1 | ##################################################################### |
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2 | #This software was developed by the University of Tennessee as part of the |
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3 | #Distributed Data Analysis of Neutron Scattering Experiments (DANSE) |
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4 | #project funded by the US National Science Foundation. |
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5 | #See the license text in license.txt |
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6 | #copyright 2008, University of Tennessee |
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7 | ###################################################################### |
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8 | |
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9 | import numpy |
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10 | import os |
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11 | from DataLoader.data_info import Data1D, Detector |
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12 | |
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13 | has_converter = True |
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14 | try: |
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15 | from data_util.nxsunit import Converter |
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16 | except: |
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17 | has_converter = False |
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18 | |
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19 | class Reader: |
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20 | """ |
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21 | Class to load IGOR reduced .ABS files |
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22 | """ |
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23 | ## File type |
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24 | type_name = "IGOR 1D" |
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25 | ## Wildcards |
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26 | type = ["IGOR 1D files (*.abs)|*.abs"] |
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27 | ## List of allowed extensions |
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28 | ext=['.abs', '.ABS'] |
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29 | |
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30 | def read(self, path): |
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31 | """ |
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32 | Load data file. |
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33 | |
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34 | :param path: file path |
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35 | |
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36 | :return: Data1D object, or None |
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37 | |
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38 | :raise RuntimeError: when the file can't be opened |
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39 | :raise ValueError: when the length of the data vectors are inconsistent |
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40 | """ |
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41 | if os.path.isfile(path): |
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42 | basename = os.path.basename(path) |
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43 | root, extension = os.path.splitext(basename) |
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44 | if extension.lower() in self.ext: |
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45 | try: |
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46 | input_f = open(path,'r') |
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47 | except : |
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48 | raise RuntimeError, "abs_reader: cannot open %s" % path |
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49 | buff = input_f.read() |
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50 | lines = buff.split('\n') |
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51 | x = numpy.zeros(0) |
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52 | y = numpy.zeros(0) |
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53 | dy = numpy.zeros(0) |
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54 | dx = numpy.zeros(0) |
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55 | output = Data1D(x, y, dy=dy, dx=dx) |
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56 | detector = Detector() |
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57 | output.detector.append(detector) |
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58 | output.filename = basename |
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59 | |
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60 | is_info = False |
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61 | is_center = False |
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62 | is_data_started = False |
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63 | |
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64 | data_conv_q = None |
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65 | data_conv_i = None |
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66 | |
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67 | if has_converter == True and output.x_unit != '1/A': |
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68 | data_conv_q = Converter('1/A') |
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69 | # Test it |
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70 | data_conv_q(1.0, output.x_unit) |
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71 | |
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72 | if has_converter == True and output.y_unit != '1/cm': |
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73 | data_conv_i = Converter('1/cm') |
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74 | # Test it |
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75 | data_conv_i(1.0, output.y_unit) |
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76 | |
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77 | for line in lines: |
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78 | |
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79 | # Information line 1 |
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80 | if is_info==True: |
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81 | is_info = False |
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82 | line_toks = line.split() |
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83 | |
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84 | # Wavelength in Angstrom |
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85 | try: |
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86 | value = float(line_toks[1]) |
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87 | if has_converter==True and output.source.wavelength_unit != 'A': |
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88 | conv = Converter('A') |
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89 | output.source.wavelength = conv(value, units=output.source.wavelength_unit) |
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90 | else: |
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91 | output.source.wavelength = value |
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92 | except: |
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93 | #goes to ASC reader |
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94 | raise RuntimeError, "abs_reader: cannot open %s" % path |
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95 | #raise ValueError,"IgorReader: can't read this file, missing wavelength" |
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96 | |
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97 | # Distance in meters |
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98 | try: |
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99 | value = float(line_toks[3]) |
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100 | if has_converter==True and detector.distance_unit != 'm': |
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101 | conv = Converter('m') |
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102 | detector.distance = conv(value, units=detector.distance_unit) |
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103 | else: |
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104 | detector.distance = value |
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105 | except: |
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106 | #goes to ASC reader |
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107 | raise RuntimeError, "abs_reader: cannot open %s" % path |
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108 | |
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109 | # Transmission |
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110 | try: |
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111 | output.sample.transmission = float(line_toks[4]) |
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112 | except: |
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113 | # Transmission is not a mandatory entry |
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114 | pass |
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115 | |
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116 | # Thickness in mm |
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117 | try: |
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118 | value = float(line_toks[5]) |
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119 | if has_converter==True and output.sample.thickness_unit != 'cm': |
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120 | conv = Converter('cm') |
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121 | output.sample.thickness = conv(value, units=output.sample.thickness_unit) |
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122 | else: |
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123 | output.sample.thickness = value |
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124 | except: |
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125 | # Thickness is not a mandatory entry |
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126 | pass |
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127 | |
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128 | #MON CNT LAMBDA DET ANG DET DIST TRANS THICK AVE STEP |
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129 | if line.count("LAMBDA")>0: |
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130 | is_info = True |
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131 | |
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132 | # Find center info line |
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133 | if is_center==True: |
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134 | is_center = False |
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135 | line_toks = line.split() |
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136 | # Center in bin number |
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137 | center_x = float(line_toks[0]) |
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138 | center_y = float(line_toks[1]) |
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139 | |
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140 | # Bin size |
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141 | if has_converter==True and detector.pixel_size_unit != 'mm': |
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142 | conv = Converter('mm') |
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143 | detector.pixel_size.x = conv(5.0, units=detector.pixel_size_unit) |
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144 | detector.pixel_size.y = conv(5.0, units=detector.pixel_size_unit) |
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145 | else: |
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146 | detector.pixel_size.x = 5.0 |
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147 | detector.pixel_size.y = 5.0 |
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148 | |
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149 | # Store beam center in distance units |
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150 | # Det 640 x 640 mm |
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151 | if has_converter==True and detector.beam_center_unit != 'mm': |
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152 | conv = Converter('mm') |
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153 | detector.beam_center.x = conv(center_x*5.0, units=detector.beam_center_unit) |
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154 | detector.beam_center.y = conv(center_y*5.0, units=detector.beam_center_unit) |
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155 | else: |
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156 | detector.beam_center.x = center_x*5.0 |
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157 | detector.beam_center.y = center_y*5.0 |
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158 | |
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159 | # Detector type |
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160 | try: |
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161 | detector.name = line_toks[7] |
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162 | except: |
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163 | # Detector name is not a mandatory entry |
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164 | pass |
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165 | |
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166 | #BCENT(X,Y) A1(mm) A2(mm) A1A2DIST(m) DL/L BSTOP(mm) DET_TYP |
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167 | if line.count("BCENT")>0: |
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168 | is_center = True |
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169 | |
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170 | # Parse the data |
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171 | if is_data_started==True: |
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172 | toks = line.split() |
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173 | |
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174 | try: |
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175 | _x = float(toks[0]) |
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176 | _y = float(toks[1]) |
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177 | _dy = float(toks[2]) |
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178 | _dx = float(toks[3]) |
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179 | |
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180 | if data_conv_q is not None: |
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181 | _x = data_conv_q(_x, units=output.x_unit) |
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182 | _dx = data_conv_i(_dx, units=output.x_unit) |
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183 | |
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184 | if data_conv_i is not None: |
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185 | _y = data_conv_i(_y, units=output.y_unit) |
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186 | _dy = data_conv_i(_dy, units=output.y_unit) |
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187 | |
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188 | x = numpy.append(x, _x) |
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189 | y = numpy.append(y, _y) |
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190 | dy = numpy.append(dy, _dy) |
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191 | dx = numpy.append(dx, _dx) |
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192 | |
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193 | except: |
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194 | # Could not read this data line. If we are here |
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195 | # it is because we are in the data section. Just |
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196 | # skip it. |
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197 | pass |
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198 | |
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199 | #The 6 columns are | Q (1/A) | I(Q) (1/cm) | std. dev. I(Q) (1/cm) | sigmaQ | meanQ | ShadowFactor| |
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200 | if line.count("The 6 columns")>0: |
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201 | is_data_started = True |
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202 | |
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203 | # Sanity check |
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204 | if not len(y) == len(dy): |
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205 | raise ValueError, "abs_reader: y and dy have different length" |
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206 | |
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207 | # If the data length is zero, consider this as |
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208 | # though we were not able to read the file. |
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209 | if len(x)==0: |
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210 | raise ValueError, "ascii_reader: could not load file" |
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211 | |
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212 | output.x = x |
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213 | output.y = y |
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214 | output.dy = dy |
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215 | output.dx = dx |
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216 | if data_conv_q is not None: |
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217 | output.xaxis("\\rm{Q}", output.x_unit) |
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218 | else: |
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219 | output.xaxis("\\rm{Q}", 'A^{-1}') |
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220 | if data_conv_i is not None: |
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221 | output.yaxis("\\rm{Intensity}", output.y_unit) |
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222 | else: |
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223 | output.yaxis("\\rm{Intensity}","cm^{-1}") |
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224 | |
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225 | # Store loading process information |
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226 | output.meta_data['loader'] = self.type_name |
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227 | return output |
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228 | else: |
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229 | raise RuntimeError, "%s is not a file" % path |
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230 | return None |
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231 | |
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232 | if __name__ == "__main__": |
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233 | reader = Reader() |
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234 | print reader.read("../test/jan08002.ABS") |
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235 | |
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236 | |
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237 | |
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