global tree, hf tree = tf.create("comptonhisto.hbook",1,1,"hbook") tree.thisown=1 hf = af.createHistogramFactory(tree) # ... and load them into memory: hEKin = tree.findH1D("10") hP = tree.findH1D("20") hNSec = tree.findH1D("30") hDeposit = tree.findH1D("40") hTheta = tree.findH1D("50") hPhi = tree.findH1D("60") # set plotter to 3*2 zones pl.createRegions(3,2) # ... and plot the histograms pl.plot(hEKin ) ; pl.show() ; pl.next() pl.plot(hP ) ; pl.show() ; pl.next() pl.plot(hNSec ) ; pl.show() ; pl.next() pl.plot(hDeposit) ; pl.show() ; pl.next() pl.plot(hTheta ) ; pl.show() ; pl.next() pl.plot(hPhi ) ; pl.show() ; pl.next() wait() # reset number of zones pl.createRegions(2,1) # helper function def nplot(tup, col, cut, xmin, xmax, nbins=100): global hf h1 = hf.create1D("1000000","temp hist", nbins, xmin, xmax) colId = tup.findColumn(col) bNextRow=tup.start() # Looping over the tuple entries while bNextRow: h1.fill(tup.getFloat(colId)) bNextRow=tup.next() # Retrieving the subsequent row pl.plot(h1) ; pl.show() ; pl.next() tree.rm("1000000") return # get the primary ntuple from the NtupleManager nt1 = tree.findTuple("1" ) # plot a few quantities using the shortcut nplot(nt1,"initen" ,"",0,20) nplot(nt1,"dedx" ,"",0.,100) # prompt user for wait() # get the secondaries ntuple and plot a few attributes from it nt2 = tree.findTuple("2" ) nplot(nt2, "parttyp", "", 0., 42) nplot(nt2, "e" , "", 0., 100.) pl.write("secondaries.ps", "ps") tree.commit() tree.close() del tree