[570a58f9] | 1 | """ |
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| 2 | Adds a linear fit plot to the chart |
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| 3 | """ |
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[fed94a2] | 4 | import re |
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[570a58f9] | 5 | import numpy |
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| 6 | from PyQt4 import QtGui |
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| 7 | from PyQt4 import QtCore |
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| 8 | |
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| 9 | #from sas.sasgui.transform import |
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| 10 | from sas.qtgui.GuiUtils import formatNumber |
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| 11 | from sas.sasgui.plottools import fittings |
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| 12 | from sas.sasgui.plottools import transform |
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| 13 | |
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| 14 | from sas.sasgui.plottools.LineModel import LineModel |
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| 15 | |
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| 16 | # Local UI |
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| 17 | from sas.qtgui.UI.LinearFitUI import Ui_LinearFitUI |
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| 18 | |
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| 19 | class LinearFit(QtGui.QDialog, Ui_LinearFitUI): |
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| 20 | def __init__(self, parent=None, |
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| 21 | data=None, |
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| 22 | max_range=(0.0, 0.0), |
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| 23 | fit_range=(0.0, 0.0), |
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| 24 | xlabel="", |
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| 25 | ylabel=""): |
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| 26 | super(LinearFit, self).__init__() |
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| 27 | |
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| 28 | self.setupUi(self) |
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| 29 | assert(isinstance(max_range, tuple)) |
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| 30 | assert(isinstance(fit_range, tuple)) |
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| 31 | |
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| 32 | self.data = data |
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| 33 | self.parent = parent |
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| 34 | |
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| 35 | self.max_range = max_range |
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| 36 | self.fit_range = fit_range |
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| 37 | self.xLabel = xlabel |
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| 38 | self.yLabel = ylabel |
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| 39 | |
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[b46f285] | 40 | self.x_is_log = self.xLabel == "log10(x)" |
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| 41 | self.y_is_log = self.yLabel == "log10(y)" |
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| 42 | |
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[570a58f9] | 43 | self.txtFitRangeMin.setValidator(QtGui.QDoubleValidator()) |
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| 44 | self.txtFitRangeMax.setValidator(QtGui.QDoubleValidator()) |
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| 45 | |
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| 46 | # Default values in the line edits |
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| 47 | self.txtA.setText("1") |
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| 48 | self.txtB.setText("1") |
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| 49 | self.txtAerr.setText("0") |
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| 50 | self.txtBerr.setText("0") |
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| 51 | self.txtChi2.setText("0") |
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[fed94a2] | 52 | |
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[570a58f9] | 53 | # Initial ranges |
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| 54 | self.txtRangeMin.setText(str(max_range[0])) |
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| 55 | self.txtRangeMax.setText(str(max_range[1])) |
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| 56 | self.txtFitRangeMin.setText(str(fit_range[0])) |
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| 57 | self.txtFitRangeMax.setText(str(fit_range[1])) |
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| 58 | |
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[fed94a2] | 59 | # cast xLabel into html |
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| 60 | label = re.sub(r'\^\((.)\)(.*)', r'<span style=" vertical-align:super;">\1</span>\2', |
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| 61 | str(self.xLabel).rstrip()) |
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| 62 | self.lblRange.setText('Fit range of ' + label) |
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[570a58f9] | 63 | |
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| 64 | self.model = LineModel() |
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| 65 | # Display the fittings values |
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| 66 | self.default_A = self.model.getParam('A') |
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| 67 | self.default_B = self.model.getParam('B') |
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| 68 | self.cstA = fittings.Parameter(self.model, 'A', self.default_A) |
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| 69 | self.cstB = fittings.Parameter(self.model, 'B', self.default_B) |
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| 70 | self.transform = transform |
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| 71 | |
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[2e3e959] | 72 | self.setFixedSize(self.minimumSizeHint()) |
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| 73 | |
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[fed94a2] | 74 | # connect Fit button |
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[570a58f9] | 75 | self.cmdFit.clicked.connect(self.fit) |
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| 76 | |
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| 77 | def setRangeLabel(self, label=""): |
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| 78 | """ |
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| 79 | Overwrite default fit range label to correspond to actual unit |
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| 80 | """ |
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| 81 | assert(isinstance(label, basestring)) |
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| 82 | self.lblRange.setText(label) |
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| 83 | |
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| 84 | def range(self): |
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| 85 | return (float(self.txtFitRangeMin.text()), float(self.txtFitRangeMax.text())) |
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| 86 | |
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| 87 | def fit(self, event): |
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| 88 | """ |
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| 89 | Performs the fit. Receive an event when clicking on |
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| 90 | the button Fit.Computes chisqr , |
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| 91 | A and B parameters of the best linear fit y=Ax +B |
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| 92 | Push a plottable to the caller |
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| 93 | """ |
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| 94 | tempx = [] |
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| 95 | tempy = [] |
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| 96 | tempdy = [] |
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| 97 | |
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| 98 | # Checks to assure data correctness |
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| 99 | if len(self.data.view.x) < 2: |
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| 100 | return |
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| 101 | if not self.checkFitValues(self.txtFitRangeMin): |
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| 102 | return |
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| 103 | |
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| 104 | self.xminFit, self.xmaxFit = self.range() |
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| 105 | |
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[b46f285] | 106 | xmin = self.xminFit |
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| 107 | xmax = self.xmaxFit |
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| 108 | xminView = xmin |
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| 109 | xmaxView = xmax |
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| 110 | |
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[570a58f9] | 111 | # Set the qmin and qmax in the panel that matches the |
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| 112 | # transformed min and max |
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[fed94a2] | 113 | #value_xmin = X_VAL_DICT[self.xLabel].floatTransform(xmin) |
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| 114 | #value_xmax = X_VAL_DICT[self.xLabel].floatTransform(xmax) |
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[b46f285] | 115 | |
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[fed94a2] | 116 | value_xmin = self.floatInvTransform(xmin) |
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| 117 | value_xmax = self.floatInvTransform(xmax) |
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| 118 | self.txtRangeMin.setText(formatNumber(value_xmin)) |
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| 119 | self.txtRangeMax.setText(formatNumber(value_xmax)) |
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[570a58f9] | 120 | |
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[b46f285] | 121 | tempx, tempy, tempdy = self.origData() |
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[570a58f9] | 122 | |
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| 123 | # Find the fitting parameters |
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| 124 | self.cstA = fittings.Parameter(self.model, 'A', self.default_A) |
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| 125 | self.cstB = fittings.Parameter(self.model, 'B', self.default_B) |
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| 126 | tempdy = numpy.asarray(tempdy) |
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| 127 | tempdy[tempdy == 0] = 1 |
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| 128 | |
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[b46f285] | 129 | if self.x_is_log: |
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| 130 | xmin = numpy.log10(xmin) |
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| 131 | xmax = numpy.log10(xmax) |
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| 132 | |
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| 133 | chisqr, out, cov = fittings.sasfit(self.model, |
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| 134 | [self.cstA, self.cstB], |
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| 135 | tempx, tempy, tempdy, |
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| 136 | xmin, xmax) |
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[570a58f9] | 137 | # Use chi2/dof |
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| 138 | if len(tempx) > 0: |
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| 139 | chisqr = chisqr / len(tempx) |
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| 140 | |
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| 141 | # Check that cov and out are iterable before displaying them |
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| 142 | errA = numpy.sqrt(cov[0][0]) if cov is not None else 0 |
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| 143 | errB = numpy.sqrt(cov[1][1]) if cov is not None else 0 |
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| 144 | cstA = out[0] if out is not None else 0.0 |
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| 145 | cstB = out[1] if out is not None else 0.0 |
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| 146 | |
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| 147 | # Reset model with the right values of A and B |
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| 148 | self.model.setParam('A', float(cstA)) |
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| 149 | self.model.setParam('B', float(cstB)) |
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| 150 | |
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| 151 | tempx = [] |
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| 152 | tempy = [] |
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| 153 | y_model = 0.0 |
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| 154 | |
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[b46f285] | 155 | # load tempy with the minimum transformation |
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| 156 | y_model = self.model.run(xmin) |
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| 157 | tempx.append(xminView) |
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| 158 | tempy.append(numpy.power(10, y_model) if self.y_is_log else y_model) |
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[570a58f9] | 159 | |
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| 160 | # load tempy with the maximum transformation |
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[b46f285] | 161 | y_model = self.model.run(xmax) |
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| 162 | tempx.append(xmaxView) |
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| 163 | tempy.append(numpy.power(10, y_model) if self.y_is_log else y_model) |
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[570a58f9] | 164 | |
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| 165 | # Set the fit parameter display when FitDialog is opened again |
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| 166 | self.Avalue = cstA |
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| 167 | self.Bvalue = cstB |
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| 168 | self.ErrAvalue = errA |
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| 169 | self.ErrBvalue = errB |
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| 170 | self.Chivalue = chisqr |
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| 171 | |
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| 172 | # Update the widget |
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| 173 | self.txtA.setText(formatNumber(self.Avalue)) |
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| 174 | self.txtAerr.setText(formatNumber(self.ErrAvalue)) |
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| 175 | self.txtB.setText(formatNumber(self.Bvalue)) |
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| 176 | self.txtBerr.setText(formatNumber(self.ErrBvalue)) |
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| 177 | self.txtChi2.setText(formatNumber(self.Chivalue)) |
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| 178 | |
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| 179 | #self.parent.updatePlot.emit((tempx, tempy)) |
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| 180 | self.parent.emit(QtCore.SIGNAL('updatePlot'), (tempx, tempy)) |
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| 181 | |
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[b46f285] | 182 | def origData(self): |
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| 183 | # Store the transformed values of view x, y and dy before the fit |
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| 184 | xmin_check = numpy.log10(self.xminFit) |
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| 185 | # Local shortcuts |
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| 186 | x = self.data.view.x |
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| 187 | y = self.data.view.y |
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| 188 | dy = self.data.view.dy |
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| 189 | |
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| 190 | if self.y_is_log: |
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| 191 | if self.x_is_log: |
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| 192 | tempy = [numpy.log10(y[i]) |
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| 193 | for i in range(len(x)) if x[i] >= xmin_check] |
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| 194 | tempdy = [transform.errToLogX(y[i], 0, dy[i], 0) |
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| 195 | for i in range(len(x)) if x[i] >= xmin_check] |
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| 196 | else: |
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| 197 | tempy = map(numpy.log10, y) |
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| 198 | tempdy = map(lambda t1,t2:transform.errToLogX(t1,0,t2,0),y,dy) |
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| 199 | else: |
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| 200 | tempy = y |
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| 201 | tempdy = dy |
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| 202 | |
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| 203 | if self.x_is_log: |
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| 204 | tempx = [numpy.log10(x) for x in self.data.view.x if x > xmin_check] |
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| 205 | else: |
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| 206 | tempx = x |
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| 207 | |
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| 208 | return tempx, tempy, tempdy |
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| 209 | |
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[570a58f9] | 210 | def checkFitValues(self, item): |
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| 211 | """ |
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| 212 | Check the validity of input values |
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| 213 | """ |
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| 214 | flag = True |
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| 215 | value = item.text() |
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| 216 | p_white = item.palette() |
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| 217 | p_white.setColor(item.backgroundRole(), QtCore.Qt.white) |
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| 218 | p_pink = item.palette() |
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| 219 | p_pink.setColor(item.backgroundRole(), QtGui.QColor(255, 128, 128)) |
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[b46f285] | 220 | item.setAutoFillBackground(True) |
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[570a58f9] | 221 | # Check for possible values entered |
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[b46f285] | 222 | if self.x_is_log: |
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[570a58f9] | 223 | if float(value) > 0: |
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| 224 | item.setPalette(p_white) |
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| 225 | else: |
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| 226 | flag = False |
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| 227 | item.setPalette(p_pink) |
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| 228 | return flag |
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| 229 | |
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| 230 | def floatInvTransform(self, x): |
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| 231 | """ |
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| 232 | transform a float.It is used to determine the x.View min and x.View |
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| 233 | max for values not in x. Also used to properly calculate RgQmin, |
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| 234 | RgQmax and to update qmin and qmax in the linear range boxes on the |
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| 235 | panel. |
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| 236 | |
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| 237 | """ |
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| 238 | # TODO: refactor this. This is just a hack to make the |
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| 239 | # functionality work without rewritting the whole code |
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| 240 | # with good design (which really should be done...). |
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| 241 | if self.xLabel == "x": |
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| 242 | return x |
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| 243 | elif self.xLabel == "x^(2)": |
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| 244 | return numpy.sqrt(x) |
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| 245 | elif self.xLabel == "x^(4)": |
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[b46f285] | 246 | return numpy.sqrt(numpy.sqrt(x)) |
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[570a58f9] | 247 | elif self.xLabel == "log10(x)": |
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| 248 | return numpy.power(10, x) |
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| 249 | elif self.xLabel == "ln(x)": |
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| 250 | return numpy.exp(x) |
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| 251 | elif self.xLabel == "log10(x^(4))": |
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| 252 | return numpy.sqrt(numpy.sqrt(numpy.power(10, x))) |
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| 253 | return x |
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[2e3e959] | 254 | |
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| 255 | |
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