65dd132b3d
Milestone #160 Opt 3 (temporal half). A new additive scoring term that boosts a candidate when its artist's play history concentrates in the CURRENT daypart × weekday-type cell, in the user's local timezone. - Migration 0046: recommendation_weight_profiles.context_time_weight (per-profile scoring weight, DEFAULT 1.0). - Query ListArtistContextPlayCountsForUser: per-artist completed-play counts split by the current cell (daypart night[22,5)/morning[5,12)/ afternoon[12,17)/evening[17,22) × weekday-vs-weekend) via started_at AT TIME ZONE users.timezone; 365-day window, skips excluded. - internal/recommendation/context.go: LoadContextAffinity computes each artist's shrunk cell-share minus the user's baseline share, clamped to [-1,1]; sparse artists shrink toward baseline (pseudo-count 5), unknown artists → 0 (cold-start neutral). - Score() gains context_affinity_score · ContextTimeWeight; both candidate loaders set it per candidate. - Tuning lab: ContextTimeWeight threaded through recsettings + admin API + web card ("Time-of-day weight" row) + Go/web tests. Shipped 1.0 both profiles (uniform start, re-bakeable). Device-class axis deferred to #1551 (needs a client_id → device-class mapping that doesn't exist yet). Co-Authored-By: Claude Opus 4.8 (1M context) <noreply@anthropic.com>
1070 lines
34 KiB
Go
1070 lines
34 KiB
Go
// Code generated by sqlc. DO NOT EDIT.
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// versions:
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// sqlc v1.31.1
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// source: recommendation.sql
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package dbq
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import (
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"context"
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"github.com/jackc/pgx/v5/pgtype"
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)
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const listArtistContextPlayCountsForUser = `-- name: ListArtistContextPlayCountsForUser :many
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WITH tz AS (
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SELECT COALESCE(NULLIF(u.timezone, ''), 'UTC') AS zone
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FROM users u WHERE u.id = $1
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),
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now_cell AS (
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SELECT
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CASE
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WHEN EXTRACT(hour FROM now() AT TIME ZONE tz.zone) < 5 THEN 3
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WHEN EXTRACT(hour FROM now() AT TIME ZONE tz.zone) < 12 THEN 0
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WHEN EXTRACT(hour FROM now() AT TIME ZONE tz.zone) < 17 THEN 1
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WHEN EXTRACT(hour FROM now() AT TIME ZONE tz.zone) < 22 THEN 2
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ELSE 3
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END AS daypart,
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(EXTRACT(isodow FROM now() AT TIME ZONE tz.zone) >= 6) AS is_weekend
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FROM tz
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),
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plays AS (
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SELECT t.artist_id,
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CASE
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WHEN EXTRACT(hour FROM pe.started_at AT TIME ZONE tz.zone) < 5 THEN 3
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WHEN EXTRACT(hour FROM pe.started_at AT TIME ZONE tz.zone) < 12 THEN 0
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WHEN EXTRACT(hour FROM pe.started_at AT TIME ZONE tz.zone) < 17 THEN 1
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WHEN EXTRACT(hour FROM pe.started_at AT TIME ZONE tz.zone) < 22 THEN 2
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ELSE 3
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END AS daypart,
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(EXTRACT(isodow FROM pe.started_at AT TIME ZONE tz.zone) >= 6) AS is_weekend
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FROM play_events pe
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JOIN tracks t ON t.id = pe.track_id
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CROSS JOIN tz
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WHERE pe.user_id = $1
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AND pe.was_skipped = false
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AND pe.started_at > now() - interval '365 days'
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)
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SELECT p.artist_id,
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count(*) AS total_plays,
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count(*) FILTER (
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WHERE p.daypart = (SELECT daypart FROM now_cell)
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AND p.is_weekend = (SELECT is_weekend FROM now_cell)
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) AS cell_plays
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FROM plays p
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GROUP BY p.artist_id
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`
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type ListArtistContextPlayCountsForUserRow struct {
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ArtistID pgtype.UUID
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TotalPlays int64
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CellPlays int64
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}
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// Per-artist completed-play counts split by whether each play falls in the
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// CURRENT daypart × weekday-type cell, in the user's local timezone (#1531).
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// Feeds the context-affinity scoring term: an artist whose plays concentrate
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// in the current cell (vs the user's overall baseline, computed Go-side from
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// these rows) gets boosted right now. Skips excluded; a 365-day window bounds
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// cost. Daypart buckets: night [22,5) morning [5,12) afternoon [12,17)
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// evening [17,22). Weekend = ISO days 6–7 (Sat/Sun).
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func (q *Queries) ListArtistContextPlayCountsForUser(ctx context.Context, id pgtype.UUID) ([]ListArtistContextPlayCountsForUserRow, error) {
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rows, err := q.db.Query(ctx, listArtistContextPlayCountsForUser, id)
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if err != nil {
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return nil, err
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}
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defer rows.Close()
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var items []ListArtistContextPlayCountsForUserRow
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for rows.Next() {
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var i ListArtistContextPlayCountsForUserRow
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if err := rows.Scan(&i.ArtistID, &i.TotalPlays, &i.CellPlays); err != nil {
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return nil, err
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}
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items = append(items, i)
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}
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if err := rows.Err(); err != nil {
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return nil, err
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}
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return items, nil
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}
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const listLastPlayedArtistsForUser = `-- name: ListLastPlayedArtistsForUser :many
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WITH user_plays AS (
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SELECT t.artist_id, max(pe.started_at) AS last_started
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FROM play_events pe
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JOIN tracks t ON t.id = pe.track_id
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WHERE pe.user_id = $1
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GROUP BY t.artist_id
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)
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SELECT a.id, a.name, a.sort_name, a.mbid, a.created_at, a.updated_at, a.artist_thumb_path, a.artist_fanart_path, a.artist_art_source, a.artist_art_sources_version,
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cov.id AS cover_album_id,
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cnt.album_count::bigint AS album_count,
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up.last_started::timestamptz AS last_played_at
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FROM user_plays up
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JOIN artists a ON a.id = up.artist_id
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LEFT JOIN LATERAL (
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SELECT id FROM albums
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WHERE artist_id = a.id AND cover_art_path IS NOT NULL
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ORDER BY created_at DESC LIMIT 1
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) cov ON true
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LEFT JOIN LATERAL (
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SELECT count(*) AS album_count
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FROM albums WHERE artist_id = a.id
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) cnt ON true
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ORDER BY up.last_started DESC, a.id
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LIMIT $2
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`
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type ListLastPlayedArtistsForUserParams struct {
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UserID pgtype.UUID
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Limit int32
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}
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type ListLastPlayedArtistsForUserRow struct {
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Artist Artist
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CoverAlbumID pgtype.UUID
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AlbumCount int64
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LastPlayedAt pgtype.Timestamptz
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}
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// M6a: artists ranked by max(play_events.started_at) for the user, with
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// a derived cover_album_id via a representative-album lateral join (most
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// recent album that has cover_art_path set). album_count joined for the
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// ArtistRef wire shape.
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//
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// Earlier shape iterated `FROM artists a` and ran a LATERAL play_events
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// subquery per artist — O(total_artists) plan even for users with a
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// handful of plays. New shape aggregates the user's plays by artist
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// via the play_events → tracks join up front (uses
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// play_events_user_track_idx + tracks pkey lookups), then attaches
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// the artist row and lateral cover/count subqueries only for the
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// artists that actually appear. Distinct-artists set is small for a
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// typical user, so cost is bounded by play history not library size.
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func (q *Queries) ListLastPlayedArtistsForUser(ctx context.Context, arg ListLastPlayedArtistsForUserParams) ([]ListLastPlayedArtistsForUserRow, error) {
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rows, err := q.db.Query(ctx, listLastPlayedArtistsForUser, arg.UserID, arg.Limit)
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if err != nil {
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return nil, err
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}
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defer rows.Close()
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var items []ListLastPlayedArtistsForUserRow
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for rows.Next() {
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var i ListLastPlayedArtistsForUserRow
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if err := rows.Scan(
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&i.Artist.ID,
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&i.Artist.Name,
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&i.Artist.SortName,
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&i.Artist.Mbid,
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&i.Artist.CreatedAt,
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&i.Artist.UpdatedAt,
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&i.Artist.ArtistThumbPath,
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&i.Artist.ArtistFanartPath,
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&i.Artist.ArtistArtSource,
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&i.Artist.ArtistArtSourcesVersion,
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&i.CoverAlbumID,
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&i.AlbumCount,
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&i.LastPlayedAt,
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); err != nil {
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return nil, err
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}
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items = append(items, i)
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}
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if err := rows.Err(); err != nil {
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return nil, err
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}
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return items, nil
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}
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const listMostPlayedTracksForArtist = `-- name: ListMostPlayedTracksForArtist :many
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WITH plays AS (
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SELECT track_id, count(*) AS cnt
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FROM play_events
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WHERE user_id = $2 AND was_skipped = false
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GROUP BY track_id
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)
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SELECT t.id, t.title, t.album_id, t.artist_id, t.track_number, t.disc_number, t.duration_ms, t.file_path, t.file_size, t.file_format, t.bitrate, t.mbid, t.genre, t.added_at, t.updated_at, t.tag_source, t.tag_sources_version,
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albums.title AS album_title,
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artists.name AS artist_name
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FROM plays p
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JOIN tracks t ON t.id = p.track_id
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JOIN albums ON albums.id = t.album_id
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JOIN artists ON artists.id = t.artist_id
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WHERE t.artist_id = $1
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AND NOT EXISTS (
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SELECT 1 FROM lidarr_quarantine q
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WHERE q.user_id = $2 AND q.track_id = t.id
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)
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ORDER BY p.cnt DESC, t.id
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LIMIT $3
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`
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type ListMostPlayedTracksForArtistParams struct {
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ArtistID pgtype.UUID
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UserID pgtype.UUID
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ResultLimit int32
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}
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type ListMostPlayedTracksForArtistRow struct {
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Track Track
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AlbumTitle string
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ArtistName string
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}
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// Top tracks for one artist by this user's completed-play count (skips
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// excluded, quarantine filtered). Same projection as
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// ListMostPlayedTracksForUser plus an artist_id filter, so the handler
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// reuses trackRefFrom(row.Track, row.AlbumTitle, row.ArtistName).
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func (q *Queries) ListMostPlayedTracksForArtist(ctx context.Context, arg ListMostPlayedTracksForArtistParams) ([]ListMostPlayedTracksForArtistRow, error) {
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rows, err := q.db.Query(ctx, listMostPlayedTracksForArtist, arg.ArtistID, arg.UserID, arg.ResultLimit)
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if err != nil {
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return nil, err
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}
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defer rows.Close()
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var items []ListMostPlayedTracksForArtistRow
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for rows.Next() {
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var i ListMostPlayedTracksForArtistRow
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if err := rows.Scan(
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&i.Track.ID,
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&i.Track.Title,
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&i.Track.AlbumID,
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&i.Track.ArtistID,
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&i.Track.TrackNumber,
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&i.Track.DiscNumber,
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&i.Track.DurationMs,
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&i.Track.FilePath,
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&i.Track.FileSize,
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&i.Track.FileFormat,
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&i.Track.Bitrate,
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&i.Track.Mbid,
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&i.Track.Genre,
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&i.Track.AddedAt,
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&i.Track.UpdatedAt,
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&i.Track.TagSource,
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&i.Track.TagSourcesVersion,
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&i.AlbumTitle,
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&i.ArtistName,
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); err != nil {
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return nil, err
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}
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items = append(items, i)
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}
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if err := rows.Err(); err != nil {
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return nil, err
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}
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return items, nil
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}
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const listMostPlayedTracksForUser = `-- name: ListMostPlayedTracksForUser :many
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WITH plays AS (
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SELECT track_id, count(*) AS cnt
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FROM play_events
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WHERE user_id = $1 AND was_skipped = false
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GROUP BY track_id
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)
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SELECT t.id, t.title, t.album_id, t.artist_id, t.track_number, t.disc_number, t.duration_ms, t.file_path, t.file_size, t.file_format, t.bitrate, t.mbid, t.genre, t.added_at, t.updated_at, t.tag_source, t.tag_sources_version,
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albums.title AS album_title,
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artists.name AS artist_name
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FROM plays p
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JOIN tracks t ON t.id = p.track_id
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JOIN albums ON albums.id = t.album_id
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JOIN artists ON artists.id = t.artist_id
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WHERE NOT EXISTS (
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SELECT 1 FROM lidarr_quarantine q
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WHERE q.user_id = $1 AND q.track_id = t.id
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)
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ORDER BY p.cnt DESC, t.id
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LIMIT $2
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`
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type ListMostPlayedTracksForUserParams struct {
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UserID pgtype.UUID
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Limit int32
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}
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type ListMostPlayedTracksForUserRow struct {
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Track Track
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AlbumTitle string
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ArtistName string
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}
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// M6a: top-N tracks by completed-play count for the user. was_skipped
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// excludes skips so a user spamming next doesn't fabricate a top track.
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// Quarantined tracks (per-user soft-hide from M5b) are filtered out.
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//
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// Aggregate play_events first (uses play_events_user_track_idx) and
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// join through tracks/albums/artists only for the survivors. Earlier
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// shape did the join across every play_event row before grouping —
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// O(plays) instead of O(distinct tracks).
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func (q *Queries) ListMostPlayedTracksForUser(ctx context.Context, arg ListMostPlayedTracksForUserParams) ([]ListMostPlayedTracksForUserRow, error) {
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rows, err := q.db.Query(ctx, listMostPlayedTracksForUser, arg.UserID, arg.Limit)
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if err != nil {
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return nil, err
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}
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defer rows.Close()
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var items []ListMostPlayedTracksForUserRow
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for rows.Next() {
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var i ListMostPlayedTracksForUserRow
|
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if err := rows.Scan(
|
||
&i.Track.ID,
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&i.Track.Title,
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&i.Track.AlbumID,
|
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&i.Track.ArtistID,
|
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&i.Track.TrackNumber,
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&i.Track.DiscNumber,
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&i.Track.DurationMs,
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&i.Track.FilePath,
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&i.Track.FileSize,
|
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&i.Track.FileFormat,
|
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&i.Track.Bitrate,
|
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&i.Track.Mbid,
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&i.Track.Genre,
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&i.Track.AddedAt,
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&i.Track.UpdatedAt,
|
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&i.Track.TagSource,
|
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&i.Track.TagSourcesVersion,
|
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&i.AlbumTitle,
|
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&i.ArtistName,
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); err != nil {
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return nil, err
|
||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
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||
return nil, err
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||
}
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return items, nil
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||
}
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||
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const listRediscoverAlbumsFallbackForUser = `-- name: ListRediscoverAlbumsFallbackForUser :many
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SELECT albums.id, albums.title, albums.sort_title, albums.artist_id, albums.release_date, albums.mbid, albums.cover_art_path, albums.created_at, albums.updated_at, albums.cover_art_source, albums.cover_art_sources_version, artists.name AS artist_name
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FROM general_likes_albums gla
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JOIN albums ON albums.id = gla.album_id
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JOIN artists ON artists.id = albums.artist_id
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WHERE gla.user_id = $1
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ORDER BY md5(albums.id::text || current_date::text)
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LIMIT $2
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`
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type ListRediscoverAlbumsFallbackForUserParams struct {
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UserID pgtype.UUID
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Limit int32
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}
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type ListRediscoverAlbumsFallbackForUserRow struct {
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Album Album
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ArtistName string
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}
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// Daily-stable random sample of liked albums for the user. The Go
|
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// service uses this to top up the rediscover row when the primary
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// eligibility query returns fewer than the inner limit. Same daily
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// hash ordering as the primary so the fallback rows stay stable
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||
// through the day instead of reshuffling on every refresh. Hash
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||
// omits user_id so sqlc can keep the user_id parameter UUID-typed
|
||
// (a $1::text cast would force the param to string); eligibility
|
||
// already differs per user, so output sets differ regardless.
|
||
func (q *Queries) ListRediscoverAlbumsFallbackForUser(ctx context.Context, arg ListRediscoverAlbumsFallbackForUserParams) ([]ListRediscoverAlbumsFallbackForUserRow, error) {
|
||
rows, err := q.db.Query(ctx, listRediscoverAlbumsFallbackForUser, arg.UserID, arg.Limit)
|
||
if err != nil {
|
||
return nil, err
|
||
}
|
||
defer rows.Close()
|
||
var items []ListRediscoverAlbumsFallbackForUserRow
|
||
for rows.Next() {
|
||
var i ListRediscoverAlbumsFallbackForUserRow
|
||
if err := rows.Scan(
|
||
&i.Album.ID,
|
||
&i.Album.Title,
|
||
&i.Album.SortTitle,
|
||
&i.Album.ArtistID,
|
||
&i.Album.ReleaseDate,
|
||
&i.Album.Mbid,
|
||
&i.Album.CoverArtPath,
|
||
&i.Album.CreatedAt,
|
||
&i.Album.UpdatedAt,
|
||
&i.Album.CoverArtSource,
|
||
&i.Album.CoverArtSourcesVersion,
|
||
&i.ArtistName,
|
||
); err != nil {
|
||
return nil, err
|
||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
|
||
return nil, err
|
||
}
|
||
return items, nil
|
||
}
|
||
|
||
const listRediscoverAlbumsForUser = `-- name: ListRediscoverAlbumsForUser :many
|
||
WITH liked_signal AS (
|
||
-- Path (a): explicit album-likes >30 days old.
|
||
SELECT al.id AS album_id, gla.liked_at AS like_at
|
||
FROM general_likes_albums gla
|
||
JOIN albums al ON al.id = gla.album_id
|
||
WHERE gla.user_id = $1
|
||
AND gla.liked_at < now() - interval '30 days'
|
||
UNION ALL
|
||
-- Path (b): >=2 liked tracks per album, earliest like >30 days old.
|
||
SELECT t.album_id, MIN(gl.liked_at) AS like_at
|
||
FROM general_likes gl
|
||
JOIN tracks t ON t.id = gl.track_id
|
||
WHERE gl.user_id = $1
|
||
GROUP BY t.album_id
|
||
HAVING COUNT(*) >= 2
|
||
AND MIN(gl.liked_at) < now() - interval '30 days'
|
||
),
|
||
eligible AS (
|
||
SELECT ls.album_id,
|
||
MIN(ls.like_at) AS like_at,
|
||
max(pe.started_at) AS last_played
|
||
FROM liked_signal ls
|
||
LEFT JOIN tracks t ON t.album_id = ls.album_id
|
||
LEFT JOIN play_events pe ON pe.track_id = t.id AND pe.user_id = $1
|
||
GROUP BY ls.album_id
|
||
HAVING COALESCE(max(pe.started_at), '1970-01-01'::timestamptz)
|
||
< now() - interval '14 days'
|
||
)
|
||
SELECT albums.id, albums.title, albums.sort_title, albums.artist_id, albums.release_date, albums.mbid, albums.cover_art_path, albums.created_at, albums.updated_at, albums.cover_art_source, albums.cover_art_sources_version, artists.name AS artist_name
|
||
FROM eligible e
|
||
JOIN albums ON albums.id = e.album_id
|
||
JOIN artists ON artists.id = albums.artist_id
|
||
ORDER BY md5(albums.id::text || current_date::text)
|
||
LIMIT $2
|
||
`
|
||
|
||
type ListRediscoverAlbumsForUserParams struct {
|
||
UserID pgtype.UUID
|
||
Limit int32
|
||
}
|
||
|
||
type ListRediscoverAlbumsForUserRow struct {
|
||
Album Album
|
||
ArtistName string
|
||
}
|
||
|
||
// Albums eligible for Rediscover via either signal:
|
||
//
|
||
// (a) explicit album-like (general_likes_albums) liked >30 days ago, OR
|
||
// (b) >=2 liked tracks from the album (general_likes), where the
|
||
// earliest such track-like is >30 days ago.
|
||
//
|
||
// AND not played in the last 14 days. The HAVING epoch sentinel keeps
|
||
// albums with NO play history eligible (treated as last-played in 1970).
|
||
// Ordering is daily-stable random (md5 of album+user+date hashes),
|
||
// so the row rotates at midnight local without re-running per request.
|
||
// Final cap + diversity + cross-section dedup land in the Go layer
|
||
// (internal/recommendation/home.go).
|
||
func (q *Queries) ListRediscoverAlbumsForUser(ctx context.Context, arg ListRediscoverAlbumsForUserParams) ([]ListRediscoverAlbumsForUserRow, error) {
|
||
rows, err := q.db.Query(ctx, listRediscoverAlbumsForUser, arg.UserID, arg.Limit)
|
||
if err != nil {
|
||
return nil, err
|
||
}
|
||
defer rows.Close()
|
||
var items []ListRediscoverAlbumsForUserRow
|
||
for rows.Next() {
|
||
var i ListRediscoverAlbumsForUserRow
|
||
if err := rows.Scan(
|
||
&i.Album.ID,
|
||
&i.Album.Title,
|
||
&i.Album.SortTitle,
|
||
&i.Album.ArtistID,
|
||
&i.Album.ReleaseDate,
|
||
&i.Album.Mbid,
|
||
&i.Album.CoverArtPath,
|
||
&i.Album.CreatedAt,
|
||
&i.Album.UpdatedAt,
|
||
&i.Album.CoverArtSource,
|
||
&i.Album.CoverArtSourcesVersion,
|
||
&i.ArtistName,
|
||
); err != nil {
|
||
return nil, err
|
||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
|
||
return nil, err
|
||
}
|
||
return items, nil
|
||
}
|
||
|
||
const listRediscoverArtistsFallbackForUser = `-- name: ListRediscoverArtistsFallbackForUser :many
|
||
SELECT artists.id, artists.name, artists.sort_name, artists.mbid, artists.created_at, artists.updated_at, artists.artist_thumb_path, artists.artist_fanart_path, artists.artist_art_source, artists.artist_art_sources_version,
|
||
cov.id AS cover_album_id,
|
||
cnt.album_count::bigint AS album_count
|
||
FROM general_likes_artists gla
|
||
JOIN artists ON artists.id = gla.artist_id
|
||
LEFT JOIN LATERAL (
|
||
SELECT id FROM albums
|
||
WHERE artist_id = artists.id AND cover_art_path IS NOT NULL
|
||
ORDER BY created_at DESC LIMIT 1
|
||
) cov ON true
|
||
LEFT JOIN LATERAL (
|
||
SELECT count(*) AS album_count
|
||
FROM albums WHERE artist_id = artists.id
|
||
) cnt ON true
|
||
WHERE gla.user_id = $1
|
||
ORDER BY md5(artists.id::text || current_date::text)
|
||
LIMIT $2
|
||
`
|
||
|
||
type ListRediscoverArtistsFallbackForUserParams struct {
|
||
UserID pgtype.UUID
|
||
Limit int32
|
||
}
|
||
|
||
type ListRediscoverArtistsFallbackForUserRow struct {
|
||
Artist Artist
|
||
CoverAlbumID pgtype.UUID
|
||
AlbumCount int64
|
||
}
|
||
|
||
// Daily-stable random sample of liked artists, paired with the Go
|
||
// top-up logic in HomeData when the primary eligibility query returns
|
||
// fewer than the inner limit. Daily hash ordering matches the primary
|
||
// (omitting user_id from the hash for the same sqlc-typing reason).
|
||
func (q *Queries) ListRediscoverArtistsFallbackForUser(ctx context.Context, arg ListRediscoverArtistsFallbackForUserParams) ([]ListRediscoverArtistsFallbackForUserRow, error) {
|
||
rows, err := q.db.Query(ctx, listRediscoverArtistsFallbackForUser, arg.UserID, arg.Limit)
|
||
if err != nil {
|
||
return nil, err
|
||
}
|
||
defer rows.Close()
|
||
var items []ListRediscoverArtistsFallbackForUserRow
|
||
for rows.Next() {
|
||
var i ListRediscoverArtistsFallbackForUserRow
|
||
if err := rows.Scan(
|
||
&i.Artist.ID,
|
||
&i.Artist.Name,
|
||
&i.Artist.SortName,
|
||
&i.Artist.Mbid,
|
||
&i.Artist.CreatedAt,
|
||
&i.Artist.UpdatedAt,
|
||
&i.Artist.ArtistThumbPath,
|
||
&i.Artist.ArtistFanartPath,
|
||
&i.Artist.ArtistArtSource,
|
||
&i.Artist.ArtistArtSourcesVersion,
|
||
&i.CoverAlbumID,
|
||
&i.AlbumCount,
|
||
); err != nil {
|
||
return nil, err
|
||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
|
||
return nil, err
|
||
}
|
||
return items, nil
|
||
}
|
||
|
||
const listRediscoverArtistsForUser = `-- name: ListRediscoverArtistsForUser :many
|
||
WITH liked_signal AS (
|
||
SELECT a.id AS artist_id, gla.liked_at AS like_at
|
||
FROM general_likes_artists gla
|
||
JOIN artists a ON a.id = gla.artist_id
|
||
WHERE gla.user_id = $1
|
||
AND gla.liked_at < now() - interval '30 days'
|
||
UNION ALL
|
||
SELECT t.artist_id, MIN(gl.liked_at) AS like_at
|
||
FROM general_likes gl
|
||
JOIN tracks t ON t.id = gl.track_id
|
||
WHERE gl.user_id = $1
|
||
GROUP BY t.artist_id
|
||
HAVING COUNT(*) >= 3
|
||
AND MIN(gl.liked_at) < now() - interval '30 days'
|
||
),
|
||
eligible AS (
|
||
SELECT ls.artist_id,
|
||
MIN(ls.like_at) AS like_at,
|
||
max(pe.started_at) AS last_played
|
||
FROM liked_signal ls
|
||
LEFT JOIN tracks t ON t.artist_id = ls.artist_id
|
||
LEFT JOIN play_events pe ON pe.track_id = t.id AND pe.user_id = $1
|
||
GROUP BY ls.artist_id
|
||
HAVING COALESCE(max(pe.started_at), '1970-01-01'::timestamptz)
|
||
< now() - interval '14 days'
|
||
)
|
||
SELECT artists.id, artists.name, artists.sort_name, artists.mbid, artists.created_at, artists.updated_at, artists.artist_thumb_path, artists.artist_fanart_path, artists.artist_art_source, artists.artist_art_sources_version,
|
||
cov.id AS cover_album_id,
|
||
cnt.album_count::bigint AS album_count
|
||
FROM eligible e
|
||
JOIN artists ON artists.id = e.artist_id
|
||
LEFT JOIN LATERAL (
|
||
SELECT id FROM albums
|
||
WHERE artist_id = artists.id AND cover_art_path IS NOT NULL
|
||
ORDER BY created_at DESC LIMIT 1
|
||
) cov ON true
|
||
LEFT JOIN LATERAL (
|
||
SELECT count(*) AS album_count
|
||
FROM albums WHERE artist_id = artists.id
|
||
) cnt ON true
|
||
ORDER BY md5(artists.id::text || current_date::text)
|
||
LIMIT $2
|
||
`
|
||
|
||
type ListRediscoverArtistsForUserParams struct {
|
||
UserID pgtype.UUID
|
||
Limit int32
|
||
}
|
||
|
||
type ListRediscoverArtistsForUserRow struct {
|
||
Artist Artist
|
||
CoverAlbumID pgtype.UUID
|
||
AlbumCount int64
|
||
}
|
||
|
||
// Artists eligible for Rediscover via either signal:
|
||
//
|
||
// (a) explicit artist-like (general_likes_artists) liked >30 days ago, OR
|
||
// (b) >=3 liked tracks from the artist (general_likes), where the
|
||
// earliest such track-like is >30 days ago.
|
||
//
|
||
// AND none of their tracks played in the last 14 days. Higher track
|
||
// threshold than the album path (3 vs 2) because artists span many
|
||
// releases, so the bar is higher to avoid surfacing one-hit-wonder
|
||
// affinities. Ordering is daily-stable random (md5 of artist+user+date
|
||
// hashes). cover_album_id derived from a representative album (most
|
||
// recently created album with cover_art_path set).
|
||
func (q *Queries) ListRediscoverArtistsForUser(ctx context.Context, arg ListRediscoverArtistsForUserParams) ([]ListRediscoverArtistsForUserRow, error) {
|
||
rows, err := q.db.Query(ctx, listRediscoverArtistsForUser, arg.UserID, arg.Limit)
|
||
if err != nil {
|
||
return nil, err
|
||
}
|
||
defer rows.Close()
|
||
var items []ListRediscoverArtistsForUserRow
|
||
for rows.Next() {
|
||
var i ListRediscoverArtistsForUserRow
|
||
if err := rows.Scan(
|
||
&i.Artist.ID,
|
||
&i.Artist.Name,
|
||
&i.Artist.SortName,
|
||
&i.Artist.Mbid,
|
||
&i.Artist.CreatedAt,
|
||
&i.Artist.UpdatedAt,
|
||
&i.Artist.ArtistThumbPath,
|
||
&i.Artist.ArtistFanartPath,
|
||
&i.Artist.ArtistArtSource,
|
||
&i.Artist.ArtistArtSourcesVersion,
|
||
&i.CoverAlbumID,
|
||
&i.AlbumCount,
|
||
); err != nil {
|
||
return nil, err
|
||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
|
||
return nil, err
|
||
}
|
||
return items, nil
|
||
}
|
||
|
||
const loadRadioCandidates = `-- name: LoadRadioCandidates :many
|
||
SELECT
|
||
t.id, t.title, t.album_id, t.artist_id, t.track_number, t.disc_number, t.duration_ms, t.file_path, t.file_size, t.file_format, t.bitrate, t.mbid, t.genre, t.added_at, t.updated_at, t.tag_source, t.tag_sources_version,
|
||
(l.user_id IS NOT NULL)::bool AS is_liked,
|
||
pe.last_played_at::timestamptz AS last_played_at,
|
||
pe.play_count,
|
||
pe.skip_count,
|
||
al.release_date AS release_date
|
||
FROM tracks t
|
||
JOIN albums al ON al.id = t.album_id
|
||
LEFT JOIN general_likes l ON l.user_id = $1 AND l.track_id = t.id
|
||
LEFT JOIN LATERAL (
|
||
SELECT
|
||
max(started_at) AS last_played_at,
|
||
count(*) AS play_count,
|
||
count(*) FILTER (WHERE was_skipped) AS skip_count
|
||
FROM play_events
|
||
WHERE user_id = $1 AND track_id = t.id
|
||
) pe ON true
|
||
WHERE t.id <> $2
|
||
AND NOT EXISTS (
|
||
SELECT 1 FROM play_events
|
||
WHERE user_id = $1 AND track_id = t.id
|
||
AND started_at > now() - $3 * interval '1 hour'
|
||
)
|
||
AND NOT EXISTS (
|
||
SELECT 1 FROM lidarr_quarantine q
|
||
WHERE q.user_id = $1 AND q.track_id = t.id
|
||
)
|
||
`
|
||
|
||
type LoadRadioCandidatesParams struct {
|
||
UserID pgtype.UUID
|
||
ID pgtype.UUID
|
||
Column3 interface{}
|
||
}
|
||
|
||
type LoadRadioCandidatesRow struct {
|
||
Track Track
|
||
IsLiked bool
|
||
LastPlayedAt pgtype.Timestamptz
|
||
PlayCount int64
|
||
SkipCount int64
|
||
ReleaseDate pgtype.Date
|
||
}
|
||
|
||
// Returns all tracks except the seed and any played by the user within
|
||
// the last $3 hours, joined with the stats needed for scoring:
|
||
//
|
||
// is_liked — boolean from general_likes for this user
|
||
// last_played_at — max(play_events.started_at) for this user/track
|
||
// play_count — count of play_events for this user/track
|
||
// skip_count — play_events where was_skipped=true
|
||
func (q *Queries) LoadRadioCandidates(ctx context.Context, arg LoadRadioCandidatesParams) ([]LoadRadioCandidatesRow, error) {
|
||
rows, err := q.db.Query(ctx, loadRadioCandidates, arg.UserID, arg.ID, arg.Column3)
|
||
if err != nil {
|
||
return nil, err
|
||
}
|
||
defer rows.Close()
|
||
var items []LoadRadioCandidatesRow
|
||
for rows.Next() {
|
||
var i LoadRadioCandidatesRow
|
||
if err := rows.Scan(
|
||
&i.Track.ID,
|
||
&i.Track.Title,
|
||
&i.Track.AlbumID,
|
||
&i.Track.ArtistID,
|
||
&i.Track.TrackNumber,
|
||
&i.Track.DiscNumber,
|
||
&i.Track.DurationMs,
|
||
&i.Track.FilePath,
|
||
&i.Track.FileSize,
|
||
&i.Track.FileFormat,
|
||
&i.Track.Bitrate,
|
||
&i.Track.Mbid,
|
||
&i.Track.Genre,
|
||
&i.Track.AddedAt,
|
||
&i.Track.UpdatedAt,
|
||
&i.Track.TagSource,
|
||
&i.Track.TagSourcesVersion,
|
||
&i.IsLiked,
|
||
&i.LastPlayedAt,
|
||
&i.PlayCount,
|
||
&i.SkipCount,
|
||
&i.ReleaseDate,
|
||
); err != nil {
|
||
return nil, err
|
||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
|
||
return nil, err
|
||
}
|
||
return items, nil
|
||
}
|
||
|
||
const loadRadioCandidatesV2 = `-- name: LoadRadioCandidatesV2 :many
|
||
|
||
WITH
|
||
seed_artist AS (
|
||
SELECT artist_id
|
||
FROM tracks
|
||
WHERE tracks.id = $2
|
||
),
|
||
seed_tags AS (
|
||
SELECT trim(g) AS tag
|
||
FROM tracks t
|
||
LEFT JOIN LATERAL regexp_split_to_table(coalesce(t.genre, ''), '[;,]') AS g(tag) ON true
|
||
WHERE t.id = $2 AND trim(g) <> ''
|
||
),
|
||
excluded_ids AS (
|
||
SELECT unnest($4::uuid[]) AS id
|
||
UNION ALL
|
||
SELECT pe.track_id AS id
|
||
FROM play_events pe
|
||
WHERE pe.user_id = $1 AND pe.started_at > now() - $3 * interval '1 hour'
|
||
UNION ALL
|
||
SELECT q.track_id AS id
|
||
FROM lidarr_quarantine q
|
||
WHERE q.user_id = $1
|
||
),
|
||
lb_similar AS (
|
||
SELECT ts.track_b_id AS track_id, ts.score AS sim_score
|
||
FROM track_similarity ts
|
||
WHERE ts.track_a_id = $2
|
||
AND ts.source = 'listenbrainz'
|
||
AND ts.track_b_id NOT IN (SELECT id FROM excluded_ids)
|
||
ORDER BY ts.score DESC
|
||
LIMIT $5
|
||
),
|
||
similar_artists AS (
|
||
SELECT t.id AS track_id, asim.score * 0.5 AS sim_score
|
||
FROM artist_similarity asim
|
||
JOIN tracks t ON t.artist_id = asim.artist_b_id
|
||
JOIN seed_artist sa ON asim.artist_a_id = sa.artist_id
|
||
WHERE asim.source = 'listenbrainz'
|
||
AND t.id NOT IN (SELECT id FROM excluded_ids)
|
||
ORDER BY asim.score DESC, random()
|
||
LIMIT $6
|
||
),
|
||
tag_overlap AS (
|
||
SELECT t.id AS track_id,
|
||
(count(DISTINCT trim(g))::float8
|
||
/ GREATEST((SELECT count(*) FROM seed_tags), 1)) AS sim_score
|
||
FROM tracks t
|
||
LEFT JOIN LATERAL regexp_split_to_table(coalesce(t.genre, ''), '[;,]') AS g_split(g) ON true
|
||
WHERE trim(g_split.g) IN (SELECT tag FROM seed_tags)
|
||
AND t.id NOT IN (SELECT id FROM excluded_ids)
|
||
AND t.id <> $2
|
||
GROUP BY t.id
|
||
HAVING count(DISTINCT trim(g_split.g)) > 0
|
||
ORDER BY sim_score DESC
|
||
LIMIT $7
|
||
),
|
||
likes_overlap AS (
|
||
SELECT gl.track_id, 0.6::float8 AS sim_score
|
||
FROM general_likes gl
|
||
WHERE gl.user_id = $1
|
||
AND gl.track_id NOT IN (SELECT id FROM excluded_ids)
|
||
AND EXISTS (
|
||
SELECT 1 FROM tracks t
|
||
LEFT JOIN LATERAL regexp_split_to_table(coalesce(t.genre, ''), '[;,]') AS g_overlap(g) ON true
|
||
WHERE t.id = gl.track_id
|
||
AND trim(g_overlap.g) IN (SELECT tag FROM seed_tags)
|
||
)
|
||
ORDER BY random()
|
||
LIMIT $8
|
||
),
|
||
taste_overlap AS (
|
||
SELECT t.id AS track_id, 0.0::float8 AS sim_score
|
||
FROM taste_profile_artists tpa
|
||
JOIN tracks t ON t.artist_id = tpa.artist_id
|
||
WHERE tpa.user_id = $1
|
||
AND tpa.weight > 0
|
||
AND t.id NOT IN (SELECT id FROM excluded_ids)
|
||
AND t.id <> $2
|
||
ORDER BY tpa.weight DESC, t.id
|
||
LIMIT $10
|
||
),
|
||
random_fill AS (
|
||
SELECT t.id AS track_id, 0.0::float8 AS sim_score
|
||
FROM tracks t
|
||
WHERE t.id NOT IN (SELECT id FROM excluded_ids)
|
||
AND t.id <> $2
|
||
AND t.id NOT IN (
|
||
SELECT track_id FROM lb_similar
|
||
UNION SELECT track_id FROM similar_artists
|
||
UNION SELECT track_id FROM tag_overlap
|
||
UNION SELECT track_id FROM likes_overlap
|
||
UNION SELECT track_id FROM taste_overlap
|
||
)
|
||
ORDER BY random()
|
||
LIMIT $9
|
||
)
|
||
SELECT
|
||
t.id, t.title, t.album_id, t.artist_id, t.track_number, t.disc_number, t.duration_ms, t.file_path, t.file_size, t.file_format, t.bitrate, t.mbid, t.genre, t.added_at, t.updated_at, t.tag_source, t.tag_sources_version,
|
||
(l.user_id IS NOT NULL)::bool AS is_liked,
|
||
pe.last_played_at::timestamptz AS last_played_at,
|
||
pe.play_count,
|
||
pe.skip_count,
|
||
al.release_date AS release_date,
|
||
COALESCE(max(u.sim_score), 0.0) AS similarity_score
|
||
FROM (
|
||
SELECT track_id, sim_score FROM lb_similar
|
||
UNION ALL SELECT track_id, sim_score FROM similar_artists
|
||
UNION ALL SELECT track_id, sim_score FROM tag_overlap
|
||
UNION ALL SELECT track_id, sim_score FROM likes_overlap
|
||
UNION ALL SELECT track_id, sim_score FROM taste_overlap
|
||
UNION ALL SELECT track_id, sim_score FROM random_fill
|
||
) u
|
||
JOIN tracks t ON t.id = u.track_id
|
||
JOIN albums al ON al.id = t.album_id
|
||
LEFT JOIN general_likes l ON l.user_id = $1 AND l.track_id = t.id
|
||
LEFT JOIN LATERAL (
|
||
SELECT max(started_at) AS last_played_at,
|
||
count(*) AS play_count,
|
||
count(*) FILTER (WHERE was_skipped) AS skip_count
|
||
FROM play_events
|
||
WHERE user_id = $1 AND track_id = t.id
|
||
) pe ON true
|
||
GROUP BY t.id, t.title, t.album_id, t.artist_id, t.duration_ms, t.file_path,
|
||
t.file_format, t.file_size, t.bitrate, t.track_number, t.disc_number,
|
||
t.mbid, t.genre, t.added_at, t.updated_at,
|
||
l.user_id, pe.last_played_at, pe.play_count, pe.skip_count,
|
||
al.release_date
|
||
`
|
||
|
||
type LoadRadioCandidatesV2Params struct {
|
||
UserID pgtype.UUID
|
||
ID pgtype.UUID
|
||
Column3 interface{}
|
||
Column4 []pgtype.UUID
|
||
Limit int32
|
||
Limit_2 int32
|
||
Limit_3 int32
|
||
Limit_4 int32
|
||
Limit_5 int32
|
||
Limit_6 int32
|
||
}
|
||
|
||
type LoadRadioCandidatesV2Row struct {
|
||
Track Track
|
||
IsLiked bool
|
||
LastPlayedAt pgtype.Timestamptz
|
||
PlayCount int64
|
||
SkipCount int64
|
||
ReleaseDate pgtype.Date
|
||
SimilarityScore interface{}
|
||
}
|
||
|
||
// M4c: similarity-driven candidate pool. 6-way UNION:
|
||
//
|
||
// $1 user_id, $2 seed_track_id, $3 recently_played_hours,
|
||
// $4 exclude (uuid[]), $5 lb_similar K, $6 similar_artists K,
|
||
// $7 tag_overlap K, $8 likes_overlap K, $9 random_fill K,
|
||
// $10 taste_overlap K (#796 phase 2b — tracks by the user's top
|
||
// positively-weighted taste-profile artists, so taste-relevant tracks
|
||
// enter the pool even when the similarity/random arms miss them; scored
|
||
// in Go via TasteMatch, so sim_score here is 0 pool-inclusion).
|
||
//
|
||
// Returns same shape as LoadRadioCandidates plus similarity_score column.
|
||
func (q *Queries) LoadRadioCandidatesV2(ctx context.Context, arg LoadRadioCandidatesV2Params) ([]LoadRadioCandidatesV2Row, error) {
|
||
rows, err := q.db.Query(ctx, loadRadioCandidatesV2,
|
||
arg.UserID,
|
||
arg.ID,
|
||
arg.Column3,
|
||
arg.Column4,
|
||
arg.Limit,
|
||
arg.Limit_2,
|
||
arg.Limit_3,
|
||
arg.Limit_4,
|
||
arg.Limit_5,
|
||
arg.Limit_6,
|
||
)
|
||
if err != nil {
|
||
return nil, err
|
||
}
|
||
defer rows.Close()
|
||
var items []LoadRadioCandidatesV2Row
|
||
for rows.Next() {
|
||
var i LoadRadioCandidatesV2Row
|
||
if err := rows.Scan(
|
||
&i.Track.ID,
|
||
&i.Track.Title,
|
||
&i.Track.AlbumID,
|
||
&i.Track.ArtistID,
|
||
&i.Track.TrackNumber,
|
||
&i.Track.DiscNumber,
|
||
&i.Track.DurationMs,
|
||
&i.Track.FilePath,
|
||
&i.Track.FileSize,
|
||
&i.Track.FileFormat,
|
||
&i.Track.Bitrate,
|
||
&i.Track.Mbid,
|
||
&i.Track.Genre,
|
||
&i.Track.AddedAt,
|
||
&i.Track.UpdatedAt,
|
||
&i.Track.TagSource,
|
||
&i.Track.TagSourcesVersion,
|
||
&i.IsLiked,
|
||
&i.LastPlayedAt,
|
||
&i.PlayCount,
|
||
&i.SkipCount,
|
||
&i.ReleaseDate,
|
||
&i.SimilarityScore,
|
||
); err != nil {
|
||
return nil, err
|
||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
|
||
return nil, err
|
||
}
|
||
return items, nil
|
||
}
|
||
|
||
const suggestArtistsForUser = `-- name: SuggestArtistsForUser :many
|
||
WITH seeds AS (
|
||
SELECT a.id AS artist_id,
|
||
5.0 * (CASE WHEN gla.artist_id IS NOT NULL THEN 1 ELSE 0 END)
|
||
+ COALESCE(SUM(EXP(- EXTRACT(epoch FROM now() - pe.started_at) / ($2::float8 * 86400.0))), 0)
|
||
AS signal,
|
||
(gla.artist_id IS NOT NULL) AS is_liked,
|
||
COUNT(pe.id)::bigint AS play_count
|
||
FROM artists a
|
||
LEFT JOIN general_likes_artists gla ON gla.artist_id = a.id AND gla.user_id = $1
|
||
LEFT JOIN tracks t ON t.artist_id = a.id
|
||
LEFT JOIN play_events pe ON pe.track_id = t.id AND pe.user_id = $1
|
||
WHERE gla.artist_id IS NOT NULL OR pe.id IS NOT NULL
|
||
GROUP BY a.id, gla.artist_id
|
||
),
|
||
contributions AS (
|
||
SELECT u.candidate_mbid,
|
||
u.candidate_name,
|
||
seeds.artist_id AS seed_id,
|
||
seeds.is_liked,
|
||
seeds.play_count,
|
||
seeds.signal * u.score AS contribution
|
||
FROM artist_similarity_unmatched u
|
||
JOIN seeds ON seeds.artist_id = u.seed_artist_id
|
||
WHERE NOT EXISTS (SELECT 1 FROM artists WHERE mbid = u.candidate_mbid)
|
||
AND NOT EXISTS (
|
||
SELECT 1 FROM lidarr_requests r
|
||
WHERE r.user_id = $1
|
||
AND r.lidarr_artist_mbid = u.candidate_mbid
|
||
AND r.status NOT IN ('rejected', 'failed')
|
||
)
|
||
)
|
||
SELECT candidate_mbid,
|
||
candidate_name,
|
||
SUM(contribution)::float8 AS total_score,
|
||
((array_agg(seed_id ORDER BY contribution DESC))[1:3])::uuid[] AS top_seed_ids,
|
||
((array_agg(contribution ORDER BY contribution DESC))[1:3])::float8[] AS top_contributions,
|
||
((array_agg(is_liked ORDER BY contribution DESC))[1:3])::boolean[] AS top_is_liked,
|
||
((array_agg(play_count ORDER BY contribution DESC))[1:3])::bigint[] AS top_play_counts
|
||
FROM contributions
|
||
GROUP BY candidate_mbid, candidate_name
|
||
ORDER BY total_score DESC
|
||
LIMIT $3
|
||
`
|
||
|
||
type SuggestArtistsForUserParams struct {
|
||
UserID pgtype.UUID
|
||
Column2 float64
|
||
Limit int32
|
||
}
|
||
|
||
type SuggestArtistsForUserRow struct {
|
||
CandidateMbid string
|
||
CandidateName string
|
||
TotalScore float64
|
||
TopSeedIds []pgtype.UUID
|
||
TopContributions []float64
|
||
TopIsLiked []bool
|
||
TopPlayCounts []int64
|
||
}
|
||
|
||
// M5c: per-user artist suggestions ranked by signal x similarity. The
|
||
// seeds CTE collects the user's likes (x5) plus recency-decayed plays
|
||
// (exp(-age_days / $2)). The contributions CTE joins those seeds against
|
||
// artist_similarity_unmatched and filters out candidates already in
|
||
// library or already in a non-terminal lidarr_request. The outer SELECT
|
||
// aggregates per candidate, returning the top-3 contributing seeds for
|
||
// attribution. $1=user_id, $2=half_life_days, $3=limit.
|
||
func (q *Queries) SuggestArtistsForUser(ctx context.Context, arg SuggestArtistsForUserParams) ([]SuggestArtistsForUserRow, error) {
|
||
rows, err := q.db.Query(ctx, suggestArtistsForUser, arg.UserID, arg.Column2, arg.Limit)
|
||
if err != nil {
|
||
return nil, err
|
||
}
|
||
defer rows.Close()
|
||
var items []SuggestArtistsForUserRow
|
||
for rows.Next() {
|
||
var i SuggestArtistsForUserRow
|
||
if err := rows.Scan(
|
||
&i.CandidateMbid,
|
||
&i.CandidateName,
|
||
&i.TotalScore,
|
||
&i.TopSeedIds,
|
||
&i.TopContributions,
|
||
&i.TopIsLiked,
|
||
&i.TopPlayCounts,
|
||
); err != nil {
|
||
return nil, err
|
||
}
|
||
items = append(items, i)
|
||
}
|
||
if err := rows.Err(); err != nil {
|
||
return nil, err
|
||
}
|
||
return items, nil
|
||
}
|