FSL

#!/bin/sh # dofeatreg # # Matthew Webster, FMRIB Image Analysis Group # # Copyright (C) 2011 University of Oxford # Part of FSL - FMRIB's Software Library # http://www.fmrib.ox.ac.uk/fsl # fsl@fmrib.ox.ac.uk # # Developed at FMRIB (Oxford Centre for Functional Magnetic Resonance # Imaging of the Brain), Department of Clinical Neurology, Oxford # University, Oxford, UK # # # LICENCE # # FMRIB Software Library, Release 5.0 (c) 2012, The University of # Oxford (the "Software") # # The Software remains the property of the University of Oxford ("the # University"). # # The Software is distributed "AS IS" under this Licence solely for # non-commercial use in the hope that it will be useful, but in order # that the University as a charitable foundation protects its assets for # the benefit of its educational and research purposes, the University # makes clear that no condition is made or to be implied, nor is any # warranty given or to be implied, as to the accuracy of the Software, # or that it will be suitable for any particular purpose or for use # under any specific conditions. Furthermore, the University disclaims # all responsibility for the use which is made of the Software. It # further disclaims any liability for the outcomes arising from using # the Software. # # The Licensee agrees to indemnify the University and hold the # University harmless from and against any and all claims, damages and # liabilities asserted by third parties (including claims for # negligence) which arise directly or indirectly from the use of the # Software or the sale of any products based on the Software. # # No part of the Software may be reproduced, modified, transmitted or # transferred in any form or by any means, electronic or mechanical, # without the express permission of the University. The permission of # the University is not required if the said reproduction, modification, # transmission or transference is done without financial return, the # conditions of this Licence are imposed upon the receiver of the # product, and all original and amended source code is included in any # transmitted product. You may be held legally responsible for any # copyright infringement that is caused or encouraged by your failure to # abide by these terms and conditions. # # You are not permitted under this Licence to use this Software # commercially. Use for which any financial return is received shall be # defined as commercial use, and includes (1) integration of all or part # of the source code or the Software into a product for sale or license # by or on behalf of Licensee to third parties or (2) use of the # Software or any derivative of it for research with the final aim of # developing software products for sale or license to a third party or # (3) use of the Software or any derivative of it for research with the # final aim of developing non-software products for sale or license to a # third party, or (4) use of the Software to provide any service to an # external organisation for which payment is received. If you are # interested in using the Software commercially, please contact Isis # Innovation Limited ("Isis"), the technology transfer company of the # University, to negotiate a licence. Contact details are: # innovation@isis.ox.ac.uk quoting reference DE/9564. usage() { echo "Usage: `basename $0` [-pngs]" echo "-a fieldmap image ( for unwarping ). Also enables unwarping mode" echo "-b magnitude image basename ( for unwarping - looks for basename and basename_brain )" echo "-c non-linear configuration ( default T1_2_MNI152_2mm )" echo "-d registration directory" echo "-e echo time" echo "-f signal loss threshold" echo "-g echo spacing" echo "-h high-res structural image" echo "-i input image" echo "-j initial high-res structural image" echo "-k unwarp direction" echo "-l write to log file" echo "-o update files only" echo "-n non-linear reg" echo "-r write to html registration report" echo "-R write to html unwarping report" echo "-s standard image" echo "-u initial high-res DOF" echo "-v initial high-res search" echo "-w high-res DOF" echo "-x high-res search" echo "-y standard DOF" echo "-z standard search" } if [ $# -lt 2 ] then usage exit 1 fi runCommand() { #$1 logFile $2 command $3 writeToFile $1 0 1 "\n$2" output=`sh -c "$2"` if [ x$1 != x ] then echo $output >> $1 2>&1 else echo $output fi output=`echo $output | tail -n 1` if [ "${3}" != "" ] then eval ${3}=\"$output\" fi } writeToFile() { #$1 OutputFile ( if any ) $2 Overwrite/Append ( 1 overwrite, 0 append ) $3 Concatenate Logs ( 0 do nothing 1 concatenate ) $4 string if [ x$1 != x ] then if [ $2 != 1 ] then printf "$4\n" >> $1 else printf "$4\n" > $1 fi fi if [ $3 = 1 -a -d logs ] then cat logs/* > report_log.html fi } new_file() { #$1 name if [ -f $1 -o -d $1 ] then new_file ${1}- /bin/mv $1 ${1}- return 0 fi } createSliceReport() { #$1 image1 $2 image2 $3 report $4 link prefix $5 Legend $6 log runCommand $6 "${FSLDIR}/bin/slicer $1 $2 -s 2 -x 0.35 sla.png -x 0.45 slb.png -x 0.55 slc.png -x 0.65 sld.png -y 0.35 sle.png -y 0.45 slf.png -y 0.55 slg.png -y 0.65 slh.png -z 0.35 sli.png -z 0.45 slj.png -z 0.55 slk.png -z 0.65 sll.png ; ${FSLDIR}/bin/pngappend sla.png + slb.png + slc.png + sld.png + sle.png + slf.png + slg.png + slh.png + sli.png + slj.png + slk.png + sll.png ${1}1.png ; ${FSLDIR}/bin/slicer $2 $1 -s 2 -x 0.35 sla.png -x 0.45 slb.png -x 0.55 slc.png -x 0.65 sld.png -y 0.35 sle.png -y 0.45 slf.png -y 0.55 slg.png -y 0.65 slh.png -z 0.35 sli.png -z 0.45 slj.png -z 0.55 slk.png -z 0.65 sll.png ; ${FSLDIR}/bin/pngappend sla.png + slb.png + slc.png + sld.png + sle.png + slf.png + slg.png + slh.png + sli.png + slj.png + slk.png + sll.png ${1}2.png ; ${FSLDIR}/bin/pngappend ${1}1.png - ${1}2.png ${1}.png; /bin/rm -f sl?.png ${1}2.png" if [ "$1" != "example_func2standard" ] then runCommand $6 "/bin/rm ${1}1.png" fi writeToFile $3 0 0 "$5" writeToFile $3 0 0 "

" } createSmallSliceReport() { #$1 inputImage $2 report $3 log $4 Legend runCommand $3 "${FSLDIR}/bin/slicer $1 -s 3 -x 0.35 sla.png -x 0.45 slb.png -x 0.55 slc.png -x 0.65 sld.png -y 0.35 sle.png -y 0.45 slf.png -y 0.55 slg.png -y 0.65 slh.png -z 0.35 sli.png -z 0.45 slj.png -z 0.55 slk.png -z 0.65 sll.png ; ${FSLDIR}/bin/pngappend sla.png + slb.png + slc.png + sld.png + sle.png + slf.png + slg.png + slh.png + sli.png + slj.png + slk.png + sll.png ${1}.png; rm sl?.png" writeToFile ${2} 0 0 "${4}" } preprocessFieldmaps() { # $1 logfile $2 htmlReport # generate mask for fmap_mag (accounting for the fact that either mag or phase might have been masked in some pre-processing before being enter to FEAT) runCommand $1 "${FSLDIR}/bin/fslmaths FM_UD_fmap_mag_brain -bin FM_UD_fmap_mag_brain_mask -odt short" # remask by the non-zero voxel mask of the fmap_rads image (as prelude may have masked this differently before) # NB: need to use cluster to fill in holes where fmap=0 runCommand $1 "${FSLDIR}/bin/fslmaths FM_UD_fmap -abs -bin -mas FM_UD_fmap_mag_brain_mask -mul -1 -add 1 -bin FM_UD_fmap_mag_brain_mask_inv" runCommand $1 "${FSLDIR}/bin/cluster -i FM_UD_fmap_mag_brain_mask_inv -t 0.5 --no_table -o FM_UD_fmap_mag_brain_mask_idx" runCommand $1 "${FSLDIR}/bin/fslstats FM_UD_fmap_mag_brain_mask_idx -R | awk '{ print \$2 }'" maxidx runCommand $1 "${FSLDIR}/bin/fslmaths FM_UD_fmap_mag_brain_mask_idx -thr $maxidx -bin -mul -1 -add 1 -bin -mas FM_UD_fmap_mag_brain_mask FM_UD_fmap_mag_brain_mask" # refine mask (remove edge voxels where signal is poor) runCommand $1 "${FSLDIR}/bin/fslstats FM_UD_fmap -k FM_UD_fmap_mag_brain_mask -P 50" meanValue runCommand $1 "${FSLDIR}/bin/fslmaths FM_UD_fmap -sub $meanValue -mas FM_UD_fmap_mag_brain_mask FM_UD_fmap" runCommand $1 "${FSLDIR}/bin/fslstats FM_UD_fmap_mag_brain -P 98" thresh50 thresh50=`awk "BEGIN {print $thresh50 / 2.0}"` runCommand $1 "${FSLDIR}/bin/fslmaths FM_UD_fmap_mag_brain -thr $thresh50 -bin FM_UD_fmap_mag_brain_mask50" runCommand $1 "${FSLDIR}/bin/fslmaths FM_UD_fmap_mag_brain_mask -ero FM_UD_fmap_mag_brain_mask_ero" runCommand $1 "${FSLDIR}/bin/fslmaths FM_UD_fmap_mag_brain_mask_ero -add FM_UD_fmap_mag_brain_mask50 -thr 0.5 -bin FM_UD_fmap_mag_brain_mask" runCommand $1 "${FSLDIR}/bin/fslmaths FM_UD_fmap -mas FM_UD_fmap_mag_brain_mask FM_UD_fmap" runCommand $1 "${FSLDIR}/bin/fslmaths FM_UD_fmap_mag_brain -mas FM_UD_fmap_mag_brain_mask FM_UD_fmap_mag_brain" # run despiking filter just on the edge voxels runCommand $1 "${FSLDIR}/bin/fslmaths FM_UD_fmap_mag_brain_mask -ero FM_UD_fmap_mag_brain_mask_ero" runCommand $1 "$FSLDIR/bin/fugue --loadfmap=FM_UD_fmap --savefmap=FM_UD_fmap_tmp_fmapfilt --mask=FM_UD_fmap_mag_brain_mask --despike --despikethreshold=2.1" runCommand $1 "$FSLDIR/bin/fslmaths FM_UD_fmap -sub FM_UD_fmap_tmp_fmapfilt -mas FM_UD_fmap_mag_brain_mask_ero -add FM_UD_fmap_tmp_fmapfilt FM_UD_fmap" runCommand $1 "/bin/rm -f FM_UD_fmap_tmp_fmapfilt* FM_UD_fmap_mag_brain_mask_ero* FM_UD_fmap_mag_brain_mask50* FM_UD_fmap_mag_brain_i*" # now demedian runCommand $1 "${FSLDIR}/bin/fslstats FM_UD_fmap -k FM_UD_fmap_mag_brain_mask -P 50" medianValue runCommand $1 "${FSLDIR}/bin/fslmaths FM_UD_fmap -sub $medianValue -mas FM_UD_fmap_mag_brain_mask FM_UD_fmap" # create report picture of fmap overlaid onto whole-head mag image runCommand $1 "${FSLDIR}/bin/fslstats FM_UD_fmap -R | awk '{ print \$1 }'" fmapmin runCommand $1 "${FSLDIR}/bin/fslmaths FM_UD_fmap -sub $fmapmin -add 10 -mas FM_UD_fmap_mag_brain_mask grot" runCommand $1 "${FSLDIR}/bin/fslstats grot -l 1 -p 0.1 -p 95" fmapminmax runCommand $1 "${FSLDIR}/bin/overlay 0 0 FM_UD_fmap_mag -a grot $fmapminmax fmap+mag" createSmallSliceReport fmap+mag $2 $1 "

Brain-masked B0 fieldmap in colour, overlaid on top of fieldmap magnitude image
" # get a sigloss estimate and make a siglossed mag for forward warp epi_te=`awk "BEGIN {print $echoTime / 1000.0}"` runCommand $1 "${FSLDIR}/bin/sigloss -i FM_UD_fmap --te=$epi_te -m FM_UD_fmap_mag_brain_mask -s FM_UD_fmap_sigloss" siglossthresh=`awk "BEGIN {print 1.0 - ( $signalLossThreshold / 100.0 )}"` runCommand $1 "${FSLDIR}/bin/fslmaths FM_UD_fmap_sigloss -mul FM_UD_fmap_mag_brain FM_UD_fmap_mag_brain_siglossed -odt float" runCommand $1 "${FSLDIR}/bin/fslmaths FM_UD_fmap_sigloss -thr $siglossthresh FM_UD_fmap_sigloss -odt float" runCommand $1 "${FSLDIR}/bin/overlay 1 0 FM_UD_fmap_mag_brain -a FM_UD_fmap_sigloss 0 1 FM_UD_sigloss+mag" createSmallSliceReport FM_UD_sigloss+mag $2 $1 "

Thresholded signal loss weighting image
" } runFlirt() { # $1 in $2 ref $3 dof $4 search $5 interp $6 report $7 in_weighting $8 nonlinearwarpres $9 logfile ${10} fnirt config out=${1}2${2} dof=$3 if [ "$dof" = 3 ] then dof="6 -schedule ${FSLDIR}/etc/flirtsch/sch3Dtrans_3dof" fi doBBR=0; if [ "$dof" = "BBR" ] then doBBR=1 fi #Check for existing registrations if [ `${FSLDIR}/bin/imtest ${1}2${2}_warp` = 1 ] then runCommand $9 "${FSLDIR}/bin/applywarp --ref=$2 --in=$1 --out=$out --warp=${1}2${2}_warp" elif [ -f ${1}2${2}.mat ] then runCommand $9 "${FSLDIR}/bin/flirt -ref $2 -in $1 -out $out -applyxfm -init ${1}2${2}.mat -interp $5" writeToFile $logFile 0 1 "Found file: ${1}2${2}.mat." else #We need to generate transforms writeToFile $logFile 0 1 "did not find file: ${1}2${2}.mat. Generating transform." if [ $doBBR = 0 ] then runCommand $9 "${FSLDIR}/bin/flirt -in $1 -ref $2 -out $out -omat ${out}.mat -cost corratio -dof $dof -searchrx -$4 $4 -searchry -$4 $4 -searchrz -$4 $4 -interp $5 $7" elif [ $doUnwarping = 1 ] then echoSpacingSeconds=`awk "BEGIN {print $echoSpacing / 1000}"` runCommand $9 "${FSLDIR}/bin/epi_reg --epi=$1 --t1=$2_head --t1brain=$2 --out=$out --fmap=unwarp/FM_UD_fmap --fmapmag=unwarp/FM_UD_fmap_mag --fmapmagbrain=unwarp/FM_UD_fmap_mag_brain --echospacing=$echoSpacingSeconds --pedir=$phaseEncodingDirection" runCommand $9 "mv ${out}_fieldmap2str.mat unwarp/FM_UD_fmap_mag_brain2str.mat" runCommand $9 "mv ${out}_fieldmaprads2epi.mat unwarp/FM_UD_fmap2epi.mat" runCommand $9 "${FSLDIR}/bin/immv ${out}_fieldmaprads2epi_shift unwarp/FM_UD_fmap2epi_shift" runCommand $9 "${FSLDIR}/bin/immv ${out}_fieldmap2str unwarp/FM_UD_fmap_mag_brain2str" cd unwarp runCommand $9 "${FSLDIR}/bin/fslstats FM_UD_fmap2epi_shift -R -P 1 -P 99" shiftminmax shiftminR=`echo $shiftminmax | awk {'print $1'}` shiftmaxR=`echo $shiftminmax | awk {'print $2'}` shiftminr=`echo $shiftminmax | awk {'print $3'}` shiftminr=`awk "BEGIN {print $shiftminr * -1.0}"` shiftmaxr=`echo $shiftminmax | awk {'print $4'}` runCommand $9 "${FSLDIR}/bin/flirt -ref ../example_func -in FM_UD_fmap_mag_brain -applyxfm -init FM_UD_fmap2epi.mat -out EF_UD_fmap_mag_brain" runCommand $9 "${FSLDIR}/bin/fslmaths FM_UD_fmap2epi_shift -mul -1 grot" runCommand $9 "${FSLDIR}/bin/overlay 1 0 EF_UD_fmap_mag_brain -a FM_UD_fmap2epi_shift 0.0001 $shiftmaxr grot 0.0001 $shiftminr EF_UD_shift+mag" createSmallSliceReport EF_UD_shift+mag $htmlReport2 $9 "

Unwarping shift map, in voxels ${shiftminR} 0 ${shiftmaxR}
" runCommand $9 "/bin/cp ${FSLDIR}/etc/luts/ramp.gif .ramp.gif" runCommand $9 "/bin/cp ${FSLDIR}/etc/luts/ramp2.gif .ramp2.gif" #Generate fieldmap_mag2highres with WM edges runCommand $9 "overlay 0 0 FM_UD_fmap_mag_brain2str -a ../${out}_fast_wmedge 0.001 5 fieldmap2edges" createSmallSliceReport fieldmap2edges $htmlReport2 $9 "

White matter edges, overlaid on top of fieldmap image
" #Compare fieldmap against highres and vice versa createSliceReport FM_UD_fmap_mag_brain2str ../highres $htmlReport2 "reg/unwarp/" "

Registration of fieldmap to highres" $9 #Compare example func distorted and undistorted to highres runCommand $9 "${FSLDIR}/bin/flirt -ref ../highres -in ../example_func -out example_func_distorted2highres -applyxfm -init ../example_func2highres.mat -interp $5" createSliceReport example_func_distorted2highres ../highres $htmlReport2 "reg/unwarp/" "

Registration of example_func to highres without fieldmap correction" $9 createSliceReport ../example_func2highres ../highres $htmlReport2 "reg/unwarp/" "

Registration of example_func to highres with fieldmap correction" $9 runCommand $9 "${FSLDIR}/bin/convert_xfm -inverse -omat highres2example_func.mat ../example_func2highres.mat " runCommand $9 "${FSLDIR}/bin/applywarp -i ../example_func2highres -r ../example_func --premat=highres2example_func.mat -o example_func_undistorted" runCommand $9 "${FSLDIR}/bin/overlay 0 0 example_func_distorted2highres -a ../${out}_fast_wmedge 0.001 10 grot" runCommand $9 "${FSLDIR}/bin/slicer grot -s 3 -x 0.35 sla.png -x 0.45 slb.png -x 0.55 slc.png -x 0.65 sld.png -y 0.35 sle.png -y 0.45 slf.png -y 0.55 slg.png -y 0.65 slh.png -z 0.35 sli.png -z 0.45 slj.png -z 0.55 slk.png -z 0.65 sll.png ; ${FSLDIR}/bin/pngappend sla.png + slb.png + slc.png + sld.png + sle.png + slf.png + slg.png + slh.png + sli.png + slj.png + slk.png + sll.png EF_D_edges.gif" runCommand $9 "${FSLDIR}/bin/overlay 0 0 ../example_func2highres -a ../${out}_fast_wmedge 0.001 10 grot" runCommand $9 "${FSLDIR}/bin/slicer grot -s 3 -x 0.35 sla.png -x 0.45 slb.png -x 0.55 slc.png -x 0.65 sld.png -y 0.35 sle.png -y 0.45 slf.png -y 0.55 slg.png -y 0.65 slh.png -z 0.35 sli.png -z 0.45 slj.png -z 0.55 slk.png -z 0.65 sll.png ; ${FSLDIR}/bin/pngappend sla.png + slb.png + slc.png + sld.png + sle.png + slf.png + slg.png + slh.png + sli.png + slj.png + slk.png + sll.png EF_U_edges.gif" runCommand $9 "${FSLDIR}/bin/whirlgif -o EF_UD_movie.gif -time 50 -loop 0 EF_D_edges.gif EF_U_edges.gif; /bin/rm -f sla* slb* slc* sld* sle* slf* slg* slh* sli* slj* slk* sll* grot*" writeToFile $htmlReport2 0 0 "

Movie of distorted and undistorted example_func images

" runCommand $9 "${FSLDIR}/bin/imcp example_func_undistorted ../example_func" #replace the old example_func with the fieldmap corrected version cd ${outputDirectory}/reg runCommand $9 "${FSLDIR}/bin/imcp ../example_func ../example_func_distorted" runCommand $9 "${FSLDIR}/bin/imcp example_func ../example_func" else runCommand $9 "${FSLDIR}/bin/epi_reg --epi=$1 --t1=$2_head --t1brain=$2 --out=$out" fi if [ "${8}" != "" ] #Run fnirt as we have nonlinearwarpres then immv ${1}2${2} ${1}2${2}_linear runCommand $9 "${FSLDIR}/bin/fnirt --iout=${1}2${2}_head --in=${1}_head --aff=${1}2${2}.mat --cout=${1}2${2}_warp --iout=${1}2${2} --jout=${1}2${1}_jac --config=${10} --ref=${2}_head --refmask=${2}_mask --warpres=${8},${8},${8}" runCommand $9 "${FSLDIR}/bin/applywarp -i ${1} -r ${2} -o ${1}2${2} -w ${1}2${2}_warp" #check if we need this fi fi if [ -f ${1}2${2}.mat ] then runCommand $9 "${FSLDIR}/bin/convert_xfm -inverse -omat ${2}2${1}.mat ${out}.mat" fi if [ -f ${1}2${2}_warp ] then runCommand $9 "invwarp -w ${1}2${2}_warp -o ${2}2{1}_warp -r ${2}" fi createSliceReport $out $2 $6 "reg/" "

Registration of $1 to $2" $9 } outputDirectory=`pwd` htmlReport="/dev/null" htmlReport2="/dev/null" logFile="/dev/null" nonLinearResolution="" inputImage="" initialHighresImage="" initialHighresDof=3 initialHighresSearch=0 highresImage="" highresDof=6 highresSearch=90 standardImage="" standardDof=12 standardSearch=90 onlyUpdate=0 doUnwarping=0 fnirtConfig="T1_2_MNI152_2mm" echoTime=-1 signalLossThreshold=-1 echoSpacing=-1 phaseEncodingDirection=-1 while getopts ":a:b:c:d:e:f:g:h:i:j:l:h:n:op:r:R:s:u:v:w:x:y:z:" Option do case $Option in a ) echo "Option -a ( fieldmap image ) selected with argument \"$OPTARG\"" #output directory fieldmapImage=$OPTARG doUnwarping=1 ;; b ) echo "Option -b ( field ) selected with argument \"$OPTARG\"" #output directory magnitudeImage=$OPTARG ;; c ) echo "Option -c ( fnirt config ) selected with argument \"$OPTARG\"" #output directory fnirtConfig=$OPTARG ;; d ) echo "Option -d ( output directory ) selected with argument \"$OPTARG\"" #output directory outputDirectory=$OPTARG ;; e ) echo "Option -e ( echo time ) selected with argument \"$OPTARG\"" #output directory echoTime=$OPTARG ;; f ) echo "Option -f ( signal loss Threshold ) selected with argument \"$OPTARG\"" #output directory signalLossThreshold=$OPTARG ;; g ) echo "Option -g ( echo spacing ) selected with argument \"$OPTARG\"" #output directory echoSpacing=$OPTARG ;; h ) echo "Option -h ( high-res structural image ) selected with argument \"$OPTARG\"" #high-res structural image highresImage=$OPTARG ;; i ) echo "Option -i ( main input ) input with argument \"$OPTARG\"" #main input ( example func ) inputImage=$OPTARG ;; j ) echo "Option -j ( initial high-res image ) input with argument \"$OPTARG\"" #initial high-res structural image initialHighresImage=$OPTARG ;; l ) echo "Option -l ( logfile )input with argument \"$OPTARG\"" #log file logFile=$OPTARG ;; n ) echo "Option -n ( use nonlinear reg ) input with argument \"$OPTARG\"" #nonlinear registration nonLinearResolution=$OPTARG ;; o ) echo "Option -o only update ( don't back up/create new reg directory" onlyUpdate=1 ;; p ) echo "Option -p ( phase encoding direction ) selected with argument \"$OPTARG\"" #write to html report phaseEncodingDirection=$OPTARG ;; r ) echo "Option -r ( html registration report ) selected with argument \"$OPTARG\"" #write to html report htmlReport=$OPTARG ;; R ) echo "Option -R ( html unwarping report ) selected with argument \"$OPTARG\"" #write to html report htmlReport2=$OPTARG ;; s ) echo "Option -s ( standard image ) selected with argument \"$OPTARG\"" #standard image standardImage=$OPTARG ;; u ) echo "Option -u ( initial highres dof ) selected with argument \"$OPTARG\"" #initial highres dof initialHighresDof=$OPTARG ;; v ) echo "Option -v ( initial highres search ) selected with argument \"$OPTARG\"" #initial highres search initialHighresSearch=$OPTARG ;; w ) echo "Option -w ( highres dof ) selected with argument \"$OPTARG\"" #highres dof highresDof=$OPTARG ;; x ) echo "Option -x ( highres search ) selected with argument \"$OPTARG\"" #highres search highresSearch=$OPTARG ;; y ) echo "Option -y ( standard dof ) selected with argument \"$OPTARG\"" #standard dof standardDof=$OPTARG ;; z ) echo "Option -z ( standard search ) selected with argument \"$OPTARG\"" #standard search standardSearch=$OPTARG ;; * ) echo "Unimplemented option chosen." ;; # Default. esac done cd $outputDirectory writeToFile $logFile 1 0 "

Registration

"
writeToFile $htmlReport 1 0 "
FSL"

if [ $doUnwarping = 1 ] #Initialise files
    then
    writeToFile $htmlReport 0 0 "Unwarping"
fi

writeToFile $htmlReport 0 0 "Registration

Analysis methods

FMRI data processing was carried out using FEAT (FMRI Expert Analysis Tool) Version $fmri(version), part of FSL (FMRIB's Software Library, www.fmrib.ox.ac.uk/fsl). Registration to high resolution structural and/or standard space images was carried out using FLIRT [Jenkinson 2001, 2002]." 

if [ "$nonLinearResolution" != "" ] 
    then
    writeToFile $htmlReport 0 0 "Registration from high resolution structural to standard space was then further refined using FNIRT nonlinear registration [Andersson 2007a, 2007b]."
fi

writeToFile $htmlReport 0 0  "
References

[Jenkinson 2001] M. Jenkinson and S.M. Smith. A Global Optimisation Method for Robust Affine Registration of Brain Images. Medical Image Analysis 5:2(143-156) 2001.

[Jenkinson 2002] M. Jenkinson, P. Bannister, M. Brady and S. Smith. Improved Optimisation for the Robust and Accurate Linear Registration and Motion Correction of Brain Images. NeuroImage 17:2(825-841) 2002.
"

if [ "$nonLinearResolution" != "" ]
    then 
    writeToFile $htmlReport 0 0 "
[Andersson 2007a] J.L.R. Andersson, M. Jenkinson and S.M. Smith. Non-linear optimisation. FMRIB technical report TR07JA1, 2007.

[Andersson 2007b] J.L.R. Andersson, M. Jenkinson and S.M. Smith. Non-linear registration, aka Spatial normalisation. FMRIB technical report TR07JA2, 2007.

"
fi

writeToFile $htmlReport 0 0 "



"

#Start the registrations/unwarping proper
if [ $onlyUpdate != 1 ]
    then 
    new_file ${outputDirectory}/reg
    runCommand $logFile "/bin/mkdir -p ${outputDirectory}/reg"
fi
cd ${outputDirectory}/reg

if [ `${FSLDIR}/bin/imtest example_func` = 0 ]
    then ${FSLDIR}/bin/imcp $inputImage example_func
fi

if [ $doUnwarping = 1 ] #Initialise files
    then

    writeToFile $htmlReport2 1 0 "
FSL
Unwarping

Analysis methods
FMRI data processing was carried out using FEAT (FMRI Expert Analysis Tool) Version $fmri(version), part of FSL (FMRIB's Software Library, www.fmrib.ox.ac.uk/fsl).
References

[Jenkinson 2003] M. Jenkinson. A fast, automated, n-dimensional phase unwrapping algorithm. Magnetic Resonance in Medicine 49(1):193-197 2003.

[Jenkinson 2004] M. Jenkinson. Improving the registration of B0-disorted EPI images using calculated cost function weights. Tenth Int. Conf. on Functional Mapping of the Human Brain 2004.
"

    mkdir unwarp
    cd unwarp
    runCommand $logFile "${FSLDIR}/bin/fslmaths ../example_func EF_D_example_func"
    runCommand $logFile "${FSLDIR}/bin/fslmaths $fieldmapImage FM_UD_fmap"
    runCommand $logFile "${FSLDIR}/bin/fslmaths $magnitudeImage FM_UD_fmap_mag"


    if [ `${FSLDIR}/bin/imtest $magnitudeImage` = 1 ]
    then
    runCommand $logFile "${FSLDIR}/bin/fslmaths `${FSLDIR}/bin/remove_ext $magnitudeImage` FM_UD_fmap_mag_brain"

	magnitudeHead=${magnitudeImage/_brain/}
	if [ `${FSLDIR}/bin/imtest $magnitudeHead` != 1 ] 
	    then magnitudeHead=$magnitudeImage
	fi
	runCommand $logFile "${FSLDIR}/bin/fslmaths $magnitudeHead  FM_UD_fmap_mag"
	runCommand $logFile "${FSLDIR}/bin/fslstats FM_UD_fmap_mag_brain -V | awk '{ print \$1 }'" nzvox
	runCommand $logFile "${FSLDIR}/bin/fslstats FM_UD_fmap_mag_brain -v | awk '{ print \$1 }'" nvox
	frac_nzvox=`awk "BEGIN {print $nzvox / $nvox}"`
	writeToFile $logFile 0 1 "$frac_nzvox"
        if [ `expr $frac_nzvox \> 0.9` = 1 ]
	    then
            writeToFile $logFile 0 1 "Error: Brain-extracted fieldmap appears to still contain non-brain voxels. Aborting unwarping"
	    exit 1
         fi
    fi 
    preprocessFieldmaps $logFile $htmlReport2
fi

cd ${outputDirectory}/reg

if [ `${FSLDIR}/bin/imtest ./unwarp/EF_UD_fmap_sigloss` = 1 ] # test for weighting image from fieldmap unwarping to use with example_func
    then
    ef_weighting_flag="-inweight unwarp/EF_UD_fmap_sigloss"
fi


#{{{ setup flirt files
echo "intial HighresImage"
echo $initialHighresImage

if [ `${FSLDIR}/bin/imtest $initialHighresImage` = 1 ]
    then
    runCommand $logFile "${FSLDIR}/bin/fslmaths `${FSLDIR}/bin/remove_ext $initialHighresImage` initial_highres"
    else if [ "$initialHighresImage" != "" ]
         then
         writeToFile $logFile 0 1 "Warning - registration to initial_highres turned on but
no initial_highres image specified in setup file or in
FEAT directory! Will not register to initial_highres."
	 initialHighresImage=""
	 fi
fi 

if [ `${FSLDIR}/bin/imtest $highresImage` = 1 ]
    then
    runCommand $logFile "${FSLDIR}/bin/fslmaths `${FSLDIR}/bin/remove_ext $highresImage` highres"
    if [ "$nonLinearResolution" != "" -o $highresDof = "BBR" ]
	then
	highresHead=${highresImage/_brain/}
	if [ `${FSLDIR}/bin/imtest $highresHead` != 1 ] 
	    then highresHead=$highresImage
	fi
	runCommand $logFile "${FSLDIR}/bin/fslmaths $highresHead  highres_head"
	highresSegmentation=${highresImage/_brain/}_wmseg
	if [ `${FSLDIR}/bin/imtest $highresSegmentation` = 1 ]
        then
	runCommand $logFile "${FSLDIR}/bin/fslmaths $highresSegmentation highres_wmseg"
	fi
    fi
    else if [ "$highresImage" != "" ]
         then
         writeToFile $logFile 0 1 "Warning - registration to highres turned on but
no highres image specified in setup file or in
FEAT directory! Will not register to highres."
	 highresImage=""
	 fi
fi 

if [ `${FSLDIR}/bin/imtest $standardImage` = 1 ]
    then
    runCommand $logFile "${FSLDIR}/bin/fslmaths `${FSLDIR}/bin/remove_ext $standardImage` standard"
    if [ "$nonLinearResolution" != "" ]
	then
	standardHead=${standardImage/_brain/}
	if [ `${FSLDIR}/bin/imtest $standardHead` != 1 ] 
	    then standardHead=$standardImage
	fi
	runCommand $logFile "${FSLDIR}/bin/fslmaths $standardHead standard_head"
	standardMaskName=`${FSLDIR}/bin/remove_ext $standardImage`_mask_dil
	if [ `${FSLDIR}/bin/imtest $standardMaskName` = 1 ] 
	    then
	    runCommand $logFile "${FSLDIR}/bin/fslmaths $standardMaskName standard_mask"
	else 
	    runCommand $logFile "${FSLDIR}/bin/fslmaths ${standardImage} -bin -dilF -dilF standard_mask -odt char"	
	fi
    fi
fi

#Do registrations:
if [ ! -f initial_highres.nii.gz -a ! -f highres.nii.gz -a ! -f standard.nii.gz ]
    then 
    writeToFile $logFile 0 1 "Error: you have not selected any images to register to!"
    exit 1
elif [ ! -f highres.nii.gz ]  # $1 in $2 ref $3 dof $4 search $5 interp $6 report $7 in_weighting $8 nonlinearwarpres $9 logfile
         then runFlirt example_func standard $standardDof $standardSearch trilinear $htmlReport "$ef_weighting_flag" "" $logFile ""
elif [ ! -f initial_highres.nii.gz ]
         then runFlirt example_func highres $highresDof $highresSearch trilinear $htmlReport "$ef_weighting_flag" "" $logFile "" #need to signal BBR
else 
    runFlirt example_func initial_highres $initialHighresDof $initialHighresSearch trilinear $htmlReport "$ef_weighting_flag" "" $logFile ""
    runFlirt initial_highres highres  $highresDof $highresSearch trilinear $htmlReport "" "" $logFile "" #need to signal BBR
fi
if  [ -f highres.nii.gz -a -f standard.nii.gz ]
    then runFlirt highres standard $standardDof $standardSearch trilinear $htmlReport "" "$nonLinearResolution" $logFile $fnirtConfig
fi

#Do missing upscales
if [ `${FSLDIR}/bin/imtest highres` = 1 -a `${FSLDIR}/bin/imtest initial_highres` = 1 ] #Then we must have an initialHighresImage present
    then
    runCommand $logFile "${FSLDIR}/bin/convert_xfm -omat example_func2highres.mat -concat initial_highres2highres.mat example_func2initial_highres.mat"
    runFlirt example_func highres "" "" trilinear $htmlReport "" "" $logFile ""
fi
if [ `${FSLDIR}/bin/imtest standard` = 1 -a `${FSLDIR}/bin/imtest highres` = 1 ] #Then we must have an highresImage present
    then
    runCommand $logFile "${FSLDIR}/bin/convert_xfm -omat example_func2standard.mat -concat highres2standard.mat example_func2highres.mat"
    if [ `${FSLDIR}/bin/imtest highres2standard_warp` = 1 ] #Nonlinear registation occured
	then runCommand $logFile "${FSLDIR}/bin/convertwarp --ref=standard --premat=example_func2highres.mat --warp1=highres2standard_warp --out=example_func2standard_warp"
    fi
    runFlirt example_func standard "" "" trilinear $htmlReport "" "" $logFile ""
fi

writeToFile $htmlReport 0 0 ""
writeToFile $htmlReport2 0 0 ""

exit 0