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/*
 * index.c
 *
 * Perform indexing (somehow)
 *
 * Copyright © 2012-2021 Deutsches Elektronen-Synchrotron DESY,
 *                       a research centre of the Helmholtz Association.
 * Copyright © 2012 Lorenzo Galli
 *
 * Authors:
 *   2010-2021 Thomas White <taw@physics.org>
 *   2010-2011 Richard Kirian <rkirian@asu.edu>
 *   2012      Lorenzo Galli
 *   2013      Cornelius Gati <cornelius.gati@cfel.de>
 *   2015      Kenneth Beyerlein <kenneth.beyerlein@desy.de>
 *   2014      Takanori Nakane <nakane.t@gmail.com>
 *
 * 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 <stdio.h>
#include <math.h>
#include <string.h>
#include <assert.h>
#include <fenv.h>
#include <unistd.h>

#include "image.h"
#include "utils.h"
#include "peaks.h"
#include "index.h"
#include "geometry.h"
#include "cell-utils.h"
#include "predict-refine.h"
#include "indexers/dirax.h"
#include "indexers/asdf.h"
#include "indexers/mosflm.h"
#include "indexers/xds.h"
#include "indexers/felix.h"
#include "indexers/taketwo.h"
#include "indexers/xgandalf.h"
#include "indexers/pinkindexer.h"
#include "indexers/fromfile.h"

#include "uthash.h"


/** \file index.h */

struct _indexingprivate
{
	IndexingFlags flags;
	UnitCell *target_cell;
	double tolerance[6];
	double wavelength_estimate;
	int n_threads;

	int n_methods;
	IndexingMethod *methods;
	void **engine_private;
};

static const char *onoff(int a)
{
	if ( a ) return "on";
	return "off";
}

/* Definition and function definition duplicated here (from im-sandbox.{c,h})
 * because libcrystfel code cannot depend on core CrystFEL programs.
 *
 * Must match the value and definition in im-sandbox.h
 */
#define MAX_TASK_LEN (32)

static void set_last_task(char *lt, const char *task)
{
	if ( lt == NULL ) return;
	assert(strlen(task) < MAX_TASK_LEN-1);
	strcpy(lt, task);
}

static void show_indexing_flags(IndexingFlags flags)
{
	STATUS("Indexing parameters:\n");
	STATUS("                  Check unit cell parameters: %s\n",
	       onoff(flags & INDEXING_CHECK_CELL));
	STATUS("                        Check peak alignment: %s\n",
	       onoff(flags & INDEXING_CHECK_PEAKS));
	STATUS("                   Refine indexing solutions: %s\n",
	       onoff(flags & INDEXING_REFINE));
	STATUS(" Multi-lattice indexing (\"delete and retry\"): %s\n",
	       onoff(flags & INDEXING_MULTI));
	STATUS("                              Retry indexing: %s\n",
	       onoff(flags & INDEXING_RETRY));
}


char *base_indexer_str(IndexingMethod indm)
{
	char *str;

	str = malloc(256);
	if ( str == NULL ) {
		ERROR("Failed to allocate string.\n");
		return NULL;
	}
	str[0] = '\0';

	switch ( indm & INDEXING_METHOD_MASK ) {

		case INDEXING_NONE :
		strcpy(str, "none");
		return str;

		case INDEXING_DIRAX :
		strcpy(str, "dirax");
		break;

		case INDEXING_ASDF :
		strcpy(str, "asdf");
		break;

		case INDEXING_MOSFLM :
		strcpy(str, "mosflm");
		break;

		case INDEXING_FELIX :
		strcpy(str, "felix");
		break;

		case INDEXING_XDS :
		strcpy(str, "xds");
		break;

		case INDEXING_TAKETWO :
		strcpy(str, "taketwo");
		break;

		case INDEXING_XGANDALF:
		strcpy(str, "xgandalf");
		break;

		case INDEXING_PINKINDEXER:
		strcpy(str, "pinkIndexer");
		break;

		case INDEXING_SIMULATION :
		strcpy(str, "simulation");
		break;

		case INDEXING_FILE :
		strcpy(str, "file");
		break;

		default :
		strcpy(str, "(unknown)");
		break;

	}

	return str;
}


static char *friendly_indexer_name(IndexingMethod m)
{
	char *base = base_indexer_str(m & INDEXING_METHOD_MASK);
	if ( (m & INDEXING_USE_CELL_PARAMETERS)
	  && (m & INDEXING_USE_LATTICE_TYPE) ) {
		strcat(base, " using cell parameters and Bravais lattice type "
		             "as prior information");
	} else if ( m & INDEXING_USE_CELL_PARAMETERS ) {
		strcat(base, " using cell parameters as prior information");
	} else if ( m & INDEXING_USE_LATTICE_TYPE ) {
		strcat(base, " using Bravais lattice type as prior information");
	} else {
		strcat(base, " - no prior information");
	}
	return base;
}


static void *prepare_method(IndexingMethod *m, UnitCell *cell,
                            double wavelength_estimate,
                            struct xgandalf_options *xgandalf_opts,
                            struct pinkIndexer_options* pinkIndexer_opts,
                            struct felix_options *felix_opts,
                            struct taketwo_options *taketwo_opts,
                            char *filename)
{
	char *str;
	IndexingMethod in = *m;
	void *priv = NULL;

	switch ( *m & INDEXING_METHOD_MASK ) {

		case INDEXING_NONE :
		priv = "none";
		break;

		case INDEXING_DIRAX :
		priv = dirax_prepare(m, cell);
		break;

		case INDEXING_ASDF :
		priv = asdf_prepare(m, cell);
		break;

		case INDEXING_MOSFLM :
		priv = mosflm_prepare(m, cell);
		break;

		case INDEXING_XDS :
		priv = xds_prepare(m, cell);
		break;

		case INDEXING_FILE :
		priv = fromfile_prepare(filename, cell);
		break;

		case INDEXING_FELIX :
		priv = felix_prepare(m, cell, felix_opts);
		break;

		case INDEXING_TAKETWO :
		priv = taketwo_prepare(m, taketwo_opts, cell);
		break;

		case INDEXING_XGANDALF :
		priv = xgandalf_prepare(m, cell, xgandalf_opts);
		break;

		case INDEXING_PINKINDEXER :
		priv = pinkIndexer_prepare(m, cell, pinkIndexer_opts,
		                           wavelength_estimate);
		break;

		default :
		ERROR("Don't know how to prepare indexing method %i\n", *m);
		break;

	}

	str = indexer_str(*m);

	if ( priv == NULL ) {
		ERROR("Failed to prepare indexing method %s\n", str);
		free(str);
		return NULL;
	}

	free(str);

	if ( in != *m ) {
		ERROR("Note: flags were altered to take into account "
		      "the information provided and/or the limitations "
		      "of the indexing method.\nPlease check the "
		      "methods listed above carefully.\n");
	}

	return priv;
}


IndexingMethod *parse_indexing_methods(const char *method_list,
                                       int *pn)
{
	int i, n;
	char **method_strings;
	IndexingMethod *methods;

	n = assplode(method_list, ",", &method_strings, ASSPLODE_NONE);

	methods = malloc(n * sizeof(IndexingMethod));
	if ( methods == NULL ) {
		ERROR("Failed to allocate indexing method list\n");
		return NULL;
	}

	for ( i=0; i<n; i++ ) {
		int err = 0;
		methods[i] = get_indm_from_string_2(method_strings[i], &err);
		if ( err ) {
			ERROR("----- Notice -----\n");
			ERROR("The way indexing options are given has changed in this CrystFEL version.\n");
			ERROR("The indexing method should contain only the method itself and ");
			ERROR("prior information modifiers ('cell' or 'latt')\n");
			ERROR("To disable prediction refinement ('norefine'), use --no-refine.\n");
			ERROR("To disable all unit cell checks ('raw'), use --no-check-cell.\n");
			ERROR("To disable peak alignment check ('bad'), use --no-check-peaks.\n");
			ERROR("To disable indexing retry ('noretry'), use --no-retry.\n");
			ERROR("To enable multi-lattice indexing by 'delete and retry', use --multi\n");
			ERROR("------------------\n");
			free(methods);
			return NULL;
		}
		free(method_strings[i]);
	}
	free(method_strings);

	*pn = n;
	return methods;
}


/* 'tols' is in frac (not %) and radians */
IndexingPrivate *setup_indexing(const char *method_list,
                                UnitCell *cell,
                                float *tols,
                                IndexingFlags flags,
                                double wavelength_estimate,
                                int n_threads,
                                struct taketwo_options *ttopts,
                                struct xgandalf_options *xgandalf_opts,
                                struct pinkIndexer_options *pinkIndexer_opts,
                                struct felix_options *felix_opts,
                                char *filename)
{
	IndexingPrivate *ipriv;
	IndexingMethod *methods;
	int n, i;

	methods = parse_indexing_methods(method_list, &n);

	/* No cell parameters -> no cell checking, no prior cell */
	if ( !cell_has_parameters(cell) ) {

		int warn = 0;

		if ( flags & INDEXING_CHECK_CELL ) {
			ERROR("WARNING: Forcing --no-check-cell because "
			      "reference unit cell parameters were not "
			      "given.\n");
			flags &= ~INDEXING_CHECK_CELL;
		}

		for ( i=0; i<n; i++ ) {
			if ( methods[i] & INDEXING_USE_CELL_PARAMETERS ) {
				methods[i] &= ~INDEXING_USE_CELL_PARAMETERS;
				warn = 1;
			}
		}
		if ( warn ) {
			ERROR("WARNING: Forcing all indexing methods to use "
			      "\"-nocell\", because reference cell parameters "
			      "were not given.\n");
		}
	}

	/* No cell at all -> no prior lattice type */
	if ( cell == NULL ) {

		int warn = 0;

		for ( i=0; i<n; i++ ) {
			if ( methods[i] & INDEXING_USE_LATTICE_TYPE ) {
				methods[i] &= ~INDEXING_USE_LATTICE_TYPE;
				warn = 1;
			}
		}
		if ( warn ) {
			ERROR("WARNING: Forcing all indexing methods to use "
			      "\"-nolatt\", because reference Bravais lattice "
			      "type was not given.\n");
		}

	}

	ipriv = malloc(sizeof(struct _indexingprivate));
	if ( ipriv == NULL ) {
		ERROR("Failed to allocate indexing data\n");
		return NULL;
	}

	ipriv->engine_private = malloc((n+1) * sizeof(void *));

	for ( i=0; i<n; i++ ) {

		int j;

		ipriv->engine_private[i] = prepare_method(&methods[i], cell,
		                                          wavelength_estimate,
		                                          xgandalf_opts,
		                                          pinkIndexer_opts,
		                                          felix_opts,
		                                          ttopts,
                                                  filename);

		if ( ipriv->engine_private[i] == NULL ) return NULL;

		if ( (methods[i] & INDEXING_METHOD_MASK) == INDEXING_PINKINDEXER ) {
			if ( n > 1 ) {
				ERROR("WARNING: Using PinkIndexer at the same "
				      "time as other indexers is not "
				      "recommended.\n");
			}

			if ( flags & INDEXING_CHECK_PEAKS ) {
				ERROR("WARNING: Setting --no-check-peaks "
				      "because PinkIndexer is in use.\n");
			}
			flags |= INDEXING_CHECK_PEAKS;
			flags ^= INDEXING_CHECK_PEAKS;

			if ( flags & INDEXING_REFINE ) {
				ERROR("WARNING: Setting --no-refine because "
				      "PinkIndexer is in use.\n");
			}
			flags |= INDEXING_REFINE;
			flags ^= INDEXING_REFINE;
		}


		for ( j=0; j<i; j++ ) {
			if ( methods[i] == methods[j] ) {
				ERROR("Duplicate indexing method.\n");
				return NULL;
			}
		}

	}

	ipriv->methods = methods;
	ipriv->n_methods = n;
	ipriv->flags = flags;
	ipriv->wavelength_estimate = wavelength_estimate;
	ipriv->n_threads = n_threads;

	if ( cell != NULL ) {
		ipriv->target_cell = cell_new_from_cell(cell);
	} else {
		ipriv->target_cell = NULL;
	}
	for ( i=0; i<6; i++ ) ipriv->tolerance[i] = tols[i];

	STATUS("List of indexing methods:\n");
	for ( i=0; i<n; i++ ) {
		char *str = indexer_str(methods[i]);
		char *tmp = friendly_indexer_name(methods[i]);
		STATUS("  %2i: %-25s (%s)\n", i, str, tmp);
		free(str);
		free(tmp);
	}
	show_indexing_flags(flags);

	return ipriv;
}


const IndexingMethod *indexing_methods(IndexingPrivate *p, int *n)
{
	*n = p->n_methods;
	return p->methods;
}


void cleanup_indexing(IndexingPrivate *ipriv)
{
	int n;

	if ( ipriv == NULL ) return;  /* Nothing to do */

	for ( n=0; n<ipriv->n_methods; n++ ) {

		switch ( ipriv->methods[n] & INDEXING_METHOD_MASK ) {

			case INDEXING_NONE :
			break;

			case INDEXING_DIRAX :
			dirax_cleanup(ipriv->engine_private[n]);
			break;

			case INDEXING_ASDF :
			asdf_cleanup(ipriv->engine_private[n]);
			break;

			case INDEXING_MOSFLM :
			mosflm_cleanup(ipriv->engine_private[n]);
			break;

			case INDEXING_XDS :
			xds_cleanup(ipriv->engine_private[n]);
			break;

			case INDEXING_FELIX :
			felix_cleanup(ipriv->engine_private[n]);
			break;

			case INDEXING_FILE :
			free(ipriv->engine_private[n]);
			break;

			case INDEXING_TAKETWO :
			taketwo_cleanup(ipriv->engine_private[n]);
			break;

			case INDEXING_XGANDALF :
			xgandalf_cleanup(ipriv->engine_private[n]);
			break;

			case INDEXING_PINKINDEXER :
			pinkIndexer_cleanup(ipriv->engine_private[n]);
			break;

			default :
			ERROR("Don't know how to clean up indexing method %i\n",
			      ipriv->methods[n]);
			break;

		}

	}

	free(ipriv->methods);
	free(ipriv->engine_private);
	cell_free(ipriv->target_cell);
	free(ipriv);
}


/* Return 0 for cell OK, 1 for cell incorrect */
static int check_cell(IndexingFlags flags, Crystal *cr, UnitCell *target,
                      double *tolerance)
{
	UnitCell *out;
	RationalMatrix *rm;

	/* Check at all? */
	if ( !(flags & INDEXING_CHECK_CELL) ) return 0;

	if ( !right_handed(target) ) {
		STATUS("WARNING: reference cell is left handed\n");
	}
	if ( !right_handed(crystal_get_cell(cr)) ) {
		STATUS("WARNING: unmatched cell is left handed\n");
	}
	out = compare_reindexed_cell_parameters(crystal_get_cell(cr), target,
	                                        tolerance, &rm);

	if ( out != NULL ) {

		/* Replace crystal's cell with new one */
		cell_free(crystal_get_cell(cr));
		crystal_set_cell(cr, out);
		rtnl_mtx_free(rm);
		if ( !right_handed(out) ) STATUS("WARNING: left handed\n");

		/* Copy the target cell's lattice type and unique axis
		 * onto the crystal's cell.  The cell from compare_r_c_p doesn't
		 * (yet) have the right values, because cell_transform_rational
		 * don't know how to determine them.  The cell should be close
		 * to the target, of course, so this is less bad than leaving
		 * the lattice type as triclinic. */
		cell_set_lattice_type(out, cell_get_lattice_type(target));
		cell_set_unique_axis(out, cell_get_unique_axis(target));

		/* Correct P to R centering, for the same reason */
		if ( (cell_get_centering(target) == 'R')
		     && (cell_get_centering(out) == 'P') ) {
			cell_set_centering(out, 'R');
		}

		return 0;
	}

	return 1;
}


#ifdef MEASURE_INDEX_TIME
static float real_time()
{
	struct timespec tp;
	clock_gettime(CLOCK_MONOTONIC_RAW, &tp);
	return tp.tv_sec + tp.tv_nsec*1e-9;
}
#endif


/* Return non-zero for "success" */
static int try_indexer(struct image *image, IndexingMethod indm,
                       IndexingPrivate *ipriv, void *mpriv, char *last_task)
{
	int i, r;
	int n_bad = 0;
	int n_before = image->n_crystals;

	#ifdef MEASURE_INDEX_TIME
	float time_start;
	float time_end;
	time_start = real_time();
	#endif

	switch ( indm & INDEXING_METHOD_MASK ) {

		case INDEXING_NONE :
		return 0;

		case INDEXING_DIRAX :
		set_last_task(last_task, "indexing:dirax");
		r = run_dirax(image, mpriv);
		break;

		case INDEXING_ASDF :
		set_last_task(last_task, "indexing:asdf");
		r = run_asdf(image, mpriv);
		break;

		case INDEXING_MOSFLM :
		set_last_task(last_task, "indexing:mosflm");
		r = run_mosflm(image, mpriv);
		break;

		case INDEXING_XDS :
		set_last_task(last_task, "indexing:xds");
		r = run_xds(image, mpriv);
		break;

		case INDEXING_FILE :
		set_last_task(last_task, "indexing:file");
		int crystal_number = 0;
		r = fromfile_index(image, mpriv, crystal_number);
		break;

		case INDEXING_FELIX :
		set_last_task(last_task, "indexing:felix");
		r = felix_index(image, mpriv);
		break;

		case INDEXING_TAKETWO :
		set_last_task(last_task, "indexing:taketwo");
		r = taketwo_index(image, mpriv);
		break;

		case INDEXING_PINKINDEXER :
		set_last_task(last_task, "indexing:pinkindexer");
		r = run_pinkIndexer(image, mpriv, ipriv->n_threads);
		break;

		case INDEXING_XGANDALF :
		set_last_task(last_task, "indexing:xgandalf");
		r = run_xgandalf(image, mpriv);
		break;

		default :
		ERROR("Unrecognised indexing method: %i\n", indm);
		return 0;

	}

	set_last_task(last_task, "indexing:finalisation");

	#ifdef MEASURE_INDEX_TIME
	time_end = real_time();
	#endif

	/* Stop a really difficult to debug situation in its tracks */
	if ( image->n_crystals - n_before != r ) {
		ERROR("Whoops, indexer didn't return the right number "
		      "of crystals!\n");
		exit(1);
	}

	/* For all the crystals found this time ... */
	for ( i=0; i<r; i++ ) {

		int j;
		int this_crystal = image->n_crystals - i - 1;

		/* ... starting at the end of the (complete) list ... */
		Crystal *cr = image->crystals[this_crystal];

		crystal_set_image(cr, image);
		crystal_set_profile_radius(cr, 0.02e9);
		crystal_set_mosaicity(cr, 0.0);

		/* Pre-refinement unit cell check if requested */
		if ( check_cell(ipriv->flags, cr, ipriv->target_cell,
		                ipriv->tolerance) )
		{
			crystal_set_user_flag(cr, 1);
			continue;
		}

		/* Prediction refinement if requested */
		if ( ipriv->flags & INDEXING_REFINE )
		{
			if ( refine_prediction(image, cr) ) {
				crystal_set_user_flag(cr, 1);
				continue;
			}
		}

		/* After refinement unit cell check if requested */
		if ( (ipriv->flags & INDEXING_CHECK_CELL)
		  && !compare_cell_parameters(crystal_get_cell(cr), ipriv->target_cell,
		                              ipriv->tolerance) )
		{
			crystal_set_user_flag(cr, 1);
			continue;
		}

		/* Peak alignment check if requested */
		if ( ipriv->flags & INDEXING_CHECK_PEAKS )
		{
			int mm = ipriv->flags & INDEXING_MULTI;
			if ( !indexing_peak_check(image, &cr, 1, mm) ) {
				crystal_set_user_flag(cr, 1);
				continue;
			}
		}

		/* Don't do similarity check if this crystal is bad */
		if ( crystal_get_user_flag(cr) ) continue;

		/* Check if cell is too similar to existing ones */
		for ( j=0; j<this_crystal; j++ ) {

			Crystal *that_cr = image->crystals[j];
			/* 'tols' is in frac (not %) and radians */
			const double tols[] = {0.1, 0.1, 0.1,
			                       deg2rad(5.0),
			                       deg2rad(5.0),
			                       deg2rad(5.0)};

			/* Don't do similarity check against bad crystals */
			if ( crystal_get_user_flag(that_cr) ) continue;

			if ( compare_permuted_cell_parameters_and_orientation(crystal_get_cell(cr),
			                                                      crystal_get_cell(that_cr),
			                                                      tols, NULL) )
			{
				crystal_set_user_flag(cr, 1);
			}
		}

	}

	n_bad = remove_flagged_crystals(image);
	assert(r >= n_bad);

	#ifdef MEASURE_INDEX_TIME
	printf("%s took %f s, %i crystals found of which %i accepted. %s %s\n",
	       indexer_str(indm & INDEXING_METHOD_MASK),
	       time_end - time_start,
	       r, r - n_bad,
	       image->filename,
	       image->ev);
	fflush(stdout);
	#endif

	return r - n_bad;
}


static int delete_weakest_peaks(ImageFeatureList *peaks)
{
	int i;
	int np, ndel, n;

	np = image_feature_count(peaks);
	n = 0;
	for ( i=0; i<np; i++ ) {
		if ( image_get_feature(peaks, i) != NULL ) n++;
	}

	if ( n < 6 ) return 1;

	/* Delete 10% weakest peaks */
	ndel = n/10;
	if ( ndel == 0 ) return 1;

	for ( i=n-1; i>n-ndel-1; i-- ) {
		image_remove_feature(peaks, i);
	}

	return 0;
}


static int delete_explained_peaks(struct image *image, Crystal *cr)
{
	double ax, ay, az;
	double bx, by, bz;
	double cx, cy, cz;
	double dx, dy;
	const double min_dist = 0.25;
	int i, nspots = 0, nindexed = 0;

	/* Round towards nearest */
	fesetround(1);

	/* Cell basis vectors for this image */
	cell_get_cartesian(crystal_get_cell(cr), &ax, &ay, &az,
	                   &bx, &by, &bz, &cx, &cy, &cz);

	crystal_get_det_shift(cr, &dx, &dy);

	/* Loop over peaks, checking proximity to nearest reflection */
	for ( i=0; i<image_feature_count(image->features); i++ ) {

		struct imagefeature *f;
		double q[3];
		double h, k, l, hd, kd, ld;
		double dsq;

		f = image_get_feature(image->features, i);
		if ( f == NULL ) continue;
		nspots++;

		/* Reciprocal space position of found peak */
		detgeom_transform_coords(&image->detgeom->panels[f->pn],
		                         f->fs, f->ss, image->lambda, dx, dy,
		                         q);

		/* Decimal and fractional Miller indices of nearest
		 * reciprocal lattice point */
		hd = q[0] * ax + q[1] * ay + q[2] * az;
		kd = q[0] * bx + q[1] * by + q[2] * bz;
		ld = q[0] * cx + q[1] * cy + q[2] * cz;
		h = lrint(hd);
		k = lrint(kd);
		l = lrint(ld);

		/* Check distance */
		dsq = pow(h-hd, 2.0) + pow(k-kd, 2.0) + pow(l-ld, 2.0);

		if ( sqrt(dsq) < min_dist ) {
			image_remove_feature(image->features, i);
			nindexed++;
		}
	}

	/* Return TRUE if not enough peaks to continue */
	return (nspots - nindexed) < 5;

}


/* indm = the current indexing method
 * r = the result from try_indexer() on this method just now
 * image = the image structure
 *
 * Returns false for "try again", true for "no, stop now"
 */
static int finished_retry(IndexingMethod indm, IndexingFlags flags,
                          int r, struct image *image)
{
	if ( r == 0 ) {

		/* Indexing failed on the previous attempt.  Maybe try again
		 * after poking the peak list a bit */

		if ( flags & INDEXING_RETRY ) {
			/* Retry with fewer peaks */
			return delete_weakest_peaks(image->features);
		} else {
			/* Indexing failed, opted not to try again */
			return 1;
		}

	} else {

		/* Indexing succeeded on previous attempt.  Maybe try again
		 * after deleting the explained peaks */

		if ( flags & INDEXING_MULTI ) {
			/* Remove "used" spots and try for another lattice */
			Crystal *cr;
			cr = image->crystals[image->n_crystals-1];
			return delete_explained_peaks(image, cr);
		} else {
			return 1;
		}

	}
}


void index_pattern(struct image *image, IndexingPrivate *ipriv)
{
	index_pattern_3(image, ipriv, NULL, NULL);
}


void index_pattern_2(struct image *image, IndexingPrivate *ipriv, int *ping)
{
	index_pattern_3(image, ipriv, ping, NULL);
}


void index_pattern_3(struct image *image, IndexingPrivate *ipriv, int *ping,
                     char *last_task)
{
	int n = 0;
	ImageFeatureList *orig;

	if ( ipriv == NULL ) return;

	image->crystals = NULL;
	image->n_crystals = 0;

	if ( !isnan(ipriv->wavelength_estimate) ) {
		if ( !within_tolerance(image->lambda,
		                          ipriv->wavelength_estimate,
		                          10.0) )
		{
			   ERROR("WARNING: Wavelength for %s %s (%e) differs by "
			         "more than 10%% from estimated value (%e)\n",
			         image->filename, image->ev,
			         image->lambda, ipriv->wavelength_estimate);
		}
	}

	orig = image->features;

	for ( n=0; n<ipriv->n_methods; n++ ) {

		int done = 0;
		int r;
		int ntry = 0;
		int success = 0;

		if ( ipriv->methods[0] != INDEXING_FILE){
			image->features = sort_peaks(orig);
		}

		do {

			r = try_indexer(image, ipriv->methods[n],
			                ipriv, ipriv->engine_private[n],
			                last_task);
			success += r;
			ntry++;
			done = finished_retry(ipriv->methods[n], ipriv->flags,
			                      r, image);
			if ( ntry > 5 ) done = 1;
			if ( ping != NULL ) (*ping)++;

		} while ( !done );

		if ( ipriv->methods[0] != INDEXING_FILE){
			image_feature_list_free(image->features);
		}

		/* Stop now if the pattern is indexed (don't try again for more
		 * crystals with a different indexing method) */
		if ( success ) {
			image->n_indexing_tries = ntry;
			break;
		}

	}

	if ( n < ipriv->n_methods ) {
		image->indexed_by = ipriv->methods[n];
	} else {
		image->indexed_by = INDEXING_NONE;
	}

}


/* Set the indexer flags for "use no lattice type information" */
static IndexingMethod set_nolattice(IndexingMethod a)
{
	return a & ~INDEXING_USE_LATTICE_TYPE;
}


/* Set the indexer flags for "use lattice type information" */
static IndexingMethod set_lattice(IndexingMethod a)
{
	return a | INDEXING_USE_LATTICE_TYPE;
}


/* Set the indexer flags for "use no unit cell parameters" */
static IndexingMethod set_nocellparams(IndexingMethod a)
{
	return a & ~INDEXING_USE_CELL_PARAMETERS;
}


/* Set the indexer flags for "use unit cell parameters" */
static IndexingMethod set_cellparams(IndexingMethod a)
{
	return a | INDEXING_USE_CELL_PARAMETERS;
}


char *indexer_str(IndexingMethod indm)
{
	char *str = base_indexer_str(indm);

	if ( (indm & INDEXING_METHOD_MASK) == INDEXING_SIMULATION ) return str;
	if ( (indm & INDEXING_METHOD_MASK) == INDEXING_NONE ) return str;

	if ( indm & INDEXING_USE_LATTICE_TYPE ) {
		strcat(str, "-latt");
	} else {
		strcat(str, "-nolatt");
	}

	if ( indm & INDEXING_USE_CELL_PARAMETERS ) {
		strcat(str, "-cell");
	} else {
		strcat(str, "-nocell");
	}

	return str;
}


static IndexingMethod warn_method(const char *str)
{
	ERROR("Indexing method must contain exactly one engine name: '%s'\n",
	      str);
	return INDEXING_ERROR;
}


IndexingMethod get_indm_from_string_2(const char *str, int *err)
{
	int n, i;
	char **bits;
	IndexingMethod method = INDEXING_NONE;
	int have_method = 0;

	if ( err != NULL ) *err = 0;

	n = assplode(str, "-", &bits, ASSPLODE_NONE);

	for ( i=0; i<n; i++ ) {

		if ( strcmp(bits[i], "dirax") == 0) {
			if ( have_method ) return warn_method(str);
			method = INDEXING_DEFAULTS_DIRAX;
			have_method = 1;

		} else if ( strcmp(bits[i], "asdf") == 0) {
			if ( have_method ) return warn_method(str);
			method = INDEXING_DEFAULTS_ASDF;
			have_method = 1;

		} else if ( strcmp(bits[i], "mosflm") == 0) {
			if ( have_method ) return warn_method(str);
			method = INDEXING_DEFAULTS_MOSFLM;
			have_method = 1;

		} else if ( strcmp(bits[i], "xds") == 0) {
			if ( have_method ) return warn_method(str);
			method = INDEXING_DEFAULTS_XDS;
			have_method = 1;

		} else if ( strcmp(bits[i], "felix") == 0) {
			if ( have_method ) return warn_method(str);
			method = INDEXING_DEFAULTS_FELIX;
			have_method = 1;

		} else if ( strcmp(bits[i], "taketwo") == 0) {
			if ( have_method ) return warn_method(str);
			method = INDEXING_DEFAULTS_TAKETWO;
			have_method = 1;

		} else if ( strcmp(bits[i], "xgandalf") == 0) {
			if ( have_method ) return warn_method(str);
			method = INDEXING_DEFAULTS_XGANDALF;
			have_method = 1;

		} else if ( (strcmp(bits[i], "pinkIndexer") == 0)
		         || (strcmp(bits[i], "pinkindexer") == 0) )
		{
			if ( have_method ) return warn_method(str);
			method = INDEXING_DEFAULTS_PINKINDEXER;
			have_method = 1;

		} else if ( strcmp(bits[i], "none") == 0) {
			if ( have_method ) return warn_method(str);
			method = INDEXING_NONE;
			have_method = 1;

		} else if ( strcmp(bits[i], "simulation") == 0) {
			if ( have_method ) return warn_method(str);
			method = INDEXING_SIMULATION;
			return method;

		} else if ( strcmp(bits[i], "file") == 0) {
			if ( have_method ) return warn_method(str);
			method = INDEXING_FILE;
			return method;

		} else if ( strcmp(bits[i], "latt") == 0) {
			method = set_lattice(method);

		} else if ( strcmp(bits[i], "nolatt") == 0) {
			method = set_nolattice(method);

		} else if ( strcmp(bits[i], "cell") == 0) {
			method = set_cellparams(method);

		} else if ( strcmp(bits[i], "nocell") == 0) {
			method = set_nocellparams(method);

		/* Deprecated options */
		} else if ( strcmp(bits[i], "retry") == 0) {
			if ( err != NULL ) *err = 1;
		} else if ( strcmp(bits[i], "noretry") == 0) {
			if ( err != NULL ) *err = 1;
		} else if ( strcmp(bits[i], "multi") == 0) {
			if ( err != NULL ) *err = 1;
		} else if ( strcmp(bits[i], "nomulti") == 0) {
			if ( err != NULL ) *err = 1;
		} else if ( strcmp(bits[i], "refine") == 0) {
			if ( err != NULL ) *err = 1;
		} else if ( strcmp(bits[i], "norefine") == 0) {
			if ( err != NULL ) *err = 1;
		} else if ( strcmp(bits[i], "raw") == 0) {
			if ( err != NULL ) *err = 1;
		} else if ( strcmp(bits[i], "bad") == 0) {
			if ( err != NULL ) *err = 1;
		} else if ( strcmp(bits[i], "comb") == 0) {
			if ( err != NULL ) *err = 1;
		} else if ( strcmp(bits[i], "axes") == 0) {
			if ( err != NULL ) *err = 1;

		} else {
			ERROR("Bad list of indexing methods: '%s'\n", str);
			return INDEXING_ERROR;
		}

		free(bits[i]);

	}
	free(bits);

	if ( !have_method ) return warn_method(str);

	return method;
}


IndexingMethod get_indm_from_string(const char *str)
{
	return get_indm_from_string_2(str, NULL);
}


static void do_probe(const char *(*func)(UnitCell *cell),
                     UnitCell *cell, char *methods)
{
	const char *probe;
	probe = func(cell);
	if ( probe != NULL ) {
		if ( methods[0] != '\0' ) {
			strcat(methods, ",");
		}
		strcat(methods, probe);
	}
}


char *detect_indexing_methods(UnitCell *cell)
{
	char *methods;

	methods = malloc(1024);
	if ( methods == NULL ) return NULL;
	methods[0] = '\0';

	do_probe(taketwo_probe, cell, methods);
	do_probe(xgandalf_probe, cell, methods);
	do_probe(mosflm_probe, cell, methods);
	do_probe(asdf_probe, cell, methods);
	do_probe(dirax_probe, cell, methods);
	do_probe(xds_probe, cell, methods);

	//do_probe(felix_probe, cell, methods);
	//do_probe(pinkIndexer_probe, cell, methods);

	if ( strlen(methods) == 0 ) {
		free(methods);
		return NULL;
	}

	return methods;
}


void default_method_options(TakeTwoOptions **ttopts,
                            XGandalfOptions **xgandalf_opts,
                            PinkIndexerOptions **pinkIndexer_opts,
                            FelixOptions **felix_opts)
{
	taketwo_default_options(ttopts);
	xgandalf_default_options(xgandalf_opts);
	pinkIndexer_default_options(pinkIndexer_opts);
	felix_default_options(felix_opts);
}