soulsync/webui
Broque Thomas 871feb3997 Speed up playlist sync with a lazy per-artist track pool
Syncing a playlist where most tracks weren't in the library was burning
~30 SQL queries per missed track. `services/sync_service.py` walked
each Spotify track through `check_track_exists` with no
`candidate_tracks`, hitting the legacy title-variation × artist-variation
grid in `database/music_database.py:6041-6069` for every miss. The
`sync_match_cache` only covered matches, so misses re-paid the full
lookup cost every sync. A 30-track playlist with a 30% match rate
(Discover Weekly was 9/30 in the test run) was taking ~4m14s, almost
entirely in the matching phase.

`check_track_exists` already accepts a `candidate_tracks` kwarg that
skips the SQL widening and scores against an in-memory list (the
batched path at `music_database.py:6031`, originally added for artist
discography iteration). The sync service just wasn't using it.

This commit wires that path in via a lazy per-artist pool:

- `sync_playlist` creates an empty `candidate_pool` dict and passes it
  to each `_find_track_in_media_server` call.
- `_get_or_fetch_artist_candidates` runs SQL for an artist only on the
  first track that needs them — playlists where every track is already
  in `sync_match_cache` pay zero pool cost (no upfront delay).
- Subsequent misses for the same artist hit the memoized list and skip
  the per-variation SQL grid.
- Artists with no library tracks still get a cached empty list, which
  triggers the batched path's instant short-circuit instead of falling
  into the SQL widening.
- Any pool fetch failure returns None so the caller falls through to
  the original per-track SQL loop, so the worst case is the old
  behavior, never a regression.

On a 30-track / 25-unique-artist playlist with a cold cache the SQL
fan-out drops from ~900 queries to ~25; with a warm cache it drops to
zero (no pool fetches at all). Applies to every entry point that goes
through `sync_playlist`: manual sync, auto-sync schedules, the
`playlist_pipeline` automation action, and the Sync All button.
2026-05-24 22:43:32 -07:00
..
docs/migration docs(import): align migration docs 2026-05-24 21:17:22 +03:00
src Fix Zustand shallow import 2026-05-24 14:47:29 -07:00
static Speed up playlist sync with a lazy per-artist track pool 2026-05-24 22:43:32 -07:00
tests fix(webui): preserve import tab refresh URLs 2026-05-24 21:17:20 +03:00
.gitignore Initial Vite app scaffolding & issues page impl 2026-05-13 22:24:46 +03:00
.oxfmtrc.json Split webui tooling into separate configs 2026-05-13 22:26:25 +03:00
.oxlintrc.json Split webui tooling into separate configs 2026-05-13 22:26:25 +03:00
index.html Add playlist auto-sync schedule board 2026-05-24 20:31:03 -07:00
package-lock.json feat(webui): migrate import route to React 2026-05-24 21:11:40 +03:00
package.json feat(webui): migrate import route to React 2026-05-24 21:11:40 +03:00
playwright.config.ts Initial Vite app scaffolding & issues page impl 2026-05-13 22:24:46 +03:00
README.md docs(webui): group migration planning docs 2026-05-23 21:22:44 +03:00
tsconfig.json Split webui tooling into separate configs 2026-05-13 22:26:25 +03:00
vite.config.ts Split webui tooling into separate configs 2026-05-13 22:26:25 +03:00
vitest.config.ts Split webui tooling into separate configs 2026-05-13 22:26:25 +03:00
vitest.setup.ts feat(webui): expose shell status in root context 2026-05-23 21:23:32 +03:00

WebUI Hybrid Rendering

SoulSync's web UI is in a transition phase:

  • most pages still render through the legacy vanilla JS shell
  • /issues is rendered by the new React app
  • a small shell bridge keeps both runtimes aware of the active page, profile context, and navigation state

How It Fits Together

flowchart LR
    Browser["Browser parses /webui/index.html"]
    Legacy["Legacy shell scripts\n(core.js -> ... -> init.js)"]
    Bridge["shell-bridge.js\nwindow.SoulSyncWebShellBridge"]
    React["Vite React app\nsrc/app/main.tsx"]
    Router["TanStack Router\nwindow.SoulSyncWebRouter"]

    Browser --> Legacy
    Browser --> React
    Legacy --> Bridge
    React --> Router
    Router --> Bridge
    Bridge --> Legacy

Runtime Roles

  • webui/static/init.js

    • boots the legacy shell
    • selects the active profile
    • handles the legacy page loading flow
  • webui/static/shell-bridge.js

    • owns the browser-side bridge object
    • exposes window.SoulSyncWebShellBridge
    • owns the shared page chrome and route handoff helpers
  • webui/src/app/main.tsx

    • mounts the React app
    • binds window.SoulSyncWebRouter
  • webui/src/platform/shell/route-controllers.tsx

    • listens for bridge readiness
    • keeps React pages aligned with the shell

Load Order

The current order in index.html matters:

  1. legacy shell scripts load first
  2. init.js sets up the shell runtime
  3. shell-bridge.js publishes the bridge and shared chrome helpers after the shell state exists
  4. the Vite React app is injected through {{ vite_assets('body') }} and boots as a module after parsing

That order avoids load-time references to missing globals and keeps the React side able to react to bridge readiness events. The React entry can start fetching early, but the shell bridge and legacy globals are already available by the time the React runtime starts acting on them.

Notes

  • The bridge is intentionally small and browser-only.
  • This is the start of the migration, not a full replacement of the legacy shell.
  • When adding another React page, check whether it needs:
    • a route entry in webui/src/platform/shell/route-manifest.ts
    • bridge typings in webui/src/platform/shell/globals.d.ts
    • a legacy fallback path in webui/static/init.js
    • bridge glue or handoff logic in webui/static/shell-bridge.js

Folder Layout

The React webui uses a small set of predictable folders so route slices stay easy to extend, test, and understand.

webui/src/
  app/         React bootstrap, router, query client, shared API client
  components/  Shared UI primitives
  platform/    Shell bridge and browser/platform integration
  routes/      Route-local code and TanStack Router pages
  test/        Shared test utilities and setup helpers

Migration planning docs live under webui/docs/migration/.

  • keep the high-level route backlog there
  • add one route-specific sketch per migration task
  • keep migration notes close to the WebUI code rather than the repo root

Route Slices

  • Keep route-specific code inside webui/src/routes/<route>/.
  • Put the routing entry in route.tsx.
  • Put route-local UI in a -ui/ folder.
  • Prefix non-routing files with - so TanStack Router ignores them.
  • Keep the route slice small and cohesive.
  • Prefer a few files with clear responsibilities over many tiny files with overlapping names.

Example:

webui/src/routes/issues/
  route.tsx
  -issues.types.ts
  -issues.api.ts
  -issues.helpers.ts
  -issues.api.test.ts
  -issues.helpers.test.ts
  -ui/
    issues-page.tsx
    issue-detail-modal.tsx
    issue-domain-host.tsx

The initial issues slice is the model to follow:

  • -issues.api.ts holds request code and query options
  • -issues.helpers.ts holds pure normalization and formatting
  • -issues.types.ts holds shared types
  • -ui/ holds the page, modal, and legacy handoff UI

Shared Code

  • Put reusable UI in webui/src/components/.
  • Put shell integration in webui/src/platform/.
  • Put bootstrap and app-wide wiring in webui/src/app/.
  • Move code up a level only when it is genuinely shared.
  • Avoid creating new conventions that overlap with existing ones.

Testing Choices

We have a lot of testing tools available, but we do not need all of them for every feature.

  • Use plain unit tests for pure functions and small transforms.
  • Use React component or route tests when the behavior lives in the UI or router.
  • Use MSW-backed tests when request shape, response handling, or error handling matters.
  • Use Playwright when the behavior is best proven end-to-end with the server and browser together.
  • Prefer the smallest test setup that still proves the thing that can regress.

Development

The repo root now owns the full local-dev instructions. Start there for the portable launcher and backend/frontend setup:

  1. README.md for the end-to-end dev flow
  2. npm run check and npm run fix for React-side linting and formatting