#!/usr/bin/python -tt # ******************************** # Test script for the CalFits class # # written by Thomas Kraehenbuehl, ETH Zurich # tpk@phys.ethz.ch, +41 44 633 3973 # April 2012 # ******************************** datafilename = '/fact/raw/2012/04/17/20120417_004.fits.gz' calibfilename = '/fact/raw/2012/04/17/20120417_003.drs.fits.gz' import numpy as np import itertools from ROOT import gSystem gSystem.Load("calfits_h.so") from ROOT import * print "Testing object creation: " caltest = CalFits(datafilename,calibfilename) npcalevent = np.empty( caltest.npix * caltest.nroi, np.float64) #.reshape(caltest.npix ,caltest.nroi) caltest.SetNpcaldataPtr(npcalevent) print "Common variables:" print "ROI: ", caltest.nroi print "#Pix: ", caltest.npix print "Number of events: ", caltest.nevents print print "Information per Event:" caltest.GetCalEvent() print "Event ID: ", caltest.event_id print "Trigger type: ", caltest.event_triggertype print "Uncalibrated data: ", caltest.event_data print "Calibrated data: ", caltest.npcaldata print "Board times: ", caltest.event_boardtimes print "Trigger offsets: ", caltest.event_offset print print "Examples of other information" print "Calibfile ROI: ", caltest.calib_nroi print "Column size BaselineMean: ", caltest.calibfile.GetN("BaselineMean") print "Datafile ROI: ", caltest.data_nroi print "Data: ", caltest.datafile.GetN("Data") print "StartCellData: ", caltest.datafile.GetN("StartCellData") print "Direct datafile access: ", caltest.datafile.GetN("StartCellData") print print "Columns of the datafile: " caltest.datafile.PrintColumns() def offsum(x,y): return np.sum(npcalevent[x,y+5:y+15]) vecoffsum = np.vectorize(offsum) #specifying otypes=[np.float/double] does not improve speed while caltest.GetCalEvent(): if caltest.event_id>30: break npcalevent = npcalevent.reshape((caltest.npix, caltest.nroi)) npthr = npcalevent>2.5 #true if above threshold npthr = npthr[:,1:-14] * np.logical_not(npthr[:,:-15]) #only true for the zero crossings, shape (1400,285) [smaller due to necessary integration range] # print [(x,y) for x,y in zip(npthr.nonzero()[0],npthr.nonzero()[1])] #print the coordinates, range 0-1399,0-284 #Various versions to get the integral, all with approximately the same miserable speed (3 Hz), except for the last one (vectorized function) with ~4.3 Hz #Missing: add deadtime after an integration, remove start & end of the array # integrals = [np.sum(npcalevent[x,y+5:y+15]) for x,y in np.transpose(npthr.nonzero())] # integrals = [np.sum(npcalevent[x,y+5:y+15]) for x,y in zip(npthr.nonzero()[0],npthr.nonzero()[1])] # integrals = [np.sum(npcalevent[x,y+5:y+15]) for x,y in itertools.izip(npthr.nonzero()[0],npthr.nonzero()[1])] # integrals = map((lambda index_a,index_b: np.sum(npcalevent[index_a,index_b+5:index_b+15])),npthr.nonzero()[0],npthr.nonzero()[1]) integrals = vecoffsum(npthr.nonzero()[0],npthr.nonzero()[1]) print len(integrals) # print caltest.event_id, caltest.event_triggertype, caltest.event_caldata[10] # pass del caltest