Skillshub axiom-sqlitedata
Use when working with SQLiteData @Table models, CRUD operations, query patterns, CloudKit SyncEngine setup, or batch imports. Covers model definitions, @FetchAll/@FetchOne, upsert patterns, database setup with Dependencies.
install
source · Clone the upstream repo
git clone https://github.com/ComeOnOliver/skillshub
Claude Code · Install into ~/.claude/skills/
T=$(mktemp -d) && git clone --depth=1 https://github.com/ComeOnOliver/skillshub "$T" && mkdir -p ~/.claude/skills && cp -r "$T/skills/CharlesWiltgen/Axiom/axiom-sqlitedata" ~/.claude/skills/comeonoliver-skillshub-axiom-sqlitedata && rm -rf "$T"
manifest:
skills/CharlesWiltgen/Axiom/axiom-sqlitedata/SKILL.mdsource content
SQLiteData
Overview
Type-safe SQLite persistence using SQLiteData (pointfreeco/sqlite-data) by Point-Free. A fast, lightweight replacement for SwiftData with CloudKit synchronization support, built on GRDB (groue/GRDB.swift) and StructuredQueries (pointfreeco/swift-structured-queries).
Core principle: Value types (
struct@Tabledatabase.write { }For advanced patterns (CTEs, views, custom aggregates, schema composition), see the
axiom-sqlitedata-refRequires: iOS 17+, Swift 6 strict concurrency License: MIT
When to Use SQLiteData
Choose SQLiteData when you need:
- Type-safe SQLite with compiler-checked queries
- CloudKit sync with record sharing
- Large datasets (50k+ records) with near-raw-SQLite performance
- Value types (structs) instead of classes
- Swift 6 strict concurrency support
Use SwiftData instead when:
- Simple CRUD with native Apple integration
- Prefer
classes over structs@Model - Don't need CloudKit record sharing
Use raw GRDB when:
- Complex SQL joins across 4+ tables
- Custom migration logic beyond schema changes
- Performance-critical operations needing manual SQL
Quick Reference
// MODEL @Table nonisolated struct Item: Identifiable { let id: UUID // First let = auto primary key var title = "" // Default = non-nullable var notes: String? // Optional = nullable @Column(as: Color.Hex.self) var color: Color = .blue // Custom representation @Ephemeral var isSelected = false // Not persisted } // SETUP prepareDependencies { $0.defaultDatabase = try! appDatabase() } @Dependency(\.defaultDatabase) var database // FETCH @FetchAll var items: [Item] @FetchAll(Item.order(by: \.title).where(\.isInStock)) var items @FetchOne(Item.count()) var count = 0 // FETCH (static helpers - v1.4.0+) try Item.fetchAll(db) // vs Item.all.fetchAll(db) try Item.find(db, key: id) // returns non-optional Item // INSERT try database.write { db in try Item.insert { Item.Draft(title: "New") }.execute(db) } // UPDATE (single) try database.write { db in try Item.find(id).update { $0.title = #bind("Updated") }.execute(db) } // UPDATE (bulk) try database.write { db in try Item.where(\.isInStock).update { $0.notes = #bind("") }.execute(db) } // DELETE try database.write { db in try Item.find(id).delete().execute(db) try Item.where { $0.id.in(ids) }.delete().execute(db) // bulk } // QUERY Item.where(\.isActive) // Keypath (simple) Item.where { $0.title.contains("phone") } // Closure (complex) Item.where { $0.status.eq(#bind(.done)) } // Enum comparison Item.order(by: \.title) // Sort Item.order { $0.createdAt.desc() } // Sort descending Item.limit(10).offset(20) // Pagination // RAW SQL (#sql macro) #sql("SELECT * FROM items WHERE price > 100") // Type-safe raw SQL #sql("coalesce(date(\(dueDate)) = date(\(now)), 0)") // Custom expressions // CLOUDKIT (v1.2-1.4+) prepareDependencies { $0.defaultSyncEngine = try SyncEngine( for: $0.defaultDatabase, tables: Item.self ) } @Dependency(\.defaultSyncEngine) var syncEngine // Manual sync control (v1.3.0+) try await syncEngine.fetchChanges() // Pull from CloudKit try await syncEngine.sendChanges() // Push to CloudKit try await syncEngine.syncChanges() // Bidirectional // Sync state observation (v1.2.0+) syncEngine.isSendingChanges // true during upload syncEngine.isFetchingChanges // true during download syncEngine.isSynchronizing // either sending or fetching
Anti-Patterns (Common Mistakes)
❌ Using ==
in predicates
==// WRONG — removed in StructuredQueries 0.31+ (compiler error) .where { $0.status == .completed } // CORRECT — use comparison methods .where { $0.status.eq(#bind(.completed)) }
❌ Missing #bind
in update assignments (StructuredQueries 0.31+)
#bind// WRONG — compiler error in StructuredQueries 0.31+ Item.find(id).update { $0.title = "New" }.execute(db) // CORRECT — wrap literal values with #bind Item.find(id).update { $0.title = #bind("New") }.execute(db) // NOTE: Compound operators (+=, -=) don't need #bind — they auto-bind Item.find(id).update { $0.title += "!" }.execute(db) // OK
❌ Wrong update order
// WRONG — .update before .where Item.update { $0.title = #bind("X") }.where { $0.id.eq(#bind(id)) } // CORRECT — .find() for single, .where() before .update() for bulk Item.find(id).update { $0.title = #bind("X") }.execute(db) Item.where(\.isOld).update { $0.archived = #bind(true) }.execute(db)
❌ Instance methods for insert
// WRONG — no instance insert method let item = Item(id: UUID(), title: "Test") try item.insert(db) // CORRECT — static insert with .Draft try Item.insert { Item.Draft(title: "Test") }.execute(db)
❌ Missing nonisolated
nonisolated// WRONG — Swift 6 concurrency warning @Table struct Item { ... } // CORRECT @Table nonisolated struct Item { ... }
❌ Awaiting inside write block
// WRONG — write block is synchronous try await database.write { db in ... } // CORRECT — no await inside the block try database.write { db in try Item.insert { ... }.execute(db) }
❌ Forgetting .execute(db)
.execute(db)// WRONG — builds query but doesn't run it try database.write { db in Item.insert { Item.Draft(title: "X") } // Does nothing! } // CORRECT try database.write { db in try Item.insert { Item.Draft(title: "X") }.execute(db) }
@Table Model Definitions
Basic Table
import SQLiteData @Table nonisolated struct Item: Identifiable { let id: UUID // First `let` = auto primary key var title = "" var isInStock = true var notes = "" }
Key patterns:
- Use
, notstruct
(value types)class - Add
for Swift 6 concurrencynonisolated - First
property is automatically the primary keylet - Use defaults (
,= ""
) for non-nullable columns= true - Optional properties (
) map to nullable SQL columnsString?
Custom Primary Key
@Table nonisolated struct Tag: Hashable, Identifiable { @Column(primaryKey: true) var title: String // Custom primary key var id: String { title } }
Column Customization
@Table nonisolated struct RemindersList: Hashable, Identifiable { let id: UUID @Column(as: Color.HexRepresentation.self) // Custom type representation var color: Color = .blue var position = 0 var title = "" }
Foreign Keys
@Table nonisolated struct Reminder: Hashable, Identifiable { let id: UUID var title = "" var remindersListID: RemindersList.ID // Foreign key (explicit column) } @Table nonisolated struct Attendee: Hashable, Identifiable { let id: UUID var name = "" var syncUpID: SyncUp.ID // References parent }
Note: SQLiteData uses explicit foreign key columns. Relationships are expressed through joins, not
@RelationshipQuerying Related Tables (Joins)
Don't fetch all records and filter in Swift — push filtering to the database:
// ❌ Anti-pattern: Fetch all, filter in Swift let allReminders = try database.read { try Reminder.all.fetch($0) } let filtered = allReminders.filter { $0.remindersListID == listID } // ✅ Filter at database level let filtered = try database.read { try Reminder.all .filter { $0.remindersListID.eq(#bind(listID)) } .fetch($0) } // ✅ Join across tables with filtering let remindersWithList = try database.read { try Reminder.all .join(RemindersList.all) { $0.remindersListID.eq($1.id) } .filter { $1.name.eq(#bind("Shopping")) } .fetch($0) } // ✅ Left join (include reminders even if no list) let allWithOptionalList = try database.read { try Reminder.all .leftJoin(RemindersList.all) { $0.remindersListID.eq($1.id) } .fetch($0) }
For complex joins across 4+ tables, drop down to raw GRDB (see
axiom-grdb@Ephemeral — Non-Persisted Properties
Mark properties that exist in Swift but not in the database:
@Table nonisolated struct Item: Identifiable { let id: UUID var title = "" var price: Decimal = 0 @Ephemeral var isSelected = false // Not stored in database @Ephemeral var formattedPrice: String { // Computed, not stored "$\(price)" } }
Use cases:
- UI state (selection, expansion, hover)
- Computed properties derived from stored columns
- Transient flags for business logic
- Default values for properties not yet in schema
Important:
@EphemeralDatabase Setup
Create Database
import Dependencies import SQLiteData import GRDB func appDatabase() throws -> any DatabaseWriter { var configuration = Configuration() configuration.prepareDatabase { db in // Configure database behavior db.trace { print("SQL: \($0)") } // Optional SQL logging } let database = try DatabaseQueue(configuration: configuration) var migrator = DatabaseMigrator() // Register migrations migrator.registerMigration("v1") { db in try #sql( """ CREATE TABLE "items" ( "id" TEXT PRIMARY KEY NOT NULL DEFAULT (uuid()), "title" TEXT NOT NULL DEFAULT '', "isInStock" INTEGER NOT NULL DEFAULT 1, "notes" TEXT NOT NULL DEFAULT '' ) STRICT """ ) .execute(db) } try migrator.migrate(database) return database }
Register in Dependencies
extension DependencyValues { var defaultDatabase: any DatabaseWriter { get { self[DefaultDatabaseKey.self] } set { self[DefaultDatabaseKey.self] = newValue } } } private enum DefaultDatabaseKey: DependencyKey { static let liveValue: any DatabaseWriter = { try! appDatabase() }() } // In app init or @main prepareDependencies { $0.defaultDatabase = try! appDatabase() }
Query Patterns
Property Wrappers (@FetchAll, @FetchOne)
The primary way to observe database changes in SwiftUI:
struct ItemsList: View { @FetchAll(Item.order(by: \.title)) var items var body: some View { List(items) { item in Text(item.title) } } }
Key behaviors:
- Automatically subscribes to database changes
- Updates when any
changesItem - Runs on the main thread
- Cancels observation when view disappears (iOS 17+)
@FetchOne for Aggregates
struct StatsView: View { @FetchOne(Item.count()) var totalCount = 0 @FetchOne(Item.where(\.isInStock).count()) var inStockCount = 0 var body: some View { Text("Total: \(totalCount), In Stock: \(inStockCount)") } }
Lifecycle-Aware Fetching (v1.4.0+)
Use
.taskstruct ItemsList: View { @Fetch(Item.all, animation: .default) private var items = [Item]() @State var searchQuery = "" var body: some View { List(items) { item in Text(item.title) } .searchable(text: $searchQuery) .task(id: searchQuery) { // Automatically cancels when view disappears or searchQuery changes try? await $items.load( Item.where { $0.title.contains(searchQuery) } .order(by: \.title) ).task // ← .task for auto-cancellation } } }
Before v1.4.0 (manual cleanup):
.task { try? await $items.load(query) } .onDisappear { Task { try await $items.load(Item.none) } }
With v1.4.0 (automatic):
.task { try? await $items.load(query).task // Auto-cancels }
Filtering
// Simple keypath filter let active = Item.where(\.isActive) // Complex closure filter let recent = Item.where { $0.createdAt > lastWeek && !$0.isArchived } // Contains/prefix/suffix let matches = Item.where { $0.title.contains("phone") } let starts = Item.where { $0.title.hasPrefix("iPhone") }
Sorting
// Single column let sorted = Item.order(by: \.title) // Descending let descending = Item.order { $0.createdAt.desc() } // Multiple columns let multiSort = Item.order { ($0.priority, $0.createdAt.desc()) }
Static Fetch Helpers (v1.4.0+)
Cleaner syntax for fetching:
// OLD (verbose) let items = try Item.all.fetchAll(db) let item = try Item.find(id).fetchOne(db) // returns Optional<Item> // NEW (concise) let items = try Item.fetchAll(db) let item = try Item.find(db, key: id) // returns Item (non-optional) // Works with where clauses too let active = try Item.where(\.isActive).find(db, key: id)
Key improvement:
.find(db, key:)Insert / Update / Delete
Insert
try database.write { db in try Item.insert { Item.Draft(title: "New Item", isInStock: true) } .execute(db) }
Insert with RETURNING (get generated ID)
let newId = try database.write { db in try Item.insert { Item.Draft(title: "New Item") } .returning(\.id) .fetchOne(db) }
Update Single Record
try database.write { db in try Item.find(itemId) .update { $0.title = #bind("Updated Title") } .execute(db) }
Update Multiple Records
try database.write { db in try Item.where(\.isArchived) .update { $0.isDeleted = #bind(true) } .execute(db) }
Delete
// Delete single try database.write { db in try Item.find(id).delete().execute(db) } // Delete multiple try database.write { db in try Item.where { $0.createdAt < cutoffDate } .delete() .execute(db) }
Upsert (Insert or Update)
SQLite's UPSERT (
INSERT ... ON CONFLICT ... DO UPDATEtry database.write { db in try Item.insert { item } onConflict: { cols in (cols.libraryID, cols.remoteID) // Conflict target columns } doUpdate: { row, excluded in row.name = excluded.name // Merge semantics row.notes = excluded.notes } .execute(db) }
Parameters
— Columns defining "same row" (must match UNIQUE constraint/index)onConflict:
— What to update on conflictdoUpdate:
= existing database rowrow
= proposed insert values (SQLite'sexcluded
table)excluded
With Partial Unique Index
When your UNIQUE index has a
WHEREtry Item.insert { item } onConflict: { cols in (cols.libraryID, cols.remoteID) } where: { cols in cols.remoteID.isNot(nil) // Match partial index condition } doUpdate: { row, excluded in row.name = excluded.name } .execute(db)
Schema Requirement
CREATE UNIQUE INDEX idx_items_sync_identity ON items (libraryID, remoteID) WHERE remoteID IS NOT NULL
Merge Strategies
Replace All Mutable Fields (Sync Mirror)
doUpdate: { row, excluded in row.name = excluded.name row.notes = excluded.notes row.updatedAt = excluded.updatedAt }
Merge Without Clobbering
doUpdate: { row, excluded in row.name = excluded.name.ifnull(row.name) row.notes = excluded.notes.ifnull(row.notes) }
Last-Write-Wins (Raw SQL)
try db.execute(sql: """ INSERT INTO items (id, name, updatedAt) VALUES (?, ?, ?) ON CONFLICT(id) DO UPDATE SET name = excluded.name, updatedAt = excluded.updatedAt WHERE excluded.updatedAt >= items.updatedAt """, arguments: [item.id, item.name, item.updatedAt]) // Use >= to handle timestamp ties (last arrival wins)
❌ Common Upsert Mistakes
Missing UNIQUE Constraint
// WRONG — no index to conflict against onConflict: { ($0.libraryID, $0.remoteID) } // but table has no UNIQUE(libraryID, remoteID)
Using INSERT OR REPLACE
// WRONG — REPLACE deletes then inserts, breaking FK relationships try db.execute(sql: "INSERT OR REPLACE INTO items ...") // CORRECT — use ON CONFLICT for true upsert try Item.insert { ... } onConflict: { ... } doUpdate: { ... }
Batch Operations
Batch Insert
try database.write { db in try Item.insert { ($0.title, $0.isInStock) } values: { items.map { ($0.title, $0.isInStock) } } .execute(db) }
Transaction Safety
All mutations inside
database.write { }try database.write { db in // These all succeed or all fail together try Item.insert { ... }.execute(db) try Item.find(id).update { ... }.execute(db) try OtherTable.find(otherId).delete().execute(db) }
If any operation throws, the entire transaction rolls back.
Raw SQL with #sql Macro
When you need custom SQL expressions beyond the type-safe query builder, use the
#sqlCustom Query Expressions
nonisolated extension Item.TableColumns { var isPastDue: some QueryExpression<Bool> { @Dependency(\.date.now) var now return !isCompleted && #sql("coalesce(date(\(dueDate)) < date(\(now)), 0)") } } // Use in queries let overdue = try Item.where { $0.isPastDue }.fetchAll(db)
Raw SQL Queries
// Direct SQL with parameter interpolation try #sql("SELECT * FROM items WHERE price > \(minPrice)").execute(db) // Using \(raw:) for literal values let tableName = "items" try #sql("SELECT * FROM \(raw: tableName)").execute(db)
Why #sql
- Type-safe parameter binding (prevents SQL injection)
- Compile-time syntax checking
- Seamless integration with query builder
- Parameter interpolation automatically escapes values
For schema creation (CREATE TABLE, migrations), see the
axiom-sqlitedata-refCloudKit Sync
Basic Setup
import CloudKit extension DependencyValues { var defaultSyncEngine: SyncEngine { get { self[DefaultSyncEngineKey.self] } set { self[DefaultSyncEngineKey.self] = newValue } } } private enum DefaultSyncEngineKey: DependencyKey { static let liveValue = { @Dependency(\.defaultDatabase) var database return try! SyncEngine( for: database, tables: Item.self, privateTables: SensitiveItem.self, // Private database startImmediately: true ) }() } // In app init prepareDependencies { $0.defaultDatabase = try! appDatabase() $0.defaultSyncEngine = try! SyncEngine( for: $0.defaultDatabase, tables: Item.self ) }
Manual Sync Control (v1.3.0+)
Control when sync happens instead of automatic background sync:
@Dependency(\.defaultSyncEngine) var syncEngine // Pull changes from CloudKit try await syncEngine.fetchChanges() // Push local changes to CloudKit try await syncEngine.sendChanges() // Bidirectional sync try await syncEngine.syncChanges()
Use cases:
- User-triggered "Refresh" button
- Sync after critical operations
- Custom sync scheduling
- Testing sync behavior
Sync State Observation (v1.2.0+)
Show UI feedback during sync:
struct SyncStatusView: View { @Dependency(\.defaultSyncEngine) var syncEngine var body: some View { HStack { if syncEngine.isSynchronizing { ProgressView() if syncEngine.isSendingChanges { Text("Uploading...") } else if syncEngine.isFetchingChanges { Text("Downloading...") } } else { Image(systemName: "checkmark.circle") Text("Synced") } } } }
Observable properties:
— True during CloudKit uploadisSendingChanges: Bool
— True during CloudKit downloadisFetchingChanges: Bool
— True if either sending or fetchingisSynchronizing: Bool
— True if sync engine is activeisRunning: Bool
Query Sync Metadata (v1.3.0+)
Access CloudKit sync information for records:
import CloudKit // Get sync metadata for a record let metadata = try SyncMetadata.find(item.syncMetadataID).fetchOne(db) // Join items with their sync metadata let itemsWithSync = try Item.all .leftJoin(SyncMetadata.all) { $0.syncMetadataID.eq($1.id) } .select { (item: $0, metadata: $1) } .fetchAll(db) // Check if record is shared let sharedItems = try Item.all .join(SyncMetadata.all) { $0.syncMetadataID.eq($1.id) } .where { $1.isShared } .fetchAll(db)
Migration Helpers
Migrate primary keys when switching sync strategies:
try await syncEngine.migratePrimaryKeys( from: OldItem.self, to: NewItem.self )
When to Drop to GRDB
SQLiteData is built on GRDB. Use raw GRDB when you need:
- Complex joins across 4+ tables
- Window functions (ROW_NUMBER, RANK, etc.)
- Performance-critical paths where you've profiled and confirmed the query builder is the bottleneck
See
axiom-grdbtvOS
SQLiteData with CloudKit SyncEngine is the recommended tvOS data solution. tvOS has no persistent local storage — the system deletes Caches (including Application Support) under storage pressure. With SyncEngine, iCloud is your persistent store and the local database is just a cache that rebuilds automatically after deletion. See
axiom-tvosResources
GitHub: pointfreeco/sqlite-data, pointfreeco/swift-structured-queries, groue/GRDB.swift
Skills: axiom-sqlitedata-ref, axiom-sqlitedata-migration, axiom-database-migration, axiom-grdb
Targets: iOS 17+, Swift 6 Framework: SQLiteData 1.4+ History: See git log for changes