detectors/python_cluster_reader
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fixing merging problems

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This commit is contained in:
bergamaschi 2023-10-23 18:44:28 +02:00
parent 9bae601e95
commit f2691e6f28
3 changed files with 8 additions and 145 deletions
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2
examples/cluster_example.py
View File

@ -17,7 +17,7 @@ emax=30
ecutmin=8
ecutmax=12
etabins=251
csize=3
csize=2
gain=150
nbins=100
indmin=1

1
src/ClusterReader.c
View File

@ -95,7 +95,6 @@ static PyObject *ClusterFileReader_read(ClusterFileReader *self,
npy_intp dims[] = {size};
// If possible numpy will
>>>>>>> e1f22fd014eb86d40e0ecb78bd65cb7a9bef71bc
// use the underlying buffer, otherwise it will create a copy, for example
// if data type is different or we pass in a list. The
// NPY_ARRAY_C_CONTIGUOUS flag ensures that we have contiguous memory.

148
src/cluster_reader.c
View File

@ -58,34 +58,6 @@ int read_clusters_with_cut(FILE *fp, int64_t n_clusters, Cluster *buf,
double noise;
// read photons left from previous frame
if (nph) {
<<<<<<< HEAD
for (int iph=0; iph<nph; iph++) {
// read photons 1 by 1
fread((void *)(ptr), sizeof(Cluster), 1, fp);
good=1;
if (noise_map) {
if (ptr->x>=0 && ptr->x<nx && ptr->y>=0 && ptr->y<ny) {
tot1=ptr->data[4];
analyze_cluster(*ptr, &t2max, &tot3, NULL, NULL, NULL, NULL, NULL);
noise=noise_map[ptr->y*nx+ptr->x];
if (tot1>noise && t2max>2*noise && tot3>3*noise) {
;
} else
good=0;
} else {
printf("Bad pixel number %d %d\n",ptr->x,ptr->y);
good=0;
}
}
if (good) {
ptr++;
nph_read++;
(*n_left)--;
}
if (nph_read >= n_clusters)
break;
}
=======
for (int iph = 0; iph < nph; iph++) {
// read photons 1 by 1
fread((void *)(ptr), sizeof(Cluster), 1, fp);
@ -94,7 +66,7 @@ int read_clusters_with_cut(FILE *fp, int64_t n_clusters, Cluster *buf,
if (ptr->x >= 0 && ptr->x < nx && ptr->y >= 0 && ptr->y < ny) {
tot1 = ptr->data[4];
analyze_cluster(*ptr, &t2max, &tot3, NULL, NULL, NULL, NULL,
NULL, NULL, NULL, NULL, NULL);
NULL);
noise = noise_map[ptr->y * nx + ptr->x];
if (tot1 > noise && t2max > 2 * noise && tot3 > 3 * noise) {
;
@ -113,13 +85,11 @@ int read_clusters_with_cut(FILE *fp, int64_t n_clusters, Cluster *buf,
if (nph_read >= n_clusters)
break;
}
>>>>>>> e1f22fd014eb86d40e0ecb78bd65cb7a9bef71bc
}
if (nph_read < n_clusters) {
// keep on reading frames and photons until reaching n_clusters
while (fread(&iframe, sizeof(iframe), 1, fp)) {
<<<<<<< HEAD
//printf("%d\n",nph_read);
if (fread(&nph, sizeof(nph), 1, fp)) {
@ -157,55 +127,12 @@ int read_clusters_with_cut(FILE *fp, int64_t n_clusters, Cluster *buf,
if (nph_read >= n_clusters)
break;
}
=======
// printf("%d\n",nph_read);
if (fread(&nph, sizeof(nph), 1, fp)) {
// printf("** %d\n",nph);
*n_left = nph;
for (int iph = 0; iph < nph; iph++) {
// read photons 1 by 1
fread((void *)(ptr), sizeof(Cluster), 1, fp);
good = 1;
if (noise_map) {
if (ptr->x >= 0 && ptr->x < nx && ptr->y >= 0 &&
ptr->y < ny) {
tot1 = ptr->data[4];
analyze_cluster(*ptr, &t2max, &tot3, NULL, NULL,
NULL, NULL, NULL, NULL, NULL, NULL,
NULL);
noise = noise_map[ptr->y * nx + ptr->x];
if (tot1 > noise && t2max > 2 * noise &&
tot3 > 3 * noise) {
;
} else
good = 0;
} else {
printf("Bad pixel number %d %d\n", ptr->x, ptr->y);
good = 0;
}
}
if (good) {
ptr++;
nph_read++;
(*n_left)--;
}
if (nph_read >= n_clusters)
break;
}
}
if (nph_read >= n_clusters)
break;
}
>>>>>>> e1f22fd014eb86d40e0ecb78bd65cb7a9bef71bc
}
// printf("%d\n",nph_read);
assert(nph_read <= n_clusters); // sanity check in debug mode
return nph_read;
}
<<<<<<< HEAD
@ -213,9 +140,6 @@ int read_clusters_with_cut(FILE *fp, int64_t n_clusters, Cluster *buf,
int analyze_clusters(int64_t n_clusters, int32_t *cin, ClusterAnalysis *co, int csize) {
=======
int analyze_clusters(int64_t n_clusters, Cluster *cin, ClusterAnalysis *cout) {
>>>>>>> e1f22fd014eb86d40e0ecb78bd65cb7a9bef71bc
int32_t tot2[4], t2max;
char quad;
@ -225,8 +149,6 @@ int analyze_clusters(int64_t n_clusters, Cluster *cin, ClusterAnalysis *cout) {
//printf("csize is %d\n",csize);
int ret;
for (int ic = 0; ic < n_clusters; ic++) {
<<<<<<< HEAD
switch (csize) {
case 2:
ret=analyze_data((cin+9*ic), &tot, NULL, &quad, &etax,&etay, NULL, NULL);
@ -248,22 +170,11 @@ int analyze_clusters(int64_t n_clusters, Cluster *cin, ClusterAnalysis *cout) {
/* if (tot<=0) */
/* printf("%d %d %d %d %d %d\n",ic,(cin+ic)->x, (cin+ic)->y, */
/* (cout+ic)->c, (cout+ic)->tot2, (cout+ic)->tot3); */
=======
analyze_cluster(*(cin + ic), &t2max, &tot3, &quad, NULL, NULL, NULL,
NULL, NULL, NULL, NULL, NULL);
(cout + ic)->c = quad;
(cout + ic)->tot2 = t2max;
(cout + ic)->tot3 = tot3;
// printf("%d %d %d %d %d %d\n",ic,(cin+ic)->x, (cin+ic)->y,
// (cout+ic)->c, (cout+ic)->tot2, (cout+ic)->tot3);
>>>>>>> e1f22fd014eb86d40e0ecb78bd65cb7a9bef71bc
}
return nc;
}
<<<<<<< HEAD
int analyze_cluster(Cluster cl, int32_t *t2, int32_t *t3, char *quad, double *eta2x, double *eta2y, double *eta3x, double *eta3y) {
return analyze_data(cl.data, t2, t3, quad, eta2x, eta2y, eta3x, eta3y);
@ -274,14 +185,6 @@ int analyze_data(int32_t *data, int32_t *t2, int32_t *t3, char *quad, double *et
int ok=1;
=======
int analyze_cluster(Cluster cin, int32_t *t2, int32_t *t3, char *quad,
double *eta2x, double *eta2y, double *eta3x, double *eta3y,
double *eta2Lx, double *eta2Ly, double *eta3Xx,
double *eta3Xy) {
int ok = 1;
>>>>>>> e1f22fd014eb86d40e0ecb78bd65cb7a9bef71bc
int32_t tot2[4], t2max;
char c;
@ -292,7 +195,7 @@ int analyze_cluster(Cluster cin, int32_t *t2, int32_t *t3, char *quad,
tot2[i] = 0;
// t2max=0;
for (int ix = 0; ix < 3; ix++) {
<<<<<<< HEAD
for (int iy = 0; iy < 3; iy++) {
val = data[iy * 3 + ix];
// printf ("%d ",data[iy * 3 + ix]);
@ -307,34 +210,12 @@ int analyze_cluster(Cluster cin, int32_t *t2, int32_t *t3, char *quad,
tot2[cTopRight] += val;
}
// printf ("\n");
=======
for (int iy = 0; iy < 3; iy++) {
val = cin.data[iy * 3 + ix];
tot3 += val;
if (ix <= 1 && iy <= 1)
tot2[0] += val;
if (ix >= 1 && iy <= 1)
tot2[1] += val;
if (ix <= 1 && iy >= 1)
tot2[2] += val;
if (ix >= 1 && iy >= 1)
tot2[3] += val;
}
>>>>>>> e1f22fd014eb86d40e0ecb78bd65cb7a9bef71bc
}
//printf ("\n");
if (t2 || quad) {
<<<<<<< HEAD
t2max = -1000;
c = 0;
for (int i = 0; i < 4; i++) {
if (tot2[i] > t2max) {
t2max = tot2[i];
c = i;
}
}
=======
t2max = tot2[0];
c = cBottomLeft;
for (int i = 1; i < 4; i++) {
@ -343,14 +224,13 @@ int analyze_cluster(Cluster cin, int32_t *t2, int32_t *t3, char *quad,
c = i;
}
}
>>>>>>> e1f22fd014eb86d40e0ecb78bd65cb7a9bef71bc
}
if (quad)
*quad = c;
if (t2)
*t2 = t2max;
}
if (t3)
<<<<<<< HEAD
*t3 = tot3;
if (eta2x || eta2y) {
@ -395,22 +275,6 @@ int analyze_cluster(Cluster cin, int32_t *t2, int32_t *t3, char *quad,
*eta3y=(double)(-data[1]+data[2*3+1])/(data[1]+data[4]+data[7]);
}
/* if (tot3<=0) { */
/* printf("*"); // t2max=0; */
/* for (int ix = 0; ix < 3; ix++) { */
/* for (int iy = 0; iy < 3; iy++) { */
/* printf ("%d ",data[iy * 3 + ix]); */
/* } */
/* printf ("\n"); */
/* } */
/* printf ("\n"); */
/* //return 0; */
/* } */
=======
*t3 = tot3;
>>>>>>> e1f22fd014eb86d40e0ecb78bd65cb7a9bef71bc
return ok;
}