1 | #!/usr/bin/python2.6
|
---|
2 | #
|
---|
3 | # Werner Lustermann
|
---|
4 | # ETH Zurich
|
---|
5 | #
|
---|
6 | from ctypes import *
|
---|
7 |
|
---|
8 | # get the ROOT stuff + my shared libs
|
---|
9 | from ROOT import gSystem
|
---|
10 | gSystem.Load('../troot/fitslib.so')
|
---|
11 | from ROOT import *
|
---|
12 |
|
---|
13 | import numpy as np
|
---|
14 |
|
---|
15 |
|
---|
16 | class rawdata( object ):
|
---|
17 | """
|
---|
18 | raw data access and calibration
|
---|
19 | """
|
---|
20 | def __init__( self, dfname, calfname ):
|
---|
21 | """
|
---|
22 | open data file and calibration data file
|
---|
23 | get basic information about the data inf dfname
|
---|
24 | allocate buffers for data access
|
---|
25 |
|
---|
26 | dfname - fits or fits.gz file containing the data including the path
|
---|
27 | calfname - fits or fits.gz file containing DRS calibration data
|
---|
28 | """
|
---|
29 | self.dfname = dfname
|
---|
30 | self.calfname = calfname
|
---|
31 |
|
---|
32 | # access data file
|
---|
33 | try:
|
---|
34 | df = fits( self.dfname )
|
---|
35 | except IOError:
|
---|
36 | print 'problem accessing data file: ', dfname
|
---|
37 | raise # stop ! no data
|
---|
38 | self.df = df
|
---|
39 |
|
---|
40 | # get basic information about the data file
|
---|
41 | self.NROI = df.GetUInt( 'NROI' ) # region of interest (length of DRS pipeline read out)
|
---|
42 | self.NPIX = df.GetUInt( 'NPIX' ) # number of pixels (should be 1440)
|
---|
43 | self.NEvents = df.GetNumRows() # find number of events
|
---|
44 | # allocate the data memories
|
---|
45 | self.evNum = c_ulong()
|
---|
46 | self.Data = np.zeros( self.NPIX * self.NROI, np.int16 )
|
---|
47 | self.startCells = np.zeros( self.NPIX, np.int16 )
|
---|
48 | # set the pointers to the data++
|
---|
49 | df.SetPtrAddress( 'EventNum', self.evNum )
|
---|
50 | df.SetPtrAddress( 'StartCellData', self.startCells ) # DRS readout start cell
|
---|
51 | df.SetPtrAddress( 'Data', self.Data ) # this is what you would expect
|
---|
52 | # df.GetNextRow() # access the first event
|
---|
53 |
|
---|
54 | # access calibration file
|
---|
55 | try:
|
---|
56 | calf = fits( self.calfname )
|
---|
57 | except IOError:
|
---|
58 | print 'problem accessing calibration file: ', calfname
|
---|
59 | raise
|
---|
60 | self.calf = calf
|
---|
61 | #
|
---|
62 | BaselineMean = calf.GetN('BaselineMean')
|
---|
63 | GainMean = calf.GetN('GainMean')
|
---|
64 | TriggerOffsetMean = calf.GetN('TriggerOffsetMean')
|
---|
65 |
|
---|
66 | self.blm = np.zeros( BaselineMean, np.float32 )
|
---|
67 | self.gm = np.zeros( GainMean, np.float32 )
|
---|
68 | self.tom = np.zeros( TriggerOffsetMean, np.float32 )
|
---|
69 |
|
---|
70 | self.Nblm = BaselineMean / self.NPIX
|
---|
71 | self.Ngm = GainMean / self.NPIX
|
---|
72 | self.Ntom = TriggerOffsetMean / self.NPIX
|
---|
73 |
|
---|
74 | calf.SetPtrAddress( 'BaselineMean', self.blm )
|
---|
75 | calf.SetPtrAddress( 'GainMean', self.gm )
|
---|
76 | calf.SetPtrAddress( 'TriggerOffsetMean', self.tom )
|
---|
77 | calf.GetRow(0)
|
---|
78 |
|
---|
79 | self.v_bsl = np.zeros( self.NPIX ) # array with baseline values (all ZERO)
|
---|
80 |
|
---|
81 | def next( self ):
|
---|
82 | """
|
---|
83 | load the next event from disk and calibrate it
|
---|
84 | """
|
---|
85 | self.df.GetNextRow()
|
---|
86 | self.calibrate_drsAmplitude()
|
---|
87 |
|
---|
88 |
|
---|
89 | def calibrate_drsAmplitude( self ):
|
---|
90 | """
|
---|
91 | perform amplitude calibration for the event
|
---|
92 | """
|
---|
93 | tomV = 2000./4096.
|
---|
94 | acalData = self.Data * tomV # convert into mV
|
---|
95 |
|
---|
96 | # reshape arrays: row = pixel, col = drs_slice
|
---|
97 | acalData = np.reshape( acalData, (self.NPIX, self.NROI) )
|
---|
98 | blm = np.reshape( self.blm, (self.NPIX, self.NROI) )
|
---|
99 | tom = np.reshape( self.tom, (self.NPIX, self.NROI) )
|
---|
100 | gm = np.reshape( self.gm, (self.NPIX, self.NROI) )
|
---|
101 |
|
---|
102 | # print 'acal Data ', acalData.shape
|
---|
103 | # print 'blm shape ', blm.shape
|
---|
104 | # print 'gm shape ', gm.shape
|
---|
105 |
|
---|
106 | for pixel in range( self.NPIX ):
|
---|
107 | # rotate the pixel baseline mean to the Data startCell
|
---|
108 | blm_pixel = np.roll( blm[pixel,:], -self.startCells[pixel] )
|
---|
109 | acalData[pixel,:] -= blm_pixel[0:self.NROI]
|
---|
110 | acalData[pixel,:] -= tom[pixel, 0:self.NROI]
|
---|
111 | acalData[pixel,:] /= gm[pixel, 0:self.NROI]
|
---|
112 |
|
---|
113 | self.acalData = acalData * 1907.35
|
---|
114 |
|
---|
115 | # print 'acalData ', self.acalData[0:2,0:20]
|
---|
116 |
|
---|
117 | def ReadBaseline( self, file, bsl_hist = 'bsl_sum/hplt_mean' ):
|
---|
118 | """
|
---|
119 | open ROOT file with baseline histogram and read baseline values
|
---|
120 | file name of the root file
|
---|
121 | bsl_hist path to the histogram containing the basline values
|
---|
122 | """
|
---|
123 | try:
|
---|
124 | f = TFile( file )
|
---|
125 | except:
|
---|
126 | print 'Baseline data file could not be read: ', file
|
---|
127 | return
|
---|
128 |
|
---|
129 | h = f.Get( bsl_hist )
|
---|
130 |
|
---|
131 | for i in range( self.NPIX ):
|
---|
132 | self.v_bsl[i] = h.GetBinContent( i+1 )
|
---|
133 |
|
---|
134 | f.Close()
|
---|
135 |
|
---|
136 |
|
---|
137 | def CorrectBaseline( self ):
|
---|
138 | """
|
---|
139 | apply baseline correction
|
---|
140 | """
|
---|
141 | for pixel in range( self.NPIX ):
|
---|
142 | self.acalData[pixel,:] -= self.v_bsl[pixel]
|
---|
143 |
|
---|
144 |
|
---|
145 | def info( self ):
|
---|
146 | """
|
---|
147 | print information
|
---|
148 | """
|
---|
149 | print 'data file: ', dfname
|
---|
150 | print 'calib file: ', calfname
|
---|
151 | print '\ncalibration file'
|
---|
152 | print 'N BaselineMean: ', self.Nblm
|
---|
153 | print 'N GainMean: ', self.Ngm
|
---|
154 | print 'N TriggeroffsetMean: ', self.Ntom
|
---|
155 |
|
---|
156 |
|
---|
157 | class histogramList( object ):
|
---|
158 |
|
---|
159 | def __init__( self, name ):
|
---|
160 | """ set the name and create empty lists """
|
---|
161 | self.name = name # name of the list
|
---|
162 | self.list = [] # list of the histograms
|
---|
163 | self.dict = {} # dictionary of histograms
|
---|
164 | self.hList = TObjArray() # list a la ROOT of the histograms
|
---|
165 |
|
---|
166 | def add( self, tag, h ):
|
---|
167 | self.list.append( h )
|
---|
168 | self.dict[tag] = h
|
---|
169 | self.hList.Add( h )
|
---|
170 |
|
---|
171 |
|
---|
172 | class pixelHisto1d ( object ):
|
---|
173 |
|
---|
174 | def __init__( self, name, title, Nbin, first, last, xtitle, ytitle, NPIX ):
|
---|
175 | """
|
---|
176 | book one dimensional histograms for each pixel
|
---|
177 | """
|
---|
178 | self.name = name
|
---|
179 |
|
---|
180 | self.list = [ x for x in range( NPIX ) ]
|
---|
181 | self.hList = TObjArray()
|
---|
182 |
|
---|
183 | for pixel in range( NPIX ):
|
---|
184 |
|
---|
185 | hname = name + ' ' + str( pixel )
|
---|
186 | htitle = title + ' ' + str( pixel )
|
---|
187 | self.list[pixel] = TH1F( hname, htitle, Nbin, first, last )
|
---|
188 |
|
---|
189 | self.list[pixel].GetXaxis().SetTitle( xtitle )
|
---|
190 | self.list[pixel].GetYaxis().SetTitle( ytitle )
|
---|
191 | self.hList.Add( self.list[pixel] )
|
---|
192 |
|
---|
193 |
|
---|
194 | def SaveHistograms( histogramLists, fname = 'histo.root', opt = 'RECREATE' ):
|
---|
195 | """
|
---|
196 | Saves all histograms in all given histogram lists to a root file
|
---|
197 | Each histogram list is saved to a separate directory
|
---|
198 | """
|
---|
199 | rf = TFile( fname, opt)
|
---|
200 |
|
---|
201 | for list in histogramLists:
|
---|
202 | rf.mkdir( list.name )
|
---|
203 | rf.cd( list.name )
|
---|
204 | list.hList.Write()
|
---|
205 |
|
---|
206 | rf.Close()
|
---|
207 |
|
---|
208 | # simple test method
|
---|
209 | if __name__ == '__main__':
|
---|
210 | """
|
---|
211 | create an instance
|
---|
212 | """
|
---|
213 | dfname = '/data03/fact-construction/raw/2011/11/24/20111124_121.fits'
|
---|
214 | calfname = '/data03/fact-construction/raw/2011/11/24/20111124_111.drs.fits'
|
---|
215 | rd = rawdata( dfname, calfname )
|
---|
216 | rd.info()
|
---|
217 | rd.next()
|
---|
218 |
|
---|
219 | # for i in range(10):
|
---|
220 | # df.GetNextRow()
|
---|
221 |
|
---|
222 | # print 'evNum: ', evNum.value
|
---|
223 | # print 'startCells[0:9]: ', startCells[0:9]
|
---|
224 | # print 'evData[0:9]: ', evData[0:9]
|
---|