Generate XDS.INP: Difference between revisions
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This script should be in your $PATH as "generate_XDS.INP" . | This script should be in your $PATH as "generate_XDS.INP" . | ||
<pre> | |||
#!/bin/bash | |||
# purpose: generate XDS.INP | |||
# revision 0.03 . Kay Diederichs 2/2010 | |||
# revision 0.04 . Kay Diederichs 4/2010 - include alternative ORGX, ORGY calculations for ADSC | |||
# revision 0.05 . Kay Diederichs 5/2010 - grep for "Corrected" in addition to "marccd"; needed for BESSY | |||
# revision 0.06 . KD 6/2010 - add UNTRUSTED_RECTANGLE and UNTRUSTED_ELLIPSE; use `whereis catmar` and so on | |||
# revision 0.07 . KD 6/2010 - decide about ORGX/Y info in MAR header being pixels or mm; other fixes | |||
# tested with some datasets from ALS, SSRL, SLS and ESRF; only MARCCD, ADSC/SMV, PILATUS detectors; for other detectors, values must be manually filled in. | |||
# | |||
# usage: e.g. generate_XDS.INP "frms/mydata_1_???.img" | |||
# make sure to have the two quotation marks ! | |||
# the ? are wildcards for the frame numbers. | |||
# | |||
# requirement for external programs(s): | |||
# - for MARCCD detectors the "catmar" binary (which can be downloaded from http://www.marresearch.com/download.html) must be in $PATH | |||
# - alternatively, the [[mccd_xdsparams.pl]] script (see http://strucbio.biologie.uni-konstanz.de/xdswiki/index.php/Mccd_xdsparams.pl ) will be used, courtesy of Ana Gonzalez. | |||
# | |||
# limitations: | |||
# - frame numbers are assumed to start with 1 and run consecutively | |||
# | |||
# known problems: | |||
# - for ADSC detectors, there are at least three ways to obtain ORGX and ORGY values from the header (see below); | |||
# - the same might be a problem for MAR headers, too (not sure about this) | |||
# | |||
# notes for debugging of the script: | |||
# - add the -v option to the first line, to see where an error occurs | |||
# - comment out the removal of tmp1 and tmp2 in the last line | |||
# | |||
# ====== Start of script ====== | |||
if [ "$1" == "help" ] || [ "$1" == "-help" ] || [ "$1" == "-h" ]; then | |||
echo usage: generate_XDS.INP \"frms/mydata_1_???.img\" \(_with_ the quotation marks!\) | |||
exit | |||
fi | |||
echo Full documentation, including complete detector templates and XDS binaries, can be found at | |||
echo http://www.mpimf-heidelberg.mpg.de/~kabsch/xds . More documentation: see XDSwiki | |||
# | |||
# defaults: | |||
# | |||
DETECTOR="XXX MINIMUM_VALID_PIXEL_VALUE=XXX OVERLOAD=XXX" | |||
ORGX=XXX | |||
ORGY=XXX | |||
DETECTOR_DISTANCE=XXX | |||
OSCILLATION_RANGE=XXX | |||
X_RAY_WAVELENGTH=XXX | |||
# see how we are called: | |||
NAME_TEMPLATE_OF_DATA_FRAMES="$1" | |||
# list frames matching the wildcards in NAME_TEMPLATE_OF_DATA_FRAMES | |||
ls -C1 $1 > tmp1 || exit 1 | |||
# set upper limit of DATA_RANGE to number of frames (see "limitations" above) | |||
DATA_RANGE=`wc -l tmp1 | awk '{print $1}'` | |||
# set upper limit of SPOT_RANGE to half of DATA_RANGE, but not less than 1 | |||
SPOT_RANGE=`echo "scale=0; $DATA_RANGE/2" | bc -l` | |||
SPOT_RANGE=`echo "if ($SPOT_RANGE<1) 1;if ($SPOT_RANGE>1) $SPOT_RANGE" | bc -l` | |||
echo DATA_RANGE=1 $DATA_RANGE | |||
# find out detector type | |||
DET=XXX | |||
strings `head -1 tmp1` | egrep -q 'marccd|Corrected' && DET=mccd | |||
strings `head -1 tmp1` | grep -q PILATUS && DET=pilatus | |||
strings `head -1 tmp1` | grep -q BEAM_CENTER_X && DET=adsc | |||
# identify other detector types in the same way (MAR IP would be straightforward) | |||
# parse ASCII header of first frame (except for MARCCD, which therefore requires catmar) | |||
if [ "$DET" == "XXX" ]; then | |||
echo "this is not a MAR, ADSC/SMV or PILATUS detector - fill in XXX values manually!" | |||
DETECTOR="XXX MINIMUM_VALID_PIXEL_VALUE=XXX OVERLOAD=XXX" | |||
# find parameters of first frame | |||
elif [ "$DET" == "mccd" ]; then | |||
DETECTOR="CCDCHESS MINIMUM_VALID_PIXEL_VALUE= 1 OVERLOAD= 65000" | |||
CATMAR=`whereis -b catmar` | |||
if [ "$CATMAR" != "catmar:" ]; then | |||
# inspect frame header and get rid of blanks: | |||
catmar `head -1 tmp1` | sed s/\ //g > tmp2 | |||
# find X_RAY_WAVELENGTH: | |||
X_RAY_WAVELENGTH=`grep Wavelength tmp2 | sed s/Wavelength.Ang]=//` | |||
# find QX, ORGX and ORGY: | |||
QX=`grep Pixelsizex tmp2 | sed s/Pixelsizex=//` | |||
NX=`grep pixelsin1line tmp2 | sed s/#pixelsin1line=//` | |||
ORGX=`grep Centerx tmp2 | sed s/Centerx=//` | |||
ORGX=`echo "scale=1; ($ORGX+50)/1000" | bc -l ` | |||
ORGY=`grep Centery tmp2 | sed s/Centery=//` | |||
ORGY=`echo "scale=1; ($ORGY+50)/1000" | bc -l ` | |||
# find DETECTOR_DISTANCE and OSCILLATION_RANGE: | |||
DETECTOR_DISTANCE=`grep Distance tmp2 | sed s/Distance.mm]=//` | |||
STARTING_PHI=`grep StartingPHI tmp2 | sed s/StartingPHI=//` | |||
ENDING_PHI=`grep EndingPHI tmp2 | sed s/EndingPHI=//` | |||
OSCILLATION_RANGE=`echo "scale=3; ($ENDING_PHI-$STARTING_PHI)/1000" | bc -l` | |||
else | |||
CATMAR=`whereis -b mccd_xdsparams.pl` | |||
if [ "$CATMAR" != "mccd_xdsparams:" ]; then | |||
mccd_xdsparams.pl -v `head -1 tmp1` > tmp2 | |||
NX=`awk '/NX/{print $2}' tmp2` | |||
QX=`awk '/QX/{print $6}' tmp2` | |||
X_RAY_WAVELENGTH=`awk '/X-RAY_WAVELENGTH/{print $2}' tmp2` | |||
DETECTOR_DISTANCE=`awk '/DETECTOR_DISTANCE/{print $2}' tmp2` | |||
ORGX=`awk '/ORGX/{print $2}' tmp2` | |||
ORGY=`awk '/ORGY/{print $4}' tmp2` | |||
OSCILLATION_RANGE=`awk '/OSCILLATION_RANGE/{print $2}' tmp2` | |||
else | |||
echo "could not find catmar or mccd_xdsparams.pl - fill XXX values manually!" | |||
fi | |||
fi | |||
# at most BLs, ORGX and ORGY are in pixels, but sometimes in mm ... guess: | |||
NXBYFOUR=`echo "scale=0; $NX/4" | bc -l ` | |||
ORGXINT=`echo "scale=0; $ORGX/1" | bc -l ` | |||
if [ $ORGXINT -lt $NXBYFOUR ]; then | |||
QX=`echo "scale=10; $QX/1000000" |bc -l ` | |||
# echo ORGX ORGY QX = $ORGX $ORGY $QX | |||
ORGX=`echo "scale=1; $ORGX/$QX" | bc -l` | |||
ORGY=`echo "scale=1; $ORGY/$QX" | bc -l` | |||
echo MARCCD detector: header ORGX, ORGY seem to be in mm ... converting to pixels | |||
else | |||
echo MARCCD detector: header ORGX, ORGY seem to be in pixel units | |||
fi | |||
elif [ "$DET" == "adsc" ]; then | |||
DETECTOR="ADSC MINIMUM_VALID_PIXEL_VALUE= 1 OVERLOAD= 65000" | |||
echo this is an ADSC detector. Obtaining ORGX, ORGY from the header depends on beamline setup. | |||
strings `head -1 tmp1` | sed s/\;// > tmp2 | |||
# find X_RAY_WAVELENGTH: | |||
X_RAY_WAVELENGTH=`grep WAVELENGTH tmp2 | sed s/WAVELENGTH=//` | |||
# find NX, QX, ORGX and ORGY: | |||
NX=`grep SIZE1 tmp2 | tail -1 | sed s/SIZE1=//` | |||
QX=`grep PIXEL_SIZE tmp2 | sed s/PIXEL_SIZE=//` | |||
BEAM_CENTER_X=`grep BEAM_CENTER_X tmp2 | sed s/BEAM_CENTER_X=//` | |||
BEAM_CENTER_Y=`grep BEAM_CENTER_Y tmp2 | sed s/BEAM_CENTER_Y=//` | |||
# fix 2010-04-26 - tell user about possible ORGX, ORGY alternatives - | |||
# at ESRF and ... (pls fill in!) the following should be used: | |||
ORGX=`echo "scale=1; $BEAM_CENTER_Y/$QX" | bc -l ` | |||
ORGY=`echo "scale=1; $BEAM_CENTER_X/$QX" | bc -l ` | |||
echo ATTENTION: at ESRF BLs use: ORGX=$ORGX ORGY=$ORGY | |||
# this 2nd alternative convention should be used at the following beamlines (pls complete the list): ALS 5.0.3, ... | |||
ORGX=`echo "scale=1; $NX-$BEAM_CENTER_X/$QX" | bc -l ` | |||
ORGY=`echo "scale=1; $BEAM_CENTER_Y/$QX" | bc -l ` | |||
echo ATTENTION: at e.g. ALS 5.0.3 use: ORGX=$ORGX ORGY=$ORGY | |||
# this 3rd alternative convention should be used at the following beamlines (pls complete the list): ALS 8.2.2, ... | |||
ORGX=`echo "scale=1; $BEAM_CENTER_X/$QX" | bc -l ` | |||
ORGY=`echo "scale=1; $NX-$BEAM_CENTER_Y/$QX" | bc -l ` | |||
echo ATTENTION: at e.g. ALS 8.2.2 use: ORGX=$ORGX ORGY=$ORGY - this is now written to XDS.INP | |||
# the latter alternative is written into the generated XDS.INP ! You have to correct this manually in XDS.INP, or adjust this script. | |||
# find DETECTOR_DISTANCE and OSCILLATION_RANGE: | |||
DETECTOR_DISTANCE=`grep DISTANCE tmp2 | sed s/DISTANCE=//` | |||
OSCILLATION_RANGE=`grep OSC_RANGE tmp2 | sed s/OSC_RANGE=//` | |||
elif [ "$DET" == "pilatus" ]; then | |||
DETECTOR="DETECTOR=PILATUS MINIMUM_VALID_PIXEL_VALUE=0 OVERLOAD= 1048576" | |||
echo this is a Pilatus detector | |||
head -50 `head -1 tmp1` | sed s/#//> tmp2 | |||
# find X_RAY_WAVELENGTH: | |||
X_RAY_WAVELENGTH=`grep Wavelength tmp2 | sed -e s/Wavelength// -e s/A// | awk '{print $1}'` | |||
# find ORGX and ORGY: | |||
ORGX=`grep Beam_xy tmp2 | sed -e s/\(// -e s/\)// -e s/\,// | awk '{print $2}'` | |||
ORGY=`grep Beam_xy tmp2 | sed -e s/\(// -e s/\)// -e s/\,// | awk '{print $3}'` | |||
# find DETECTOR_DISTANCE and OSCILLATION_RANGE: | |||
DETECTOR_DISTANCE=`awk '/distance/{print $2}' tmp2` | |||
DETECTOR_DISTANCE=`echo "$DETECTOR_DISTANCE*1000" | bc -l` | |||
OSCILLATION_RANGE=`awk '/Angle/{print $2}' tmp2` | |||
else | |||
echo should never come here | |||
exit 1 | |||
fi | |||
echo ORGX= $ORGX ORGY= $ORGY - check these values with adxv ! | |||
echo DETECTOR_DISTANCE= $DETECTOR_DISTANCE | |||
echo OSCILLATION_RANGE= $OSCILLATION_RANGE | |||
echo X-RAY_WAVELENGTH= $X_RAY_WAVELENGTH | |||
# now we know everything that is required to generate XDS.INP | |||
cat > XDS.INP << eof | |||
JOB= XYCORR INIT COLSPOT IDXREF DEFPIX INTEGRATE CORRECT | |||
ORGX= $ORGX ORGY= $ORGY ! check these values with adxv ! | |||
DETECTOR_DISTANCE= $DETECTOR_DISTANCE | |||
OSCILLATION_RANGE= $OSCILLATION_RANGE | |||
! | X-RAY_WAVELENGTH= $X_RAY_WAVELENGTH | ||
NAME_TEMPLATE_OF_DATA_FRAMES=$NAME_TEMPLATE_OF_DATA_FRAMES | |||
! REFERENCE_DATA_SET=xxx/XDS_ASCII.HKL ! e.g. to ensure consistent indexing | |||
DATA_RANGE=1 $DATA_RANGE | |||
SPOT_RANGE=1 $SPOT_RANGE | |||
! BACKGROUND_RANGE=1 10 ! rather use defaults (first 5 degree of rotation) | |||
SPACE_GROUP_NUMBER=0 ! 0 if unknown | |||
UNIT_CELL_CONSTANTS= 70 80 90 90 90 90 ! put correct values if known | |||
INCLUDE_RESOLUTION_RANGE=50 0 ! after CORRECT, insert high resol limit; re-run CORRECT | |||
FRIEDEL'S_LAW=FALSE ! This acts only on the CORRECT step | |||
! If the anom signal turns out to be, or is known to be, very low or absent, | |||
! use FRIEDEL'S_LAW=TRUE instead (or comment out the line); re-run CORRECT | |||
! remove the "!" in the following line: | |||
! STRICT_ABSORPTION_CORRECTION=TRUE | |||
! if the anomalous signal is strong: in that case, in CORRECT.LP the three | |||
! "CHI^2-VALUE OF FIT OF CORRECTION FACTORS" values are significantly> 1, e.g. 1.5 | |||
! | |||
! exclude (mask) untrusted areas of detector, e.g. beamstop shadow : | |||
! UNTRUSTED_RECTANGLE= 1800 1950 2100 2150 ! x-min x-max y-min y-max ! repeat | |||
! UNTRUSTED_ELLIPSE= 2034 2070 1850 2240 ! x-min x-max y-min y-max ! if needed | |||
! | |||
! parameters with changes wrt default values: | |||
TRUSTED_REGION=0.00 1.2 ! partially use corners of detectors; 1.41421=full use | |||
VALUE_RANGE_FOR_TRUSTED_DETECTOR_PIXELS=7000. 30000. ! often 8000 is ok | |||
MINIMUM_ZETA=0.05 ! integrate close to the Lorentz zone; 0.15 is default | |||
STRONG_PIXEL=6 ! COLSPOT: only use strong reflections (default is 3) | |||
REFINE(INTEGRATE)=CELL BEAM ORIENTATION ! AXIS DISTANCE | |||
! parameters specifically for this detector and beamline: | |||
DETECTOR= $DETECTOR | |||
!NX= 3072 NY= 3072 QX= 0.10260 QY= 0.10260 ! XDS finds this out by itself | |||
DIRECTION_OF_DETECTOR_X-AXIS=1 0 0 | |||
DIRECTION_OF_DETECTOR_Y-AXIS=0 1 0 | |||
INCIDENT_BEAM_DIRECTION=0 0 1 | |||
ROTATION_AXIS=1 0 0 ! at e.g. SERCAT ID-22 this needs to be -1 0 0 | |||
FRACTION_OF_POLARIZATION=0.98 ! better value is provided by beamline staff! | |||
POLARIZATION_PLANE_NORMAL=0 1 0 | |||
eof | |||
echo XDS.INP is ready for use. The file has only the most important keywords. | |||
echo After running xds, inspect at least BKGPIX.cbf and FRAME.cbf with XDS-Viewer! | |||
rm tmp1 tmp2 | |||
</pre> |
Revision as of 13:29, 21 June 2010
This script should be in your $PATH as "generate_XDS.INP" .
#!/bin/bash # purpose: generate XDS.INP # revision 0.03 . Kay Diederichs 2/2010 # revision 0.04 . Kay Diederichs 4/2010 - include alternative ORGX, ORGY calculations for ADSC # revision 0.05 . Kay Diederichs 5/2010 - grep for "Corrected" in addition to "marccd"; needed for BESSY # revision 0.06 . KD 6/2010 - add UNTRUSTED_RECTANGLE and UNTRUSTED_ELLIPSE; use `whereis catmar` and so on # revision 0.07 . KD 6/2010 - decide about ORGX/Y info in MAR header being pixels or mm; other fixes # tested with some datasets from ALS, SSRL, SLS and ESRF; only MARCCD, ADSC/SMV, PILATUS detectors; for other detectors, values must be manually filled in. # # usage: e.g. generate_XDS.INP "frms/mydata_1_???.img" # make sure to have the two quotation marks ! # the ? are wildcards for the frame numbers. # # requirement for external programs(s): # - for MARCCD detectors the "catmar" binary (which can be downloaded from http://www.marresearch.com/download.html) must be in $PATH # - alternatively, the [[mccd_xdsparams.pl]] script (see http://strucbio.biologie.uni-konstanz.de/xdswiki/index.php/Mccd_xdsparams.pl ) will be used, courtesy of Ana Gonzalez. # # limitations: # - frame numbers are assumed to start with 1 and run consecutively # # known problems: # - for ADSC detectors, there are at least three ways to obtain ORGX and ORGY values from the header (see below); # - the same might be a problem for MAR headers, too (not sure about this) # # notes for debugging of the script: # - add the -v option to the first line, to see where an error occurs # - comment out the removal of tmp1 and tmp2 in the last line # # ====== Start of script ====== if [ "$1" == "help" ] || [ "$1" == "-help" ] || [ "$1" == "-h" ]; then echo usage: generate_XDS.INP \"frms/mydata_1_???.img\" \(_with_ the quotation marks!\) exit fi echo Full documentation, including complete detector templates and XDS binaries, can be found at echo http://www.mpimf-heidelberg.mpg.de/~kabsch/xds . More documentation: see XDSwiki # # defaults: # DETECTOR="XXX MINIMUM_VALID_PIXEL_VALUE=XXX OVERLOAD=XXX" ORGX=XXX ORGY=XXX DETECTOR_DISTANCE=XXX OSCILLATION_RANGE=XXX X_RAY_WAVELENGTH=XXX # see how we are called: NAME_TEMPLATE_OF_DATA_FRAMES="$1" # list frames matching the wildcards in NAME_TEMPLATE_OF_DATA_FRAMES ls -C1 $1 > tmp1 || exit 1 # set upper limit of DATA_RANGE to number of frames (see "limitations" above) DATA_RANGE=`wc -l tmp1 | awk '{print $1}'` # set upper limit of SPOT_RANGE to half of DATA_RANGE, but not less than 1 SPOT_RANGE=`echo "scale=0; $DATA_RANGE/2" | bc -l` SPOT_RANGE=`echo "if ($SPOT_RANGE<1) 1;if ($SPOT_RANGE>1) $SPOT_RANGE" | bc -l` echo DATA_RANGE=1 $DATA_RANGE # find out detector type DET=XXX strings `head -1 tmp1` | egrep -q 'marccd|Corrected' && DET=mccd strings `head -1 tmp1` | grep -q PILATUS && DET=pilatus strings `head -1 tmp1` | grep -q BEAM_CENTER_X && DET=adsc # identify other detector types in the same way (MAR IP would be straightforward) # parse ASCII header of first frame (except for MARCCD, which therefore requires catmar) if [ "$DET" == "XXX" ]; then echo "this is not a MAR, ADSC/SMV or PILATUS detector - fill in XXX values manually!" DETECTOR="XXX MINIMUM_VALID_PIXEL_VALUE=XXX OVERLOAD=XXX" # find parameters of first frame elif [ "$DET" == "mccd" ]; then DETECTOR="CCDCHESS MINIMUM_VALID_PIXEL_VALUE= 1 OVERLOAD= 65000" CATMAR=`whereis -b catmar` if [ "$CATMAR" != "catmar:" ]; then # inspect frame header and get rid of blanks: catmar `head -1 tmp1` | sed s/\ //g > tmp2 # find X_RAY_WAVELENGTH: X_RAY_WAVELENGTH=`grep Wavelength tmp2 | sed s/Wavelength.Ang]=//` # find QX, ORGX and ORGY: QX=`grep Pixelsizex tmp2 | sed s/Pixelsizex=//` NX=`grep pixelsin1line tmp2 | sed s/#pixelsin1line=//` ORGX=`grep Centerx tmp2 | sed s/Centerx=//` ORGX=`echo "scale=1; ($ORGX+50)/1000" | bc -l ` ORGY=`grep Centery tmp2 | sed s/Centery=//` ORGY=`echo "scale=1; ($ORGY+50)/1000" | bc -l ` # find DETECTOR_DISTANCE and OSCILLATION_RANGE: DETECTOR_DISTANCE=`grep Distance tmp2 | sed s/Distance.mm]=//` STARTING_PHI=`grep StartingPHI tmp2 | sed s/StartingPHI=//` ENDING_PHI=`grep EndingPHI tmp2 | sed s/EndingPHI=//` OSCILLATION_RANGE=`echo "scale=3; ($ENDING_PHI-$STARTING_PHI)/1000" | bc -l` else CATMAR=`whereis -b mccd_xdsparams.pl` if [ "$CATMAR" != "mccd_xdsparams:" ]; then mccd_xdsparams.pl -v `head -1 tmp1` > tmp2 NX=`awk '/NX/{print $2}' tmp2` QX=`awk '/QX/{print $6}' tmp2` X_RAY_WAVELENGTH=`awk '/X-RAY_WAVELENGTH/{print $2}' tmp2` DETECTOR_DISTANCE=`awk '/DETECTOR_DISTANCE/{print $2}' tmp2` ORGX=`awk '/ORGX/{print $2}' tmp2` ORGY=`awk '/ORGY/{print $4}' tmp2` OSCILLATION_RANGE=`awk '/OSCILLATION_RANGE/{print $2}' tmp2` else echo "could not find catmar or mccd_xdsparams.pl - fill XXX values manually!" fi fi # at most BLs, ORGX and ORGY are in pixels, but sometimes in mm ... guess: NXBYFOUR=`echo "scale=0; $NX/4" | bc -l ` ORGXINT=`echo "scale=0; $ORGX/1" | bc -l ` if [ $ORGXINT -lt $NXBYFOUR ]; then QX=`echo "scale=10; $QX/1000000" |bc -l ` # echo ORGX ORGY QX = $ORGX $ORGY $QX ORGX=`echo "scale=1; $ORGX/$QX" | bc -l` ORGY=`echo "scale=1; $ORGY/$QX" | bc -l` echo MARCCD detector: header ORGX, ORGY seem to be in mm ... converting to pixels else echo MARCCD detector: header ORGX, ORGY seem to be in pixel units fi elif [ "$DET" == "adsc" ]; then DETECTOR="ADSC MINIMUM_VALID_PIXEL_VALUE= 1 OVERLOAD= 65000" echo this is an ADSC detector. Obtaining ORGX, ORGY from the header depends on beamline setup. strings `head -1 tmp1` | sed s/\;// > tmp2 # find X_RAY_WAVELENGTH: X_RAY_WAVELENGTH=`grep WAVELENGTH tmp2 | sed s/WAVELENGTH=//` # find NX, QX, ORGX and ORGY: NX=`grep SIZE1 tmp2 | tail -1 | sed s/SIZE1=//` QX=`grep PIXEL_SIZE tmp2 | sed s/PIXEL_SIZE=//` BEAM_CENTER_X=`grep BEAM_CENTER_X tmp2 | sed s/BEAM_CENTER_X=//` BEAM_CENTER_Y=`grep BEAM_CENTER_Y tmp2 | sed s/BEAM_CENTER_Y=//` # fix 2010-04-26 - tell user about possible ORGX, ORGY alternatives - # at ESRF and ... (pls fill in!) the following should be used: ORGX=`echo "scale=1; $BEAM_CENTER_Y/$QX" | bc -l ` ORGY=`echo "scale=1; $BEAM_CENTER_X/$QX" | bc -l ` echo ATTENTION: at ESRF BLs use: ORGX=$ORGX ORGY=$ORGY # this 2nd alternative convention should be used at the following beamlines (pls complete the list): ALS 5.0.3, ... ORGX=`echo "scale=1; $NX-$BEAM_CENTER_X/$QX" | bc -l ` ORGY=`echo "scale=1; $BEAM_CENTER_Y/$QX" | bc -l ` echo ATTENTION: at e.g. ALS 5.0.3 use: ORGX=$ORGX ORGY=$ORGY # this 3rd alternative convention should be used at the following beamlines (pls complete the list): ALS 8.2.2, ... ORGX=`echo "scale=1; $BEAM_CENTER_X/$QX" | bc -l ` ORGY=`echo "scale=1; $NX-$BEAM_CENTER_Y/$QX" | bc -l ` echo ATTENTION: at e.g. ALS 8.2.2 use: ORGX=$ORGX ORGY=$ORGY - this is now written to XDS.INP # the latter alternative is written into the generated XDS.INP ! You have to correct this manually in XDS.INP, or adjust this script. # find DETECTOR_DISTANCE and OSCILLATION_RANGE: DETECTOR_DISTANCE=`grep DISTANCE tmp2 | sed s/DISTANCE=//` OSCILLATION_RANGE=`grep OSC_RANGE tmp2 | sed s/OSC_RANGE=//` elif [ "$DET" == "pilatus" ]; then DETECTOR="DETECTOR=PILATUS MINIMUM_VALID_PIXEL_VALUE=0 OVERLOAD= 1048576" echo this is a Pilatus detector head -50 `head -1 tmp1` | sed s/#//> tmp2 # find X_RAY_WAVELENGTH: X_RAY_WAVELENGTH=`grep Wavelength tmp2 | sed -e s/Wavelength// -e s/A// | awk '{print $1}'` # find ORGX and ORGY: ORGX=`grep Beam_xy tmp2 | sed -e s/\(// -e s/\)// -e s/\,// | awk '{print $2}'` ORGY=`grep Beam_xy tmp2 | sed -e s/\(// -e s/\)// -e s/\,// | awk '{print $3}'` # find DETECTOR_DISTANCE and OSCILLATION_RANGE: DETECTOR_DISTANCE=`awk '/distance/{print $2}' tmp2` DETECTOR_DISTANCE=`echo "$DETECTOR_DISTANCE*1000" | bc -l` OSCILLATION_RANGE=`awk '/Angle/{print $2}' tmp2` else echo should never come here exit 1 fi echo ORGX= $ORGX ORGY= $ORGY - check these values with adxv ! echo DETECTOR_DISTANCE= $DETECTOR_DISTANCE echo OSCILLATION_RANGE= $OSCILLATION_RANGE echo X-RAY_WAVELENGTH= $X_RAY_WAVELENGTH # now we know everything that is required to generate XDS.INP cat > XDS.INP << eof JOB= XYCORR INIT COLSPOT IDXREF DEFPIX INTEGRATE CORRECT ORGX= $ORGX ORGY= $ORGY ! check these values with adxv ! DETECTOR_DISTANCE= $DETECTOR_DISTANCE OSCILLATION_RANGE= $OSCILLATION_RANGE X-RAY_WAVELENGTH= $X_RAY_WAVELENGTH NAME_TEMPLATE_OF_DATA_FRAMES=$NAME_TEMPLATE_OF_DATA_FRAMES ! REFERENCE_DATA_SET=xxx/XDS_ASCII.HKL ! e.g. to ensure consistent indexing DATA_RANGE=1 $DATA_RANGE SPOT_RANGE=1 $SPOT_RANGE ! BACKGROUND_RANGE=1 10 ! rather use defaults (first 5 degree of rotation) SPACE_GROUP_NUMBER=0 ! 0 if unknown UNIT_CELL_CONSTANTS= 70 80 90 90 90 90 ! put correct values if known INCLUDE_RESOLUTION_RANGE=50 0 ! after CORRECT, insert high resol limit; re-run CORRECT FRIEDEL'S_LAW=FALSE ! This acts only on the CORRECT step ! If the anom signal turns out to be, or is known to be, very low or absent, ! use FRIEDEL'S_LAW=TRUE instead (or comment out the line); re-run CORRECT ! remove the "!" in the following line: ! STRICT_ABSORPTION_CORRECTION=TRUE ! if the anomalous signal is strong: in that case, in CORRECT.LP the three ! "CHI^2-VALUE OF FIT OF CORRECTION FACTORS" values are significantly> 1, e.g. 1.5 ! ! exclude (mask) untrusted areas of detector, e.g. beamstop shadow : ! UNTRUSTED_RECTANGLE= 1800 1950 2100 2150 ! x-min x-max y-min y-max ! repeat ! UNTRUSTED_ELLIPSE= 2034 2070 1850 2240 ! x-min x-max y-min y-max ! if needed ! ! parameters with changes wrt default values: TRUSTED_REGION=0.00 1.2 ! partially use corners of detectors; 1.41421=full use VALUE_RANGE_FOR_TRUSTED_DETECTOR_PIXELS=7000. 30000. ! often 8000 is ok MINIMUM_ZETA=0.05 ! integrate close to the Lorentz zone; 0.15 is default STRONG_PIXEL=6 ! COLSPOT: only use strong reflections (default is 3) REFINE(INTEGRATE)=CELL BEAM ORIENTATION ! AXIS DISTANCE ! parameters specifically for this detector and beamline: DETECTOR= $DETECTOR !NX= 3072 NY= 3072 QX= 0.10260 QY= 0.10260 ! XDS finds this out by itself DIRECTION_OF_DETECTOR_X-AXIS=1 0 0 DIRECTION_OF_DETECTOR_Y-AXIS=0 1 0 INCIDENT_BEAM_DIRECTION=0 0 1 ROTATION_AXIS=1 0 0 ! at e.g. SERCAT ID-22 this needs to be -1 0 0 FRACTION_OF_POLARIZATION=0.98 ! better value is provided by beamline staff! POLARIZATION_PLANE_NORMAL=0 1 0 eof echo XDS.INP is ready for use. The file has only the most important keywords. echo After running xds, inspect at least BKGPIX.cbf and FRAME.cbf with XDS-Viewer! rm tmp1 tmp2