ジェネリクス、条件型、マップ型、テンプレートリテラル、ユーティリティ型を含むTypeScriptの高度な型システムを習得し、型安全なアプリケーションを構築します。複雑な型ロジックの実装、再利用可能な型ユーティリティの作成、TypeScriptプロジェクトでのコンパイル時型安全性の確保時に使用してください。
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ジェネリクス、条件型、マップ型、テンプレートリテラル型、ユーティリティ型を含むTypeScriptの高度な型システムを習得し、堅牢で型安全なアプリケーションを構築するための包括的なガイダンス。
目的: 型の柔軟性を維持しながら、再利用可能なコンポーネントを作成します。
基本的なジェネリック関数:
function identity<T>(value: T): T {
return value;
}
const num = identity<number>(42); // 型: number
const str = identity<string>("hello"); // 型: string
const auto = identity(true); // 型推論: boolean
ジェネリック制約:
interface HasLength {
length: number;
}
function logLength<T extends HasLength>(item: T): T {
console.log(item.length);
return item;
}
logLength("hello"); // OK: stringはlengthを持つ
logLength([1, 2, 3]); // OK: arrayはlengthを持つ
logLength({ length: 10 }); // OK: objectはlengthを持つ
// logLength(42); // エラー: numberはlengthを持たない
複数の型パラメータ:
function merge<T, U>(obj1: T, obj2: U): T & U {
return { ...obj1, ...obj2 };
}
const merged = merge(
{ name: "John" },
{ age: 30 }
);
// 型: { name: string } & { age: number }
目的: 条件に依存する型を作成し、洗練された型ロジックを可能にします。
基本的な条件型:
type IsString<T> = T extends string ? true : false;
type A = IsString<string>; // true
type B = IsString<number>; // false
戻り値型の抽出:
type ReturnType<T> = T extends (...args: any[]) => infer R ? R : never;
function getUser() {
return { id: 1, name: "John" };
}
type User = ReturnType<typeof getUser>;
// 型: { id: number; name: string; }
分配条件型:
type ToArray<T> = T extends any ? T[] : never;
type StrOrNumArray = ToArray<string | number>;
// 型: string[] | number[]
ネストされた条件:
type TypeName<T> =
T extends string ? "string" :
T extends number ? "number" :
T extends boolean ? "boolean" :
T extends undefined ? "undefined" :
T extends Function ? "function" :
"object";
type T1 = TypeName<string>; // "string"
type T2 = TypeName<() => void>; // "function"
目的: プロパティを反復処理して既存の型を変換します。
基本的なマップ型:
type Readonly<T> = {
readonly [P in keyof T]: T[P];
};
interface User {
id: number;
name: string;
}
type ReadonlyUser = Readonly<User>;
// 型: { readonly id: number; readonly name: string; }
オプショナルプロパティ:
type Partial<T> = {
[P in keyof T]?: T[P];
};
type PartialUser = Partial<User>;
// 型: { id?: number; name?: string; }
キーの再マッピング:
type Getters<T> = {
[K in keyof T as `get${Capitalize<string & K>}`]: () => T[K]
};
interface Person {
name: string;
age: number;
}
type PersonGetters = Getters<Person>;
// 型: { getName: () => string; getAge: () => number; }
プロパティのフィルタリング:
type PickByType<T, U> = {
[K in keyof T as T[K] extends U ? K : never]: T[K]
};
interface Mixed {
id: number;
name: string;
age: number;
active: boolean;
}
type OnlyNumbers = PickByType<Mixed, number>;
// 型: { id: number; age: number; }
目的: パターンマッチングと変換を使用した文字列ベースの型を作成します。
基本的なテンプレートリテラル:
type EventName = "click" | "focus" | "blur";
type EventHandler = `on${Capitalize<EventName>}`;
// 型: "onClick" | "onFocus" | "onBlur"
文字列操作:
type UppercaseGreeting = Uppercase<"hello">; // "HELLO"
type LowercaseGreeting = Lowercase<"HELLO">; // "hello"
type CapitalizedName = Capitalize<"john">; // "John"
type UncapitalizedName = Uncapitalize<"John">; // "john"
パスの構築:
type Path<T> = T extends object
? { [K in keyof T]: K extends string
? `${K}` | `${K}.${Path<T[K]>}`
: never
}[keyof T]
: never;
interface Config {
server: {
host: string;
port: number;
};
database: {
url: string;
};
}
type ConfigPath = Path<Config>;
// 型: "server" | "database" | "server.host" | "server.port" | "database.url"
組み込みユーティリティ型:
// Partial<T> - 全てのプロパティをオプショナルに
type PartialUser = Partial<User>;
// Required<T> - 全てのプロパティを必須に
type RequiredUser = Required<PartialUser>;
// Readonly<T> - 全てのプロパティを読み取り専用に
type ReadonlyUser = Readonly<User>;
// Pick<T, K> - 特定のプロパティを選択
type UserName = Pick<User, "name" | "email">;
// Omit<T, K> - 特定のプロパティを削除
type UserWithoutPassword = Omit<User, "password">;
// Exclude<T, U> - ユニオンから型を除外
type T1 = Exclude<"a" | "b" | "c", "a">; // "b" | "c"
// Extract<T, U> - ユニオンから型を抽出
type T2 = Extract<"a" | "b" | "c", "a" | "b">; // "a" | "b"
// NonNullable<T> - nullとundefinedを除外
type T3 = NonNullable<string | null | undefined>; // string
// Record<K, T> - キーKと値Tのオブジェクト型を作成
type PageInfo = Record<"home" | "about", { title: string }>;
type EventMap = {
"user:created": { id: string; name: string };
"user:updated": { id: string };
"user:deleted": { id: string };
};
class TypedEventEmitter<T extends Record<string, any>> {
private listeners: {
[K in keyof T]?: Array<(data: T[K]) => void>;
} = {};
on<K extends keyof T>(event: K, callback: (data: T[K]) => void): void {
if (!this.listeners[event]) {
this.listeners[event] = [];
}
this.listeners[event]!.push(callback);
}
emit<K extends keyof T>(event: K, data: T[K]): void {
const callbacks = this.listeners[event];
if (callbacks) {
callbacks.forEach(callback => callback(data));
}
}
}
const emitter = new TypedEventEmitter<EventMap>();
emitter.on("user:created", (data) => {
console.log(data.id, data.name); // 型安全!
});
emitter.emit("user:created", { id: "1", name: "John" });
// emitter.emit("user:created", { id: "1" }); // エラー: 'name'が不足
type HTTPMethod = "GET" | "POST" | "PUT" | "DELETE";
type EndpointConfig = {
"/users": {
GET: { response: User[] };
POST: { body: { name: string; email: string }; response: User };
};
"/users/:id": {
GET: { params: { id: string }; response: User };
PUT: { params: { id: string }; body: Partial<User>; response: User };
DELETE: { params: { id: string }; response: void };
};
};
type ExtractParams<T> = T extends { params: infer P } ? P : never;
type ExtractBody<T> = T extends { body: infer B } ? B : never;
type ExtractResponse<T> = T extends { response: infer R } ? R : never;
class APIClient<Config extends Record<string, Record<HTTPMethod, any>>> {
async request<
Path extends keyof Config,
Method extends keyof Config[Path]
>(
path: Path,
method: Method,
...[options]: ExtractParams<Config[Path][Method]> extends never
? ExtractBody<Config[Path][Method]> extends never
? []
: [{ body: ExtractBody<Config[Path][Method]> }]
: [{
params: ExtractParams<Config[Path][Method]>;
body?: ExtractBody<Config[Path][Method]>;
}]
): Promise<ExtractResponse<Config[Path][Method]>> {
// 実装はここ
return {} as any;
}
}
const api = new APIClient<EndpointConfig>();
// 型安全なAPI呼び出し
const users = await api.request("/users", "GET");
// 型: User[]
const newUser = await api.request("/users", "POST", {
body: { name: "John", email: "john@example.com" }
});
// 型: User
const user = await api.request("/users/:id", "GET", {
params: { id: "123" }
});
// 型: User
type BuilderState<T> = {
[K in keyof T]: T[K] | undefined;
};
type RequiredKeys<T> = {
[K in keyof T]-?: {} extends Pick<T, K> ? never : K;
}[keyof T];
type OptionalKeys<T> = {
[K in keyof T]-?: {} extends Pick<T, K> ? K : never;
}[keyof T];
type IsComplete<T, S> =
RequiredKeys<T> extends keyof S
? S[RequiredKeys<T>] extends undefined
? false
: true
: false;
class Builder<T, S extends BuilderState<T> = {}> {
private state: S = {} as S;
set<K extends keyof T>(
key: K,
value: T[K]
): Builder<T, S & Record<K, T[K]>> {
this.state[key] = value;
return this as any;
}
build(
this: IsComplete<T, S> extends true ? this : never
): T {
return this.state as T;
}
}
interface User {
id: string;
name: string;
email: string;
age?: number;
}
const builder = new Builder<User>();
const user = builder
.set("id", "1")
.set("name", "John")
.set("email", "john@example.com")
.build(); // OK: 全ての必須フィールドが設定された
// const incomplete = builder
// .set("id", "1")
// .build(); // エラー: 必須フィールドが不足
type DeepReadonly<T> = {
readonly [P in keyof T]: T[P] extends object
? T[P] extends Function
? T[P]
: DeepReadonly<T[P]>
: T[P];
};
type DeepPartial<T> = {
[P in keyof T]?: T[P] extends object
? T[P] extends Array<infer U>
? Array<DeepPartial<U>>
: DeepPartial<T[P]>
: T[P];
};
interface Config {
server: {
host: string;
port: number;
ssl: {
enabled: boolean;
cert: string;
};
};
database: {
url: string;
pool: {
min: number;
max: number;
};
};
}
type ReadonlyConfig = DeepReadonly<Config>;
// 全てのネストされたプロパティが読み取り専用
type PartialConfig = DeepPartial<Config>;
// 全てのネストされたプロパティがオプショナル
type ValidationRule<T> = {
validate: (value: T) => boolean;
message: string;
};
type FieldValidation<T> = {
[K in keyof T]?: ValidationRule<T[K]>[];
};
type ValidationErrors<T> = {
[K in keyof T]?: string[];
};
class FormValidator<T extends Record<string, any>> {
constructor(private rules: FieldValidation<T>) {}
validate(data: T): ValidationErrors<T> | null {
const errors: ValidationErrors<T> = {};
let hasErrors = false;
for (const key in this.rules) {
const fieldRules = this.rules[key];
const value = data[key];
if (fieldRules) {
const fieldErrors: string[] = [];
for (const rule of fieldRules) {
if (!rule.validate(value)) {
fieldErrors.push(rule.message);
}
}
if (fieldErrors.length > 0) {
errors[key] = fieldErrors;
hasErrors = true;
}
}
}
return hasErrors ? errors : null;
}
}
interface LoginForm {
email: string;
password: string;
}
const validator = new FormValidator<LoginForm>({
email: [
{
validate: (v) => v.includes("@"),
message: "Email must contain @"
},
{
validate: (v) => v.length > 0,
message: "Email is required"
}
],
password: [
{
validate: (v) => v.length >= 8,
message: "Password must be at least 8 characters"
}
]
});
const errors = validator.validate({
email: "invalid",
password: "short"
});
// 型: { email?: string[]; password?: string[]; } | null
type Success<T> = {
status: "success";
data: T;
};
type Error = {
status: "error";
error: string;
};
type Loading = {
status: "loading";
};
type AsyncState<T> = Success<T> | Error | Loading;
function handleState<T>(state: AsyncState<T>): void {
switch (state.status) {
case "success":
console.log(state.data); // 型: T
break;
case "error":
console.log(state.error); // 型: string
break;
case "loading":
console.log("Loading...");
break;
}
}
// 型安全なステートマシン
type State =
| { type: "idle" }
| { type: "fetching"; requestId: string }
| { type: "success"; data: any }
| { type: "error"; error: Error };
type Event =
| { type: "FETCH"; requestId: string }
| { type: "SUCCESS"; data: any }
| { type: "ERROR"; error: Error }
| { type: "RESET" };
function reducer(state: State, event: Event): State {
switch (state.type) {
case "idle":
return event.type === "FETCH"
? { type: "fetching", requestId: event.requestId }
: state;
case "fetching":
if (event.type === "SUCCESS") {
return { type: "success", data: event.data };
}
if (event.type === "ERROR") {
return { type: "error", error: event.error };
}
return state;
case "success":
case "error":
return event.type === "RESET" ? { type: "idle" } : state;
}
}
// 配列要素の型を抽出
type ElementType<T> = T extends (infer U)[] ? U : never;
type NumArray = number[];
type Num = ElementType<NumArray>; // number
// Promise型を抽出
type PromiseType<T> = T extends Promise<infer U> ? U : never;
type AsyncNum = PromiseType<Promise<number>>; // number
// 関数パラメータを抽出
type Parameters<T> = T extends (...args: infer P) => any ? P : never;
function foo(a: string, b: number) {}
type FooParams = Parameters<typeof foo>; // [string, number]
function isString(value: unknown): value is string {
return typeof value === "string";
}
function isArrayOf<T>(
value: unknown,
guard: (item: unknown) => item is T
): value is T[] {
return Array.isArray(value) && value.every(guard);
}
const data: unknown = ["a", "b", "c"];
if (isArrayOf(data, isString)) {
data.forEach(s => s.toUpperCase()); // 型: string[]
}
function assertIsString(value: unknown): asserts value is string {
if (typeof value !== "string") {
throw new Error("Not a string");
}
}
function processValue(value: unknown) {
assertIsString(value);
// valueは今string型
console.log(value.toUpperCase());
}
anyよりunknownを使用: 型チェックを強制interfaceを優先: より良いエラーメッセージtypeを使用: より柔軟// 型アサーションテスト
type AssertEqual<T, U> =
[T] extends [U]
? [U] extends [T]
? true
: false
: false;
type Test1 = AssertEqual<string, string>; // true
type Test2 = AssertEqual<string, number>; // false
type Test3 = AssertEqual<string | number, string>; // false
// エラー期待ヘルパー
type ExpectError<T extends never> = T;
// 使用例
type ShouldError = ExpectError<AssertEqual<string, number>>;
anyの過度な使用: TypeScriptの目的を無効化
