# $Id: dataAcess.py,v 1.3 2003/06/26 11:54:13 dressel Exp $ # ------------------------------------------------------------------- # GEANT4 tag $Name: $ # ------------------------------------------------------------------- # import os import shelve import myLiz import dpsManip import detector class ExperimentalData(object): def __init__(self): tiara_dir = os.environ["TIARA_BASE"] if not tiara_dir: print "dataAcess.ExperimentalData: TIARA_BASE not defined run tiara...sh first" dataFile = tiara_dir + "/data/expDataConverted/TiaraData2.xml" print "display.ExperimentalData.dataFile:" ,dataFile self.dataTree = myLiz.tf.create (dataFile,"xml",1,0) def getDataDPS(self, she, detector): energy = she["energy"] shieldWidth = she["shieldWidth"] dataName = "Tiara-" + energy + "c" + shieldWidth + \ "-" + detector if shieldWidth == "25" or shieldWidth == "50": dataName += "a" dataName += ".pnt" print dataName pData = self.dataTree.findDataPointSet(dataName) dpsManip.setDPSErrorsToZero(pData, 0) return pData def getScaledDataaDPS(self, she, detname, df): pDataO = self.getDataDPS(she, detname) pData = dpsManip.createScaledDPS(0, pDataO, df, "scaled_" + pDataO.title (), 0.000001) return pData class MC_Data(object): def __init__(self, she, mcTree): self.she = she self.energy = self.she["energy"] self.shield = self.she["shieldWidth"] self.mcTree = mcTree self.coli = 0 if self.shield == "25" or \ self.shield == "50": self.coli = 1 self.baseName = self.energy + "c" + self.shield +\ "_detector_" def getGeneratedHisto(self): name = "source_detector" hGen = self.mcTree.findH1D(name) return hGen def getMcPlot(self, detector, histo): mcName = "detector_" + detector + histo print mcName hMc = self.mcTree.findH1D(mcName) return hMc def getScale(self, atColiExit): coli = 0 if atColiExit==1: coli = 0 else: coli = self.coli nPeakNeutrons = self.she["generatorTally"].measures[1].sum scale = detector.detScale(nPeakNeutrons, self.energy, coli) print "CompPlot.getScale: scaling with:", scale return scale def getScaledMcDPS(self, atColiExit, det, df, histo = ""): dname = self.baseName + det.name if histo: dname += "_" + histo scale = self.getScale (atColiExit) hMc = self.getMcPlot (det.name, histo ) binEdges = dpsManip.getBinEdges(hMc) dScaled = dpsManip.getScaledDPS(hMc, scale/det.volume, df, dname + "scaled") dLethScaled = dpsManip.dLogWeightDPS (dScaled, df, dname + "df_dlgE", binEdges) return dLethScaled def getScaledGeneratedDPS(self, atColiExit, det, df, histo = ""): dname = self.baseName + det.name if histo: dname += "_" + histo scale = self.getScale (atColiExit) hGen = self.getGeneratedHisto() binEdges = dpsManip.getBinEdges(hGen) dGenScaled = dpsManip.getScaledDPS(hGen, scale/detector.sourceDetectorVolume, df, dname + "GenScaled") dGenLethScaled = dpsManip.dLogWeightDPS(dGenScaled, df, dname + "gen, df_dlgE", binEdges) return dGenLethScaled class ExpMcPlot(object): """Prepare and hold source information for a plot. Hold experimental and Monte Carlo data to plot in one diagram. """ def __init__(self, shelveName, dist, detType="ring", histo = ""): path = os.path.dirname(shelveName) shelveFile = os.path.basename(shelveName) self.tt = myLiz.tf.create () self.df = myLiz.af.createDataPointSetFactory (self.tt) self.she = shelve.open(shelveName,"r") xmlFile = self.she["xmlStoreName"] if path: xmlFile = path + "/" + xmlFile self.mcTree = myLiz.tf.create (xmlFile, "xml", 1, 0) self.det = detector.Detector(dist,detType) self.expData = ExperimentalData() self.mcData = MC_Data(self.she, self.mcTree) self.pDataDPS = self.expData.getScaledDataaDPS(self.she, self.det.name, self.df) self.pMcDPS = self.mcData.getScaledMcDPS(atColiExit=1, det=self.det, df=self.df, histo="") self.pGenDPS = self.mcData.getScaledGeneratedDPS(atColiExit=1, det=self.det, df=self.df, histo="") self.regions = [] def display(self): if "pl" not in dir(myLiz): myLiz.pf = myLiz.af.createPlotterFactory () myLiz.pl = myLiz.pf.create() region = myLiz.pl.currentRegion() self.regions.append(region) region.plot (self.pDataDPS,"markers overlay") region.plot (self.pMcDPS,"markers overlay") myLiz.pl.refresh ()