frexp

Splits a single-precision floating-point number into a normalized fraction and an integer power of two.

Installation

$ npm install math-float32-frexp

Usage

var frexp = require( 'math-float32-frexp' );

frexp( x )

Splits a single-precision floating-point number into a normalized fraction and an integer power of two.

var toFloat32 = require( 'float64-to-float32' );
 
var out = frexp( toFloat32( 4 ) );
// returns [ 0.5, 3 ]

The first element of the returned array is the normalized fraction and the second is the exponent. The normalized fraction and exponent satisfy the relation x = frac * 2**exp.

var toFloat32 = require( 'float64-to-float32' );
var pow = require( 'math-power' );
 
var x1 = toFloat32( 4 );
var out = frexp( x1 );
// returns [ 0.5, 3 ]
 
var frac = out[ 0 ];
var exp = out[ 1 ];
 
var x2 = frac * pow(2,exp);
 
var bool = ( x1 === x2 );
// returns true

If provided positive or negative zero, NaN, or positive or negative infinity, the function returns a two-element array containing the input value and an exponent equal to 0.

var pinf = require( 'const-pinf-float32' );
var ninf = require( 'const-ninf-float32' );
 
var out = frexp( 0 );
// returns [ 0, 0 ]
 
out = frexp( -0 );
// returns [ -0, 0 ]
 
out = frexp( NaN );
// returns [ NaN, 0 ]
 
out = frexp( pinf );
// returns [ +infinity, 0 ]
 
out = frexp( ninf );
// returns [ -infinity, 0 ]

For all other numeric input values, the absolute value of the normalized fraction resides on the interval [1/2,1).

Examples

var round = require( 'math-round' );
var pow = require( 'math-power' );
var toFloat32 = require( 'float64-to-float32' );
var frexp = require( 'math-float32-frexp' );
 
var sign;
var frac;
var exp;
var x;
var f;
var v;
var i;
 
// Generate random single-precision floating-point numbers and break each into a normalized fraction and an integer power of two...
for ( i = 0; i < 100; i++ ) {
    if ( Math.random() < 0.5 ) {
        sign = -1;
    } else {
        sign = 1;
    }
    frac = Math.random() * 10;
    exp = round( Math.random()*64 ) - 38;
    x = sign * frac * pow( 10, exp );
    x = toFloat32( x );
 
    f = frexp( x );
    v = f[ 0 ] * pow( 2, f[ 1 ] );
    v = toFloat32( v );
    
    console.log( '%d = %d * 2^%d = %d', x, f[ 0 ], f[ 1 ], v );
}

To run the example code from the top-level application directory,

$ node ./examples/index.js

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Tests

Unit

This repository uses tape for unit tests. To run the tests, execute the following command in the top-level application directory:

$ make test

All new feature development should have corresponding unit tests to validate correct functionality.

Test Coverage

This repository uses Istanbul as its code coverage tool. To generate a test coverage report, execute the following command in the top-level application directory:

$ make test-cov

Istanbul creates a ./reports/coverage directory. To access an HTML version of the report,

$ make view-cov

Browser Support

This repository uses Testling for browser testing. To run the tests in a (headless) local web browser, execute the following command in the top-level application directory:

$ make test-browsers

To view the tests in a local web browser,

$ make view-browser-tests

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License

MIT license.

Copyright

Copyright © 2016. The Compute.io Authors.