// // Value.swift // CoreStore // // Copyright © 2018 John Rommel Estropia // // Permission is hereby granted, free of charge, to any person obtaining a copy // of this software and associated documentation files (the "Software"), to deal // in the Software without restriction, including without limitation the rights // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell // copies of the Software, and to permit persons to whom the Software is // furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in all // copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE // SOFTWARE. // import CoreData import Foundation // MARK: - DynamicObject public extension DynamicObject where Self: CoreStoreObject { /** The containing type for value propertiess. `Value` properties support any type that conforms to `ImportableAttributeType`. ``` class Animal: CoreStoreObject { let species = Value.Required("species", initial: "") let nickname = Value.Optional("nickname") let color = Transformable.Optional("color") } ``` - Important: `Value` properties are required to be stored properties. Computed properties will be ignored, including `lazy` and `weak` properties. */ public typealias Value = ValueContainer } // MARK: - ValueContainer /** The containing type for value properties. Use the `DynamicObject.Value` typealias instead for shorter syntax. ``` class Animal: CoreStoreObject { let species = Value.Required("species", initial: "") let nickname = Value.Optional("nickname") let color = Transformable.Optional("color") } ``` */ public enum ValueContainer { // MARK: - Required /** The containing type for required value properties. Any type that conforms to `ImportableAttributeType` are supported. ``` class Animal: CoreStoreObject { let species = Value.Required("species", initial: "") let nickname = Value.Optional("nickname") let color = Transformable.Optional("color") } ``` - Important: `Value.Required` properties are required to be stored properties. Computed properties will be ignored, including `lazy` and `weak` properties. */ public final class Required: AttributeProtocol { /** Initializes the metadata for the property. ``` class Person: CoreStoreObject { let title = Value.Required("title", initial: "Mr.") let name = Value.Required("name", initial: "") let displayName = Value.Required( "displayName", initial: "", isTransient: true, customGetter: Person.getName(_:) ) private static func getName(_ partialObject: PartialObject) -> String { let cachedDisplayName = partialObject.primitiveValue(for: { $0.displayName }) if !cachedDisplayName.isEmpty { return cachedDisplayName } let title = partialObject.value(for: { $0.title }) let name = partialObject.value(for: { $0.name }) let displayName = "\(title) \(name)" partialObject.setPrimitiveValue(displayName, for: { $0.displayName }) return displayName } } ``` - parameter keyPath: the permanent attribute name for this property. - parameter initial: the initial value for the property when the object is first created - parameter isTransient: `true` if the property is transient, otherwise `false`. Defaults to `false` if not specified. The transient flag specifies whether or not a property's value is ignored when an object is saved to a persistent store. Transient properties are not saved to the persistent store, but are still managed for undo, redo, validation, and so on. - parameter versionHashModifier: used to mark or denote a property as being a different "version" than another even if all of the values which affect persistence are equal. (Such a difference is important in cases where the properties are unchanged but the format or content of its data are changed.) - parameter renamingIdentifier: used to resolve naming conflicts between models. When creating an entity mapping between entities in two managed object models, a source entity property and a destination entity property that share the same identifier indicate that a property mapping should be configured to migrate from the source to the destination. If unset, the identifier will be the property's name. - parameter customGetter: use this closure as an "override" for the default property getter. The closure receives a `PartialObject`, which acts as a fast, type-safe KVC interface for `CoreStoreObject`. The reason a `CoreStoreObject` instance is not passed directly is because the Core Data runtime is not aware of `CoreStoreObject` properties' static typing, and so loading those info everytime KVO invokes this accessor method incurs a cumulative performance hit (especially in KVO-heavy operations such as `ListMonitor` observing.) When accessing the property value from `PartialObject`, make sure to use `PartialObject.primitiveValue(for:)` instead of `PartialObject.value(for:)`, which would unintentionally execute the same closure again recursively. - parameter customSetter: use this closure as an "override" for the default property setter. The closure receives a `PartialObject`, which acts as a fast, type-safe KVC interface for `CoreStoreObject`. The reason a `CoreStoreObject` instance is not passed directly is because the Core Data runtime is not aware of `CoreStoreObject` properties' static typing, and so loading those info everytime KVO invokes this accessor method incurs a cumulative performance hit (especially in KVO-heavy operations such as `ListMonitor` observing.) When accessing the property value from `PartialObject`, make sure to use `PartialObject.setPrimitiveValue(_:for:)` instead of `PartialObject.setValue(_:for:)`, which would unintentionally execute the same closure again recursively. - parameter affectedByKeyPaths: a set of key paths for properties whose values affect the value of the receiver. This is similar to `NSManagedObject.keyPathsForValuesAffectingValue(forKey:)`. */ public init( _ keyPath: KeyPathString, initial: @autoclosure @escaping () -> V, isTransient: Bool = false, versionHashModifier: @autoclosure @escaping () -> String? = nil, renamingIdentifier: @autoclosure @escaping () -> String? = nil, customGetter: ((_ partialObject: PartialObject) -> V)? = nil, customSetter: ((_ partialObject: PartialObject, _ newValue: V) -> Void)? = nil, affectedByKeyPaths: @autoclosure @escaping () -> Set = []) { self.keyPath = keyPath self.isTransient = isTransient self.defaultValue = { initial().cs_toQueryableNativeType() } self.versionHashModifier = versionHashModifier self.renamingIdentifier = renamingIdentifier self.customGetter = customGetter self.customSetter = customSetter self.affectedByKeyPaths = affectedByKeyPaths } /** The property value. */ public var value: V { get { CoreStore.assert( self.rawObject != nil, "Attempted to access values from a \(cs_typeName(O.self)) meta object. Meta objects are only used for querying keyPaths and infering types." ) return withExtendedLifetime(self.rawObject!) { (object) in CoreStore.assert( object.isRunningInAllowedQueue() == true, "Attempted to access \(cs_typeName(O.self))'s value outside it's designated queue." ) if let customGetter = self.customGetter { return customGetter(PartialObject(object)) } return V.cs_fromQueryableNativeType( object.value(forKey: self.keyPath)! as! V.QueryableNativeType )! } } set { CoreStore.assert( self.rawObject != nil, "Attempted to access values from a \(cs_typeName(O.self)) meta object. Meta objects are only used for querying keyPaths and infering types." ) return withExtendedLifetime(self.rawObject!) { (object) in CoreStore.assert( object.isRunningInAllowedQueue() == true, "Attempted to access \(cs_typeName(O.self))'s value outside it's designated queue." ) CoreStore.assert( object.isEditableInContext() == true, "Attempted to update a \(cs_typeName(O.self))'s value from outside a transaction." ) if let customSetter = self.customSetter { return customSetter(PartialObject(object), newValue) } return object.setValue( newValue.cs_toQueryableNativeType(), forKey: self.keyPath ) } } } // MARK: AttributeProtocol internal static var attributeType: NSAttributeType { return V.cs_rawAttributeType } internal let keyPath: KeyPathString internal let isOptional = false internal let isTransient: Bool internal let allowsExternalBinaryDataStorage = false internal let versionHashModifier: () -> String? internal let renamingIdentifier: () -> String? internal let defaultValue: () -> Any? internal let affectedByKeyPaths: () -> Set internal var rawObject: CoreStoreManagedObject? internal private(set) lazy var getter: CoreStoreManagedObject.CustomGetter? = cs_lazy { [unowned self] in guard let customGetter = self.customGetter else { return nil } let keyPath = self.keyPath return { (_ id: Any) -> Any? in let rawObject = id as! CoreStoreManagedObject rawObject.willAccessValue(forKey: keyPath) defer { rawObject.didAccessValue(forKey: keyPath) } let value = customGetter(PartialObject(rawObject)) return value.cs_toQueryableNativeType() } } internal private(set) lazy var setter: CoreStoreManagedObject.CustomSetter? = cs_lazy { [unowned self] in guard let customSetter = self.customSetter else { return nil } let keyPath = self.keyPath return { (_ id: Any, _ newValue: Any?) -> Void in let rawObject = id as! CoreStoreManagedObject rawObject.willChangeValue(forKey: keyPath) defer { rawObject.didChangeValue(forKey: keyPath) } customSetter( PartialObject(rawObject), V.cs_fromQueryableNativeType(newValue as! V.QueryableNativeType)! ) } } // MARK: Private private let customGetter: ((_ partialObject: PartialObject) -> V)? private let customSetter: ((_ partialObject: PartialObject, _ newValue: V) -> Void)? // MARK: Deprecated @available(*, unavailable, message: "Indexes are now set through the Entity initializer, which now supports compound indexes.") public convenience init( _ keyPath: KeyPathString, initial: @autoclosure @escaping () -> V, isIndexed: Bool, isTransient: Bool = false, versionHashModifier: @autoclosure @escaping () -> String? = nil, renamingIdentifier: @autoclosure @escaping () -> String? = nil, customGetter: ((_ partialObject: PartialObject) -> V)? = nil, customSetter: ((_ partialObject: PartialObject, _ newValue: V) -> Void)? = nil, affectedByKeyPaths: @autoclosure @escaping () -> Set = []) { fatalError() } } // MARK: - Optional /** The containing type for optional value properties. Any type that conforms to `ImportableAttributeType` are supported. ``` class Animal: CoreStoreObject { let species = Value.Required("species", initial: "") let nickname = Value.Optional("nickname") let color = Transformable.Optional("color") } ``` - Important: `Value.Optional` properties are required to be stored properties. Computed properties will be ignored, including `lazy` and `weak` properties. */ public final class Optional: AttributeProtocol { /** Initializes the metadata for the property. ``` class Person: CoreStoreObject { let title = Value.Optional("title", initial: "Mr.") let name = Value.Optional("name") let displayName = Value.Optional( "displayName", isTransient: true, customGetter: Person.getName(_:) ) private static func getName(_ partialObject: PartialObject) -> String? { if let cachedDisplayName = partialObject.primitiveValue(for: { $0.displayName }) { return cachedDisplayName } let title = partialObject.value(for: { $0.title }) let name = partialObject.value(for: { $0.name }) let displayName = "\(title) \(name)" partialObject.setPrimitiveValue(displayName, for: { $0.displayName }) return displayName } } ``` - parameter keyPath: the permanent attribute name for this property. - parameter initial: the initial value for the property when the object is first created. Defaults to `nil` if not specified. - parameter isTransient: `true` if the property is transient, otherwise `false`. Defaults to `false` if not specified. The transient flag specifies whether or not a property's value is ignored when an object is saved to a persistent store. Transient properties are not saved to the persistent store, but are still managed for undo, redo, validation, and so on. - parameter versionHashModifier: used to mark or denote a property as being a different "version" than another even if all of the values which affect persistence are equal. (Such a difference is important in cases where the properties are unchanged but the format or content of its data are changed.) - parameter renamingIdentifier: used to resolve naming conflicts between models. When creating an entity mapping between entities in two managed object models, a source entity property and a destination entity property that share the same identifier indicate that a property mapping should be configured to migrate from the source to the destination. If unset, the identifier will be the property's name. - parameter customGetter: use this closure to make final transformations to the property's value before returning from the getter. - parameter self: the `CoreStoreObject` - parameter getValue: the original getter for the property - parameter customSetter: use this closure to make final transformations to the new value before assigning to the property. - parameter setValue: the original setter for the property - parameter finalNewValue: the transformed new value - parameter originalNewValue: the original new value - parameter affectedByKeyPaths: a set of key paths for properties whose values affect the value of the receiver. This is similar to `NSManagedObject.keyPathsForValuesAffectingValue(forKey:)`. */ public init( _ keyPath: KeyPathString, initial: @autoclosure @escaping () -> V? = nil, isTransient: Bool = false, versionHashModifier: @autoclosure @escaping () -> String? = nil, renamingIdentifier: @autoclosure @escaping () -> String? = nil, customGetter: ((_ partialObject: PartialObject) -> V?)? = nil, customSetter: ((_ partialObject: PartialObject, _ newValue: V?) -> Void)? = nil, affectedByKeyPaths: @autoclosure @escaping () -> Set = []) { self.keyPath = keyPath self.isTransient = isTransient self.defaultValue = { initial()?.cs_toQueryableNativeType() } self.versionHashModifier = versionHashModifier self.renamingIdentifier = renamingIdentifier self.customGetter = customGetter self.customSetter = customSetter self.affectedByKeyPaths = affectedByKeyPaths } /** The property value. */ public var value: V? { get { CoreStore.assert( self.rawObject != nil, "Attempted to access values from a \(cs_typeName(O.self)) meta object. Meta objects are only used for querying keyPaths and infering types." ) return withExtendedLifetime(self.rawObject!) { (object) in CoreStore.assert( object.isRunningInAllowedQueue() == true, "Attempted to access \(cs_typeName(O.self))'s value outside it's designated queue." ) if let customGetter = self.customGetter { return customGetter(PartialObject(object)) } return (object.value(forKey: self.keyPath) as! V.QueryableNativeType?) .flatMap(V.cs_fromQueryableNativeType) } } set { CoreStore.assert( self.rawObject != nil, "Attempted to access values from a \(cs_typeName(O.self)) meta object. Meta objects are only used for querying keyPaths and infering types." ) return withExtendedLifetime(self.rawObject!) { (object) in CoreStore.assert( object.isRunningInAllowedQueue() == true, "Attempted to access \(cs_typeName(O.self))'s value outside it's designated queue." ) CoreStore.assert( object.isEditableInContext() == true, "Attempted to update a \(cs_typeName(O.self))'s value from outside a transaction." ) if let customSetter = self.customSetter { return customSetter(PartialObject(object), newValue) } object.setValue( newValue?.cs_toQueryableNativeType(), forKey: self.keyPath ) } } } // MARK: AttributeProtocol internal static var attributeType: NSAttributeType { return V.cs_rawAttributeType } internal let keyPath: KeyPathString internal let isOptional = true internal let isTransient: Bool internal let allowsExternalBinaryDataStorage = false internal let versionHashModifier: () -> String? internal let renamingIdentifier: () -> String? internal let defaultValue: () -> Any? internal let affectedByKeyPaths: () -> Set internal var rawObject: CoreStoreManagedObject? internal private(set) lazy var getter: CoreStoreManagedObject.CustomGetter? = cs_lazy { [unowned self] in guard let customGetter = self.customGetter else { return nil } let keyPath = self.keyPath return { (_ id: Any) -> Any? in let rawObject = id as! CoreStoreManagedObject rawObject.willAccessValue(forKey: keyPath) defer { rawObject.didAccessValue(forKey: keyPath) } let value = customGetter(PartialObject(rawObject)) return value?.cs_toQueryableNativeType() } } internal private(set) lazy var setter: CoreStoreManagedObject.CustomSetter? = cs_lazy { [unowned self] in guard let customSetter = self.customSetter else { return nil } let keyPath = self.keyPath return { (_ id: Any, _ newValue: Any?) -> Void in let rawObject = id as! CoreStoreManagedObject rawObject.willChangeValue(forKey: keyPath) defer { rawObject.didChangeValue(forKey: keyPath) } customSetter( PartialObject(rawObject), (newValue as! V.QueryableNativeType?).flatMap(V.cs_fromQueryableNativeType) ) } } // MARK: Private private let customGetter: ((_ partialObject: PartialObject) -> V?)? private let customSetter: ((_ partialObject: PartialObject, _ newValue: V?) -> Void)? // MARK: Deprecated @available(*, unavailable, message: "Indexes are now set through the Entity initializer, which now supports compound indexes.") public convenience init( _ keyPath: KeyPathString, initial: @autoclosure @escaping () -> V? = nil, isIndexed: Bool, isTransient: Bool = false, versionHashModifier: @autoclosure @escaping () -> String? = nil, renamingIdentifier: @autoclosure @escaping () -> String? = nil, customGetter: ((_ partialObject: PartialObject) -> V?)? = nil, customSetter: ((_ partialObject: PartialObject, _ newValue: V?) -> Void)? = nil, affectedByKeyPaths: @autoclosure @escaping () -> Set = []) { fatalError() } } } // MARK: - Operations infix operator .= : AssignmentPrecedence infix operator .== : ComparisonPrecedence extension ValueContainer.Required { /** Assigns a value to the property. The operation ``` animal.species .= "Swift" ``` is equivalent to ``` animal.species.value = "Swift" ``` */ public static func .= (_ property: ValueContainer.Required, _ newValue: V) { property.value = newValue } /** Assigns a value from another property. The operation ``` animal.species .= anotherAnimal.species ``` is equivalent to ``` animal.species.value = anotherAnimal.species.value ``` */ public static func .= (_ property: ValueContainer.Required, _ property2: ValueContainer.Required) { property.value = property2.value } /** Compares equality between a property's value and another value ``` if animal.species .== "Swift" { ... } ``` is equivalent to ``` if animal.species.value == "Swift" { ... } ``` */ public static func .== (_ property: ValueContainer.Required, _ value: V?) -> Bool { return property.value == value } /** Compares equality between a value and a property's value ``` if "Swift" .== animal.species { ... } ``` is equivalent to ``` if "Swift" == animal.species.value { ... } ``` */ public static func .== (_ value: V?, _ property: ValueContainer.Required) -> Bool { return value == property.value } /** Compares equality between a property's value and another property's value ``` if animal.species .== anotherAnimal.species { ... } ``` is equivalent to ``` if animal.species.value == anotherAnimal.species.value { ... } ``` */ public static func .== (_ property: ValueContainer.Required, _ property2: ValueContainer.Required) -> Bool { return property.value == property2.value } /** Compares equality between a property's value and another property's value ``` if animal.species .== anotherAnimal.species { ... } ``` is equivalent to ``` if animal.species.value == anotherAnimal.species.value { ... } ``` */ public static func .== (_ property: ValueContainer.Required, _ property2: ValueContainer.Optional) -> Bool { return property.value == property2.value } } extension ValueContainer.Optional { /** Assigns an optional value to the property. The operation ``` animal.nickname .= "Taylor" ``` is equivalent to ``` animal.nickname.value = "Taylor" ``` */ public static func .= (_ property: ValueContainer.Optional, _ newValue: V?) { property.value = newValue } /** Assigns an optional value from another property. The operation ``` animal.nickname .= anotherAnimal.nickname ``` is equivalent to ``` animal.nickname.value = anotherAnimal.nickname.value ``` */ public static func .= (_ property: ValueContainer.Optional, _ property2: ValueContainer.Optional) { property.value = property2.value } /** Assigns a value from another property. The operation ``` animal.nickname .= anotherAnimal.species ``` is equivalent to ``` animal.nickname.value = anotherAnimal.species.value ``` */ public static func .= (_ property: ValueContainer.Optional, _ property2: ValueContainer.Required) { property.value = property2.value } /** Compares equality between a property's value and another value ``` if animal.species .== "Swift" { ... } ``` is equivalent to ``` if animal.species.value == "Swift" { ... } ``` */ public static func .== (_ property: ValueContainer.Optional, _ value: V?) -> Bool { return property.value == value } /** Compares equality between a property's value and another property's value ``` if "Swift" .== animal.species { ... } ``` is equivalent to ``` if "Swift" == animal.species.value { ... } ``` */ public static func .== (_ value: V?, _ property: ValueContainer.Optional) -> Bool { return value == property.value } /** Compares equality between a property's value and another property's value ``` if animal.species .== anotherAnimal.species { ... } ``` is equivalent to ``` if animal.species.value == anotherAnimal.species.value { ... } ``` */ public static func .== (_ property: ValueContainer.Optional, _ property2: ValueContainer.Optional) -> Bool { return property.value == property2.value } /** Compares equality between a property's value and another property's value ``` if animal.species .== anotherAnimal.species { ... } ``` is equivalent to ``` if animal.species.value == anotherAnimal.species.value { ... } ``` */ public static func .== (_ property: ValueContainer.Optional, _ property2: ValueContainer.Required) -> Bool { return property.value == property2.value } }