[113] | 1 | import _asap |
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[259] | 2 | from asap import rcParams |
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[113] | 3 | |
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| 4 | class fitter: |
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| 5 | """ |
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| 6 | The fitting class for ASAP. |
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| 7 | """ |
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| 8 | def _verbose(self, *args): |
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| 9 | """ |
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| 10 | Set stdout output. |
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| 11 | """ |
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| 12 | if type(args[0]) is bool: |
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| 13 | self._vb = args[0] |
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| 14 | return |
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| 15 | elif len(args) == 0: |
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| 16 | return self._vb |
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| 17 | |
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| 18 | def __init__(self): |
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| 19 | """ |
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| 20 | Create a fitter object. No state is set. |
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| 21 | """ |
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| 22 | self.fitter = _asap.fitter() |
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| 23 | self.x = None |
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| 24 | self.y = None |
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| 25 | self.mask = None |
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| 26 | self.fitfunc = None |
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| 27 | self.fitted = False |
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| 28 | self.data = None |
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| 29 | self._p = None |
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| 30 | self._vb = True |
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| 31 | |
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| 32 | def set_data(self, xdat, ydat, mask=None): |
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| 33 | """ |
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[158] | 34 | Set the absissa and ordinate for the fit. Also set the mask |
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[113] | 35 | indicationg valid points. |
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| 36 | This can be used for data vectors retrieved from a scantable. |
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| 37 | For scantable fitting use 'fitter.set_scan(scan, mask)'. |
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| 38 | Parameters: |
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[158] | 39 | xdat: the abcissa values |
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[113] | 40 | ydat: the ordinate values |
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| 41 | mask: an optional mask |
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| 42 | |
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| 43 | """ |
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| 44 | self.fitted = False |
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| 45 | self.x = xdat |
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| 46 | self.y = ydat |
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| 47 | if mask == None: |
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| 48 | from numarray import ones |
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| 49 | self.mask = ones(len(xdat)) |
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| 50 | else: |
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| 51 | self.mask = mask |
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| 52 | return |
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| 53 | |
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| 54 | def set_scan(self, thescan=None, mask=None): |
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| 55 | """ |
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| 56 | Set the 'data' (a scantable) of the fitter. |
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| 57 | Parameters: |
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| 58 | thescan: a scantable |
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| 59 | mask: a msk retireved from the scantable |
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| 60 | """ |
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| 61 | if not thescan: |
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| 62 | print "Please give a correct scan" |
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| 63 | self.fitted = False |
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| 64 | self.data = thescan |
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| 65 | if mask is None: |
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| 66 | from numarray import ones |
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| 67 | self.mask = ones(self.data.nchan()) |
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| 68 | else: |
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| 69 | self.mask = mask |
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| 70 | return |
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| 71 | |
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| 72 | def set_function(self, **kwargs): |
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| 73 | """ |
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| 74 | Set the function to be fit. |
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| 75 | Parameters: |
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| 76 | poly: use a polynomial of the order given |
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| 77 | gauss: fit the number of gaussian specified |
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| 78 | Example: |
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| 79 | fitter.set_function(gauss=2) # will fit two gaussians |
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| 80 | fitter.set_function(poly=3) # will fit a 3rd order polynomial |
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| 81 | """ |
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| 82 | #default poly order 0 |
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[259] | 83 | |
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| 84 | |
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[113] | 85 | if kwargs.has_key('poly'): |
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| 86 | self.fitfunc = 'poly' |
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| 87 | n = kwargs.get('poly') |
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| 88 | elif kwargs.has_key('gauss'): |
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| 89 | n = kwargs.get('gauss') |
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| 90 | self.fitfunc = 'gauss' |
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| 91 | |
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| 92 | self.fitter.setexpression(self.fitfunc,n) |
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| 93 | return |
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| 94 | |
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| 95 | def fit(self): |
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| 96 | """ |
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| 97 | Execute the actual fitting process. All the state has to be set. |
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| 98 | Parameters: |
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| 99 | none |
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| 100 | Example: |
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| 101 | s= scantable('myscan.asap') |
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| 102 | f = fitter() |
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| 103 | f.set_scan(s) |
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| 104 | f.set_function(poly=0) |
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| 105 | f.fit() |
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| 106 | """ |
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| 107 | if ((self.x is None or self.y is None) and self.data is None) \ |
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| 108 | or self.fitfunc is None: |
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| 109 | print "Fitter not yet initialised. Please set data & fit function" |
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| 110 | return |
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| 111 | else: |
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| 112 | if self.data is not None: |
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[259] | 113 | self.x = self.data._getabcissa() |
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| 114 | self.y = self.data._getspectrum() |
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[113] | 115 | print "Fitting:" |
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[259] | 116 | vb = self.data._vb |
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| 117 | self.data._vb = True |
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| 118 | s = self.data.get_cursor() |
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| 119 | self.data._vb = vb |
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[113] | 120 | |
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| 121 | self.fitter.setdata(self.x,self.y,self.mask) |
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| 122 | if self.fitfunc == 'gauss': |
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| 123 | ps = self.fitter.getparameters() |
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| 124 | if len(ps) == 0: |
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| 125 | self.fitter.estimate() |
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| 126 | self.fitter.fit() |
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| 127 | self.fitted = True |
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| 128 | return |
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| 129 | |
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| 130 | def set_parameters(self, params, fixed=None): |
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| 131 | self.fitter.setparameters(params) |
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| 132 | if fixed is not None: |
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| 133 | self.fitter.setfixedparameters(fixed) |
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| 134 | return |
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| 135 | |
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| 136 | def get_parameters(self): |
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| 137 | """ |
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| 138 | Return the fit paramters. |
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| 139 | |
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| 140 | """ |
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| 141 | if not self.fitted: |
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| 142 | print "Not yet fitted." |
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| 143 | pars = list(self.fitter.getparameters()) |
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| 144 | fixed = list(self.fitter.getfixedparameters()) |
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| 145 | if self._vb: |
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| 146 | print self._format_pars(pars) |
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| 147 | return pars,fixed |
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| 148 | |
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| 149 | def _format_pars(self, pars): |
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| 150 | out = '' |
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| 151 | if self.fitfunc == 'poly': |
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| 152 | c = 0 |
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| 153 | for i in pars: |
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| 154 | out += ' p%d = %3.3f, ' % (c,i) |
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| 155 | c+=1 |
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| 156 | elif self.fitfunc == 'gauss': |
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| 157 | i = 0 |
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| 158 | c = 0 |
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| 159 | unit = '' |
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| 160 | if self.data: |
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| 161 | unit = self.data.get_unit() |
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| 162 | while i < len(pars): |
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| 163 | out += ' %d: peak = %3.3f , centre = %3.3f %s, FWHM = %3.3f %s \n' % (c,pars[i],pars[i+1],unit,pars[i+2],unit) |
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| 164 | c+=1 |
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| 165 | i+=3 |
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| 166 | return out |
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| 167 | |
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| 168 | def get_estimate(self): |
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| 169 | """ |
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| 170 | Return the paramter estimates (for non-linear functions). |
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| 171 | """ |
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| 172 | pars = self.fitter.getestimate() |
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| 173 | if self._vb: |
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| 174 | print self._format_pars(pars) |
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| 175 | return pars |
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| 176 | |
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| 177 | |
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| 178 | def get_residual(self): |
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| 179 | """ |
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| 180 | Return the residual of the fit. |
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| 181 | """ |
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| 182 | if not self.fitted: |
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| 183 | print "Not yet fitted." |
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| 184 | return self.fitter.getresidual() |
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| 185 | |
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| 186 | def get_chi2(self): |
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| 187 | """ |
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| 188 | Return chi^2. |
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| 189 | """ |
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| 190 | |
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| 191 | if not self.fitted: |
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| 192 | print "Not yet fitted." |
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| 193 | ch2 = self.fitter.getchi2() |
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| 194 | if self._vb: |
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| 195 | print 'Chi^2 = %3.3f' % (ch2) |
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| 196 | return ch2 |
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| 197 | |
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| 198 | def get_fit(self): |
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| 199 | """ |
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| 200 | Return the fitted ordinate values. |
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| 201 | """ |
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| 202 | if not self.fitted: |
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| 203 | print "Not yet fitted." |
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| 204 | return self.fitter.getfit() |
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| 205 | |
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| 206 | def commit(self): |
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| 207 | """ |
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| 208 | Return a new scan where teh fits have been commited. |
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| 209 | """ |
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| 210 | if not self.fitted: |
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| 211 | print "Not yet fitted." |
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| 212 | if self.data is not scantable: |
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| 213 | print "Only works with scantables" |
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| 214 | return |
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| 215 | scan = self.data.copy() |
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[259] | 216 | scan._setspectrum(self.fitter.getresidual()) |
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[113] | 217 | |
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| 218 | def plot(self, residual=False): |
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| 219 | """ |
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| 220 | Plot the last fit. |
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| 221 | Parameters: |
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| 222 | residual: an optional parameter indicating if the residual |
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| 223 | should be plotted (default 'False') |
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| 224 | """ |
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| 225 | if not self.fitted: |
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| 226 | return |
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| 227 | if not self._p: |
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| 228 | from asap.asaplot import ASAPlot |
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| 229 | self._p = ASAPlot() |
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[190] | 230 | if self._.is_dead: |
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| 231 | from asap.asaplot import ASAPlot |
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| 232 | self._p = ASAPlot() |
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[113] | 233 | self._p.clear() |
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| 234 | tlab = 'Spectrum' |
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[158] | 235 | xlab = 'Abcissa' |
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[113] | 236 | if self.data: |
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| 237 | tlab = self.data._getsourcename(0) |
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[259] | 238 | xlab = self.data._getabcissalabel(0) |
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[113] | 239 | ylab = r'Flux' |
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| 240 | m = self.data.getmask(0) |
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| 241 | self._p.set_line(colour='blue',label='Spectrum') |
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| 242 | self._p.plot(self.x, self.y, m) |
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| 243 | if residual: |
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| 244 | self._p.set_line(colour='green',label='Residual') |
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| 245 | self._p.plot(self.x, self.get_residual(), m) |
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| 246 | self._p.set_line(colour='red',label='Fit') |
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| 247 | self._p.plot(self.x, self.get_fit(), m) |
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| 248 | |
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| 249 | self._p.set_axes('xlabel',xlab) |
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| 250 | self._p.set_axes('ylabel',ylab) |
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| 251 | self._p.set_axes('title',tlab) |
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| 252 | self._p.release() |
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| 253 | |
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| 254 | |
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[259] | 255 | def auto_fit(self, insitu=None): |
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[113] | 256 | """ |
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[159] | 257 | Return a scan where the function is applied to all rows for all Beams/IFs/Pols. |
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[113] | 258 | |
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| 259 | """ |
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| 260 | from asap import scantable |
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| 261 | if not isinstance(self.data,scantable) : |
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| 262 | print "Only works with scantables" |
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| 263 | return |
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[259] | 264 | if insitu is None: insitu = rcParams['insitu'] |
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| 265 | if not insitu: |
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| 266 | scan = self.data.copy() |
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| 267 | else: |
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| 268 | scan = self.data |
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| 269 | vb = scan._vb |
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| 270 | scan._vb = False |
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| 271 | sel = scan.get_cursor() |
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[159] | 272 | rows = range(scan.nrow()) |
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[113] | 273 | for i in range(scan.nbeam()): |
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| 274 | scan.setbeam(i) |
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| 275 | for j in range(scan.nif()): |
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| 276 | scan.setif(j) |
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| 277 | for k in range(scan.npol()): |
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| 278 | scan.setpol(k) |
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| 279 | if self._vb: |
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| 280 | print "Fitting:" |
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| 281 | print 'Beam[%d], IF[%d], Pol[%d]' % (i,j,k) |
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[159] | 282 | for iRow in rows: |
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[259] | 283 | self.x = scan._getabcissa(iRow) |
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| 284 | self.y = scan._getspectrum(iRow) |
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[159] | 285 | self.data = None |
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| 286 | self.fit() |
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[113] | 287 | x = self.get_parameters() |
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[259] | 288 | scan._setspectrum(self.fitter.getresidual(),iRow) |
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| 289 | scan.set_cursor(sel[0],sel[1],sel[2]) |
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| 290 | scan._vb = vb |
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| 291 | if not insitu: |
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| 292 | return scan |
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