4 if [ -z $JPP_DIR ];
then
5 echo "Variable JPP_DIR undefined."
9 source $JPP_DIR/setenv.sh $JPP_DIR >& /dev/
null
15 set_variable: QUALITY_FACTOR ACOUSTICS_QUALITYFACTOR 2.0e3
18 usage "$script <string identifier> <detector file> (event file)+ (toashort file)+"\
19 "\nNote that the event files and toashort files should be one-to-one related."
22 if (( ${#} < 4 || ${#}%2 != 0 ));
then
23 fatal
"Wrong number of arguments."
26 let
N=
"(${#} - 2) / 2"
31 set_array TOASHORT_FILES $argv[-$N,-1]
33 eval `JPrintDetector -
a $DETECTOR -O IDENTIFIER`
36 source JAcoustics.sh $DETECTOR_ID
42 get_tripods
$WORKDIR/tripod.txt TRIPODS
44 if (( ${#TRIPODS} < 2 ));
then
45 fatal
"Not enough tripods " ${#TRIPODS}
50 if (( $? != 0 ));
then
60 if [[ -z
"${STRINGS[(r)$STRING]}" ]];
then
61 fatal
"Invalid string $STRING; "\
62 "possible values: ${STRINGS[*]}"
80 for ((
Z = -7.5; $Z <= +7.5;
Z += 0.1 ));
do
84 $JPP_DIR/examples/JAcoustics/JHydrophone \
86 -
f "$INPUT_FILES[*]" \
87 -i
"$TOASHORT_FILES[*]" \
88 -
o $TMPDIR/hydrophone.root \
100 for TRIPOD
in ${(@
k)TRIPODS};
do
103 -
f "$TMPDIR/hydrophone.root:${MODULE}\.${TRIPOD}" \
109 VALUE=$((0.5e3 * ($RESULT[-1] + $RESULT[1]))) # average [ms]
110 TOTAL=$(($TOTAL + 1.0))
112 if (( $TOTAL == 1.0 ));
then
116 XMEAN[2]=$(($XMEAN[1] + ($VALUE - $XMEAN[1]) / $TOTAL))
117 STDEV[2]=$(($STDEV[1] + ($VALUE - $XMEAN[1]) * ($VALUE - $XMEAN[2])))
124 printf
"%7.3f %9.5f\n" $Z $((sqrt($TOTAL * $STDEV[1] / ($TOTAL * ($TOTAL - 1.0))))) >> $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
then echo Variable JPP_DIR undefined exit fi source $JPP_DIR setenv sh $JPP_DIR set_variable DEBUG set_variable WORKDIR if do_usage *then usage for INPUT_FILE in $INPUT_FILES[*]
Q(UTCMax_s-UTCMin_s)-livetime_s
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 JShowerPostfit f $INPUT_FILE o $OUTPUT_FILE N
static const double H
Planck constant [eV s].
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
&set_variable OUTPUT_FILE
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
do set_variable DETECTOR_TXT $WORKDIR detector
then fatal Wrong number of arguments fi set_variable DETECTOR $argv[1] set_variable INPUT_FILE $argv[2] eval JPrintDetector a $DETECTOR O IDENTIFIER eval JPrintDetector a $DETECTOR O SUMMARY source JAcoustics sh $DETECTOR_ID CHECK_EXIT_CODE typeset A TRIPODS get_tripods $WORKDIR tripod txt TRIPODS for EMITTER in
set_variable NUMBER_OF_ITERATIONS set_variable EPSILON cat acoustics_fit_parameters txt<< EOF $CONFIGURATION[*]Nmin=3;sigma_s=100.0e-6;stdev=10.0;mestimator=0;fixStrings=0;EOF for STRING in $STRINGS[*];do#fit stretching and(z) position of given string set_variable DETECTOR_TMP/tmp/detector_A.datx JEditDetector-a $DETECTOR-o $DETECTOR_TMP-r $STRING JEditDetector-a $DETECTOR-o $DETECTOR-k $STRING for MUL in 0.005 0.001;do DX_M=0.2 for((N=0;$N< $NUMBER_OF_ITERATIONS;++N));do CHI2[3]=$CHI2[1] fitPositionOfString $STRING Z $DX_M fitStretchingOfString $STRING $MUL if(($CHI2[3]-$CHI2[1]< $EPSILON));then break fi done if(($N >=$NUMBER_OF_ITERATIONS));then printf"warning: reached maximum number of iterations %d - converenge %7.3f\n"$N $(($CHI2[3]-$CHI2[1])) fi done JMergeDetector-a $DETECTOR-a $DETECTOR_TMP-o $DETECTOR rm-f $DETECTOR_TMP JConvertDetectorFormat-a $DETECTOR-o $DETECTOR-r-d 0 > &dev null done
source $JPP_DIR setenv csh $JPP_DIR eval JShellParser o a A
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