[b99ac227] | 1 | |
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[0997158f] | 2 | ############################################################################ |
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| 3 | #This software was developed by the University of Tennessee as part of the |
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| 4 | #Distributed Data Analysis of Neutron Scattering Experiments (DANSE) |
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| 5 | #project funded by the US National Science Foundation. |
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| 6 | #If you use DANSE applications to do scientific research that leads to |
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| 7 | #publication, we ask that you acknowledge the use of the software with the |
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| 8 | #following sentence: |
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| 9 | #This work benefited from DANSE software developed under NSF award DMR-0520547. |
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| 10 | #copyright 2008, University of Tennessee |
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| 11 | ############################################################################# |
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[b99ac227] | 12 | |
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[0997158f] | 13 | """ |
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| 14 | IGOR 2D reduced file reader |
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[b99ac227] | 15 | """ |
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| 16 | |
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[a7a5886] | 17 | import os |
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| 18 | #import sys |
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[b99ac227] | 19 | import numpy |
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[a7a5886] | 20 | import math |
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| 21 | #import logging |
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[ad8034f] | 22 | from sans.dataloader.data_info import Data2D |
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| 23 | from sans.dataloader.data_info import Detector |
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| 24 | from sans.dataloader.manipulations import reader2D_converter |
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[b99ac227] | 25 | |
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| 26 | # Look for unit converter |
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| 27 | has_converter = True |
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| 28 | try: |
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| 29 | from data_util.nxsunit import Converter |
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| 30 | except: |
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| 31 | has_converter = False |
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| 32 | |
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[bb03739] | 33 | class Reader: |
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[11a0319] | 34 | """ Simple data reader for Igor data files """ |
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[b99ac227] | 35 | ## File type |
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[28caa03] | 36 | type_name = "IGOR 2D" |
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| 37 | ## Wildcards |
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[b99ac227] | 38 | type = ["IGOR 2D files (*.ASC)|*.ASC"] |
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| 39 | ## Extension |
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| 40 | ext=['.ASC', '.asc'] |
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| 41 | |
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[11a0319] | 42 | def read(self,filename=None): |
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| 43 | """ Read file """ |
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[b99ac227] | 44 | if not os.path.isfile(filename): |
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[11a0319] | 45 | raise ValueError, \ |
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[b99ac227] | 46 | "Specified file %s is not a regular file" % filename |
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[11a0319] | 47 | |
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| 48 | # Read file |
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[b99ac227] | 49 | f = open(filename,'r') |
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[11a0319] | 50 | buf = f.read() |
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| 51 | |
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[b99ac227] | 52 | # Instantiate data object |
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| 53 | output = Data2D() |
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| 54 | output.filename = os.path.basename(filename) |
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| 55 | detector = Detector() |
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| 56 | if len(output.detector)>0: print str(output.detector[0]) |
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| 57 | output.detector.append(detector) |
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[f55af70] | 58 | |
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[11a0319] | 59 | # Get content |
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| 60 | dataStarted = False |
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| 61 | |
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| 62 | |
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| 63 | lines = buf.split('\n') |
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| 64 | itot = 0 |
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[b99ac227] | 65 | x = [] |
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| 66 | y = [] |
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[11a0319] | 67 | |
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| 68 | ncounts = 0 |
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| 69 | |
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| 70 | xmin = None |
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| 71 | xmax = None |
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| 72 | ymin = None |
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| 73 | ymax = None |
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| 74 | |
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| 75 | i_x = 0 |
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| 76 | i_y = -1 |
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[f55af70] | 77 | i_tot_row = 0 |
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[11a0319] | 78 | |
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| 79 | isInfo = False |
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| 80 | isCenter = False |
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[f55af70] | 81 | |
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| 82 | data_conv_q = None |
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| 83 | data_conv_i = None |
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| 84 | |
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[ca10d8e] | 85 | if has_converter == True and output.Q_unit != '1/A': |
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| 86 | data_conv_q = Converter('1/A') |
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[f55af70] | 87 | # Test it |
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| 88 | data_conv_q(1.0, output.Q_unit) |
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| 89 | |
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[ca10d8e] | 90 | if has_converter == True and output.I_unit != '1/cm': |
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| 91 | data_conv_i = Converter('1/cm') |
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[f55af70] | 92 | # Test it |
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| 93 | data_conv_i(1.0, output.I_unit) |
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| 94 | |
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[11a0319] | 95 | for line in lines: |
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| 96 | |
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| 97 | # Find setup info line |
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| 98 | if isInfo: |
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| 99 | isInfo = False |
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| 100 | line_toks = line.split() |
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| 101 | # Wavelength in Angstrom |
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| 102 | try: |
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| 103 | wavelength = float(line_toks[1]) |
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| 104 | except: |
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[a7a5886] | 105 | msg = "IgorReader: can't read this file, missing wavelength" |
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| 106 | raise ValueError, msg |
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[f55af70] | 107 | |
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| 108 | #Find # of bins in a row assuming the detector is square. |
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| 109 | if dataStarted == True: |
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| 110 | try: |
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| 111 | value = float(line) |
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| 112 | except: |
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| 113 | # Found a non-float entry, skip it |
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| 114 | continue |
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| 115 | |
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| 116 | # Get total bin number |
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| 117 | |
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| 118 | i_tot_row += 1 |
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| 119 | i_tot_row=math.ceil(math.sqrt(i_tot_row))-1 |
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| 120 | #print "i_tot", i_tot_row |
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| 121 | size_x = i_tot_row#192#128 |
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| 122 | size_y = i_tot_row#192#128 |
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| 123 | output.data = numpy.zeros([size_x,size_y]) |
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| 124 | output.err_data = numpy.zeros([size_x,size_y]) |
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| 125 | |
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| 126 | #Read Header and 2D data |
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| 127 | for line in lines: |
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| 128 | # Find setup info line |
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| 129 | if isInfo: |
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| 130 | isInfo = False |
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| 131 | line_toks = line.split() |
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| 132 | # Wavelength in Angstrom |
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| 133 | try: |
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| 134 | wavelength = float(line_toks[1]) |
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| 135 | except: |
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[a7a5886] | 136 | msg = "IgorReader: can't read this file, missing wavelength" |
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| 137 | raise ValueError, msg |
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[11a0319] | 138 | # Distance in meters |
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| 139 | try: |
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| 140 | distance = float(line_toks[3]) |
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| 141 | except: |
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[a7a5886] | 142 | msg = "IgorReader: can't read this file, missing distance" |
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| 143 | raise ValueError, msg |
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[11a0319] | 144 | |
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[b99ac227] | 145 | # Distance in meters |
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| 146 | try: |
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| 147 | transmission = float(line_toks[4]) |
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| 148 | except: |
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[a7a5886] | 149 | msg = "IgorReader: can't read this file, " |
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| 150 | msg += "missing transmission" |
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| 151 | raise ValueError, msg |
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[f55af70] | 152 | |
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[11a0319] | 153 | if line.count("LAMBDA")>0: |
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| 154 | isInfo = True |
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| 155 | |
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| 156 | # Find center info line |
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| 157 | if isCenter: |
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| 158 | isCenter = False |
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| 159 | line_toks = line.split() |
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[eadf1f9] | 160 | |
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[a7a5886] | 161 | # Center in bin number: Must substrate 1 because |
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| 162 | #the index starts from 1 |
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[eadf1f9] | 163 | center_x = float(line_toks[0])-1 |
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| 164 | center_y = float(line_toks[1])-1 |
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[11a0319] | 165 | |
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| 166 | if line.count("BCENT")>0: |
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| 167 | isCenter = True |
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| 168 | |
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| 169 | |
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| 170 | # Find data start |
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| 171 | if line.count("***")>0: |
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| 172 | dataStarted = True |
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| 173 | |
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| 174 | # Check that we have all the info |
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| 175 | if wavelength == None \ |
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| 176 | or distance == None \ |
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| 177 | or center_x == None \ |
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| 178 | or center_y == None: |
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[a7a5886] | 179 | msg = "IgorReader:Missing information in data file" |
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| 180 | raise ValueError, msg |
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[11a0319] | 181 | |
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| 182 | if dataStarted == True: |
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| 183 | try: |
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| 184 | value = float(line) |
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| 185 | except: |
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[b99ac227] | 186 | # Found a non-float entry, skip it |
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[11a0319] | 187 | continue |
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| 188 | |
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| 189 | # Get bin number |
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[f55af70] | 190 | if math.fmod(itot, i_tot_row)==0: |
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[11a0319] | 191 | i_x = 0 |
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| 192 | i_y += 1 |
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| 193 | else: |
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| 194 | i_x += 1 |
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| 195 | |
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[b99ac227] | 196 | output.data[i_y][i_x] = value |
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[11a0319] | 197 | ncounts += 1 |
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| 198 | |
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| 199 | # Det 640 x 640 mm |
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| 200 | # Q = 4pi/lambda sin(theta/2) |
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[4cc8e14b] | 201 | # Bin size is 0.5 cm |
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[a7a5886] | 202 | #REmoved +1 from theta = (i_x-center_x+1)*0.5 / distance |
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| 203 | # / 100.0 and |
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| 204 | #REmoved +1 from theta = (i_y-center_y+1)*0.5 / |
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| 205 | # distance / 100.0 |
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| 206 | #ToDo: Need complete check if the following |
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| 207 | # covert process is consistent with fitting.py. |
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[4cc8e14b] | 208 | theta = (i_x-center_x)*0.5 / distance / 100.0 |
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[11a0319] | 209 | qx = 4.0*math.pi/wavelength * math.sin(theta/2.0) |
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[b99ac227] | 210 | |
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[ca10d8e] | 211 | if has_converter == True and output.Q_unit != '1/A': |
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[b99ac227] | 212 | qx = data_conv_q(qx, units=output.Q_unit) |
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| 213 | |
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[11a0319] | 214 | if xmin==None or qx<xmin: |
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| 215 | xmin = qx |
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| 216 | if xmax==None or qx>xmax: |
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| 217 | xmax = qx |
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| 218 | |
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[4cc8e14b] | 219 | theta = (i_y-center_y)*0.5 / distance / 100.0 |
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[11a0319] | 220 | qy = 4.0*math.pi/wavelength * math.sin(theta/2.0) |
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[b99ac227] | 221 | |
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[ca10d8e] | 222 | if has_converter == True and output.Q_unit != '1/A': |
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[b99ac227] | 223 | qy = data_conv_q(qy, units=output.Q_unit) |
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| 224 | |
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[11a0319] | 225 | if ymin==None or qy<ymin: |
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| 226 | ymin = qy |
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| 227 | if ymax==None or qy>ymax: |
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| 228 | ymax = qy |
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| 229 | |
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[b99ac227] | 230 | if not qx in x: |
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| 231 | x.append(qx) |
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| 232 | if not qy in y: |
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| 233 | y.append(qy) |
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[11a0319] | 234 | |
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| 235 | itot += 1 |
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| 236 | |
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| 237 | |
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| 238 | theta = 0.25 / distance / 100.0 |
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| 239 | xstep = 4.0*math.pi/wavelength * math.sin(theta/2.0) |
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| 240 | |
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| 241 | theta = 0.25 / distance / 100.0 |
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| 242 | ystep = 4.0*math.pi/wavelength * math.sin(theta/2.0) |
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| 243 | |
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[b99ac227] | 244 | # Store all data ###################################### |
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| 245 | # Store wavelength |
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| 246 | if has_converter==True and output.source.wavelength_unit != 'A': |
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| 247 | conv = Converter('A') |
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| 248 | wavelength = conv(wavelength, units=output.source.wavelength_unit) |
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| 249 | output.source.wavelength = wavelength |
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| 250 | |
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| 251 | # Store distance |
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| 252 | if has_converter==True and detector.distance_unit != 'm': |
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| 253 | conv = Converter('m') |
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| 254 | distance = conv(distance, units=detector.distance_unit) |
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| 255 | detector.distance = distance |
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| 256 | |
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| 257 | # Store transmission |
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| 258 | output.sample.transmission = transmission |
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[11a0319] | 259 | |
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[b99ac227] | 260 | # Store pixel size |
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| 261 | pixel = 5.0 |
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| 262 | if has_converter==True and detector.pixel_size_unit != 'mm': |
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| 263 | conv = Converter('mm') |
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| 264 | pixel = conv(pixel, units=detector.pixel_size_unit) |
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| 265 | detector.pixel_size.x = pixel |
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| 266 | detector.pixel_size.y = pixel |
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[11a0319] | 267 | |
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[b99ac227] | 268 | # Store beam center in distance units |
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| 269 | detector.beam_center.x = center_x*pixel |
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| 270 | detector.beam_center.y = center_y*pixel |
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| 271 | |
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| 272 | |
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| 273 | # Store limits of the image (2D array) |
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| 274 | xmin =xmin-xstep/2.0 |
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| 275 | xmax =xmax+xstep/2.0 |
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| 276 | ymin =ymin-ystep/2.0 |
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| 277 | ymax =ymax+ystep/2.0 |
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[ca10d8e] | 278 | if has_converter == True and output.Q_unit != '1/A': |
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[b99ac227] | 279 | xmin = data_conv_q(xmin, units=output.Q_unit) |
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| 280 | xmax = data_conv_q(xmax, units=output.Q_unit) |
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| 281 | ymin = data_conv_q(ymin, units=output.Q_unit) |
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| 282 | ymax = data_conv_q(ymax, units=output.Q_unit) |
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| 283 | output.xmin = xmin |
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| 284 | output.xmax = xmax |
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| 285 | output.ymin = ymin |
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| 286 | output.ymax = ymax |
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| 287 | |
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| 288 | # Store x and y axis bin centers |
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| 289 | output.x_bins = x |
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| 290 | output.y_bins = y |
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| 291 | |
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| 292 | # Units |
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| 293 | if data_conv_q is not None: |
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[b568ec1b] | 294 | output.xaxis("\\rm{Q_{x}}", output.Q_unit) |
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| 295 | output.yaxis("\\rm{Q_{y}}", output.Q_unit) |
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[b99ac227] | 296 | else: |
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[b568ec1b] | 297 | output.xaxis("\\rm{Q_{x}}", 'A^{-1}') |
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| 298 | output.yaxis("\\rm{Q_{y}}", 'A^{-1}') |
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[b99ac227] | 299 | |
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| 300 | if data_conv_i is not None: |
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[0e2aa40] | 301 | output.zaxis("\\rm{Intensity}", output.I_unit) |
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[b99ac227] | 302 | else: |
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[0e2aa40] | 303 | output.zaxis("\\rm{Intensity}","cm^{-1}") |
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[b99ac227] | 304 | |
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[fe78c7b] | 305 | # Store loading process information |
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| 306 | output.meta_data['loader'] = self.type_name |
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[eadf1f9] | 307 | output = reader2D_converter(output) |
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| 308 | |
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[16d8e5f] | 309 | return output |
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[b99ac227] | 310 | |
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| 311 | if __name__ == "__main__": |
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| 312 | reader = Reader() |
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| 313 | print reader.read("../test/MAR07232_rest.ASC") |
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| 314 | |
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