1 #ifndef __JTOOLS__JMAPLIST__
2 #define __JTOOLS__JMAPLIST__
13 namespace JPP {
using namespace JTOOLS; }
23 template<
template<
class,
class,
class>
class JHead_t,
class JTail_t = JNullType>
34 template<
template<
class,
class,
class>
class JHead_t>
51 template<
template<
class,
class,
class>
class JHead_t,
class JTail_t>
61 template<
template<
class,
class,
class>
class JHead_t>
72 template<
class JKey_t,
82 template<
template<
class,
class,
class>
class A =
JNullMap,
83 template<
class,
class,
class>
class B =
JNullMap,
84 template<
class,
class,
class>
class C =
JNullMap,
85 template<
class,
class,
class>
class D =
JNullMap,
86 template<
class,
class,
class>
class E =
JNullMap,
87 template<
class,
class,
class>
class F =
JNullMap,
88 template<
class,
class,
class>
class G =
JNullMap,
89 template<
class,
class,
class>
class H =
JNullMap,
90 template<
class,
class,
class>
class I =
JNullMap,
91 template<
class,
class,
class>
class J =
JNullMap,
92 template<
class,
class,
class>
class K =
JNullMap,
93 template<
class,
class,
class>
class L =
JNullMap,
94 template<
class,
class,
class>
class M =
JNullMap,
95 template<
class,
class,
class>
class N =
JNullMap,
96 template<
class,
class,
class>
class O =
JNullMap,
97 template<
class,
class,
class>
class P =
JNullMap,
98 template<
class,
class,
class>
class Q =
JNullMap,
99 template<
class,
class,
class>
class R =
JNullMap,
100 template<
class,
class,
class>
class S =
JNullMap,
101 template<
class,
class,
class>
class T =
JNullMap,
102 template<
class,
class,
class>
class U =
JNullMap,
103 template<
class,
class,
class>
class V =
JNullMap,
104 template<
class,
class,
class>
class W =
JNullMap,
105 template<
class,
class,
class>
class X =
JNullMap,
106 template<
class,
class,
class>
class Y =
JNullMap,
107 template<
class,
class,
class>
class Z =
JNullMap>
110 typedef JMapList<A, typename JMAPLIST<B,C,D,E,F,G,H,I,J,K,L,M,N,O,P,Q,R,S,T,U,V,W,X,Y,Z>::maplist>
maplist;
117 template<
template<
class,
class,
class>
class A>
Q(UTCMax_s-UTCMin_s)-livetime_s
static const uint32_t K[64]
then usage $script< input file >[option[primary[working directory]]] nWhere option can be E
static const double H
Planck constant [eV s].
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
V(JDAQEvent-JTriggerReprocessor)*1.0/(JDAQEvent+1.0e-10)
static const double C
Physics constants.
do set_variable OUTPUT_DIRECTORY $WORKDIR T
Auxiliary class for no type definition.
then JCookie sh JDataQuality D $DETECTOR_ID R
then usage $script< input file >[option[primary[working directory]]] nWhere option can be N
no fit printf nominal n $STRING awk v X
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
source $JPP_DIR setenv csh $JPP_DIR &dev null eval JShellParser o a A
do echo Generating $dir eval D