Test if a value is a composite number.
A composite number is defined as a positive integer value greater than 1 which has at least one divisor other than 1 and itself (i.e., an integer value which can be formed by multiplying two smaller positive integers).
var isComposite = require( '@stdlib/assert/is-composite' );Tests if a value is a composite number.
var Number = require( '@stdlib/number/ctor' );
var bool = isComposite( 4.0 );
// returns true
bool = isComposite( new Number( 4.0 ) );
// returns true
bool = isComposite( 3.14 );
// returns false
bool = isComposite( -4.0 );
// returns false
bool = isComposite( NaN );
// returns false
bool = isComposite( null );
// returns falseTests if a value is a primitive composite number.
var Number = require( '@stdlib/number/ctor' );
var bool = isComposite.isPrimitive( 4.0 );
// returns true
bool = isComposite.isPrimitive( new Number( 4.0 ) );
// returns falseTests if a value is a Number object having a value which is a composite number.
var Number = require( '@stdlib/number/ctor' );
var bool = isComposite.isObject( 4.0 );
// returns false
bool = isComposite.isObject( new Number( 4.0 ) );
// returns truevar Number = require( '@stdlib/number/ctor' );
var isComposite = require( '@stdlib/assert/is-composite' );
var bool = isComposite( 4.0 );
// returns true
bool = isComposite( new Number( 4.0 ) );
// returns true
bool = isComposite( 10.0 );
// returns true
bool = isComposite( 7.0 );
// returns false
bool = isComposite( 3.14 );
// returns false
bool = isComposite( -4.0 );
// returns false
bool = isComposite( NaN );
// returns false
bool = isComposite( '0.5' );
// returns false
bool = isComposite( null );
// returns false@stdlib/assert/is-integer: test if a value is a number having an integer value.@stdlib/assert/is-number: test if a value is a number.@stdlib/assert/is-prime: test if a value is a prime number.