# with the specified preffix, which is interesting for debugging.
# if blank, it means that the original images (those without bands)
# will be used (see create_midP_masks-2.0.sh for details).
- banded="banded_"
+ banded=""
# params read from conf file
+ use_coeffs=1
params="$nb_iter $nb_samples $sampling_algo $nb_hist_bins $nb_levels $bspline_spacing $metric $optimizer $interpolator"
# register all phases to the reference
vf_in=$vf_dir/vf_inside_${ref_phase_nb}_$phase_nb.mhd
result_in=$output_dir/result_inside_${ref_phase_nb}_$phase_nb.mhd
log_in=$log_dir/log_inside_${ref_phase_nb}_$phase_nb.log
+ if [ $use_coeffs = 1 ]; then
+ init_coeff_in=$coeff_in # empty at first iteration
+ coeff_in=$vf_dir/coeff_inside_${ref_phase_nb}_$phase_nb.mhd
+ fi
# outside params
reference_out=$mask_dir/${banded}outside_$ref_phase_nb.mhd
vf_out=$vf_dir/vf_outside_$ref_phase_nb\_$phase_nb.mhd
result_out=$output_dir/result_outside_$ref_phase_nb\_$phase_nb.mhd
log_out=$log_dir/log_outside_${ref_phase_nb}_$phase_nb.log
+ if [ $use_coeffs = 1 ]; then
+ init_coeff_out=$coeff_out # empty at first iteration
+ coeff_out=$vf_dir/coeff_outside_${ref_phase_nb}_$phase_nb.mhd
+ fi
# registration
if [ "$method" == "blutdir" ]; then
- registration_blutdir $reference_in $target_in $mask_ref_in $mask_targ_in $vf_in $result_in $params $log_in
- registration_blutdir $reference_out $target_out $mask_ref_out $mask_targ_out $vf_out $result_out $params $log_out
+ registration_blutdir $reference_in $target_in $mask_ref_in $mask_targ_in $vf_in $result_in $params $log_in $coeff_in $init_coeff_in
+ registration_blutdir $reference_out $target_out $mask_ref_out $mask_targ_out $vf_out $result_out $params $log_out $coeff_out $init_coeff_out
elif [ "$method" == "elastix" ]; then
registration_elastix $reference_in $target_in $mask_ref_in $mask_targ_in $vf_in $result_in $params $log_in
registration_elastix $reference_out $target_out $mask_ref_out $mask_targ_out $vf_out $result_out $params $log_out
fi
done
- # create (zero) vf from reference to reference
+ # create (zero) vf from reference to reference and associated images
+ vf_in=$vf_dir/vf_inside_${ref_phase_nb}_${ref_phase_nb}.mhd
+ vf_out=$vf_dir/vf_outside_${ref_phase_nb}_${ref_phase_nb}.mhd
clitkZeroVF -i $vf_ref -o $vf_dir/vf_${ref_phase_nb}_${ref_phase_nb}.mhd
+ clitkZeroVF -i $vf_ref -o $vf_in
+ clitkZeroVF -i $vf_ref -o $vf_out
+ abort_on_error registration $? clean_up_registration
+
+ motion_mask=$mask_dir/mm_${ref_phase_nb}.mhd
+ reference_in=$mask_dir/${banded}inside_${ref_phase_nb}.mhd
+ reference_out=$mask_dir/${banded}outside_$ref_phase_nb.mhd
+ out_result=$output_dir/result_${ref_phase_nb}_${ref_phase_nb}.mhd
+ clitkCombineImage -i $reference_in -j $reference_out -m $motion_mask -o $out_result
abort_on_error registration $? clean_up_registration
# create 4D vf
create_mhd_4D_pattern.sh $vf_dir/vf_${ref_phase_nb}_
+ create_mhd_4D_pattern.sh $vf_dir/vf_inside_${ref_phase_nb}_
+ create_mhd_4D_pattern.sh $vf_dir/vf_outside_${ref_phase_nb}_
# create 4D result image
create_mhd_4D_pattern.sh $output_dir/result_inside_${ref_phase_nb}_
+ create_mhd_4D_pattern.sh $output_dir/result_outside_${ref_phase_nb}_
create_mhd_4D_pattern.sh $output_dir/result_${ref_phase_nb}_
echo
########### calculate the midp wrt the reference phase
phase_nb=$ref_phase_nb
echo "Calculating midp_$phase_nb.mhd..."
- vf_midp=$midp_dir/vf_$phase_nb\_midp.mhd
+ vf_midp=$midp_dir/vf_midp_$phase_nb.mhd
midp=$midp_dir/midp_$phase_nb.mhd
# average the vf's from reference phase to phase
clitkAverageTemporalDimension -i $vf_dir/vf_${ref_phase_nb}_4D.mhd -o $vf_midp
for i in $( seq 0 $((${#phase_files[@]} - 1))); do
phase_file=${phase_files[$i]}
phase_nb=${phase_nbs[$i]}
- vf_midp=$midp_dir/vf_$phase_nb\_midp.mhd
+ vf_midp=$midp_dir/vf_midp_$phase_nb.mhd
midp=$midp_dir/midp_$phase_nb.mhd
if [ "$phase_nb" != "$ref_phase_nb" ]; then
fi
done
+ # create 4D midp
create_mhd_4D_pattern.sh $midp_dir/midp_
+ create_mhd_4D_pattern.sh $midp_dir/vf_midp_
echo "Calculating midp_avg.mhd..."
clitkAverageTemporalDimension -i $midp_dir/midp_4D.mhd -o $midp_dir/midp_avg.mhd
abort_on_error midp $? clean_up_midp
# clean-up
- rm $midp_dir/vf_*
+ #rm $midp_dir/vf_*
echo
echo "-------- Mid-position done ! --------"
echo
}
+midp_in_out()
+{
+ echo
+ echo "----------- Mid-position ------------"
+ start=`date`
+ echo "start: $start"
+ echo
+
+ mkdir -p $midp_dir
+
+ ########### calculate the midp wrt the reference phase
+ phase_nb=$ref_phase_nb
+ phase_file=$ref_phase_file
+ echo "Calculating midp_$phase_nb.mhd..."
+ vf_midp_in=$midp_dir/vf_inside_midp_$phase_nb.mhd
+ vf_midp_out=$midp_dir/vf_outside_midp_$phase_nb.mhd
+ # average the vf's from reference phase to phase
+ clitkAverageTemporalDimension -i $vf_dir/vf_inside_${ref_phase_nb}_4D.mhd -o $vf_midp_in
+ abort_on_error midp $? clean_up_midp
+ clitkAverageTemporalDimension -i $vf_dir/vf_outside_${ref_phase_nb}_4D.mhd -o $vf_midp_out
+ abort_on_error midp $? clean_up_midp
+
+ # invert the vf (why?)
+ clitkInvertVF -i $vf_midp_in -o $vf_midp_in
+ abort_on_error midp $? clean_up_midp
+ clitkInvertVF -i $vf_midp_out -o $vf_midp_out
+ abort_on_error midp $? clean_up_midp
+
+ # combine in and out VF's
+ ref_vf_midp_in=$vf_midp_in
+ ref_vf_midp_out=$vf_midp_out
+ vf_midp=$midp_dir/vf_midp_$phase_nb.mhd
+ clitkCombineImage -i $vf_midp_in -j $vf_midp_out -o $vf_midp -m $mask_dir/mm_$phase_nb.mhd
+ clitkZeroVF -i $vf_midp -o vf_zero.mhd
+ clitkCombineImage -i $vf_midp -j vf_zero.mhd -o $vf_midp -m $mask_dir/patient_mask_$phase_nb.mhd
+
+ # create the midp by warping the reference phase with the reference vf
+ midp=$midp_dir/midp_$phase_nb.mhd
+ clitkWarpImage -i $phase_file -o $midp --vf=$vf_midp -s 1
+ abort_on_error midp $? clean_up_midp
+
+ clitkImageConvert -i $midp -o $midp -t float
+ abort_on_error midp $? clean_up_midp
+
+ ########### calculate the midp wrt the other phases
+ for i in $( seq 0 $((${#phase_files[@]} - 1))); do
+ phase_file=${phase_files[$i]}
+ phase_nb=${phase_nbs[$i]}
+ vf_midp_in=$midp_dir/vf_inside_midp_$phase_nb.mhd
+ vf_midp_out=$midp_dir/vf_outside_midp_$phase_nb.mhd
+
+ if [ "$phase_nb" != "$ref_phase_nb" ]; then
+ echo "Calculating midp_$phase_nb.mhd..."
+ # calculate vf from phase to midp, using the vf from reference phase to midp (-i)
+ # and the vf from reference phase to phase (-j)
+ clitkComposeVF -i $ref_vf_midp_in -j $vf_dir/vf_inside_$ref_phase_nb\_$phase_nb.mhd -o $vf_midp_in
+ abort_on_error midp $? clean_up_midp
+ clitkComposeVF -i $ref_vf_midp_out -j $vf_dir/vf_outside_$ref_phase_nb\_$phase_nb.mhd -o $vf_midp_out
+ abort_on_error midp $? clean_up_midp
+
+ # combine in and out VF's
+ vf_midp=$midp_dir/vf_midp_$phase_nb.mhd
+ clitkCombineImage -i $vf_midp_in -j $vf_midp_out -o $vf_midp -m $mask_dir/mm_$phase_nb.mhd
+ clitkZeroVF -i $vf_midp -o vf_zero.mhd
+ clitkCombineImage -i $vf_midp -j vf_zero.mhd -o $vf_midp -m $mask_dir/patient_mask_$phase_nb.mhd
+
+ midp=$midp_dir/midp_$phase_nb.mhd
+ clitkWarpImage -i $phase_file -o $midp --vf=$vf_midp -s 1
+ abort_on_error midp $? clean_up_midp
+
+ clitkImageConvert -i $midp -o $midp -t float
+ abort_on_error midp $? clean_up_midp
+ fi
+ done
+
+ rm vf_zero.*
+
+ # create 4D midp
+ create_mhd_4D_pattern.sh $midp_dir/midp_
+ create_mhd_4D_pattern.sh $midp_dir/vf_midp_
+ create_mhd_4D_pattern.sh $midp_dir/vf_inside_midp_
+ create_mhd_4D_pattern.sh $midp_dir/vf_outside_midp_
+
+ echo "Calculating midp_avg.mhd..."
+ clitkAverageTemporalDimension -i $midp_dir/midp_4D.mhd -o $midp_dir/midp_avg.mhd
+ abort_on_error midp $? clean_up_midp
+
+ echo "Calculating midp_med.mhd..."
+ clitkMedianTemporalDimension -i $midp_dir/midp_4D.mhd -o $midp_dir/midp_med.mhd
+ abort_on_error midp $? clean_up_midp
+
+ # clean-up
+ #rm $midp_dir/vf_*
+
+ echo
+ echo "-------- Mid-position done ! --------"
+ end=`date`
+ echo "start: $start"
+ echo "end: $end"
+ echo
+}
######################### main
registration
fi
+midp_combined_vf=0
if [ "$step" == "midp" -o "$step" == "all" ]; then
- midp
+ if [ $midp_combined_vf = 0 ]; then
+ midp_in_out
+ else
+ midp
+ fi
fi
echo
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