a future change can thread a theme-supplied em base through without breaking the resolver shape.
The resolver — `Length::resolve( viewport: ( f32, f32 ), em_base: f32 ) -> f32` — runs at layout time against a viewport supplied by the renderer. `Canvas::viewport_logical()` is the new helper that exposes that viewport: it divides the canvas's physical size by `dpi_scale` and falls back to physical size when `dpi_scale <= 0.0`, guarding the misconfigured-canvas path so a Vmin call doesn't poison every downstream measurement with `NaN` or `inf`. The viewport is in **logical** pixels — matching what every wayland `xdg_toplevel.configure` event already hands the client — so `Length::vmin( 18.0 )` on a 360×720-logical Librem 5 portrait surface resolves to 64.8 px and the same expression on a 1600×900 dev screen resolves to 162 px, automatically.
Every widget setter that took an `f32` size, padding, spacing, max-width, or fixed dimension now takes `impl Into<Length>` and stores the value as `Length`:
- `widget::text::Text::size( impl Into<Length> )`; the `size` field is now `Length`. `Text::resolved_size( &Canvas )` is the internal accessor that every measurement / drawing path routes through, so the field can stay `Length` without churning the call sites. `preferred_size` and `draw` now read `new_line_size = ascent - descent + line_gap` from fontdue's `LineMetrics` (the fix for the original bug) — the baseline placement is unchanged, only the row height grows by the font's declared leading, which is what every stacked layout was implicitly relying on.
- `layout::Spacer::height( impl Into<Length> )` / `.width( impl Into<Length> )`; `fixed_height` / `fixed_width` are now `Option<Length>`. New `resolved_height( &Canvas )` / `resolved_width( &Canvas )` helpers replace the direct `s.fixed_height.unwrap_or( 0.0 )` reads in `layout::column`, `layout::row` and `layout::stack`. `Spacer::preferred_size` grows a `&Canvas` parameter for the same reason; `Element::preferred_size` passes the canvas through.
- `layout::Column::spacing` / `.padding` / `.max_width`, `layout::Row::spacing` / `.padding` — all take `impl Into<Length>` and store `Length`. Internal `resolved_spacing( &Canvas )`, `resolved_padding( &Canvas )`, `resolved_max_width( &Canvas )` helpers funnel every read, so the layout code paths stay readable. The column's `inner_w` private helper picks up a `&Canvas` argument; the test that used it directly is updated.
`theme::typography` keeps its historic `f32` constants (`H0`…`BODY_XS`, plus `LINE_HEIGHT`) so the migration is gradual, and adds a parallel responsive scale exposed as functions returning `Length`: `h0()`, `h1()`, `h2()`, `h3()`, `body()`, `body_s()`, `body_xs()`. Each is a `Length::vmin( pct ).clamp( min_px, max_px )` whose percentage is calibrated against a 1000-px smaller side reproducing the legacy px constant exactly, and whose px clamps protect both ends of the spectrum — a 360-px Pinephone hits the lower clamp on the larger headings, a 4K desktop hits the upper one. The tests in `theme::typography` exercise all three regimes (narrow phone, calibration point, large display) so future drift in the percentages or clamps is caught immediately.
`Canvas::viewport_logical` is the only render-surface API touched. None of the existing per-frame paths (`draw_text`, `measure_text`, `font_line_metrics`) change shape, so backends and external embedders aren't disturbed. The `dpi_scale` accessor already existed; this commit only adds the convenience that ratios it against the surface size to return the unit layout actually wants.
Test coverage rounds out the addition rather than just smoke-testing the happy path: 22 new tests, broken down as `types::length_tests` (7 — every variant, clamp with relative value, clamp with swapped bounds, `From<f32>`), `render::viewport_tests` (3 — scale 1, scale 2, scale 0 fallback), `theme::typography::tests` (3 — phone-clamped, calibrated, 4K-clamped), `layout::spacer::tests` (4 — px height, vmin height, vw width, flex spacer reports `None`), `layout::column::tests` (3 new — vmin spacing accumulates, vmin padding, vmin max-width caps inner-w), `layout::row::tests` (2 new — vmin padding, vmin spacing produces correct visible gap between non-flex children regardless of the row's centering anchor), and `widget::text::tests` (3 updated/new — defaults compare against `Length::px(16.0)`, `.size( f32 )` and `.size( Length )` both verified). The existing integration test in `tests/layout_stack_spacer.rs` is updated to call `Spacer::preferred_size( &canvas )` and compare `fixed_height` / `fixed_width` against `Some( Length::px( n ) )`.
Documentation is updated end-to-end so the new API is discoverable from `cargo doc` without grepping the source: `lib.rs` gets a new entry for `Length` under the **Types** section and a new **Designing for multiple resolutions** section that lists the three patterns (relative `Length` for sizing, responsive typography for hierarchy, `view()`-level branching on surface dimensions only when the structure itself must change). `Canvas::viewport_logical` ships with a runnable `assert_eq!` example covering the scale-2 case. The module-level docstrings for `Spacer`, `Column` and `Row` now show both an `f32` example (legacy, still valid) and a `Length::vmin( ... ).clamp( ... )` example for the responsive variant — `cargo doc` renders both side by side so the upgrade path is obvious.
Out of scope for this commit, deliberate: `WrapGrid::spacing_x` / `spacing_y` / `padding`, `widget::text_edit::TextEdit::font_size`, and `widget::image::Image::size` still take `f32`. None of them are on a critical responsive path right now, the `From<f32>` shim means migrating later is a one-line setter signature change per widget, and keeping this commit focused on the widgets the lockscreen actually uses keeps the diff reviewable. The line-gap fix in `text::preferred_size` already benefits `TextEdit` indirectly because its caret/row math reads from the same metrics helpers.
2026-05-24 00:12:50 +02:00
4a80165428 event_loop, a11y, text_shaping: AccessKit AT-SPI2 bridge, cross-app clipboard, xdg-activation, HarfBuzz shaping, multi-touch hooks
Some checks failed
CI / build + test (push) Has been cancelled
CI / cargo audit (push) Has been cancelled
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`).
2026-05-16 22:09:59 +02:00
bbab5e238d First commit. Version 0.1.0 2026-05-10 09:58:23 +02:00