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|
/*
* mosflm.c
*
* Invoke the DPS auto-indexing algorithm through MOSFLM
*
* Copyright © 2012 Deutsches Elektronen-Synchrotron DESY,
* a research centre of the Helmholtz Association.
* Copyright © 2012 Richard Kirian
*
* Authors:
* 2010 Richard Kirian <rkirian@asu.edu>
* 2010-2012 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/>.
*
*/
/* TODO:
*
* Properly read the newmat file (don't use fscanf-- spaces between numers
* are not guaranteed)
*
* "Success" is indicated by existence of NEWMAT file written by mosflm.
* Better to interact with mosflm directly in order to somehow verify success.
*
* Investigate how these keywords affect mosflms behavior:
*
* MOSAICITY
* DISPERSION
* DIVERGENCE
* POLARISATION
* POSTREF BEAM
* POSTREF USEBEAM OFF
* PREREFINE ON
* EXTRA ON
* POSTREF ON
*
* These did not seem to affect the results by my (Rick's) experience, probably
* because they are only used conjunction with image intensity data, but it's
* worth another look at the documentation.
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <stdlib.h>
#include <stdio.h>
#include <math.h>
#include <string.h>
#include <sys/types.h>
#include <sys/wait.h>
#include <unistd.h>
#include <assert.h>
#include <fcntl.h>
#include <errno.h>
#if HAVE_FORKPTY_LINUX
#include <pty.h>
#elif HAVE_FORKPTY_BSD
#include <util.h>
#endif
#include "image.h"
#include "mosflm.h"
#include "utils.h"
#include "peaks.h"
#include "cell-utils.h"
#define MOSFLM_VERBOSE 0
typedef enum {
MOSFLM_INPUT_NONE,
MOSFLM_INPUT_LINE,
MOSFLM_INPUT_PROMPT
} MOSFLMInputType;
struct mosflm_private {
IndexingMethod indm;
float *ltl;
UnitCell *template;
};
struct mosflm_data {
/* MOSFLM auto-indexing low-level stuff */
int pty;
pid_t pid;
char *rbuffer;
int rbufpos;
int rbuflen;
/* MOSFLM high-level stuff */
char newmatfile[128];
char imagefile[128];
char sptfile[128];
int step;
int finished_ok;
int done;
int success;
struct mosflm_private *mp;
};
static int check_cell(struct mosflm_private *mp, struct image *image,
UnitCell *cell)
{
UnitCell *out;
Crystal *cr;
if ( mp->indm & INDEXING_CHECK_CELL_COMBINATIONS ) {
out = match_cell(cell, mp->template, 0, mp->ltl, 1);
if ( out == NULL ) return 0;
} else if ( mp->indm & INDEXING_CHECK_CELL_AXES ) {
out = match_cell(cell, mp->template, 0, mp->ltl, 0);
if ( out == NULL ) return 0;
} else {
out = cell_new_from_cell(cell);
}
cr = crystal_new();
if ( cr == NULL ) {
ERROR("Failed to allocate crystal.\n");
return 0;
}
crystal_set_cell(cr, cell);
if ( mp->indm & INDEXING_CHECK_PEAKS ) {
if ( !peak_sanity_check(image, &cr, 1) ) {
crystal_free(cr); /* Frees the cell as well */
return 0;
}
}
image_add_crystal(image, cr);
return 1;
}
static void mosflm_parseline(const char *line, struct image *image,
struct mosflm_data *dirax)
{
#if MOSFLM_VERBOSE
char *copy;
int i;
copy = strdup(line);
for ( i=0; i<strlen(copy); i++ ) {
if ( copy[i] == '\r' ) copy[i]='r';
if ( copy[i] == '\n' ) copy[i]='\0';
}
STATUS("MOSFLM: %s\n", copy);
free(copy);
#endif
}
static int read_newmat(struct mosflm_data *mosflm, const char *filename,
struct image *image)
{
FILE * fh;
float asx, asy, asz;
float bsx, bsy, bsz;
float csx, csy, csz;
int n;
double c;
UnitCell *cell;
fh = fopen(filename, "r");
if ( fh == NULL ) {
return 1;
}
n = fscanf(fh, "%f %f %f\n", &asx, &bsx, &csx);
n += fscanf(fh, "%f %f %f\n", &asy, &bsy, &csy);
n += fscanf(fh, "%f %f %f\n", &asz, &bsz, &csz);
if ( n != 9 ) {
STATUS("Fewer than 9 parameters found in NEWMAT file.\n");
return 1;
}
fclose(fh);
/* MOSFLM "A" matrix is multiplied by lambda, so fix this */
c = 1.0/image->lambda;
cell = cell_new();
/* The relationship between the coordinates in the spot file and the
* resulting matrix is diabolically complicated. This transformation
* seems to work, but is not derived by working through all the
* transformations. */
cell_set_reciprocal(cell,
-asy*c, -asz*c, asx*c,
-bsy*c, -bsz*c, bsx*c,
-csy*c, -csz*c, csx*c);
if ( check_cell(mosflm->mp, image, cell) ) {
mosflm->success = 1;
mosflm->done = 1;
}
return 0;
}
/* Write .spt file for mosflm */
static void write_spt(struct image *image, const char *filename)
{
FILE *fh;
int i;
double fclen = 67.8e-3; /* fake camera length in m */
int n;
fh = fopen(filename, "w");
if ( !fh ) {
ERROR("Couldn't open temporary file '%s'\n", filename);
return;
}
/* Number of pixels in x, number of pixels in y, pixel size (mm),
* YSCALE, OMEGA */
fprintf(fh, "%10d %10d %10.8f %10.6f %10.6f\n", 1, 1, 0.0, 1.0, 0.0);
/* INVERTX, ISWUNG */
fprintf(fh, "%10d %10d\n", 0, 1);
/* XBEAM, YBEAM */
fprintf(fh, "%10.5f %10.5f\n", 0.0, 0.0);
n = image_feature_count(image->features);
for ( i=0; i<n; i++ ) {
struct imagefeature *f;
struct panel *p;
double xs, ys, rx, ry, x, y;
f = image_get_feature(image->features, i);
if ( f == NULL ) continue;
p = find_panel(image->det, f->fs, f->ss);
if ( p == NULL ) continue;
xs = (f->fs-p->min_fs)*p->fsx + (f->ss-p->min_ss)*p->ssx;
ys = (f->fs-p->min_fs)*p->fsy + (f->ss-p->min_ss)*p->ssy;
rx = (xs + p->cnx) / p->res;
ry = (ys + p->cny) / p->res;
x = -rx*fclen/p->clen;
y = ry*fclen/p->clen; /* Peak positions in m */
fprintf(fh, "%10.2f %10.2f %10.2f %10.2f %10.2f %10.2f\n",
x*1e3, y*1e3, 0.0, 0.0, 1000.0, 10.0);
}
fprintf(fh,"%10.2f %10.2f %10.2f %10.2f %10.2f %10.2f\n",
-999.0,-999.0,-999.0,-999.0,-999.0,-999.0);
fclose(fh);
}
/* Write a dummy 1x1 pixel image file for MOSFLM. Without post refinement,
* MOSFLM will ignore this, but it must be present. */
static void write_img(struct image *image, const char *filename)
{
FILE *fh;
unsigned short int *intimage;
intimage = malloc(sizeof(unsigned short int));
intimage[0] = 1;
fh = fopen(filename, "w");
if ( !fh ) {
ERROR("Couldn't open temporary file '%s'\n", filename);
return;
}
/* Write header */
fprintf(fh, "{\nHEADER_BYTES=512;\n");
fprintf(fh, "BYTE_ORDER=little_endian;\n");
fprintf(fh, "TYPE=unsigned_short;\n");
fprintf(fh, "DIM=2;\n");
fprintf(fh, "SIZE1=1;\n");
fprintf(fh, "SIZE2=1;\n");
fprintf(fh, "}\n");
/* Header padding */
while ( ftell(fh) < 512 ) fprintf(fh," ");
fwrite(intimage, sizeof(unsigned short int), 1, fh);
free(intimage);
fclose(fh);
}
static void mosflm_sendline(const char *line, struct mosflm_data *mosflm)
{
#if MOSFLM_VERBOSE
char *copy;
int i;
copy = strdup(line);
for ( i=0; i<strlen(copy); i++ ) {
if ( copy[i] == '\r' ) copy[i]='\0';
if ( copy[i] == '\n' ) copy[i]='\0';
}
STATUS("To MOSFLM: '%s'\n", copy);
free(copy);
#endif
write(mosflm->pty, line, strlen(line));
}
/* Turn what we know about the unit cell into something which we can give to
* MOSFLM to make it give us only indexing results compatible with the cell. */
static const char *spacegroup_for_lattice(UnitCell *cell)
{
LatticeType latt;
char centering;
char *g = NULL;
char *result;
latt = cell_get_lattice_type(cell);
centering = cell_get_centering(cell);
switch ( latt )
{
case L_TRICLINIC :
g = "1";
break;
case L_MONOCLINIC :
g = "2";
break;
case L_ORTHORHOMBIC :
g = "222";
break;
case L_TETRAGONAL :
g = "4";
break;
case L_RHOMBOHEDRAL :
g = "3";
break;
case L_HEXAGONAL :
if ( centering != 'H' ) {
g = "6";
} else {
g = "32";
}
break;
case L_CUBIC :
g = "23";
break;
}
assert(g != NULL);
result = malloc(32);
if ( result == NULL ) return NULL;
snprintf(result, 31, "%c%s", centering, g);
return result;
}
static void mosflm_send_next(struct image *image, struct mosflm_data *mosflm)
{
char tmp[256];
double wavelength;
switch ( mosflm->step ) {
case 1 :
mosflm_sendline("DETECTOR ROTATION HORIZONTAL"
" ANTICLOCKWISE ORIGIN LL FAST HORIZONTAL"
" RECTANGULAR\n", mosflm);
break;
case 2 :
if ( mosflm->mp->template != NULL ) {
const char *symm;
symm = spacegroup_for_lattice(mosflm->mp->template);
snprintf(tmp, 255, "SYMM %s\n", symm);
mosflm_sendline(tmp, mosflm);
} else {
mosflm_sendline("SYMM P1\n", mosflm);
}
break;
case 3 :
mosflm_sendline("DISTANCE 67.8\n", mosflm);
break;
case 4 :
mosflm_sendline("BEAM 0.0 0.0\n", mosflm);
break;
case 5 :
wavelength = image->lambda*1e10;
snprintf(tmp, 255, "WAVELENGTH %10.5f\n", wavelength);
mosflm_sendline(tmp, mosflm);
break;
case 6 :
snprintf(tmp, 255, "NEWMAT %s\n", mosflm->newmatfile);
mosflm_sendline(tmp, mosflm);
break;
case 7 :
snprintf(tmp, 255, "IMAGE %s phi 0 0\n", mosflm->imagefile);
mosflm_sendline(tmp, mosflm);
break;
case 8 :
snprintf(tmp, 255, "AUTOINDEX DPS FILE %s"
" IMAGE 1 MAXCELL 1000 REFINE\n",
mosflm->sptfile);
/* "This option is only available if you e-mail Andrew Leslie
* and ask for it." - MOSFLM
* snprintf(tmp, 255, "AUTOINDEX NODISPLAY IMAGE 1 FILE %s\n",
* mosflm->sptfile); */
mosflm_sendline(tmp, mosflm);
break;
case 9 :
mosflm_sendline("GO\n", mosflm);
mosflm->finished_ok = 1;
break;
default:
mosflm_sendline("exit\n", mosflm);
return;
}
mosflm->step++;
}
static int mosflm_readable(struct image *image, struct mosflm_data *mosflm)
{
int rval;
int no_string = 0;
rval = read(mosflm->pty, mosflm->rbuffer+mosflm->rbufpos,
mosflm->rbuflen-mosflm->rbufpos);
if ( (rval == -1) || (rval == 0) ) return 1;
mosflm->rbufpos += rval;
assert(mosflm->rbufpos <= mosflm->rbuflen);
while ( (!no_string) && (mosflm->rbufpos > 0) ) {
int i;
int block_ready = 0;
MOSFLMInputType type = MOSFLM_INPUT_NONE;
/* See if there's a full line in the buffer yet */
for ( i=0; i<mosflm->rbufpos-1; i++ ) {
/* Means the last value looked at is rbufpos-2 */
/* Is there a prompt in the buffer? */
if ( (i+10 <= mosflm->rbufpos)
&& (!strncmp(mosflm->rbuffer+i, "MOSFLM => ", 10)) ) {
block_ready = 1;
type = MOSFLM_INPUT_PROMPT;
break;
}
if ( (mosflm->rbuffer[i] == '\r')
&& (mosflm->rbuffer[i+1] == '\n') ) {
block_ready = 1;
type = MOSFLM_INPUT_LINE;
break;
}
}
if ( block_ready ) {
unsigned int new_rbuflen;
unsigned int endbit_length;
char *block_buffer = NULL;
switch ( type ) {
case MOSFLM_INPUT_LINE :
block_buffer = malloc(i+1);
memcpy(block_buffer, mosflm->rbuffer, i);
block_buffer[i] = '\0';
if ( block_buffer[0] == '\r' ) {
memmove(block_buffer, block_buffer+1, i);
}
mosflm_parseline(block_buffer, image, mosflm);
free(block_buffer);
endbit_length = i+2;
break;
case MOSFLM_INPUT_PROMPT :
mosflm_send_next(image, mosflm);
endbit_length = i+7;
break;
default :
/* Obviously, this never happens :) */
ERROR("Unrecognised MOSFLM input mode! "
"I don't know how to understand MOSFLM\n");
return 1;
}
/* Now the block's been parsed, it should be
* forgotten about */
memmove(mosflm->rbuffer,
mosflm->rbuffer + endbit_length,
mosflm->rbuflen - endbit_length);
/* Subtract the number of bytes removed */
mosflm->rbufpos = mosflm->rbufpos
- endbit_length;
new_rbuflen = mosflm->rbuflen - endbit_length;
if ( new_rbuflen == 0 ) new_rbuflen = 256;
mosflm->rbuffer = realloc(mosflm->rbuffer,
new_rbuflen);
mosflm->rbuflen = new_rbuflen;
} else {
if ( mosflm->rbufpos==mosflm->rbuflen ) {
/* More buffer space is needed */
mosflm->rbuffer = realloc(
mosflm->rbuffer,
mosflm->rbuflen + 256);
mosflm->rbuflen = mosflm->rbuflen + 256;
/* The new space gets used at the next
* read, shortly... */
}
no_string = 1;
}
}
return 0;
}
int run_mosflm(struct image *image, IndexingPrivate *ipriv)
{
struct mosflm_data *mosflm;
unsigned int opts;
int status;
int rval;
mosflm = malloc(sizeof(struct mosflm_data));
if ( mosflm == NULL ) {
ERROR("Couldn't allocate memory for MOSFLM data.\n");
return 0;
}
snprintf(mosflm->imagefile, 127, "xfel-%i_001.img", image->id);
write_img(image, mosflm->imagefile); /* Dummy image */
snprintf(mosflm->sptfile, 127, "xfel-%i_001.spt", image->id);
write_spt(image, mosflm->sptfile);
snprintf(mosflm->newmatfile, 127, "xfel-%i.newmat", image->id);
remove(mosflm->newmatfile);
mosflm->pid = forkpty(&mosflm->pty, NULL, NULL, NULL);
if ( mosflm->pid == -1 ) {
ERROR("Failed to fork for MOSFLM: %s\n", strerror(errno));
free(mosflm);
return 0;
}
if ( mosflm->pid == 0 ) {
/* Child process: invoke MOSFLM */
struct termios t;
/* Turn echo off */
tcgetattr(STDIN_FILENO, &t);
t.c_lflag &= ~(ECHO | ECHOE | ECHOK | ECHONL);
tcsetattr(STDIN_FILENO, TCSANOW, &t);
execlp("ipmosflm", "", (char *)NULL);
ERROR("Failed to invoke MOSFLM.\n");
_exit(0);
}
mosflm->rbuffer = malloc(256);
mosflm->rbuflen = 256;
mosflm->rbufpos = 0;
/* Set non-blocking */
opts = fcntl(mosflm->pty, F_GETFL);
fcntl(mosflm->pty, F_SETFL, opts | O_NONBLOCK);
mosflm->step = 1; /* This starts the "initialisation" procedure */
mosflm->finished_ok = 0;
mosflm->mp = (struct mosflm_private *)ipriv;
mosflm->done = 0;
mosflm->success = 0;
do {
fd_set fds;
struct timeval tv;
int sval;
FD_ZERO(&fds);
FD_SET(mosflm->pty, &fds);
tv.tv_sec = 30;
tv.tv_usec = 0;
sval = select(mosflm->pty+1, &fds, NULL, NULL, &tv);
if ( sval == -1 ) {
const int err = errno;
switch ( err ) {
case EINTR:
STATUS("Restarting select()\n");
break;
default:
ERROR("select() failed: %s\n", strerror(err));
rval = 1;
}
} else if ( sval != 0 ) {
rval = mosflm_readable(image, mosflm);
} else {
ERROR("No response from MOSFLM..\n");
rval = 1;
}
} while ( !rval );
close(mosflm->pty);
free(mosflm->rbuffer);
waitpid(mosflm->pid, &status, 0);
if ( mosflm->finished_ok == 0 ) {
ERROR("MOSFLM doesn't seem to be working properly.\n");
} else {
/* Read the mosflm NEWMAT file and get cell if found */
read_newmat(mosflm, mosflm->newmatfile, image);
}
rval = mosflm->success;
free(mosflm);
return rval;
}
IndexingPrivate *mosflm_prepare(IndexingMethod indm, UnitCell *cell,
const char *filename, struct detector *det,
struct beam_params *beam, float *ltl)
{
struct mosflm_private *mp;
mp = malloc(sizeof(struct mosflm_private));
if ( mp == NULL ) return NULL;
mp->ltl = ltl;
mp->template = cell;
mp->indm = indm;
return (IndexingPrivate *)mp;
}
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