std/assert/equal_test.ts

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// Copyright 2018-2024 the Deno authors. All rights reserved. MIT license.
import { assert, assertFalse, assertThrows, equal } from "./mod.ts";
Deno.test("equal() different zero", () => {
assert(equal(0, -0));
assert(equal(0, +0));
assert(equal(+0, -0));
assert(equal([0], [-0]));
assert(equal(["hello", 12.21, 0], ["hello", 12.21, -0]));
assert(equal(["hello", 12.21, 0], ["hello", 12.21, +0]));
assert(equal(["hello", 12.21, -0], ["hello", 12.21, +0]));
assert(equal({ msg: "hello", case: 0 }, { msg: "hello", case: -0 }));
assert(equal({ msg: "hello", array: [0] }, { msg: "hello", array: [-0] }));
});
Deno.test("equal()", () => {
assert(equal("world", "world"));
assert(!equal("hello", "world"));
assertFalse(equal("hello", "world"));
assert(equal(5, 5));
assert(!equal(5, 6));
assertFalse(equal(5, 6));
assert(equal(NaN, NaN));
assert(equal(null, null));
assertFalse(equal(null, undefined));
assert(equal({ hello: "world" }, { hello: "world" }));
assert(!equal({ world: "hello" }, { hello: "world" }));
assertFalse(equal({}, { hello: "world" }));
assertFalse(equal({ world: "hello" }, { hello: "world" }));
assertFalse(equal({ hello: "world", world: "hello" }, { world: "hello" }));
assert(
equal(
{ hello: "world", hi: { there: "everyone" } },
{ hello: "world", hi: { there: "everyone" } },
),
);
assert(
!equal(
{ hello: "world", hi: { there: "everyone" } },
{ hello: "world", hi: { there: "everyone else" } },
),
);
assertFalse(
equal(
{ hello: "world", hi: { there: "everyone" } },
{ hello: "world", hi: { there: "everyone else" } },
),
);
assert(equal({ [Symbol.for("foo")]: "bar" }, { [Symbol.for("foo")]: "bar" }));
assert(!equal({ [Symbol("foo")]: "bar" }, { [Symbol("foo")]: "bar" }));
assertFalse(equal({ [Symbol("foo")]: "bar" }, { [Symbol("foo")]: "bar" }));
assert(equal(/deno/, /deno/));
assert(!equal(/deno/, /node/));
assertFalse(equal(/deno/, /node/));
assert(equal(new Date(2019, 0, 3), new Date(2019, 0, 3)));
assert(!equal(new Date(2019, 0, 3), new Date(2019, 1, 3)));
assertFalse(equal(new Date(2019, 0, 3), new Date(2019, 1, 3)));
assert(
!equal(
new Date(2019, 0, 3, 4, 20, 1, 10),
new Date(2019, 0, 3, 4, 20, 1, 20),
),
);
assertFalse(
equal(
new Date(2019, 0, 3, 4, 20, 1, 10),
new Date(2019, 0, 3, 4, 20, 1, 20),
),
);
assert(equal(new Date("Invalid"), new Date("Invalid")));
assert(!equal(new Date("Invalid"), new Date(2019, 0, 3)));
assertFalse(equal(new Date("Invalid"), new Date(2019, 0, 3)));
assert(!equal(new Date("Invalid"), new Date(2019, 0, 3, 4, 20, 1, 10)));
assertFalse(equal(new Date("Invalid"), new Date(2019, 0, 3, 4, 20, 1, 10)));
assert(equal(new Set([1]), new Set([1])));
assert(!equal(new Set([1]), new Set([2])));
assertFalse(equal(new Set([1]), new Set([2])));
assert(equal(new Set([1, 2, 3]), new Set([3, 2, 1])));
assert(equal(new Set([1, new Set([2, 3])]), new Set([new Set([3, 2]), 1])));
assert(!equal(new Set([1, 2]), new Set([3, 2, 1])));
assertFalse(equal(new Set([1, 2]), new Set([3, 2, 1])));
assert(!equal(new Set([1, 2, 3]), new Set([4, 5, 6])));
assertFalse(equal(new Set([1, 2, 3]), new Set([4, 5, 6])));
assert(equal(new Set("denosaurus"), new Set("denosaurussss")));
assert(equal(new Map(), new Map()));
assert(
equal(
new Map([
["foo", "bar"],
["baz", "baz"],
]),
new Map([
["foo", "bar"],
["baz", "baz"],
]),
),
);
assert(
equal(
new Map([["foo", new Map([["bar", "baz"]])]]),
new Map([["foo", new Map([["bar", "baz"]])]]),
),
);
assert(
equal(
new Map([["foo", { bar: "baz" }]]),
new Map([["foo", { bar: "baz" }]]),
),
);
assert(
equal(
new Map([
["foo", "bar"],
["baz", "qux"],
]),
new Map([
["baz", "qux"],
["foo", "bar"],
]),
),
);
assert(equal(new Map([["foo", ["bar"]]]), new Map([["foo", ["bar"]]])));
assert(!equal(new Map([["foo", "bar"]]), new Map([["bar", "baz"]])));
assertFalse(equal(new Map([["foo", "bar"]]), new Map([["bar", "baz"]])));
assertFalse(equal(new Map([["foo", "bar"]]), new Map([["bar", "baz"]])));
assert(
!equal(
new Map([["foo", "bar"]]),
new Map([
["foo", "bar"],
["bar", "baz"],
]),
),
);
assertFalse(
equal(
new Map([["foo", "bar"]]),
new Map([
["foo", "bar"],
["bar", "baz"],
]),
),
);
assert(
!equal(
new Map([["foo", new Map([["bar", "baz"]])]]),
new Map([["foo", new Map([["bar", "qux"]])]]),
),
);
assert(equal(new Map([[{ x: 1 }, true]]), new Map([[{ x: 1 }, true]])));
assert(!equal(new Map([[{ x: 1 }, true]]), new Map([[{ x: 1 }, false]])));
assertFalse(equal(new Map([[{ x: 1 }, true]]), new Map([[{ x: 1 }, false]])));
assert(!equal(new Map([[{ x: 1 }, true]]), new Map([[{ x: 2 }, true]])));
assertFalse(equal(new Map([[{ x: 1 }, true]]), new Map([[{ x: 2 }, true]])));
assert(equal([1, 2, 3], [1, 2, 3]));
assert(equal([1, [2, 3]], [1, [2, 3]]));
assert(!equal([1, 2, 3, 4], [1, 2, 3]));
assertFalse(equal([1, 2, 3, 4], [1, 2, 3]));
assert(!equal([1, 2, 3, 4], [1, 2, 3]));
assertFalse(equal([1, 2, 3, 4], [1, 2, 3]));
assert(!equal([1, 2, 3, 4], [1, 4, 2, 3]));
assertFalse(equal([1, 2, 3, 4], [1, 4, 2, 3]));
assert(equal(new Uint8Array([1, 2, 3, 4]), new Uint8Array([1, 2, 3, 4])));
assert(!equal(new Uint8Array([1, 2, 3, 4]), new Uint8Array([2, 1, 4, 3])));
assertFalse(
equal(new Uint8Array([1, 2, 3, 4]), new Uint8Array([2, 1, 4, 3])),
);
assert(
equal(new URL("https://example.test"), new URL("https://example.test")),
);
assert(
!equal(
new URL("https://example.test"),
new URL("https://example.test/with-path"),
),
);
assertFalse(
equal(
new URL("https://example.test"),
new URL("https://example.test/with-path"),
),
);
assert(
!equal({ a: undefined, b: undefined }, { a: undefined, c: undefined }),
);
assertFalse(
equal({ a: undefined, b: undefined }, { a: undefined, c: undefined }),
);
assertFalse(equal({ a: undefined, b: undefined }, { a: undefined }));
assertThrows(() => equal(new WeakMap(), new WeakMap()));
assertThrows(() => equal(new WeakSet(), new WeakSet()));
assert(!equal(new WeakMap(), new WeakSet()));
assertFalse(equal(new WeakMap(), new WeakSet()));
assert(
equal(new WeakRef({ hello: "world" }), new WeakRef({ hello: "world" })),
);
assert(
!equal(new WeakRef({ world: "hello" }), new WeakRef({ hello: "world" })),
);
assertFalse(
equal(new WeakRef({ world: "hello" }), new WeakRef({ hello: "world" })),
);
assert(!equal({ hello: "world" }, new WeakRef({ hello: "world" })));
assertFalse(equal({ hello: "world" }, new WeakRef({ hello: "world" })));
assert(
!equal(
new WeakRef({ hello: "world" }),
new (class<T extends object> extends WeakRef<T> {})({ hello: "world" }),
),
);
assertFalse(
equal(
new WeakRef({ hello: "world" }),
new (class<T extends object> extends WeakRef<T> {})({ hello: "world" }),
),
);
assert(
!equal(
new WeakRef({ hello: "world" }),
new (class<T extends object> extends WeakRef<T> {
foo = "bar";
})({ hello: "world" }),
),
);
assertFalse(
equal(
new WeakRef({ hello: "world" }),
new (class<T extends object> extends WeakRef<T> {
foo = "bar";
})({ hello: "world" }),
),
);
assert(
!equal(
new (class A {
#hello = "world";
})(),
new (class B {
#hello = "world";
})(),
),
);
assertFalse(
equal(
new (class A {
#hello = "world";
})(),
new (class B {
#hello = "world";
})(),
),
);
});
Deno.test("equal() circular", () => {
const objA: { prop?: unknown } = {};
objA.prop = objA;
const objB: { prop?: unknown } = {};
objB.prop = objB;
assert(equal(objA, objB));
const mapA = new Map();
mapA.set("prop", mapA);
const mapB = new Map();
mapB.set("prop", mapB);
assert(equal(mapA, mapB));
});
Deno.test("equal() WeakMap, WeakRef and WeakSet", () => {
assertThrows(() => equal(new WeakMap(), new WeakMap()));
assertThrows(() => equal(new WeakSet(), new WeakSet()));
assertFalse(equal(new WeakMap(), { constructor: WeakMap }));
assertFalse(equal(new WeakSet(), { constructor: WeakSet }));
assertFalse(equal(new WeakRef({}), { constructor: WeakRef }));
});
Deno.test("equal() fast path for primitive keyed collections", () => {
const arr = Array.from({ length: 10_000 }, (_, i) => i);
const set1 = new Set(arr);
const set2 = new Set(arr);
assert(equal(set1, set2));
const map1 = new Map(arr.map((v) => [v, v]));
const map2 = new Map(arr.map((v) => [v, v]));
assert(equal(map1, map2));
const set3 = new Set(arr);
const set4 = new Set(arr.with(-1, -1));
assertFalse(equal(set3, set4));
// entries [...] 9998 => 9998, 9999 => 9999
const map3 = new Map(arr.map((v) => [v, v]));
// entries [...] 9998 => 9998, -1 => -1
const map4 = new Map(arr.with(-1, -1).map((v) => [v, v]));
assertFalse(equal(map3, map4));
// entries [...] 9998 => 9998, 9999 => 9999
const map5 = new Map(arr.map((v, i) => [i, v]));
// entries [...] 9998 => 9998, 9999 => -1
const map6 = new Map(arr.with(-1, -1).map((v, i) => [i, v]));
assertFalse(equal(map5, map6));
});
Deno.test("equal() keyed collection edge cases", () => {
assert(equal(new Set([{ b: 2 }, { a: 1 }]), new Set([{ a: 1 }, { b: 2 }])));
assertFalse(
equal(new Set([{ b: 2 }, { a: 1 }]), new Set([{ a: 1 }, { b: 3 }])),
);
const sym = Symbol();
assert(equal(new Set([sym]), new Set([sym])));
assert(equal(new Set([sym, "a"]), new Set(["a", sym])));
assertFalse(equal(new Set([sym, "a"]), new Set(["b", sym])));
assertFalse(equal(new Set([Symbol()]), new Set([Symbol()])));
assert(equal(new Set([Symbol.for("x")]), new Set([Symbol.for("x")])));
assert(equal(
new Map([[{ b: 2 }, 2], [{ a: 1 }, 1]]),
new Map([[{ a: 1 }, 1], [{ b: 2 }, 2]]),
));
assertFalse(equal(
new Map([[{ b: 2 }, 2], [{ a: 1 }, 1]]),
new Map([[{ a: 1 }, 1], [{ b: 2 }, 3]]),
));
assertFalse(equal(
new Map([[{ b: 2 }, 2], [{ a: 1 }, 1]]),
new Map([[{ a: 1 }, 1], [{ b: 3 }, 2]]),
));
assert(equal(
new Map([[2, { b: 2 }], [1, { a: 1 }]]),
new Map([[1, { a: 1 }], [2, { b: 2 }]]),
));
assertFalse(equal(
new Map([[2, { b: 2 }], [1, { a: 1 }]]),
new Map([[1, { a: 1 }], [3, { b: 2 }]]),
));
assertFalse(equal(
new Map([[2, { b: 2 }], [1, { a: 1 }]]),
new Map([[1, { a: 1 }], [2, { b: 3 }]]),
));
});
Deno.test("equal() with constructor and prototype", async (t) => {
await t.step(
"value-equal but reference-unequal property named `constructor`",
() => {
assert(equal(
{ constructor: { x: 1 } },
{ constructor: { x: 1 } },
));
},
);
await t.step(
"instance vs plain object with property named `constructor`",
() => {
class X {}
const a = new X();
const b = { constructor: X };
assert(equal(a.constructor, b.constructor));
assertFalse(equal(a, b));
},
);
await t.step("manually set prototype", () => {
class X {
prop = 1;
}
const a = new X();
const b = {} as X;
// false as prototype differs
assertFalse(equal(a, b));
Object.setPrototypeOf(b, X.prototype);
// still false as `prop` is not set
assertFalse(equal(a, b));
b.prop = 1;
// now true
assert(equal(a, b));
});
});
Deno.test("equal() with dynamic properties defined on the prototype", async (t) => {
await t.step("built-in web APIs", async (t) => {
await t.step("URLPattern", () => {
assert(equal(
new URLPattern("*://*.*"),
new URLPattern("*://*.*"),
));
assertFalse(equal(
new URLPattern("*://*.*"),
new URLPattern("*://*.com"),
));
});
await t.step("URLSearchParams", () => {
assert(equal(
new URLSearchParams("a=1&b=2"),
new URLSearchParams("a=1&b=2"),
));
assertFalse(equal(
new URLSearchParams("a=1&b=2"),
new URLSearchParams("a=1&b=99999"),
));
});
await t.step("Intl.Locale", () => {
assert(equal(
new Intl.Locale("es-MX"),
new Intl.Locale("es-MX"),
));
assertFalse(equal(
new Intl.Locale("es-MX"),
new Intl.Locale("pt-BR"),
));
});
});
await t.step("custom prototype", () => {
type Obj = {
prop: number;
};
const wm = new WeakMap<Obj, number>();
const proto: Obj = {
get prop() {
return wm.get(this)!;
},
};
const makeObj = (val: number): Obj => {
const x = Object.create(proto);
wm.set(x, val);
return x;
};
assert(equal(
makeObj(1),
makeObj(1),
));
assertFalse(equal(
makeObj(1),
makeObj(99999),
));
});
});
Deno.test("equal() with typed arrays", async (t) => {
await t.step("Uint8Array", async (t) => {
await t.step("equal", () => {
assert(equal(
new Uint8Array([1, 2, 3]),
new Uint8Array([1, 2, 3]),
));
});
await t.step("unequal", () => {
assertFalse(equal(
new Uint8Array([1, 2, 3]),
new Uint8Array([1, 2, 4]),
));
});
await t.step("length unequal", () => {
assertFalse(equal(
new Uint8Array([0]),
new Uint8Array([0, 0]),
));
});
});
await t.step("Float64Array", async (t) => {
await t.step("NaN == NaN", () => {
assert(equal(
new Float64Array([NaN]),
new Float64Array([NaN]),
));
});
await t.step("0 == -0", () => {
assert(equal(
new Float64Array([0]),
new Float64Array([-0]),
));
});
});
});