Difference between revisions of "User:Starrynte/Remez"

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The code is below. Simply change the top part labeled "your settings", and the program does the rest.
 
The code is below. Simply change the top part labeled "your settings", and the program does the rest.
 
(Note: Attempting to do "crazy" approximations (i.e. high degree, low interval) will result in erratic behavior, presumably due to double precision)
 
(Note: Attempting to do "crazy" approximations (i.e. high degree, low interval) will result in erratic behavior, presumably due to double precision)
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<syntaxhighlight>
 
public class Remez {
 
public class Remez {
 
//---YOUR SETTINGS---
 
//---YOUR SETTINGS---
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}
 
}
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</syntaxhighlight>

Latest revision as of 09:38, 1 July 2010

A utility for finding polynomial approximations for a function of your choice.

Current feature(s):

  • Any function of your choice
  • Any degree polynomial of your choice
  • Any interval of your choice (i.e. approximates function over [-1,1] )

Planned feature(s):

  • Rational approximations

How to Use

The code is below. Simply change the top part labeled "your settings", and the program does the rest. (Note: Attempting to do "crazy" approximations (i.e. high degree, low interval) will result in erratic behavior, presumably due to double precision)

public class Remez {
	//---YOUR SETTINGS---
	static double f(double x){ //THE FUNCTION TO BE APPROXIMATED
		return Math.sin(x);
	}
	static final int DEG = 6; //DEGREE OF THE POLYNOMIAL - MUST BE POSITIVE
	static final double lowx = 0d, highx = Math.PI*2; //APPROXIMATES F(X) FROM LOWX TO HIGHX 
	
	
	//---MAIN PROGRAM CODE---
	
	
	static final double RANGE = highx - lowx;
	static final int COLUMNS = DEG + 3;
	static final int ROWS = DEG + 2;
	static final double[] extrema = new double[ROWS];
	static final double[][] matrix = new double[ROWS][COLUMNS];
	
	public static void main(String[] args) {
		for(int i=0;i<ROWS;i++) extrema[i]=0.5 * (-Math.cos(i*Math.PI/(DEG + 1)) + 1) * RANGE + lowx;		
		for(int i=0;i<20;i++) remez();
		for(int i=0;i<DEG;i++) System.out.print(matrix[i][COLUMNS-1] + " + x * (");		
		System.out.print(matrix[DEG][COLUMNS-1]);
		for(int i=0;i<DEG;i++) System.out.print(")");
		System.out.println("\nMax error: " + matrix[ROWS-1][COLUMNS-1]);
	}	
	
	private static void remez(){
		for(int i=0;i<ROWS;i++){			
			for(int j=0;j<DEG+1;j++) matrix[i][j]=Math.pow(extrema[i],j);			
			matrix[i][DEG+1]=(i&1)==0?1d:-1d;
			matrix[i][DEG+2]=f(extrema[i]);
		}
		rref(matrix);
		extrema[0]=lowx;
		int z=1;
		for(double x=lowx+(RANGE/1000);x<=highx && z<(DEG+2);x+=(RANGE/1000)){
			if(deverf(x) * deverf(x-(RANGE/1000)) < 0){
				extrema[z]=extrema(x-(RANGE/1000),x);
				z++;
			}
		}
	}
	
	private static void rref(double[][] m){
		int lead; double factor;
		for(int r=1;r<ROWS;r++){ //starting at second row
			lead=0;
			for(int i=0;i<r;i++,lead++){
				factor=m[r][lead]/m[i][lead];
				for(int c=lead;c<COLUMNS;c++){				
					m[r][c]-=factor*m[i][c];
				}
			}
			for(int c=COLUMNS-1;c>=lead;c--){
				m[r][c]/=m[r][lead];
			}
		}
		for(int r=ROWS-2;r>=0;r--){ //starting at second last row
			lead=COLUMNS-2;
			for(int i=ROWS-1;i>r;i--,lead--){
				factor=m[r][lead];
				for(int c=lead;c<COLUMNS;c++){
					m[r][c]-=factor*m[i][c];
				}
			}
		}
	}
	
	private static double deverf(double x){
		final double h = 0.001 * (1 + Math.abs(x));
		double dev = (f(x+h) - f(x-h))/(2*h);			
		for(int r=1;r<(ROWS-1);r++){ //constant term doesn't affect derivative
			dev -= r * matrix[r][COLUMNS-1] * Math.pow(x,r-1);
		}
		return dev;
	}
	
	private static double extrema(double lbound,double rbound){
		double mid;
		while(Math.abs(rbound-lbound)>0.0000000002){
			if(deverf(lbound)*deverf(mid=(rbound+lbound)*0.5) > 0) lbound=mid;
			else rbound=mid;
		}
		return (lbound+rbound)*0.5;
	}
	
}