【KakaJSON手册】03_JSON转Model_03_key处理

有时候，服务器返回的JSON数据的key跟客户端模型的属性名可能不一致，好比客户端遵照驼峰规范叫作nickName，而服务器端返回的JSON可能叫作nick_name。这时候为了保证数据转换成功，就须要对模型属性名和JSON的key进行相应的映射。KakaJSON提供了简单易用的映射方式。

最基本的用法

struct Person: Convertible {
    var nickName: String = ""
    var mostFavoriteNumber: Int = 0
    var birthday: String = ""
    
    // 实现kj_modelKey方法
    // 会传入模型的属性`property`做为参数，返回值就是属性对应的key
    func kj_modelKey(from property: Property) -> ModelPropertyKey {
        // 根据属性名来返回对应的key
        switch property.name {
            
        // 模型的`nickName`属性 对应 JSON中的`nick_name`
        case "nickName": return "nick_name"
            
        // 模型的`mostFavoriteNumber `属性 对应 JSON中的`most_favorite_number `
        case "mostFavoriteNumber": return "most_favorite_number"
            
        // 模型剩下的其余属性，直接用属性名做为JSON的key（属性名和key保持一致）
        default: return property.name
            
        }
    }
}

let nick_name = "ErHa"
let most_favorite_number = 666
let birthday = "2011-10-12"

let json: [String: Any] = [
    "nick_name": nick_name,
    "most_favorite_number": most_favorite_number,
    "birthday": birthday
]

let student = json.kj.model(Person.self)
XCTAssert(student.nickName == nick_name)
XCTAssert(student.mostFavoriteNumber == most_favorite_number)
XCTAssert(student.birthday == birthday)

驼峰 -> 下划线

struct Person: Convertible {
    var nickName: String = ""
    var mostFavoriteNumber: Int = 0
    var birthday: String = ""
    
    func kj_modelKey(from property: Property) -> ModelPropertyKey {
        // 因为开发中可能常常遇到`驼峰`映射`下划线`的需求，KakaJSON已经内置了处理方法
        // 直接调用字符串的underlineCased方法就能够从`驼峰`转为`下划线`
        // `nickName` -> `nick_name`
        return property.name.kj.underlineCased()
    }
}

let nick_name = "ErHa"
let most_favorite_number = 666
let birthday = "2011-10-12"

let json: [String: Any] = [
    "nick_name": nick_name,
    "most_favorite_number": most_favorite_number,
    "birthday": birthday
]

let student = json.kj.model(Person.self)
XCTAssert(student.nickName == nick_name)
XCTAssert(student.mostFavoriteNumber == most_favorite_number)
XCTAssert(student.birthday == birthday)

下划线 -> 驼峰

struct Person: Convertible {
    var nick_name: String = ""
    var most_favorite_number: Int = 0
    var birthday: String = ""
    
    // KakaJSON也给字符串内置了camelCased方法，能够由`下划线`转为`驼峰`
    func kj_modelKey(from property: Property) -> ModelPropertyKey {
        // `nick_name` -> `nickName`
        return property.name.kj.camelCased()
    }
}

let nickName = "ErHa"
let mostFavoriteNumber = 666
let birthday = "2011-10-12"

let json: [String: Any] = [
    "nickName": nickName,
    "mostFavoriteNumber": mostFavoriteNumber,
    "birthday": birthday
]

let student = json.kj.model(Person.self)
XCTAssert(student.nick_name == nickName)
XCTAssert(student.most_favorite_number == mostFavoriteNumber)
XCTAssert(student.birthday == birthday)

继承

// 子类能够继承父类的实现

class Person: Convertible {
    var nickName: String = ""
    required init() {}
    
    func kj_modelKey(from property: Property) -> ModelPropertyKey {
        // `nickName` -> `nick_ame`
        return property.name.kj.underlineCased()
    }
}

class Student: Person {
    var mathScore: Int = 0
    // Person的kj_modelKey会继承下来给Student使用
    // `mathScore` -> `math_score`
}

let nick_ame = "Jack"
let math_score = 96
let json: [String: Any] = ["nick_name": nick_ame, "math_score": math_score]

let person = json.kj.model(Person.self)
XCTAssert(person.nickName == nick_ame)

let student = json.kj.model(Student.self)
XCTAssert(student.nickName == nick_ame)
XCTAssert(student.mathScore == math_score)

重写

// 子类能够重写父类的kj_modelKey方法，在父类实现的基础上加一些本身的需求

class Person: Convertible {
    var name: String = ""
    required init() {}
    
    func kj_modelKey(from property: Property) -> ModelPropertyKey {
        // `name` -> `_name_`
        return property.name == "name" ? "_name_" : property.name
    }
}

class Student: Person {
    var score: Int = 0
    
    override func kj_modelKey(from property: Property) -> ModelPropertyKey {
        // 调用了`super.kj_modelKey`，在父类的基础上加了对`score`的处理
        // `score` -> `_score_`，`name` -> `_name_`
        return property.name == "score" ? "_score_" : super.kj_modelKey(from: property)
    }
}

let name = "Jack"
let score = 96
let json: [String: Any] = ["_name_": name, "_score_": score]

let person = json.kj.model(Person.self)
XCTAssert(person.name == name)

let student = json.kj.model(Student.self)
XCTAssert(student.name == name)
XCTAssert(student.score == score)

重写 + 覆盖

// 子类能够重写父类的kj_modelKey方法，并彻底覆盖父类的实现
class Person: Convertible {
    var name: String = ""
    required init() {}
    
    func kj_modelKey(from property: Property) -> ModelPropertyKey {
        // `name` -> `_name_`
        return property.name == "name" ? "_name_" : property.name
    }
}

class Student: Person {
    var score: Int = 0
    
    override func kj_modelKey(from property: Property) -> ModelPropertyKey {
        // 这里并无调用`super. kj_modelKey`
        // 所以`score` -> `_score_`，`name` -> `name`
        return property.name == "score" ? "_score_" : property.name
    }
}

let personName = "Jack"
let person = ["_name_": personName].kj.model(Person.self)
XCTAssert(person.name == personName)

let studentName = "Rose"
let studentScore = 96
let student = ["name": studentName,
               "_score_": studentScore].kj.model(Student.self)
XCTAssert(student.name == studentName)
XCTAssert(student.score == studentScore)

全局配置

// 一旦有须要进行`驼峰` -> `下划线`的映射，有可能整个项目的全部模型都须要进行映射，毕竟整个项目的命名规范是统一的
// 假设项目中有100多个模型，那么就须要实现100屡次`kj_modelKey`方法，调用100屡次underlineCased方法
// KakaJSON内置了全局配置机制，能够1次配置，就能适用于全部的模型（无论是struct仍是class，只要是遵照Convertible协议的模型）

// 全局配置整个项目中只须要配置1次，建议在AppDelegate的didFinishLaunching中配置1次便可
ConvertibleConfig.setModelKey { property in
    property.name.kj.underlineCased()
}
// ConvertibleConfig.setModelKey { $0.name.kj.underlineCased() }

class Person: Convertible {
    var nickName: String = ""
    required init() {}
}

class Student: Person {
    var mathScore: Int = 0
}

struct Car: Convertible {
    var maxSpeed: Double = 0.0
    var name: String = ""
}

let nick_ame = "Jack"
let math_score = 96
let json: [String: Any] = ["nick_name": nick_ame, "math_score": math_score]

let person = json.kj.model(Person.self)
XCTAssert(person.nickName == nick_ame)

let student = json.kj.model(Student.self)
XCTAssert(student.nickName == nick_ame)
XCTAssert(student.mathScore == math_score)

let max_speed = 250.0
let name = "Bently"
let car = ["max_speed": max_speed, "name": name].kj.model(Car.self)
XCTAssert(car.maxSpeed == max_speed)
XCTAssert(car.name == name)

局部配置

// 也能够给某些特定的类型作配置

// 局部配置
// 因为Student继承自Person，因此给Person作的配置，能适用在Student身上
ConvertibleConfig.setModelKey(for: [Person.self, Car.self]) {
    property in
    property.name.kj.underlineCased()
}

class Person: Convertible {
    var nickName: String = ""
    required init() {}
}

class Student: Person {
    var mathScore: Int = 0
}

struct Car: Convertible {
    var maxSpeed: Double = 0.0
    var name: String = ""
}

let nick_ame = "Jack"
let math_score = 96
let json: [String: Any] = ["nick_name": nick_ame, "math_score": math_score]

let person = json.kj.model(Person.self)
XCTAssert(person.nickName == nick_ame)

let student = json.kj.model(Student.self)
XCTAssert(student.nickName == nick_ame)
XCTAssert(student.mathScore == math_score)

let max_speed = 250.0
let name = "Bently"
let car = ["max_speed": max_speed, "name": name].kj.model(Car.self)
XCTAssert(car.maxSpeed == max_speed)
XCTAssert(car.name == name)

配置示例1

// 全局配置
ConvertibleConfig.setModelKey { property in
    property.name.kj.underlineCased()
}

// Person配置
ConvertibleConfig.setModelKey(for: Person.self) { property in
    // `name` -> `_name_`
    property.name == "name" ? "_name_" : property.name
}

// Student配置
ConvertibleConfig.setModelKey(for: Student.self) { property in
    // `score` -> `_score_`，`name` -> `name`
    property.name == "score" ? "_score_" : property.name
}

class Person: Convertible {
    var name: String = ""
    required init() {}
}

class Student: Person {
    var score: Int = 0
}

struct Car: Convertible {
    var maxSpeed: Double = 0.0
    var name: String = ""
}

let personName = "Jack"
let person = ["_name_": personName].kj.model(Person.self)
XCTAssert(person.name == personName)

let studentName = "Rose"
let studentScore = 96
let student = ["name": studentName,
               "_score_": studentScore].kj.model(Student.self)
XCTAssert(student.name == studentName)
XCTAssert(student.score == studentScore)

let max_speed = 250.0
let name = "Bently"
let car = ["max_speed": max_speed, "name": name].kj.model(Car.self)
XCTAssert(car.maxSpeed == max_speed)
XCTAssert(car.name == name)

配置示例2

// 全局配置
ConvertibleConfig.setModelKey { property in
    property.name.kj.underlineCased()
}

// Person配置
ConvertibleConfig.setModelKey(for: Person.self) { property in
    // `name` -> `_name_`
    property.name == "name" ? "_name_" : property.name
}

// Student配置
ConvertibleConfig.setModelKey(for: Student.self) { property in
    // `score` -> `_score_`，`name` -> `name`
    property.name == "score" ? "_score_" : property.name
}

class Person: Convertible {
    var name: String = ""
    required init() {}
    
    func kj_modelKey(from property: Property) -> ModelPropertyKey {
        // 能够经过ConvertibleConfig获取Person当初的配置
        // `name` -> `_name_`
        return ConvertibleConfig.modelKey(from: property, Person.self)
    }
}

class Student: Person {
    var score: Int = 0
    
    override func kj_modelKey(from property: Property) -> ModelPropertyKey {
        // `score` -> `score`，`name` -> `name`
        return property.name
    }
}

struct Car: Convertible {
    var maxSpeed: Double = 0.0
    var name: String = ""
    
    func kj_modelKey(from property: Property) -> ModelPropertyKey {
        // 能够经过ConvertibleConfig获取全局配置
        // `maxSpeed` -> `max_speed`
        // `name` -> `name`
        return ConvertibleConfig.modelKey(from: property)
    }
}

/*
 当配置了多处modelKey时，它们的优先级从高到低，以下所示（以Student类型为例）
 1. 使用Student的kj_modelKey的实现
 2. 若是没有1，使用Student的ConvertibleConfig配置
 3. 若是没有1\2，使用Student父类的ConvertibleConfig配置
 4. 若是没有1\2\3，使用Student父类的父类的ConvertibleConfig配置
 5. 若是没有1\2\3\4，使用Student父类的父类的父类的....ConvertibleConfig配置
 6. 若是没有1\2\3\4\5，使用全局的ConvertibleConfig配置
 */

// Person、Student、Car都实现了kj_modelKey，所以使用kj_modelKey的实现

let personName = "Jack"
let person = ["_name_": personName].kj.model(Person.self)
XCTAssert(person.name == personName)

let studentName = "Rose"
let studentScore = 96
let student = ["name": studentName,
               "score": studentScore].kj.model(Student.self)
XCTAssert(student.name == studentName)
XCTAssert(student.score == studentScore)

let max_speed = 250.0
let name = "Bently"
let car = ["max_speed": max_speed, "name": name].kj.model(Car.self)
XCTAssert(car.maxSpeed == max_speed)
XCTAssert(car.name == name)

复杂的key映射

struct Toy: Convertible {
    var price: Double = 0.0
    var name: String = ""
}

struct Dog: Convertible {
    var name: String = ""
    var age: Int = 0
    var nickName: String?
    var toy: Toy?
    
    func kj_modelKey(from property: Property) -> ModelPropertyKey {
        switch property.name {
        // 对应dog["toy"]
        case "toy": return "dog.toy"
        // 对应data[1]["dog"]["name"]
        case "name": return "data.1.dog.name"
        // 会按顺序映射数组中的每个key，直到成功为止
        // 先映射`nickName`，若是失败再映射`nick_name`
        // 若是失败再映射`dog["nickName"]`，若是失败再映射`dog["nick_name"]`
        case "nickName": return ["nickName", "nick_name", "dog.nickName", "dog.nick_name"]
        default: return property.name
        }
    }
}

let name = "Larry"
let age = 5
let nickName1 = "Jake1"
let nickName2 = "Jake2"
let nickName3 = "Jake3"
let nickName4 = "Jake4"
let toy = (name: "Bobbi", price: 20.5)

let json: [String: Any] = [
    "data": [10, ["dog" : ["name": name]]],
    "age": age,
    "nickName": nickName1,
    "nick_name": nickName2,
    "dog": [
        "nickName": nickName3,
        "nick_name": nickName4,
        "toy": ["name": toy.name, "price": toy.price]
    ]
]

let dog = json.kj.model(Dog.self)
XCTAssert(dog.name == name)
XCTAssert(dog.age == age)
XCTAssert(dog.nickName == nickName1)
XCTAssert(dog.toy?.name == toy.name)
XCTAssert(dog.toy?.price == toy.price)

/*-------------------------------------------------*/

struct Team: Convertible {
    var name: String?
    var captainName: String?
    
    func kj_modelKey(from property: Property) -> ModelPropertyKey {
        switch property.name {
        case "captainName":     return "captain.name"
        default:                return property.name
        }
    }
}

let teamName = "V"
let captainName = "Quentin"

let json: [String: Any] = [
    "name": teamName,
    "captain.name": captainName,
]
let team = json.kj.model(Team.self)
XCTAssert(team.name == teamName)
XCTAssert(team.captainName == captainName)

/*-------------------------------------------------*/

struct Model: Convertible {
    var valueA: String?
    var valueB: String?
    
    func kj_modelKey(from property: Property) -> ModelPropertyKey {
        switch property.name {
        case "valueA":          return "a.0.a"
        case "valueB":          return "b.0.b.0.b"
        default:                return property.name
        }
    }
}

let json: [String: Any] = [
    "a": [ "l", "u", "o" ],
    "b": [
        [ "b": [ "x", "i", "u" ] ]
    ]
]
let model = json.kj.model(Model.self)
XCTAssert(model.valueA == "l")
XCTAssert(model.valueB == "x")