Resolve all compiler warnings across daw-backend, lightningbeam-core, and
lightningbeam-editor:
- Delete dead code: the superseded CPU raster tools in raster_tool.rs
(EffectBrush/Smudge/Gradient/Transform/Warp/Liquify/Selection — replaced by
the GPU path), plus orphaned helpers and never-read struct fields.
- Mechanical fixes: drop unused imports/variables/mut, underscore unused params,
`drop(&x)` -> `let _ = x`, deprecated egui::Rounding -> CornerRadius, snake_case
rename, elided-lifetime Cow<'_, [u8]>.
- Keep the WIP CSS theming system (theme.rs/theme_render.rs) under
#[allow(dead_code)] rather than deleting it.
Editor checks warning-free; 293 core tests pass.
`tween_after == Shape` was stored on keyframes but never read. Now the
render path morphs geometry across a shape-tween span:
- VectorGraph::interpolated(other, t): same-topology lerp of vertex
positions, edge curves, stroke widths and stroke/fill colours. Returns
None when topology differs (counts, deleted flags, edge endpoints, fill
boundaries), so the caller holds the source keyframe.
- VectorLayer::tweened_graph_at(time): returns an owned morphed graph for
a shape-tween span whose two keyframes share topology, else borrows the
held keyframe. Editing still uses graph_at_time (the held keyframe).
- Renderer (Vello + CPU paths) renders via tweened_graph_at.
- SetTweenAction + wired the previously-stubbed "Add Shape Tween" menu.
The typical workflow — keyframe, duplicate it (same topology), move
vertices, Add Shape Tween — now morphs between the two. Non-matching
topology falls back to a hold.
Creating the first transform keyframe for a clip instance at frame N left
the curve with a single keyframe, which Hold-extrapolates backward — so
moving it at frame N also moved it on every earlier frame (frame 1).
When SetKeyframeAction creates a brand-new curve for a clip instance and
the clip already existed before `time`, also anchor a keyframe at the
clip's start (its group visibility start, or timeline_start for movie
clips) with the original value. Earlier frames now hold the original
position and the move produces a proper tween from start to N.
Also capture the clip instance's actual on-stage value when keying (its
base transform), instead of a generic 0/identity default, so a new
keyframe doesn't snap the clip to the origin.
Adds VectorLayer::group_visibility_start and tests covering the anchor and
the no-double-anchor case (keying at the clip's own start).
Collapse the two parallel selection systems into one. The RegionSelect
tool (rect + lasso) now cuts the geometry along the region outline and
selects the resulting sub-pieces into the standard `Selection` ID-sets,
exactly like every other tool. The vestigial floating `RegionSelection`
(drag never wired; commit/delete/copy were stubbed) and all its plumbing
are removed, so Group, Convert-to-Movie-Clip, Delete, and Properties all
operate uniformly from lasso, rect, marquee, and click selections.
Region cutting is reworked onto a robust planar arrangement:
- Replace fragile incremental "split a fill by one cut edge" logic with
planar face re-tracing (`retrace_fills_after_cut` + `trace_faces`),
which correctly handles arbitrary holed/concave fills.
- `extract_subgraph` no longer frees vertices still referenced by kept
boundary edges (fixed Group leaving freed-but-referenced vertices that
a later alloc reused and corrupted).
- `split_fill_by_*` direction fix (was producing disconnected boundaries
rendered as stray diagonals).
- `fill_interior_point` (area-centroid + inward-step fallback) for
reliable inside/outside classification of non-convex pieces.
- Coincident-edge dedupe + degenerate-fill removal (edge-adjacent shapes
no longer make zero-area sliver fills).
- Dangling-edge pruning, near-coincident endpoint welding, induced-
subgraph expansion, and tracking of `split_edge` sub-edges, so
self-intersecting freehand lassos cut correctly.
Region-select capture is available behind LIGHTNINGBEAM_DUMP_REGION=1 for
turning a misbehaving cut into a deterministic test. Extensive regression
tests added in vector_graph/tests/region_cut_select.rs.
Both actions were DCEL-stubs (no-ops). They now extract the selected geometry from a
vector layer's active keyframe into a new VectorClip (group vs movie clip) and place a
ClipInstance in its place (identity transform → renders where the geometry was), which
the existing transform-animation system can motion-tween.
- Shared `clip_from_geometry::extract_geometry_to_clip` (+ undo) does the work; the
actions are thin wrappers. Undo snapshots the source graph + removes the clip/instance.
- `extract_subgraph` now DERIVES shared-fill boundary edges internally (an inside edge
still used by a non-extracted fill must be duplicated, not moved) and unions them with
the caller's `explicit_boundary` — so a plain geometry selection needs no boundary
analysis (the selection already includes fill boundary edges via `select_fill`). The
region-select caller keeps passing its lasso boundary.
- Handlers: Group / Convert to Movie Clip on a geometry selection now build these actions
from `selected_fills`/`selected_edges`.
Next: shape tweens (same-topology lerp).
- SetImageFillAction (core): set/clear `image_fill` on the selected VectorGraph fills,
with per-fill undo (mirrors SetFillPaintAction). Image takes render priority; clearing
reveals the colour/gradient underneath.
- Info Panel Shape section: an "Image:" combo listing the document's image assets (+ None)
for the selected fill(s), showing the current assignment. Assign/clear pushes the action.
This lets an existing shape be given (or cleared of) an image fill, complementing the
import/drop placement. Next: 3.5b — persist image assets in the .beam container.
Replaces the DCEL "not yet supported" stubs so importing/dropping an image actually
puts it in the vector scene.
- AddShapeAction gains an `image_fill` + `AddShapeAction::image_rect(...)` constructor:
a borderless rectangle (invisible edges) whose enclosed region is paint-bucketed and
tagged with an image asset id. The renderer already prioritises `image_fill`.
- Direct import (auto_place_asset): an imported image is placed centered on the canvas
at native size on a vector layer.
- Drag from the asset library onto the stage: image-filled rect at the drop point
(centered), native size, using the asset's dimensions.
Next: SetImageFillAction + an Info-Panel image-fill picker for existing shapes; then
3.5b container persistence.
Make raster layers behave like vector on the timeline.
- Timeline: draw a diamond per `RasterKeyframe` (mirrors the vector keyframe block).
- New Keyframe (K / menu): on a raster layer, insert a BLANK cel at the playhead via
a new undoable `AddRasterKeyframeAction` (+ `RasterLayer::insert_blank_keyframe_at`
/ `remove_keyframe`). Vector path unchanged.
- Stop lazy creation: paint tools now edit the ACTIVE keyframe (at-or-before the
playhead) instead of creating one. The brush captures the active keyframe's exact
time; `RasterStroke`/`RasterFillAction` resolve via `keyframe_at_mut` (error if
none); the tool-site `ensure_keyframe_at` blocks (brush/fill/bucket/wand/quick-
select/floating-lift) are removed — each read already bails when no keyframe exists.
New layers still seed a keyframe at the playhead, so there's normally one to paint
into; painting before the first keyframe is now a no-op (as intended).
Next: onion skinning.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The brush commits via a GPU-canvas readback and relies on the action's first
execute() to SET raw_pixels from that readback — at that point raw_pixels is empty
(new keyframe) or the pre-stroke state, never something a dirty-rect diff can stamp
onto. My initial diff-only execute skipped (to avoid corruption), so the stroke
disappeared.
Fix: the action keeps the full post-edit buffer ONLY for the first execute (the
commit), assigning raw_pixels outright exactly like the old code; it's taken/dropped
immediately, so the action sitting in the undo stack still retains just the small
diff. Redo replays via the diff onto the now-resident base.
Also harden the diff itself for the blank-base case: `before_blank` lets apply_after
build from a transparent buffer (redo of a first stroke after undo-to-blank) and
apply_before restore to empty; the resident-base skip is kept only for non-blank
bases (faulted in before undo/redo). Tests cover commit/redo from empty.
`RasterStrokeAction`/`RasterFillAction` stored the whole before+after RGBA frame
(~16 MB/action at 1080p → up to ~1.6 GB at the 100-action cap). They now store a
`RasterDiff` — only the changed bounding box's pixels before and after — computed
once in `new()` from the full buffers, which are then dropped. A brush dab shrinks
from ~16 MB to tens of KB; a full-canvas fill is unchanged (its bbox is the frame).
Paging interaction: a diff overwrites just the bbox, so the keyframe's pixels must
be resident when undo/redo applies. A clean evicted frame's container bytes equal
its current logical state, so the editor faults the target frame in (synchronously)
before undo/redo via a new `Action::raster_resident_hint` + `peek_undo/redo_raster_hint`.
Dirty frames are never evicted, so they're already resident. If a base is somehow
not resident the apply is skipped (logged), never resized-and-corrupted.
Unit tests cover exact before/after round-trip, blank-first-stroke, no-op, and the
non-resident-base skip.
Scrubbing a large paint project no longer accumulates every visited frame in RAM.
A fault-in-recency LRU keeps the most-recently-paged-in RASTER_RESIDENT_MAX (12)
keyframes resident and drops the pixels of older *clean* ones (re-arming their
fault-in so they re-page on revisit). The shown frame is always the most-recent
fault-in, so it's never evicted.
Data-loss safety: a new `dirty` flag marks any keyframe whose `raw_pixels` were
mutated by editing (stroke/fill/paint-bucket/floating-lift + their undo/redo) and
is NOT yet in the container. Dirty keyframes are NEVER evicted — they're only
unpinned from the LRU. The flag is cleared on a successful save, which also re-arms
the LRU for the now-clean resident frames so the bound still applies to frames
edited this session.
Also: the save loop now walks all layers (incl. nested) to match the load path's
recursive fault-in arming — evicted frames keep their existing container row
(media_exists), and nested raster keyframes are persisted + covered by live_media.
Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
The lib unit tests had gone stale (time values became newtypes) and no longer
compiled. Updated the test code to the current API and fixed the few real issues
the now-running tests surfaced.
Test-only:
- Wrap raw f64 time literals in Beats(...) where the API now takes Beats
(automation.rs); pass &TempoMap / Beats where signatures changed (clip.rs,
effect_layer.rs).
- shape.rs: assert the documented no-fill default (fill_color None) instead of Some.
- add_clip_instance / trim_clip_instances tests: register a vector clip with the
test's clip_id so the action's get_clip_duration lookup succeeds.
Production fix (delete_folder.rs):
- DeleteFolderAction(MoveToParent) reparented child subfolders to the deleted
folder's parent but never restored them on undo, orphaning them. Track the moved
subfolder ids and restore their parent on rollback.
Result: daw-backend lib 17 passed; lightningbeam-core lib 264 passed.
Migrate the .beam container to SQLite and stream media from it instead of
decoding whole files into RAM on import/load.
Container & large files:
- SQLite .beam container (beam_archive) with in-place transactional saves and an
incremental BlobReader; supports both packed (chunked blobs) and referenced
(external path) media, with a user preference + first-import prompt for files
over the large-media threshold.
Audio streaming:
- Stream packed compressed audio on load via an inversion-of-control blob factory
(AudioBlobSourceFactory): daw-backend defines the trait, core implements it
over BlobReader, so the audio engine stays container-agnostic.
- Bulk-activate disk streaming for all loaded clips after SetProject.
- Sample-accurate compressed seek (SeekMode::Accurate; Coarse mislands on VBR).
Video:
- Video frames decoded/streamed on demand; thumbnails generated asynchronously
on a dedicated decoder so import/load never blocks the UI.
- The video's audio track is streamed on demand via an ffmpeg VideoAudioReader
as a separate editable AudioClip (no /tmp WAV extraction).
Waveform overview:
- Streaming min/max LOD pyramid (waveform_pyramid), bounded memory, configurable
floor B; serialized into the container and restored on load (or generated in
the background from the packed blob when absent), so no re-decode on reload.
- GPU min/max upload path; integer-LOD textureLoad fixes zoom-dependent wobble.