[5062bbf] | 1 | |
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| 2 | |
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[bb18ef1] | 3 | import time |
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[e733619] | 4 | from data_util.calcthread import CalcThread |
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[bb18ef1] | 5 | import sys |
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[d16e396] | 6 | import numpy,math |
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[e4957fb] | 7 | from sans.models.smearing_2d import Smearer2D |
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[5062bbf] | 8 | |
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[bb18ef1] | 9 | class Calc2D(CalcThread): |
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| 10 | """ |
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[5062bbf] | 11 | Compute 2D model |
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| 12 | This calculation assumes a 2-fold symmetry of the model |
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| 13 | where points are computed for one half of the detector |
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| 14 | and I(qx, qy) = I(-qx, -qy) is assumed. |
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[bb18ef1] | 15 | """ |
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[f72333f] | 16 | def __init__(self, x, y, data,model,smearer,qmin, qmax,qstep, |
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[66ff250] | 17 | page_id , |
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[5ef55d2] | 18 | state=None, |
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[fa65e99] | 19 | toggle_mode_on=False, |
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[bb18ef1] | 20 | completefn = None, |
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| 21 | updatefn = None, |
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[2296316] | 22 | update_chisqr=True, |
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[198af7d] | 23 | yieldtime = 0.04, |
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| 24 | worktime = 0.04 |
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[bb18ef1] | 25 | ): |
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| 26 | CalcThread.__init__(self,completefn, |
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| 27 | updatefn, |
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| 28 | yieldtime, |
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| 29 | worktime) |
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| 30 | self.qmin= qmin |
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[c77d859] | 31 | self.qmax= qmax |
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[bb18ef1] | 32 | self.qstep= qstep |
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[fa65e99] | 33 | self.toggle_mode_on = toggle_mode_on |
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[e575db9] | 34 | self.x = x |
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| 35 | self.y = y |
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[c77d859] | 36 | self.data= data |
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[66ff250] | 37 | self.page_id = page_id |
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[5ef55d2] | 38 | self.state = None |
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[1b001a7] | 39 | # the model on to calculate |
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[bb18ef1] | 40 | self.model = model |
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[f72333f] | 41 | self.smearer = smearer#(data=self.data,model=self.model) |
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[904713c] | 42 | self.starttime = 0 |
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[2296316] | 43 | self.update_chisqr = update_chisqr |
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[bb18ef1] | 44 | |
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| 45 | def compute(self): |
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| 46 | """ |
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[5062bbf] | 47 | Compute the data given a model function |
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[bb18ef1] | 48 | """ |
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[1b001a7] | 49 | self.starttime = time.time() |
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| 50 | # Determine appropriate q range |
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[c77d859] | 51 | if self.qmin==None: |
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| 52 | self.qmin = 0 |
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| 53 | if self.qmax== None: |
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[cd3d15b] | 54 | if self.data !=None: |
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| 55 | newx= math.pow(max(math.fabs(self.data.xmax),math.fabs(self.data.xmin)),2) |
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| 56 | newy= math.pow(max(math.fabs(self.data.ymax),math.fabs(self.data.ymin)),2) |
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| 57 | self.qmax=math.sqrt( newx + newy ) |
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[e575db9] | 58 | |
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| 59 | if self.data != None: |
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[43e685d] | 60 | self.I_data = self.data.data |
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[e575db9] | 61 | self.qx_data = self.data.qx_data |
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| 62 | self.qy_data = self.data.qy_data |
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[f72333f] | 63 | self.dqx_data = self.data.dqx_data |
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| 64 | self.dqy_data = self.data.dqy_data |
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[e575db9] | 65 | self.mask = self.data.mask |
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| 66 | else: |
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| 67 | xbin = numpy.linspace(start= -1*self.qmax, |
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| 68 | stop= self.qmax, |
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| 69 | num= self.qstep, |
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| 70 | endpoint=True ) |
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| 71 | ybin = numpy.linspace(start= -1*self.qmax, |
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| 72 | stop= self.qmax, |
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| 73 | num= self.qstep, |
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| 74 | endpoint=True ) |
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| 75 | |
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| 76 | new_xbin = numpy.tile(xbin, (len(ybin),1)) |
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| 77 | new_ybin = numpy.tile(ybin, (len(xbin),1)) |
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| 78 | new_ybin = new_ybin.swapaxes(0,1) |
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| 79 | new_xbin = new_xbin.flatten() |
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| 80 | new_ybin = new_ybin.flatten() |
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| 81 | self.qy_data = new_ybin |
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| 82 | self.qx_data = new_xbin |
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[43e685d] | 83 | # fake data |
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| 84 | self.I_data = numpy.ones(len(self.qx_data)) |
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[e575db9] | 85 | |
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| 86 | self.mask = numpy.ones(len(self.qx_data),dtype=bool) |
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| 87 | |
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| 88 | # Define matrix where data will be plotted |
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| 89 | radius= numpy.sqrt( self.qx_data*self.qx_data + self.qy_data*self.qy_data ) |
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| 90 | index_data= (self.qmin<= radius)&(self.mask) |
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[43e685d] | 91 | |
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[e575db9] | 92 | # For theory, qmax is based on 1d qmax |
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| 93 | # so that must be mulitified by sqrt(2) to get actual max for 2d |
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| 94 | index_model = ((self.qmin <= radius)&(radius<= self.qmax)) |
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[51a71a3] | 95 | index_model = (index_model)&(self.mask) |
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| 96 | index_model = (index_model)&(numpy.isfinite(self.I_data)) |
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[e575db9] | 97 | if self.data ==None: |
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[d2caa18] | 98 | # Only qmin value will be consider for the detector |
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[51a71a3] | 99 | index_model = index_data |
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[f72333f] | 100 | |
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| 101 | if self.smearer != None: |
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| 102 | # Set smearer w/ data, model and index. |
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| 103 | fn = self.smearer |
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| 104 | fn.set_model(self.model) |
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| 105 | fn.set_index(index_model) |
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| 106 | # Get necessary data from self.data and set the data for smearing |
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| 107 | fn.get_data() |
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| 108 | # Calculate smeared Intensity (by Gaussian averaging): DataLoader/smearing2d/Smearer2D() |
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| 109 | value = fn.get_value() |
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| 110 | |
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| 111 | else: |
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| 112 | # calculation w/o smearing |
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| 113 | value = self.model.evalDistribution([self.qx_data[index_model],self.qy_data[index_model]]) |
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[e575db9] | 114 | |
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[51a71a3] | 115 | output = numpy.zeros(len(self.qx_data)) |
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[43e685d] | 116 | |
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| 117 | # output default is None |
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[f72333f] | 118 | # This method is to distinguish between masked point(nan) and data point = 0. |
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[43e685d] | 119 | output = output/output |
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| 120 | # set value for self.mask==True, else still None to Plottools |
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[51a71a3] | 121 | output[index_model] = value |
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[f72333f] | 122 | |
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[1b001a7] | 123 | elapsed = time.time()-self.starttime |
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[6bbeacd4] | 124 | self.complete(image=output, |
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| 125 | data=self.data, |
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[66ff250] | 126 | page_id=self.page_id, |
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[6bbeacd4] | 127 | model=self.model, |
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[5ef55d2] | 128 | state=self.state, |
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[fa65e99] | 129 | toggle_mode_on=self.toggle_mode_on, |
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[6bbeacd4] | 130 | elapsed=elapsed, |
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| 131 | index=index_model, |
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| 132 | qmin=self.qmin, |
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| 133 | qmax=self.qmax, |
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[2296316] | 134 | qstep=self.qstep, |
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| 135 | update_chisqr = self.update_chisqr ) |
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[1b001a7] | 136 | |
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[bb18ef1] | 137 | |
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| 138 | class Calc1D(CalcThread): |
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[5062bbf] | 139 | """ |
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| 140 | Compute 1D data |
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| 141 | """ |
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[bb18ef1] | 142 | def __init__(self, x, model, |
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[66ff250] | 143 | page_id, |
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[bb18ef1] | 144 | data=None, |
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| 145 | qmin=None, |
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| 146 | qmax=None, |
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| 147 | smearer=None, |
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[fa65e99] | 148 | toggle_mode_on=False, |
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[5ef55d2] | 149 | state=None, |
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[bb18ef1] | 150 | completefn = None, |
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[2296316] | 151 | update_chisqr=True, |
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[bb18ef1] | 152 | updatefn = None, |
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| 153 | yieldtime = 0.01, |
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| 154 | worktime = 0.01 |
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| 155 | ): |
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[5062bbf] | 156 | """ |
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| 157 | """ |
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[bb18ef1] | 158 | CalcThread.__init__(self,completefn, |
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| 159 | updatefn, |
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| 160 | yieldtime, |
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| 161 | worktime) |
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[1b001a7] | 162 | self.x = numpy.array(x) |
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[fa65e99] | 163 | self.data = data |
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| 164 | self.qmin = qmin |
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| 165 | self.qmax = qmax |
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[bb18ef1] | 166 | self.model = model |
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[fa65e99] | 167 | self.toggle_mode_on = toggle_mode_on |
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[5ef55d2] | 168 | self.state = state |
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[66ff250] | 169 | self.page_id = page_id |
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[fa65e99] | 170 | self.smearer = smearer |
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[bb18ef1] | 171 | self.starttime = 0 |
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[2296316] | 172 | self.update_chisqr = update_chisqr |
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[bb18ef1] | 173 | |
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| 174 | def compute(self): |
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[c77d859] | 175 | """ |
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[5062bbf] | 176 | Compute model 1d value given qmin , qmax , x value |
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[c77d859] | 177 | """ |
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[bb18ef1] | 178 | self.starttime = time.time() |
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[cad821b] | 179 | output = numpy.zeros((len(self.x))) |
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| 180 | index= (self.qmin <= self.x)& (self.x <= self.qmax) |
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[bfe4644] | 181 | |
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[fb8daaaf] | 182 | ##smearer the ouput of the plot |
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[bb18ef1] | 183 | if self.smearer!=None: |
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[a0bc608] | 184 | first_bin, last_bin = self.smearer.get_bin_range(self.qmin, self.qmax) |
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[e627f19] | 185 | output[first_bin:last_bin] = self.model.evalDistribution(self.x[first_bin:last_bin]) |
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[a0bc608] | 186 | output = self.smearer(output, first_bin, last_bin) |
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[e627f19] | 187 | else: |
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| 188 | output[index] = self.model.evalDistribution(self.x[index]) |
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[bfe4644] | 189 | |
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[5062bbf] | 190 | elapsed = time.time() - self.starttime |
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[785c8233] | 191 | |
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[5062bbf] | 192 | self.complete(x=self.x[index], y=output[index], |
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[66ff250] | 193 | page_id=self.page_id, |
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[5ef55d2] | 194 | state=self.state, |
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[fa65e99] | 195 | toggle_mode_on=self.toggle_mode_on, |
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[5062bbf] | 196 | elapsed=elapsed,index=index, model=self.model, |
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[2296316] | 197 | data=self.data, |
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| 198 | update_chisqr = self.update_chisqr ) |
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[bb18ef1] | 199 | |
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[f72333f] | 200 | def results(self): |
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| 201 | """ |
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[5062bbf] | 202 | Send resuts of the computation |
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[f72333f] | 203 | """ |
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| 204 | return [self.out, self.index] |
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[5062bbf] | 205 | |
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| 206 | """ |
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| 207 | Example: :: |
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| 208 | |
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| 209 | class CalcCommandline: |
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| 210 | def __init__(self, n=20000): |
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| 211 | #print thread.get_ident() |
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| 212 | from sans.models.CylinderModel import CylinderModel |
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| 213 | |
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| 214 | model = CylinderModel() |
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| 215 | |
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| 216 | |
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| 217 | print model.runXY([0.01, 0.02]) |
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| 218 | |
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| 219 | qmax = 0.01 |
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| 220 | qstep = 0.0001 |
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| 221 | self.done = False |
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| 222 | |
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| 223 | x = numpy.arange(-qmax, qmax+qstep*0.01, qstep) |
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| 224 | y = numpy.arange(-qmax, qmax+qstep*0.01, qstep) |
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[bb18ef1] | 225 | |
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| 226 | |
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[5062bbf] | 227 | calc_thread_2D = Calc2D(x, y, None, model.clone(),None, |
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| 228 | -qmax, qmax,qstep, |
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| 229 | completefn=self.complete, |
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| 230 | updatefn=self.update , |
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| 231 | yieldtime=0.0) |
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[bb18ef1] | 232 | |
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[5062bbf] | 233 | calc_thread_2D.queue() |
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| 234 | calc_thread_2D.ready(2.5) |
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| 235 | |
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| 236 | while not self.done: |
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| 237 | time.sleep(1) |
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[904713c] | 238 | |
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[5062bbf] | 239 | def update(self,output): |
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| 240 | print "update" |
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[bb18ef1] | 241 | |
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[5062bbf] | 242 | def complete(self, image, data, model, elapsed, qmin, qmax,index, qstep ): |
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| 243 | print "complete" |
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| 244 | self.done = True |
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| 245 | |
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| 246 | if __name__ == "__main__": |
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| 247 | CalcCommandline() |
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| 248 | """ |
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