コード例 #1
0
def showAvailableFits():

    import FitManager

    availablefits = FitManager.get_plugins(FitManager.FitProvider)
    print '-->> Available fit plugins : '
    for entry in availablefits:
        print entry
    print '<<--'
    print ' '
コード例 #2
0
def showAvailableFits():

    import FitManager

    availablefits = FitManager.get_plugins(FitManager.FitProvider)
    print '-->> Available fit plugins : '
    for entry in availablefits:
        print entry
    print '<<--'
    print ' '
コード例 #3
0
ファイル: vdmFitterII.py プロジェクト: casarsa/VdMFramework
def doRunVdmFitter(Fill, FitName, InputGraphsFile, OutputDir, FitConfigInfo):

    showAvailableFits()
    
    availableFits = FitManager.get_plugins(FitManager.FitProvider)

    key = FitName + '_Fit'
    if key not in availableFits:
        print "Fit " + FitName + " requested via json file does not exist, nothing to fit with, exit."
        sys.exit(1)

    fitter = availableFits[FitName+'_Fit']()

    FitLogFile = OutputDir + FitName +'.log'
    fitlogfile = open(FitLogFile,'w') 
    sysstdout = sys.stdout
    sys.stdout = fitlogfile
    sysstderr = sys.stderr
    sys.stderr = fitlogfile

# temporarily: move graphs files over from forTmpStorage directory
#list = os.listdir('./forTmpStorage/')
#import shutil
#for element in list:
#    shutil.copy('./forTmpStorage/'+element, InputDataDir)

# for 2D fits

    if '_2D' in FitName:

# test that when 2D fit function is requested, the graph file used is also a 2D one
        if not '2D' in InputGraphsFile:
            print "--?? You selected a 2D fitting function, but chose as input a graphs file without the \"2D\" in its name"
            print "??--"
            print " "
            sys.exit(1)

    if not os.path.isfile(InputGraphsFile):        
        print "--?? Input data file ", InputGraphsFile ," does not exist"
        print "??--"
        print " "
        sys.exit(1)

    print " "
    print "Now open input graphs file: ", InputGraphsFile

    graphsAll = {}
    infile = open(InputGraphsFile, 'rb')
    graphsAll = pickle.load(infile)
    infile.close()

# if input file is 2D graphs file, also open the corresponding 1D graph file
    if '_2D' in FitName:
        fileName1D = InputGraphsFile.replace("graphs2D", "graphs")
        infile1D = open(fileName1D, 'rb')
        graphs1D = pickle.load(infile1D)


    resultsAll = {}

# first loop over scan numbers

    orderedKeyList=[]
    for keyAll in sorted(graphsAll.keys()):
        graphs = {}
        results = {}
        graphs = graphsAll[keyAll]
        if '_2D' in FitName:
            keyX = "Scan_" + keyAll.split("_")[1]
            keyY = "Scan_" + keyAll.split("_")[2]
            graphsX = graphs1D[keyX] 
            graphsY = graphs1D[keyY] 


# order keys in natural order, i.e. from smallest BCID to largest

# determine which of the bcid among those with collisions are indeed represented with a TGraphErrors() in the input graphs file
# need to do this because PCC uses only subset of 5 bcids of all possible bcids with collisions

        for key in orderedIntKeysFirst(graphs.keys()):
            print "------>>>>"
            print "Now fitting BCID ", key
            graph = graphs[key]
            if '_2D' in FitName:
                result = fitter.doFit2D(graph, graphsX[key], graphsY[key], FitConfigInfo)
                for entry in result:
                    print ">>", result, type(result)
                results[key] = result
                functions = result[0]
                canvas = fitter.doPlot2D(graphsX[key], graphsY[key], functions, Fill)
            else:    
                result = fitter.doFit(graph, FitConfigInfo)
                results[key] = result
                functions = result[0]
                canvas = fitter.doPlot(graph, functions, Fill)

    resultsAll[keyAll] = results

    sys.stdout = sysstdout
    sys.stderr = sysstderr
    fitlogfile.close()

    print 

    return resultsAll, fitter.table
コード例 #4
0
    coord = displacement
    coorde = [0.0 for a in coord] 
    coord = array("d",coord)
    coorde = array("d", coorde)
    currProduct = [ a*b/1e22 for a,b in zip(fbct1, fbct2)]
    lumi = [a/b for a,b in zip(bxlumi,currProduct)]
    lumie = [a/b for a,b in zip(bxlumiErr,currProduct)]
    lumie = array("d",lumie)
    lumi = array("d",lumi)

    graphY = r.TGraphErrors(len(coord),coord,lumi,coorde,lumie)
    graphY.SetName(name)
    graphY.SetTitle(name)

    availableFits = FitManager.get_plugins(FitManager.FitProvider)
    fitter = availableFits['SGConst_Fit']()

    FitConfigFile = "fits/SGConst_Config.json"
    FitConfig=open(FitConfigFile)
    FitConfigInfo = json.load(FitConfig)
    FitConfig.close()

    result = fitter.doFit(graphX, FitConfigInfo)
    functions = result[0]
    canvas = fitter.doPlot(graphX, functions, "3804")

    print "X scan"
    for entry in fitter.table:
        print entry
コード例 #5
0
ファイル: vdmFitter.py プロジェクト: rsosaric/VdMFramework
def doRunVdmFitter(Fill, FitName, InputGraphsFile, OutputDir, FitConfigInfo):

    showAvailableFits()

    availableFits = FitManager.get_plugins(FitManager.FitProvider)

    key = FitName + '_Fit'
    if key not in availableFits:
        print "Fit " + FitName + " requested via json file does not exist, nothing to fit with, exit."
        sys.exit(1)

    fitter = availableFits[FitName + '_Fit']()

    FitLogFile = OutputDir + FitName + '.log'
    fitlogfile = open(FitLogFile, 'w')
    sysstdout = sys.stdout
    sys.stdout = fitlogfile
    sysstderr = sys.stderr
    sys.stderr = fitlogfile

    # temporarily: move graphs files over from forTmpStorage directory
    #list = os.listdir('./forTmpStorage/')
    #import shutil
    #for element in list:
    #    shutil.copy('./forTmpStorage/'+element, InputDataDir)

    # for 2D fits

    if '_2D' in FitName:

        # test that when 2D fit function is requested, the graph file used is also a 2D one
        if not '2D' in InputGraphsFile:
            print "--?? You selected a 2D fitting function, but chose as input a graphs file without the \"2D\" in its name"
            print "??--"
            print " "
            sys.exit(1)

    if not os.path.isfile(InputGraphsFile):
        print "--?? Input data file ", InputGraphsFile, " does not exist"
        print "??--"
        print " "
        sys.exit(1)

    print " "
    print "Now open input graphs file: ", InputGraphsFile

    graphsAll = {}
    infile = open(InputGraphsFile, 'rb')
    graphsAll = pickle.load(infile)
    infile.close()

    print graphsAll

    # if input file is 2D graphs file, also open the corresponding 1D graph file
    if '_2D' in FitName:
        fileName1D = InputGraphsFile.replace("graphs2D", "graphs")
        infile1D = open(fileName1D, 'rb')
        graphs1D = pickle.load(infile1D)

#        print graphsList1D

    resultsAll = {}

    # first loop over scan numbers

    print ">>", graphsAll.keys()
    for keyAll in sorted(graphsAll.keys()):
        print "Looking at ", keyAll
        graphs = {}
        results = {}
        graphs = graphsAll[keyAll]
        if '_2D' in FitName:
            keyX = "Scan_" + keyAll.split("_")[1]
            keyY = "Scan_" + keyAll.split("_")[2]
            print "keyX", keyX
            print "keyY", keyY
            graphsX = graphs1D[keyX]
            graphsY = graphs1D[keyY]


# order keys in natural order, i.e. from smallest BCID to largest

# determine which of the bcid among those with collisions are indeed represented with a TGraphErrors() in the input graphs file
# need to do this because PCC uses only subset of 5 bcids of all possible bcids with collisions

        print graphs.keys()
        for key in sorted(graphs.keys(), key=int):
            print "------>>>>"
            print "Now fitting BCID ", key
            graph = graphs[key]
            if '_2D' in FitName:
                result = fitter.doFit2D(graph, graphsX[key], graphsY[key],
                                        FitConfigInfo)
                for entry in result:
                    print ">>", result, type(result)
                results[key] = result
                functions = result[0]
                canvas = fitter.doPlot2D(graphsX[key], graphsY[key], functions,
                                         Fill)
            else:
                result = fitter.doFit(graph, FitConfigInfo)
                for entry in result:
                    print ">>", result, type(result)
                results[key] = result
                functions = result[0]
                canvas = fitter.doPlot(graph, functions, Fill)

        for entry in fitter.table:
            print entry

    resultsAll[keyAll] = results
    print resultsAll

    sys.stdout = sysstdout
    sys.stderr = sysstderr
    fitlogfile.close()

    return resultsAll, fitter.table
コード例 #6
0
    coord = displacement
    coorde = [0.0 for a in coord]
    coord = array("d", coord)
    coorde = array("d", coorde)
    currProduct = [a * b / 1e22 for a, b in zip(fbct1, fbct2)]
    lumi = [a / b for a, b in zip(bxlumi, currProduct)]
    lumie = [a / b for a, b in zip(bxlumiErr, currProduct)]
    lumie = array("d", lumie)
    lumi = array("d", lumi)

    graphY = r.TGraphErrors(len(coord), coord, lumi, coorde, lumie)
    graphY.SetName(name)
    graphY.SetTitle(name)

    availableFits = FitManager.get_plugins(FitManager.FitProvider)
    fitter = availableFits['SGConst_Fit']()

    FitConfigFile = "fits/SGConst_Config.json"
    FitConfig = open(FitConfigFile)
    FitConfigInfo = json.load(FitConfig)
    FitConfig.close()

    result = fitter.doFit(graphX, FitConfigInfo)
    functions = result[0]
    canvas = fitter.doPlot(graphX, functions, "3804")

    print "X scan"
    for entry in fitter.table:
        print entry
コード例 #7
0
def doRunVdmFitter(Fill, FitName, InputGraphsFiles, OutputDir, PlotsTempPath,
                   FitConfigInfo):

    showAvailableFits()

    availableFits = FitManager.get_plugins(FitManager.FitProvider)

    key = FitName + '_Fit'
    if key not in availableFits:
        print "Fit " + FitName + " requested via json file does not exist, nothing to fit with, exit."
        sys.exit(1)

    fitter = availableFits[FitName + '_Fit']()

    FitLogFile = OutputDir + FitName + '.log'
    fitlogfile = open(FitLogFile, 'w')
    sysstdout = sys.stdout
    sys.stdout = fitlogfile
    sysstderr = sys.stderr
    sys.stderr = fitlogfile

    # temporarily: move graphs files over from forTmpStorage directory
    #list = os.listdir('./forTmpStorage/')
    #import shutil
    #for element in list:
    #    shutil.copy('./forTmpStorage/'+element, InputDataDir)

    # for 2D fits

    if '_2D' in FitName:

        # test that when 2D fit function is requested, the graph file used is also a 2D one
        if not '2D' in InputGraphsFiles:
            print "--?? You selected a 2D fitting function, but chose as input a graphs file without the \"2D\" in its name"
            print "??--"
            print " "
            sys.exit(1)

    for graphFile in InputGraphsFiles:
        if not os.path.isfile(graphFile):
            print "--?? Input data file ", graphFile, " does not exist"
            print "??--"
            print " "
            sys.exit(1)
        if (not any('VTX' in graph for graph in InputGraphsFiles)
                and len(InputGraphsFiles) > 1):
            print "--?? Input data file ", graphFile, " does not correspond to Vertex file"
            print "??--"
            print " "
            sys.exit(1)

    graphsAll_dict = {}
    graphsAll_list = []
    resultsAll = {}

    for graphFile in InputGraphsFiles:
        print " "
        print "Now open input graphs file: ", graphFile
        infile = open(graphFile, 'rb')
        graphsAll_dict = pickle.load(infile)
        infile.close()
        graphsAll_list.append(graphsAll_dict)

# if input file is 2D graphs file, also open the corresponding 1D graph file
    if '_2D' in FitName:
        fileName1D = InputGraphsFile.replace("graphs2D", "graphs")
        infile1D = open(fileName1D, 'rb')
        graphs1D = pickle.load(infile1D)

# first loop over scan numbers

    orderedKeyList = []
    if (len(InputGraphsFiles) == 1):
        for keyAll in sorted(graphsAll_dict.keys()):
            graphs = {}
            results = {}
            graphs = graphsAll_dict[keyAll]
            if '_2D' in FitName:
                keyX = "Scan_" + keyAll.split("_")[1]
                keyY = "Scan_" + keyAll.split("_")[2]
                graphsX = graphs1D[keyX]
                graphsY = graphs1D[keyY]

# order keys in natural order, i.e. from smallest BCID to largest

# determine which of the bcid among those with collisions are indeed represented with a TGraphErrors() in the input graphs file
# need to do this because PCC uses only subset of 5 bcids of all possible bcids with collisions

            for key in orderedIntKeysFirst(graphs.keys()):
                print "------>>>>"
                print "Now fitting BCID ", key
                graph = graphs[key]
                if '_2D' in FitName:
                    result = fitter.doFit2D(graph, graphsX[key], graphsY[key],
                                            FitConfigInfo)
                    for entry in result:
                        print ">>", result, type(result)
                    results[key] = result
                    functions = result[0]
                    canvas = fitter.doPlot2D(graphsX[key], graphsY[key],
                                             functions, Fill)
                else:
                    result = fitter.doFit(graph, FitConfigInfo)
                    results[key] = result
                    functions = result[0]
                    canvas = fitter.doPlot(graph, functions, Fill,
                                           PlotsTempPath[0])

        resultsAll[keyAll] = results
        table = [fitter.table]
        sys.stdout = sysstdout
        sys.stderr = sysstderr
        fitlogfile.close()

        return resultsAll, table
    else:  #Sim Fit
        for (keyAll1, keyAll2) in sorted(
                zip(graphsAll_list[0].keys(), graphsAll_list[1].keys())):
            graphs = {}
            graphs1 = {}
            graphs2 = {}
            results = {}

            graphs1 = graphsAll_list[0][keyAll1]
            graphs2 = graphsAll_list[1][keyAll1]

            ds = [graphs1, graphs2]
            for k in graphs1.iterkeys():
                graphs[k] = list(graphs[k] for graphs in ds)


# order keys in natural order, i.e. from smallest BCID to largest

# determine which of the bcid among those with collisions are indeed represented with a TGraphErrors() in the input graphs file
# need to do this because PCC uses only subset of 5 bcids of all possible bcids with collisions
            for key in orderedIntKeysFirst(graphs.keys()):
                print "------>>>>"
                print "Now fitting BCID ", key
                result = fitter.doFit(graphs[key], FitConfigInfo)
                results[key] = result
                functions = result[0]
                canvas = fitter.doPlot(graphs[key][0], functions[:4], Fill,
                                       PlotsTempPath[0])
                canvas = fitter.doPlot(graphs[key][1], functions[4:], Fill,
                                       PlotsTempPath[1])
        sys.stdout = sysstdout
        sys.stderr = sysstderr
        fitlogfile.close()
        table = [fitter.table_Luminometer1, fitter.table_Luminometer2]
        return resultsAll, table