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xsun |
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#include<stdio.h> |
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#include<string.h> |
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#include<stdlib.h> |
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#include<math.h> |
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#include<fftw.h> |
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int main() |
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{ |
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FILE *inFile; |
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char *endptr, s[100000]; |
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double *x, *y, *z; |
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double *mag, *newmag; |
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int *present_in_old; |
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double ux, uy, uz, p1; |
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double sumZ, sumUx, sumUy, sumUz, sumP; |
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double interpsum, value; |
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int ninterp, px, py, newp; |
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int i, j, nsites, nloops, xlat, ylat; |
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int newx, newy, newindex, index; |
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int new_i, new_j, new_index; |
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int N, nframes; |
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FFTW_COMPLEX *in, *out; |
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fftwnd_plan p; |
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inFile = fopen("./dp_file","r"); |
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if (inFile == NULL) { |
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printf("Error opening file\n"); |
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exit(-1); |
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} |
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fgets(s, 500, inFile); |
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nsites = atoi(s); |
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N = 2*nsites; |
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fscanf(inFile,"%s",s); |
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xlat=atoi(s); |
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fscanf(inFile,"%s",s); |
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ylat=atoi(s); |
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//sanity check: |
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if (2*nsites != xlat * ylat) { |
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printf("Lattice Mismatch: nsites = %d, xlat = %d, ylat = %d\n", nsites, xlat, ylat); |
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exit(-1); |
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} |
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rewind(inFile); |
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in = fftw_malloc(sizeof(FFTW_COMPLEX) * N); |
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out = fftw_malloc(sizeof(FFTW_COMPLEX) * N); |
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p = fftw2d_create_plan(xlat, ylat, FFTW_FORWARD, FFTW_ESTIMATE); |
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x = (double *) malloc(sizeof(double) * N); |
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y = (double *) malloc(sizeof(double) * N); |
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z = (double *) malloc(sizeof(double) * N); |
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mag = (double *) malloc(sizeof(double) * N); |
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newmag = (double *) malloc(sizeof(double) * N); |
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present_in_old = (int *) malloc(sizeof(int) * N); |
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for (i=0; i< xlat; i++) { |
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for(j=0; j< ylat; j++) { |
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newindex = i*ylat + j; |
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mag[newindex] = 0.0; |
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newmag[newindex] = 0.0; |
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} |
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} |
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sumZ = 0.0; |
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sumUx = 0.0; |
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sumUy = 0.0; |
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sumUz = 0.0; |
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sumP = 0.0; |
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nloops = 0; |
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nframes = 0; |
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while(!feof(inFile)) |
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{ |
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nframes++; |
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fgets(s, 500, inFile); |
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nsites = atoi(s); |
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fscanf(inFile,"%s",s); |
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xlat=atoi(s); |
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fscanf(inFile,"%s",s); |
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ylat=atoi(s); |
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//sanity check: |
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if (2*nsites != xlat * ylat) { |
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printf("Lattice Mismatch: nsites = %d, xlat = %d, ylat = %d\n", nsites, xlat, ylat); |
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exit(-1); |
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} |
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for (i = 0; i < N; i++ ) { |
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present_in_old[i] = 0; |
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} |
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for (i=0;i<xlat;i=i+2) |
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{ |
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for(j=0;j<ylat;j++) |
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{ |
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newy = j; |
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if ((j % 2) == 0) { |
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newx = i; |
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} else { |
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newx = i + 1; |
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} |
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newindex = newx*ylat + newy; |
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fscanf(inFile,"%s",s); |
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fscanf(inFile,"%s",s); |
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x[newindex]=strtod(s,&endptr); |
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fscanf(inFile,"%s",s); |
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y[newindex]=strtod(s,&endptr); |
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fscanf(inFile,"%s",s); |
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z[newindex] = strtod(s,&endptr); |
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present_in_old[newindex] = 1; |
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// printf("z=%f\t",z[newindex]); |
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fscanf(inFile,"%s",s); |
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fscanf(inFile,"%s",s); |
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ux=strtod(s,&endptr); |
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fscanf(inFile,"%s",s); |
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uy=strtod(s,&endptr); |
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fscanf(inFile,"%s",s); |
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uz=strtod(s,&endptr); |
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// p1 = uz * uz; |
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// sumZ = sumZ + z[i]; |
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// sumUx = sumUx + ux; |
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// sumUy = sumUy + uy; |
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// sumUz = sumUz + uz; |
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// sumP = sumP + p1; |
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nloops += 1; |
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fgets(s, 500, inFile); |
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} |
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} |
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for (i=0; i< xlat; i++) { |
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for(j=0; j< ylat; j++) { |
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newindex = i*ylat + j; |
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if (present_in_old[newindex] == 0) { |
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// interpolate from surrounding points: |
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interpsum = 0.0; |
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ninterp = 0; |
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//point1 = bottom; |
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px = i - 1; |
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py = j; |
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newp = px*ylat + py; |
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if (px >= 0) { |
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interpsum += z[newp]; |
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ninterp++; |
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y[newindex] = y[newp]; |
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} |
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//point2 = top; |
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px = i + 1; |
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py = j; |
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newp = px*ylat + py; |
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if (px < xlat) { |
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interpsum += z[newp]; |
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ninterp++; |
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y[newindex] = y[newp]; |
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} |
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//point3 = left; |
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px = i; |
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py = j - 1; |
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newp = px*ylat + py; |
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if (py >= 0) { |
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interpsum += z[newp]; |
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ninterp++; |
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x[newindex] = x[newp]; |
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} |
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//point4 = right; |
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px = i; |
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py = j + 1; |
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newp = px*ylat + py; |
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if (py < ylat) { |
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interpsum += z[newp]; |
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ninterp++; |
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x[newindex] = x[newp]; |
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} |
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value = interpsum / (double)ninterp; |
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z[newindex] = value; |
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} |
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} |
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} |
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for (i=0; i < xlat; i++) { |
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for (j=0; j < ylat; j++) { |
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newindex = i*ylat + j; |
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c_re(in[newindex]) = z[newindex]; |
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c_im(in[newindex]) = 0.0; |
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} |
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} |
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fftwnd(p, 1, in, 1, 0, out, 1, 0); |
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for (i=0; i< xlat; i++) { |
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for(j=0; j< ylat; j++) { |
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newindex = i*ylat + j; |
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mag[newindex] += sqrt(pow(c_re(out[newindex]),2) + pow(c_im(out[newindex]),2)); |
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} |
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} |
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} |
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for (i=0; i< (xlat/2); i++) { |
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for(j=0; j< (ylat/2); j++) { |
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index = i*ylat + j; |
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new_i = i + (xlat/2); |
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new_j = j + (ylat/2); |
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new_index = new_i*ylat + new_j; |
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newmag[new_index] = mag[index]; |
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} |
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} |
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for (i=(xlat/2); i< xlat; i++) { |
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for(j=0; j< (ylat/2); j++) { |
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index = i*ylat + j; |
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new_i = i - (xlat/2); |
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new_j = j + (ylat/2); |
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new_index = new_i*ylat + new_j; |
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newmag[new_index] = mag[index]; |
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} |
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} |
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for (i=0; i< (xlat/2); i++) { |
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for(j=(ylat/2); j< ylat; j++) { |
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index = i*ylat + j; |
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new_i = i + (xlat/2); |
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new_j = j - (ylat/2); |
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new_index = new_i*ylat + new_j; |
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newmag[new_index] = mag[index]; |
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} |
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} |
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for (i=(xlat/2); i< xlat; i++) { |
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for(j=(ylat/2); j< ylat; j++) { |
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index = i*ylat + j; |
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new_i = i - (xlat/2); |
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new_j = j - (ylat/2); |
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new_index = new_i*ylat + new_j; |
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newmag[new_index] = mag[index]; |
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} |
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} |
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for (i=0; i< xlat; i++) { |
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for(j=0; j< ylat; j++) { |
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newindex = i*ylat + j; |
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printf("%lf\t", newmag[newindex]/(double)nframes); |
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} |
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printf("\n"); |
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} |
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free(x); |
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free(y); |
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free(z); |
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free(mag); |
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free(newmag); |
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free(present_in_old); |
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fftwnd_destroy_plan(p); |
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fftw_free(in); |
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fftw_free(out); |
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return(0); |
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} |
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/* } */ |
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/* for(i=0;i<120;i++) printf("%f\t%f\n", c_re(out[i]), c_im(out[i])); */ |
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/* fftw_destroy_plan(p); */ |
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/* fftw_free(in); */ |
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/* fftw_free(out); */ |
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/* averZ = sumZ / (double)nloops; */ |
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/* averUx = sumUx / (double)nloops; */ |
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/* averUy = sumUy / (double)nloops; */ |
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/* averUz = sumUz / (double)nloops; */ |
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/* averP = 1.5*sumP / (double)nloops-0.5; */ |
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/* averTheta = acos(averUz); */ |
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/* printf("nloops=%d\n",nloops); */ |
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/* printf("sumZ=%f\n",sumZ); */ |
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/* printf("average height is : %f\n",averZ); */ |
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/* printf("average ux is : %f\n",averUx); */ |
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/* printf("average uy is : %f\n",averUy); */ |
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/* printf("average uz is : %f\n",averUz); */ |
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/* printf("average angle is : %f\n",averTheta); */ |
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/* printf("average p is : %f\n",averP); */ |
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/* fclose(inFile); */ |
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/* return 0; */ |
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/* } */ |