Testing
Deno has a built-in test runner that you can use for testing JavaScript or TypeScript code.
deno test
will search in ./*
and ./**/*
recursively, for test files:
- named
test.{ts, tsx, mts, js, mjs, jsx, cjs, cts}
, - or ending with
.test.{ts, tsx, mts, js, mjs, jsx, cjs, cts}
, - or ending with
_test.{ts, tsx, mts, js, mjs, jsx, cjs, cts}
Writing tests
To define a test you need to register it with a call to Deno.test
API. There
are multiple overloads of this API to allow for greatest flexibility and easy
switching between the forms (eg. when you need to quickly focus a single test
for debugging, using only: true
option):
import { assertEquals } from "https://deno.land/std@$STD_VERSION/testing/asserts.ts";
// Compact form: name and function
Deno.test("hello world #1", () => {
const x = 1 + 2;
assertEquals(x, 3);
});
// Compact form: named function.
Deno.test(function helloWorld3() {
const x = 1 + 2;
assertEquals(x, 3);
});
// Longer form: test definition.
Deno.test({
name: "hello world #2",
fn: () => {
const x = 1 + 2;
assertEquals(x, 3);
},
});
// Similar to compact form, with additional configuration as a second argument.
Deno.test("hello world #4", { permissions: { read: true } }, () => {
const x = 1 + 2;
assertEquals(x, 3);
});
// Similar to longer form, with test function as a second argument.
Deno.test(
{ name: "hello world #5", permissions: { read: true } },
() => {
const x = 1 + 2;
assertEquals(x, 3);
},
);
// Similar to longer form, with a named test function as a second argument.
Deno.test({ permissions: { read: true } }, function helloWorld6() {
const x = 1 + 2;
assertEquals(x, 3);
});
Async functions
You can also test asynchronous code by passing a test function that returns a
promise. For this you can use the async
keyword when defining a function:
import { delay } from "https://deno.land/std@$STD_VERSION/async/delay.ts";
Deno.test("async hello world", async () => {
const x = 1 + 2;
// await some async task
await delay(100);
if (x !== 3) {
throw Error("x should be equal to 3");
}
});
Test steps
The test steps API provides a way to report distinct steps within a test and do setup and teardown code within that test.
Deno.test("database", async (t) => {
const db = await Database.connect("postgres://localhost/test");
// provide a step name and function
await t.step("insert user", async () => {
const users = await db.query(
"INSERT INTO users (name) VALUES ('Deno') RETURNING *",
);
assertEquals(users.length, 1);
assertEquals(users[0].name, "Deno");
});
// or provide a test definition
await t.step({
name: "insert book",
fn: async () => {
const books = await db.query(
"INSERT INTO books (name) VALUES ('The Deno Manual') RETURNING *",
);
assertEquals(books.length, 1);
assertEquals(books[0].name, "The Deno Manual");
},
ignore: false,
// these default to the parent test or step's value
sanitizeOps: true,
sanitizeResources: true,
sanitizeExit: true,
});
// nested steps are also supported
await t.step("update and delete", async (t) => {
await t.step("update", () => {
// even though this test throws, the outer promise does not reject
// and the next test step will run
throw new Error("Fail.");
});
await t.step("delete", () => {
// ...etc...
});
});
// steps return a value saying if they ran or not
const testRan = await t.step({
name: "copy books",
fn: () => {
// ...etc...
},
ignore: true, // was ignored, so will return `false`
});
// steps can be run concurrently if sanitizers are disabled on sibling steps
const testCases = [1, 2, 3];
await Promise.all(testCases.map((testCase) =>
t.step({
name: `case ${testCase}`,
fn: async () => {
// ...etc...
},
sanitizeOps: false,
sanitizeResources: false,
sanitizeExit: false,
})
));
db.close();
});
Outputs:
test database ...
test insert user ... ok (2ms)
test insert book ... ok (14ms)
test update and delete ...
test update ... FAILED (17ms)
Error: Fail.
at <stack trace omitted>
test delete ... ok (19ms)
FAILED (46ms)
test copy books ... ignored (0ms)
test case 1 ... ok (14ms)
test case 2 ... ok (14ms)
test case 3 ... ok (14ms)
FAILED (111ms)
Notes:
- Test steps must be awaited before the parent test/step function resolves or you will get a runtime error.
- Test steps cannot be run concurrently unless sanitizers on a sibling step or parent test are disabled.
- If nesting steps, ensure you specify a parameter for the parent step.
Deno.test("my test", (t) => {
await t.step("step", async (t) => {
// note the `t` used here is for the parent step and not the outer `Deno.test`
await t.step("sub-step", () => {
});
});
});
Nested test steps
Running tests
To run the test, call deno test
with the file that contains your test
function. You can also omit the file name, in which case all tests in the
current directory (recursively) that match the glob
{*_,*.,}test.{ts, tsx, mts, js, mjs, jsx, cjs, cts}
will be run. If you pass a
directory, all files in the directory that match this glob will be run.
# Run all tests in the current directory and all sub-directories
deno test
# Run all tests in the util directory
deno test util/
# Run just my_test.ts
deno test my_test.ts
⚠️ If you want to pass additional CLI arguments to the test files use
--
to inform Deno that remaining arguments are scripts arguments.
# Pass additional arguments to the test file
deno test my_test.ts -- -e --foo --bar
deno test
uses the same permission model as deno run
and therefore will
require, for example, --allow-write
to write to the file system during
testing.
To see all runtime options with deno test
, you can reference the command line
help:
deno help test
Filtering
There are a number of options to filter the tests you are running.
Command line filtering
Tests can be run individually or in groups using the command line --filter
option.
The filter flags accept a string or a pattern as value.
Assuming the following tests:
Deno.test({ name: "my-test", fn: myTest });
Deno.test({ name: "test-1", fn: test1 });
Deno.test({ name: "test2", fn: test2 });
This command will run all of these tests because they all contain the word “test”.
deno test --filter "test" tests/
On the flip side, the following command uses a pattern and will run the second and third tests.
deno test --filter "/test-*\d/" tests/
To let Deno know that you want to use a pattern, wrap your filter with forward-slashes like the JavaScript syntactic sugar for a REGEX.
Test definition filtering
Within the tests themselves, you have two options for filtering.
Filtering out (Ignoring these tests)
Sometimes you want to ignore tests based on some sort of condition (for example
you only want a test to run on Windows). For this you can use the ignore
boolean in the test definition. If it is set to true the test will be skipped.
Deno.test({
name: "do macOS feature",
ignore: Deno.build.os !== "darwin",
fn() {
doMacOSFeature();
},
});
Filtering in (Only run these tests)
Sometimes you may be in the middle of a problem within a large test class and
you would like to focus on just that test and ignore the rest for now. For this
you can use the only
option to tell the test framework to only run tests with
this set to true. Multiple tests can set this option. While the test run will
report on the success or failure of each test, the overall test run will always
fail if any test is flagged with only
, as this is a temporary measure only
which disables nearly all of your tests.
Deno.test({
name: "Focus on this test only",
only: true,
fn() {
testComplicatedStuff();
},
});
Failing fast
If you have a long-running test suite and wish for it to stop on the first
failure, you can specify the --fail-fast
flag when running the suite.
deno test --fail-fast
Integration with testing libraries
Deno’s test runner works with popular testing libraries like Chai, Sinon.JS or fast-check.
For example integration see:
- https://deno.land/std@$STD_VERSION/testing/chai_example.ts
- https://deno.land/std@$STD_VERSION/testing/sinon_example.ts
- https://deno.land/std@$STD_VERSION/testing/fast_check_example.ts
Example: spying on a function with Sinon
Test spies are function stand-ins that are used to assert if a function’s internal behavior matches expectations. Sinon is a widely used testing library that provides test spies and can be used in Deno by importing it from a CDN, such as Skypack:
import sinon from "https://cdn.skypack.dev/sinon";
Say we have two functions, foo
and bar
and want to assert that bar
is
called during execution of foo
. There are a few ways to achieve this with
Sinon, one is to have function foo
take another function as a parameter:
// my_file.js
export function bar() {/*...*/}
export function foo(fn) {
fn();
}
This way, we can call foo(bar)
in the application code or wrap a spy function
around bar
and call foo(spy)
in the testing code:
import sinon from "https://cdn.skypack.dev/sinon";
import { assertEquals } from "https://deno.land/std@$STD_VERSION/testing/asserts.ts";
import { bar, foo } from "./my_file.js";
Deno.test("calls bar during execution of foo", () => {
// create a test spy that wraps 'bar'
const spy = sinon.spy(bar);
// call function 'foo' and pass the spy as an argument
foo(spy);
assertEquals(spy.called, true);
assertEquals(spy.getCalls().length, 1);
});
If you prefer not to add additional parameters for testing purposes only, you
can also use sinon
to wrap a method on an object instead. In other JavaScript
environments bar
might have been accessible via a global such as window
and
callable via sinon.spy(window, "bar")
, but in Deno this will not work and
instead you can export
an object with the functions to be tested. This means
rewriting my_file.js
to something like this:
// my_file.js
function bar() {/*...*/}
export const funcs = {
bar,
};
// 'foo' no longer takes a parameter, but calls 'bar' from an object
export function foo() {
funcs.bar();
}
And then import
in a test file:
import sinon from "https://cdn.skypack.dev/sinon";
import { assertEquals } from "https://deno.land/std@$STD_VERSION/testing/asserts.ts";
import { foo, funcs } from "./my_file.js";
Deno.test("calls bar during execution of foo", () => {
// create a test spy that wraps 'bar' on the 'funcs' object
const spy = sinon.spy(funcs, "bar");
// call function 'foo' without an argument
foo();
assertEquals(spy.called, true);
assertEquals(spy.getCalls().length, 1);
});