2b19d1b5ab
These are not strictly unresolvable references. Treating them as such fails an assertion in the `delete UnaryExpression` semantic (which is Reference::delete_ in our implementation) - we enter the unresolvable, branch, which then asserts that the [[Strict]] slot of the reference is false.
253 lines
6.9 KiB
JavaScript
253 lines
6.9 KiB
JavaScript
test("deleting object properties", () => {
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const o = {};
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o.x = 1;
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o.y = 2;
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o.z = 3;
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expect(Object.getOwnPropertyNames(o)).toHaveLength(3);
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expect(delete o.x).toBeTrue();
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expect(o.hasOwnProperty("x")).toBeFalse();
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expect(o.hasOwnProperty("y")).toBeTrue();
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expect(o.hasOwnProperty("z")).toBeTrue();
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expect(Object.getOwnPropertyNames(o)).toHaveLength(2);
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expect(delete o.y).toBeTrue();
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expect(o.hasOwnProperty("x")).toBeFalse();
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expect(o.hasOwnProperty("y")).toBeFalse();
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expect(o.hasOwnProperty("z")).toBeTrue();
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expect(Object.getOwnPropertyNames(o)).toHaveLength(1);
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expect(delete o.z).toBeTrue();
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expect(o.hasOwnProperty("x")).toBeFalse();
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expect(o.hasOwnProperty("y")).toBeFalse();
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expect(o.hasOwnProperty("z")).toBeFalse();
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expect(Object.getOwnPropertyNames(o)).toHaveLength(0);
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});
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test("deleting array indices", () => {
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const a = [3, 5, 7];
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expect(Object.getOwnPropertyNames(a)).toHaveLength(4);
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expect(delete a[0]).toBeTrue();
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expect(a.hasOwnProperty(0)).toBeFalse();
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expect(a.hasOwnProperty(1)).toBeTrue();
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expect(a.hasOwnProperty(2)).toBeTrue();
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expect(Object.getOwnPropertyNames(a)).toHaveLength(3);
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expect(delete a[1]).toBeTrue();
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expect(a.hasOwnProperty(0)).toBeFalse();
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expect(a.hasOwnProperty(1)).toBeFalse();
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expect(a.hasOwnProperty(2)).toBeTrue();
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expect(Object.getOwnPropertyNames(a)).toHaveLength(2);
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expect(delete a[2]).toBeTrue();
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expect(a.hasOwnProperty(0)).toBeFalse();
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expect(a.hasOwnProperty(1)).toBeFalse();
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expect(a.hasOwnProperty(2)).toBeFalse();
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expect(Object.getOwnPropertyNames(a)).toHaveLength(1);
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expect(delete a["42"]).toBeTrue();
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expect(Object.getOwnPropertyNames(a)).toHaveLength(1);
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});
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test("deleting non-configurable property", () => {
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const q = {};
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Object.defineProperty(q, "foo", { value: 1, writable: false, enumerable: false });
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expect(q.foo).toBe(1);
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expect(delete q.foo).toBeFalse();
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expect(q.hasOwnProperty("foo")).toBeTrue();
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});
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test("deleting non-configurable property throws in strict mode", () => {
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"use strict";
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const q = {};
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Object.defineProperty(q, "foo", { value: 1, writable: false, enumerable: false });
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expect(q.foo).toBe(1);
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expect(() => {
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delete q.foo;
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}).toThrowWithMessage(TypeError, "Cannot delete property 'foo' of [object Object]");
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expect(q.hasOwnProperty("foo")).toBeTrue();
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});
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test("deleting super property", () => {
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class A {
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foo() {}
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}
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class B extends A {
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bar() {
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delete super.foo;
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}
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baz() {
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delete super["foo"];
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}
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}
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class C {
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static foo() {
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delete super.bar;
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}
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}
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const obj = new B();
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expect(() => {
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obj.bar();
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}).toThrowWithMessage(ReferenceError, "Can't delete a property on 'super'");
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expect(() => {
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obj.baz();
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}).toThrowWithMessage(ReferenceError, "Can't delete a property on 'super'");
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Object.setPrototypeOf(C, null);
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expect(() => {
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C.foo();
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}).toThrowWithMessage(ReferenceError, "Can't delete a property on 'super'");
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});
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test("deleting an object computed property coerces the object to a property key", () => {
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let called = false;
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const obj = { prop1: 1, 2: 2 };
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function createToPrimitiveFunction(object, valueToReturn) {
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return function (hint) {
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called = true;
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console.log(this, object);
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expect(this).toBe(object);
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expect(hint).toBe("string");
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return valueToReturn;
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};
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}
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const a = {
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[Symbol.toPrimitive]: function (hint) {
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called = true;
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expect(this).toBe(a);
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expect(hint).toBe("string");
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return "prop1";
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},
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};
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const b = {
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[Symbol.toPrimitive]: function (hint) {
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called = true;
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expect(this).toBe(b);
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expect(hint).toBe("string");
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return 2;
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},
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};
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const c = {
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[Symbol.toPrimitive]: function (hint) {
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called = true;
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expect(this).toBe(c);
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expect(hint).toBe("string");
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return {};
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},
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};
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expect(Object.hasOwn(obj, "prop1")).toBeTrue();
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expect(Object.hasOwn(obj, 2)).toBeTrue();
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expect(delete obj[a]).toBeTrue();
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expect(called).toBeTrue();
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expect(Object.hasOwn(obj, "prop1")).toBeFalse();
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expect(Object.hasOwn(obj, 2)).toBeTrue();
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expect(obj.prop1).toBeUndefined();
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expect(obj[2]).toBe(2);
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called = false;
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expect(delete obj[b]).toBeTrue();
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expect(called).toBeTrue();
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expect(Object.hasOwn(obj, "prop1")).toBeFalse();
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expect(Object.hasOwn(obj, 2)).toBeFalse();
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expect(obj.prop1).toBeUndefined();
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expect(obj[2]).toBeUndefined();
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called = false;
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expect(() => {
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delete obj[c];
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}).toThrowWithMessage(
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TypeError,
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`Can't convert [object Object] to primitive with hint "string", its @@toPrimitive method returned an object`
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);
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expect(called).toBeTrue();
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});
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test("deleting a symbol returned by @@toPrimitive", () => {
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let called = false;
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const obj = { [Symbol.toStringTag]: "hello world" };
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const a = {
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[Symbol.toPrimitive]: function (hint) {
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called = true;
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expect(this).toBe(a);
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expect(hint).toBe("string");
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return Symbol.toStringTag;
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},
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};
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expect(Object.hasOwn(obj, Symbol.toStringTag)).toBeTrue();
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expect(delete obj[a]).toBeTrue();
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expect(called).toBeTrue();
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expect(Object.hasOwn(obj, Symbol.toStringTag)).toBeFalse();
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expect(obj[Symbol.toStringTag]).toBeUndefined();
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});
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// FIXME: This currently does not work with the AST interpreter, but works with Bytecode.
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test.skip("delete always evaluates the lhs", () => {
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const obj = { prop: 1 };
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let called = false;
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function a() {
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called = true;
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return obj;
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}
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expect(delete a()).toBeTrue();
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expect(called).toBeTrue();
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expect(obj).toBeDefined();
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expect(Object.hasOwn(obj, "prop")).toBeTrue();
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expect(obj.prop).toBe(1);
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called = false;
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expect(delete a().prop).toBeTrue();
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expect(called).toBeTrue();
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expect(obj).toBeDefined();
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expect(Object.hasOwn(obj, "prop")).toBeFalse();
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expect(obj.prop).toBeUndefined();
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let b = 1;
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expect(delete ++b).toBeTrue();
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expect(b).toBe(2);
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expect(delete b++).toBeTrue();
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expect(b).toBe(3);
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let c = { d: 1 };
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expect(delete (b = c)).toBeTrue();
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expect(b).toBeDefined();
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expect(c).toBeDefined();
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expect(b).toBe(c);
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function d() {
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throw new Error("called");
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}
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expect(() => {
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delete d();
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}).toThrowWithMessage(Error, "called");
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expect(() => {
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delete d().stack;
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}).toThrowWithMessage(Error, "called");
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expect(() => {
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delete ~d();
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}).toThrowWithMessage(Error, "called");
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expect(() => {
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delete new d();
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}).toThrowWithMessage(Error, "called");
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});
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