VHbb/python/gethistofromtree.py

from samplesclass import sample
from printcolor import printc
import pickle
import ROOT 
from ROOT import TFile, TTree
import ROOT
from array import array
from BetterConfigParser import BetterConfigParser
import sys


def getScale(job,path,config,rescale,subsample=-1):
    anaTag=config.get('Analysis','tag')
    input = TFile.Open(path+'/'+job.getpath())
    CountWithPU = input.Get("CountWithPU")
    CountWithPU2011B = input.Get("CountWithPU2011B")
    #print lumi*xsecs[i]/hist.GetBinContent(1)
    
    if subsample>-1:
        xsec=float(job.xsec[subsample])
        sf=float(job.sf[subsample])
    else:
        xsec=float(job.xsec)
        sf=float(job.sf)
    
    
    theScale = 1.
    if anaTag == '7TeV':
        theScale = float(job.lumi)*xsec*sf/(0.46502*CountWithPU.GetBinContent(1)+0.53498*CountWithPU2011B.GetBinContent(1))*rescale/float(job.split)
    elif anaTag == '8TeV':
        theScale = float(job.lumi)*xsec*sf/(CountWithPU.GetBinContent(1))*rescale/float(job.split)
    return theScale 

def getHistoFromTree(job,path,config,options,rescale=1,subsample=-1,which_weightF='weightF'):

    #print job.getpath()
    #print options
    treeVar=options[0]
    if subsample>-1:
        name=job.subnames[subsample]
        group=job.group[subsample]
    else:
        name=job.name
        group=job.group

    #title=job.plotname()
    nBins=int(options[3])
    xMin=float(options[4])
    xMax=float(options[5])

    if job.type != 'DATA':
        cutcut=config.get('Cuts',options[7])
        if subsample>-1:
            treeCut='%s & %s & EventForTraining == 0'%(cutcut,job.subcuts[subsample])        
        else:
            treeCut='%s & EventForTraining == 0'%(cutcut)

    elif job.type == 'DATA':
        cutcut=config.get('Cuts',options[8])
        treeCut='%s'%(cutcut)


    input = TFile.Open(path+'/'+job.getpath(),'read')

    Tree = input.Get(job.tree)
    #Tree=tmpTree.CloneTree()
    #Tree.SetDirectory(0)
    
    #Tree=tmpTree.Clone()
    weightF=config.get('Weights',which_weightF)
    #hTree = ROOT.TH1F('%s'%name,'%s'%title,nBins,xMin,xMax)
    #hTree.SetDirectory(0)
    #hTree.Sumw2()
    #print 'drawing...'
    if job.type != 'DATA':
        #print treeCut
        #print job.name
        if Tree.GetEntries():
            Tree.Draw('%s>>%s(%s,%s,%s)' %(treeVar,name,nBins,xMin,xMax),'(%s)*(%s)' %(treeCut,weightF), "goff,e")
            full=True
        else:
            full=False
    elif job.type == 'DATA':
    
        if len(options)>10:
            if options[11] == 'blind':
                treeCut = treeCut + '&'+treeVar+'<0'
    
    
        Tree.Draw('%s>>%s(%s,%s,%s)' %(treeVar,name,nBins,xMin,xMax),treeCut, "goff,e")
        full = True
    if full:
        hTree = ROOT.gDirectory.Get(name)
    else:
        hTree = ROOT.TH1F('%s'%name,'%s'%name,nBins,xMin,xMax)
        hTree.Sumw2()
    #print job.name + ' Sumw2', hTree.GetEntries()

    if job.type != 'DATA':
        ScaleFactor = getScale(job,path,config,rescale,subsample)
        if ScaleFactor != 0:
            hTree.Scale(ScaleFactor)
            
    print '\t-->import %s\t Integral: %s'%(job.name,hTree.Integral())
            
    hTree.SetDirectory(0)
    input.Close()  
    
              
    return hTree, group
    

######################


def orderandadd(histos,typs,setup):
#ORDER AND ADD TOGETHER

    ordnung=[]
    ordnungtyp=[]
    num=[0]*len(setup)
    for i in range(0,len(setup)):
        for j in range(0,len(histos)):
            if typs[j] in setup[i]:
                num[i]+=1
                ordnung.append(histos[j])
                ordnungtyp.append(typs[j])

    del histos
    del typs

    histos=ordnung
    typs=ordnungtyp

    for k in range(0,len(num)):
        for m in range(0,num[k]):
            if m > 0:
            
                #add
                histos[k].Add(histos[k+1],1)
                printc('magenta','','\t--> added %s to %s'%(typs[k],typs[k+1]))
                del histos[k+1]
                del typs[k+1]

    del histos[len(setup):]
    del typs[len(setup):]

    return histos, typs


Revision:	1.11
Committed:	Thu Sep 20 10:19:57 2012 UTC (12 years, 7 months ago) by peller
Content type:	text/x-python
Branch:	MAIN
Changes since 1.10:	+2 -2 lines
Log Message:	weightF option for DC writer
#	Content
1	from samplesclass import sample
2	from printcolor import printc
3	import pickle
4	import ROOT
5	from ROOT import TFile, TTree
6	import ROOT
7	from array import array
8	from BetterConfigParser import BetterConfigParser
9	import sys
10
11
12	def getScale(job,path,config,rescale,subsample=-1):
13	anaTag=config.get('Analysis','tag')
14	input = TFile.Open(path+'/'+job.getpath())
15	CountWithPU = input.Get("CountWithPU")
16	CountWithPU2011B = input.Get("CountWithPU2011B")
17	#print lumi*xsecs[i]/hist.GetBinContent(1)
18
19	if subsample>-1:
20	xsec=float(job.xsec[subsample])
21	sf=float(job.sf[subsample])
22	else:
23	xsec=float(job.xsec)
24	sf=float(job.sf)
25
26
27	theScale = 1.
28	if anaTag == '7TeV':
29	theScale = float(job.lumi)xsecsf/(0.46502CountWithPU.GetBinContent(1)+0.53498CountWithPU2011B.GetBinContent(1))*rescale/float(job.split)
30	elif anaTag == '8TeV':
31	theScale = float(job.lumi)xsecsf/(CountWithPU.GetBinContent(1))*rescale/float(job.split)
32	return theScale
33
34	def getHistoFromTree(job,path,config,options,rescale=1,subsample=-1,which_weightF='weightF'):
35
36	#print job.getpath()
37	#print options
38	treeVar=options[0]
39	if subsample>-1:
40	name=job.subnames[subsample]
41	group=job.group[subsample]
42	else:
43	name=job.name
44	group=job.group
45
46	#title=job.plotname()
47	nBins=int(options[3])
48	xMin=float(options[4])
49	xMax=float(options[5])
50
51	if job.type != 'DATA':
52	cutcut=config.get('Cuts',options[7])
53	if subsample>-1:
54	treeCut='%s & %s & EventForTraining == 0'%(cutcut,job.subcuts[subsample])
55	else:
56	treeCut='%s & EventForTraining == 0'%(cutcut)
57
58	elif job.type == 'DATA':
59	cutcut=config.get('Cuts',options[8])
60	treeCut='%s'%(cutcut)
61
62
63	input = TFile.Open(path+'/'+job.getpath(),'read')
64
65	Tree = input.Get(job.tree)
66	#Tree=tmpTree.CloneTree()
67	#Tree.SetDirectory(0)
68
69	#Tree=tmpTree.Clone()
70	weightF=config.get('Weights',which_weightF)
71	#hTree = ROOT.TH1F('%s'%name,'%s'%title,nBins,xMin,xMax)
72	#hTree.SetDirectory(0)
73	#hTree.Sumw2()
74	#print 'drawing...'
75	if job.type != 'DATA':
76	#print treeCut
77	#print job.name
78	if Tree.GetEntries():
79	Tree.Draw('%s>>%s(%s,%s,%s)' %(treeVar,name,nBins,xMin,xMax),'(%s)*(%s)' %(treeCut,weightF), "goff,e")
80	full=True
81	else:
82	full=False
83	elif job.type == 'DATA':
84
85	if len(options)>10:
86	if options[11] == 'blind':
87	treeCut = treeCut + '&'+treeVar+'<0'
88
89
90	Tree.Draw('%s>>%s(%s,%s,%s)' %(treeVar,name,nBins,xMin,xMax),treeCut, "goff,e")
91	full = True
92	if full:
93	hTree = ROOT.gDirectory.Get(name)
94	else:
95	hTree = ROOT.TH1F('%s'%name,'%s'%name,nBins,xMin,xMax)
96	hTree.Sumw2()
97	#print job.name + ' Sumw2', hTree.GetEntries()
98
99	if job.type != 'DATA':
100	ScaleFactor = getScale(job,path,config,rescale,subsample)
101	if ScaleFactor != 0:
102	hTree.Scale(ScaleFactor)
103
104	print '\t-->import %s\t Integral: %s'%(job.name,hTree.Integral())
105
106	hTree.SetDirectory(0)
107	input.Close()
108
109
110
111	return hTree, group
112
113
114	######################
115
116
117
118	def orderandadd(histos,typs,setup):
119	#ORDER AND ADD TOGETHER
120
121	ordnung=[]
122	ordnungtyp=[]
123	num=[0]*len(setup)
124	for i in range(0,len(setup)):
125	for j in range(0,len(histos)):
126	if typs[j] in setup[i]:
127	num[i]+=1
128	ordnung.append(histos[j])
129	ordnungtyp.append(typs[j])
130
131	del histos
132	del typs
133
134	histos=ordnung
135	typs=ordnungtyp
136
137	for k in range(0,len(num)):
138	for m in range(0,num[k]):
139	if m > 0:
140
141	#add
142	histos[k].Add(histos[k+1],1)
143	printc('magenta','','\t--> added %s to %s'%(typs[k],typs[k+1]))
144	del histos[k+1]
145	del typs[k+1]
146
147	del histos[len(setup):]
148	del typs[len(setup):]
149
150	return histos, typs
151
152