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clenshaw_coef.c
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clenshaw_coef.c
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/***********************************************************************
* Copyright (C) 2002,2003,2004,2005,2006,2007,2008 Carsten Urbach
*
* This file is part of tmLQCD.
*
* tmLQCD is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* tmLQCD is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with tmLQCD. If not, see <http://www.gnu.org/licenses/>.
***********************************************************************/
#include <stdlib.h>
#include <stdio.h>
#include <math.h>
#include "phmc.h"
#include "clenshaw_coef.h"
#define Pi 3.141592653589793
extern long double c[3000];
extern double a, b;
long double D[300];
void clenscoef(int M){
long long int j, jmax, k, N2, N, ij, i, imax;
long double s[500][500];
long double l[500][500];
long double sgn;
long double sum;
long double snew, sold, lnew, lold;
long double jj;
long long int j2;
long double A, B, A2, B2;
FILE *coeroot;
char *filename_stub7 = "Cheby_coeff_for_roots_";
char *filename7;
char buf7[100];
FILE *factors;
char *filename_stub9 = "Pre-factors_";
char *filename9;
char buf9[100];
filename7=buf7;
sprintf(filename7,"%s%d.dat", filename_stub7,M);
filename9=buf9;
sprintf(filename9,"%s%d.dat", filename_stub9,M);
coeroot = fopen(filename7,"w");
fprintf(coeroot,"### Chebishev coeff. in ascending order (pow. coef.) \n");
/* fprintf(coeroot,"### power j coeff. \n"); */
fclose(coeroot);
N = (long long int)(M - 1);
N2 = (long long int)(N/2);
A = (long double)(2./(long double)(b-a));
B = (long double)((b+a)/(long double)(b-a));
A2 = (long double)(2*A);
B2 = (long double)(2*B);
/* Initialisation */
for(k=0; k<M; k++){
for(j=0; j<M; j++){
s[k][j] = 0.0;
l[k][j] = 0.0;
}
D[k] = 0.0;
}
factors = fopen(filename9,"w");
fprintf(factors," Val. of s[k][j] and l[k][j] \n");
fprintf(factors," At k = 1 \n");
fclose(factors);
factors = fopen(filename9,"a");
/* Coefficient sequences */
/* First the k = 1 case */
for(j=1; j<M; j++){
jj = (long double)(j);
s[1][j] = (long double)(2*jj - 1);
l[1][j] = (long double)(jj);
/* printf(" At j = %d s = %d \n", j, s[1][j]); */
fprintf(factors," %20.18lle %20.18lle \n", s[1][j], l[1][j]);
}
/* then the remaining k cases */
for(k=2; k<M; k++){
fprintf(factors," At k = %d \n", k);
sold = 0.0;
lold = 0.0;
for(j=1; j<M; j++){
snew = (long double)(sold + s[k-1][j]);
sold = (long double)(snew);
s[k][j] = (long double)(snew);
lnew = (long double)(lold + l[k-1][j]);
lold = (long double)(lnew);
l[k][j] = (long double)(lnew);
fprintf(factors," %20.18lle %20.18lle \n", s[k][j], l[k][j]);
}
}
fclose(factors);
for(j=N2; j>=1; j--){
sgn = -1.0;
j2=2*j;
ij = (long long int)((j+1)/2) - (long long int)(j/2);
/*
printf(" ij=%lld \n", ij);
printf(" j=%lld j2=%lld \n", j, j2);
*/
if(ij == 0) sgn = -sgn;
/*
printf(" sgn=%llf \n", sgn);
printf(" C=%llf \n", c[j2]);
*/
D[0]+= (long double)(c[j2]*sgn);
/*
printf(" D=%llf \n", D[0]);
*/
}
D[0] = (long double)(D[0] + 0.5*c[0]);
/*
printf(" Pre final D=%llf \n", D[0]);
*/
/*
printf(" D0 = %llf \n", D[0]);
*/
/* Evaluate first the coefficient of x^0 */
for(i=1; i<M; i++){
sgn = -1.0;
ij = (long long int)(i/2) - (long long int)((i-1)/2);
if(ij == 0) sgn = -sgn;
sum = 0.0;
jmax = N2 -(long long int)((i-1)/2);
/*
printf(" ij=%lld jmax=%lld \n", ij, jmax);
*/
for(j=1; j<=jmax; j++){
j2 = 2*j + i - 2;
sgn = -sgn;
sum += (long double)(c[j2]*sgn*s[i][j]);
/*
printf(" j=%lld j2=%lld \n", j, j2);
printf(" sgn=%llf \n", sgn);
printf(" C=%llf \n", c[j2]);
printf(" Sum=%llf \n", sum);
*/
}
sum = (long double)(sum*B);
if (i > 1) sum = (long double)(sum*powl(B2,(i-1)));
D[0] = (long double)(sum + D[0]);
/*
printf("At i=%lld Sum=%llf D=%llf D=%20.18lle\n", i, sum, D[0], D[0]);
*/
}
/* Evaluate the Block of coefficients [1, N-1] */
for(k=1; k<N; k++){ /* LOOP over degrees */
/* for(k=1; k<2; k++){ */
imax = N - k + 1;
/* printf(" \n Degree %d Max loop imax=%d \n", k, imax); */
/* for i > 1 LOOP over inner loop */
for(i=1; i<=imax; i++){
sgn = 1.0;
ij = (long long int)(i/2) - (long long int)((i-1)/2);
if(ij == 0) sgn = -sgn;
sum = 0.0;
jmax = (long long int)((N-k+3-i)/2);
/* printf(" \n At i=%d ij=%d jmax=%d \n", i, ij, jmax); */
for(j=1; j<=jmax; j++){
j2 = k + 2*j + i - 3;
sgn = -sgn;
/*
printf("At k=%d i=%d jmax=%d j=%d j2=%d \n", k, i, jmax, j, j2);
*/
sum += (long double)(c[j2]*sgn*s[k+i-1][j]);
/*
printf("s=%d sgn=%llf sum=%llf \n", s[k+i-1][j], sgn, sum);
*/
}
/* printf(" At k=%d and i=%d Value is %d \n", k, i, l[k][i]); */
/* D[k] += sum * l[k][i]; */
/* printf(" At degree %d The value is %12.10e \n", k,D[k]); */
sum = (long double)(sum*l[k][i]*powl(B2,(i-1)));
D[k] = (long double)((sum + D[k]));
/*
printf(" At k=%d i=%d, l=%d sum=%llf D=%llf \n", k,i,l[k][i], sum, D[k]);
*/
}
D[k] = (long double)(D[k]*powl(A2,k)/2);
}
/* And finally the highest degree coefficient k=N */
D[N] = (long double)(powl(A2,(N-1))*A*c[N]);
/* If normalisation is required */
/*
for(k=0; k<M; k++){
D[k] = (long double)(D[k]/D[N]);
}
*/
/* Write all the Clenshaw coefficients in a file */
for(k=0; k<M; k++){
coeroot = fopen(filename7,"a");
fprintf(coeroot," %lld %20.18lle \n", k,D[k]);
fclose(coeroot);
}
}
#undef PI