/* * gui_project.c * * GUI project persistence * * Copyright © 2020 Deutsches Elektronen-Synchrotron DESY, * a research centre of the Helmholtz Association. * * Authors: * 2020 Thomas White * * 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 . * */ #ifdef HAVE_CONFIG_H #include #endif #include #include #include #include #include "gui_project.h" #include "crystfel_gui.h" #include "gui_backend_local.h" #include "gui_backend_slurm.h" static double parse_float(const char *val) { float v; if (sscanf(val, "%f", &v) != 1) { ERROR("Invalid float value '%s'\n", val); return NAN; } return v; } static int parse_int(const char *val) { int v; if (sscanf(val, "%i", &v) != 1) { ERROR("Invalid int value '%s'\n", val); return 0; } return v; } static const char *str_matchtype(enum match_type_id mt) { switch ( mt ) { case MATCH_EVERYTHING : return "everything"; case MATCH_H5 : return "hdf5"; case MATCH_CHEETAH_LCLS_H5 : return "lcls-cheetah-hdf5"; case MATCH_CHEETAH_CXI : return "cheetah-cxi"; case MATCH_CBF : return "cbf"; case MATCH_CBFGZ : return "cbfgz"; } return NULL; } enum match_type_id decode_matchtype(const char *type_id) { if ( strcmp(type_id, "everything") == 0 ) return MATCH_EVERYTHING; if ( strcmp(type_id, "hdf5") == 0 ) return MATCH_H5; if ( strcmp(type_id, "lcls-cheetah-hdf5") == 0 ) return MATCH_CHEETAH_LCLS_H5; if ( strcmp(type_id, "cheetah-cxi") == 0 ) return MATCH_CHEETAH_CXI; if ( strcmp(type_id, "cbf") == 0 ) return MATCH_CBF; if ( strcmp(type_id, "cbfgz") == 0 ) return MATCH_CBFGZ; ERROR("Unknown match type id '%s'\n", type_id); return MATCH_EVERYTHING; } int match_filename(const char *fn, enum match_type_id mt) { const char *ext = NULL; const char *ext2 = NULL; if ( mt == MATCH_EVERYTHING ) return 1; ext = filename_extension(fn, &ext2); if ( ext == NULL ) return 0; if ( mt == MATCH_H5 ) return (strcmp(ext, ".h5")==0); if ( mt == MATCH_CHEETAH_LCLS_H5 ) { return ((strcmp(ext, ".h5")==0) && (strncmp(fn, "LCLS", 4)==0)); } if ( mt == MATCH_CHEETAH_CXI ) return strcmp(ext, ".cxi")==0; if ( mt == MATCH_CBF ) return strcmp(ext, ".cbf")==0; if ( mt == MATCH_CBFGZ ) { if ( ext2 != NULL ) { return strcmp(ext2, ".cbf.gz")==0; } } return 0; } /* "tols" is in frac (not %) and radians */ static void parse_tols(const char *text, float *tols) { int r; r = sscanf(text, "%f,%f,%f,%f,%f,%f", &tols[0], &tols[1], &tols[2], &tols[3], &tols[4], &tols[5]); if ( r != 6 ) { STATUS("Invalid tolerances '%s'\n", text); } else { int i; for ( i=0; i<3; i++ ) tols[i] /= 100.0; for ( i=3; i<6; i++ ) tols[i] = deg2rad(tols[i]); } } static int find_backend(const char *name, struct crystfelproject *proj) { int i; for ( i=0; in_backends; i++ ) { if ( strcmp(proj->backends[i].name, name) == 0 ) { return i; } } ERROR("Couldn't find backend '%s'\n", name); return 0; } static void parse_peaksearch_opt(const char *key, const char *val, struct crystfelproject *proj) { if ( strcmp(key, "peak_search_params.method") == 0 ) { proj->peak_search_params.method = parse_peaksearch(val); if ( proj->peak_search_params.method == PEAK_ERROR ) { ERROR("Unrecognised peak search method '%s'\n", val); } } if ( strcmp(key, "peak_search_params.threshold") == 0 ) { proj->peak_search_params.threshold = parse_float(val); } if ( strcmp(key, "peak_search_params.min_sq_gradient") == 0 ) { proj->peak_search_params.min_sq_gradient = parse_float(val); } if ( strcmp(key, "peak_search_params.min_snr") == 0 ) { proj->peak_search_params.min_snr = parse_float(val); } if ( strcmp(key, "peak_search_params.local_bg_radius") == 0 ) { proj->peak_search_params.local_bg_radius = parse_int(val); } if ( strcmp(key, "peak_search_params.min_res") == 0 ) { proj->peak_search_params.min_res = parse_int(val); } if ( strcmp(key, "peak_search_params.min_sig") == 0 ) { proj->peak_search_params.min_sig = parse_float(val); } if ( strcmp(key, "peak_search_params.max_res") == 0 ) { proj->peak_search_params.max_res = parse_int(val); } if ( strcmp(key, "peak_search_params.min_pix_count") == 0 ) { proj->peak_search_params.min_pix_count = parse_int(val); } if ( strcmp(key, "peak_search_params.max_pix_count") == 0 ) { proj->peak_search_params.max_pix_count = parse_int(val); } if ( strcmp(key, "peak_search_params.min_peak_over_neighbour") == 0 ) { proj->peak_search_params.min_peak_over_neighbour = parse_float(val); } if ( strcmp(key, "peak_search_params.pk_inn") == 0 ) { proj->peak_search_params.pk_inn = parse_float(val); } if ( strcmp(key, "peak_search_params.pk_mid") == 0 ) { proj->peak_search_params.pk_mid = parse_float(val); } if ( strcmp(key, "peak_search_params.pk_out") == 0 ) { proj->peak_search_params.pk_out = parse_float(val); } if ( strcmp(key, "peak_search_params.half_pixel_shift") == 0 ) { proj->peak_search_params.half_pixel_shift = parse_int(val); } if ( strcmp(key, "peak_search_params.revalidate") == 0 ) { proj->peak_search_params.revalidate = parse_int(val); } } static void parse_indexing_opt(const char *key, const char *val, struct crystfelproject *proj) { if ( strcmp(key, "indexing.cell_file") == 0 ) { proj->indexing_params.cell_file = strdup(val); } if ( strcmp(key, "indexing.methods") == 0 ) { proj->indexing_params.indexing_methods = strdup(val); } if ( strcmp(key, "indexing.multi_lattice") == 0 ) { proj->indexing_params.multi = parse_int(val); } if ( strcmp(key, "indexing.no_refine") == 0 ) { proj->indexing_params.no_refine = parse_int(val); } if ( strcmp(key, "indexing.no_retry") == 0 ) { proj->indexing_params.no_retry = parse_int(val); } if ( strcmp(key, "indexing.no_peak_check") == 0 ) { proj->indexing_params.no_peak_check = parse_int(val); } if ( strcmp(key, "indexing.no_cell_check") == 0 ) { proj->indexing_params.no_cell_check = parse_int(val); } if ( strcmp(key, "indexing.cell_tolerance") == 0 ) { parse_tols(val, proj->indexing_params.tols); } if ( strcmp(key, "indexing.min_peaks") == 0 ) { proj->indexing_params.min_peaks = parse_int(val); } } static void parse_integration_opt(const char *key, const char *val, struct crystfelproject *proj) { if ( strcmp(key, "integration.method") == 0 ) { proj->indexing_params.integration_method = strdup(val); } if ( strcmp(key, "integration.overpredict") == 0 ) { proj->indexing_params.overpredict = parse_int(val); } if ( strcmp(key, "integration.push_res") == 0 ) { proj->indexing_params.push_res = parse_float(val); } if ( strcmp(key, "integration.ir_inn") == 0 ) { proj->indexing_params.ir_inn = parse_float(val); } if ( strcmp(key, "integration.ir_mid") == 0 ) { proj->indexing_params.ir_mid = parse_float(val); } if ( strcmp(key, "integration.ir_out") == 0 ) { proj->indexing_params.ir_out = parse_float(val); } } static void add_metadata_to_copy(struct index_params *ip, const char *header) { char **n; n = realloc(ip->metadata_to_copy, (ip->n_metadata+1)*sizeof(char *)); if ( n == NULL ) return; ip->metadata_to_copy = n; ip->metadata_to_copy[ip->n_metadata++] = strdup(header); } static void parse_stream_opt(const char *key, const char *val, struct index_params *ip) { if ( strcmp(key, "stream.exclude_blanks") == 0 ) { ip->exclude_nonhits = parse_int(val); } if ( strcmp(key, "stream.exclude_peaks") == 0 ) { ip->exclude_peaks = parse_int(val); } if ( strcmp(key, "stream.exclude_refls") == 0 ) { ip->exclude_refls = parse_int(val); } if ( strcmp(key, "stream.metadata") == 0 ) { add_metadata_to_copy(ip, val); } } static void parse_merging_opt(const char *key, const char *val, struct crystfelproject *proj) { if ( strcmp(key, "merging.model") == 0 ) { proj->merging_params.model = strdup(val); } if ( strcmp(key, "merging.symmetry") == 0 ) { proj->merging_params.symmetry = strdup(val); } if ( strcmp(key, "merging.scale") == 0 ) { proj->merging_params.scale = parse_int(val); } if ( strcmp(key, "merging.bscale") == 0 ) { proj->merging_params.bscale = parse_int(val); } if ( strcmp(key, "merging.postref") == 0 ) { proj->merging_params.postref = parse_int(val); } if ( strcmp(key, "merging.niter") == 0 ) { proj->merging_params.niter = parse_int(val); } if ( strcmp(key, "merging.polarisation") == 0 ) { proj->merging_params.polarisation = strdup(val); } if ( strcmp(key, "merging.deltacchalf") == 0 ) { proj->merging_params.deltacchalf = parse_int(val); } if ( strcmp(key, "merging.min_measurements") == 0 ) { proj->merging_params.min_measurements = parse_int(val); } if ( strcmp(key, "merging.max_adu") == 0 ) { proj->merging_params.max_adu = parse_float(val); } if ( strcmp(key, "merging.custom_split") == 0 ) { proj->merging_params.custom_split = strdup(val); } if ( strcmp(key, "merging.twin_sym") == 0 ) { proj->merging_params.twin_sym = strdup(val); } if ( strcmp(key, "merging.min_res") == 0 ) { proj->merging_params.min_res = parse_float(val); } if ( strcmp(key, "merging.push_res") == 0 ) { proj->merging_params.push_res = parse_float(val); } } static void handle_var(const char *key, const char *val, struct crystfelproject *proj) { if ( strcmp(key, "indexing.new_job_title") == 0 ) { free(proj->indexing_new_job_title); proj->indexing_new_job_title = strdup(val); } if ( strcmp(key, "merging.new_job_title") == 0 ) { free(proj->merging_new_job_title); proj->merging_new_job_title = strdup(val); } if ( strcmp(key, "indexing.backend") == 0 ) { proj->indexing_backend_selected = find_backend(val, proj); } if ( strcmp(key, "merging.backend") == 0 ) { proj->merging_backend_selected = find_backend(val, proj); } if ( strcmp(key, "show_peaks") == 0 ) { proj->show_peaks = parse_int(val); } if ( strcmp(key, "show_refls") == 0 ) { proj->show_refls = parse_int(val); } if ( strcmp(key, "geom") == 0 ) { proj->geom_filename = strdup(val); } if ( strcmp(key, "data_folder") == 0 ) { proj->data_top_folder = strdup(val); } if ( strncmp(key, "stream.", 7) == 0 ) { parse_stream_opt(key, val, &proj->indexing_params); } else if ( strcmp(key, "stream") == 0 ) { proj->stream_filename = strdup(val); } if ( strcmp(key, "search_pattern") == 0 ) { proj->data_search_pattern = decode_matchtype(val); } if ( strncmp(key, "peak_search_params.", 19) == 0 ) { parse_peaksearch_opt(key, val, proj); } if ( strncmp(key, "indexing.", 9) == 0 ) { int i; parse_indexing_opt(key, val, proj); for ( i=0; in_backends; i++ ) { struct crystfel_backend *be; be = &proj->backends[i]; be->read_indexing_opt(be->indexing_opts_priv, key, val); } } if ( strncmp(key, "integration.", 12) == 0 ) { parse_integration_opt(key, val, proj); } if ( strncmp(key, "merging.", 9) == 0 ) { int i; parse_merging_opt(key, val, proj); for ( i=0; in_backends; i++ ) { struct crystfel_backend *be; be = &proj->backends[i]; be->read_merging_opt(be->merging_opts_priv, key, val); } } } void clear_project_files(struct crystfelproject *proj) { int i; if ( proj->filenames != NULL ) { for ( i=0; in_frames; i++ ) { free(proj->filenames[i]); free(proj->events[i]); } free(proj->filenames); free(proj->events); } proj->n_frames = 0; proj->max_frames = 0; proj->filenames = NULL; proj->events = NULL; } void add_file_to_project(struct crystfelproject *proj, const char *filename, const char *event) { if ( proj->n_frames == proj->max_frames ) { int n_max = proj->max_frames + 1024; char **n_filenames; char **n_events; n_filenames = realloc(proj->filenames, n_max*sizeof(char *)); n_events = realloc(proj->events, n_max*sizeof(char *)); if ( (n_filenames == NULL) || (n_events == NULL) ) { ERROR("Failed to allocate new filename\n"); return; } proj->max_frames = n_max; proj->filenames = n_filenames; proj->events = n_events; } proj->filenames[proj->n_frames] = strdup(filename); proj->events[proj->n_frames] = safe_strdup(event); proj->n_frames++; } static char **add_stream(char *new_stream, char **streams, int *pn_streams) { int i = *pn_streams; char **new_streams = realloc(streams, (i+1)*sizeof(struct gui_result)); if ( new_streams == NULL ) return streams; new_streams[i] = new_stream; *pn_streams = i+1; return new_streams; } static void read_parameters(FILE *fh, struct crystfelproject *proj) { char *rval; char line[1024]; do { char *sp; rval = fgets(line, 1023, fh); if ( rval == NULL ) break; chomp(line); if ( line[0] == '\0' ) continue; if ( strcmp(line, "-----") == 0 ) break; sp = strchr(line, ' '); if ( sp == NULL ) { ERROR("Unrecognised line in crystfel.project " "file: '%s'\n", line); continue; } sp[0] = '\0'; handle_var(line, sp+1, proj); } while ( rval != NULL ); } static void read_results(FILE *fh, struct crystfelproject *proj) { char *rval; char line[1024]; char **streams = NULL; int n_streams = 0; char *results_name = NULL; int selected = 0; do { rval = fgets(line, 1023, fh); if ( rval == NULL ) break; chomp(line); if ( line[0] == '\0' ) continue; if ( strncmp(line, "Result ", 7) == 0 ) { if ( n_streams > 0 ) { /* Add the previously-read result */ add_result(proj, results_name, streams, n_streams); if ( selected ) { select_result(proj, results_name); } } n_streams = 0; selected = 0; streams = NULL; results_name = strdup(line+7); } if ( strncmp(line, " Selected", 11) == 0 ) { selected = 1; } if ( strncmp(line, " Stream ", 10) == 0 ) { streams = add_stream(strdup(line+10), streams, &n_streams); } if ( strcmp(line, "-----") == 0 ) { if ( n_streams > 0 ) { add_result(proj, results_name, streams, n_streams); if ( selected ) { select_result(proj, results_name); } } break; } } while ( rval != NULL ); } static void read_frames(FILE *fh, struct crystfelproject *proj) { char *rval; char line[1024]; do { rval = fgets(line, 1023, fh); if ( rval == NULL ) break; chomp(line); if ( line[0] == '\0' ) continue; char *ev = NULL; size_t n = strlen(line)-1; for ( ; n>0; n-- ) { if ( line[n] == ' ' ) { line[n] = '\0'; ev = &line[n+1]; break; } } add_file_to_project(proj, line, ev); } while ( rval != NULL ); } int load_project(struct crystfelproject *proj) { FILE *fh; fh = fopen("crystfel.project", "r"); if ( fh == NULL ) return 1; default_project(proj); read_parameters(fh, proj); read_results(fh, proj); read_frames(fh, proj); fclose(fh); return 0; } int save_project(struct crystfelproject *proj) { int i; FILE *fh; fh = fopen("crystfel.project", "w"); if ( fh == NULL ) { STATUS("Couldn't save project.\n"); return 1; } if ( proj->geom_filename != NULL ) { fprintf(fh, "geom %s\n", proj->geom_filename); } if ( proj->data_top_folder != NULL ) { fprintf(fh, "data_folder %s\n", proj->data_top_folder); } fprintf(fh, "search_pattern %s\n", str_matchtype(proj->data_search_pattern)); if ( proj->stream_filename != NULL ) { fprintf(fh, "stream %s\n", proj->stream_filename); } fprintf(fh, "peak_search_params.method %s\n", str_peaksearch(proj->peak_search_params.method)); fprintf(fh, "peak_search_params.threshold %f\n", proj->peak_search_params.threshold); fprintf(fh, "peak_search_params.min_sq_gradient %f\n", proj->peak_search_params.min_sq_gradient); fprintf(fh, "peak_search_params.min_snr %f\n", proj->peak_search_params.min_snr); fprintf(fh, "peak_search_params.min_pix_count %i\n", proj->peak_search_params.min_pix_count); fprintf(fh, "peak_search_params.max_pix_count %i\n", proj->peak_search_params.max_pix_count); fprintf(fh, "peak_search_params.local_bg_radius %i\n", proj->peak_search_params.local_bg_radius); fprintf(fh, "peak_search_params.min_res %i\n", proj->peak_search_params.min_res); fprintf(fh, "peak_search_params.max_res %i\n", proj->peak_search_params.max_res); fprintf(fh, "peak_search_params.min_snr_biggest_pix %f\n", proj->peak_search_params.min_snr_biggest_pix); fprintf(fh, "peak_search_params.min_snr_peak_pix %f\n", proj->peak_search_params.min_snr_peak_pix); fprintf(fh, "peak_search_params.min_peak_over_neighbour %f\n", proj->peak_search_params.min_peak_over_neighbour); fprintf(fh, "peak_search_params.pk_inn %f\n", proj->peak_search_params.pk_inn); fprintf(fh, "peak_search_params.pk_mid %f\n", proj->peak_search_params.pk_mid); fprintf(fh, "peak_search_params.pk_out %f\n", proj->peak_search_params.pk_out); fprintf(fh, "peak_search_params.half_pixel_shift %i\n", proj->peak_search_params.half_pixel_shift); fprintf(fh, "peak_search_params.revalidate %i\n", proj->peak_search_params.revalidate); if ( proj->indexing_params.cell_file != NULL ) { fprintf(fh, "indexing.cell_file %s\n", proj->indexing_params.cell_file); } if ( proj->indexing_params.indexing_methods != NULL ) { fprintf(fh, "indexing.methods %s\n", proj->indexing_params.indexing_methods); } fprintf(fh, "indexing.multi_lattice %i\n", proj->indexing_params.multi); fprintf(fh, "indexing.no_refine %i\n", proj->indexing_params.no_refine); fprintf(fh, "indexing.no_retry %i\n", proj->indexing_params.no_retry); fprintf(fh, "indexing.no_peak_check %i\n", proj->indexing_params.no_peak_check); fprintf(fh, "indexing.no_cell_check %i\n", proj->indexing_params.no_cell_check); /* Values in file are in percent and degrees */ /* Values in "tol" are in frac (not %) and radians */ fprintf(fh, "indexing.cell_tolerance %f,%f,%f,%f,%f,%f\n", proj->indexing_params.tols[0]*100.0, proj->indexing_params.tols[1]*100.0, proj->indexing_params.tols[2]*100.0, rad2deg(proj->indexing_params.tols[3]), rad2deg(proj->indexing_params.tols[4]), rad2deg(proj->indexing_params.tols[5])); fprintf(fh, "indexing.min_peaks %i\n", proj->indexing_params.min_peaks); if ( proj->indexing_new_job_title != NULL ) { fprintf(fh, "indexing.new_job_title %s\n", proj->indexing_new_job_title); } fprintf(fh, "indexing.backend %s\n", proj->backends[proj->indexing_backend_selected].name); for ( i=0; in_backends; i++ ) { struct crystfel_backend *be; be = &proj->backends[i]; be->write_indexing_opts(be->indexing_opts_priv, fh); } fprintf(fh, "integration.method %s\n", proj->indexing_params.integration_method); fprintf(fh, "integration.overpredict %i\n", proj->indexing_params.overpredict); fprintf(fh, "integration.push_res %f\n", proj->indexing_params.push_res); fprintf(fh, "integration.ir_inn %f\n", proj->indexing_params.ir_inn); fprintf(fh, "integration.ir_mid %f\n", proj->indexing_params.ir_mid); fprintf(fh, "integration.ir_out %f\n", proj->indexing_params.ir_out); fprintf(fh, "stream.exclude_blanks %i\n", proj->indexing_params.exclude_nonhits); fprintf(fh, "stream.exclude_peaks %i\n", proj->indexing_params.exclude_peaks); fprintf(fh, "stream.exclude_refls %i\n", proj->indexing_params.exclude_refls); if ( proj->indexing_params.metadata_to_copy != NULL ) { int i; for ( i=0; iindexing_params.n_metadata; i++ ) { fprintf(fh, "stream.metadata %s\n", proj->indexing_params.metadata_to_copy[i]); } } fprintf(fh, "merging.model %s\n", proj->merging_params.model); fprintf(fh, "merging.symmetry %s\n", proj->merging_params.symmetry); fprintf(fh, "merging.scale %i\n", proj->merging_params.scale); fprintf(fh, "merging.bscale %i\n", proj->merging_params.bscale); fprintf(fh, "merging.postref %i\n", proj->merging_params.postref); fprintf(fh, "merging.niter %i\n", proj->merging_params.niter); fprintf(fh, "merging.polarisation %s\n", proj->merging_params.polarisation); fprintf(fh, "merging.deltacchalf %i\n", proj->merging_params.deltacchalf); fprintf(fh, "merging.min_measurements %i\n", proj->merging_params.min_measurements); fprintf(fh, "merging.max_adu %f\n", proj->merging_params.max_adu); fprintf(fh, "merging.custom_split %s\n", proj->merging_params.custom_split); fprintf(fh, "merging.twin_sym %s\n", proj->merging_params.twin_sym); fprintf(fh, "merging.min_res %f\n", proj->merging_params.min_res); fprintf(fh, "merging.push_res %f\n", proj->merging_params.push_res); fprintf(fh, "merging.backend %s\n", proj->backends[proj->merging_backend_selected].name); for ( i=0; in_backends; i++ ) { struct crystfel_backend *be; be = &proj->backends[i]; be->write_merging_opts(be->merging_opts_priv, fh); } fprintf(fh, "show_peaks %i\n", proj->show_peaks); fprintf(fh, "show_refls %i\n", proj->show_refls); fprintf(fh, "-----\n"); for ( i=0; in_results; i++ ) { int j; fprintf(fh, "Result %s\n", proj->results[i].name); for ( j=0; jresults[i].n_streams; j++ ) { fprintf(fh, " Stream %s\n", proj->results[i].streams[j]); } if ( strcmp(selected_result(proj), proj->results[i].name) == 0 ) { fprintf(fh, " Selected\n"); } } fprintf(fh, "-----\n"); for ( i=0; in_frames; i++ ) { if ( proj->events[i] != NULL ) { fprintf(fh, "%s %s\n", proj->filenames[i], proj->events[i]); } else { fprintf(fh, "%s\n", proj->filenames[i]); } } fclose(fh); proj->unsaved = 0; return 0; } void default_project(struct crystfelproject *proj) { proj->unsaved = 0; proj->geom_filename = NULL; proj->n_frames = 0; proj->max_frames = 0; proj->filenames = NULL; proj->events = NULL; proj->peak_params = NULL; proj->data_top_folder = NULL; proj->data_search_pattern = 0; proj->stream_filename = NULL; proj->dtempl = NULL; proj->cur_image = NULL; proj->indexing_opts = NULL; proj->n_running_tasks = 0; proj->indexing_new_job_title = NULL; proj->merging_new_job_title = NULL; proj->indexing_backend_selected = 0; proj->merging_backend_selected = 0; proj->n_backends = 0; proj->backends = malloc(2*sizeof(struct crystfel_backend)); /* FIXME: Crappy error handling */ if ( proj->backends == NULL ) { ERROR("Couldn't allocate space for backends\n"); } if ( make_local_backend(&proj->backends[proj->n_backends++]) ) { ERROR("Local backend setup failed\n"); } #ifdef HAVE_SLURM if ( make_slurm_backend(&proj->backends[proj->n_backends++]) ) { ERROR("SLURM backend setup failed\n"); } #endif /* Default parameter values */ proj->show_peaks = 1; proj->show_refls = 1; proj->peak_search_params.method = PEAK_ZAEF; proj->peak_search_params.threshold = 800.0; proj->peak_search_params.min_sq_gradient = 100000; proj->peak_search_params.min_snr = 5.0; proj->peak_search_params.min_pix_count = 2; proj->peak_search_params.max_pix_count = 200; proj->peak_search_params.local_bg_radius = 3; proj->peak_search_params.min_res = 0; proj->peak_search_params.max_res = 1200; proj->peak_search_params.min_snr_biggest_pix = 7.0; proj->peak_search_params.min_snr_peak_pix = 6.0; proj->peak_search_params.min_sig = 11.0; proj->peak_search_params.min_peak_over_neighbour = -INFINITY; proj->peak_search_params.pk_inn = 4.0; proj->peak_search_params.pk_mid = 5.0; proj->peak_search_params.pk_out = 7.0; proj->peak_search_params.half_pixel_shift = 1; proj->peak_search_params.revalidate = 1; proj->indexing_params.cell_file = NULL; proj->indexing_params.indexing_methods = NULL; proj->indexing_params.multi = 1; proj->indexing_params.no_refine = 0; proj->indexing_params.no_retry = 0; proj->indexing_params.no_peak_check = 0; proj->indexing_params.no_cell_check = 0; proj->indexing_params.tols[0] = 0.05; /* frac (not %) */ proj->indexing_params.tols[1] = 0.05; /* frac (not %) */ proj->indexing_params.tols[2] = 0.05; /* frac (not %) */ proj->indexing_params.tols[3] = deg2rad(1.5); /* rad */ proj->indexing_params.tols[4] = deg2rad(1.5); /* rad */ proj->indexing_params.tols[5] = deg2rad(1.5); /* rad */ proj->indexing_params.min_peaks = 0; proj->indexing_params.integration_method = strdup("rings"); proj->indexing_params.overpredict = 0; proj->indexing_params.push_res = INFINITY; proj->indexing_params.ir_inn = 4.0; proj->indexing_params.ir_mid = 5.0; proj->indexing_params.ir_out = 7.0; proj->indexing_params.exclude_nonhits = 0; proj->indexing_params.exclude_peaks = 0; proj->indexing_params.exclude_refls = 0; proj->indexing_params.metadata_to_copy = NULL; proj->indexing_params.n_metadata = 0; proj->merging_params.model = strdup("unity"); proj->merging_params.symmetry = strdup("1"); proj->merging_params.scale = 1; proj->merging_params.bscale = 1; proj->merging_params.postref = 0; proj->merging_params.niter = 3; proj->merging_params.polarisation = strdup("horiz"); proj->merging_params.deltacchalf = 1; proj->merging_params.min_measurements = 2; proj->merging_params.max_adu = INFINITY; proj->merging_params.custom_split = NULL; proj->merging_params.twin_sym = NULL; proj->merging_params.min_res = INFINITY; proj->merging_params.push_res = INFINITY; proj->results = NULL; proj->n_results = 0; } /* Assumes ownership of "name" and "streams" */ int add_result(struct crystfelproject *proj, char *name, char **streams, int n_streams) { int i; struct gui_result *new_results; new_results = realloc(proj->results, (proj->n_results+1)*sizeof(struct gui_result)); if ( new_results == NULL ) return 1; new_results[proj->n_results].name = name; new_results[proj->n_results].streams = streams; new_results[proj->n_results].n_streams = n_streams; new_results[proj->n_results].indices = malloc(n_streams*sizeof(StreamIndex *)); for ( i=0; in_results].indices[i] = NULL; } proj->results = new_results; proj->n_results++; gtk_combo_box_text_append(GTK_COMBO_BOX_TEXT(proj->results_combo), name, name); return 0; } static void update_result_index(struct gui_result *result) { int i; for ( i=0; in_streams; i++ ) { /* FIXME: Skip if already up to date */ stream_index_free(result->indices[i]); result->indices[i] = stream_make_index(result->streams[i]); } } struct gui_result *find_result_by_name(struct crystfelproject *proj, const char *name) { int i; for ( i=0; in_results; i++ ) { if ( strcmp(proj->results[i].name, name) == 0 ) { return &proj->results[i]; } } return NULL; } struct image *find_result(struct crystfelproject *proj, const char *results_name, const char *filename, const char *event) { Stream *st; int i; int found = 0; struct image *image; struct gui_result *result; result = find_result_by_name(proj, results_name); if ( result == NULL ) return NULL; for ( i=0; in_streams; i++ ) { if ( stream_select_chunk(NULL, result->indices[i], filename, event) == 0 ) { found = 1; break; } } if ( !found ) { update_result_index(result); for ( i=0; in_streams; i++ ) { if ( stream_select_chunk(NULL, result->indices[i], filename, event) == 0 ) { found = 1; break; } } } if ( !found ) return NULL; st = stream_open_for_read(result->streams[i]); if ( stream_select_chunk(st, result->indices[i], filename, event) ) { ERROR("Error selecting chunk.\n"); return NULL; } image = stream_read_chunk(st, STREAM_REFLECTIONS | STREAM_PEAKS | STREAM_DATA_DETGEOM); stream_close(st); return image; }