/* * dirax.c * * Invoke the DirAx auto-indexing program * * Copyright © 2012 Deutsches Elektronen-Synchrotron DESY, * a research centre of the Helmholtz Association. * * Authors: * 2010-2012 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 #include #include #include #include #include #if HAVE_FORKPTY_LINUX #include #elif HAVE_FORKPTY_BSD #include #endif #include "image.h" #include "dirax.h" #include "utils.h" #include "peaks.h" #define DIRAX_VERBOSE 0 #define MAX_DIRAX_CELL_CANDIDATES (5) typedef enum { DIRAX_INPUT_NONE, DIRAX_INPUT_LINE, DIRAX_INPUT_PROMPT, DIRAX_INPUT_ACL } DirAxInputType; struct dirax_data { /* DirAx auto-indexing low-level stuff */ int pty; pid_t pid; char *rbuffer; int rbufpos; int rbuflen; /* DirAx auto-indexing high-level stuff */ int step; int finished_ok; int read_cell; int best_acl; int best_acl_nh; int acls_tried[MAX_CELL_CANDIDATES]; int n_acls_tried; }; static void dirax_parseline(const char *line, struct image *image, struct dirax_data *dirax) { int rf, i, di, acl, acl_nh; float d; #if DIRAX_VERBOSE char *copy; copy = strdup(line); for ( i=0; iread_cell = 1; image->candidate_cells[image->ncells] = cell_new(); return; } i++; } /* Parse unit cell vectors as appropriate */ if ( dirax->read_cell == 1 ) { /* First row of unit cell values */ float ax, ay, az; int r; r = sscanf(line, "%f %f %f %f %f %f", &d, &d, &d, &ax, &ay, &az); if ( r != 6 ) { ERROR("Couldn't understand cell line:\n"); ERROR("'%s'\n", line); dirax->read_cell = 0; cell_free(image->candidate_cells[image->ncells]); return; } cell_set_cartesian_a(image->candidate_cells[image->ncells], ax*1e-10, ay*1e-10, az*1e-10); dirax->read_cell++; return; } else if ( dirax->read_cell == 2 ) { /* Second row of unit cell values */ float bx, by, bz; int r; r = sscanf(line, "%f %f %f %f %f %f", &d, &d, &d, &bx, &by, &bz); if ( r != 6 ) { ERROR("Couldn't understand cell line:\n"); ERROR("'%s'\n", line); dirax->read_cell = 0; cell_free(image->candidate_cells[image->ncells]); return; } cell_set_cartesian_b(image->candidate_cells[image->ncells], bx*1e-10, by*1e-10, bz*1e-10); dirax->read_cell++; return; } else if ( dirax->read_cell == 3 ) { /* Third row of unit cell values */ float cx, cy, cz; int r; r = sscanf(line, "%f %f %f %f %f %f", &d, &d, &d, &cx, &cy, &cz); if ( r != 6 ) { ERROR("Couldn't understand cell line:\n"); ERROR("'%s'\n", line); dirax->read_cell = 0; cell_free(image->candidate_cells[image->ncells]); return; } cell_set_cartesian_c(image->candidate_cells[image->ncells++], cx*1e-10, cy*1e-10, cz*1e-10); dirax->read_cell = 0; return; } dirax->read_cell = 0; if ( sscanf(line, "%i %i %f %f %f %f %f %f %i", &acl, &acl_nh, &d, &d, &d, &d, &d, &d, &di) == 9 ) { if ( acl_nh > dirax->best_acl_nh ) { int i, found = 0; for ( i=0; in_acls_tried; i++ ) { if ( dirax->acls_tried[i] == acl ) found = 1; } if ( !found ) { dirax->best_acl_nh = acl_nh; dirax->best_acl = acl; } } } } static void dirax_sendline(const char *line, struct dirax_data *dirax) { #if DIRAX_VERBOSE char *copy; int i; copy = strdup(line); for ( i=0; ipty, line, strlen(line)); } static void dirax_send_next(struct image *image, struct dirax_data *dirax) { char tmp[32]; switch ( dirax->step ) { case 1 : dirax_sendline("\\echo off\n", dirax); break; case 2 : snprintf(tmp, 31, "read xfel-%i.drx\n", image->id); dirax_sendline(tmp, dirax); break; case 3 : dirax_sendline("dmax 1000\n", dirax); break; case 4 : dirax_sendline("indexfit 2\n", dirax); break; case 5 : dirax_sendline("levelfit 1000\n", dirax); break; case 6 : dirax_sendline("go\n", dirax); dirax->finished_ok = 1; break; case 7 : dirax_sendline("acl\n", dirax); break; case 8 : if ( dirax->best_acl_nh == 0 ) { /* At this point, DirAx is presenting its ACL prompt * and waiting for a single number. Use an extra * newline to choose automatic ACL selection before * exiting. */ dirax_sendline("\nexit\n", dirax); break; } snprintf(tmp, 31, "%i\n", dirax->best_acl); dirax->acls_tried[dirax->n_acls_tried++] = dirax->best_acl; dirax_sendline(tmp, dirax); break; case 9 : dirax_sendline("cell\n", dirax); break; case 10 : if ( dirax->n_acls_tried == MAX_DIRAX_CELL_CANDIDATES ) { dirax_sendline("exit\n", dirax); } else { /* Go back round for another cell */ dirax->best_acl_nh = 0; dirax->step = 7; dirax_sendline("acl\n", dirax); } break; default: dirax_sendline("exit\n", dirax); return; } dirax->step++; } static int dirax_readable(struct image *image, struct dirax_data *dirax) { int rval; int no_string = 0; rval = read(dirax->pty, dirax->rbuffer+dirax->rbufpos, dirax->rbuflen-dirax->rbufpos); if ( (rval == -1) || (rval == 0) ) return 1; dirax->rbufpos += rval; assert(dirax->rbufpos <= dirax->rbuflen); while ( (!no_string) && (dirax->rbufpos > 0) ) { int i; int block_ready = 0; DirAxInputType type = DIRAX_INPUT_NONE; /* See if there's a full line in the buffer yet */ for ( i=0; irbufpos-1; i++ ) { /* Means the last value looked at is rbufpos-2 */ /* Is there a prompt in the buffer? */ if ( (i+7 <= dirax->rbufpos) && (!strncmp(dirax->rbuffer+i, "Dirax> ", 7)) ) { block_ready = 1; type = DIRAX_INPUT_PROMPT; break; } /* How about an ACL prompt? */ if ( (i+10 <= dirax->rbufpos) && (!strncmp(dirax->rbuffer+i, "acl/auto [", 10)) ) { block_ready = 1; type = DIRAX_INPUT_ACL; break; } if ( (dirax->rbuffer[i] == '\r') && (dirax->rbuffer[i+1] == '\n') ) { block_ready = 1; type = DIRAX_INPUT_LINE; break; } } if ( block_ready ) { unsigned int new_rbuflen; unsigned int endbit_length; char *block_buffer = NULL; switch ( type ) { case DIRAX_INPUT_LINE : block_buffer = malloc(i+1); memcpy(block_buffer, dirax->rbuffer, i); block_buffer[i] = '\0'; if ( block_buffer[0] == '\r' ) { memmove(block_buffer, block_buffer+1, i); } dirax_parseline(block_buffer, image, dirax); free(block_buffer); endbit_length = i+2; break; case DIRAX_INPUT_PROMPT : dirax_send_next(image, dirax); endbit_length = i+7; break; case DIRAX_INPUT_ACL : dirax_send_next(image,dirax ); endbit_length = i+10; break; default : /* Obviously, this never happens :) */ ERROR("Unrecognised DirAx input mode! " "I don't know how to understand DirAx\n"); return 1; } /* Now the block's been parsed, it should be * forgotten about */ memmove(dirax->rbuffer, dirax->rbuffer + endbit_length, dirax->rbuflen - endbit_length); /* Subtract the number of bytes removed */ dirax->rbufpos = dirax->rbufpos - endbit_length; new_rbuflen = dirax->rbuflen - endbit_length; if ( new_rbuflen == 0 ) new_rbuflen = 256; dirax->rbuffer = realloc(dirax->rbuffer, new_rbuflen); dirax->rbuflen = new_rbuflen; } else { if ( dirax->rbufpos==dirax->rbuflen ) { /* More buffer space is needed */ dirax->rbuffer = realloc( dirax->rbuffer, dirax->rbuflen + 256); dirax->rbuflen = dirax->rbuflen + 256; /* The new space gets used at the next * read, shortly... */ } no_string = 1; } } return 0; } static void write_drx(struct image *image) { FILE *fh; int i; char filename[1024]; snprintf(filename, 1023, "xfel-%i.drx", image->id); fh = fopen(filename, "w"); if ( !fh ) { ERROR("Couldn't open temporary file '%s'\n", filename); return; } fprintf(fh, "%f\n", 0.5); /* Lie about the wavelength. */ for ( i=0; ifeatures); i++ ) { struct imagefeature *f; f = image_get_feature(image->features, i); if ( f == NULL ) continue; fprintf(fh, "%10f %10f %10f %8f\n", f->rx/1e10, f->ry/1e10, f->rz/1e10, 1.0); } fclose(fh); } void run_dirax(struct image *image) { unsigned int opts; int status; int rval; struct dirax_data *dirax; write_drx(image); dirax = malloc(sizeof(struct dirax_data)); if ( dirax == NULL ) { ERROR("Couldn't allocate memory for DirAx data.\n"); return; } dirax->pid = forkpty(&dirax->pty, NULL, NULL, NULL); if ( dirax->pid == -1 ) { ERROR("Failed to fork for DirAx\n"); return; } if ( dirax->pid == 0 ) { /* Child process: invoke DirAx */ struct termios t; /* Turn echo off */ tcgetattr(STDIN_FILENO, &t); t.c_lflag &= ~(ECHO | ECHOE | ECHOK | ECHONL); tcsetattr(STDIN_FILENO, TCSANOW, &t); execlp("dirax", "", (char *)NULL); ERROR("Failed to invoke DirAx.\n"); _exit(0); } dirax->rbuffer = malloc(256); dirax->rbuflen = 256; dirax->rbufpos = 0; /* Set non-blocking */ opts = fcntl(dirax->pty, F_GETFL); fcntl(dirax->pty, F_SETFL, opts | O_NONBLOCK); dirax->step = 1; /* This starts the "initialisation" procedure */ dirax->finished_ok = 0; dirax->read_cell = 0; dirax->n_acls_tried = 0; dirax->best_acl_nh = 0; do { fd_set fds; struct timeval tv; int sval; FD_ZERO(&fds); FD_SET(dirax->pty, &fds); tv.tv_sec = 30; tv.tv_usec = 0; sval = select(dirax->pty+1, &fds, NULL, NULL, &tv); if ( sval == -1 ) { int err = errno; ERROR("select() failed: %s\n", strerror(err)); rval = 1; } else if ( sval != 0 ) { rval = dirax_readable(image, dirax); } else { ERROR("No response from DirAx..\n"); rval = 1; } } while ( !rval ); close(dirax->pty); free(dirax->rbuffer); waitpid(dirax->pid, &status, 0); if ( dirax->finished_ok == 0 ) { ERROR("DirAx doesn't seem to be working properly.\n"); } free(dirax); }