1 | |
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2 | import math |
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3 | import numpy |
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4 | import copy |
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5 | import time |
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6 | import unittest |
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7 | from sans.dataloader.loader import Loader |
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8 | from sans.fit.Fitting import Fit |
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9 | from sans.models.CylinderModel import CylinderModel |
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10 | import sans.models.dispersion_models |
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11 | from sans.models.qsmearing import smear_selection |
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12 | |
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13 | NPTS = 1 |
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14 | |
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15 | |
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16 | |
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17 | |
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18 | def classMapper(classInstance, classFunc, *args): |
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19 | """ |
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20 | Take an instance of a class and a function name as a string. |
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21 | Execute class.function and return result |
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22 | """ |
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23 | return getattr(classInstance,classFunc)(*args) |
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24 | |
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25 | def mapapply(arguments): |
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26 | return apply(arguments[0], arguments[1:]) |
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27 | |
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28 | |
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29 | |
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30 | class BatchScipyFit: |
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31 | """ |
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32 | test fit module |
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33 | """ |
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34 | def __init__(self, qmin=None, qmax=None): |
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35 | """ """ |
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36 | self.list_of_fitter = [] |
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37 | self.list_of_function = [] |
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38 | self.param_to_fit = ['scale', 'length', 'radius'] |
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39 | self.list_of_constraints = [] |
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40 | self.list_of_mapper = [] |
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41 | self.polydisp = sans.models.dispersion_models.models |
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42 | self.qmin = qmin |
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43 | self.qmax = qmin |
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44 | self.reset_value() |
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45 | |
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46 | def set_range(self, qmin=None, qmax=None): |
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47 | self.qmin = qmin |
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48 | self.qmax = qmax |
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49 | |
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50 | def _reset_helper(self, path=None, engine="scipy", npts=NPTS): |
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51 | """ |
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52 | Set value to fitter engine and prepare inputs for map function |
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53 | """ |
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54 | for i in range(npts): |
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55 | data = Loader().load(path) |
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56 | fitter = Fit(engine) |
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57 | #create model |
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58 | model = CylinderModel() |
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59 | model.setParam('scale', 1.0) |
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60 | model.setParam('radius', 20.0) |
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61 | model.setParam('length', 400.0) |
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62 | model.setParam('sldCyl', 4e-006) |
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63 | model.setParam('sldSolv', 1e-006) |
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64 | model.setParam('background', 0.0) |
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65 | for param in model.dispersion.keys(): |
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66 | model.set_dispersion(param, self.polydisp['gaussian']()) |
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67 | model.setParam('cyl_phi.width', 10) |
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68 | model.setParam('cyl_phi.npts', 3) |
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69 | model.setParam('cyl_theta.nsigmas', 10) |
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70 | """ for 2 data cyl_theta = 60.0 [deg] cyl_phi= 60.0 [deg]""" |
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71 | fitter.set_model(model, i, self.param_to_fit, |
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72 | self.list_of_constraints) |
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73 | #smear data |
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74 | current_smearer = smear_selection(data, model) |
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75 | fitter.set_data(data=data, id=i, |
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76 | smearer=current_smearer, qmin=self.qmin, qmax=self.qmax) |
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77 | fitter.select_problem_for_fit(id=i, value=1) |
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78 | self.list_of_fitter.append(copy.deepcopy(fitter)) |
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79 | self.list_of_function.append('fit') |
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80 | self.list_of_mapper.append(classMapper) |
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81 | |
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82 | def reset_value(self): |
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83 | """ |
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84 | Initialize inputs for the map function |
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85 | """ |
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86 | self.list_of_fitter = [] |
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87 | self.list_of_function = [] |
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88 | self.param_to_fit = ['scale', 'length', 'radius'] |
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89 | self.list_of_constraints = [] |
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90 | self.list_of_mapper = [] |
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91 | engine ="scipy" |
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92 | |
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93 | path = "testdata_line3.txt" |
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94 | self._reset_helper(path=path, engine=engine, npts=NPTS) |
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95 | path = "testdata_line.txt" |
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96 | self._reset_helper(path=path, engine=engine, npts=NPTS) |
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97 | path = "SILIC010_noheader.DAT" |
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98 | self._reset_helper(path=path, engine=engine, npts=NPTS) |
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99 | path = "cyl_400_20.txt" |
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100 | self._reset_helper(path=path, engine=engine, npts=NPTS) |
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101 | path = "sphere_80.txt" |
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102 | self._reset_helper(path=path, engine=engine, npts=NPTS) |
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103 | path = "PolySpheres.txt" |
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104 | self._reset_helper(path=path, engine=engine, npts=NPTS) |
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105 | path = "latex_qdev.txt" |
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106 | self._reset_helper(path=path, engine=engine, npts=NPTS) |
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107 | path = "latex_qdev2.txt" |
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108 | self._reset_helper(path=path, engine=engine, npts=NPTS) |
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109 | |
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110 | def test_map_fit(self): |
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111 | """ |
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112 | """ |
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113 | results = map(classMapper,self.list_of_fitter, self.list_of_function) |
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114 | print len(results) |
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115 | for result in results: |
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116 | print result.fitness, result.stderr, result.pvec |
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117 | |
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118 | def test_process_map_fit(self, n=1): |
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119 | """ |
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120 | run fit usong map , n is the number of processes used |
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121 | """ |
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122 | t0 = time.time() |
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123 | print "start fit with %s process(es) at %s" % (str(n), time.strftime(" %H:%M:%S", time.localtime(t0))) |
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124 | from multiprocessing import Pool |
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125 | temp = zip(self.list_of_mapper, self.list_of_fitter, self.list_of_function) |
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126 | results = Pool(n).map(func=mapapply, |
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127 | iterable=temp) |
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128 | t1 = time.time() |
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129 | print "got fit results ", time.strftime(" %H:%M:%S", time.localtime(t1)), t1 - t0 |
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130 | print len(results) |
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131 | for result in results: |
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132 | print result.fitness, result.stderr, result.pvec |
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133 | t2 = time.time() |
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134 | print "print fit1 results ", time.strftime(" %H:%M:%S", time.localtime(t2)), t2 - t1 |
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135 | |
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136 | class testBatch(unittest.TestCase): |
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137 | """ |
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138 | fitting |
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139 | """ |
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140 | def setUp(self): |
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141 | self.test = BatchScipyFit(qmin=None, qmax=None) |
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142 | |
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143 | def test_fit1(self): |
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144 | """test fit with python built in map function---- full range of each data""" |
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145 | self.test.test_map_fit() |
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146 | |
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147 | #def test_fit2(self): |
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148 | # """test fit with python built in map function---- common range for all data""" |
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149 | # self.test.set_range(qmin=0.013, qmax=0.05) |
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150 | # self.test.reset_value() |
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151 | # self.test.test_map_fit() |
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152 | |
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153 | def test_fit3(self): |
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154 | """test fit with data full range using 1 processor and map""" |
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155 | self.test.set_range(qmin=None, qmax=None) |
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156 | self.test.reset_value() |
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157 | self.test.test_process_map_fit(n=1) |
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158 | |
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159 | #def test_fit4(self): |
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160 | # """test fit with a common fixed range for data using 1 processor and map""" |
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161 | # self.test.set_range(qmin=0.013, qmax=0.05) |
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162 | # self.test.reset_value() |
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163 | # self.test.test_process_map_fit(n=1) |
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164 | |
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165 | |
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166 | if __name__ == '__main__': |
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167 | unittest.main() |
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168 | |
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169 | |
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170 | |
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