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/*******************************************************************************
*
* McStas, neutron ray-tracing package
* Copyright 1997-2002, All rights reserved
* Risoe National Laboratory, Roskilde, Denmark
* Institut Laue Langevin, Grenoble, France
*
* %I
* Written by: Kim Lefmann, Peter Willendrup, Linda Udby
* Date: May 7, 2001
* Origin: Risoe
*
* Rectangular 1D PSD, measuring intensity vs. horizontal position, x
* A second monitor shows the difference of intensities between in n'th and (n-1)'th pixels.
* %D
*
* Example: PSDlin_diff_monitor(nx=20, filename="Output.x",
* xmin=-0.1, xmax=0.1, ymin=-0.1, ymax=0.1)
*
* %P
* INPUT PARAMETERS:
*
* xmin: [m] Lower x bound of detector opening
* xmax: [m] Upper x bound of detector opening
* ymin: [m] Lower y bound of detector opening
* ymax: [m] Upper y bound of detector opening
* xwidth: [m] Width of detector. Overrides xmin,xmax.
* yheight: [m] Height of detector. Overrides ymin,ymax.
* nx: [1] Number of x bins
* filename: [string] Name of file in which to store the detector image
* restore_neutron: [1] If set, the monitor does not influence the neutron state
* nowritefile: [1] If set, monitor will skip writing to disk
*
* CALCULATED PARAMETERS:
*
* PSDlin_diff_N: Array of neutron counts
* PSDlin_diff_p: Array of neutron weight counts
* PSDlin_diff_p2: Array of second moments
*
* %E
******************************************************************************/
DEFINE COMPONENT PSDlin_diff_monitor
SETTING PARAMETERS (int nx=20, string filename=0, xmin=-0.05, xmax=0.05, ymin=-0.05, ymax=0.05, int nowritefile=0,
xwidth=0, yheight=0, int restore_neutron=0)
/* Neutron parameters: (x,y,z,vx,vy,vz,t,sx,sy,sz,p) */
DECLARE
%{
DArray1d PSDlin_N;
DArray1d PSDlin_p;
DArray1d PSDlin_p2;
DArray1d PSDdiff_N;
DArray1d PSDdiff_p;
DArray1d PSDdiff_p2;
char difilename[128];
%}
INITIALIZE
%{
if (xwidth > 0) { xmax = xwidth/2; xmin = -xmax; }
if (yheight > 0) { ymax = yheight/2; ymin = -ymax; }
if ((xmin >= xmax) || (ymin >= ymax)) {
printf("PSDlin_monitor: %s: Null detection area !\n"
"ERROR (xwidth,yheight,xmin,xmax,ymin,ymax). Exiting",
NAME_CURRENT_COMP);
exit(0);
}
PSDlin_N = create_darr1d(nx);
PSDlin_p = create_darr1d(nx);
PSDlin_p2 = create_darr1d(nx);
PSDdiff_N = create_darr1d(nx-1);
PSDdiff_p = create_darr1d(nx-1);
PSDdiff_p2 = create_darr1d(nx-1);
// Use instance name for monitor output if no input was given
if (!strcmp(filename,"\0")) sprintf(filename,"%s",NAME_CURRENT_COMP);
sprintf(difilename,"%s_diff",filename);
%}
TRACE
%{
int i;
PROP_Z0;
if (x>xmin && x<xmax && y>ymin && y<ymax)
{
i = floor(nx*(x-xmin)/(xmax-xmin)); /* Bin number */
double p2 = p*p;
#pragma acc atomic
PSDlin_N[i] = PSDlin_N[i]+1;
#pragma acc atomic
PSDlin_p[i] = PSDlin_p[i]+p;
#pragma acc atomic
PSDlin_p2[i] = PSDlin_p2[i]+p2;
}
if (restore_neutron) {
RESTORE_NEUTRON(INDEX_CURRENT_COMP, x, y, z, vx, vy, vz, t, sx, sy, sz, p);
}
%}
SAVE
%{
int i;
if (!nowritefile) {
double mean;
for (i=0; i<nx-1; i++) {
PSDdiff_N[i] = PSDlin_N[i]+PSDlin_N[i+1];
PSDdiff_p[i] = fabs(PSDlin_p[i+1]-PSDlin_p[i]);
PSDdiff_p2[i] = (PSDlin_p2[i+1]+PSDlin_p2[i])/2;
mean +=PSDdiff_p[i];
}
mean /= nx-1;
for (i=0; i<nx-1; i++) {
if (PSDdiff_p[i] < mean) {
PSDdiff_p[i]=0;
PSDdiff_p2[i]=0;
}
}
DETECTOR_OUT_1D(
"Linear PSD monitor",
"x-Position [m]",
"Intensity",
"x", xmin, xmax, nx,
&PSDlin_N[0],&PSDlin_p[0],&PSDlin_p2[0],
filename);
DETECTOR_OUT_1D(
"Linear PSD monitor difference",
"x-Position, difference [m]",
"Intensity difference",
"x", xmin, xmax, nx-1,
&PSDdiff_N[0],&PSDdiff_p[0],&PSDdiff_p2[0],
difilename);
}
%}
FINALLY
%{
destroy_darr1d(PSDlin_N);
destroy_darr1d(PSDlin_p);
destroy_darr1d(PSDlin_p2);
destroy_darr1d(PSDdiff_N);
destroy_darr1d(PSDdiff_p);
destroy_darr1d(PSDdiff_p2);
%}
MCDISPLAY
%{
multiline(5, (double)xmin, (double)ymin, 0.0,
(double)xmax, (double)ymin, 0.0,
(double)xmax, (double)ymax, 0.0,
(double)xmin, (double)ymax, 0.0,
(double)xmin, (double)ymin, 0.0);
%}
END
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