Packages
moon
2.90.5
2.90.5
retired
2.90.4
2.90.3
2.90.2
2.90.1
2.90.0
2.89.4
2.89.1
2.89.0
2.88.0
2.87.11
2.87.10
2.87.9
2.87.8
2.87.7
2.87.6
2.87.5
2.87.4
2.87.3
2.87.2
2.87.1
2.87.0
2.86.1
2.86.0
2.85.1
2.85.0
2.84.0
2.83.0
2.82.0
2.81.4
2.81.3
2.81.2
2.81.1
2.81.0
2.80.2
2.80.1
2.80.0
2.79.13
2.79.12
2.79.11
2.79.10
2.79.9
2.79.8
2.79.7
2.79.6
2.79.5
2.79.4
2.79.3
2.79.2
2.79.1
2.79.0
2.78.4
2.78.3
2.78.2
2.78.1
2.78.0
2.77.0
2.76.5
2.76.4
2.76.3
2.76.2
2.76.1
2.76.0
2.75.0
2.74.1
2.74.0
2.73.8
2.73.7
2.73.6
2.73.5
2.73.4
2.73.3
2.73.2
2.73.1
2.73.0
2.72.5
2.72.4
2.72.3
2.72.2
2.72.1
2.72.0
2.71.1
2.71.0
2.70.0
2.69.2
2.69.1
2.69.0
2.68.11
2.68.10
Components-based design system written in elixir
Retired package: Deprecated - Package no longer supported. Use moon_live_view package instead
Current section
Files
Jump to
Current section
Files
assets/node_modules/ts-interface-checker/README.md
# ts-interface-checker
[](https://travis-ci.org/gristlabs/ts-interface-checker)
[](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.