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authorThomas White <taw@physics.org>2013-02-15 10:50:08 +0100
committerThomas White <taw@physics.org>2013-02-15 10:50:38 +0100
commit9b4ab9508f4721c19f58c5f29dbe47736602fd12 (patch)
treef9a2a446b4f8f22fccd9f182135e25902f7f42a2 /libcrystfel/src/mosflm.c
parent0cda27a3fdfbfb45f3433d9dce541adb79a8762a (diff)
Use "CRYSTAL R" to avoid having to uncenter the unit cell from MOSFLM
Diffstat (limited to 'libcrystfel/src/mosflm.c')
-rw-r--r--libcrystfel/src/mosflm.c36
1 files changed, 20 insertions, 16 deletions
diff --git a/libcrystfel/src/mosflm.c b/libcrystfel/src/mosflm.c
index 22606fa4..0e00993a 100644
--- a/libcrystfel/src/mosflm.c
+++ b/libcrystfel/src/mosflm.c
@@ -162,23 +162,20 @@ static int check_cell(struct mosflm_private *mp, struct image *image,
latt_m = cell_get_lattice_type(out);
cen_m = cell_get_centering(out);
- /* If we ask MOSFLM for 'rhombohedral R', it gives us
- * 'hexagonal H' back. Grumble. Time to fix that up... */
- if ( (latt_r == L_RHOMBOHEDRAL) && (latt_m == L_HEXAGONAL) ) {
-
- UnitCell *fixup;
-
- assert(cen_r == 'R');
- assert(cen_m == 'H');
-
- /* Mercifully, MOSFLM seems to use the obverse setting
- * for this transformation, which is the same as
- * uncenter_cell(). Otherwise, this would have to be
- * done by a separate routine. */
- fixup = uncenter_cell(out, NULL);
- cell_free(out);
- out = fixup;
+ if ( latt_r != latt_m ) {
+ ERROR("Lattice type produced by MOSFLM (%i) does not "
+ "match what was requested (%i). "
+ "Please report this.\n", latt_m, latt_r);
+ crystal_free(cr);
+ return 0;
+ }
+ if ( cen_r != cen_m ) {
+ ERROR("Centering produced by MOSFLM (%c) does not "
+ "match what was requested (%c). "
+ "Please report this.\n", cen_m, cen_r);
+ crystal_free(cr);
+ return 0;
}
}
@@ -511,9 +508,16 @@ static void mosflm_send_next(struct image *image, struct mosflm_data *mosflm)
&& (mosflm->mp->template != NULL) )
{
const char *symm;
+
+ if ( cell_get_lattice_type(mosflm->mp->template)
+ == L_RHOMBOHEDRAL ) {
+ mosflm_sendline("CRYSTAL R\n", mosflm);
+ }
+
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);
}