1 | import copy |
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2 | |
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3 | from PyQt5 import QtCore |
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4 | from PyQt5 import QtGui |
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5 | from PyQt5 import QtWidgets |
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6 | |
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7 | import numpy |
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8 | |
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9 | from sas.qtgui.Plotting.PlotterData import Data1D |
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10 | from sas.qtgui.Plotting.PlotterData import Data2D |
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11 | |
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12 | model_header_captions = ['Parameter', 'Value', 'Min', 'Max', 'Units'] |
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13 | |
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14 | model_header_tooltips = ['Select parameter for fitting', |
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15 | 'Enter parameter value', |
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16 | 'Enter minimum value for parameter', |
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17 | 'Enter maximum value for parameter', |
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18 | 'Unit of the parameter'] |
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19 | |
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20 | poly_header_captions = ['Parameter', 'PD[ratio]', 'Min', 'Max', 'Npts', 'Nsigs', |
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21 | 'Function', 'Filename'] |
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22 | |
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23 | poly_header_tooltips = ['Select parameter for fitting', |
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24 | 'Enter polydispersity ratio (STD/mean). ' |
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25 | 'STD: standard deviation from the mean value', |
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26 | 'Enter minimum value for parameter', |
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27 | 'Enter maximum value for parameter', |
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28 | 'Enter number of points for parameter', |
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29 | 'Enter number of sigmas parameter', |
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30 | 'Select distribution function', |
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31 | 'Select filename with user-definable distribution'] |
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32 | |
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33 | error_tooltip = 'Error value for fitted parameter' |
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34 | header_error_caption = 'Error' |
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35 | |
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36 | def replaceShellName(param_name, value): |
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37 | """ |
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38 | Updates parameter name from <param_name>[n_shell] to <param_name>value |
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39 | """ |
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40 | assert '[' in param_name |
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41 | return param_name[:param_name.index('[')]+str(value) |
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42 | |
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43 | def getIterParams(model): |
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44 | """ |
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45 | Returns a list of all multi-shell parameters in 'model' |
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46 | """ |
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47 | return list([par for par in model.iq_parameters if "[" in par.name]) |
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48 | |
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49 | def getMultiplicity(model): |
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50 | """ |
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51 | Finds out if 'model' has multishell parameters. |
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52 | If so, returns the name of the counter parameter and the number of shells |
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53 | """ |
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54 | iter_params = getIterParams(model) |
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55 | param_name = "" |
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56 | param_length = 0 |
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57 | if iter_params: |
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58 | param_length = iter_params[0].length |
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59 | param_name = iter_params[0].length_control |
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60 | if param_name is None and '[' in iter_params[0].name: |
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61 | param_name = iter_params[0].name[:iter_params[0].name.index('[')] |
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62 | return (param_name, param_length) |
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63 | |
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64 | def addParametersToModel(parameters, kernel_module, is2D): |
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65 | """ |
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66 | Update local ModelModel with sasmodel parameters |
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67 | """ |
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68 | multishell_parameters = getIterParams(parameters) |
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69 | multishell_param_name, _ = getMultiplicity(parameters) |
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70 | params = parameters.iqxy_parameters if is2D else parameters.iq_parameters |
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71 | item = [] |
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72 | for param in params: |
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73 | # don't include shell parameters |
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74 | if param.name == multishell_param_name: |
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75 | continue |
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76 | # Modify parameter name from <param>[n] to <param>1 |
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77 | item_name = param.name |
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78 | if param in multishell_parameters: |
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79 | continue |
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80 | # item_name = replaceShellName(param.name, 1) |
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81 | |
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82 | item1 = QtGui.QStandardItem(item_name) |
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83 | item1.setCheckable(True) |
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84 | item1.setEditable(False) |
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85 | # item_err = QtGui.QStandardItem() |
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86 | # check for polydisp params |
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87 | if param.polydisperse: |
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88 | poly_item = QtGui.QStandardItem("Polydispersity") |
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89 | poly_item.setEditable(False) |
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90 | item1_1 = QtGui.QStandardItem("Distribution") |
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91 | item1_1.setEditable(False) |
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92 | # Find param in volume_params |
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93 | for p in parameters.form_volume_parameters: |
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94 | if p.name != param.name: |
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95 | continue |
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96 | width = kernel_module.getParam(p.name+'.width') |
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97 | type = kernel_module.getParam(p.name+'.type') |
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98 | |
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99 | item1_2 = QtGui.QStandardItem(str(width)) |
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100 | item1_2.setEditable(False) |
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101 | item1_3 = QtGui.QStandardItem() |
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102 | item1_3.setEditable(False) |
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103 | item1_4 = QtGui.QStandardItem() |
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104 | item1_4.setEditable(False) |
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105 | item1_5 = QtGui.QStandardItem(type) |
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106 | item1_5.setEditable(False) |
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107 | poly_item.appendRow([item1_1, item1_2, item1_3, item1_4, item1_5]) |
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108 | break |
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109 | # Add the polydisp item as a child |
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110 | item1.appendRow([poly_item]) |
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111 | # Param values |
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112 | item2 = QtGui.QStandardItem(str(param.default)) |
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113 | # TODO: the error column. |
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114 | # Either add a proxy model or a custom view delegate |
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115 | #item_err = QtGui.QStandardItem() |
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116 | item3 = QtGui.QStandardItem(str(param.limits[0])) |
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117 | item4 = QtGui.QStandardItem(str(param.limits[1])) |
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118 | item5 = QtGui.QStandardItem(param.units) |
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119 | item5.setEditable(False) |
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120 | item.append([item1, item2, item3, item4, item5]) |
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121 | return item |
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122 | |
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123 | def addSimpleParametersToModel(parameters, is2D): |
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124 | """ |
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125 | Update local ModelModel with sasmodel parameters |
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126 | """ |
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127 | params = parameters.iqxy_parameters if is2D else parameters.iq_parameters |
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128 | item = [] |
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129 | for param in params: |
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130 | # Create the top level, checkable item |
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131 | item_name = param.name |
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132 | item1 = QtGui.QStandardItem(item_name) |
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133 | item1.setCheckable(True) |
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134 | item1.setEditable(False) |
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135 | # Param values |
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136 | # TODO: add delegate for validation of cells |
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137 | item2 = QtGui.QStandardItem(str(param.default)) |
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138 | item4 = QtGui.QStandardItem(str(param.limits[0])) |
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139 | item5 = QtGui.QStandardItem(str(param.limits[1])) |
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140 | item6 = QtGui.QStandardItem(param.units) |
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141 | item6.setEditable(False) |
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142 | item.append([item1, item2, item4, item5, item6]) |
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143 | return item |
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144 | |
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145 | def addCheckedListToModel(model, param_list): |
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146 | """ |
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147 | Add a QItem to model. Makes the QItem checkable |
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148 | """ |
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149 | assert isinstance(model, QtGui.QStandardItemModel) |
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150 | item_list = [QtGui.QStandardItem(item) for item in param_list] |
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151 | item_list[0].setCheckable(True) |
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152 | model.appendRow(item_list) |
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153 | |
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154 | def addHeadersToModel(model): |
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155 | """ |
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156 | Adds predefined headers to the model |
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157 | """ |
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158 | for i, item in enumerate(model_header_captions): |
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159 | model.setHeaderData(i, QtCore.Qt.Horizontal, item) |
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160 | |
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161 | model.header_tooltips = copy.copy(model_header_tooltips) |
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162 | |
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163 | def addErrorHeadersToModel(model): |
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164 | """ |
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165 | Adds predefined headers to the model |
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166 | """ |
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167 | model_header_error_captions = copy.copy(model_header_captions) |
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168 | model_header_error_captions.insert(2, header_error_caption) |
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169 | for i, item in enumerate(model_header_error_captions): |
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170 | model.setHeaderData(i, QtCore.Qt.Horizontal, item) |
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171 | |
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172 | model_header_error_tooltips = copy.copy(model_header_tooltips) |
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173 | model_header_error_tooltips.insert(2, error_tooltip) |
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174 | model.header_tooltips = copy.copy(model_header_error_tooltips) |
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175 | |
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176 | def addPolyHeadersToModel(model): |
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177 | """ |
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178 | Adds predefined headers to the model |
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179 | """ |
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180 | for i, item in enumerate(poly_header_captions): |
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181 | model.setHeaderData(i, QtCore.Qt.Horizontal, item) |
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182 | |
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183 | model.header_tooltips = copy.copy(poly_header_tooltips) |
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184 | |
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185 | |
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186 | def addErrorPolyHeadersToModel(model): |
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187 | """ |
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188 | Adds predefined headers to the model |
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189 | """ |
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190 | poly_header_error_captions = copy.copy(poly_header_captions) |
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191 | poly_header_error_captions.insert(2, header_error_caption) |
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192 | for i, item in enumerate(poly_header_error_captions): |
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193 | model.setHeaderData(i, QtCore.Qt.Horizontal, item) |
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194 | |
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195 | poly_header_error_tooltips = copy.copy(poly_header_tooltips) |
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196 | poly_header_error_tooltips.insert(2, error_tooltip) |
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197 | model.header_tooltips = copy.copy(poly_header_error_tooltips) |
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198 | |
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199 | def addShellsToModel(parameters, model, index): |
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200 | """ |
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201 | Find out multishell parameters and update the model with the requested number of them |
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202 | """ |
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203 | multishell_parameters = getIterParams(parameters) |
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204 | |
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205 | for i in range(index): |
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206 | for par in multishell_parameters: |
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207 | # Create the name: <param>[<i>], e.g. "sld1" for parameter "sld[n]" |
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208 | param_name = replaceShellName(par.name, i+1) |
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209 | item1 = QtGui.QStandardItem(param_name) |
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210 | item1.setCheckable(True) |
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211 | # check for polydisp params |
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212 | if par.polydisperse: |
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213 | poly_item = QtGui.QStandardItem("Polydispersity") |
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214 | item1_1 = QtGui.QStandardItem("Distribution") |
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215 | # Find param in volume_params |
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216 | for p in parameters.form_volume_parameters: |
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217 | if p.name != par.name: |
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218 | continue |
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219 | item1_2 = QtGui.QStandardItem(str(p.default)) |
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220 | item1_3 = QtGui.QStandardItem(str(p.limits[0])) |
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221 | item1_4 = QtGui.QStandardItem(str(p.limits[1])) |
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222 | item1_5 = QtGui.QStandardItem(p.units) |
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223 | poly_item.appendRow([item1_1, item1_2, item1_3, item1_4, item1_5]) |
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224 | break |
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225 | item1.appendRow([poly_item]) |
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226 | |
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227 | item2 = QtGui.QStandardItem(str(par.default)) |
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228 | item3 = QtGui.QStandardItem(str(par.limits[0])) |
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229 | item4 = QtGui.QStandardItem(str(par.limits[1])) |
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230 | item5 = QtGui.QStandardItem(par.units) |
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231 | model.appendRow([item1, item2, item3, item4, item5]) |
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232 | |
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233 | def calculateChi2(reference_data, current_data): |
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234 | """ |
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235 | Calculate Chi2 value between two sets of data |
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236 | """ |
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237 | |
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238 | # WEIGHING INPUT |
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239 | #from sas.sasgui.perspectives.fitting.utils import get_weight |
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240 | #flag = self.get_weight_flag() |
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241 | #weight = get_weight(data=self.data, is2d=self._is_2D(), flag=flag) |
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242 | chisqr = None |
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243 | if reference_data is None: |
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244 | return chisqr |
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245 | |
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246 | # temporary default values for index and weight |
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247 | index = None |
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248 | weight = None |
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249 | |
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250 | # Get data: data I, theory I, and data dI in order |
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251 | if isinstance(reference_data, Data2D): |
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252 | if index is None: |
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253 | index = numpy.ones(len(current_data.data), dtype=bool) |
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254 | if weight is not None: |
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255 | current_data.err_data = weight |
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256 | # get rid of zero error points |
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257 | index = index & (current_data.err_data != 0) |
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258 | index = index & (numpy.isfinite(current_data.data)) |
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259 | fn = current_data.data[index] |
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260 | gn = reference_data.data[index] |
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261 | en = current_data.err_data[index] |
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262 | else: |
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263 | # 1 d theory from model_thread is only in the range of index |
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264 | if index is None: |
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265 | index = numpy.ones(len(current_data.y), dtype=bool) |
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266 | if weight is not None: |
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267 | current_data.dy = weight |
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268 | if current_data.dy is None or current_data.dy == []: |
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269 | dy = numpy.ones(len(current_data.y)) |
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270 | else: |
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271 | ## Set consistently w/AbstractFitengine: |
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272 | # But this should be corrected later. |
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273 | dy = copy.deepcopy(current_data.dy) |
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274 | dy[dy == 0] = 1 |
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275 | fn = current_data.y[index] |
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276 | gn = reference_data.y |
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277 | en = dy[index] |
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278 | # Calculate the residual |
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279 | try: |
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280 | res = (fn - gn) / en |
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281 | except ValueError: |
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282 | #print "Chi2 calculations: Unmatched lengths %s, %s, %s" % (len(fn), len(gn), len(en)) |
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283 | return None |
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284 | |
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285 | residuals = res[numpy.isfinite(res)] |
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286 | chisqr = numpy.average(residuals * residuals) |
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287 | |
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288 | return chisqr |
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289 | |
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290 | def residualsData1D(reference_data, current_data): |
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291 | """ |
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292 | Calculate the residuals for difference of two Data1D sets |
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293 | """ |
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294 | # temporary default values for index and weight |
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295 | index = None |
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296 | weight = None |
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297 | |
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298 | # 1d theory from model_thread is only in the range of index |
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299 | if current_data.dy is None or current_data.dy == []: |
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300 | dy = numpy.ones(len(current_data.y)) |
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301 | else: |
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302 | dy = weight if weight is not None else numpy.ones(len(current_data.y)) |
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303 | dy[dy == 0] = 1 |
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304 | fn = current_data.y[index][0] |
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305 | gn = reference_data.y |
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306 | en = dy[index][0] |
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307 | # build residuals |
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308 | residuals = Data1D() |
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309 | if len(fn) == len(gn): |
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310 | y = (fn - gn)/en |
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311 | residuals.y = -y |
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312 | else: |
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313 | # TODO: fix case where applying new data from file on top of existing model data |
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314 | try: |
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315 | y = (fn - gn[index][0]) / en |
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316 | residuals.y = y |
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317 | except ValueError: |
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318 | # value errors may show up every once in a while for malformed columns, |
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319 | # just reuse what's there already |
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320 | pass |
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321 | |
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322 | residuals.x = current_data.x[index][0] |
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323 | residuals.dy = numpy.ones(len(residuals.y)) |
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324 | residuals.dx = None |
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325 | residuals.dxl = None |
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326 | residuals.dxw = None |
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327 | residuals.ytransform = 'y' |
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328 | # For latter scale changes |
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329 | residuals.xaxis('\\rm{Q} ', 'A^{-1}') |
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330 | residuals.yaxis('\\rm{Residuals} ', 'normalized') |
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331 | |
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332 | return residuals |
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333 | |
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334 | def residualsData2D(reference_data, current_data): |
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335 | """ |
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336 | Calculate the residuals for difference of two Data2D sets |
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337 | """ |
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338 | # temporary default values for index and weight |
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339 | # index = None |
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340 | weight = None |
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341 | |
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342 | # build residuals |
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343 | residuals = Data2D() |
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344 | # Not for trunk the line below, instead use the line above |
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345 | current_data.clone_without_data(len(current_data.data), residuals) |
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346 | residuals.data = None |
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347 | fn = current_data.data |
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348 | gn = reference_data.data |
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349 | en = current_data.err_data if weight is None else weight |
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350 | residuals.data = (fn - gn) / en |
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351 | residuals.qx_data = current_data.qx_data |
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352 | residuals.qy_data = current_data.qy_data |
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353 | residuals.q_data = current_data.q_data |
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354 | residuals.err_data = numpy.ones(len(residuals.data)) |
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355 | residuals.xmin = min(residuals.qx_data) |
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356 | residuals.xmax = max(residuals.qx_data) |
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357 | residuals.ymin = min(residuals.qy_data) |
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358 | residuals.ymax = max(residuals.qy_data) |
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359 | residuals.q_data = current_data.q_data |
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360 | residuals.mask = current_data.mask |
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361 | residuals.scale = 'linear' |
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362 | # check the lengths |
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363 | if len(residuals.data) != len(residuals.q_data): |
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364 | return None |
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365 | return residuals |
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366 | |
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367 | def plotResiduals(reference_data, current_data): |
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368 | """ |
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369 | Create Data1D/Data2D with residuals, ready for plotting |
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370 | """ |
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371 | data_copy = copy.deepcopy(current_data) |
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372 | # Get data: data I, theory I, and data dI in order |
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373 | method_name = current_data.__class__.__name__ |
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374 | residuals_dict = {"Data1D": residualsData1D, |
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375 | "Data2D": residualsData2D} |
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376 | |
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377 | residuals = residuals_dict[method_name](reference_data, data_copy) |
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378 | |
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379 | theory_name = str(current_data.name.split()[0]) |
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380 | residuals.name = "Residuals for " + str(theory_name) + "[" + \ |
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381 | str(reference_data.filename) + "]" |
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382 | residuals.title = residuals.name |
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383 | residuals.ytransform = 'y' |
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384 | |
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385 | # when 2 data have the same id override the 1 st plotted |
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386 | # include the last part if keeping charts for separate models is required |
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387 | residuals.id = "res" + str(reference_data.id) # + str(theory_name) |
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388 | # group_id specify on which panel to plot this data |
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389 | group_id = reference_data.group_id |
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390 | residuals.group_id = "res" + str(group_id) |
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391 | |
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392 | # Symbol |
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393 | residuals.symbol = 0 |
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394 | residuals.hide_error = False |
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395 | |
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396 | return residuals |
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397 | |
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398 | def binary_encode(i, digits): |
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399 | return [i >> d & 1 for d in range(digits)] |
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400 | |
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401 | def getWeight(data, is2d, flag=None): |
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402 | """ |
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403 | Received flag and compute error on data. |
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404 | :param flag: flag to transform error of data. |
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405 | """ |
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406 | weight = None |
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407 | if is2d: |
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408 | dy_data = data.err_data |
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409 | data = data.data |
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410 | else: |
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411 | dy_data = data.dy |
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412 | data = data.y |
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413 | |
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414 | if flag == 0: |
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415 | weight = numpy.ones_like(data) |
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416 | elif flag == 1: |
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417 | weight = dy_data |
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418 | elif flag == 2: |
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419 | weight = numpy.sqrt(numpy.abs(data)) |
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420 | elif flag == 3: |
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421 | weight = numpy.abs(data) |
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422 | return weight |
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