#///////////////////////////////////////////////////////////////////////// # # This file is compiled from two sections. One defines which transitions # are allowed to build a sequence (for example changing L1 Trigger # Tables between Calibration and Pedestal runs). The other section # defines a regular expression to define the allowed ordering # of the P-, C- and D-runs. # # The sections a introduced by [Transition] and [Regexp]. For further # details see below. # # If a section should be valid only for one telescope use: # [Transition] # Valid for all telescope numbers # [Transition 5] # Valid for telescope 5 # [Transition: 5] # Valid for telescope 5 # [Transition: 5 6] # Valid for telescopes 5 and 6 # # # File-Id: # A file is uniquely identified by run-number and file-number. # If you give just a number it is identical to run-number with # file-number 0. To give a dedicated file-number you can use: # run.file # #///////////////////////////////////////////////////////////////////////// ########################################################################## # # Explanation [Transition] # # Rules to build blocks which will later be broken into sequences # # Syntax: # # [Transition] # rule1 # rule2 # rule3 # # # Colums of rule: # 0 [1 2 3 4 [5 [6]]] # # 0: Table/Column to which the transition is applied # 1: Run type of previous run # 2: Run type of run to be accepted # 3: Key for previous run # 4: key for run to be accepted # 5: first file-id to apply this rule # 6: last file-id to apply this rule # # Run Types: # D 2 # P 3 # C 4 # # The columns 1-4 can be expressed as regular expressions (ala TRegexp) # a ^ is prepended and a $ is appended automatically. # # A single "*" is an abbreviation for the regexp ".*" . # # As soon as any transition (column 0) is specified this transisiton # is checked not to change within a sequence. # # A "-" is an abbreviation for transitions "to be ignored". For example: # [Transition] # Test - 4 * 1200 1300 # would mean: # ignore all keys (*) of column test for all current files # with run-type 4 if its file-id is between 1200.0 and 1300.0 # The (former) third column in this case is obsolete. # # Each Transition which appears at least once is checked. # [Transition: 1] # Ignore project name for calibration files between 20100 and 45100 #Project - 4 * 20100 45100 #HvSettings - 2 * 86094 86094 #TriggerDelayTable #ObservationMode # Transition setup for L1/2-TriggerTable of very old data #L1TriggerTable 3 2 1 [235] 26206 35478 #L1TriggerTable 2 3 [235] 1 26206 35478 #L1TriggerTable - [^2] * 0 26830 #L2TriggerTable - [^2] * 0 26830 #L1TriggerTable 2 4 3 1 26816 39429 #L2TriggerTable 3 2 7 2 36049 38012 #L2TriggerTable 2 3 2 7 36053 38011 #L2TriggerTable 4 3 9 7 20170 37382 #L2TriggerTable 3 4 7 9 22712 37935 #L2TriggerTable 3 2 7 5 26207 35455 #L2TriggerTable 2 3 5 7 26207 35477 #L2TriggerTable 4 2 9 2 36157 37938 #L2TriggerTable 4 3 5 7 26207 35477 #L2TriggerTable 3 2 7 5 35460 36478 #L2TriggerTable 2 4 5 9 27170 31869 # The Discriminator Thresholds do not influence the pedestal- and # calibration-trigger and need therefore not to be checked for these runs. # This allows all kind of transitions from P/C to P/C and from C to D. #DiscriminatorThresholdTable [34] [34] * * #DiscriminatorThresholdTable 4 2 * * # This defines which changes in the calibration script are allowed # P 177: CPedestals_500Hz # P 199: Pedestals_500Hz # C 180: 23Led_Blue # C 181: 10_Led_UV # C 182: 1Led_Green # C 183: 10Led_Blue # C 195: 1Led_Blue # C 207: 10Led_UV_PinDiode # C 256: 10Led_UV_PEDANDCAL_1kHz # D 179: 10Led_UV_50Hz # D 209: 10Led_UV_50Hz_PinDiode # D 238: 10Led_UV_50Hz_PinDiode. <--- has an additional dot # D 188: 10Led_UV_train50Hz # D 200: 10Led_UV_train50Hz_PinDiode # D 210: 10Led_Blue_50Hz # D 245: 10Led_UV_50Hz_Ped # Current DEFAULT setup. This what is used to build the # sequences from the newest data #CalibrationScript 2 3 209 199 79266 200000 #CalibrationScript 3 4 199 207 50640 #CalibrationScript 4 2 207 209 91301 #CalibrationScript 4 3 207 199 53875 200000 #CalibrationScript 4 2 207 245 200000 #CalibrationScript 3 4 199 256 1007866 #CalibrationScript 4 2 256 245 1007866 #CalibrationScript 3 4 199 181 1007844 #CalibrationScript 4 2 181 245 1007844 # Previous defaults. This are cases which are widely used # through our data and can thus be considered old defaults #CalibrationScript 4 2 181 179 46305 50600 #CalibrationScript 4 2 207 209 50641 84570 #CalibrationScript 4 2 207 179 50879 91252 #CalibrationScript 2 3 179 199 46313 91423 #CalibrationScript 2 3 209 199 50784 79256 #CalibrationScript 3 2 199 179 46313 90220 #CalibrationScript 3 2 199 209 50785 57781 #CalibrationScript 3 4 199 181 45730 50805 # This was used only in some rare cases (still to be checked!) # This are cases used through a big part of our data # but take place only in some single cases. #CalibrationScript 4 3 181 199 46405 50137 #CalibrationScript 3 4 199 181 67116 68714 #CalibrationScript 2 4 179 207 87824 87842 # Single calibration runs inbetween data. Should be # excluded differently, because these blocks will not # give valid sequences anyhow #CalibrationScript 2 4 179 207 68731 68731 #CalibrationScript 2 4 179 207 61374 61459 #CalibrationScript 2 4 179 207 53901 53901 #CalibrationScript 2 4 179 207 51153 51170 #CalibrationScript 2 4 188 181 50084 50084 #CalibrationScript 2 4 209 207 96951 96951 # For some reasons here are two consecutive calibration # runs with two different colors (still to be checked!) #CalibrationScript 4 4 181 183 51173 51173 # Special setup for more than one C-Run. Old data had several # calibration runs with different taken sequentually #CalibrationScript 4 4 (181|195) (182|183|193|195) 44834 45579 # This was a typo 238 is basically the same as 209 #CalibrationScript 4 2 207 238 78696 78696 # This is for runs with special calibration scripts (177,188,200,210) #CalibrationScript 2 3 (179|188|200) (177|199) 44831 46223 #CalibrationScript 3 2 (177|199) (179|188|200) 44831 46223 #CalibrationScript 4 2 (181|182|195) (188|200) 44831 46223 #CalibrationScript 3 4 177 (181|195) 44831 45718 #CalibrationScript 4 3 181 177 44831 45717 #CalibrationScript 4 2 181 188 50083 50273 #CalibrationScript 3 2 199 188 50083 50273 #CalibrationScript 2 3 188 199 50083 50273 #CalibrationScript 4 2 207 210 50687 50746 #CalibrationScript 2 3 210 199 50687 50746 #CalibrationScript 3 2 199 210 50687 50746 # Special rules for calibration script 183 #CalibrationScript 2 4 209 183 50642 50642 #CalibrationScript 4 3 183 199 51193 51193 #CalibrationScript 2 4 179 183 51192 51192 #CalibrationScript 4 2 183 179 51174 51174 ######################################################################### # # Explanation [Regexp] # # To build sequences a string with the run-types is evaluated. # A capital case D or P means: The nearest C-Run is the last C-Run # A lower case d or p means: The nearest C-Run is the next C-Run # # The first expression is evaluated first. The last one last. # If one regexp matches the others are not evaluated anymore and # the sequence is build from the match. # # For details on regular expressions check # http://perldoc.perl.org/perlre.html # # The syntax is # [Regexp] # regexp [firstrun [lastrun]] # [Regexp: 1] #BGBB?T(BG)?PP? 0 BGBB?TU?PP? 0 PCD+ 0 BGPP? 20150716 P?D+ 20150716 #[bB][gG][bB][bB][tT][pP][pP] 0 20120116 #[bB][gG][bB][bB][tT][pP][pP] 0 20120116 #[pP][cC][dD]+ 0