1 | #!/usr/bin/python -tt
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2 | #
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3 | # Werner Lustermann, Dominik Neise
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4 | # ETH Zurich, TU Dortmund
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5 | #
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6 | from ctypes import *
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7 | import numpy as np
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8 | import pprint # for SlowData
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9 | from scipy import signal
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10 |
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11 | # get the ROOT stuff + my shared libs
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12 | from ROOT import gSystem
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13 | # factfits_h.so is made from factfits.h and is used to access the data
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14 | # make sure the location of factfits_h.so is in LD_LIBRARY_PATH.
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15 | # having it in PYTHONPATH is *not* sufficient
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16 | gSystem.Load('factfits_h.so')
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17 | gSystem.Load('calfactfits_h.so')
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18 | from ROOT import *
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19 |
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20 | class RawDataFeeder( object ):
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21 | """ Wrapper class for RawData class
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22 | capable of iterating over multiple RawData Files
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23 | """
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24 |
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25 | def __init__(self, filelist):
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26 | """ *filelist* list of files to iterate over
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27 | the list should contain tuples, or sublists of two filenames
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28 | the first should be a data file (\*.fits.gz)
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29 | the second should be an amplitude calibration file(\*.drs.fits.gz)
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30 | """
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31 | # sanity check for input
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32 | if type(filelist) != type(list()):
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33 | raise TypeError('filelist should be a list')
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34 | for entry in filelist:
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35 | if len(entry) != 2:
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36 | raise TypeError('the entries of filelist should have length == 2')
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37 | for path in entry:
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38 | if type(path) != type(str()):
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39 | raise TypeError('the entries of filelist should be path, i.e. of type str()')
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40 | #todo check if 'path' is a valid path
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41 | # else: throw an Exception, or Warning?
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42 |
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43 | self.filelist = filelist
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44 | self._current_RawData = RawData(filelist[0][0], filelist[0][1], return_dict=True)
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45 | del filelist[0]
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46 |
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47 | def __iter__(self):
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48 | return self
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49 |
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50 | def next():
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51 | """ Method being called by the iterator.
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52 | Since the RawData Objects are simply looped over, the event_id from the
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53 | RawData object will not be unique.
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54 | Each RawData obejct will start with event_id = 1 as usual.
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55 | """
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56 | try:
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57 | return self._current_RawData.next()
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58 | except StopIteration:
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59 | # current_RawData was completely processed
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60 | # delete it (I hope this calls the destructor of the fits file and/or closes it)
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61 | del self._current_RawData
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62 | # and remake it, if possible
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63 | if len(self.filelist) > 0:
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64 | self._current_RawData = RawData(filelist[0][0], filelist[0][1], return_dict=True)
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65 | del filelist[0]
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66 | else:
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67 | raise
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68 |
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69 |
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70 |
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71 | class RawData( object ):
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72 | """ raw data access and calibration
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73 |
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74 | - open raw data file and drs calibration file
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75 | - performs amplitude calibration
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76 | - performs baseline substraction if wanted
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77 | - provides all data in an array:
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78 | row = number of pixel
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79 | col = length of region of interest
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80 |
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81 | """
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82 |
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83 |
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84 | def __init__(self, data_file_name, calib_file_name,
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85 | user_action_calib=lambda acal_data, data, blm, tom, gm, scells, nroi: None,
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86 | baseline_file_name='',
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87 | return_dict = True,
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88 | do_calibration = True,
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89 | use_CalFactFits = True):
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90 | """ initialize object
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91 |
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92 | open data file and calibration data file
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93 | get basic information about the data in data_file_name
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94 | allocate buffers for data access
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95 |
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96 | data_file_name : fits or fits.gz file of the data including the path
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97 | calib_file_name : fits or fits.gz file containing DRS calibration data
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98 | baseline_file_name : npy file containing the baseline values
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99 | """
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100 | self.__module__='pyfact'
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101 | # manual implementation of default value, but I need to find out
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102 | # if the user of this class is aware of the new option
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103 | if return_dict == False:
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104 | print 'DEPRECATION WARNING:'
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105 | print 'you are using RawData in a way, which is nor supported anymore.'
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106 | print ' Please set: return_dict = True, in the __init__ call'
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107 | self.return_dict = return_dict
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108 | self.use_CalFactFits = use_CalFactFits
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109 |
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110 | self.do_calibration = do_calibration
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111 |
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112 | self.data_file_name = data_file_name
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113 | self.calib_file_name = calib_file_name
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114 | self.baseline_file_name = baseline_file_name
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115 |
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116 | self.user_action_calib = user_action_calib
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117 |
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118 | # baseline correction: True / False
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119 | if len(baseline_file_name) == 0:
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120 | self.correct_baseline = False
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121 | else:
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122 | self.correct_baseline = True
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123 |
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124 | # access data file
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125 | if use_CalFactFits:
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126 | try:
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127 | data_file = CalFactFits(data_file_name, calib_file_name)
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128 | except IOError:
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129 | print 'problem accessing data file: ', data_file_name
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130 | raise # stop ! no data
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131 |
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132 | self.data_file = data_file
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133 | self.data = np.empty( data_file.npix * data_file.nroi, np.float64)
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134 | data_file.SetNpcaldataPtr(self.data)
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135 | self.data = self.data.reshape( data_file.npix, data_file.nroi )
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136 | self.acal_data = self.data
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137 |
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138 | self.nroi = data_file.nroi
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139 | self.npix = data_file.npix
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140 | self.nevents = data_file.nevents
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141 |
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142 | # Data per event
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143 | self.event_id = None
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144 | self.trigger_type = None
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145 | #self.start_cells = None
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146 | #self.board_times = None
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147 | self.start_cells = np.zeros( self.npix, np.int16 )
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148 | self.board_times = np.zeros( 40, np.int32 )
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149 |
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150 | # data_file is a CalFactFits object
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151 | # data_file.datafile is one of the two FactFits objects hold by a CalFactFits.
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152 | # sorry for the strange naming ..
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153 | data_file.datafile.SetPtrAddress('StartCellData', self.start_cells)
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154 | data_file.datafile.SetPtrAddress('BoardTime', self.board_times)
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155 |
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156 | else:
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157 | try:
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158 | data_file = FactFits(self.data_file_name)
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159 | except IOError:
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160 | print 'problem accessing data file: ', data_file_name
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161 | raise # stop ! no data
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162 |
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163 | self.data_file = data_file
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164 |
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165 | # get basic information about the data file
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166 | #: region of interest (number of DRS slices read)
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167 | self.nroi = data_file.GetUInt('NROI')
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168 | #: number of pixels (should be 1440)
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169 | self.npix = data_file.GetUInt('NPIX')
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170 | #: number of events in the data run
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171 | self.nevents = data_file.GetNumRows()
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172 |
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173 | # allocate the data memories
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174 | self.event_id = c_ulong()
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175 | self.trigger_type = c_ushort()
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176 | #: 1D array with raw data
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177 | self.data = np.zeros( self.npix * self.nroi, np.int16 ).reshape(self.npix ,self.nroi)
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178 | #: slice where drs readout started
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179 | self.start_cells = np.zeros( self.npix, np.int16 )
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180 | #: time when the FAD was triggered, in some strange units...
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181 | self.board_times = np.zeros( 40, np.int32 )
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182 |
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183 | # set the pointers to the data++
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184 | data_file.SetPtrAddress('EventNum', self.event_id)
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185 | data_file.SetPtrAddress('TriggerType', self.trigger_type)
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186 | data_file.SetPtrAddress('StartCellData', self.start_cells)
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187 | data_file.SetPtrAddress('Data', self.data)
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188 | data_file.SetPtrAddress('BoardTime', self.board_times)
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189 |
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190 | # open the calibration file
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191 | try:
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192 | calib_file = FactFits(self.calib_file_name)
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193 | except IOError:
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194 | print 'problem accessing calibration file: ', calib_file_name
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195 | raise
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196 | #: drs calibration file
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197 | self.calib_file = calib_file
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198 |
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199 | baseline_mean = calib_file.GetN('BaselineMean')
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200 | gain_mean = calib_file.GetN('GainMean')
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201 | trigger_offset_mean = calib_file.GetN('TriggerOffsetMean')
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202 |
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203 | self.Nblm = baseline_mean / self.npix
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204 | self.Ngm = gain_mean / self.npix
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205 | self.Ntom = trigger_offset_mean / self.npix
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206 |
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207 | self.blm = np.zeros(baseline_mean, np.float32).reshape(self.npix , self.Nblm)
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208 | self.gm = np.zeros(gain_mean, np.float32).reshape(self.npix , self.Ngm)
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209 | self.tom = np.zeros(trigger_offset_mean, np.float32).reshape(self.npix , self.Ntom)
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210 |
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211 | calib_file.SetPtrAddress('BaselineMean', self.blm)
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212 | calib_file.SetPtrAddress('GainMean', self.gm)
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213 | calib_file.SetPtrAddress('TriggerOffsetMean', self.tom)
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214 | calib_file.GetRow(0)
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215 |
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216 | # make calibration constants double, so we never need to roll
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217 | self.blm = np.hstack((self.blm, self.blm))
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218 | self.gm = np.hstack((self.gm, self.gm))
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219 | self.tom = np.hstack((self.tom, self.tom))
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220 |
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221 | self.v_bsl = np.zeros(self.npix) # array of baseline values (all ZERO)
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222 |
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223 | def __iter__(self):
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224 | """ iterator """
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225 | return self
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226 |
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227 | def next(self):
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228 | """ used by __iter__ """
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229 | if self.use_CalFactFits:
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230 | if self.data_file.GetCalEvent() == False:
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231 | raise StopIteration
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232 | else:
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233 | self.event_id = self.data_file.event_id
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234 | self.trigger_type = self.data_file.event_triggertype
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235 | #self.start_cells = self.data_file.event_offset
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236 | #self.board_times = self.data_file.event_boardtimes
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237 | #self.acal_data = self.data.copy().reshape(self.data_file.npix, self.data_file.nroi)
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238 | else:
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239 | if self.data_file.GetNextRow() == False:
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240 | raise StopIteration
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241 | else:
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242 | if self.do_calibration == True:
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243 | self.calibrate_drs_amplitude()
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244 |
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245 | #print 'nevents = ', self.nevents, 'event_id = ', self.event_id.value
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246 | if self.return_dict:
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247 | return self.__dict__
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248 | else:
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249 | return self.acal_data, self.start_cells, self.trigger_type.value
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250 |
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251 | def next_event(self):
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252 | """ load the next event from disk and calibrate it
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253 | """
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254 | if self.use_CalFactFits:
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255 | self.data_file.GetCalEvent()
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256 | else:
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257 | self.data_file.GetNextRow()
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258 | self.calibrate_drs_amplitude()
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259 |
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260 | def calibrate_drs_amplitude(self):
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261 | """ perform the drs amplitude calibration of the event data
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262 |
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263 | """
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264 | # shortcuts
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265 | blm = self.blm
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266 | gm = self.gm
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267 | tom = self.tom
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268 |
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269 | to_mV = 2000./4096.
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270 | #: 2D array with amplitude calibrated dat in mV
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271 | acal_data = self.data * to_mV # convert ADC counts to mV
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272 |
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273 |
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274 | for pixel in range( self.npix ):
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275 | #shortcuts
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276 | sc = self.start_cells[pixel]
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277 | roi = self.nroi
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278 | # rotate the pixel baseline mean to the Data startCell
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279 | acal_data[pixel,:] -= blm[pixel,sc:sc+roi]
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280 | # the 'trigger offset mean' does not need to be rolled
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281 | # on the contrary, it seems there is an offset in the DRS data,
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282 | # which is related to its distance to the startCell, not to its
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283 | # distance to the beginning of the physical pipeline in the DRS chip
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284 | acal_data[pixel,:] -= tom[pixel,0:roi]
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285 | # rotate the pixel gain mean to the Data startCell
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286 | acal_data[pixel,:] /= gm[pixel,sc:sc+roi]
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287 |
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288 |
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289 | self.acal_data = acal_data * 1907.35
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290 |
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291 | self.user_action_calib( self.acal_data,
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292 | np.reshape(self.data, (self.npix, self.nroi) ), blm, tom, gm, self.start_cells, self.nroi)
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293 |
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294 |
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295 | def baseline_read_values(self, file, bsl_hist='bsl_sum/hplt_mean'):
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296 | """
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297 |
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298 | open ROOT file with baseline histogram and read baseline values
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299 | file name of the root file
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300 | bsl_hist path to the histogram containing the basline values
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301 |
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302 | """
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303 |
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304 | try:
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305 | f = TFile(file)
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306 | except:
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307 | print 'Baseline data file could not be read: ', file
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308 | return
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309 |
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310 | h = f.Get(bsl_hist)
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311 |
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312 | for i in range(self.npix):
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313 | self.v_bsl[i] = h.GetBinContent(i+1)
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314 |
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315 | f.Close()
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316 |
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317 | def baseline_correct(self):
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318 | """ subtract baseline from the data
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319 |
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320 | """
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321 |
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322 | for pixel in range(self.npix):
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323 | self.acal_data[pixel,:] -= self.v_bsl[pixel]
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324 |
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325 | def info(self):
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326 | """ print run information
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327 |
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328 | """
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329 | print 'data file: ', self.data_file_name
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330 | print 'calib file: ', self.calib_file_name
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331 | print '... we need more information printed here ... '
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332 |
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333 | # -----------------------------------------------------------------------------
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334 | class RawDataFake( object ):
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335 | """ raw data FAKE access similar to real RawData access
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336 | """
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337 |
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338 |
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339 | def __init__(self, data_file_name, calib_file_name,
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340 | user_action_calib=lambda acal_data, data, blm, tom, gm, scells, nroi: None,
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341 | baseline_file_name=''):
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342 | self.__module__='pyfact'
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343 |
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344 | self.nroi = 300
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345 | self.npix = 9
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346 | self.nevents = 1000
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347 |
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348 | self.simulator = None
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349 |
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350 | self.time = np.ones(1024) * 0.5
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351 |
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352 |
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353 | self.event_id = c_ulong(0)
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354 | self.trigger_type = c_ushort(4)
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355 | self.data = np.zeros( self.npix * self.nroi, np.int16 ).reshape(self.npix ,self.nroi)
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356 | self.start_cells = np.zeros( self.npix, np.int16 )
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357 | self.board_times = np.zeros( 40, np.int32 )
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358 | def __iter__(self):
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359 | """ iterator """
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360 | return self
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361 |
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362 | def next(self):
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363 | """ used by __iter__ """
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364 | self.event_id = c_ulong(self.event_id.value + 1)
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365 | self.board_times = self.board_times + 42
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366 |
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367 | if self.event_id.value >= self.nevents:
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368 | raise StopIteration
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369 | else:
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370 | self._make_event_data()
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371 |
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372 | return self.__dict__
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373 |
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374 | def _make_event_data(self):
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375 | sample_times = self.time.cumsum() - time[0]
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376 |
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377 | # random start cell
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378 | self.start_cells = np.ones( self.npix, np.int16 ) * np.random.randint(0,1024)
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379 |
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380 | starttime = self.start_cells[0]
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381 |
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382 | signal = self._std_sinus_simu(sample_times, starttime)
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383 |
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384 | data = np.vstack( (signal,signal) )
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385 | for i in range(8):
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386 | data = np.vstack( (data,signal) )
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387 |
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388 | self.data = data
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389 |
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390 | def _std_sinus_simu(self, times, starttime):
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391 | period = 10 # in ns
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392 |
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393 | # give a jitter on starttime
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394 | starttime = np.random.normal(startime, 0.05)
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395 |
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396 | phase = 0.0
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397 | signal = 10 * np.sin(times * 2*np.pi/period + starttime + phase)
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398 |
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399 | # add some noise
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400 | noise = np.random.normal(0.0, 0.5, signal.shape)
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401 | signal += noise
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402 | return signal
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403 |
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404 | def info(self):
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405 | """ print run information
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406 |
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407 | """
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408 |
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409 | print 'data file: ', data_file_name
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410 | print 'calib file: ', calib_file_name
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411 | print 'calibration file'
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412 | print 'N baseline_mean: ', self.Nblm
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413 | print 'N gain mean: ', self.Ngm
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414 | print 'N TriggeroffsetMean: ', self.Ntom
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415 |
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416 | # -----------------------------------------------------------------------------
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417 | import ctypes
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418 |
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419 | class SlowData( FactFits ):
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420 | """ -Fact SlowData File-
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421 | A Python wrapper for the fits-class implemented in pyfits.h
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422 | provides easy access to the fits file meta data.
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423 | * dictionary of file metadata - self.meta
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424 | * dict of table metadata - self.columns
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425 | * variable table column access, thus possibly increased speed while looping
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426 | """
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427 | def __init__(self, path):
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428 | """ creates meta and columns dictionaries
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429 | """
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430 | self.path = path
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431 | try:
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432 | FactFits.__init__(self,path)
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433 | except IOError:
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434 | print 'problem accessing data file: ', data_file_name
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435 | raise # stop ! no data
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436 |
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437 | self.meta = self._make_meta_dict()
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438 | self.columns = self._make_columns_dict()
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439 |
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440 | self.treat_meta_dict()
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441 |
|
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442 |
|
---|
443 | # list of columns, which are already registered
|
---|
444 | # see method register()
|
---|
445 | self._registered_cols = []
|
---|
446 | # dict of column data, this is used, in order to be able to remove
|
---|
447 | # the ctypes of
|
---|
448 | self._table_cols = {}
|
---|
449 |
|
---|
450 | # I need to count the rows, since the normal loop mechanism seems not to work.
|
---|
451 | self._current_row = 0
|
---|
452 |
|
---|
453 | self.stacked_cols = {}
|
---|
454 |
|
---|
455 | def _make_meta_dict(self):
|
---|
456 | """ This method retrieves meta information about the fits file and
|
---|
457 | stores this information in a dict
|
---|
458 | return: dict
|
---|
459 | key: string - all capital letters
|
---|
460 | value: tuple( numerical value, string comment)
|
---|
461 | """
|
---|
462 | # intermediate variables for file metadata dict generation
|
---|
463 | keys=self.GetPy_KeyKeys()
|
---|
464 | values=self.GetPy_KeyValues()
|
---|
465 | comments=self.GetPy_KeyComments()
|
---|
466 | types=self.GetPy_KeyTypes()
|
---|
467 |
|
---|
468 | if len(keys) != len(values):
|
---|
469 | raise TypeError('len(keys)',len(keys),' != len(values)', len(values))
|
---|
470 | if len(keys) != len(types):
|
---|
471 | raise TypeError('len(keys)',len(keys),' != len(types)', len(types))
|
---|
472 | if len(keys) != len(comments):
|
---|
473 | raise TypeError('len(keys)',len(keys),' != len(comments)', len(comments))
|
---|
474 |
|
---|
475 | meta_dict = {}
|
---|
476 | for i in range(len(keys)):
|
---|
477 | type = types[i]
|
---|
478 | if type == 'I':
|
---|
479 | value = int(values[i])
|
---|
480 | elif type == 'F':
|
---|
481 | value = float(values[i])
|
---|
482 | elif type == 'B':
|
---|
483 | if values[i] == 'T':
|
---|
484 | value = True
|
---|
485 | elif values[i] == 'F':
|
---|
486 | value = False
|
---|
487 | else:
|
---|
488 | raise TypeError("meta-type is 'B', but meta-value is neither 'T' nor 'F'. meta-value:",values[i])
|
---|
489 | elif type == 'T':
|
---|
490 | value = values[i]
|
---|
491 | else:
|
---|
492 | raise TypeError("unknown meta-type: known meta types are: I,F,B and T. meta-type:",type)
|
---|
493 | meta_dict[keys[i]]=(value, comments[i])
|
---|
494 | return meta_dict
|
---|
495 |
|
---|
496 |
|
---|
497 | def _make_columns_dict(self):
|
---|
498 | """ This method retrieves information about the columns
|
---|
499 | stored inside the fits files internal binary table.
|
---|
500 | returns: dict
|
---|
501 | key: string column name -- all capital letters
|
---|
502 | values: tuple(
|
---|
503 | number of elements in table field - integer
|
---|
504 | size of element in bytes -- this is not really interesting for any user
|
---|
505 | might be ommited in future versions
|
---|
506 | type - a single character code -- should be translated into
|
---|
507 | a comrehensible word
|
---|
508 | unit - string like 'mV' or 'ADC count'
|
---|
509 | """
|
---|
510 | # intermediate variables for file table-metadata dict generation
|
---|
511 | keys=self.GetPy_ColumnKeys()
|
---|
512 | #offsets=self.GetPy_ColumnOffsets() #not needed on python level...
|
---|
513 | nums=self.GetPy_ColumnNums()
|
---|
514 | sizes=self.GetPy_ColumnSizes()
|
---|
515 | types=self.GetPy_ColumnTypes()
|
---|
516 | units=self.GetPy_ColumnUnits()
|
---|
517 |
|
---|
518 | # zip the values
|
---|
519 | values = zip(nums,sizes,types,units)
|
---|
520 | # create the columns dictionary
|
---|
521 | columns = dict(zip(keys ,values))
|
---|
522 | return columns
|
---|
523 |
|
---|
524 | def stack(self, on=True):
|
---|
525 | self.next()
|
---|
526 | for col in self._registered_cols:
|
---|
527 | if isinstance( self.dict[col], type(np.array('')) ):
|
---|
528 | self.stacked_cols[col] = self.dict[col]
|
---|
529 | else:
|
---|
530 | # elif isinstance(self.dict[col], ctypes._SimpleCData):
|
---|
531 | self.stacked_cols[col] = np.array(self.dict[col])
|
---|
532 | # else:
|
---|
533 | # raise TypeError("I don't know how to stack "+col+". It is of type: "+str(type(self.dict[col])))
|
---|
534 |
|
---|
535 | def register(self, input_str):
|
---|
536 | columns = self.columns
|
---|
537 | if input_str.lower() == 'all':
|
---|
538 | for col in columns:
|
---|
539 | self._register(col)
|
---|
540 | else:
|
---|
541 | #check if colname is in columns:
|
---|
542 | if input_str not in columns:
|
---|
543 | error_msg = 'colname:'+ input_str +' is not a column in the binary table.\n'
|
---|
544 | error_msg+= 'possible colnames are\n'
|
---|
545 | for key in columns:
|
---|
546 | error_msg += key+'\n'
|
---|
547 | raise KeyError(error_msg)
|
---|
548 | else:
|
---|
549 | self._register(input_str)
|
---|
550 |
|
---|
551 | # 'private' method, do not use
|
---|
552 | def _register( self, colname):
|
---|
553 | columns = self.columns
|
---|
554 | local = None
|
---|
555 |
|
---|
556 | number_of_elements = int(columns[colname][0])
|
---|
557 | size_of_elements_in_bytes = int(columns[colname][1])
|
---|
558 | ctypecode_of_elements = columns[colname][2]
|
---|
559 | physical_unit_of_elements = columns[colname][3]
|
---|
560 |
|
---|
561 | # snippet from the C++ source code, or header file to be precise:
|
---|
562 | #case 'L': gLog << "bool(8)"; break;
|
---|
563 | #case 'B': gLog << "byte(8)"; break;
|
---|
564 | #case 'I': gLog << "short(16)"; break;
|
---|
565 | #case 'J': gLog << "int(32)"; break;
|
---|
566 | #case 'K': gLog << "int(64)"; break;
|
---|
567 | #case 'E': gLog << "float(32)"; break;
|
---|
568 | #case 'D': gLog << "double(64)"; break;
|
---|
569 |
|
---|
570 |
|
---|
571 |
|
---|
572 | # the fields inside the columns can either contain single numbers,
|
---|
573 | # or whole arrays of numbers as well.
|
---|
574 | # we treat single elements differently...
|
---|
575 | if number_of_elements == 1:
|
---|
576 | # allocate some memory for a single number according to its type
|
---|
577 | if ctypecode_of_elements == 'J': # J is for a 4byte int, i.e. an unsigned long
|
---|
578 | local = ctypes.c_ulong()
|
---|
579 | un_c_type = long
|
---|
580 | elif ctypecode_of_elements == 'I': # I is for a 2byte int, i.e. an unsinged int
|
---|
581 | local = ctypes.c_ushort()
|
---|
582 | un_c_type = int
|
---|
583 | elif ctypecode_of_elements == 'B': # B is for a byte
|
---|
584 | local = ctypes.c_ubyte()
|
---|
585 | un_c_type = int
|
---|
586 | elif ctypecode_of_elements == 'D':
|
---|
587 | local = ctypes.c_double()
|
---|
588 | un_c_type = float
|
---|
589 | elif ctypecode_of_elements == 'E':
|
---|
590 | local = ctypes.c_float()
|
---|
591 | un_c_type = float
|
---|
592 | elif ctypecode_of_elements == 'A':
|
---|
593 | local = ctypes.c_uchar()
|
---|
594 | un_c_type = chr
|
---|
595 | elif ctypecode_of_elements == 'K':
|
---|
596 | local = ctypes.c_ulonglong()
|
---|
597 | un_c_type = long
|
---|
598 | else:
|
---|
599 | raise TypeError('unknown ctypecode_of_elements:',ctypecode_of_elements)
|
---|
600 | else:
|
---|
601 | if ctypecode_of_elements == 'B': # B is for a byte
|
---|
602 | nptype = np.int8
|
---|
603 | elif ctypecode_of_elements == 'A': # A is for a char .. but I don't know how to handle it
|
---|
604 | nptype = np.int8
|
---|
605 | elif ctypecode_of_elements == 'I': # I is for a 2byte int
|
---|
606 | nptype = np.int16
|
---|
607 | elif ctypecode_of_elements == 'J': # J is for a 4byte int
|
---|
608 | nptype = np.int32
|
---|
609 | elif ctypecode_of_elements == 'K': # B is for a byte
|
---|
610 | nptype = np.int64
|
---|
611 | elif ctypecode_of_elements == 'E': # B is for a byte
|
---|
612 | nptype = np.float32
|
---|
613 | elif ctypecode_of_elements == 'D': # B is for a byte
|
---|
614 | nptype = np.float64
|
---|
615 | else:
|
---|
616 | raise TypeError('unknown ctypecode_of_elements:',ctypecode_of_elements)
|
---|
617 | local = np.zeros( number_of_elements, nptype)
|
---|
618 |
|
---|
619 | # Set the Pointer Address
|
---|
620 | self.SetPtrAddress(colname, local)
|
---|
621 | self._table_cols[colname] = local
|
---|
622 | if number_of_elements > 1:
|
---|
623 | self.__dict__[colname] = local
|
---|
624 | self.dict[colname] = local
|
---|
625 | else:
|
---|
626 | # remove any traces of ctypes:
|
---|
627 | self.__dict__[colname] = local.value
|
---|
628 | self.dict[colname] = local.value
|
---|
629 | self._registered_cols.append(colname)
|
---|
630 |
|
---|
631 |
|
---|
632 | def treat_meta_dict(self):
|
---|
633 | """make 'interesting' meta information available like normal members.
|
---|
634 | non interesting are:
|
---|
635 | TFORM, TUNIT, and TTYPE
|
---|
636 | since these are available via the columns dict.
|
---|
637 | """
|
---|
638 |
|
---|
639 | self.number_of_rows = self.meta['NAXIS2'][0]
|
---|
640 | self.number_of_columns = self.meta['TFIELDS'][0]
|
---|
641 |
|
---|
642 | # there are some information in the meta dict, which are alsways there:
|
---|
643 | # there are regarded as not interesting:
|
---|
644 | uninteresting_meta = {}
|
---|
645 | uninteresting_meta['arraylike'] = {}
|
---|
646 | uninteresting = ['NAXIS', 'NAXIS1', 'NAXIS2',
|
---|
647 | 'TFIELDS',
|
---|
648 | 'XTENSION','EXTNAME','EXTREL',
|
---|
649 | 'BITPIX', 'PCOUNT', 'GCOUNT',
|
---|
650 | 'ORIGIN',
|
---|
651 | 'PACKAGE', 'COMPILED', 'CREATOR',
|
---|
652 | 'TELESCOP','TIMESYS','TIMEUNIT','VERSION']
|
---|
653 | for key in uninteresting:
|
---|
654 | if key in self.meta:
|
---|
655 | uninteresting_meta[key]=self.meta[key]
|
---|
656 | del self.meta[key]
|
---|
657 |
|
---|
658 | # the table meta data contains
|
---|
659 |
|
---|
660 |
|
---|
661 | # shortcut to access the meta dict. But this needs to
|
---|
662 | # be cleaned up quickly!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
|
---|
663 | meta = self.meta
|
---|
664 |
|
---|
665 | # loop over keys:
|
---|
666 | # * try to find array-like keys
|
---|
667 | arraylike = {}
|
---|
668 | singlelike = []
|
---|
669 | for key in self.meta:
|
---|
670 | stripped = key.rstrip('1234567890')
|
---|
671 | if stripped == key:
|
---|
672 | singlelike.append(key)
|
---|
673 | else:
|
---|
674 | if stripped not in arraylike:
|
---|
675 | arraylike[stripped] = 0
|
---|
676 | else:
|
---|
677 | arraylike[stripped] += 1
|
---|
678 | newmeta = {}
|
---|
679 | for key in singlelike:
|
---|
680 | newmeta[key.lower()] = meta[key]
|
---|
681 | for key in arraylike:
|
---|
682 | uninteresting_meta['arraylike'][key.lower()] = []
|
---|
683 | for i in range(arraylike[key]+1):
|
---|
684 | if key+str(i) in meta:
|
---|
685 | uninteresting_meta['arraylike'][key.lower()].append(meta[key+str(i)])
|
---|
686 | self.ui_meta = uninteresting_meta
|
---|
687 | # make newmeta self
|
---|
688 | for key in newmeta:
|
---|
689 | self.__dict__[key]=newmeta[key]
|
---|
690 |
|
---|
691 | dict = self.__dict__.copy()
|
---|
692 | del dict['meta']
|
---|
693 | del dict['ui_meta']
|
---|
694 | self.dict = dict
|
---|
695 |
|
---|
696 | def __iter__(self):
|
---|
697 | """ iterator """
|
---|
698 | return self
|
---|
699 |
|
---|
700 | def next(self):
|
---|
701 | """ used by __iter__ """
|
---|
702 | # Here one might check, if looping makes any sense, and if not
|
---|
703 | # one could stop looping or so...
|
---|
704 | # like this:
|
---|
705 | #
|
---|
706 | # if len(self._registered_cols) == 0:
|
---|
707 | # print 'warning: looping without any registered columns'
|
---|
708 | if self._current_row < self.number_of_rows:
|
---|
709 | if self.GetNextRow() == False:
|
---|
710 | raise StopIteration
|
---|
711 | for col in self._registered_cols:
|
---|
712 | if isinstance(self._table_cols[col], ctypes._SimpleCData):
|
---|
713 | self.__dict__[col] = self._table_cols[col].value
|
---|
714 | self.dict[col] = self._table_cols[col].value
|
---|
715 |
|
---|
716 | for col in self.stacked_cols:
|
---|
717 | if isinstance(self.dict[col], type(np.array(''))):
|
---|
718 | self.stacked_cols[col] = np.vstack( (self.stacked_cols[col],self.dict[col]) )
|
---|
719 | else:
|
---|
720 | self.stacked_cols[col] = np.vstack( (self.stacked_cols[col],np.array(self.dict[col])) )
|
---|
721 | self._current_row += 1
|
---|
722 | else:
|
---|
723 | raise StopIteration
|
---|
724 | return self
|
---|
725 |
|
---|
726 | def show(self):
|
---|
727 | pprint.pprint(self.dict)
|
---|
728 |
|
---|
729 |
|
---|
730 |
|
---|
731 |
|
---|
732 | class fnames( object ):
|
---|
733 | """ organize file names of a FACT data run
|
---|
734 |
|
---|
735 | """
|
---|
736 |
|
---|
737 | def __init__(self, specifier = ['012', '023', '2011', '11', '24'],
|
---|
738 | rpath = '/scratch_nfs/res/bsl/',
|
---|
739 | zipped = True):
|
---|
740 | """
|
---|
741 | specifier : list of strings defined as:
|
---|
742 | [ 'DRS calibration file', 'Data file', 'YYYY', 'MM', 'DD']
|
---|
743 |
|
---|
744 | rpath : directory path for the results; YYYYMMDD will be appended to rpath
|
---|
745 | zipped : use zipped (True) or unzipped (Data)
|
---|
746 |
|
---|
747 | """
|
---|
748 |
|
---|
749 | self.specifier = specifier
|
---|
750 | self.rpath = rpath
|
---|
751 | self.zipped = zipped
|
---|
752 |
|
---|
753 | self.make( self.specifier, self.rpath, self.zipped )
|
---|
754 |
|
---|
755 |
|
---|
756 | def make( self, specifier, rpath, zipped ):
|
---|
757 | """ create (make) the filenames
|
---|
758 |
|
---|
759 | names : dictionary of filenames, tags { 'data', 'drscal', 'results' }
|
---|
760 | data : name of the data file
|
---|
761 | drscal : name of the drs calibration file
|
---|
762 | results : radikal of file name(s) for results (to be completed by suffixes)
|
---|
763 | """
|
---|
764 |
|
---|
765 | self.specifier = specifier
|
---|
766 |
|
---|
767 | if zipped:
|
---|
768 | dpath = '/data00/fact-construction/raw/'
|
---|
769 | ext = '.fits.gz'
|
---|
770 | else:
|
---|
771 | dpath = '/data03/fact-construction/raw/'
|
---|
772 | ext = '.fits'
|
---|
773 |
|
---|
774 | year = specifier[2]
|
---|
775 | month = specifier[3]
|
---|
776 | day = specifier[4]
|
---|
777 |
|
---|
778 | yyyymmdd = year + month + day
|
---|
779 | dfile = specifier[1]
|
---|
780 | cfile = specifier[0]
|
---|
781 |
|
---|
782 | rpath = rpath + yyyymmdd + '/'
|
---|
783 | self.rpath = rpath
|
---|
784 | self.names = {}
|
---|
785 |
|
---|
786 | tmp = dpath + year + '/' + month + '/' + day + '/' + yyyymmdd + '_'
|
---|
787 | self.names['data'] = tmp + dfile + ext
|
---|
788 | self.names['drscal'] = tmp + cfile + '.drs' + ext
|
---|
789 | self.names['results'] = rpath + yyyymmdd + '_' + dfile + '_' + cfile
|
---|
790 |
|
---|
791 | self.data = self.names['data']
|
---|
792 | self.drscal = self.names['drscal']
|
---|
793 | self.results = self.names['results']
|
---|
794 |
|
---|
795 | def info( self ):
|
---|
796 | """ print complete filenames
|
---|
797 |
|
---|
798 | """
|
---|
799 |
|
---|
800 | print 'file names:'
|
---|
801 | print 'data: ', self.names['data']
|
---|
802 | print 'drs-cal: ', self.names['drscal']
|
---|
803 | print 'results: ', self.names['results']
|
---|
804 |
|
---|
805 | # end of class definition: fnames( object )
|
---|
806 |
|
---|
807 | def _test_SlowData( filename ):
|
---|
808 | print '-'*70
|
---|
809 | print "opened :", filename, " as 'file'"
|
---|
810 | print
|
---|
811 | print '-'*70
|
---|
812 | print 'type file.show() to look at its contents'
|
---|
813 | print "type file.register( columnname ) or file.register('all') in order to register columns"
|
---|
814 | print
|
---|
815 | print " due column-registration you declare, that you would like to retrieve the contents of one of the columns"
|
---|
816 | print " after column-registration, the 'file' has new member variables, they are named like the columns"
|
---|
817 | print " PLEASE NOTE: immediatly after registration, the members exist, but they are empty."
|
---|
818 | print " the values are assigned only, when you call file.next() or when you loop over the 'file'"
|
---|
819 | print
|
---|
820 | print "in order to loop over it, just go like this:"
|
---|
821 | print "for row in file:"
|
---|
822 | print " print row.columnname_one, row.columnname_two"
|
---|
823 | print
|
---|
824 | print ""
|
---|
825 | print '-'*70
|
---|
826 |
|
---|
827 |
|
---|
828 |
|
---|
829 | def _test_iter( nevents ):
|
---|
830 | """ test for function __iter__ """
|
---|
831 |
|
---|
832 | data_file_name = '/data00/fact-construction/raw/2011/11/24/20111124_117.fits.gz'
|
---|
833 | calib_file_name = '/data00/fact-construction/raw/2011/11/24/20111124_114.drs.fits.gz'
|
---|
834 | # data_file_name = '/home/luster/win7/FACT/data/raw/20120114/20120114_028.fits.gz'
|
---|
835 | # calib_file_name = '/home/luster/win7/FACT/data/raw/20120114/20120114_022.drs.fits.gz'
|
---|
836 | run = RawData( data_file_name, calib_file_name , return_dict=True)
|
---|
837 |
|
---|
838 | for event in run:
|
---|
839 | print 'ev ', event['event_id'], 'data[0,0] = ', event['acal_data'][0,0], 'start_cell[0] = ', event['start_cells'][0], 'trigger type = ', event['trigger_type']
|
---|
840 | if run.event_id == nevents:
|
---|
841 | break
|
---|
842 |
|
---|
843 | if __name__ == '__main__':
|
---|
844 | """ tests """
|
---|
845 | import sys
|
---|
846 | if len(sys.argv) == 1:
|
---|
847 | print 'showing test of iterator of RawData class'
|
---|
848 | print 'in order to test the SlowData classe please use:', sys.argv[0], 'fits-file-name'
|
---|
849 | _test_iter(10)
|
---|
850 |
|
---|
851 |
|
---|
852 | else:
|
---|
853 | print 'showing test of SlowData class'
|
---|
854 | print 'in case you wanted to test the RawData class, please give no commandline arguments'
|
---|
855 | file = SlowData(sys.argv[1])
|
---|
856 | _test_SlowData(sys.argv[1])
|
---|