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@stdlib/complex-float32-conj
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Return the complex conjugate of a single-precision complex floating-point number.
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Return the complex conjugate of a single-precision complex floating-point number.
npm install @stdlib/complex-float32-conj
var conj = require( '@stdlib/complex-float32-conj' );
Returns the complex conjugate of a single-precision complex floating-point number.
var Complex64 = require( '@stdlib/complex-float32-ctor' );
var z = new Complex64( 5.0, 3.0 );
var str = z.toString();
// returns '5 + 3i'
var v = conj( z );
str = v.toString();
// returns '5 - 3i'
var Complex64 = require( '@stdlib/complex-float32-ctor' );
var discreteUniform = require( '@stdlib/random-base-discrete-uniform' );
var filledarrayBy = require( '@stdlib/array-filled-by' );
var conj = require( '@stdlib/complex-float32-conj' );
function random() {
return new Complex64( discreteUniform( -10, 10 ), discreteUniform( -10, 10 ) );
}
// Generate an array of random complex numbers:
var x = filledarrayBy( 100, 'complex64', random );
// returns <Complex64Array>
// Compute the complex conjugate of each complex number...
var z;
var i;
for ( i = 0; i < 100; i++ ) {
z = x.get( i );
console.log( 'conj(%s) = %s', z.toString(), conj( z ).toString() );
}
#include "stdlib/complex/float32/conj.h"
Returns the complex conjugate of a single-precision complex floating-point number.
#include "stdlib/complex/float32/ctor.h"
#include "stdlib/complex/float32/real.h"
#include "stdlib/complex/float32/imag.h"
stdlib_complex64_t z = stdlib_complex64( 5.0f, 2.0f );
// ...
stdlib_complex64_t v = stdlib_complex64_conj( z );
float re = stdlib_complex64_real( v );
// returns 5.0f
float im = stdlib_complex64_imag( v );
// returns -2.0f
The function accepts the following arguments:
[in] stdlib_complex64_t
single-precision complex floating-point number.stdlib_complex64_t stdlib_complex64_conj( const stdlib_complex64_t z );
#include "stdlib/complex/float32/conj.h"
#include "stdlib/complex/float32/real.h"
#include "stdlib/complex/float32/imag.h"
#include "stdlib/complex/float32/ctor.h"
#include <stdio.h>
int main( void ) {
const stdlib_complex64_t x[] = {
stdlib_complex64( 5.0f, 2.0f ),
stdlib_complex64( -2.0f, 1.0f ),
stdlib_complex64( 0.0f, -0.0f ),
stdlib_complex64( 0.0f/0.0f, 0.0f/0.0f )
};
stdlib_complex64_t z;
stdlib_complex64_t v;
int i;
for ( i = 0; i < 4; i++ ) {
z = x[ i ];
v = stdlib_complex64_conj( z );
printf( "conj(%f + %fi) = %f + %fi\n", stdlib_complex64_real( z ), stdlib_complex64_imag( z ), stdlib_complex64_real( v ), stdlib_complex64_imag( v ) );
}
}
@stdlib/complex-float64/conj
: return the complex conjugate of a double-precision complex floating-point number.@stdlib/complex-float32/imag
: return the imaginary component of a single-precision complex floating-point number.@stdlib/complex-float32/real
: return the real component of a single-precision complex floating-point number.@stdlib/complex-float32/reim
: return the real and imaginary components of a single-precision complex floating-point number.This package is part of stdlib, a standard library for JavaScript and Node.js, with an emphasis on numerical and scientific computing. The library provides a collection of robust, high performance libraries for mathematics, statistics, streams, utilities, and more.
For more information on the project, filing bug reports and feature requests, and guidance on how to develop stdlib, see the main project repository.
See LICENSE.
Copyright © 2016-2024. The Stdlib Authors.
FAQs
Return the complex conjugate of a single-precision complex floating-point number.
The npm package @stdlib/complex-float32-conj receives a total of 34 weekly downloads. As such, @stdlib/complex-float32-conj popularity was classified as not popular.
We found that @stdlib/complex-float32-conj demonstrated a healthy version release cadence and project activity because the last version was released less than a year ago. It has 0 open source maintainers collaborating on the project.
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