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# ts-interface-checker
[![Build Status](https://travis-ci.org/gristlabs/ts-interface-checker.svg?branch=master)](https://travis-ci.org/gristlabs/ts-interface-checker)
[![npm version](https://badge.fury.io/js/ts-interface-checker.svg)](https://badge.fury.io/js/ts-interface-checker)
> Runtime library to validate data against TypeScript interfaces.
This package is the runtime support for validators created by
[ts-interface-builder](https://github.com/gristlabs/ts-interface-builder).
It allows validating data, such as parsed JSON objects received
over the network, or parsed JSON or YAML files, to check if they satisfy a
TypeScript interface, and to produce informative error messages if they do not.
## Installation
```bash
npm install --save-dev ts-interface-builder
npm install --save ts-interface-checker
```
## Usage
Suppose you have a TypeScript file defining an interface:
```typescript
// foo.ts
interface Square {
size: number;
color?: string;
}
```
The first step is to generate some code for runtime checks:
```bash
`npm bin`/ts-interface-builder foo.ts
```
It produces a file like this:
```typescript
// foo-ti.js
import * as t from "ts-interface-checker";
export const Square = t.iface([], {
"size": "number",
"color": t.opt("string"),
});
...
```
Now at runtime, to check if a value satisfies the Square interface:
```typescript
import fooTI from "./foo-ti";
import {createCheckers} from "ts-interface-checker";
const {Square} = createCheckers(fooTI);
Square.check({size: 1}); // OK
Square.check({size: 1, color: "green"}); // OK
Square.check({color: "green"}); // Fails with "value.size is missing"
Square.check({size: 4, color: 5}); // Fails with "value.color is not a string"
```
Note that `ts-interface-builder` is only needed for the build-time step, and
`ts-interface-checker` is needed at runtime. That's why the recommendation is to npm-install the
former using `--save-dev` flag and the latter using `--save`.
## Checking method calls
If you have an interface with methods, you can validate method call arguments and return values:
```typescript
// greet.ts
interface Greeter {
greet(name: string): string;
}
```
After generating the runtime code, you can now check calls like:
```typescript
import greetTI from "./greet-ti";
import {createCheckers} from "ts-interface-checker";
const {Greeter} = createCheckers(greetTI);
Greeter.methodArgs("greet").check(["Bob"]); // OK
Greeter.methodArgs("greet").check([17]); // Fails with "value.name is not a string"
Greeter.methodArgs("greet").check([]); // Fails with "value.name is missing"
Greeter.methodResult("greet").check("hello"); // OK
Greeter.methodResult("greet").check(null); // Fails with "value is not a string"
```
## Type suites
If one type refers to a type defined in another file, you need to tell the interface checker about
all type names when you call `createCheckers()`. E.g. given
```typescript
// color.ts
export type Color = RGB | string;
export type RGB = [number, number, number];
```
```typescript
// shape.ts
import {Color} from "./color";
export interface Square {
size: number;
color?: Color;
}
```
the produced files `color-ti.ts` and `shape-ti.ts` do not automatically refer to each other, but
expect you to relate them in `createCheckers()` call:
```typescript
import color from "./color-ti";
import shape from "./shape-ti";
import {createCheckers} from "ts-interface-checker";
const {Square} = createCheckers(shape, color); // Pass in all required type suites.
Square.check({size: 1, color: [255,255,255]});
```
## Strict checking
You may check that data contains no extra properties. Note that it is not generally recommended as
it this prevents backward compatibility: if you add new properties to an interface, then older
code with strict checks will not accept them.
Following on the example above:
```typescript
Square.strictCheck({size: 1, color: [255,255,255], bg: "blue"}); // Fails with value.bg is extraneous
Square.strictCheck({size: 1, color: [255,255,255,0.5]}); // Fails with ...value.color[3] is extraneous
```
## Type guards
Standard `Checker` objects do the type checking logic, but are unable to make the TypeScript
compiler aware that an object of `unknown` type implements a certain interface.
Basic code:
```typescript
const unk: unknown = {size: 1, color: "green"};
// Type is unknown, so TypeScript will not let you access the members.
console.log(unk.size); // Error: "Object is of type 'unknown'"
```
With a `Checker` available:
```typescript
import fooTI from "./foo-ti";
import {createCheckers} from "ts-interface-checker";
const {Square} = createCheckers(fooTI);
const unk: unknown = {size: 1, color: "green"};
if (Square.test(unk)) {
// unk does implement Square, but TypeScript is not aware of it.
console.log(unk.size); // Error: "Object is of type 'unknown'"
}
```
To enable type guard functionality on the existing `test`, and `strictTest` functions, `Checker`
objects should be cast to `CheckerT<>` using the appropriate type.
Using `CheckerT<>`:
```typescript
import {Square} from "./foo";
import fooTI from "./foo-ti";
import {createCheckers, CheckerT} from "ts-interface-checker";
const {Square} = createCheckers(fooTI) as {Square: CheckerT<Square>};
const unk: unknown = {size: 1, color: "green"};
if (Square.test(unk)) {
// TypeScript is now aware that unk implements Square, and allows member access.
console.log(unk.size);
}
```
## Type assertions
`CheckerT<>` will eventually support type assertions using the `check` and `strictCheck` functions,
however, this feature is not yet fully working in TypeScript.
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