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time-to-botec/js/node_modules/@stdlib/math/base/special/cfloorn
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NunoSempere b6addc7f05 feat: add the node modules 
Necessary in order to clearly see the squiggle hotwiring.
2022-12-03 12:44:49 +00:00
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docs feat: add the node modules 2022-12-03 12:44:49 +00:00
lib feat: add the node modules 2022-12-03 12:44:49 +00:00
package.json feat: add the node modules 2022-12-03 12:44:49 +00:00
README.md feat: add the node modules 2022-12-03 12:44:49 +00:00

README.md

floorn

Round a complex number to the nearest multiple of 10^n toward negative infinity.

Usage

var cfloorn = require( '@stdlib/math/base/special/cfloorn' );

cfloorn( [out,] re, im, n )

Rounds a complex number comprised of a real component re and an imaginary component im to the nearest multiple of 10^n toward negative infinity.

// Round components to 2 decimal places:
var v = cfloorn( -3.141592653589793, 3.141592653589793, -2 );
// returns [ -3.15, 3.14 ]

// If n = 0, `cfloorn` behaves like `cfloor`:
v = cfloorn( -3.141592653589793, 3.141592653589793, 0 );
// returns [ -4.0, 3.0 ]

// Round components to the nearest thousand:
v = cfloorn( -12368.0, 12368.0, 3 );
// returns [ -13000.0, 12000.0 ]

v = cfloorn( NaN, NaN, 0 );
// returns [ NaN, NaN ]

By default, the function returns real and imaginary components as a two-element array. To avoid unnecessary memory allocation, the function supports providing an output (destination) object.

var Float32Array = require( '@stdlib/array/float32' );

var out = new Float32Array( 2 );

var v = cfloorn( out, -4.2, 5.5, 0 );
// returns <Float32Array>[ -5.0, 5.0 ]

var bool = ( v === out );
// returns true

Notes

  • When operating on floating-point numbers in bases other than 2, rounding to specified digits can be inexact. For example,

    var x = -0.2 - 0.1;
// returns -0.30000000000000004

// Should round components to 0.3:
var v = cfloorn( x, x, -16 );
// returns [ -0.3000000000000001, -0.3000000000000001 ]

Examples

var Complex128 = require( '@stdlib/complex/float64' );
var randu = require( '@stdlib/random/base/randu' );
var ceil = require( '@stdlib/math/base/special/ceil' );
var real = require( '@stdlib/complex/real' );
var imag = require( '@stdlib/complex/imag' );
var cfloorn = require( '@stdlib/math/base/special/cfloorn' );

var re;
var im;
var z;
var o;
var w;
var n;
var i;

for ( i = 0; i < 100; i++ ) {
    re = ( randu()*100.0 ) - 50.0;
    im = ( randu()*100.0 ) - 50.0;
    z = new Complex128( re, im );

    n = ceil( randu()*5.0 );
    o = cfloorn( real(z), imag(z), -n );
    w = new Complex128( o[ 0 ], o[ 1 ] );

    console.log( 'floorn(%s,%s) = %s', z.toString(), n.toString(), w.toString() );
}