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denoland-deno/std/testing/README.md

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# Testing
This module provides a few basic utilities to make testing easier and consistent
in Deno.
## Usage
`testing/asserts.ts` module provides range of assertion helpers. If the
assertion is false an `AssertionError` will be thrown which will result in
pretty-printed diff of failing assertion.
- `equal()` - Deep comparison function, where `actual` and `expected` are
compared deeply, and if they vary, `equal` returns `false`.
- `assert()` - Expects a boolean value, throws if the value is `false`.
- `assertEquals()` - Uses the `equal` comparison and throws if the `actual` and
`expected` are not equal.
- `assertNotEquals()` - Uses the `equal` comparison and throws if the `actual`
and `expected` are equal.
- `assertStrictEquals()` - Compares `actual` and `expected` strictly, therefore
for non-primitives the values must reference the same instance.
- `assertStringContains()` - Make an assertion that `actual` contains
`expected`.
- `assertMatch()` - Make an assertion that `actual` match RegExp `expected`.
- `assertNotMatch()` - Make an assertion that `actual` not match RegExp
`expected`.
- `assertArrayContains()` - Make an assertion that `actual` array contains the
`expected` values.
- `assertThrows()` - Expects the passed `fn` to throw. If `fn` does not throw,
this function does. Also compares any errors thrown to an optional expected
`Error` class and checks that the error `.message` includes an optional
string.
- `assertThrowsAsync()` - Expects the passed `fn` to be async and throw (or
return a `Promise` that rejects). If the `fn` does not throw or reject, this
function will throw asynchronously. Also compares any errors thrown to an
optional expected `Error` class and checks that the error `.message` includes
an optional string.
- `unimplemented()` - Use this to stub out methods that will throw when invoked
- `unreachable()` - Used to assert unreachable code
Basic usage:
```ts
import { assertEquals } from "https://deno.land/std/testing/asserts.ts";
Deno.test({
name: "testing example",
fn(): void {
assertEquals("world", "world");
assertEquals({ hello: "world" }, { hello: "world" });
},
});
```
Short syntax (named function instead of object):
```ts
Deno.test("example", function (): void {
assertEquals("world", "world");
assertEquals({ hello: "world" }, { hello: "world" });
});
```
Using `assertStrictEquals()`:
```ts
Deno.test("isStrictlyEqual", function (): void {
const a = {};
const b = a;
assertStrictEquals(a, b);
});
// This test fails
Deno.test("isNotStrictlyEqual", function (): void {
const a = {};
const b = {};
assertStrictEquals(a, b);
});
```
Using `assertThrows()`:
```ts
Deno.test("doesThrow", function (): void {
assertThrows((): void => {
throw new TypeError("hello world!");
});
assertThrows((): void => {
throw new TypeError("hello world!");
}, TypeError);
assertThrows(
(): void => {
throw new TypeError("hello world!");
},
TypeError,
"hello",
);
});
// This test will not pass
Deno.test("fails", function (): void {
assertThrows((): void => {
console.log("Hello world");
});
});
```
Using `assertThrowsAsync()`:
```ts
Deno.test("doesThrow", async function (): Promise<void> {
await assertThrowsAsync(
async (): Promise<void> => {
throw new TypeError("hello world!");
},
);
await assertThrowsAsync(async (): Promise<void> => {
throw new TypeError("hello world!");
}, TypeError);
await assertThrowsAsync(
async (): Promise<void> => {
throw new TypeError("hello world!");
},
TypeError,
"hello",
);
await assertThrowsAsync(
async (): Promise<void> => {
return Promise.reject(new Error());
},
);
});
// This test will not pass
Deno.test("fails", async function (): Promise<void> {
await assertThrowsAsync(
async (): Promise<void> => {
console.log("Hello world");
},
);
});
```
## Benching
With this module you can benchmark your code and get information on how is it
performing.
### Basic usage:
Benchmarks can be registered using the `bench` function, where you can define a
code, that should be benchmarked. `b.start()` has to be called at the start of
the part you want to benchmark and `b.stop()` at the end of it, otherwise an
error will be thrown.
After that simply calling `runBenchmarks()` will benchmark all registered
benchmarks and log the results in the commandline.
```ts
import { runBenchmarks, bench } from "https://deno.land/std/testing/bench.ts";
bench(function forIncrementX1e9(b): void {
b.start();
for (let i = 0; i < 1e9; i++);
b.stop();
});
runBenchmarks();
```
Averaging execution time over multiple runs:
```ts
bench({
name: "runs100ForIncrementX1e6",
runs: 100,
func(b): void {
b.start();
for (let i = 0; i < 1e6; i++);
b.stop();
},
});
```
Running specific benchmarks using regular expressions:
```ts
runBenchmarks({ only: /desired/, skip: /exceptions/ });
```
### Processing benchmark results
`runBenchmarks()` returns a `Promise<BenchmarkRunResult>`, so you can process
the benchmarking results yourself. It contains detailed results of each
benchmark's run as `BenchmarkResult` s.
```ts
runBenchmarks()
.then((results: BenchmarkRunResult) => {
console.log(results);
})
.catch((error: Error) => {
// ... errors if benchmark was badly constructed
});
```
### Processing benchmarking progress
`runBenchmarks()` accepts an optional progress handler callback function, so you
can get information on the progress of the running benchmarking.
Using `{ silent: true }` means you wont see the default progression logs in the
commandline.
```ts
runBenchmarks({ silent: true }, (p: BenchmarkRunProgress) => {
// initial progress data
if (p.state === ProgressState.BenchmarkingStart) {
console.log(
`Starting benchmarking. Queued: ${p.queued.length}, filtered: ${p.filtered}`,
);
}
// ...
});
```
#### Benching API
##### `bench(benchmark: BenchmarkDefinition | BenchmarkFunction): void`
Registers a benchmark that will be run once `runBenchmarks` is called.
##### `runBenchmarks(opts?: BenchmarkRunOptions, progressCb?: (p: BenchmarkRunProgress) => void | Promise<void>): Promise<BenchmarkRunResult>`
Runs all registered benchmarks serially. Filtering can be applied by setting
`BenchmarkRunOptions.only` and/or `BenchmarkRunOptions.skip` to regular
expressions matching benchmark names. Default progression logs can be turned off
with the `BenchmarkRunOptions.silent` flag.
##### `clearBenchmarks(opts?: BenchmarkClearOptions): void`
Clears all registered benchmarks, so calling `runBenchmarks()` after it wont run
them. Filtering can be applied by setting `BenchmarkRunOptions.only` and/or
`BenchmarkRunOptions.skip` to regular expressions matching benchmark names.