Modules
Concepts
- import allows you to include and use modules held elsewhere, on your local file system or remotely.
- Imports are URLs or file system paths.
- export allows you to specify which parts of your module are accessible to users who import your module.
Overview
Deno by default standardizes the way modules are imported in both JavaScript and
TypeScript using the ECMAScript 6 import/export
standard.
It adopts browser-like module resolution, meaning that file names must be
specified in full. You may not omit the file extension and there is no special
handling of index.js
.
import { add, multiply } from "./arithmetic.ts";
Dependencies are also imported directly, there is no package management overhead. Local modules are imported in exactly the same way as remote modules. As the examples show below, the same functionality can be produced in the same way with local or remote modules.
Local Import
In this example the add
and multiply
functions are imported from a local
arithmetic.ts
module.
Command: deno run local.ts
/**
* local.ts
*/
import { add, multiply } from "./arithmetic.ts";
function totalCost(outbound: number, inbound: number, tax: number): number {
return multiply(add(outbound, inbound), tax);
}
console.log(totalCost(19, 31, 1.2));
console.log(totalCost(45, 27, 1.15));
/**
* Output
*
* 60
* 82.8
*/
Remote Import
In the local import example above an add
and multiply
method are imported
from a locally stored arithmetic module. The same functionality can be created
by importing add
and multiply
methods from a remote module too.
In this case the Ramda module is referenced, including the version number. Also note a JavaScript module is imported directly into a TypeScript module, Deno has no problem handling this.
Command: deno run ./remote.ts
/**
* remote.ts
*/
import {
add,
multiply,
} from "https://x.nest.land/ramda@0.27.0/source/index.js";
function totalCost(outbound: number, inbound: number, tax: number): number {
return multiply(add(outbound, inbound), tax);
}
console.log(totalCost(19, 31, 1.2));
console.log(totalCost(45, 27, 1.15));
/**
* Output
*
* 60
* 82.8
*/
Export
In the local import example above the add
and multiply
functions are
imported from a locally stored arithmetic module. To make this possible the
functions stored in the arithmetic module must be exported.
To do this just add the keyword export
to the beginning of the function
signature as is shown below.
/**
* arithmetic.ts
*/
export function add(a: number, b: number): number {
return a + b;
}
export function multiply(a: number, b: number): number {
return a * b;
}
All functions, classes, constants and variables which need to be accessible
inside external modules must be exported. Either by prepending them with the
export
keyword or including them in an export statement at the bottom of the
file.
FAQ
How do I import a specific version of a module?
Specify the version in the URL. For example, this URL fully specifies the code
being run: https://unpkg.com/liltest@0.0.5/dist/liltest.js
.
It seems unwieldy to import URLs everywhere.
What if one of the URLs links to a subtly different version of a library?
Isn't it error prone to maintain URLs everywhere in a large project?
The solution is to import and re-export your external libraries in a central
deps.ts
file (which serves the same purpose as Node's package.json
file).
For example, let's say you were using the above assertion library across a large
project. Rather than importing
"https://deno.land/std@0.183.0/testing/asserts.ts"
everywhere, you could
create a deps.ts
file that exports the third-party code:
deps.ts
export {
assert,
assertEquals,
assertStringIncludes,
} from "https://deno.land/std@0.183.0/testing/asserts.ts";
And throughout the same project, you can import from the deps.ts
and avoid
having many references to the same URL:
import { assertEquals, runTests, test } from "./deps.ts";
This design circumvents a plethora of complexity spawned by package management software, centralized code repositories, and superfluous file formats.
How can I trust a URL that may change?
By using a lock file (with the --lock
command line flag), you can ensure that
the code pulled from a URL is the same as it was during initial development. You
can learn more about this here.
But what if the host of the URL goes down? The source won't be available.
This, like the above, is a problem faced by any remote dependency system.
Relying on external servers is convenient for development but brittle in
production. Production software should always vendor its dependencies. In Node
this is done by checking node_modules
into source control. In Deno this is
done by using the deno vendor
subcommand.