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/*
* rejection.c
*
* Crystal rejection for scaling
*
* Copyright © 2012-2018 Deutsches Elektronen-Synchrotron DESY,
* a research centre of the Helmholtz Association.
*
* Authors:
* 2010-2018 Thomas White <taw@physics.org>
*
* This file is part of CrystFEL.
*
* CrystFEL 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.
*
* CrystFEL 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 CrystFEL. If not, see <http://www.gnu.org/licenses/>.
*
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <stdlib.h>
#include <assert.h>
#include <gsl/gsl_statistics.h>
#include "crystal.h"
#include "reflist.h"
#include "rejection.h"
#include "cell-utils.h"
#include "post-refinement.h"
#include "merge.h"
static double mean_intensity(RefList *list)
{
Reflection *refl;
RefListIterator *iter;
double total = 0.0;
int n = 0;
for ( refl = first_refl(list, &iter);
refl != NULL;
refl = next_refl(refl, iter) )
{
total += get_intensity(refl);
n++;
}
return total/n;
}
/* Reject really obvious outliers */
void early_rejection(Crystal **crystals, int n)
{
int i;
double m = 0.0;
double mean_m;
FILE *fh = fopen("reject.dat", "w");
int n_flag = 0;
for ( i=0; i<n; i++ ) {
double u;
RefList *list = crystal_get_reflections(crystals[i]);
u = mean_intensity(list);
m += u;
fprintf(fh, "%i %f\n", i, u);
}
mean_m = m/n;
for ( i=0; i<n; i++ ) {
double u;
RefList *list = crystal_get_reflections(crystals[i]);
u = mean_intensity(list);
if ( u/mean_m < 0.2 ) {
crystal_set_user_flag(crystals[i], 5);
n_flag++;
}
}
fclose(fh);
STATUS("Mean intensity/peak = %f ADU\n", m/n);
STATUS("%i crystals flagged\n", n_flag);
}
static int calculate_refl_mean_var(RefList *full)
{
Reflection *refl;
RefListIterator *iter;
signed int oh = 0;
signed int ok = 0;
signed int ol = 0;
/* Iterate over all reflections */
for ( refl = first_refl(full, &iter);
refl != NULL;
refl = next_refl(refl, iter) )
{
struct reflection_contributions *c;
int j;
signed int h, k, l;
double res;
double K;
double Ex = 0.0;
double Ex2 = 0.0;
get_indices(refl, &h, &k, &l);
/* next_refl() will iterate over multiple copies of the same
* unique reflection, but we are only interested in seeing each
* unique reflection once. */
if ( (h==oh) && (k==ok) && (l==ol) ) continue;
oh = h; ok = k; ol = l;
/* We use the mean (merged) intensity as the reference point
* for shifting the data in the variance calculation */
K = get_intensity(refl);
c = get_contributions(refl);
if ( c == NULL ) return 1;
/* Calculate the resolution just once, using the cell from the
* first crystal to contribute, otherwise it takes too long */
res = resolution(crystal_get_cell(c->contrib_crystals[0]),
h, k, l);
/* Mean of contributions */
for ( j=0; j<c->n_contrib; j++ ) {
double Ii, G, B;
G = crystal_get_osf(c->contrib_crystals[j]);
B = crystal_get_Bfac(c->contrib_crystals[j]);
Ii = correct_reflection(c->contribs[j], G, B, res);
Ex += Ii - K;
Ex2 += (Ii - K) * (Ii - K);
}
if ( c->n_contrib < 2 ) continue;
set_temp1(refl, Ex);
set_temp2(refl, Ex2);
}
return 0;
}
static double calculate_cchalf(RefList *template, RefList *full,
Crystal *exclude, int *pnref)
{
Reflection *trefl;
RefListIterator *iter;
double sig2E, sig2Y;
int n = 0;
double wSum = 0.0;
double wSum2 = 0.0;
double mean = 0.0;
double S = 0.0;
double all_sum_var = 0.0;
signed int oh = 0;
signed int ok = 0;
signed int ol = 0;
/* "template" is the list of reflections to be included in CChalf */
for ( trefl = first_refl(template, &iter);
trefl != NULL;
trefl = next_refl(trefl, iter) )
{
signed int h, k, l;
double refl_mean, refl_var;
double Ex, Ex2, K;
int n_removed = 0;
double w = 1.0;
double meanOld;
double res;
struct reflection_contributions *c;
Reflection *refl;
Reflection *exrefl;
/* The values we need are stored in the "full" list, not the
* template list */
get_indices(trefl, &h, &k, &l);
if ( (h==oh) && (k==ok) && (l==ol) ) continue;
oh = h; ok = k; ol = l;
refl = find_refl(full, h, k, l);
if ( refl == NULL ) continue; /* However, there might not have
* been enough measurements for
* it to appear in "full" */
/* We use the mean (merged) intensity as the reference point
* for shifting the data in the variance calculation */
K = get_intensity(refl);
Ex = get_temp1(refl);
Ex2 = get_temp2(refl);
c = get_contributions(refl);
assert(c != NULL);
/* Resolution from first contributing crystal, like above */
res = resolution(crystal_get_cell(c->contrib_crystals[0]),
h, k, l);
/* Remove contribution(s) from the excluded crystal.
* If the crystal is marked as bad, we should not remove it
* because it did not contribute in the first place. */
if ( exclude != NULL && !crystal_get_user_flag(exclude) ) {
exrefl = find_refl(crystal_get_reflections(exclude), h, k, l);
} else {
exrefl = NULL;
}
while ( exrefl != NULL ) {
double G, B;
G = crystal_get_osf(exclude);
B = crystal_get_Bfac(exclude);
if ( get_partiality(exrefl) > MIN_PART_MERGE ) {
double Ii = correct_reflection(exrefl, G, B, res);
/* Remove contribution of this reflection */
Ex -= Ii - K;
Ex2 -= (Ii - K)*(Ii - K);
n_removed++;
}
exrefl = next_found_refl(exrefl);
}
if ( c->n_contrib - n_removed < 2 ) continue;
refl_mean = K + (Ex / (c->n_contrib - n_removed));
refl_var = (Ex2 - (Ex*Ex)/(c->n_contrib - n_removed)) / (c->n_contrib - n_removed - 1);
refl_var /= (c->n_contrib - n_removed) / 2.0;
all_sum_var += refl_var;
n++;
/* Running variance calculation to get sig2Y */
wSum += w;
wSum2 += w*w;
meanOld = mean;
mean = meanOld + (w/wSum) * (refl_mean - meanOld);
S += w * (refl_mean - meanOld) * (refl_mean - mean);
}
sig2E = all_sum_var / n;
sig2Y = S / (wSum - 1.0);
if ( pnref != NULL ) {
*pnref = n;
}
return (sig2Y - 0.5*sig2E) / (sig2Y + 0.5*sig2E);
}
static void check_deltacchalf(Crystal **crystals, int n, RefList *full)
{
double cchalf;
int i;
double *vals;
double mean, sd;
int nref = 0;
int nnan = 0;
int nnon = 0;
if ( calculate_refl_mean_var(full) ) {
STATUS("No reflection contributions for deltaCChalf "
"calculation (using reference reflections?)\n");
return;
}
cchalf = calculate_cchalf(full, full, NULL, &nref);
STATUS("Overall CChalf = %f %% (%i reflections)\n", cchalf*100.0, nref);
vals = malloc(n*sizeof(double));
if ( vals == NULL ) {
ERROR("Not enough memory for deltaCChalf check\n");
return;
}
for ( i=0; i<n; i++ ) {
double cchalf, cchalfi;
RefList *template = crystal_get_reflections(crystals[i]);
cchalf = calculate_cchalf(template, full, NULL, &nref);
cchalfi = calculate_cchalf(template, full, crystals[i], &nref);
//STATUS("Frame %i:", i);
//STATUS(" With = %f ", cchalf*100.0);
//STATUS("Without = %f", cchalfi*100.0);
//STATUS(" Delta = %f ", (cchalf - cchalfi)*100.0);
//STATUS("(nref = %i)\n", nref);
if ( nref == 0 ) {
vals[i] = 0.0;
nnon++;
} else {
vals[i] = cchalf - cchalfi;
if ( isnan(vals[i]) || isinf(vals[i]) ) {
vals[i] = 0.0;
nnan++;
}
}
progress_bar(i, n-1, "Calculating deltaCChalf");
}
if ( nnon > 0 ) {
STATUS("WARNING: %i patterns had no reflections in deltaCChalf "
"calculation (I set deltaCChalf=zero for them)\n", nnon);
}
if ( nnan > 0 ) {
STATUS("WARNING: %i NaN or inf deltaCChalf values were "
"replaced with zero\n", nnan);
}
mean = gsl_stats_mean(vals, 1, n);
sd = gsl_stats_sd_m(vals, 1, n, mean);
STATUS("deltaCChalf = %f ± %f %%\n", mean*100.0, sd*100.0);
for ( i=0; i<n; i++ ) {
if ( isnan(vals[i]) || isinf(vals[i])
|| ((vals[i]<0.0) && (vals[i] < mean-2.0*sd)) )
{
crystal_set_user_flag(crystals[i], PRFLAG_DELTACCHALF);
}
}
free(vals);
}
static void show_duds(Crystal **crystals, int n_crystals)
{
int j;
int bads[32];
int any_bad = 0;
for ( j=0; j<32; j++ ) bads[j] = 0;
for ( j=0; j<n_crystals; j++ ) {
int flag;
flag = crystal_get_user_flag(crystals[j]);
assert(flag < 32);
bads[flag]++;
if ( flag != PRFLAG_OK ) any_bad++;
}
if ( any_bad ) {
STATUS("%i bad crystals:\n", any_bad);
for ( j=0; j<32; j++ ) {
if ( bads[j] ) {
STATUS(" %i %s\n", bads[j], str_prflag(j));
}
}
}
}
void check_rejection(Crystal **crystals, int n, RefList *full, double max_B,
int no_deltacchalf)
{
int i;
int n_acc = 0;
/* Check according to delta CC½ */
if ( !no_deltacchalf && (full != NULL) ) {
check_deltacchalf(crystals, n, full);
}
for ( i=0; i<n; i++ ) {
if ( fabs(crystal_get_Bfac(crystals[i])) > max_B ) {
crystal_set_user_flag(crystals[i], PRFLAG_BIGB);
}
if ( crystal_get_user_flag(crystals[i]) == 0 ) n_acc++;
}
show_duds(crystals, n);
if ( n_acc < 2 ) {
ERROR("Not enough crystals left to proceed (%i). Sorry.\n",
n_acc);
exit(1);
}
}
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