4 if [ -z $JPP_DIR ];
then
5 echo "Variable JPP_DIR undefined."
9 source $JPP_DIR/setenv.sh $JPP_DIR >& /dev/
null
13 #set_variable FORMULA "[0] + [1]*(sqrt(1.0 + 0.5*(x-[2])*(x-[2])/([3]*[3])) - 1.0)"
19 usage "$script <string identifier> [<detector file>]"
22 if (( $# == 0 || $# > 2 ));
then
23 fatal
"Wrong number of arguments."
31 if [[ ! -
f $HYDROPHONE_TXT ]];
then
32 fatal
"No hydrophone data file $HYDROPHONE_TXT."
35 sort -gr -
k 2,2 $HYDROPHONE_TXT | tail -1 |
read X Y
45 -
f ${HYDROPHONE_ROOT}:\.\* \
55 set_array P2 `JPrintFit -
f $WORKDIR/fit.root:\.\* -@
p2`
57 printf
"result %7.3f +/- %7.3f [m]\n" $P2[1] $P2[2]
59 if (( $# == 2 ));
then
68 mv
$WORKDIR/fit.root $HYDROPHONE_ROOT
73 -
f ${HYDROPHONE_ROOT}:\.\* \
79 rm -
f $HYDROPHONE_ROOT
80 rm -
f /tmp/hydrophone.txt
then usage $script< detector file >< detectorfile > nIf the range of floors is the first detector file is aligned to the second before the comparison fi case set_variable RANGE $argv[3]
then fatal No hydrophone data file $HYDROPHONE_TXT fi sort gr k
std::istream & read(std::istream &in, JTestSummary &summary, const char delimiter= ' ')
Read test summary.
clean eval JPrintDetector a $DETECTOR O IDENTIFIER eval JPrintDetector a $DETECTOR O SUMMARY set_variable STRING
then usage $script< detector file >< inputfile > nUtility script to create PDF and CDF of transition time distribution fi case set_variable WORKDIR
then fatal Wrong number of arguments fi set_variable STRING $argv[1] set_variable DETECTORXY_TXT $WORKDIR $DETECTORXY_TXT tail read X Y CHI2 RMS printf optimum n $X $Y $CHI2 $RMS awk v Y
then fatal Wrong number of arguments fi set_variable STRING $argv[1] set_variable HYDROPHONE_TXT $WORKDIR hydrophonez_
then echo Variable JPP_DIR undefined exit fi source $JPP_DIR setenv sh $JPP_DIR &dev null set_variable
do set_variable OUTPUT_DIRECTORY $WORKDIR T
then break fi done getCenter read X Y Z let X
then JMuonMCEvt f $INPUT_FILE o $INTERMEDIATE_FILE d
then set_variable MODULE getModule a $DETECTOR L $STRING $FLOOR JEditDetector a $DETECTOR M $MODULE add $X o $DETECTOR else echo No update of detector $DETECTOR
then usage $script< input_file >< detector_file > fi set_variable OUTPUT_DIR set_variable SELECTOR JDAQTimesliceL1 set_variable DEBUG case set_variable DEBUG
do set_variable MODULE getModule a $WORKDIR detector_a datx L $STRING JEditDetector a $WORKDIR detector_a datx M $MODULE setz o $WORKDIR detector_a datx JEditDetector a $WORKDIR detector_b datx M $MODULE setz o $WORKDIR detector_b datx done echo Output stored at $WORKDIR detector_a datx and $WORKDIR tripod_a txt JDrawDetector2D a $WORKDIR detector_a datx a $WORKDIR detector_b datx L BL o detector $FORMAT $BATCH JDrawDetector2D T $WORKDIR tripod_a txt T $WORKDIR tripod_b txt L BL o tripod $FORMAT $BATCH JCompareDetector a $WORKDIR detector_a datx b $WORKDIR detector_b datx o $WORKDIR abc root &dev null for KEY in X Y Z
esac $JPP_BIN JLogger sh $LOGGER until pgrep JGetMessage</dev/null > dev null
const JModule & getModule(const JDetector &detector, const JModuleLocation &location)
find module with a given string and floor number