zoukankan      html  css  js  c++  java
  • The repository for high quality TypeScript type definitions

    Best practices

    This is a guide to the best practices to follow when creating typing files. There are a variety of different ways that typing files can be constructed. Different approaches can be used - this is intended as a guide to what approaches make sense in certain scenarios.

    Also, it's a steer on how to deal with limitations in TypeScript. As much as it hurts to say it, TypeScript v1.0 is not flawless. There are certain minor flaws / shortcomings in the language which have implicatations for how typings are created. Here we will detail those limitations, how they can be worked around at present and how you can best vote for improvements in the language on the TypeScript site.

    Ghost modules

    Also called non-instantiated modules. Instead of polluting the global namespace with many interfaces, it is okay to create a module that contains interfaces only. This does not introduce a variable on the global namespace (see safety in below sample) and this module can only be used for types.

    // this pattern has 3 name in top level
    interface NodeFoo { }
    interface NodeBar { }
    interface NodeBuzz { }
    
    // this ghost module has 1 name in top level
    declare module NodeJS {
        interface Foo { }
        interface Bar { }
        interface Buzz { }
    }
    
    // safety!
    var n = NodeJS; // TS Error : Could not find symbol NodeJS
    

    This also allows you to open up further customization in external modules as interfaces declared inside external module declarations cannot be extended e.g. the following is good as people can customize foo further in other library definitions.

    // Usage when declaring an external module
    declare module 'foo' {
        var foo: NodeJS.Foo;
        export = foo;
    }
    

    Extending built-in types

    There isn't a way to add static members to native objects at the moment as lib.d.ts defines them as a var Date:{/*members*/} and vars are not extendable. Two solutions are proposed to the TS team. Either use interfaces instead of var in lib.d.ts (vote) and/or make variables/classes open ended (vote)

    For adding members to instances of native types there are relevant interfaces in available in lib.d.ts e.g.

    // add members to Date instances
    interface Date {
        newMember: number;
    }
    
    // usage
    var foo = new Date();
    foo.newMember = 123; // okay
    

    Getter / Setter

    Instead of :

    declare function duration(value?: number): any;
    

    better to do:

    declare function duration(): number;
    declare function duration(value: number): void;
    

    Fluent

    Pretty self explanatory:

    interface Something {
       foo(): Something;
       bar(): Something;
    }
    

    Callback signatures

    Do not mark callback arguments as optional if they are passed in everytime by the calling code. Also leave the return as any if the calling code doesn't care. For example in the following good declaration foo is the calling code we are declaring that always calls with bar and bas and doesn't care of the callback return value:

    declare function foo(callback: (bar: any, bas: any) => any): void;
    
    // Usage is as expected by a JavaScript developer
    foo(() => { });
    foo((bar) => 123);
    foo((bar, bas) => '');
    

    wrong way to model it would be as shown below as it enforces restrictions the original calling code doesn't impose:

    declare function foo(callback: (bar?: any, bas?: any) => void);
    

    Function Overloading

    A Union Type (any for now) is needed only for config object bags. For functions / constructors use function overloading e.g.

    declare class Foo {
        constructor(foo: number);
        constructor(foo: string);
    }
    
    new Foo(123); // okay
    new Foo('123'); // okay
    new Foo(true); // Error
    

    Overload Ordering

    Code with overloads must be manually sorted from the tightest/more-specific overload to loosest. See example below:

    interface Parent { x; }
    interface Child extends Parent { y; }
    
    function foo(p: Child): Child;
    function foo(p: Parent): Parent;
    function foo(p: any): any;
    function foo(p: any) { return p; }
    
    var a = foo({ x: 3, y: 4 }); // a: Child
    var b = foo({ x: 5 }); // b: Parent
    
    var y: any;
    var c = foo(y); // c: any
  • 相关阅读:
    委托和泛型
    xgqfrms™, xgqfrms® : xgqfrms's offical website of GitHub!
    xgqfrms™, xgqfrms® : xgqfrms's offical website of GitHub!
    xgqfrms™, xgqfrms® : xgqfrms's offical website of GitHub!
    xgqfrms™, xgqfrms® : xgqfrms's offical website of GitHub!
    xgqfrms™, xgqfrms® : xgqfrms's offical website of GitHub!
    xgqfrms™, xgqfrms® : xgqfrms's offical website of GitHub!
    xgqfrms™, xgqfrms® : xgqfrms's offical website of GitHub!
    xgqfrms™, xgqfrms® : xgqfrms's offical website of GitHub!
    xgqfrms™, xgqfrms® : xgqfrms's offical website of GitHub!
  • 原文地址:https://www.cnblogs.com/rongfengliang/p/5228602.html
Copyright © 2011-2022 走看看