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Geant4/examples/extended/electromagnetic/TestEm4/README

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Diff markup

Differences between /examples/extended/electromagnetic/TestEm4/README (Version 11.3.0) and /examples/extended/electromagnetic/TestEm4/README (Version 10.2.p1)


                                                   >>   1 $Id: README 66241 2012-12-13 18:34:42Z gunter $
  1 ----------------------------------------------      2 -------------------------------------------------------------------
  2                                                     3 
  3      =========================================      4      =========================================================
  4      Geant4 - an Object-Oriented Toolkit for S      5      Geant4 - an Object-Oriented Toolkit for Simulation in HEP
  5      =========================================      6      =========================================================
  6                                                     7 
  7                             TestEm4                 8                             TestEm4
  8                             -------                 9                             -------
  9                                                    10 
 10  Plot energy deposited by 9 MeV photon beam in     11  Plot energy deposited by 9 MeV photon beam in an homogeneous medium.
 11                                                    12   
 12  1- GEOMETRY DEFINITION                            13  1- GEOMETRY DEFINITION
 13                                                    14  
 14   It is a cylinder of 5 cm radius filled with      15   It is a cylinder of 5 cm radius filled with C6F6.
 15                                                    16   
 16  2- PHYSICS LIST                                   17  2- PHYSICS LIST
 17                                                    18  
 18   The particle list contains only gamma, elect     19   The particle list contains only gamma, electron,positron.
 19   The physics list contains the 'standard' ele     20   The physics list contains the 'standard' electromagnetic processes.
 20                                                    21    
 21  3- AN EVENT : THE PRIMARY GENERATOR               22  3- AN EVENT : THE PRIMARY GENERATOR
 22                                                    23  
 23   The primary kinematic is a single 9 MeV gamm     24   The primary kinematic is a single 9 MeV gamma randomly shooted at the
 24   middle of the cylinder.                          25   middle of the cylinder. 
 25                                                    26           
 26  4- VISUALIZATION                                  27  4- VISUALIZATION
 27                                                    28  
 28   The Visualization Manager is set in the main     29   The Visualization Manager is set in the main().
 29   The initialisation of the drawing is done vi     30   The initialisation of the drawing is done via the commands
 30   /vis/.. in the macro vis.mac. This macro is      31   /vis/.. in the macro vis.mac. This macro is
 31   automatically read from the main in case of      32   automatically read from the main in case of interactive running mode.
 32                                                    33   
 33   The detector has a default view which is a t     34   The detector has a default view which is a transversal view of the 
 34   cylinder.                                        35   cylinder.
 35                                                    36   
 36   The tracks are drawn at the end of event, an     37   The tracks are drawn at the end of event, and erased at the end of run.
 37   Optionaly one can choose to draw all particl     38   Optionaly one can choose to draw all particles, only the charged one,
 38   or none. This command is defined in EventAct     39   or none. This command is defined in EventActionMessenger class.
 39                                                    40   
 40  5- PHYSICS SURVEY                                 41  5- PHYSICS SURVEY
 41                                                    42  
 42    The energy deposited in C6F6 is histogramed     43    The energy deposited in C6F6 is histogramed.
 43                                                    44   
 44  6- HOW TO START ?                                 45  6- HOW TO START ?
 45                                                    46  
 46   - execute TestEm4 in 'batch' mode from macro     47   - execute TestEm4 in 'batch' mode from macro files
 47     % TestEm4   TestEm4.in                         48     % TestEm4   TestEm4.in
 48                                                    49     
 49   - execute TestEm4 in 'interactive mode' with     50   - execute TestEm4 in 'interactive mode' with visualization
 50     % TestEm4                                      51     % TestEm4
 51     ....                                           52     ....
 52     Idle> type your commands                       53     Idle> type your commands
 53     ....                                           54     ....
 54     Idle> exit                                     55     Idle> exit
 55                                                <<  56     
 56          macro verbose.mac illustrate capabili <<  57   - visualize the histogram (paw)
                                                   >>  58     paw> h/file 1 testem4.hbook
                                                   >>  59     paw> option stat
                                                   >>  60     paw> option logy
                                                   >>  61     paw> h/pl 1   
                                                   >>  62   
 57                                                    63 
 58  7- USING HISTOGRAMS                               64  7- USING HISTOGRAMS
 59                                                    65 
 60  The format of the histogram file can be : roo     66  The format of the histogram file can be : root (default),
 61  xml, csv, by selecting g4nnn.hh in RunAction. <<  67  hbook, xml, csv, by selecting g4nnn.hh in RunAction.hh 
 62                                                <<  68  
                                                   >>  69  Using hbook format
                                                   >>  70  ------------------
                                                   >>  71  
                                                   >>  72  Need a special treatement : the Cern Library must be installed and the
                                                   >>  73  environment variable CERNLIB correctly set. Then, *before* compiling,
                                                   >>  74  activate G4_USE_HBOOK in GNUmakefile and g4hbook.hh in RunAction.hh
                                                   >>  75   
 63  8- RANDOM NUMBERS HANDLING                        76  8- RANDOM NUMBERS HANDLING
 64                                                    77  
 65    CLHEP provides several random number engine     78    CLHEP provides several random number engines. In this example the Ranecu
 66    engine is choosen at beginning of the main      79    engine is choosen at beginning of the main (TestEm4.cc).
 67                                                    80   
 68    By default, G4RunManager does not save the      81    By default, G4RunManager does not save the rndm seed.
 69    To do so the user must set in BeginOfRunAct     82    To do so the user must set in BeginOfRunAction:
 70    G4RunManager::GetRunManager()->SetRandomNum     83    G4RunManager::GetRunManager()->SetRandomNumberStore(true);
 71                                                    84   
 72    Then the rndm seed is systematically saved      85    Then the rndm seed is systematically saved at beginning of run
 73    (currentRun.rndm) and beginning of event (c     86    (currentRun.rndm) and beginning of event (currentEvent.rndm)
 74    Therefore, in case of abnormal end, the see     87    Therefore, in case of abnormal end, the seed of the last event processed
 75    is available in currentEvent.rndm               88    is available in currentEvent.rndm
 76                                                    89   
 77    Even in case of normal run processing, the      90    Even in case of normal run processing, the user may wish to preserve the
 78    rndm seed of selected events. At any time i     91    rndm seed of selected events. At any time in the event, put the
 79    following statement:                            92    following statement:
 80    if (condition) G4RunManager::GetRunManager(     93    if (condition) G4RunManager::GetRunManager()->rndmSaveThisEvent();
 81    currentEvent.rndm will be copied to runXXev     94    currentEvent.rndm will be copied to runXXevntYY.rndm
 82    (see SteppingAction::UserSteppingAction() )     95    (see SteppingAction::UserSteppingAction() )
 83                                                    96   
 84    To restart a run from a given rndm seed, us     97    To restart a run from a given rndm seed, use the UI command :
 85    /random/resetEngineFrom  fileName               98    /random/resetEngineFrom  fileName 
 86                                                    99   
 87    The macro rndmSeed.mac shows how to save an    100    The macro rndmSeed.mac shows how to save and reset the random number
 88    seed between runs, from UI commands.           101    seed between runs, from UI commands.