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denoland-deno/ext/node/polyfills/_util/std_asserts.ts

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// Copyright 2018-2023 the Deno authors. All rights reserved. MIT license.
// vendored from std/testing/asserts.ts
import { red } from "ext:deno_node/_util/std_fmt_colors.ts";
import {
buildMessage,
diff,
diffstr,
} from "ext:deno_node/_util/std_testing_diff.ts";
/** Converts the input into a string. Objects, Sets and Maps are sorted so as to
* make tests less flaky */
export function format(v: unknown): string {
// deno-lint-ignore no-explicit-any
const { Deno } = globalThis as any;
return typeof Deno?.inspect === "function"
? Deno.inspect(v, {
depth: Infinity,
sorted: true,
trailingComma: true,
compact: false,
iterableLimit: Infinity,
// getters should be true in assertEquals.
getters: true,
})
: `"${String(v).replace(/(?=["\\])/g, "\\")}"`;
}
const CAN_NOT_DISPLAY = "[Cannot display]";
export class AssertionError extends Error {
override name = "AssertionError";
constructor(message: string) {
super(message);
}
}
function isKeyedCollection(x: unknown): x is Set<unknown> {
return [Symbol.iterator, "size"].every((k) => k in (x as Set<unknown>));
}
/** Deep equality comparison used in assertions */
export function equal(c: unknown, d: unknown): boolean {
const seen = new Map();
return (function compare(a: unknown, b: unknown): boolean {
// Have to render RegExp & Date for string comparison
// unless it's mistreated as object
if (
a &&
b &&
((a instanceof RegExp && b instanceof RegExp) ||
(a instanceof URL && b instanceof URL))
) {
return String(a) === String(b);
}
if (a instanceof Date && b instanceof Date) {
const aTime = a.getTime();
const bTime = b.getTime();
// Check for NaN equality manually since NaN is not
// equal to itself.
if (Number.isNaN(aTime) && Number.isNaN(bTime)) {
return true;
}
return aTime === bTime;
}
if (typeof a === "number" && typeof b === "number") {
return Number.isNaN(a) && Number.isNaN(b) || a === b;
}
if (Object.is(a, b)) {
return true;
}
if (a && typeof a === "object" && b && typeof b === "object") {
if (a && b && !constructorsEqual(a, b)) {
return false;
}
if (a instanceof WeakMap || b instanceof WeakMap) {
if (!(a instanceof WeakMap && b instanceof WeakMap)) return false;
throw new TypeError("cannot compare WeakMap instances");
}
if (a instanceof WeakSet || b instanceof WeakSet) {
if (!(a instanceof WeakSet && b instanceof WeakSet)) return false;
throw new TypeError("cannot compare WeakSet instances");
}
if (seen.get(a) === b) {
return true;
}
if (Object.keys(a || {}).length !== Object.keys(b || {}).length) {
return false;
}
seen.set(a, b);
if (isKeyedCollection(a) && isKeyedCollection(b)) {
if (a.size !== b.size) {
return false;
}
let unmatchedEntries = a.size;
for (const [aKey, aValue] of a.entries()) {
for (const [bKey, bValue] of b.entries()) {
/* Given that Map keys can be references, we need
* to ensure that they are also deeply equal */
if (
(aKey === aValue && bKey === bValue && compare(aKey, bKey)) ||
(compare(aKey, bKey) && compare(aValue, bValue))
) {
unmatchedEntries--;
break;
}
}
}
return unmatchedEntries === 0;
}
const merged = { ...a, ...b };
for (
const key of [
...Object.getOwnPropertyNames(merged),
...Object.getOwnPropertySymbols(merged),
]
) {
type Key = keyof typeof merged;
if (!compare(a && a[key as Key], b && b[key as Key])) {
return false;
}
if (((key in a) && (!(key in b))) || ((key in b) && (!(key in a)))) {
return false;
}
}
if (a instanceof WeakRef || b instanceof WeakRef) {
if (!(a instanceof WeakRef && b instanceof WeakRef)) return false;
return compare(a.deref(), b.deref());
}
return true;
}
return false;
})(c, d);
}
// deno-lint-ignore ban-types
function constructorsEqual(a: object, b: object) {
return a.constructor === b.constructor ||
a.constructor === Object && !b.constructor ||
!a.constructor && b.constructor === Object;
}
/** Make an assertion, error will be thrown if `expr` does not have truthy value. */
export function assert(expr: unknown, msg = ""): asserts expr {
if (!expr) {
throw new AssertionError(msg);
}
}
/** Make an assertion that `actual` and `expected` are equal, deeply. If not
* deeply equal, then throw. */
export function assertEquals<T>(actual: T, expected: T, msg?: string) {
if (equal(actual, expected)) {
return;
}
let message = "";
const actualString = format(actual);
const expectedString = format(expected);
try {
const stringDiff = (typeof actual === "string") &&
(typeof expected === "string");
const diffResult = stringDiff
? diffstr(actual as string, expected as string)
: diff(actualString.split("\n"), expectedString.split("\n"));
const diffMsg = buildMessage(diffResult, { stringDiff }).join("\n");
message = `Values are not equal:\n${diffMsg}`;
} catch {
message = `\n${red(red(CAN_NOT_DISPLAY))} + \n\n`;
}
if (msg) {
message = msg;
}
throw new AssertionError(message);
}
/** Make an assertion that `actual` and `expected` are not equal, deeply.
* If not then throw. */
export function assertNotEquals<T>(actual: T, expected: T, msg?: string) {
if (!equal(actual, expected)) {
return;
}
let actualString: string;
let expectedString: string;
try {
actualString = String(actual);
} catch {
actualString = "[Cannot display]";
}
try {
expectedString = String(expected);
} catch {
expectedString = "[Cannot display]";
}
if (!msg) {
msg = `actual: ${actualString} expected not to be: ${expectedString}`;
}
throw new AssertionError(msg);
}
/** Make an assertion that `actual` and `expected` are strictly equal. If
* not then throw. */
export function assertStrictEquals<T>(
actual: unknown,
expected: T,
msg?: string,
): asserts actual is T {
if (Object.is(actual, expected)) {
return;
}
let message: string;
if (msg) {
message = msg;
} else {
const actualString = format(actual);
const expectedString = format(expected);
if (actualString === expectedString) {
const withOffset = actualString
.split("\n")
.map((l) => ` ${l}`)
.join("\n");
message =
`Values have the same structure but are not reference-equal:\n\n${
red(withOffset)
}\n`;
} else {
try {
const stringDiff = (typeof actual === "string") &&
(typeof expected === "string");
const diffResult = stringDiff
? diffstr(actual as string, expected as string)
: diff(actualString.split("\n"), expectedString.split("\n"));
const diffMsg = buildMessage(diffResult, { stringDiff }).join("\n");
message = `Values are not strictly equal:\n${diffMsg}`;
} catch {
message = `\n${CAN_NOT_DISPLAY} + \n\n`;
}
}
}
throw new AssertionError(message);
}
/** Make an assertion that `actual` and `expected` are not strictly equal.
* If the values are strictly equal then throw. */
export function assertNotStrictEquals<T>(
actual: T,
expected: T,
msg?: string,
) {
if (!Object.is(actual, expected)) {
return;
}
throw new AssertionError(
msg ?? `Expected "actual" to be strictly unequal to: ${format(actual)}\n`,
);
}
/** Make an assertion that `actual` match RegExp `expected`. If not
* then throw. */
export function assertMatch(
actual: string,
expected: RegExp,
msg?: string,
) {
if (!expected.test(actual)) {
if (!msg) {
msg = `actual: "${actual}" expected to match: "${expected}"`;
}
throw new AssertionError(msg);
}
}
/** Make an assertion that `actual` not match RegExp `expected`. If match
* then throw. */
export function assertNotMatch(
actual: string,
expected: RegExp,
msg?: string,
) {
if (expected.test(actual)) {
if (!msg) {
msg = `actual: "${actual}" expected to not match: "${expected}"`;
}
throw new AssertionError(msg);
}
}