Generate XDS.INP: Difference between revisions
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# revision 0.55 . KD add ADSC S/N 446 for APS, and check w/ 12 datasets from data.sbgrid.org. No rule found: S/N 916 @ APS 24_ID_E ! | # revision 0.55 . KD add ADSC S/N 446 for APS, and check w/ 12 datasets from data.sbgrid.org. No rule found: S/N 916 @ APS 24_ID_E ! | ||
# revision 0.56 . Keitaro 12/2015 show error message when user's input didn't match any files | # revision 0.56 . Keitaro 12/2015 show error message when user's input didn't match any files | ||
# revision 0.57 . KD 12/2015 start to take care of vertical ROTATION_AXIS at Diamond I24 - for now only introduce comment | |||
REVISION="0.56 (1-Dec-2015)" | REVISION="0.56 (1-Dec-2015)" | ||
# | # | ||
Line 551: | Line 552: | ||
else | else | ||
if [ "$REVERSE_PHI" == "no" ]; then | if [ "$REVERSE_PHI" == "no" ]; then | ||
echo 'ROTATION_AXIS=1 0 0 ! | echo 'ROTATION_AXIS=1 0 0 ! Australian Synchrotron, SERCAT ID-22 (?), APS 19-ID (?), ESRF BM30A, SPring-8, SSRF BL17U need -1 0 0. Diamond ID24 needs 0 -1 0' >> XDS.INP | ||
else | else | ||
echo 'ROTATION_AXIS=-1 0 0 ! if this is wrong, please contact author.' >> XDS.INP | echo 'ROTATION_AXIS=-1 0 0 ! if this is wrong, please contact author.' >> XDS.INP |
Revision as of 17:22, 6 December 2015
This script generates XDS.INP based on a list of frame names supplied on the commandline. It currently works for MarCCD, ADSC, Pilatus and a few Rigaku detectors; since this is just a bash script, extension to other detectors is very easy.
The Eiger detector is not yet implemented in the script, but this will eventually come.
Usage
Usage is just (don't forget the quotation marks!):
generate_XDS.INP "/home/myname/frms/mydata_1_???.img"
XDS supports bzip2-ed frames. Thus, when specifying the frame name parameter of the script, you should leave out any .bz2 extension.
For improved interaction with XDSGUI, it is advantageous to use an absolute filename - one that starts with a slash ("/").
The script
#!/bin/bash # purpose: generate XDS.INP # # tested with some datasets from ALS, SSRL, SLS, ESRF, BESSY, SPring-8 and PF; only MAR, ADSC/SMV, PILATUS, RAXIS (in-house) detectors; # for other detectors, values marked with XXX must be manually filled in. # # 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 # revision 0.08 . KD 6/2010 - fixes for Pilatus 6M # revision 0.09 . KD 6/2010 - get rid of requirement for mccd_xdsparams.pl and/or catmar; rather use "od" # revision 0.10 . Tim Gruene 7/2010 - set link 'images' to image directory if path exceeds 72 characters # revision 0.11 . KD 7/2010 - for MarCCD: look for distance info at different byte position # revision 0.12 . KD 7/2010 - fix for negative PHISTART # revision 0.13 . KD 8/2010 - store correct NX NY QX QY in XDS.INP # revision 0.14 . KD 1/2011 - SENSOR_THICKNESS for Pilatus; MINIMUM_NUMBER_OF_PIXELS_IN_A_SPOT=3 # revision 0.15 . KD 2/2011 - add comment for -ive sign of APS 19-ID and Australian Synchrotron rotation axis # revision 0.16 . KD 3/2011 - SENSOR_THICKNESS=0.01 for ADSC and MarCCD. Add comment about SILICON= # revision 0.17 . KD 3/2011 - make it work for .bz2 frames; improve screen output # revision 0.18 . KD 4/2011 - faster by doing "strings" only once; revert "images/${1##/*/}" "correction" # revision 0.19 . KD 6/2011 - bugfix for 0.18 # revision 0.20 . KD 7/2011 - redirect stderr of /bin/ls to /dev/null # revision 0.21 . KD 11/2011 - SEPMIN, CLUSTER_RADIUS hints; read NX NY from header (for Pilatus 2M) # revision 0.22 . KD 12/2011 - Pilatus 2M UNTRUSTED_RECTANGLE lines, SENSOR_THICKNESS from header # revision 0.23 . KD 1/2012 - add UNTRUSTED_QUADRILATERAL, remove MINIMUM_ZETA (0.05 is default now) # revision 0.24 . KD 3/2012 - remove revision 0.10 since XDS now takes much longer paths # revision 0.25 . KD 3/2012 - remove revision 0.22 for PSI Pilatus 2M; see http://www.globalphasing.com/autoproc/wiki/index.cgi?TroubleShootingKnownIssues # revision 0.26 . KD 7/2012 - Mac-compatibility: replace od flags --skip-bytes= and --read-bytes= with -j and -N (thanks to Oliver Clarke for working this out!) # revision 0.27 . KD 11/2012 - EXCLUDE_RESOLUTION_RANGE lines and generic Pilatus Flat_field test # revision 0.28 . Keitaro 11/2012 - for MarCCD: read oscillation range from the position 1024+736 (fix for omega rotation) # revision 0.29 . KD 1/2013 - include UNTRUSTED_RECTANGLEs for Pilatus 6M; never hurts but needed if the beamline software does not mark them with -2 or such # revision 0.30 . Keitaro 3/2013 - for ADSC: write all possible beam center conventions in XDS.INP as comments # revision 0.31 . Keitaro 3/2013 - add comment for reversed phi for SPring-8 # revision 0.32 . Keitaro 3/2013 - add RAXIS support. only tested with RAXIS IV++ and VII. # revision 0.33 . Keitaro 5/2013 - automatically set ROTATION_AXIS=-1 0 0 for SPring-8 BL32XU/41XU/44XU beamlines based on detector serial numbers. # revision 0.34 . Keitaro 5/2013 - recognize ADSC detectors in Photon Factory and choose correct beam center convention based on detector serial numbers. # revision 0.35 . KD 6/2013 - reduce 7000 to 6000 for shadow detection; insert comment about *_RESOLUTION_RANGE lines # revision 0.36 . KD 6/2013 - insert NUMBER_OF_PROFILE_GRID* lines for Pilatus (suggested by C.Vonrhein) # revision 0.37 . Keitaro 10/2013 - fix for MX225HS detector on SPring-8 BL32XU (Ignore case when matching marccd in header); but cannot decide reverse-phi because of missing detector S/N # revision 0.38 . KD 2/2014 - change defaults for REFINE(IDXREF) and REFINE(INTEGRATE) such that more stable results are obtained for difficult datasets # revision 0.39 . Keitaro 4/2014 - automatically set ROTATION_AXIS=-1 0 0 for MX225HS at SPring-8 BL32XU. # revision 0.40 . Jan Gebauer /KD 4/2014 - simple implementation of MAR345 detector # revision 0.41 . recognize header starting with R-AXIS instead of RAXIS # revision 0.42 . Keitaro 5/2014 automatically set ROTATION_AXIS=-1 0 0 for Q315 at SPring-8 BL38B1. # revision 0.43 . Keitaro 5/2014 add experimental support of dTREK format (raxis_smv) # revision 0.44 . Keitaro 5/2014 automatically set ROTATION_AXIS=-1 0 0 for PILATUS3 at SPring-8 BL41XU. # revision 0.45 . KD cope with blanks in filenames # revision 0.46 . Keitaro 6/2014 automatically set ROTATION_AXIS=-1 0 0 for Mar225 at SPring-8 BL26B2. # revision 0.47 . Keitaro 7/2014 more generic dTREK format support (Saturn and RAXIS) # revision 0.48 . Kip Guja 11/2014 add detector serial number for ALS 5.0.2 to beam center convention 1 # revision 0.49 . Nobuhisa 2/2015 add detector serial number for AichiSR BL2S1 to beam center convention 1 # revision 0.50 . KD 03/2015 workaround for Mar-1 change of parameter name "DISTANCE" to "POSITION" in REFINE(*) keywords # revision 0.51 . Keitaro 03/2015 add .gz and .xz support and remove limitation - frame numbers can start with any. # revision 0.52 . Keitaro 05/2015 fix ADSC beam center convention for SPring-8 and DET_SN acquisition for PILATUS (didn't work on Mac) # revision 0.53 . KD add ADSC beam center convention for APS Argonne but only as commented line in XDS.INP (not detector serial no) # revision 0.54 . KD add ADSC S/N 911 for APS Argonne, and fix spurious output arising from THETADISTANCE (?!) # revision 0.55 . KD add ADSC S/N 446 for APS, and check w/ 12 datasets from data.sbgrid.org. No rule found: S/N 916 @ APS 24_ID_E ! # revision 0.56 . Keitaro 12/2015 show error message when user's input didn't match any files # revision 0.57 . KD 12/2015 start to take care of vertical ROTATION_AXIS at Diamond I24 - for now only introduce comment REVISION="0.56 (1-Dec-2015)" # # usage: e.g. generate_XDS.INP "/file/system/frms/mydata_1_???.img" # make sure to have the two quotation marks ! # the ? are wildcards for the frame numbers. # # 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) # - on Mac OS X, Xcode (from http://developer.apple.com/tools/xcode) might be needed - 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 ====== echo generate_XDS.INP version $REVISION . Obtain the latest version from echo http://strucbio.biologie.uni-konstanz.de/xdswiki/index.php/generate_XDS.INP if [ "$1" == "help" ] || [ "$1" == "-help" ] || [ "$1" == "-h" ]; then echo usage: generate_XDS.INP \"/file/system/frms/mydata_1_???.img\" \(_with_ the quotation marks!\) echo if the frames are compressed with bzip2, leave out the .bz2 extension! exit fi # # defaults: # DETECTOR="XXX MINIMUM_VALID_PIXEL_VALUE=XXX OVERLOAD=XXX" REVERSE_PHI="no" ORGX=XXX ORGY=XXX DETECTOR_DISTANCE=XXX OSCILLATION_RANGE=XXX X_RAY_WAVELENGTH=XXX QX=XXX QY=XXX NX=XXX NY=XXX SENSOR_THICKNESS=0 TRUSTED_REGION="0.0 1.2 ! partially use corners of detector (0 1.4143: use all pixels)" # see how we are called: NAME_TEMPLATE_OF_DATA_FRAMES="$1" # list frames matching the wildcards in NAME_TEMPLATE_OF_DATA_FRAMES # don't accept the "direct beam" shot at SLS/Pilatus PX-I and PX-II # cope with blanks in directory / file name IFS=$'\n' /bin/ls -C1 $1 $1.bz2 $1.gz $1.xz 2>/dev/null | egrep -v "_00000.cbf|_000.img" > tmp1 if [ ! -s tmp1 ] then echo "Error! No files matched: $1" rm -f tmp1 exit 1 fi unset IFS # we can continue - the frames are found # Find the first '?' position and the number of '?' to determine DATA_RANGE=. pos1=`echo "$1" | awk '{print index($0, "?")}'` pos2=`echo "$1" | sed -e "s/[^\?]//g" | awk '{print length+'$pos1' - 1'}` data_first=`cat tmp1 | cut -b $pos1-$pos2 | head -n1|bc` data_last=`cat tmp1 | cut -b $pos1-$pos2 | tail -n1|bc` DATA_RANGE="$data_first $data_last" # set SPOT_RANGE to first half of DATA_RANGE data_num=`wc -l tmp1 | awk '{print $1}'` data_half=`echo "scale=0; $data_num/2" | bc -l` data_half=`echo "if ($data_half<=1) 1;if ($data_half>1) $data_half" | bc -l` spot_last=`echo "scale=0; $data_first+$data_half-1" | bc -l` SPOT_RANGE="$data_first $spot_last" echo DATA_RANGE=$DATA_RANGE # find out detector type DET=XXX IFS=$'\n' FIRSTFRAME=`head -1 tmp1` echo $FIRSTFRAME | grep -q '\.bz2$' && bzcat $FIRSTFRAME > tmp1 && FIRSTFRAME=tmp1 # for mac/linux compatibility. zcat foo.gz doesn't work on mac. echo $FIRSTFRAME | grep -q '\.gz$' && zcat < $FIRSTFRAME > tmp1 && FIRSTFRAME=tmp1 echo $FIRSTFRAME | grep -q '\.xz$' && xzcat $FIRSTFRAME > tmp1 && FIRSTFRAME=tmp1 strings $FIRSTFRAME > tmp2 unset IFS # TODO: whenever FIRSTFRAME is used below, it should be copied to tmp2 (using IFS as above), and tmp2 should be used instead # this was done for "mccd", but still has to be done for the "raxis" detector types # the reason is that FIRSTFRAME may contain a blank, which makes some commands fail egrep -qi 'marccd|Corrected' tmp2 && DET=mccd grep -q PILATUS tmp2 && DET=pilatus grep -q BEAM_CENTER_X tmp2 && DET=adsc head -n1 tmp2 | grep -q "^RAXIS" && DET=raxis head -n1 tmp2 | grep -q "^R-AXIS" && DET=raxis grep -q "^SOURCE_WAVELENGTH=1" tmp2 && DET=dtrek grep -q mar345 tmp2 && DET=MAR345 # identify other detector types in the same way # parse ASCII header of first frame if [ "$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 [ "$DET" == "mccd" ]; then echo Data from a MarCCD detector DETECTOR="CCDCHESS MINIMUM_VALID_PIXEL_VALUE= 1 OVERLOAD= 65500" SENSOR_THICKNESS=0.01 # use first frame of dataset to obtain parameters # Check detector serial number and recognize beamline for reversed-phi setting. # Known detectors for reversed-phi in SPring-8: 24: BL26B2 Mar225, 31: BL32XU MX225HE, 38: BL44XU MX225HE, 42: BL44XU MX300HE, 40: BL41XU MX225HE, 106: BL32XU MX225HS REVERSEPHI_SNs=" 24 31 38 40 42 106 " # get detector serial number and check if it is included in the list DET_SN=`grep "Detector Serial Number =" tmp2 | sed "s/Detector Serial Number = //"` if echo "${DET_SN}${REVERSEPHI_SNs}" | sort | uniq -d | grep [0-9] > /dev/null; then REVERSE_PHI="yes" fi # offsets are documented; values can be found in mccd_xdsparams.pl script IFS=$'\n' cp $FIRSTFRAME tmp2 unset IFS let SKIP=1024+80 NX=$(od -t dI -j $SKIP -N 4 tmp2 | head -1 | awk '{print $2}') let SKIP=$SKIP+4 NY=$(od -t dI -j $SKIP -N 4 tmp2 | head -1 | awk '{print $2}') let SKIP=1720 DETECTOR_DISTANCE=$(od -t dI -j $SKIP -N 4 tmp2 | head -1 | awk '{print $2}') DETECTOR_DISTANCE=`echo "scale=3; $DETECTOR_DISTANCE/1000" | bc -l` let SKIP=1024+256+128+256+4 ORGX=$(od -t dI -j $SKIP -N 4 tmp2 | head -1 | awk '{print $2}') ORGX=`echo "scale=2; $ORGX/1000" | bc -l ` let SKIP=$SKIP+4 ORGY=$(od -t dI -j $SKIP -N 4 tmp2 | head -1 | awk '{print $2}') ORGY=`echo "scale=2; $ORGY/1000" | bc -l ` # FIXME 25.5.2015: reverse ORGX and ORGY for BM14 @ ESRF (no serial number in header) let SKIP=1024+736 OSCILLATION_RANGE=$(od -t dI -j $SKIP -N 4 tmp2 | head -1 | awk '{print $2}') OSCILLATION_RANGE=`echo "scale=3; $OSCILLATION_RANGE/1000" | bc -l` let SKIP=1024+256+128+256+128+4 QX=$(od -t dI -j $SKIP -N 4 tmp2 | head -1 | awk '{print $2}') QX=`echo "scale=10; $QX/1000000" |bc -l ` let SKIP=$SKIP+4 QY=$(od -t dI -j $SKIP -N 4 tmp2 | head -1 | awk '{print $2}') QY=`echo "scale=10; $QY/1000000" |bc -l ` let SKIP=1024+256+128+256+128+128+12 X_RAY_WAVELENGTH=$(od -t dI -j $SKIP -N 4 tmp2 | head -1 | awk '{print $2}') X_RAY_WAVELENGTH=`echo "scale=5; $X_RAY_WAVELENGTH/100000" | bc -l` # 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 ORGX=`echo "scale=1; $ORGX/$QX" | bc -l` ORGY=`echo "scale=1; $ORGY/$QY" | 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 [ "$DET" == "adsc" ]; then DETECTOR="ADSC MINIMUM_VALID_PIXEL_VALUE= 1 OVERLOAD= 65000" echo Data from ADSC detector. Obtaining ORGX, ORGY depends on beamline setup: SENSOR_THICKNESS=0.01 sed s/\;// tmp2 > tmp1 mv tmp1 tmp2 # find X_RAY_WAVELENGTH: X_RAY_WAVELENGTH=`grep WAVELENGTH tmp2 | head -1 | sed s/WAVELENGTH=//` # find NX, QX, ORGX and ORGY: NX=`grep SIZE1 tmp2 | tail -1 | sed s/SIZE1=//` QX=`grep PIXEL_SIZE tmp2 | sed s/PIXEL_SIZE=//` # FIXME - next 2 lines should be done properly, from header NY=$NX QY=$QX 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 - COMMENT_ORGXY=" ! Following are possible beam center interpretations for ADSC detectors" # at ESRF, PF, ALS 5.0.2 and ... (pls fill in!) the following should be used: ORGX1=`echo "scale=1; $BEAM_CENTER_Y/$QX" | bc -l` ORGY1=`echo "scale=1; $BEAM_CENTER_X/$QX" | bc -l` echo - at ESRF, PF, APS Argonne BLs use: ORGX=$ORGX1 ORGY=$ORGY1 COMMENT_ORGXY="${COMMENT_ORGXY} ! ORGX= $ORGX1 ORGY= $ORGY1 ! For ESRF, PF, APS Argonne ..." # this 2nd alternative convention should be used at the following beamlines (pls complete the list): ALS 5.0.3, ... ORGX2=`echo "scale=1; $NX-$BEAM_CENTER_X/$QX" | bc -l ` ORGY2=`echo "scale=1; $BEAM_CENTER_Y/$QX" | bc -l ` echo - at e.g. ALS 5.0.3 use: ORGX=$ORGX2 ORGY=$ORGY2 COMMENT_ORGXY="${COMMENT_ORGXY} ! ORGX= $ORGX2 ORGY= $ORGY2 ! For ALS 5.0.3,.." # this 3rd alternative convention should be used at the following beamlines (pls complete the list): ALS 8.2.2, ... # this alternative is written into the generated XDS.INP ! You have to correct this manually in XDS.INP, or adjust this script. ORGX3=`echo "scale=1; $BEAM_CENTER_X/$QX" | bc -l ` ORGY3=`echo "scale=1; $NX-$BEAM_CENTER_Y/$QX" | bc -l ` echo - at e.g. ALS 8.2.2 use: ORGX=$ORGX3 ORGY=$ORGY3 - this is written to XDS.INP if beamline is not detected COMMENT_ORGXY="${COMMENT_ORGXY} ! ORGX= $ORGX3 ORGY= $ORGY3 ! For ALS 8.2.2,.." # this 4th alternative convention should be used at the following beamlines (pls complete the list): SPring-8, ... ORGX4=`echo "scale=1; $BEAM_CENTER_X/$QX" | bc -l ` ORGY4=`echo "scale=1; $BEAM_CENTER_Y/$QX" | bc -l ` echo - at e.g. SPring-8 use: ORGX=$ORGX4 ORGY=$ORGY4 COMMENT_ORGXY="${COMMENT_ORGXY} ! ORGX= $ORGX4 ORGY= $ORGY4 ! For SPring-8,.." # Decision of beam center convention based on detector serial numbers. DET_SN=`grep DETECTOR_SN tmp2 | sed -e "s/DETECTOR_SN=//"` # For convention 1; Known PF detectors = 449: NW12A Q210, 472: NE3A Q270, 474: BL17A Q270, 912: BL5A Q315, 923: ALS BL5.0.2 Q315, 933: AichiSR BL2S1 Q315 ORG1_SNs=" 449 472 474 912 923 933 911 446 " ORG4_SNs=" 915 " if echo "${DET_SN}${ORG1_SNs}" | sort | uniq -d | grep [0-9] > /dev/null; then ORGX=$ORGX1 ORGY=$ORGY1 elif echo "${DET_SN}${ORG4_SNs}" | sort | uniq -d | grep [0-9] > /dev/null; then ORGX=$ORGX4 ORGY=$ORGY4 else ORGX=$ORGX3 ORGY=$ORGY3 fi # Check detector serial number and recognize beamline for reversed-phi setting. # Known detectors for reversed-phi in SPring-8: 915: BL38B1 Q315 REVERSEPHI_SNs=" 915 " if echo "${DET_SN}${REVERSEPHI_SNs}" | sort | uniq -d | grep [0-9] > /dev/null; then REVERSE_PHI="yes" fi # find DETECTOR_DISTANCE and OSCILLATION_RANGE: DETECTOR_DISTANCE=`grep ^DISTANCE tmp2 | sed s/DISTANCE=//` OSCILLATION_RANGE=`grep OSC_RANGE tmp2 | sed s/OSC_RANGE=//` elif [ "$DET" == "pilatus" ]; then DETECTOR="PILATUS MINIMUM_VALID_PIXEL_VALUE=0 OVERLOAD= 1048576 !PILATUS" QX=0.172 QY=0.172 echo Data from a Pilatus detector sed s/#// tmp2 > tmp1 mv tmp1 tmp2 # find SENSOR_THICKNESS: SENSOR_THICKNESS=`grep thickness tmp2 | sed -e s/'Silicon sensor, thickness'// | awk '{print $1*1000}'` # find X_RAY_WAVELENGTH: X_RAY_WAVELENGTH=`grep Wavelength tmp2 | sed -e s/Wavelength// -e s/A// | awk '{print $1}'` # find NX and NY; 2463/2527 is 6M, 1475/1679 is 2M NX=`grep X-Binary-Size-Fastest-Dimension tmp2 | awk '{print $2}'` NY=`grep X-Binary-Size-Second-Dimension tmp2 | awk '{print $2}'` # 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 $2}' tmp2` # get detector serial number and check if it is included in the list # Known detectors for reversed-phi in SPring-8: BL41XU PILATUS3 6M 60-0125 DET_SN=`grep "Detector:" tmp2 | sed "s/^.*Detector: *//"` REVERSEPHI_SNs=" PILATUS3 6M, S/N 60-0125 " if echo "${DET_SN}${REVERSEPHI_SNs}" | sort | uniq -d | grep [0-9] > /dev/null; then REVERSE_PHI="yes" fi elif [ "$DET" == "raxis" ]; then echo Data from a RAXIS detector DETECTOR="RAXIS MINIMUM_VALID_PIXEL_VALUE=0 OVERLOAD=2000000" #let SKIP=768 #NX=$(od -t x -j $SKIP -N 4 $FIRSTFRAME |awk 'NR==1{print toupper($2)}'|perl -nle '@array= $_ =~/.{2}/g; print "ibase=16;obase=A;".join("",reverse @array)'|bc) NX=$(python -c 'import struct; f=open("'$FIRSTFRAME'","rb");f.seek(768);print "%.4d"%struct.unpack(">i",f.read(4))') NY=$(python -c 'import struct; f=open("'$FIRSTFRAME'","rb");f.seek(772);print "%.4d"%struct.unpack(">i",f.read(4))') DETECTOR_DISTANCE=$(python -c 'import struct; f=open("'$FIRSTFRAME'","rb");f.seek(344);print "-%.4f"%struct.unpack(">f",f.read(4))') ORGX=$(python -c 'import struct; f=open("'$FIRSTFRAME'","rb");f.seek(540);print "%.4f"%struct.unpack(">f",f.read(4))') ORGY=$(python -c 'import struct; f=open("'$FIRSTFRAME'","rb");f.seek(544);print "%.4f"%struct.unpack(">f",f.read(4))') OSCILLATION_RANGE=$(python -c 'import struct; f=open("'$FIRSTFRAME'","rb");f.seek(524);phis,phie=struct.unpack(">ff",f.read(8));print "%.4f"%(phie-phis)') QX=$(python -c 'import struct; f=open("'$FIRSTFRAME'","rb");f.seek(776);print "%.6f"%struct.unpack(">f",f.read(4))') QY=$(python -c 'import struct; f=open("'$FIRSTFRAME'","rb");f.seek(780);print "%.6f"%struct.unpack(">f",f.read(4))') X_RAY_WAVELENGTH=$(python -c 'import struct; f=open("'$FIRSTFRAME'","rb");f.seek(292);print "%.6f"%struct.unpack(">f",f.read(4))') elif [ "$DET" == "dtrek" ]; then echo "Data from a RAXIS or Saturn detector with dTREK format" sed s/\;// tmp2 > tmp1 mv tmp1 tmp2 dname=`grep "DETECTOR_NAMES=" tmp2 | sed -e "s/.*=//"` if [ "$dname" == "CCD_" ]; then DETECTOR="SATURN MINIMUM_VALID_PIXEL_VALUE=1" dtrek_det="saturn" else # should be RX_ DETECTOR="RAXIS MINIMUM_VALID_PIXEL_VALUE=0" dtrek_det="raxis" fi # Saturn on SPring-8 BL26B1 if grep "CCD_DETECTOR_IDENTIFICATION=MSC_REIT_A200_SN09250183" tmp2 > /dev/null; then REVERSE_PHI="yes" fi # find OVERLOAD SATURATED_VALUE=`grep SATURATED_VALUE tmp2 | head -1 | sed s/SATURATED_VALUE=//` DETECTOR="${DETECTOR} OVERLOAD=${SATURATED_VALUE}" # find X_RAY_WAVELENGTH: X_RAY_WAVELENGTH=(`grep SOURCE_WAVELENGTH tmp2 | head -1 | sed s/SOURCE_WAVELENGTH=//`) X_RAY_WAVELENGTH=${X_RAY_WAVELENGTH[1]} # find NX,NY,QX,QY # NX,NY should be read from *_DETECTOR_DIMENSIONS? NX=`grep SIZE1 tmp2 | tail -1 | sed s/SIZE1=//` NY=`grep SIZE2 tmp2 | tail -1 | sed s/SIZE2=//` DET_SIZE=(`grep ${dname}DETECTOR_SIZE tmp2 | tail -1 | sed s/.*_DETECTOR_SIZE=//`) QX=`echo "scale=6; ${DET_SIZE[0]} / $NX" | bc -l` QY=`echo "scale=6; ${DET_SIZE[1]} / $NY" | bc -l` # find ORGX, ORGY SPATIAL_DISTORTION_INFO=(`grep ${dname}SPATIAL_DISTORTION_INFO tmp2 | tail -1 | sed s/.*_SPATIAL_DISTORTION_INFO=//`) ORGX=${SPATIAL_DISTORTION_INFO[0]} ORGY=${SPATIAL_DISTORTION_INFO[1]} # find DETECTOR_DISTANCE GONIO_NAMES=(`grep ${dname}GONIO_NAMES tmp2 | tail -1 | sed s/.*_GONIO_NAMES=//`) GONIO_VALUES=(`grep ${dname}GONIO_VALUES tmp2 | tail -1 | sed s/.*_GONIO_VALUES=//`) GONIO_UNITS=(`grep ${dname}GONIO_UNITS tmp2 | tail -1 | sed s/.*_GONIO_UNITS=//`) for i in `seq 1 ${#GONIO_NAMES[*]}` do idx=$((i-1)) if [ "${GONIO_NAMES[$idx]}" == "Distance" ]; then DETECTOR_DISTANCE="-${GONIO_VALUES[$idx]}" # TODO: Check unit!! - ${GONIO_UNITS[$idx]} fi done # find OSCILLATION_RANGE ROTATION=(`grep "^ROTATION=" tmp2 | tail -1 | sed s/ROTATION=//`) OSCILLATION_RANGE=${ROTATION[2]} # NOTE: how can we know correct ROTATION_AXIS=? elif [ "$DET" == "MAR345" ]; then echo "Data from a Mar345 image plate detector" DETECTOR="MAR345 MINIMUM_VALID_PIXEL_VALUE=0 OVERLOAD=130000" NX=`awk '/FORMAT/{print $2}' tmp2` NY=$NX QX=`awk '/PIXEL/{print $3/1000.}' tmp2` QY=`awk '/PIXEL/{print $5/1000.}' tmp2` if grep -q 'CENTER' tmp2; then echo Beam center found. ORGX=`grep 'CENTER' tmp2 | awk '{print $3}'` ORGY=`grep 'CENTER' tmp2 | awk '{print $5}'` else echo No beam center was found. Setting beam center to the middle of the detector. ORGX=`echo $NX / 2 | bc` ORGY=`echo $NY / 2 | bc` fi DETECTOR_DISTANCE=`grep 'DISTANCE' tmp2 | awk '{print $2}'` X_RAY_WAVELENGTH=`grep 'WAVELENGTH' tmp2 | awk '{print $2}'` OSCILLATION_RANGE=`grep 'PHI' tmp2 | awk '{print $5-$3}'` TRUSTED_REGION="0 0.99" 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 ! written by generate_XDS.INP version $REVISION JOB= XYCORR INIT COLSPOT IDXREF DEFPIX INTEGRATE CORRECT ORGX= $ORGX ORGY= $ORGY ! check these values with adxv !\ $COMMENT_ORGXY 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=$DATA_RANGE SPOT_RANGE=$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 ! IDXREF now obeys INCLUDE_RESOLUTION_RANGE and EXCLUDE_RESOLUTION_RANGE to exclude ice-rings 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 ! UNTRUSTED_QUADRILATERAL= x1 y1 x2 y2 x3 y3 x4 y4 ! see documentation ! ! parameters with changes wrt default values: TRUSTED_REGION=$TRUSTED_REGION VALUE_RANGE_FOR_TRUSTED_DETECTOR_PIXELS=6000. 30000. ! often 7000 or 8000 is ok STRONG_PIXEL=4 ! COLSPOT: only use strong reflections (default is 3) MINIMUM_NUMBER_OF_PIXELS_IN_A_SPOT=3 ! default of 6 is sometimes too high ! close spots/long cell axis: reduce SEPMIN and CLUSTER_RADIUS from their defaults of 6 and 3 ! SEPMIN=4 CLUSTER_RADIUS=2 ! should be default for Pilatus and other detectors with low PSF ! since XDS 01-MAR-2015, POSITION is used instead of DISTANCE. Older versions do it the other way round. ! nowadays headers are usually correct so refine DISTANCE/POSITION in INTEGRATE but not IDXREF REFINE(IDXREF)=CELL BEAM ORIENTATION AXIS ! DISTANCE POSITION REFINE(INTEGRATE)= DISTANCE POSITION BEAM ORIENTATION ! AXIS CELL ! REFINE(CORRECT)=CELL BEAM ORIENTATION AXIS DISTANCE POSITION ! Default is: refine everything ! parameters specifically for this detector and beamline: DETECTOR= $DETECTOR SENSOR_THICKNESS= $SENSOR_THICKNESS ! attention CCD detectors: for very high resolution (better than 1A) make sure to specify SILICON ! as about 32* what CORRECT.LP suggests (absorption of phosphor is much higher than that of silicon). ! Better: read the article http://strucbio.biologie.uni-konstanz.de/xdswiki/index.php/SILICON . NX= $NX NY= $NY QX= $QX QY= $QY ! to make CORRECT happy if frames are unavailable eof if [ "$DET" == "raxis" -o "$dtrek_det" == "raxis" ]; then cat >> XDS.INP << eof DIRECTION_OF_DETECTOR_X-AXIS=1 0 0 DIRECTION_OF_DETECTOR_Y-AXIS=0 -1 0 INCIDENT_BEAM_DIRECTION=0 0 1 ROTATION_AXIS=0 1 0 !FRACTION_OF_POLARIZATION=0.98 ! uncomment if synchrotron POLARIZATION_PLANE_NORMAL=1 0 0 eof else if [ "$REVERSE_PHI" == "no" ]; then echo 'ROTATION_AXIS=1 0 0 ! Australian Synchrotron, SERCAT ID-22 (?), APS 19-ID (?), ESRF BM30A, SPring-8, SSRF BL17U need -1 0 0. Diamond ID24 needs 0 -1 0' >> XDS.INP else echo 'ROTATION_AXIS=-1 0 0 ! if this is wrong, please contact author.' >> XDS.INP fi if [ "$dtrek_det" == "saturn" ]; then cat >> XDS.INP << eof DIRECTION_OF_DETECTOR_X-AXIS=-1 0 0 DIRECTION_OF_DETECTOR_Y-AXIS= 0 1 0 eof else cat >> XDS.INP << eof DIRECTION_OF_DETECTOR_X-AXIS=1 0 0 DIRECTION_OF_DETECTOR_Y-AXIS=0 1 0 eof fi cat >> XDS.INP << eof INCIDENT_BEAM_DIRECTION=0 0 1 FRACTION_OF_POLARIZATION=0.98 ! better value is provided by beamline staff! POLARIZATION_PLANE_NORMAL=0 1 0 eof fi cat >> XDS.INP << eof !used by DEFPIX and CORRECT to exclude ice-reflections / ice rings - uncomment if necessary !EXCLUDE_RESOLUTION_RANGE= 3.93 3.87 !ice-ring at 3.897 Angstrom !EXCLUDE_RESOLUTION_RANGE= 3.70 3.64 !ice-ring at 3.669 Angstrom !EXCLUDE_RESOLUTION_RANGE= 3.47 3.41 !ice-ring at 3.441 Angstrom !EXCLUDE_RESOLUTION_RANGE= 2.70 2.64 !ice-ring at 2.671 Angstrom !EXCLUDE_RESOLUTION_RANGE= 2.28 2.22 !ice-ring at 2.249 Angstrom !EXCLUDE_RESOLUTION_RANGE= 2.102 2.042 !ice-ring at 2.072 Angstrom - strong !EXCLUDE_RESOLUTION_RANGE= 1.978 1.918 !ice-ring at 1.948 Angstrom - weak !EXCLUDE_RESOLUTION_RANGE= 1.948 1.888 !ice-ring at 1.918 Angstrom - strong !EXCLUDE_RESOLUTION_RANGE= 1.913 1.853 !ice-ring at 1.883 Angstrom - weak !EXCLUDE_RESOLUTION_RANGE= 1.751 1.691 !ice-ring at 1.721 Angstrom - weak eof if [ "$DET" == "pilatus" ]; then cat >> XDS.INP << eof SEPMIN=4 CLUSTER_RADIUS=2 NUMBER_OF_PROFILE_GRID_POINTS_ALONG_ALPHA/BETA=13 ! Default is 9 - Increasing may improve data NUMBER_OF_PROFILE_GRID_POINTS_ALONG_GAMMA=13 ! accuracy, particularly if finely-sliced on phi, ! and does not seem to have any downsides. eof if [ $NX == "1475" ]; then if ! grep -q Flat_field tmp2 ; then cat >> XDS.INP << eof ! the following specifications are for a detector _without_ proper ! flat_field correction; they cut away one additional pixel adjacent ! to each UNTRUSTED_RECTANGLE !EXCLUSION OF VERTICAL DEAD AREAS OF THE PILATUS 2M DETECTOR UNTRUSTED_RECTANGLE= 486 496 0 1680 UNTRUSTED_RECTANGLE= 980 990 0 1680 !EXCLUSION OF HORIZONTAL DEAD AREAS OF THE PILATUS 2M DETECTOR UNTRUSTED_RECTANGLE= 0 1476 194 214 UNTRUSTED_RECTANGLE= 0 1476 406 426 UNTRUSTED_RECTANGLE= 0 1476 618 638 UNTRUSTED_RECTANGLE= 0 1476 830 850 UNTRUSTED_RECTANGLE= 0 1476 1042 1062 UNTRUSTED_RECTANGLE= 0 1476 1254 1274 UNTRUSTED_RECTANGLE= 0 1476 1466 1486 eof else cat >> XDS.INP << eof !EXCLUSION OF VERTICAL DEAD AREAS OF THE PILATUS 2M DETECTOR UNTRUSTED_RECTANGLE= 487 495 0 1680 UNTRUSTED_RECTANGLE= 981 989 0 1680 !EXCLUSION OF HORIZONTAL DEAD AREAS OF THE PILATUS 2M DETECTOR UNTRUSTED_RECTANGLE= 0 1476 195 213 UNTRUSTED_RECTANGLE= 0 1476 407 425 UNTRUSTED_RECTANGLE= 0 1476 619 637 UNTRUSTED_RECTANGLE= 0 1476 831 849 UNTRUSTED_RECTANGLE= 0 1476 1043 1061 UNTRUSTED_RECTANGLE= 0 1476 1255 1273 UNTRUSTED_RECTANGLE= 0 1476 1467 1485 eof fi elif [ $NX == "2463" ]; then # Pilatus 6M # FIXME: here we could test if a Flat_field correction was applied like we do for 2M cat >> XDS.INP << eof UNTRUSTED_RECTANGLE= 487 495 0 2528 UNTRUSTED_RECTANGLE= 981 989 0 2528 UNTRUSTED_RECTANGLE=1475 1483 0 2528 UNTRUSTED_RECTANGLE=1969 1977 0 2528 UNTRUSTED_RECTANGLE= 0 2464 195 213 UNTRUSTED_RECTANGLE= 0 2464 407 425 UNTRUSTED_RECTANGLE= 0 2464 619 637 UNTRUSTED_RECTANGLE= 0 2464 831 849 UNTRUSTED_RECTANGLE= 0 2464 1043 1061 UNTRUSTED_RECTANGLE= 0 2464 1255 1273 UNTRUSTED_RECTANGLE= 0 2464 1467 1485 UNTRUSTED_RECTANGLE= 0 2464 1679 1697 UNTRUSTED_RECTANGLE= 0 2464 1891 1909 UNTRUSTED_RECTANGLE= 0 2464 2103 2121 UNTRUSTED_RECTANGLE= 0 2464 2315 2333 eof fi fi echo XDS.INP is ready for use. The file has only the most important keywords. echo Full documentation, including complete detector templates, is at echo http://www.mpimf-heidelberg.mpg.de/~kabsch/xds . More documentation in XDSwiki echo After running xds, inspect, using XDS-Viewer, at least the beamstop mask in echo BKGPIX.cbf, and the agreement of predicted and observed spots in FRAME.cbf! rm -f tmp1 tmp2 # end of generate_XDS.INP
System-wide or personal installation
Ask your system adminstrator to cut-and-paste the script into e.g. /usr/local/bin/generate_XDS.INP, and to make it "executable".
But you may also cut-and-paste the script from this webpage into a file in e.g. your home directory; the filename should be generate_XDS.INP. After creating the file, make it executable - e.g. if it's in your $HOME, use:
chmod +x ~/generate_XDS.INP
After that, you can just run it in a similar way as if it were installed in your $PATH:
~/generate_XDS.INP "frms/mydata_1_???.img"
By using your own file, you can easily update to the latest revision, or even change the script, without having to bother the system administrator.
On Mac OS X, installation of the "Command Line Tools" (from http://developer.apple.com/downloads; requires Apple ID) is required (I think). These are also part of the (larger, but also free) Xcode package. This package comes with a license that has to be accepted by the user when running a Command Line Tool for the first time.
Generating generate_XDS.INP from this webpage
Instead of cutting-and-pasting the lines of the script, you (or the system administrator) could just cut-and-paste the following four lines
wget http://strucbio.biologie.uni-konstanz.de/xdswiki/index.php/generate_XDS.INP -O - | \ sed -e s/\ \;/\ /g -e s/\>\;/\>/g -e s/\<\;/\</g -e s/amp\;//g -e s/\"\;/\"/g -e s/\&\#\1\6\0\;/\ /g | \ sed '/# end of generate_XDS.INP/,$d' | awk '/^#/,/rm -f tmp1 tmp2/' > generate_XDS.INP chmod +x generate_XDS.INP
to copy the script from this website into an executable file generate_XDS.INP in your current directory. On a Mac (which does not seem to have wget), one could try
curl -L -o - http://strucbio.biologie.uni-konstanz.de/xdswiki/index.php/generate_XDS.INP | \ sed -e s/\ \;/\ /g -e s/\>\;/\>/g -e s/\<\;/\</g -e s/amp\;//g -e s/\"\;/\"/g -e s/\&\#\1\6\0\;/\ /g | \ sed '/# end of generate_XDS.INP/,$d' | awk '/^#/,/rm -f tmp1 tmp2/' > generate_XDS.INP chmod +x generate_XDS.INP
If you do use cut-and-paste from the webpage, be aware of the following problem report: On the Mac, after loading frames, by clicking “generate XDS.INP”, the program gives some strange symbol “Ô in XDS.INP. And the more you click “save” button, the more “Ô appear. This looks like e.g.
SPACE_GROUP_NUMBER=0 Ã ! 0 if unknown
UNIT_CELL_CONSTANTS= 70 80 90 90 90 90 Ã
The problem is due to the “Rich text” format in TextEdit when saving "generate_XDS.INP". It is solved by re-downloading the script, and changing format to Plain - everything should work then.
Calling generate_XDS.INP from a Python script
It is recommended to use the subprocess.Popen() module instead of os.system():
subprocess.Popen(["generate_XDS.INP",imagepath],stdout=outputfile)
where imagepath is a string containing the path to an image and outputfile is either a chosen variable for an output file or subprocess.PIPE if you're not interested in the output of the script.
The module os.system() internally uses /bin/sh to execute the command and overrides #!/bin/bash at the beginning of the script. While this is not a problem on most operating systems, /bin/sh points to dash instead of bash on Ubuntu, which leads to a program crash with the error message
sh: 1: Syntax error: Bad fd number
Limitations
- The script tries to interpret the header of the frames, so is currently limited to Dectris (Pilatus), ADSC (Quantum), Rigaku (several types) and MAR (CCD and image plate) detectors. Other detectors need some values to be manually filled into XDS.INP - the relevant places are marked with XXX. These are detector properties (type, pixel size and number, min and max counts in a pixel), and experimental parameters like oscillation range, wavelength, distance, and direct beam position (or rather: point of detector that is closest to the crystal). For fine-tuning of detector parameters, see the detector-specific templates.
- The authors have made a "best effort" to provide a XDS.INP that results in the correct sign of the anomalous signal. In the case of one detector type (internally called Rigaku SMV) this requires reversal of one detector axis, and a negative DETECTOR_DISTANCE, as is found in some of the detector-specific templates. For an unusual or unknown detector setup, the correct sign of the anomalous signal needs to be established and verified e.g. with a good dataset from a test crystal that has a anomalous signal. The authors do not take any responsibility for problems arising from incorrect sign of the anomalous signal, nor - obviously! - for any other mischief arising in or from data processing.
- At some beamlines, the ROTATION_AXIS should be -1 0 0 ("backwards") instead of the usual 1 0 0 ("horizontal"), or even 0 1 0 ("vertical") like at one of the PETRA Hamburg BLs. We have only just started the article Beamline notes, and the frame headers do not have this information, so the default chosen by generate_XDS.INP may be wrong and need manual correction.
- Sometimes, the x- and y- values of the primary beam position recorded in the header should be used for ORGY and ORGX (i.e reversed) instead of as ORGX and ORGY. For ADSC, this has been implemented in the script for a number of beamlines. A beamline that is also known to have reversed X and Y is BM14 (ESRF; Mar CCD, as of April 2014) but the script does not currently implement the reversal.
See also
- GlobalPhasing's list of beamlines and their settings is at http://www.globalphasing.com/autoproc/wiki/index.cgi?BeamlineSettings .
- Beamline notes to collect information about specific settings