$ npm install @stdlib/assert
We believe in a future in which the web is a preferred environment for numerical computation. To help realize this future, we've built stdlib. stdlib is a standard library, with an emphasis on numerical and scientific computation, written in JavaScript (and C) for execution in browsers and in Node.js.
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Assertion utilities.
npm install @stdlib/assert
var assert = require( '@stdlib/assert' );
Namespace providing utilities for data type testing and feature detection.
var o = assert;
// returns {...}
To validate the built-in JavaScript data types, the namespace includes the following assertion utilities:
isArray( value )
][@stdlib/assert/is-array]: test if a value is an array.isBoolean( value )
][@stdlib/assert/is-boolean]: test if a value is a boolean.isDateObject( value )
][@stdlib/assert/is-date-object]: test if a value is a Date object.isFunction( value )
][@stdlib/assert/is-function]: test if a value is a function.isnan( value )
][@stdlib/assert/is-nan]: test if a value is NaN.isNull( value )
][@stdlib/assert/is-null]: test if a value is null.isNumber( value )
][@stdlib/assert/is-number]: test if a value is a number.isObject( value )
][@stdlib/assert/is-object]: test if a value is an object.isRegExp( value )
][@stdlib/assert/is-regexp]: test if a value is a regular expression.isString( value )
][@stdlib/assert/is-string]: test if a value is a string.isSymbol( value )
][@stdlib/assert/is-symbol]: test if a value is a symbol.isUndefined( value )
][@stdlib/assert/is-undefined]: test if a value is undefined.For primitive types having corresponding object wrappers, assertion utilities provide isObject
and isPrimitive
methods to test for either objects or primitives, respectively.
var Boolean = require( '@stdlib/boolean/ctor' );
var isBoolean = require( '@stdlib/assert/is-boolean' );
var bool = isBoolean.isObject( new Boolean( false ) );
// returns true
bool = isBoolean.isObject( false );
// returns false
bool = isBoolean.isPrimitive( false );
// returns true
Many of the assertion utilities have corresponding packages that test whether array elements are of the given data type:
isArrayArray( value )
][@stdlib/assert/is-array-array]: test if a value is an array of arrays.isBooleanArray( value )
][@stdlib/assert/is-boolean-array]: test if a value is an array-like object of booleans.isDateObjectArray( value )
][@stdlib/assert/is-date-object-array]: test if a value is an array-like object containing only Date objects.isFunctionArray( value )
][@stdlib/assert/is-function-array]: test if a value is an array-like object containing only functions.isNaNArray( value )
][@stdlib/assert/is-nan-array]: test if a value is an array-like object containing only NaN values.isNullArray( value )
][@stdlib/assert/is-null-array]: test if a value is an array-like object containing only null values.isNumberArray( value )
][@stdlib/assert/is-number-array]: test if a value is an array-like object of numbers.isObjectArray( value )
][@stdlib/assert/is-object-array]: test if a value is an array-like object containing only objects.isStringArray( value )
][@stdlib/assert/is-string-array]: test if a value is an array of strings.isSymbolArray( value )
][@stdlib/assert/is-symbol-array]: test if a value is an array-like object containing only symbols.Where applicable, similar to the assertion utilities for built-in data types, array assertion utilities provides methods for testing for an array of primitives or objects.
var isStringArray = require( '@stdlib/assert/is-string-array' );
var bool = isStringArray( [ 'hello', 'world' ] );
// returns true
bool = isStringArray.primitives( [ 'hello', 'world' ] );
// returns true
bool = isStringArray.objects( [ 'hello', 'world' ] );
// returns false
bool = isStringArray.objects( [ new String( 'hello' ), new String( 'world' ) ] );
// returns true
The namespace also contains utilities to test for numbers within a certain range or for numbers satisfying a particular "type":
isCubeNumber( value )
][@stdlib/assert/is-cube-number]: test if a value is a cube number.isIntegerArray( value )
][@stdlib/assert/is-integer-array]: test if a value is an array-like object containing only integers.isInteger( value )
][@stdlib/assert/is-integer]: test if a value is a number having an integer value.isNegativeIntegerArray( value )
][@stdlib/assert/is-negative-integer-array]: test if a value is an array-like object containing only negative integers.isNegativeInteger( value )
][@stdlib/assert/is-negative-integer]: test if a value is a number having a negative integer value.isNegativeNumberArray( value )
][@stdlib/assert/is-negative-number-array]: test if a value is an array-like object containing only negative numbers.isNegativeNumber( value )
][@stdlib/assert/is-negative-number]: test if a value is a number having a negative value.isNonNegativeIntegerArray( value )
][@stdlib/assert/is-nonnegative-integer-array]: test if a value is an array-like object containing only nonnegative integers.isNonNegativeInteger( value )
][@stdlib/assert/is-nonnegative-integer]: test if a value is a number having a nonnegative integer value.isNonNegativeNumberArray( value )
][@stdlib/assert/is-nonnegative-number-array]: test if a value is an array-like object containing only nonnegative numbers.isNonNegativeNumber( value )
][@stdlib/assert/is-nonnegative-number]: test if a value is a number having a nonnegative value.isNonPositiveIntegerArray( value )
][@stdlib/assert/is-nonpositive-integer-array]: test if a value is an array-like object containing only nonpositive integers.isNonPositiveInteger( value )
][@stdlib/assert/is-nonpositive-integer]: test if a value is a number having a nonpositive integer value.isNonPositiveNumberArray( value )
][@stdlib/assert/is-nonpositive-number-array]: test if a value is an array-like object containing only nonpositive numbers.isNonPositiveNumber( value )
][@stdlib/assert/is-nonpositive-number]: test if a value is a number having a nonpositive value.isPositiveIntegerArray( value )
][@stdlib/assert/is-positive-integer-array]: test if a value is an array-like object containing only positive integers.isPositiveInteger( value )
][@stdlib/assert/is-positive-integer]: test if a value is a number having a positive integer value.isPositiveNumberArray( value )
][@stdlib/assert/is-positive-number-array]: test if a value is an array-like object containing only positive numbers.isPositiveNumber( value )
][@stdlib/assert/is-positive-number]: test if a value is a number having a positive value.isSafeIntegerArray( value )
][@stdlib/assert/is-safe-integer-array]: test if a value is an array-like object containing only safe integers.isSafeInteger( value )
][@stdlib/assert/is-safe-integer]: test if a value is a number having a safe integer value.isSquareNumber( value )
][@stdlib/assert/is-square-number]: test if a value is a square number.isSquareTriangularNumber( value )
][@stdlib/assert/is-square-triangular-number]: test if a value is a square triangular number.isTriangularNumber( value )
][@stdlib/assert/is-triangular-number]: test if a value is a triangular number.The namespace provides utilities for validating typed arrays:
isFloat32Array( value )
][@stdlib/assert/is-float32array]: test if a value is a Float32Array.isFloat64Array( value )
][@stdlib/assert/is-float64array]: test if a value is a Float64Array.isInt16Array( value )
][@stdlib/assert/is-int16array]: test if a value is an Int16Array.isInt32Array( value )
][@stdlib/assert/is-int32array]: test if a value is an Int32Array.isInt8Array( value )
][@stdlib/assert/is-int8array]: test if a value is an Int8Array.isUint16Array( value )
][@stdlib/assert/is-uint16array]: test if a value is a Uint16Array.isUint32Array( value )
][@stdlib/assert/is-uint32array]: test if a value is a Uint32Array.isUint8Array( value )
][@stdlib/assert/is-uint8array]: test if a value is a Uint8Array.isUint8ClampedArray( value )
][@stdlib/assert/is-uint8clampedarray]: test if a value is a Uint8ClampedArray.The namespace includes utilities for validating ndarray
s (n-dimensional arrays).
isCentrosymmetricMatrix( value )
][@stdlib/assert/is-centrosymmetric-matrix]: test if a value is a centrosymmetric matrix.isComplex128MatrixLike( value )
][@stdlib/assert/is-complex128matrix-like]: test if a value is a 2-dimensional ndarray-like object containing double-precision complex floating-point numbers.isComplex128ndarrayLike( value )
][@stdlib/assert/is-complex128ndarray-like]: test if a value is an ndarray-like object containing double-precision complex floating-point numbers.isComplex128VectorLike( value )
][@stdlib/assert/is-complex128vector-like]: test if a value is a 1-dimensional ndarray-like object containing double-precision complex floating-point numbers.isComplex64MatrixLike( value )
][@stdlib/assert/is-complex64matrix-like]: test if a value is a 2-dimensional ndarray-like object containing single-precision complex floating-point numbers.isComplex64ndarrayLike( value )
][@stdlib/assert/is-complex64ndarray-like]: test if a value is an ndarray-like object containing single-precision complex floating-point numbers.isComplex64VectorLike( value )
][@stdlib/assert/is-complex64vector-like]: test if a value is a 1-dimensional ndarray-like object containing single-precision complex floating-point numbers.isFloat32MatrixLike( value )
][@stdlib/assert/is-float32matrix-like]: test if a value is a 2-dimensional ndarray-like object containing single-precision floating-point numbers.isFloat32ndarrayLike( value )
][@stdlib/assert/is-float32ndarray-like]: test if a value is an ndarray-like object containing single-precision floating-point numbers.isFloat32VectorLike( value )
][@stdlib/assert/is-float32vector-like]: test if a value is a 1-dimensional ndarray-like object containing single-precision floating-point numbers.isFloat64MatrixLike( value )
][@stdlib/assert/is-float64matrix-like]: test if a value is a 2-dimensional ndarray-like object containing double-precision floating-point numbers.isFloat64ndarrayLike( value )
][@stdlib/assert/is-float64ndarray-like]: test if a value is an ndarray-like object containing double-precision floating-point numbers.isFloat64VectorLike( value )
][@stdlib/assert/is-float64vector-like]: test if a value is a 1-dimensional ndarray-like object containing double-precision floating-point numbers.isMatrixLike( value )
][@stdlib/assert/is-matrix-like]: test if a value is 2-dimensional ndarray-like object.isndarrayLike( value )
][@stdlib/assert/is-ndarray-like]: test if a value is ndarray-like.isNonSymmetricMatrix( value )
][@stdlib/assert/is-nonsymmetric-matrix]: test if a value is a non-symmetric matrix.isPersymmetricMatrix( value )
][@stdlib/assert/is-persymmetric-matrix]: test if a value is a persymmetric matrix.isSkewCentrosymmetricMatrix( value )
][@stdlib/assert/is-skew-centrosymmetric-matrix]: test if a value is a skew-centrosymmetric matrix.isSkewPersymmetricMatrix( value )
][@stdlib/assert/is-skew-persymmetric-matrix]: test if a value is a skew-persymmetric matrix.isSkewSymmetricMatrix( value )
][@stdlib/assert/is-skew-symmetric-matrix]: test if a value is a skew-symmetric matrix.isSquareMatrix( value )
][@stdlib/assert/is-square-matrix]: test if a value is a 2-dimensional ndarray-like object having equal dimensions.isSymmetricMatrix( value )
][@stdlib/assert/is-symmetric-matrix]: test if a value is a symmetric matrix.isVectorLike( value )
][@stdlib/assert/is-vector-like]: test if a value is a 1-dimensional ndarray-like object.The namespace includes utilities for validating complex numbers and arrays of complex numbers:
isComplexLike( value )
][@stdlib/assert/is-complex-like]: test if a value is a complex number-like object.isComplexTypedArrayLike( value )
][@stdlib/assert/is-complex-typed-array-like]: test if a value is complex-typed-array-like.isComplexTypedArray( value )
][@stdlib/assert/is-complex-typed-array]: test if a value is a complex typed array.isComplex( value )
][@stdlib/assert/is-complex]: test if a value is a 64-bit or 128-bit complex number.isComplex128( value )
][@stdlib/assert/is-complex128]: test if a value is a 128-bit complex number.isComplex128Array( value )
][@stdlib/assert/is-complex128array]: test if a value is a Complex128Array.isComplex64( value )
][@stdlib/assert/is-complex64]: test if a value is a 64-bit complex number.isComplex64Array( value )
][@stdlib/assert/is-complex64array]: test if a value is a Complex64Array.The namespace includes utilities for validating other special arrays or buffers:
isAccessorArray( value )
][@stdlib/assert/is-accessor-array]: test if a value is an array-like object supporting the accessor (get/set) protocol.isArrayLength( value )
][@stdlib/assert/is-array-length]: test if a value is a valid array length.isArrayLikeObject( value )
][@stdlib/assert/is-array-like-object]: test if a value is an array-like object.isArrayLike( value )
][@stdlib/assert/is-array-like]: test if a value is array-like.isArrayBufferView( value )
][@stdlib/assert/is-arraybuffer-view]: test if a value is an ArrayBuffer view.isArrayBuffer( value )
][@stdlib/assert/is-arraybuffer]: test if a value is an ArrayBuffer.isBetweenArray( value, a, b[, left, right] )
][@stdlib/assert/is-between-array]: test if a value is an array-like object where every element is between two values.isBigInt64Array( value )
][@stdlib/assert/is-bigint64array]: test if a value is a BigInt64Array.isBigUint64Array( value )
][@stdlib/assert/is-biguint64array]: test if a value is a BigUint64Array.isCircularArray( value )
][@stdlib/assert/is-circular-array]: test if a value is an array containing a circular reference.isEmptyArrayLikeObject( value )
][@stdlib/assert/is-empty-array-like-object]: test if a value is an empty array-like object.isEmptyArray( value )
][@stdlib/assert/is-empty-array]: test if a value is an empty array.isFalsyArray( value )
][@stdlib/assert/is-falsy-array]: test if a value is an array-like object containing only falsy values.isFiniteArray( value )
][@stdlib/assert/is-finite-array]: test if a value is an array-like object containing only finite numbers.isNumericArray( value )
][@stdlib/assert/is-numeric-array]: test if a value is a numeric array.isPlainObjectArray( value )
][@stdlib/assert/is-plain-object-array]: test if a value is an array-like object containing only plain objects.isProbabilityArray( value )
][@stdlib/assert/is-probability-array]: test if a value is an array-like object containing only probabilities.isSameArray( v1, v2 )
][@stdlib/assert/is-same-array]: test if two arguments are both generic arrays and have the same values.isSameComplex128Array( v1, v2 )
][@stdlib/assert/is-same-complex128array]: test if two arguments are both Complex128Arrays and have the same values.isSameComplex64Array( v1, v2 )
][@stdlib/assert/is-same-complex64array]: test if two arguments are both Complex64Arrays and have the same values.isSameFloat32Array( v1, v2 )
][@stdlib/assert/is-same-float32array]: test if two arguments are both Float32Arrays and have the same values.isSameFloat64Array( v1, v2 )
][@stdlib/assert/is-same-float64array]: test if two arguments are both Float64Arrays and have the same values.isSharedArrayBuffer( value )
][@stdlib/assert/is-sharedarraybuffer]: test if a value is a SharedArrayBuffer.isTruthyArray( value )
][@stdlib/assert/is-truthy-array]: test if a value is an array-like object containing only truthy values.isTypedArrayLength( value )
][@stdlib/assert/is-typed-array-length]: test if a value is a valid typed array length.isTypedArrayLike( value )
][@stdlib/assert/is-typed-array-like]: test if a value is typed-array-like.isTypedArray( value )
][@stdlib/assert/is-typed-array]: test if a value is a typed array.isUnityProbabilityArray( value )
][@stdlib/assert/is-unity-probability-array]: test if a value is an array of probabilities that sum to one.To test for error objects, the namespace includes the following utilities:
isError( value )
][@stdlib/assert/is-error]: test if a value is an Error object.isEvalError( value )
][@stdlib/assert/is-eval-error]: test if a value is an EvalError object.isRangeError( value )
][@stdlib/assert/is-range-error]: test if a value is a RangeError object.isReferenceError( value )
][@stdlib/assert/is-reference-error]: test if a value is a ReferenceError object.isSyntaxError( value )
][@stdlib/assert/is-syntax-error]: test if a value is a SyntaxError object.isTypeError( value )
][@stdlib/assert/is-type-error]: test if a value is a TypeError object.isURIError( value )
][@stdlib/assert/is-uri-error]: test if a value is a URIError object.The namespace exposes the following constants concerning the current running process:
IS_BIG_ENDIAN
][@stdlib/assert/is-big-endian]: check if an environment is big endian.IS_BROWSER
][@stdlib/assert/is-browser]: check if the runtime is a web browser.IS_DARWIN
][@stdlib/assert/is-darwin]: boolean indicating if the current process is running on Darwin.IS_DOCKER
][@stdlib/assert/is-docker]: check if the process is running in a Docker container.IS_ELECTRON_MAIN
][@stdlib/assert/is-electron-main]: check if the runtime is the main Electron process.IS_ELECTRON_RENDERER
][@stdlib/assert/is-electron-renderer]: check if the runtime is the Electron renderer process.IS_ELECTRON
][@stdlib/assert/is-electron]: check if the runtime is Electron.IS_LITTLE_ENDIAN
][@stdlib/assert/is-little-endian]: check if an environment is little endian.IS_MOBILE
][@stdlib/assert/is-mobile]: check if the current environment is a mobile device.IS_NODE
][@stdlib/assert/is-node]: check if the runtime is Node.js.IS_TOUCH_DEVICE
][@stdlib/assert/is-touch-device]: check if the current environment is a touch device.IS_WEB_WORKER
][@stdlib/assert/is-web-worker]: check if the runtime is a web worker.IS_WINDOWS
][@stdlib/assert/is-windows]: boolean indicating if the current process is running on Windows.To test whether a runtime environment supports certain features, the namespace includes the following utilities:
hasArrayBufferSupport()
][@stdlib/assert/has-arraybuffer-support]: detect native ArrayBuffer
support.hasArrowFunctionSupport()
][@stdlib/assert/has-arrow-function-support]: detect native arrow function
support.hasAsyncAwaitSupport()
][@stdlib/assert/has-async-await-support]: detect native async
/await
support.hasAsyncIteratorSymbolSupport()
][@stdlib/assert/has-async-iterator-symbol-support]: detect native Symbol.asyncIterator
support.hasBigIntSupport()
][@stdlib/assert/has-bigint-support]: detect native BigInt
support.hasBigInt64ArraySupport()
][@stdlib/assert/has-bigint64array-support]: detect native BigInt64Array
support.hasBigUint64ArraySupport()
][@stdlib/assert/has-biguint64array-support]: detect native BigUint64Array
support.hasClassSupport()
][@stdlib/assert/has-class-support]: detect native class
support.hasDataViewSupport()
][@stdlib/assert/has-dataview-support]: detect native DataView
support.hasDefinePropertiesSupport()
][@stdlib/assert/has-define-properties-support]: detect Object.defineProperties
support.hasDefinePropertySupport()
][@stdlib/assert/has-define-property-support]: detect Object.defineProperty
support.hasFloat32ArraySupport()
][@stdlib/assert/has-float32array-support]: detect native Float32Array
support.hasFloat64ArraySupport()
][@stdlib/assert/has-float64array-support]: detect native Float64Array
support.hasFunctionNameSupport()
][@stdlib/assert/has-function-name-support]: detect native function name
support.hasGeneratorSupport()
][@stdlib/assert/has-generator-support]: detect native generator function
support.hasGlobalThisSupport()
][@stdlib/assert/has-globalthis-support]: detect globalThis
support.hasInt16ArraySupport()
][@stdlib/assert/has-int16array-support]: detect native Int16Array
support.hasInt32ArraySupport()
][@stdlib/assert/has-int32array-support]: detect native Int32Array
support.hasInt8ArraySupport()
][@stdlib/assert/has-int8array-support]: detect native Int8Array
support.hasIteratorSymbolSupport()
][@stdlib/assert/has-iterator-symbol-support]: detect native Symbol.iterator
support.hasMapSupport()
][@stdlib/assert/has-map-support]: detect native Map
support.hasNodeBufferSupport()
][@stdlib/assert/has-node-buffer-support]: detect native Buffer
support.hasProxySupport()
][@stdlib/assert/has-proxy-support]: detect native Proxy
support.hasSetSupport()
][@stdlib/assert/has-set-support]: detect native Set
support.hasSharedArrayBufferSupport()
][@stdlib/assert/has-sharedarraybuffer-support]: detect native SharedArrayBuffer
support.hasSymbolSupport()
][@stdlib/assert/has-symbol-support]: detect native Symbol
support.hasToStringTagSupport()
][@stdlib/assert/has-tostringtag-support]: detect native Symbol.toStringTag
support.hasUint16ArraySupport()
][@stdlib/assert/has-uint16array-support]: detect native Uint16Array
support.hasUint32ArraySupport()
][@stdlib/assert/has-uint32array-support]: detect native Uint32Array
support.hasUint8ArraySupport()
][@stdlib/assert/has-uint8array-support]: detect native Uint8Array
support.hasUint8ClampedArraySupport()
][@stdlib/assert/has-uint8clampedarray-support]: detect native Uint8ClampedArray
support.hasWebAssemblySupport()
][@stdlib/assert/has-wasm-support]: detect native WebAssembly support.hasWeakMapSupport()
][@stdlib/assert/has-weakmap-support]: detect native WeakMap
support.hasWeakSetSupport()
][@stdlib/assert/has-weakset-support]: detect native WeakSet
support.The remaining namespace utilities are as follows:
contains( val, searchValue[, position] )
][@stdlib/assert/contains]: test if an array-like value contains a search value.deepEqual( a, b )
][@stdlib/assert/deep-equal]: test for deep equality between two values.deepHasOwnProp( value, path[, options] )
][@stdlib/assert/deep-has-own-property]: test whether an object contains a nested key path.deepHasProp( value, path[, options] )
][@stdlib/assert/deep-has-property]: test whether an object contains a nested key path, either own or inherited.hasOwnProp( value, property )
][@stdlib/assert/has-own-property]: test if an object has a specified property.hasProp( value, property )
][@stdlib/assert/has-property]: test if an object has a specified property, either own or inherited.hasUTF16SurrogatePairAt( string, position )
][@stdlib/assert/has-utf16-surrogate-pair-at]: test if a position in a string marks the start of a UTF-16 surrogate pair.instanceOf( value, constructor )
][@stdlib/assert/instance-of]: test whether a value has in its prototype chain a specified constructor as a prototype property.isAbsoluteHttpURI( value )
][@stdlib/assert/is-absolute-http-uri]: test whether a value is an absolute HTTP(S) URI.isAbsolutePath( value )
][@stdlib/assert/is-absolute-path]: test if a value is an absolute path.isAbsoluteURI( value )
][@stdlib/assert/is-absolute-uri]: test whether a value is an absolute URI.isAccessorPropertyIn( value, property )
][@stdlib/assert/is-accessor-property-in]: test if an object's own or inherited property has an accessor descriptor.isAccessorProperty( value, property )
][@stdlib/assert/is-accessor-property]: test if an object's own property has an accessor descriptor.isAlphagram( value )
][@stdlib/assert/is-alphagram]: test if a value is an alphagram.isAlphaNumeric( value )
][@stdlib/assert/is-alphanumeric]: test whether a string contains only alphanumeric characters.isAnagram( str, value )
][@stdlib/assert/is-anagram]: test if a value is an anagram.isArguments( value )
][@stdlib/assert/is-arguments]: test if a value is an arguments object.isArrowFunction( value )
][@stdlib/assert/is-arrow-function]: test if a value is an arrow function
.isASCII( value )
][@stdlib/assert/is-ascii]: test whether a character belongs to the ASCII character set and whether this is true for all characters in a provided string.isBetween( value, a, b[, left, right] )
][@stdlib/assert/is-between]: test if a value is between two values.isBigInt( value )
][@stdlib/assert/is-bigint]: test if a value is a BigInt.isBinaryString( value )
][@stdlib/assert/is-binary-string]: test if a value is a binary string.isBlankString( value )
][@stdlib/assert/is-blank-string]: test if a value is a blank string.isBoxedPrimitive( value )
][@stdlib/assert/is-boxed-primitive]: test if a value is a JavaScript boxed primitive.isBuffer( value )
][@stdlib/assert/is-buffer]: test if a value is a Buffer object.isCamelcase( value )
][@stdlib/assert/is-camelcase]: test if a value is a camelcase string.isCapitalized( value )
][@stdlib/assert/is-capitalized]: test if a value is a string having an uppercase first character.isCircular( value )
][@stdlib/assert/is-circular]: test if a value is a plain object containing a circular reference.isCircular( value )
][@stdlib/assert/is-circular]: test if an object-like value contains a circular reference.isClass( value )
][@stdlib/assert/is-class]: test if a value is a class.isCollection( value )
][@stdlib/assert/is-collection]: test if a value is a collection.isComposite( value )
][@stdlib/assert/is-composite]: test if a value is a composite number.isConfigurablePropertyIn( value, property )
][@stdlib/assert/is-configurable-property-in]: test if an object's own or inherited property is configurable.isConfigurableProperty( value, property )
][@stdlib/assert/is-configurable-property]: test if an object's own property is configurable.isConstantcase( value )
][@stdlib/assert/is-constantcase]: test if a value is a constantcase string.isCurrentYear( value )
][@stdlib/assert/is-current-year]: test if a value is the current year.isDataPropertyIn( value, property )
][@stdlib/assert/is-data-property-in]: test if an object's own or inherited property has a data descriptor.isDataProperty( value, property )
][@stdlib/assert/is-data-property]: test if an object's own property has a data descriptor.isDataView( value )
][@stdlib/assert/is-dataview]: test if a value is a DataView.isDigitString( value )
][@stdlib/assert/is-digit-string]: test whether a string contains only numeric digits.isDomainName( value )
][@stdlib/assert/is-domain-name]: test if a value is a domain name.isDurationString( value )
][@stdlib/assert/is-duration-string]: test if a value is a duration string.isEmailAddress( value )
][@stdlib/assert/is-email-address]: test if a value is an email address.isEmptyCollection( value )
][@stdlib/assert/is-empty-collection]: test if a value is an empty collection.isEmptyObject( value )
][@stdlib/assert/is-empty-object]: test if a value is an empty object.isEmptyString( value )
][@stdlib/assert/is-empty-string]: test if a value is an empty string.isEnumerablePropertyIn( value, property )
][@stdlib/assert/is-enumerable-property-in]: test if an object's own or inherited property is enumerable.isEnumerableProperty( value, property )
][@stdlib/assert/is-enumerable-property]: test if an object's own property is enumerable.isEven( value )
][@stdlib/assert/is-even]: test if a value is an even number.isFalsy( value )
][@stdlib/assert/is-falsy]: test if a value is falsy.isFinite( value )
][@stdlib/assert/is-finite]: test if a value is a finite number.isGeneratorObjectLike( value )
][@stdlib/assert/is-generator-object-like]: test if a value is generator
object-like.isGeneratorObject( value )
][@stdlib/assert/is-generator-object]: test if a value is a generator
object.isgzipBuffer( value )
][@stdlib/assert/is-gzip-buffer]: test if a value is a gzip buffer.isHexString( value )
][@stdlib/assert/is-hex-string]: test whether a string contains only hexadecimal digits.isInfinite( value )
][@stdlib/assert/is-infinite]: test if a value is an infinite number.isInheritedProperty( value, property )
][@stdlib/assert/is-inherited-property]: test if an object has an inherited property.isIterableLike( value )
][@stdlib/assert/is-iterable-like]: test if a value is iterable
-like.isIteratorLike( value )
][@stdlib/assert/is-iterator-like]: test if a value is iterator
-like.isJSON( value )
][@stdlib/assert/is-json]: test if a value is a parseable JSON string.isKebabcase( value )
][@stdlib/assert/is-kebabcase]: test if a value is a string in kebab case.isLeapYear( [value] )
][@stdlib/assert/is-leap-year]: test if a value corresponds to a leap year in the Gregorian calendar.isLocalhost( value )
][@stdlib/assert/is-localhost]: test whether a value is a localhost hostname.isLowercase( value )
][@stdlib/assert/is-lowercase]: test if a value is a lowercase string.isMethodIn( value, property )
][@stdlib/assert/is-method-in]: test if an object has a specified method name, either own or inherited.isMethod( value, property )
][@stdlib/assert/is-method]: test if an object has a specified method name.isMultiSlice( value )
][@stdlib/assert/is-multi-slice]: test if a value is a MultiSlice
.isNamedTypedTupleLike( value )
][@stdlib/assert/is-named-typed-tuple-like]: test if a value is named typed tuple-like.isNativeFunction( value )
][@stdlib/assert/is-native-function]: test if a value is a native function.isNegativeZero( value )
][@stdlib/assert/is-negative-zero]: test if a value is a number equal to negative zero.isNodeBuiltin( value )
][@stdlib/assert/is-node-builtin]: test whether a string matches a Node.js built-in module name.isNodeDuplexStreamLike( value )
][@stdlib/assert/is-node-duplex-stream-like]: test if a value is Node duplex stream-like.isNodeReadableStreamLike( value )
][@stdlib/assert/is-node-readable-stream-like]: test if a value is Node readable stream-like.isNodeREPL()
][@stdlib/assert/is-node-repl]: check if running in a Node.js REPL environment.isNodeStreamLike( value )
][@stdlib/assert/is-node-stream-like]: test if a value is Node stream-like.isNodeTransformStreamLike( value )
][@stdlib/assert/is-node-transform-stream-like]: test if a value is Node transform stream-like.isNodeWritableStreamLike( value )
][@stdlib/assert/is-node-writable-stream-like]: test if a value is Node writable stream-like.isNonConfigurablePropertyIn( value, property )
][@stdlib/assert/is-nonconfigurable-property-in]: test if an object's own or inherited property is non-configurable.isNonConfigurableProperty( value, property )
][@stdlib/assert/is-nonconfigurable-property]: test if an object's own property is non-configurable.isNonEnumerablePropertyIn( value, property )
][@stdlib/assert/is-nonenumerable-property-in]: test if an object's own or inherited property is non-enumerable.isNonEnumerableProperty( value, property )
][@stdlib/assert/is-nonenumerable-property]: test if an object's own property is non-enumerable.isNonNegativeFinite( value )
][@stdlib/assert/is-nonnegative-finite]: test if a value is a number having a nonnegative finite value.isObjectLike( value )
][@stdlib/assert/is-object-like]: test if a value is object-like.isOdd( value )
][@stdlib/assert/is-odd]: test if a value is an odd number.isPascalcase( value )
][@stdlib/assert/is-pascalcase]: test if a value is a string in Pascal case.isPlainObject( value )
][@stdlib/assert/is-plain-object]: test if a value is a plain object.isPositiveZero( value )
][@stdlib/assert/is-positive-zero]: test if a value is a number equal to positive zero.isPrime( value )
][@stdlib/assert/is-prime]: test if a value is a prime number.isPrimitive( value )
][@stdlib/assert/is-primitive]: test if a value is a JavaScript primitive.isPRNGLike( value )
][@stdlib/assert/is-prng-like]: test if a value is PRNG-like.isProbability( value )
][@stdlib/assert/is-probability]: test if a value is a probability.isPropertyKey( value )
][@stdlib/assert/is-property-key]: test whether a value is a property key.isPrototypeOf( obj, prototype )
][@stdlib/assert/is-prototype-of]: test if an object's prototype chain contains a provided prototype.isReadOnlyPropertyIn( value, property )
][@stdlib/assert/is-read-only-property-in]: test if an object's own or inherited property is read-only.isReadOnlyProperty( value, property )
][@stdlib/assert/is-read-only-property]: test if an object's own property is read-only.isReadWritePropertyIn( value, property )
][@stdlib/assert/is-read-write-property-in]: test if an object's own or inherited property is readable and writable.isReadWriteProperty( value, property )
][@stdlib/assert/is-read-write-property]: test if an object's own property is readable and writable.isReadablePropertyIn( value, property )
][@stdlib/assert/is-readable-property-in]: test if an object's own or inherited property is readable.isReadableProperty( value, property )
][@stdlib/assert/is-readable-property]: test if an object's own property is readable.isRegExpString( value )
][@stdlib/assert/is-regexp-string]: test if a value is a regular expression string.isRelativePath( value )
][@stdlib/assert/is-relative-path]: test if a value is a relative path.isRelativeURI( value )
][@stdlib/assert/is-relative-uri]: test whether a value is a relative URI.isSameComplex128( v1, v2 )
][@stdlib/assert/is-same-complex128]: test if two arguments are both double-precision complex floating-point numbers and have the same value.isSameComplex64( v1, v2 )
][@stdlib/assert/is-same-complex64]: test if two arguments are both single-precision complex floating-point numbers and have the same value.isSameNativeClass( a, b )
][@stdlib/assert/is-same-native-class]: test if two arguments have the same native class.isSameType( a, b )
][@stdlib/assert/is-same-type]: test if two arguments have the same type.isSameValueZero( a, b )
][@stdlib/assert/is-same-value-zero]: test if two arguments are the same value.isSameValue( a, b )
][@stdlib/assert/is-same-value]: test if two arguments are the same value.© 2010 - cnpmjs.org x YWFE | Home | YWFE