GRDB

Overview

Direct SQLite access using GRDB.swift — a toolkit for SQLite databases with type-safe queries, migrations, and reactive observation.

Core principle Type-safe Swift wrapper around raw SQL with full SQLite power when you need it.

Requires iOS 13+, Swift 5.7+ License MIT (free and open source)

When to Use GRDB

Use raw GRDB when you need

• ✅ Complex SQL joins across multiple tables
• ✅ Custom aggregation queries (GROUP BY, HAVING)
• ✅ Reactive queries with ValueObservation
• ✅ Full control over SQL for performance
• ✅ Advanced migration logic

Use SQLiteData instead when

• Type-safe @Table models are sufficient
• CloudKit sync needed
• Prefer declarative queries over SQL

Use SwiftData when

• Simple CRUD with native Apple integration
• Don't need raw SQL control

For migrations See the database-migration skill for safe schema evolution patterns.

Example Prompts

These are real questions developers ask that this skill is designed to answer:

1. "I need to query messages with their authors and count of reactions in one query. How do I write the JOIN?"

→ The skill shows complex JOIN queries with multiple tables and aggregations

2. "I want to observe a filtered list and update the UI whenever notes with a specific tag change."

→ The skill covers ValueObservation patterns for reactive query updates

3. "I'm importing thousands of chat records and need custom migration logic. How do I use DatabaseMigrator?"

→ The skill explains migration registration, data transforms, and safe rollback patterns

4. "My query is slow (takes 10+ seconds). How do I profile and optimize it?"

→ The skill covers EXPLAIN QUERY PLAN, database.trace for profiling, and index creation

5. "I need to fetch tasks grouped by due date with completion counts, ordered by priority. Raw SQL seems easier than type-safe queries."

→ The skill demonstrates when GRDB's raw SQL is clearer than type-safe wrappers

---

Database Setup

DatabaseQueue (Single Connection)

import GRDB

// File-based database
let dbPath = NSSearchPathForDirectoriesInDomains(.documentDirectory, .userDomainMask, true)[0]
let dbQueue = try DatabaseQueue(path: "\(dbPath)/db.sqlite")

// In-memory database (tests)
let dbQueue = try DatabaseQueue()

DatabasePool (Connection Pool)

// For apps with heavy concurrent access
let dbPool = try DatabasePool(path: dbPath)

Use Queue for Most apps (simpler, sufficient) Use Pool for Heavy concurrent writes from multiple threads

Record Types

Using Codable

struct Track: Codable {
    var id: String
    var title: String
    var artist: String
    var duration: TimeInterval
}

// Fetch
let tracks = try dbQueue.read { db in
    try Track.fetchAll(db, sql: "SELECT * FROM tracks")
}

// Insert
try dbQueue.write { db in
    try track.insert(db)  // Codable conformance provides insert
}

FetchableRecord (Read-Only)

struct TrackInfo: FetchableRecord {
    var title: String
    var artist: String
    var albumTitle: String

    init(row: Row) {
        title = row["title"]
        artist = row["artist"]
        albumTitle = row["album_title"]
    }
}

let results = try dbQueue.read { db in
    try TrackInfo.fetchAll(db, sql: """
        SELECT tracks.title, tracks.artist, albums.title as album_title
        FROM tracks
        JOIN albums ON tracks.albumId = albums.id
        """)
}

PersistableRecord (Write)

struct Track: Codable, PersistableRecord {
    var id: String
    var title: String

    // Customize table name
    static let databaseTableName = "tracks"
}

try dbQueue.write { db in
    var track = Track(id: "1", title: "Song")
    try track.insert(db)

    track.title = "Updated"
    try track.update(db)

    try track.delete(db)
}

Raw SQL Queries

Reading Data

// Fetch all rows
let rows = try dbQueue.read { db in
    try Row.fetchAll(db, sql: "SELECT * FROM tracks WHERE genre = ?", arguments: ["Rock"])
}

// Fetch single value
let count = try dbQueue.read { db in
    try Int.fetchOne(db, sql: "SELECT COUNT(*) FROM tracks")
}

// Fetch into Codable
let tracks = try dbQueue.read { db in
    try Track.fetchAll(db, sql: "SELECT * FROM tracks ORDER BY title")
}

Writing Data

try dbQueue.write { db in
    try db.execute(sql: """
        INSERT INTO tracks (id, title, artist, duration)
        VALUES (?, ?, ?, ?)
        """, arguments: ["1", "Song", "Artist", 240])
}

Transactions

try dbQueue.write { db in
    // Automatic transaction - all or nothing
    for track in tracks {
        try track.insert(db)
    }
    // Commits automatically on success, rolls back on error
}

Type-Safe Query Interface

Filtering

let request = Track
    .filter(Column("genre") == "Rock")
    .filter(Column("duration") > 180)

let tracks = try dbQueue.read { db in
    try request.fetchAll(db)
}

Sorting

let request = Track
    .order(Column("title").asc)
    .limit(10)

Joins

struct TrackWithAlbum: FetchableRecord {
    var trackTitle: String
    var albumTitle: String
}

let request = Track
    .joining(required: Track.belongsTo(Album.self))
    .select(Column("title").forKey("trackTitle"), Column("album_title").forKey("albumTitle"))

let results = try dbQueue.read { db in
    try TrackWithAlbum.fetchAll(db, request)
}

Complex Joins

let sql = """
    SELECT
        tracks.title as track_title,
        albums.title as album_title,
        artists.name as artist_name,
        COUNT(plays.id) as play_count
    FROM tracks
    JOIN albums ON tracks.albumId = albums.id
    JOIN artists ON albums.artistId = artists.id
    LEFT JOIN plays ON plays.trackId = tracks.id
    WHERE artists.genre = ?
    GROUP BY tracks.id
    HAVING play_count > 10
    ORDER BY play_count DESC
    LIMIT 50
    """

struct TrackStats: FetchableRecord {
    var trackTitle: String
    var albumTitle: String
    var artistName: String
    var playCount: Int

    init(row: Row) {
        trackTitle = row["track_title"]
        albumTitle = row["album_title"]
        artistName = row["artist_name"]
        playCount = row["play_count"]
    }
}

let stats = try dbQueue.read { db in
    try TrackStats.fetchAll(db, sql: sql, arguments: ["Rock"])
}

ValueObservation (Reactive Queries)

Basic Observation

import GRDB
import Combine

let observation = ValueObservation.tracking { db in
    try Track.fetchAll(db)
}

// Start observing with Combine
let cancellable = observation.publisher(in: dbQueue)
    .sink(
        receiveCompletion: { _ in },
        receiveValue: { tracks in
            print("Tracks updated: \(tracks.count)")
        }
    )

SwiftUI Integration

import GRDB
import GRDBQuery  // https://github.com/groue/GRDBQuery

@Query(Tracks())
var tracks: [Track]

struct Tracks: Queryable {
    static var defaultValue: [Track] { [] }

    func publisher(in dbQueue: DatabaseQueue) -> AnyPublisher<[Track], Error> {
        ValueObservation
            .tracking { db in try Track.fetchAll(db) }
            .publisher(in: dbQueue)
            .eraseToAnyPublisher()
    }
}

See GRDBQuery documentation for SwiftUI reactive bindings.

Filtered Observation

func observeGenre(_ genre: String) -> ValueObservation<[Track]> {
    ValueObservation.tracking { db in
        try Track
            .filter(Column("genre") == genre)
            .fetchAll(db)
    }
}

let cancellable = observeGenre("Rock")
    .publisher(in: dbQueue)
    .sink { tracks in
        print("Rock tracks: \(tracks.count)")
    }

Migrations

DatabaseMigrator

var migrator = DatabaseMigrator()

// Migration 1: Create tables
migrator.registerMigration("v1") { db in
    try db.create(table: "tracks") { t in
        t.column("id", .text).primaryKey()
        t.column("title", .text).notNull()
        t.column("artist", .text).notNull()
        t.column("duration", .real).notNull()
    }
}

// Migration 2: Add column
migrator.registerMigration("v2_add_genre") { db in
    try db.alter(table: "tracks") { t in
        t.add(column: "genre", .text)
    }
}

// Migration 3: Add index
migrator.registerMigration("v3_add_indexes") { db in
    try db.create(index: "idx_genre", on: "tracks", columns: ["genre"])
}

// Run migrations
try migrator.migrate(dbQueue)

For migration safety patterns See the database-migration skill.

Migration with Data Transform

migrator.registerMigration("v4_normalize_artists") { db in
    // 1. Create new table
    try db.create(table: "artists") { t in
        t.column("id", .text).primaryKey()
        t.column("name", .text).notNull()
    }

    // 2. Extract unique artists
    try db.execute(sql: """
        INSERT INTO artists (id, name)
        SELECT DISTINCT
            lower(replace(artist, ' ', '_')) as id,
            artist as name
        FROM tracks
        """)

    // 3. Add foreign key to tracks
    try db.alter(table: "tracks") { t in
        t.add(column: "artistId", .text)
            .references("artists", onDelete: .cascade)
    }

    // 4. Populate foreign keys
    try db.execute(sql: """
        UPDATE tracks
        SET artistId = (
            SELECT id FROM artists
            WHERE artists.name = tracks.artist
        )
        """)
}

Performance Patterns

Batch Writes

try dbQueue.write { db in
    for batch in tracks.chunked(into: 500) {
        for track in batch {
            try track.insert(db)
        }
    }
}

Prepared Statements

try dbQueue.write { db in
    let statement = try db.makeStatement(sql: """
        INSERT INTO tracks (id, title, artist, duration)
        VALUES (?, ?, ?, ?)
        """)

    for track in tracks {
        try statement.execute(arguments: [track.id, track.title, track.artist, track.duration])
    }
}

Indexes

try db.create(index: "idx_tracks_artist", on: "tracks", columns: ["artist"])
try db.create(index: "idx_tracks_genre_duration", on: "tracks", columns: ["genre", "duration"])

// Unique index
try db.create(index: "idx_tracks_unique_title", on: "tracks", columns: ["title"], unique: true)

Query Planning

// Analyze query performance
let explanation = try dbQueue.read { db in
    try String.fetchOne(db, sql: "EXPLAIN QUERY PLAN SELECT * FROM tracks WHERE artist = ?", arguments: ["Artist"])
}
print(explanation)

Dropping Down from SQLiteData

When using SQLiteData but need GRDB for specific operations:

import SQLiteData
import GRDB

@Dependency(\.database) var database  // SQLiteData Database

// Access underlying GRDB DatabaseQueue
try await database.database.write { db in
    // Full GRDB power here
    try db.execute(sql: "CREATE INDEX idx_genre ON tracks(genre)")
}

Common scenarios

• Complex JOIN queries
• Custom migrations
• Bulk SQL operations
• ValueObservation setup

Quick Reference

Common Operations

// Read single value
let count = try db.fetchOne(Int.self, sql: "SELECT COUNT(*) FROM tracks")

// Read all rows
let rows = try Row.fetchAll(db, sql: "SELECT * FROM tracks WHERE genre = ?", arguments: ["Rock"])

// Write
try db.execute(sql: "INSERT INTO tracks VALUES (?, ?, ?)", arguments: [id, title, artist])

// Transaction
try dbQueue.write { db in
    // All or nothing
}

// Observe changes
ValueObservation.tracking { db in
    try Track.fetchAll(db)
}.publisher(in: dbQueue)

External Resources

GRDB

• GitHub
• Documentation
• [SQL

ite Documentation](https://www.sqlite.org/docs.html)

SwiftUI Integration

• GRDBQuery — SwiftUI reactive bindings

Related Axiom Skills

• database-migration - Safe schema evolution
• sqlitedata - Type-safe @Table models with CloudKit
• swiftdata - Apple's native persistence

Production Performance: Query Optimization Under Pressure

Red Flags — When GRDB Queries Slow Down

If you see ANY of these symptoms:

• ❌ Complex JOIN query takes 10+ seconds
• ❌ ValueObservation runs on every single change (battery drain)
• ❌ Can't explain why migration ran twice on old version

DO NOT

1. Blindly add indexes (don't know which columns help)
2. Move logic to Swift (premature escape from database)
3. Over-engineer migrations (distrust the system)

DO

1. Profile with database.trace
2. Use EXPLAIN QUERY PLAN to understand execution
3. Trust GRDB's migration versioning system

Profiling Complex Queries

When query is slow (10+ seconds)

var database = try DatabaseQueue(path: dbPath)

// Enable tracing to see SQL execution
database.trace { print($0) }

// Run the slow query
try database.read { db in
    let results = try Track.fetchAll(db)  // Watch output for execution time
}

// Use EXPLAIN QUERY PLAN to understand execution:
try database.read { db in
    let plan = try String(fetching: db, sql: "EXPLAIN QUERY PLAN SELECT ...")
    print(plan)
    // Look for SCAN (slow, full table) vs SEARCH (fast, indexed)
}

Add indexes strategically

// Add index on frequently queried column
try database.write { db in
    try db.execute(sql: "CREATE INDEX idx_plays_track_id ON plays(track_id)")
}

Time cost

• Profile: 10 min (enable trace, run query, read output)
• Understand: 5 min (interpret EXPLAIN QUERY PLAN)
• Fix: 5 min (add index)
• Total: 20 minutes (vs 30+ min blindly trying solutions)

ValueObservation Performance

When using reactive queries, know the costs

// Re-evaluates query on ANY write to database
ValueObservation.tracking { db in
    try Track.fetchAll(db)
}.start(in: database, onError: { }, onChange: { tracks in
    // Called for every change — CPU spike!
})

Optimization patterns

// Coalesce rapid updates (recommended)
ValueObservation.tracking { db in
    try Track.fetchAll(db)
}.removeDuplicates()  // Skip duplicate results
 .debounce(for: 0.5, scheduler: DispatchQueue.main)  // Batch updates
 .start(in: database, ...)

Decision framework

• Small datasets (<1000 records): Use plain .tracking
• Medium datasets (1-10k records): Add .removeDuplicates() + .debounce()
• Large datasets (10k+ records): Use explicit table dependencies or predicates

Migration Versioning Guarantees

Trust GRDB's DatabaseMigrator - it prevents re-running migrations

var migrator = DatabaseMigrator()

migrator.registerMigration("v1_initial") { db in
    try db.execute(sql: "CREATE TABLE tracks (...)")
}

migrator.registerMigration("v2_add_plays") { db in
    try db.execute(sql: "CREATE TABLE plays (...)")
}

// GRDB guarantees:
// - Each migration runs exactly ONCE
// - In order (v1, then v2)
// - Safe to call migrate() multiple times
try migrator.migrate(dbQueue)

You don't need defensive SQL (IF NOT EXISTS)

• GRDB tracks which migrations have run
• Running migrate() twice only executes new ones
• Over-engineering adds complexity without benefit

Trust it.

---

Common Mistakes

❌ Not using transactions for batch writes

for track in 50000Tracks {
    try dbQueue.write { db in try track.insert(db) }  // 50k transactions!
}

Fix Single transaction with batches

❌ Synchronous database access on main thread

let tracks = try dbQueue.read { db in try Track.fetchAll(db) }  // Blocks UI

Fix Use async/await or dispatch to background queue

❌ Forgetting to add indexes

// Slow query without index
try Track.filter(Column("genre") == "Rock").fetchAll(db)

Fix Create indexes on frequently queried columns

❌ N+1 queries

for track in tracks {
    let album = try Album.fetchOne(db, key: track.albumId)  // N queries!
}

Fix Use JOIN or batch fetch

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Targets: iOS 13+, Swift 5.7+ Framework: GRDB.swift 6.0+ History: See git log for changes