# assert Vitest reexports the `assert` method from [`chai`](https://www.chaijs.com/api/assert/) for verifying invariants. ## assert - **Type:** `(expression: any, message?: string) => asserts expression` Assert that the given `expression` is truthy, otherwise the assertion fails. ```ts import { assert, test } from 'vitest' test('assert', () => { assert('foo' !== 'bar', 'foo should not be equal to bar') }) ``` ## fail - **Type:** - `(message?: string) => never` - `(actual: T, expected: T, message?: string, operator?: string) => never` Force an assertion failure. ```ts import { assert, test } from 'vitest' test('assert.fail', () => { assert.fail('error message on failure') assert.fail('foo', 'bar', 'foo is not bar', '===') }) ``` ## isOk - **Type:** `(value: T, message?: string) => void` - **Alias** `ok` Assert that the given `value` is truthy. ```ts import { assert, test } from 'vitest' test('assert.isOk', () => { assert.isOk('foo', 'every truthy is ok') assert.isOk(false, 'this will fail since false is not truthy') }) ``` ## isNotOk - **Type:** `(value: T, message?: string) => void` - **Alias** `notOk` Assert that the given `value` is falsy. ```ts import { assert, test } from 'vitest' test('assert.isNotOk', () => { assert.isNotOk('foo', 'this will fail, every truthy is not ok') assert.isNotOk(false, 'this will pass since false is falsy') }) ``` ## equal - **Type:** `(actual: T, expected: T, message?: string) => void` Asserts non-strict equality (==) of `actual` and `expected`. ```ts import { assert, test } from 'vitest' test('assert.equal', () => { assert.equal(Math.sqrt(4), '2') }) ``` ## notEqual - **Type:** `(actual: T, expected: T, message?: string) => void` Asserts non-strict inequality (!=) of `actual` and `expected`. ```ts import { assert, test } from 'vitest' test('assert.equal', () => { assert.notEqual(Math.sqrt(4), 3) }) ``` ## strictEqual - **Type:** `(actual: T, expected: T, message?: string) => void` Asserts strict equality (===) of `actual` and `expected`. ```ts import { assert, test } from 'vitest' test('assert.strictEqual', () => { assert.strictEqual(Math.sqrt(4), 2) }) ``` ## deepEqual - **Type:** `(actual: T, expected: T, message?: string) => void` Asserts that `actual` is deeply equal to `expected`. ```ts import { assert, test } from 'vitest' test('assert.deepEqual', () => { assert.deepEqual({ color: 'green' }, { color: 'green' }) }) ``` ## notDeepEqual - **Type:** `(actual: T, expected: T, message?: string) => void` Assert that `actual` is not deeply equal to `expected`. ```ts import { assert, test } from 'vitest' test('assert.notDeepEqual', () => { assert.notDeepEqual({ color: 'green' }, { color: 'red' }) }) ``` ## isAbove - **Type:** `(valueToCheck: number, valueToBeAbove: number, message?: string) => void` Assert that `valueToCheck` is strictly greater than (>) `valueToBeAbove`. ```ts import { assert, test } from 'vitest' test('assert.isAbove', () => { assert.isAbove(5, 2, '5 is strictly greater than 2') }) ``` ## isAtLeast - **Type:** `(valueToCheck: number, valueToBeAtLeast: number, message?: string) => void` Assert that `valueToCheck` is greater than or equal to (>=) `valueToBeAtLeast`. ```ts import { assert, test } from 'vitest' test('assert.isAtLeast', () => { assert.isAtLeast(5, 2, '5 is greater or equal to 2') assert.isAtLeast(3, 3, '3 is greater or equal to 3') }) ``` ## isBelow - **Type:** `(valueToCheck: number, valueToBeBelow: number, message?: string) => void` Asserts `valueToCheck` is strictly less than (<) `valueToBeBelow`. ```ts import { assert, test } from 'vitest' test('assert.isBelow', () => { assert.isBelow(3, 6, '3 is strictly less than 6') }) ``` ## isAtMost - **Type:** `(valueToCheck: number, valueToBeAtMost: number, message?: string) => void` Asserts `valueToCheck` is less than or equal to (<=) `valueToBeAtMost`. ```ts import { assert, test } from 'vitest' test('assert.isAtMost', () => { assert.isAtMost(3, 6, '3 is less than or equal to 6') assert.isAtMost(4, 4, '4 is less than or equal to 4') }) ``` ## isTrue - **Type:** `(value: T, message?: string) => void` Asserts that `value` is true. ```ts import { assert, test } from 'vitest' const testPassed = true test('assert.isTrue', () => { assert.isTrue(testPassed) }) ``` ## isNotTrue - **Type:** `(value: T, message?: string) => void` Asserts that `value` is not true. ```ts import { assert, test } from 'vitest' const testPassed = 'ok' test('assert.isNotTrue', () => { assert.isNotTrue(testPassed) }) ``` ## isFalse - **Type:** `(value: T, message?: string) => void` Asserts that `value` is false. ```ts import { assert, test } from 'vitest' const testPassed = false test('assert.isFalse', () => { assert.isFalse(testPassed) }) ``` ## isNotFalse - **Type:** `(value: T, message?: string) => void` Asserts that `value` is not false. ```ts import { assert, test } from 'vitest' const testPassed = 'no' test('assert.isNotFalse', () => { assert.isNotFalse(testPassed) }) ``` ## isNull - **Type:** `(value: T, message?: string) => void` Asserts that `value` is null. ```ts import { assert, test } from 'vitest' const error = null test('assert.isNull', () => { assert.isNull(error, 'error is null') }) ``` ## isNotNull - **Type:** `(value: T, message?: string) => void` Asserts that `value` is not null. ```ts import { assert, test } from 'vitest' const error = { message: 'error was occured' } test('assert.isNotNull', () => { assert.isNotNull(error, 'error is not null but object') }) ``` ## isNaN - **Type:** `(value: T, message?: string) => void` Asserts that `value` is NaN. ```ts import { assert, test } from 'vitest' const calculation = 1 * 'viitest' test('assert.isNaN', () => { assert.isNaN(calculation, '1 * "vitest" is NaN') }) ``` ## isNotNaN - **Type:** `(value: T, message?: string) => void` Asserts that `value` is not NaN. ```ts import { assert, test } from 'vitest' const calculation = 1 * 2 test('assert.isNotNaN', () => { assert.isNotNaN(calculation, '1 * 2 is Not NaN but 2') }) ``` ## exists - **Type:** `(value: T, message?: string) => void` Asserts that `value` is neither null nor undefined. ```ts import { assert, test } from 'vitest' const name = 'foo' test('assert.exists', () => { assert.exists(name, 'foo is neither null nor undefined') }) ``` ## notExists - **Type:** `(value: T, message?: string) => void` Asserts that `value` is either null nor undefined. ```ts import { assert, test } from 'vitest' const foo = null const bar = undefined test('assert.notExists', () => { assert.notExists(foo, 'foo is null so not exist') assert.notExists(bar, 'bar is undefined so not exist') }) ``` ## isUndefined - **Type:** `(value: T, message?: string) => void` Asserts that `value` is undefined. ```ts import { assert, test } from 'vitest' const name = undefined test('assert.isUndefined', () => { assert.isUndefined(name, 'name is undefined') }) ``` ## isDefined - **Type:** `(value: T, message?: string) => void` Asserts that `value` is not undefined. ```ts import { assert, test } from 'vitest' const name = 'foo' test('assert.isDefined', () => { assert.isDefined(name, 'name is not undefined') }) ``` ## isFunction - **Type:** `(value: T, message?: string) => void` - **Alias:** `isCallable` Asserts that `value` is a function. ```ts import { assert, test } from 'vitest' function name() { return 'foo' }; test('assert.isFunction', () => { assert.isFunction(name, 'name is function') }) ``` ## isNotFunction - **Type:** `(value: T, message?: string) => void` - **Alias:** `isNotCallable` Asserts that `value` is not a function. ```ts import { assert, test } from 'vitest' const name = 'foo' test('assert.isNotFunction', () => { assert.isNotFunction(name, 'name is not function but string') }) ``` ## isObject - **Type:** `(value: T, message?: string) => void` Asserts that `value` is an object of type Object (as revealed by Object.prototype.toString). The assertion does not match subclassed objects. ```ts import { assert, test } from 'vitest' const someThing = { color: 'red', shape: 'circle' } test('assert.isObject', () => { assert.isObject(someThing, 'someThing is object') }) ``` ## isNotObject - **Type:** `(value: T, message?: string) => void` Asserts that `value` is not an object of type Object (as revealed by Object.prototype.toString). The assertion does not match subclassed objects. ```ts import { assert, test } from 'vitest' const someThing = 'redCircle' test('assert.isNotObject', () => { assert.isNotObject(someThing, 'someThing is not object but string') }) ``` ## isArray - **Type:** `(value: T, message?: string) => void` Asserts that `value` is an array. ```ts import { assert, test } from 'vitest' const color = ['red', 'green', 'yellow'] test('assert.isArray', () => { assert.isArray(color, 'color is array') }) ``` ## isNotArray - **Type:** `(value: T, message?: string) => void` Asserts that `value` is not an array. ```ts import { assert, test } from 'vitest' const color = 'red' test('assert.isNotArray', () => { assert.isNotArray(color, 'color is not array but string') }) ``` ## isString - **Type:** `(value: T, message?: string) => void` Asserts that `value` is a string. ```ts import { assert, test } from 'vitest' const color = 'red' test('assert.isString', () => { assert.isString(color, 'color is string') }) ``` ## isNotString - **Type:** `(value: T, message?: string) => void` Asserts that `value` is not a string. ```ts import { assert, test } from 'vitest' const color = ['red', 'green', 'yellow'] test('assert.isNotString', () => { assert.isNotString(color, 'color is not string but array') }) ``` ## isNumber - **Type:** `(value: T, message?: string) => void` Asserts that `value` is a number. ```ts import { assert, test } from 'vitest' const colors = 3 test('assert.isNumber', () => { assert.isNumber(colors, 'colors is number') }) ``` ## isNotNumber - **Type:** `(value: T, message?: string) => void` Asserts that `value` is not a number. ```ts import { assert, test } from 'vitest' const colors = '3 colors' test('assert.isNotNumber', () => { assert.isNotNumber(colors, 'colors is not number but strings') }) ``` ## isFinite - **Type:** `(value: T, message?: string) => void` Asserts that `value` is a finite number (not NaN, Infinity). ```ts import { assert, test } from 'vitest' const colors = 3 test('assert.isFinite', () => { assert.isFinite(colors, 'colors is number not NaN or Infinity') }) ``` ## isBoolean - **Type:** `(value: T, message?: string) => void` Asserts that `value` is a boolean. ```ts import { assert, test } from 'vitest' const isReady = true test('assert.isBoolean', () => { assert.isBoolean(isReady, 'isReady is a boolean') }) ``` ## isNotBoolean - **Type:** `(value: T, message?: string) => void` Asserts that `value` is not a boolean. ```ts import { assert, test } from 'vitest' const isReady = 'sure' test('assert.isBoolean', () => { assert.isBoolean(isReady, 'isReady is not a boolean but string') }) ``` ## typeOf - **Type:** `(value: T, name: string, message?: string) => void` Asserts that `value`’s type is `name`, as determined by Object.prototype.toString. ```ts import { assert, test } from 'vitest' test('assert.typeOf', () => { assert.typeOf({ color: 'red' }, 'object', 'we have an object') assert.typeOf(['red', 'green'], 'array', 'we have an array') assert.typeOf('red', 'string', 'we have a string') assert.typeOf(/red/, 'regexp', 'we have a regular expression') assert.typeOf(null, 'null', 'we have a null') assert.typeOf(undefined, 'undefined', 'we have an undefined') }) ``` ## notTypeOf - **Type:** `(value: T, name: string, message?: string) => void` Asserts that `value`’s type is not `name`, as determined by Object.prototype.toString. ```ts import { assert, test } from 'vitest' test('assert.notTypeOf', () => { assert.notTypeOf('red', 'number', '"red" is not a number') }) ``` ## instanceOf - **Type:** `(value: T, constructor: Function, message?: string) => void` Asserts that `value` is an instance of `constructor`. ```ts import { assert, test } from 'vitest' function Person(name) { this.name = name } const foo = new Person('foo') class Tea { constructor(name) { this.name = name } } const coffee = new Tea('coffee') test('assert.instanceOf', () => { assert.instanceOf(foo, Person, 'foo is an instance of Person') assert.instanceOf(coffee, Tea, 'coffee is an instance of Tea') }) ``` ## notInstanceOf - **Type:** `(value: T, constructor: Function, message?: string) => void` Asserts that `value` is not an instance of `constructor`. ```ts import { assert, test } from 'vitest' function Person(name) { this.name = name } const foo = new Person('foo') class Tea { constructor(name) { this.name = name } } const coffee = new Tea('coffee') test('assert.instanceOf', () => { assert.instanceOf(foo, Tea, 'foo is not an instance of Tea') }) ``` ## include - **Type:** - `(haystack: string, needle: string, message?: string) => void` - `(haystack: readonly T[] | ReadonlySet | ReadonlyMap, needle: T, message?: string) => void` - `(haystack: WeakSet, needle: T, message?: string) => void` - `(haystack: T, needle: Partial, message?: string) => void` Asserts that `haystack` includes `needle`. Can be used to assert the inclusion of a value in an array, a substring in a string, or a subset of properties in an object. ```ts import { assert, test } from 'vitest' test('assert.include', () => { assert.include([1, 2, 3], 2, 'array contains value') assert.include('foobar', 'foo', 'string contains substring') assert.include({ foo: 'bar', hello: 'universe' }, { foo: 'bar' }, 'object contains property') }) ``` ## notInclude - **Type:** - `(haystack: string, needle: string, message?: string) => void` - `(haystack: readonly T[] | ReadonlySet | ReadonlyMap, needle: T, message?: string) => void` - `(haystack: WeakSet, needle: T, message?: string) => void` - `(haystack: T, needle: Partial, message?: string) => void` Asserts that `haystack` does not include `needle`. It can be used to assert the absence of a value in an array, a substring in a string, or a subset of properties in an object. ```ts import { assert, test } from 'vitest' test('assert.notInclude', () => { assert.notInclude([1, 2, 3], 4, 'array doesn\'t contain 4') assert.notInclude('foobar', 'baz', 'foobar doesn\'t contain baz') assert.notInclude({ foo: 'bar', hello: 'universe' }, { foo: 'baz' }, 'object doesn\'t contain property') }) ``` ## deepInclude - **Type:** - `(haystack: string, needle: string, message?: string) => void` - `(haystack: readonly T[] | ReadonlySet | ReadonlyMap, needle: T, message?: string) => void` - `(haystack: T, needle: T extends WeakSet ? never : Partial, message?: string) => void` Asserts that `haystack` includes `needle`. Can be used to assert the inclusion of a value in an array or a subset of properties in an object. Deep equality is used. ```ts import { assert, test } from 'vitest' const obj1 = { a: 1 } const obj2 = { b: 2 } test('assert.deepInclude', () => { assert.deepInclude([obj1, obj2], { a: 1 }) assert.deepInclude({ foo: obj1, bar: obj2 }, { foo: { a: 1 } }) }) ``` ## notDeepInclude - **Type:** - `(haystack: string, needle: string, message?: string) => void` - `(haystack: readonly T[] | ReadonlySet | ReadonlyMap, needle: T, message?: string) => void` - `(haystack: T, needle: T extends WeakSet ? never : Partial, message?: string) => void` Asserts that `haystack` does not include `needle`. It can be used to assert the absence of a value in an array or a subset of properties in an object. Deep equality is used. ```ts import { assert, test } from 'vitest' const obj1 = { a: 1 } const obj2 = { b: 2 } test('assert.notDeepInclude', () => { assert.notDeepInclude([obj1, obj2], { a: 10 }) assert.notDeepInclude({ foo: obj1, bar: obj2 }, { foo: { a: 10 } }) }) ``` ## nestedInclude - **Type:** `(haystack: any, needle: any, message?: string) => void` Asserts that `haystack` includes `needle`. Can be used to assert the inclusion of a subset of properties in an object. Enables the use of dot- and bracket-notation for referencing nested properties. ‘[]’ and ‘.’ in property names can be escaped using double backslashes. ```ts import { assert, test } from 'vitest' test('assert.nestedInclude', () => { assert.nestedInclude({ '.a': { b: 'x' } }, { '\\.a.[b]': 'x' }) assert.nestedInclude({ a: { '[b]': 'x' } }, { 'a.\\[b\\]': 'x' }) }) ``` ## notNestedInclude - **Type:** `(haystack: any, needle: any, message?: string) => void` Asserts that `haystack` does not include `needle`. Can be used to assert the inclusion of a subset of properties in an object. Enables the use of dot- and bracket-notation for referencing nested properties. ‘[]’ and ‘.’ in property names can be escaped using double backslashes. ```ts import { assert, test } from 'vitest' test('assert.nestedInclude', () => { assert.notNestedInclude({ '.a': { b: 'x' } }, { '\\.a.b': 'y' }) assert.notNestedInclude({ a: { '[b]': 'x' } }, { 'a.\\[b\\]': 'y' }) }) ``` ## deepNestedInclude - **Type:** `(haystack: any, needle: any, message?: string) => void` Asserts that `haystack` includes `needle`. Can be used to assert the inclusion of a subset of properties in an object while checking for deep equality. Enables the use of dot- and bracket-notation for referencing nested properties. ‘[]’ and ‘.’ in property names can be escaped using double backslashes. ```ts import { assert, test } from 'vitest' test('assert.deepNestedInclude', () => { assert.deepNestedInclude({ a: { b: [{ x: 1 }] } }, { 'a.b[0]': { x: 1 } }) assert.deepNestedInclude({ '.a': { '[b]': { x: 1 } } }, { '\\.a.\\[b\\]': { x: 1 } }) }) ``` ## notDeepNestedInclude - **Type:** `(haystack: any, needle: any, message?: string) => void` Asserts that `haystack` not includes `needle`. Can be used to assert the absence of a subset of properties in an object while checking for deep equality. Enables the use of dot- and bracket-notation for referencing nested properties. ‘[]’ and ‘.’ in property names can be escaped using double backslashes. ```ts import { assert, test } from 'vitest' test('assert.notDeepNestedInclude', () => { assert.notDeepNestedInclude({ a: { b: [{ x: 1 }] } }, { 'a.b[0]': { y: 1 } }) assert.notDeepNestedInclude({ '.a': { '[b]': { x: 1 } } }, { '\\.a.\\[b\\]': { y: 2 } }) }) ``` ## ownInclude - **Type:** `(haystack: any, needle: any, message?: string) => void` Asserts that `haystack` includes `needle`. Can be used to assert the inclusion of a subset of properties in an object while ignoring inherited properties. ```ts import { assert, test } from 'vitest' test('assert.ownInclude', () => { assert.ownInclude({ a: 1 }, { a: 1 }) }) ``` ## notOwnInclude - **Type:** `(haystack: any, needle: any, message?: string) => void` Asserts that `haystack` includes `needle`. Can be used to assert the absence of a subset of properties in an object while ignoring inherited properties. ```ts import { assert, test } from 'vitest' const obj1 = { b: 2 } const obj2 = object.create(obj1) obj2.a = 1 test('assert.notOwnInclude', () => { assert.notOwnInclude(obj2, { b: 2 }) }) ``` ## deepOwnInclude - **Type:** `(haystack: any, needle: any, message?: string) => void` Asserts that `haystack` includes `needle`. Can be used to assert the inclusion of a subset of properties in an object while ignoring inherited properties and checking for deep equality. ```ts import { assert, test } from 'vitest' test('assert.deepOwnInclude', () => { assert.deepOwnInclude({ a: { b: 2 } }, { a: { b: 2 } }) }) ``` ## notDeepOwnInclude - **Type:** `(haystack: any, needle: any, message?: string) => void` Asserts that `haystack` not includes `needle`. Can be used to assert the absence of a subset of properties in an object while ignoring inherited properties and checking for deep equality. ```ts import { assert, test } from 'vitest' test('assert.notDeepOwnInclude', () => { assert.notDeepOwnInclude({ a: { b: 2 } }, { a: { c: 3 } }) }) ``` ## match - **Type:** `(value: string, regexp: RegExp, message?: string) => void` Asserts that `value` matches the regular expression `regexp`. ```ts import { assert, test } from 'vitest' test('assert.match', () => { assert.match('foobar', /^foo/, 'regexp matches') }) ``` ## notMatch - **Type:** `(value: string, regexp: RegExp, message?: string) => void` Asserts that `value` does not matches the regular expression `regexp`. ```ts import { assert, test } from 'vitest' test('assert.notMatch', () => { assert.notMatch('foobar', /^foo/, 'regexp does not match') }) ``` ## property - **Type:** `(object: T, property: string, message?: string) => void` Asserts that `object` has a direct or inherited property named by `property` ```ts import { assert, test } from 'vitest' test('assert.property', () => { assert.property({ tea: { green: 'matcha' } }, 'tea') assert.property({ tea: { green: 'matcha' } }, 'toString') }) ``` ## notProperty - **Type:** `(object: T, property: string, message?: string) => void` Asserts that `object` does not have a direct or inherited property named by `property` ```ts import { assert, test } from 'vitest' test('assert.notProperty', () => { assert.notProperty({ tea: { green: 'matcha' } }, 'coffee') }) ``` ## propertyVal - **Type:** `(object: T, property: string, value: V, message?: string) => void` Asserts that `object` has a direct or inherited property named by `property` with a value given by `value`. Uses a strict equality check (===). ```ts import { assert, test } from 'vitest' test('assert.notPropertyVal', () => { assert.propertyVal({ tea: 'is good' }, 'tea', 'is good') }) ``` ## notPropertyVal - **Type:** `(object: T, property: string, value: V, message?: string) => void` Asserts that `object` does not have a direct or inherited property named by `property` with a value given by `value`. Uses a strict equality check (===). ```ts import { assert, test } from 'vitest' test('assert.notPropertyVal', () => { assert.notPropertyVal({ tea: 'is good' }, 'tea', 'is bad') assert.notPropertyVal({ tea: 'is good' }, 'coffee', 'is good') }) ``` ## deepPropertyVal - **Type:** `(object: T, property: string, value: V, message?: string) => void` Asserts that `object` has a direct or inherited property named by `property` with a value given by `value`. Uses a deep equality check. ```ts import { assert, test } from 'vitest' test('assert.deepPropertyVal', () => { assert.deepPropertyVal({ tea: { green: 'matcha' } }, 'tea', { green: 'matcha' }) }) ``` ## notDeepPropertyVal - **Type:** `(object: T, property: string, value: V, message?: string) => void` Asserts that `object` does not have a direct or inherited property named by `property` with a value given by `value`. Uses a deep equality check. ```ts import { assert, test } from 'vitest' test('assert.deepPropertyVal', () => { assert.notDeepPropertyVal({ tea: { green: 'matcha' } }, 'tea', { black: 'matcha' }) assert.notDeepPropertyVal({ tea: { green: 'matcha' } }, 'tea', { green: 'oolong' }) assert.notDeepPropertyVal({ tea: { green: 'matcha' } }, 'coffee', { green: 'matcha' }) }) ``` ## nestedProperty - **Type:** `(object: T, property: string, message?: string) => void` Asserts that `object` has a direct or inherited property named by `property`, which can be a string using dot- and bracket-notation for nested reference. ```ts import { assert, test } from 'vitest' test('assert.deepPropertyVal', () => { assert.nestedProperty({ tea: { green: 'matcha' } }, 'tea.green') }) ``` ## notNestedProperty - **Type:** `(object: T, property: string, message?: string) => void` Asserts that `object` does not have a direct or inherited property named by `property`, which can be a string using dot- and bracket-notation for nested reference. ```ts import { assert, test } from 'vitest' test('assert.deepPropertyVal', () => { assert.notNestedProperty({ tea: { green: 'matcha' } }, 'tea.oolong') }) ``` ## nestedPropertyVal - **Type:** `(object: T, property: string, value: any, message?: string) => void` Asserts that `object` has a property named by `property` with value given by `value`. `property` can use dot- and bracket-notation for nested reference. Uses a strict equality check (===). ```ts import { assert, test } from 'vitest' test('assert.nestedPropertyVal', () => { assert.nestedPropertyVal({ tea: { green: 'matcha' } }, 'tea.green', 'matcha') }) ``` ## notNestedPropertyVal - **Type:** `(object: T, property: string, value: any, message?: string) => void` Asserts that `object` does not have a property named by `property` with value given by `value`. `property` can use dot- and bracket-notation for nested reference. Uses a strict equality check (===). ```ts import { assert, test } from 'vitest' test('assert.notNestedPropertyVal', () => { assert.notNestedPropertyVal({ tea: { green: 'matcha' } }, 'tea.green', 'konacha') assert.notNestedPropertyVal({ tea: { green: 'matcha' } }, 'coffee.green', 'matcha') }) ``` ## deepNestedPropertyVal - **Type:** `(object: T, property: string, value: any, message?: string) => void` Asserts that `object` has a property named by `property` with a value given by `value`. `property` can use dot- and bracket-notation for nested reference. Uses a deep equality check (===). ```ts import { assert, test } from 'vitest' test('assert.notNestedPropertyVal', () => { assert.notNestedPropertyVal({ tea: { green: 'matcha' } }, 'tea.green', 'konacha') assert.notNestedPropertyVal({ tea: { green: 'matcha' } }, 'coffee.green', 'matcha') }) ``` ## notDeepNestedPropertyVal - **Type:** `(object: T, property: string, value: any, message?: string) => void` Asserts that `object` does not have a property named by `property` with value given by `value`. `property` can use dot- and bracket-notation for nested reference. Uses a deep equality check. ```ts import { assert, test } from 'vitest' test('assert.notDeepNestedPropertyVal', () => { assert.notDeepNestedPropertyVal({ tea: { green: { matcha: 'yum' } } }, 'tea.green', { oolong: 'yum' }) assert.notDeepNestedPropertyVal({ tea: { green: { matcha: 'yum' } } }, 'tea.green', { matcha: 'yuck' }) assert.notDeepNestedPropertyVal({ tea: { green: { matcha: 'yum' } } }, 'tea.black', { matcha: 'yum' }) }) ``` ## lengthOf - **Type:** `(object: T, length: number, message?: string) => void` Asserts that `object` has a `length` or `size` with the expected value. ```ts import { assert, test } from 'vitest' test('assert.lengthOf', () => { assert.lengthOf([1, 2, 3], 3, 'array has length of 3') assert.lengthOf('foobar', 6, 'string has length of 6') assert.lengthOf(new Set([1, 2, 3]), 3, 'set has size of 3') assert.lengthOf(new Map([['a', 1], ['b', 2], ['c', 3]]), 3, 'map has size of 3') }) ``` ## hasAnyKeys - **Type:** `(object: T, keys: Array | { [key: string]: any }, message?: string) => void` Asserts that `object` has at least one of the `keys` provided. You can also provide a single object instead of a keys array and its keys will be used as the expected set of keys. ```ts import { assert, test } from 'vitest' test('assert.hasAnyKeys', () => { assert.hasAnyKeys({ foo: 1, bar: 2, baz: 3 }, ['foo', 'iDontExist', 'baz']) assert.hasAnyKeys({ foo: 1, bar: 2, baz: 3 }, { foo: 30, iDontExist: 99, baz: 1337 }) assert.hasAnyKeys(new Map([[{ foo: 1 }, 'bar'], ['key', 'value']]), [{ foo: 1 }, 'key']) assert.hasAnyKeys(new Set([{ foo: 'bar' }, 'anotherKey']), [{ foo: 'bar' }, 'anotherKey']) }) ``` ## hasAllKeys - **Type:** `(object: T, keys: Array | { [key: string]: any }, message?: string) => void` Asserts that `object` has all and only all of the `keys` provided. You can also provide a single object instead of a keys array and its keys will be used as the expected set of keys. ```ts import { assert, test } from 'vitest' test('assert.hasAllKeys', () => { assert.hasAllKeys({ foo: 1, bar: 2, baz: 3 }, ['foo', 'bar', 'baz']) assert.hasAllKeys({ foo: 1, bar: 2, baz: 3 }, { foo: 30, bar: 99, baz: 1337 }) assert.hasAllKeys(new Map([[{ foo: 1 }, 'bar'], ['key', 'value']]), [{ foo: 1 }, 'key']) assert.hasAllKeys(new Set([{ foo: 'bar' }, 'anotherKey'], [{ foo: 'bar' }, 'anotherKey'])) }) ``` ## containsAllKeys - **Type:** `(object: T, keys: Array | { [key: string]: any }, message?: string) => void` Asserts that `object` has all of the `keys` provided but may have more keys not listed. You can also provide a single object instead of a keys array and its keys will be used as the expected set of keys. ```ts import { assert, test } from 'vitest' test('assert.containsAllKeys', () => { assert.containsAllKeys({ foo: 1, bar: 2, baz: 3 }, ['foo', 'baz']) assert.containsAllKeys({ foo: 1, bar: 2, baz: 3 }, ['foo', 'bar', 'baz']) assert.containsAllKeys({ foo: 1, bar: 2, baz: 3 }, { foo: 30, baz: 1337 }) assert.containsAllKeys({ foo: 1, bar: 2, baz: 3 }, { foo: 30, bar: 99, baz: 1337 }) assert.containsAllKeys(new Map([[{ foo: 1 }, 'bar'], ['key', 'value']]), [{ foo: 1 }]) assert.containsAllKeys(new Map([[{ foo: 1 }, 'bar'], ['key', 'value']]), [{ foo: 1 }, 'key']) assert.containsAllKeys(new Set([{ foo: 'bar' }, 'anotherKey'], [{ foo: 'bar' }])) assert.containsAllKeys(new Set([{ foo: 'bar' }, 'anotherKey'], [{ foo: 'bar' }, 'anotherKey'])) }) ``` ## doesNotHaveAnyKeys - **Type:** `(object: T, keys: Array | { [key: string]: any }, message?: string) => void` Asserts that `object` has none of the `keys` provided. You can also provide a single object instead of a keys array and its keys will be used as the expected set of keys. ```ts import { assert, test } from 'vitest' test('assert.doesNotHaveAnyKeys', () => { assert.doesNotHaveAnyKeys({ foo: 1, bar: 2, baz: 3 }, ['one', 'two', 'example']) assert.doesNotHaveAnyKeys({ foo: 1, bar: 2, baz: 3 }, { one: 1, two: 2, example: 'foo' }) assert.doesNotHaveAnyKeys(new Map([[{ foo: 1 }, 'bar'], ['key', 'value']]), [{ one: 'two' }, 'example']) assert.doesNotHaveAnyKeys(new Set([{ foo: 'bar' }, 'anotherKey'], [{ one: 'two' }, 'example'])) }) ``` ## doesNotHaveAllKeys - **Type:** `(object: T, keys: Array | { [key: string]: any }, message?: string) => void` Asserts that `object` does not have at least one of the `keys` provided. You can also provide a single object instead of a keys array and its keys will be used as the expected set of keys. ```ts import { assert, test } from 'vitest' test('assert.hasAnyKeys', () => { assert.doesNotHaveAnyKeys({ foo: 1, bar: 2, baz: 3 }, ['one', 'two', 'example']) assert.doesNotHaveAnyKeys({ foo: 1, bar: 2, baz: 3 }, { one: 1, two: 2, example: 'foo' }) assert.doesNotHaveAnyKeys(new Map([[{ foo: 1 }, 'bar'], ['key', 'value']]), [{ one: 'two' }, 'example']) assert.doesNotHaveAnyKeys(new Set([{ foo: 'bar' }, 'anotherKey']), [{ one: 'two' }, 'example']) }) ``` ## hasAnyDeepKeys - **Type:** `(object: T, keys: Array | { [key: string]: any }, message?: string) => void` Asserts that `object` has at least one of the `keys` provided. Since Sets and Maps can have objects as keys you can use this assertion to perform a deep comparison. You can also provide a single object instead of a keys array and its keys will be used as the expected set of keys. ```ts import { assert, test } from 'vitest' test('assert.hasAnyDeepKeys', () => { assert.hasAnyDeepKeys(new Map([[{ one: 'one' }, 'valueOne'], [1, 2]]), { one: 'one' }) assert.hasAnyDeepKeys(new Map([[{ one: 'one' }, 'valueOne'], [1, 2]]), [{ one: 'one' }, { two: 'two' }]) assert.hasAnyDeepKeys(new Map([[{ one: 'one' }, 'valueOne'], [{ two: 'two' }, 'valueTwo']]), [{ one: 'one' }, { two: 'two' }]) assert.hasAnyDeepKeys(new Set([{ one: 'one' }, { two: 'two' }]), { one: 'one' }) assert.hasAnyDeepKeys(new Set([{ one: 'one' }, { two: 'two' }]), [{ one: 'one' }, { three: 'three' }]) assert.hasAnyDeepKeys(new Set([{ one: 'one' }, { two: 'two' }]), [{ one: 'one' }, { two: 'two' }]) }) ``` ## hasAllDeepKeys - **Type:** `(object: T, keys: Array | { [key: string]: any }, message?: string) => void` Asserts that `object` has all and only all of the `keys` provided. Since Sets and Maps can have objects as keys you can use this assertion to perform a deep comparison. You can also provide a single object instead of a keys array and its keys will be used as the expected set of keys. ```ts import { assert, test } from 'vitest' test('assert.hasAnyDeepKeys', () => { assert.hasAllDeepKeys(new Map([[{ one: 'one' }, 'valueOne']]), { one: 'one' }) assert.hasAllDeepKeys(new Map([[{ one: 'one' }, 'valueOne'], [{ two: 'two' }, 'valueTwo']]), [{ one: 'one' }, { two: 'two' }]) assert.hasAllDeepKeys(new Set([{ one: 'one' }]), { one: 'one' }) assert.hasAllDeepKeys(new Set([{ one: 'one' }, { two: 'two' }]), [{ one: 'one' }, { two: 'two' }]) }) ``` ## containsAllDeepKeys - **Type:** `(object: T, keys: Array | { [key: string]: any }, message?: string) => void` Asserts that `object` contains all of the `keys` provided. Since Sets and Maps can have objects as keys you can use this assertion to perform a deep comparison. You can also provide a single object instead of a keys array and its keys will be used as the expected set of keys. ```ts import { assert, test } from 'vitest' test('assert.containsAllDeepKeys', () => { assert.containsAllDeepKeys(new Map([[{ one: 'one' }, 'valueOne'], [1, 2]]), { one: 'one' }) assert.containsAllDeepKeys(new Map([[{ one: 'one' }, 'valueOne'], [{ two: 'two' }, 'valueTwo']]), [{ one: 'one' }, { two: 'two' }]) assert.containsAllDeepKeys(new Set([{ one: 'one' }, { two: 'two' }]), { one: 'one' }) assert.containsAllDeepKeys(new Set([{ one: 'one' }, { two: 'two' }]), [{ one: 'one' }, { two: 'two' }]) }) ``` ## doesNotHaveAnyDeepKeys - **Type:** `(object: T, keys: Array | { [key: string]: any }, message?: string) => void` Asserts that `object` has none of the `keys` provided. Since Sets and Maps can have objects as keys you can use this assertion to perform a deep comparison. You can also provide a single object instead of a keys array and its keys will be used as the expected set of keys. ```ts import { assert, test } from 'vitest' test('assert.doesNotHaveAnyDeepKeys', () => { assert.doesNotHaveAnyDeepKeys(new Map([[{ one: 'one' }, 'valueOne'], [1, 2]]), { thisDoesNot: 'exist' }) assert.doesNotHaveAnyDeepKeys(new Map([[{ one: 'one' }, 'valueOne'], [{ two: 'two' }, 'valueTwo']]), [{ twenty: 'twenty' }, { fifty: 'fifty' }]) assert.doesNotHaveAnyDeepKeys(new Set([{ one: 'one' }, { two: 'two' }]), { twenty: 'twenty' }) assert.doesNotHaveAnyDeepKeys(new Set([{ one: 'one' }, { two: 'two' }]), [{ twenty: 'twenty' }, { fifty: 'fifty' }]) }) ``` ## doesNotHaveAllDeepKeys - **Type:** `(object: T, keys: Array | { [key: string]: any }, message?: string) => void` Asserts that `object` does not have at least one of the `keys` provided. Since Sets and Maps can have objects as keys you can use this assertion to perform a deep comparison. You can also provide a single object instead of a keys array and its keys will be used as the expected set of keys. ```ts import { assert, test } from 'vitest' test('assert.doesNotHaveAllDeepKeys', () => { assert.doesNotHaveAllDeepKeys(new Map([[{ one: 'one' }, 'valueOne'], [1, 2]]), { thisDoesNot: 'exist' }) assert.doesNotHaveAllDeepKeys(new Map([[{ one: 'one' }, 'valueOne'], [{ two: 'two' }, 'valueTwo']]), [{ twenty: 'twenty' }, { one: 'one' }]) assert.doesNotHaveAllDeepKeys(new Set([{ one: 'one' }, { two: 'two' }]), { twenty: 'twenty' }) assert.doesNotHaveAllDeepKeys(new Set([{ one: 'one' }, { two: 'two' }]), [{ one: 'one' }, { fifty: 'fifty' }]) }) ``` ## throws - **Type:** - `(fn: () => void, errMsgMatcher?: RegExp | string, ignored?: any, message?: string) => void` - `(fn: () => void, errorLike?: ErrorConstructor | Error | null, errMsgMatcher?: RegExp | string | null, message?: string) => void` - **Alias:** - `throw` - `Throw` If `errorLike` is an Error constructor, asserts that `fn` will throw an error that is an instance of `errorLike`. If errorLike is an Error instance, asserts that the error thrown is the same instance as `errorLike`. If `errMsgMatcher` is provided, it also asserts that the error thrown will have a message matching `errMsgMatcher`. ```ts import { assert, test } from 'vitest' test('assert.throws', () => { assert.throws(fn, 'Error thrown must have this msg') assert.throws(fn, /Error thrown must have a msg that matches this/) assert.throws(fn, ReferenceError) assert.throws(fn, errorInstance) assert.throws(fn, ReferenceError, 'Error thrown must be a ReferenceError and have this msg') assert.throws(fn, errorInstance, 'Error thrown must be the same errorInstance and have this msg') assert.throws(fn, ReferenceError, /Error thrown must be a ReferenceError and match this/) assert.throws(fn, errorInstance, /Error thrown must be the same errorInstance and match this/) }) ``` ## doesNotThrow - **Type:** `(fn: () => void, errMsgMatcher?: RegExp | string, ignored?: any, message?: string) => void` - **Type:** `(fn: () => void, errorLike?: ErrorConstructor | Error | null, errMsgMatcher?: RegExp | string | null, message?: string) => void` If `errorLike` is an Error constructor, asserts that `fn` will not throw an error that is an instance of `errorLike`. If errorLike is an Error instance, asserts that the error thrown is not the same instance as `errorLike`. If `errMsgMatcher` is provided, it also asserts that the error thrown will not have a message matching `errMsgMatcher`. ```ts import { assert, test } from 'vitest' test('assert.doesNotThrow', () => { assert.doesNotThrow(fn, 'Any Error thrown must not have this message') assert.doesNotThrow(fn, /Any Error thrown must not match this/) assert.doesNotThrow(fn, Error) assert.doesNotThrow(fn, errorInstance) assert.doesNotThrow(fn, Error, 'Error must not have this message') assert.doesNotThrow(fn, errorInstance, 'Error must not have this message') assert.doesNotThrow(fn, Error, /Error must not match this/) assert.doesNotThrow(fn, errorInstance, /Error must not match this/) }) ``` ## operator - **Type:** `(val1: OperatorComparable, operator: Operator, val2: OperatorComparable, message?: string) => void` Compare `val1` and `val2` using `operator`. ```ts import { assert, test } from 'vitest' test('assert.operator', () => { assert.operator(1, '<', 2, 'everything is ok') }) ``` ## closeTo - **Type:** `(actual: number, expected: number, delta: number, message?: string) => void` - **Alias:** `approximately` Asserts that the `actual` is equal `expected`, to within a +/- `delta` range. ```ts import { assert, test } from 'vitest' test('assert.closeTo', () => { assert.closeTo(1.5, 1, 0.5, 'numbers are close') }) ``` ## sameMembers - **Type:** `(set1: T[], set2: T[], message?: string) => void` Asserts that `set1` and `set2` have the same members in any order. Uses a strict equality check (===). ```ts import { assert, test } from 'vitest' test('assert.sameMembers', () => { assert.sameMembers([1, 2, 3], [2, 1, 3], 'same members') }) ``` ## notSameMembers - **Type:** `(set1: T[], set2: T[], message?: string) => void` Asserts that `set1` and `set2` don't have the same members in any order. Uses a strict equality check (===). ```ts import { assert, test } from 'vitest' test('assert.sameMembers', () => { assert.notSameMembers([1, 2, 3], [5, 1, 3], 'not same members') }) ``` ## sameDeepMembers - **Type:** `(set1: T[], set2: T[], message?: string) => void` Asserts that `set1` and `set2` have the same members in any order. Uses a deep equality check. ```ts import { assert, test } from 'vitest' test('assert.sameDeepMembers', () => { assert.sameDeepMembers([{ a: 1 }, { b: 2 }, { c: 3 }], [{ b: 2 }, { a: 1 }, { c: 3 }], 'same deep members') }) ``` ## notSameDeepMembers - **Type:** `(set1: T[], set2: T[], message?: string) => void` Asserts that `set1` and `set2` don’t have the same members in any order. Uses a deep equality check. ```ts import { assert, test } from 'vitest' test('assert.sameDeepMembers', () => { assert.sameDeepMembers([{ a: 1 }, { b: 2 }, { c: 3 }], [{ b: 2 }, { a: 1 }, { c: 3 }], 'same deep members') }) ``` ## sameOrderedMembers - **Type:** `(set1: T[], set2: T[], message?: string) => void` Asserts that `set1` and `set2` have the same members in the same order. Uses a strict equality check (===). ```ts import { assert, test } from 'vitest' test('assert.sameOrderedMembers', () => { assert.sameOrderedMembers([1, 2, 3], [1, 2, 3], 'same ordered members') }) ``` ## notSameOrderedMembers - **Type:** `(set1: T[], set2: T[], message?: string) => void` Asserts that `set1` and `set2` have the same members in the same order. Uses a strict equality check (===). ```ts import { assert, test } from 'vitest' test('assert.notSameOrderedMembers', () => { assert.notSameOrderedMembers([1, 2, 3], [2, 1, 3], 'not same ordered members') }) ``` ## sameDeepOrderedMembers - **Type:** `(set1: T[], set2: T[], message?: string) => void` Asserts that `set1` and `set2` have the same members in the same order. Uses a deep equality check. ```ts import { assert, test } from 'vitest' test('assert.sameDeepOrderedMembers', () => { assert.sameDeepOrderedMembers([{ a: 1 }, { b: 2 }, { c: 3 }], [{ a: 1 }, { b: 2 }, { c: 3 }], 'same deep ordered members') }) ``` ## notSameDeepOrderedMembers - **Type:** `(set1: T[], set2: T[], message?: string) => void` Asserts that `set1` and `set2` don’t have the same members in the same order. Uses a deep equality check. ```ts import { assert, test } from 'vitest' test('assert.notSameDeepOrderedMembers', () => { assert.notSameDeepOrderedMembers([{ a: 1 }, { b: 2 }, { c: 3 }], [{ a: 1 }, { b: 2 }, { z: 5 }], 'not same deep ordered members') assert.notSameDeepOrderedMembers([{ a: 1 }, { b: 2 }, { c: 3 }], [{ b: 2 }, { a: 1 }, { c: 3 }], 'not same deep ordered members') }) ``` ## includeMembers - **Type:** `(superset: T[], subset: T[], message?: string) => void` Asserts that `subset` is included in `superset` in any order. Uses a strict equality check (===). Duplicates are ignored. ```ts import { assert, test } from 'vitest' test('assert.includeMembers', () => { assert.includeMembers([1, 2, 3], [2, 1, 2], 'include members') }) ``` ## notIncludeMembers - **Type:** `(superset: T[], subset: T[], message?: string) => void` Asserts that `subset` isn't included in `superset` in any order. Uses a strict equality check (===). Duplicates are ignored. ```ts import { assert, test } from 'vitest' test('assert.notIncludeMembers', () => { assert.notIncludeMembers([1, 2, 3], [5, 1], 'not include members') }) ``` ## includeDeepMembers - **Type:** `(superset: T[], subset: T[], message?: string) => void` Asserts that `subset` is included in `superset` in any order. Uses a deep equality check. Duplicates are ignored. ```ts import { assert, test } from 'vitest' test('assert.includeDeepMembers', () => { assert.includeDeepMembers([{ a: 1 }, { b: 2 }, { c: 3 }], [{ b: 2 }, { a: 1 }, { b: 2 }], 'include deep members') }) ``` ## notIncludeDeepMembers - **Type:** `(superset: T[], subset: T[], message?: string) => void` Asserts that `subset` isn’t included in `superset` in any order. Uses a deep equality check. Duplicates are ignored. ```ts import { assert, test } from 'vitest' test('assert.notIncludeDeepMembers', () => { assert.notIncludeDeepMembers([{ a: 1 }, { b: 2 }, { c: 3 }], [{ b: 2 }, { f: 5 }], 'not include deep members') }) ``` ## includeOrderedMembers - **Type:** `(superset: T[], subset: T[], message?: string) => void` Asserts that `subset` is included in `superset` in the same order beginning with the first element in `superset`. Uses a strict equality check (===). ```ts import { assert, test } from 'vitest' test('assert.includeOrderedMembers', () => { assert.includeOrderedMembers([1, 2, 3], [1, 2], 'include ordered members') }) ``` ## notIncludeOrderedMembers - **Type:** `(superset: T[], subset: T[], message?: string) => void` Asserts that `subset` isn't included in `superset` in the same order beginning with the first element in `superset`. Uses a strict equality check (===). ```ts import { assert, test } from 'vitest' test('assert.notIncludeOrderedMembers', () => { assert.notIncludeOrderedMembers([1, 2, 3], [2, 1], 'not include ordered members') assert.notIncludeOrderedMembers([1, 2, 3], [2, 3], 'not include ordered members') }) ``` ## includeDeepOrderedMembers - **Type:** `(superset: T[], subset: T[], message?: string) => void` Asserts that `subset` is included in `superset` in the same order beginning with the first element in `superset`. Uses a deep equality check. ```ts import { assert, test } from 'vitest' test('assert.includeDeepOrderedMembers', () => { assert.includeDeepOrderedMembers([{ a: 1 }, { b: 2 }, { c: 3 }], [{ a: 1 }, { b: 2 }], 'include deep ordered members') }) ``` ## notIncludeDeepOrderedMembers - **Type:** `(superset: T[], subset: T[], message?: string) => void` Asserts that `subset` isn’t included in `superset` in the same order beginning with the first element in superset. Uses a deep equality check. ```ts import { assert, test } from 'vitest' test('assert.includeDeepOrderedMembers', () => { assert.notIncludeDeepOrderedMembers([{ a: 1 }, { b: 2 }, { c: 3 }], [{ a: 1 }, { f: 5 }], 'not include deep ordered members') assert.notIncludeDeepOrderedMembers([{ a: 1 }, { b: 2 }, { c: 3 }], [{ b: 2 }, { a: 1 }], 'not include deep ordered members') assert.notIncludeDeepOrderedMembers([{ a: 1 }, { b: 2 }, { c: 3 }], [{ b: 2 }, { c: 3 }], 'not include deep ordered members') }) ``` ## oneOf - **Type:** `(inList: T, list: T[], message?: string) => void` Asserts that non-object, non-array value `inList` appears in the flat array `list`. ```ts import { assert, test } from 'vitest' test('assert.oneOf', () => { assert.oneOf(1, [2, 1], 'Not found in list') }) ``` ## changes - **Type:** `(modifier: Function, object: T, property: string, message?: string) => void` Asserts that a `modifier` changes the `object` of a `property`. ```ts import { assert, test } from 'vitest' test('assert.changes', () => { const obj = { val: 10 } function fn() { obj.val = 22 }; assert.changes(fn, obj, 'val') }) ``` ## changesBy - **Type:** `(modifier: Function, object: T, property: string, change: number, message?: string) => void` Asserts that a `modifier` changes the `object` of a `property` by a `change`. ```ts import { assert, test } from 'vitest' test('assert.changesBy', () => { const obj = { val: 10 } function fn() { obj.val += 2 }; assert.changesBy(fn, obj, 'val', 2) }) ``` ## doesNotChange - **Type:** `(modifier: Function, object: T, property: string, message?: string) => void` Asserts that a `modifier` does not changes the `object` of a `property`. ```ts import { assert, test } from 'vitest' test('assert.doesNotChange', () => { const obj = { val: 10 } function fn() { obj.val += 2 }; assert.doesNotChange(fn, obj, 'val', 2) }) ``` ## changesButNotBy - **Type:** `(modifier: Function, object: T, property: string, change:number, message?: string) => void` Asserts that a `modifier` does not change the `object` of a `property` or of a `modifier` return value by a `change`. ```ts import { assert, test } from 'vitest' test('assert.changesButNotBy', () => { const obj = { val: 10 } function fn() { obj.val += 10 }; assert.changesButNotBy(fn, obj, 'val', 5) }) ``` ## increases - **Type:** `(modifier: Function, object: T, property: string, message?: string) => void` Asserts that a `modifier` increases a numeric `object`'s `property`. ```ts import { assert, test } from 'vitest' test('assert.increases', () => { const obj = { val: 10 } function fn() { obj.val = 13 }; assert.increases(fn, obj, 'val') }) ``` ## increasesBy - **Type:** `(modifier: Function, object: T, property: string, change: number, message?: string) => void` Asserts that a `modifier` increases a numeric `object`'s `property` or a `modifier` return value by an `change`. ```ts import { assert, test } from 'vitest' test('assert.increases', () => { const obj = { val: 10 } function fn() { obj.val += 10 }; assert.increases(fn, obj, 'val', 10) }) ``` ## doesNotIncrease - **Type:** `(modifier: Function, object: T, property: string, message?: string) => void` Asserts that a `modifier` does not increases a numeric `object`'s `property`. ```ts import { assert, test } from 'vitest' test('assert.doesNotIncrease', () => { const obj = { val: 10 } function fn() { obj.val = 8 } assert.doesNotIncrease(fn, obj, 'val') }) ``` ## increasesButNotBy - **Type:** `(modifier: Function, object: T, property: string, change: number, message?: string) => void` Asserts that a `modifier` does not increases a numeric `object`'s `property` or a `modifier` return value by an `change`. ```ts import { assert, test } from 'vitest' test('assert.increasesButNotBy', () => { const obj = { val: 10 } function fn() { obj.val += 15 }; assert.increasesButNotBy(fn, obj, 'val', 10) }) ``` ## decreases - **Type:** `(modifier: Function, object: T, property: string, message?: string) => void` Asserts that a `modifier` decreases a numeric `object`'s `property`. ```ts import { assert, test } from 'vitest' test('assert.decreases', () => { const obj = { val: 10 } function fn() { obj.val = 5 }; assert.decreases(fn, obj, 'val') }) ``` ## decreasesBy - **Type:** `(modifier: Function, object: T, property: string, change: number, message?: string) => void` Asserts that a `modifier` decreases a numeric `object`'s `property` or a `modifier` return value by a `change`. ```ts import { assert, test } from 'vitest' test('assert.decreasesBy', () => { const obj = { val: 10 } function fn() { obj.val -= 5 }; assert.decreasesBy(fn, obj, 'val', 5) }) ``` ## doesNotDecrease - **Type:** `(modifier: Function, object: T, property: string, message?: string) => void` Asserts that a `modifier` dose not decrease a numeric `object`'s `property`. ```ts import { assert, test } from 'vitest' test('assert.doesNotDecrease', () => { const obj = { val: 10 } function fn() { obj.val = 15 } assert.doesNotDecrease(fn, obj, 'val') }) ``` ## doesNotDecreaseBy - **Type:** `(modifier: Function, object: T, property: string, change: number, message?: string) => void` Asserts that a `modifier` does not decrease a numeric `object`'s `property` or a `modifier` return value by a `change`. ```ts import { assert, test } from 'vitest' test('assert.doesNotDecreaseBy', () => { const obj = { val: 10 } function fn() { obj.val = 5 }; assert.doesNotDecreaseBy(fn, obj, 'val', 1) }) ``` ## decreasesButNotBy - **Type:** `(modifier: Function, object: T, property: string, change: number, message?: string) => void` Asserts that a `modifier` does not decrease a numeric `object`'s `property` or a `modifier` return value by a `change`. ```ts import { assert, test } from 'vitest' test('assert.decreasesButNotBy', () => { const obj = { val: 10 } function fn() { obj.val = 5 }; assert.decreasesButNotBy(fn, obj, 'val', 1) }) ``` ## ifError - **Type:** `(object: T, message?: string) => void` Asserts if `object` is not a false value, and throws if it is a true value. This is added to allow for chai to be a drop-in replacement for Node’s assert class. ```ts import { assert, test } from 'vitest' test('assert.ifError', () => { const err = new Error('I am a custom error') assert.ifError(err) // Rethrows err! }) ``` ## isExtensible - **Type:** `(object: T, message?: string) => void` - **Alias:** `extensible` Asserts that `object` is extensible (can have new properties added to it). ```ts import { assert, test } from 'vitest' test('assert.isExtensible', () => { assert.isExtensible({}) }) ``` ## isNotExtensible - **Type:** `(object: T, message?: string) => void` - **Alias:** `notExtensible` Asserts that `object` is not extensible (can not have new properties added to it). ```ts import { assert, test } from 'vitest' test('assert.isNotExtensible', () => { const nonExtensibleObject = Object.preventExtensions({}) const sealedObject = Object.seal({}) const frozenObject = Object.freeze({}) assert.isNotExtensible(nonExtensibleObject) assert.isNotExtensible(sealedObject) assert.isNotExtensible(frozenObject) }) ``` ## isSealed - **Type:** `(object: T, message?: string) => void` - **Alias:** `sealed` Asserts that `object` is sealed (cannot have new properties added to it and its existing properties cannot be removed). ```ts import { assert, test } from 'vitest' test('assert.isSealed', () => { const sealedObject = Object.seal({}) const frozenObject = Object.seal({}) assert.isSealed(sealedObject) assert.isSealed(frozenObject) }) ``` ## isNotSealed - **Type:** `(object: T, message?: string) => void` - **Alias:** `notSealed` Asserts that `object` is not sealed (can have new properties added to it and its existing properties can be removed). ```ts import { assert, test } from 'vitest' test('assert.isNotSealed', () => { assert.isNotSealed({}) }) ``` ## isFrozen - **Type:** `(object: T, message?: string) => void` - **Alias:** `frozen` Asserts that object is frozen (cannot have new properties added to it and its existing properties cannot be modified). ```ts import { assert, test } from 'vitest' test('assert.isFrozen', () => { const frozenObject = Object.freeze({}) assert.frozen(frozenObject) }) ``` ## isNotFrozen - **Type:** `(object: T, message?: string) => void` - **Alias:** `notFrozen` Asserts that `object` is not frozen (can have new properties added to it and its existing properties can be modified). ```ts import { assert, test } from 'vitest' test('assert.isNotFrozen', () => { assert.isNotFrozen({}) }) ``` ## isEmpty - **Type:** `(target: T, message?: string) => void` - **Alias:** `empty` Asserts that the `target` does not contain any values. For arrays and strings, it checks the length property. For Map and Set instances, it checks the size property. For non-function objects, it gets the count of its own enumerable string keys. ```ts import { assert, test } from 'vitest' test('assert.isEmpty', () => { assert.isEmpty([]) assert.isEmpty('') assert.isEmpty(new Map()) assert.isEmpty({}) }) ``` ## isNotEmpty - **Type:** `(object: T, message?: string) => void` - **Alias:** `notEmpty` Asserts that the `target` contains values. For arrays and strings, it checks the length property. For Map and Set instances, it checks the size property. For non-function objects, it gets the count of its own enumerable string keys. ```ts import { assert, test } from 'vitest' test('assert.isNotEmpty', () => { assert.isNotEmpty([1, 2]) assert.isNotEmpty('34') assert.isNotEmpty(new Set([5, 6])) assert.isNotEmpty({ key: 7 }) }) ```