@stdlib/math-base-tools-evalrationalf
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evalrationalf

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Evaluate a rational function using single-precision floating-point arithmetic.

A rational function f(x) is defined as

Rational function definition.
-->

where both P(x) and Q(x) are polynomials in x. A polynomial in x can be expressed

where c_n, c_{n-1}, ..., c_0 are constants.

Installation

npm install @stdlib/math-base-tools-evalrationalf

Usage

var evalrationalf = require( '@stdlib/math-base-tools-evalrationalf' );

evalrationalf( P, Q, x )

Evaluates a rational function at a value x using single-precision floating-point arithmetic.

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

var P = new Float32Array( [ -6.0, -5.0 ] );
var Q = new Float32Array( [ 3.0, 0.5 ] );

var v = evalrationalf( P, Q, 6.0 ); // => ( -6*6^0 - 5*6^1 ) / ( 3*6^0 + 0.5*6^1 ) = (-6-30)/(3+3)
// returns -6.0

For polynomials of different degree, the coefficient array for the lower degree polynomial should be padded with zeros.

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

// 2x^3 + 4x^2 - 5x^1 - 6x^0 => degree 4
var P = new Float32Array( [ -6.0, -5.0, 4.0, 2.0 ] );

// 0.5x^1 + 3x^0 => degree 2
var Q = new Float32Array( [ 3.0, 0.5, 0.0, 0.0 ] ); // zero-padded

var v = evalrationalf( P, Q, 6.0 ); // => ( -6*6^0 - 5*6^1 + 4*6^2 + 2*6^3 ) / ( 3*6^0 + 0.5*6^1 + 0*6^2 + 0*6^3 ) = (-6-30+144+432)/(3+3)
// returns ~90.0

Coefficients should be ordered in ascending degree, thus matching summation notation.

evalrationalf.factory( P, Q )

Uses code generation to in-line coefficients and return a function for evaluating a rational function using single-precision floating-point arithmetic.

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

var P = new Float32Array( [ 20.0, 8.0, 3.0 ] );
var Q = new Float32Array( [ 10.0, 9.0, 1.0 ] );

var rational = evalrationalf.factory( P, Q );

var v = rational( 10.0 ); // => (20*10^0 + 8*10^1 + 3*10^2) / (10*10^0 + 9*10^1 + 1*10^2) = (20+80+300)/(10+90+100)
// returns 2.0

v = rational( 2.0 ); // => (20*2^0 + 8*2^1 + 3*2^2) / (10*2^0 + 9*2^1 + 1*2^2) = (20+16+12)/(10+18+4)
// returns 1.5

Notes

  • The coefficients P and Q are expected to be arrays of the same length.
  • For hot code paths in which coefficients are invariant, a compiled function will be more performant than evalrationalf().
  • While code generation can boost performance, its use may be problematic in browser contexts enforcing a strict content security policy (CSP). If running in or targeting an environment with a CSP, avoid using code generation.
## Examples
var discreteUniform = require( '@stdlib/random-array-discrete-uniform' );
var uniform = require( '@stdlib/random-base-uniform' );
var evalrationalf = require( '@stdlib/math-base-tools-evalrationalf' );

// Create two arrays of random coefficients...
var opts = {
    'dtype': 'float32'
};
var P = discreteUniform( 10, -100, 100, opts );
var Q = discreteUniform( 10, -100, 100, opts );

// Evaluate the rational function at random values...
var v;
var i;
for ( i = 0; i < 100; i++ ) {
    v = uniform( 0.0, 100.0 );
    console.log( 'f(%d) = %d', v, evalrationalf( P, Q, v ) );
}

// Generate an `evalrationalf` function...
var rational = evalrationalf.factory( P, Q );
for ( i = 0; i < 100; i++ ) {
    v = uniform( -50.0, 50.0 );
    console.log( 'f(%d) = %d', v, rational( v ) );
}

Notice

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.

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Copyright

Copyright © 2016-2024. The Stdlib Authors.

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