[3350ad6] | 1 | # pylint: disable=invalid-name |
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[51f14603] | 2 | """ |
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| 3 | Module to perform P(r) inversion. |
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| 4 | The module contains the Invertor class. |
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[bc3e38c] | 5 | |
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| 6 | FIXME: The way the Invertor interacts with its C component should be cleaned up |
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[51f14603] | 7 | """ |
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| 8 | |
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| 9 | import numpy |
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| 10 | import sys |
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| 11 | import math |
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| 12 | import time |
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| 13 | import copy |
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| 14 | import os |
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| 15 | import re |
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[3350ad6] | 16 | import logging |
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[51f14603] | 17 | from numpy.linalg import lstsq |
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| 18 | from scipy import optimize |
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[b699768] | 19 | from sas.sascalc.pr.core.pr_inversion import Cinvertor |
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[51f14603] | 20 | |
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| 21 | def help(): |
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| 22 | """ |
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| 23 | Provide general online help text |
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| 24 | Future work: extend this function to allow topic selection |
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| 25 | """ |
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[3350ad6] | 26 | info_txt = "The inversion approach is based on Moore, J. Appl. Cryst. " |
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[51f14603] | 27 | info_txt += "(1980) 13, 168-175.\n\n" |
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| 28 | info_txt += "P(r) is set to be equal to an expansion of base functions " |
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| 29 | info_txt += "of the type " |
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| 30 | info_txt += "phi_n(r) = 2*r*sin(pi*n*r/D_max). The coefficient of each " |
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| 31 | info_txt += "base functions " |
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| 32 | info_txt += "in the expansion is found by performing a least square fit " |
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| 33 | info_txt += "with the " |
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| 34 | info_txt += "following fit function:\n\n" |
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| 35 | info_txt += "chi**2 = sum_i[ I_meas(q_i) - I_th(q_i) ]**2/error**2 +" |
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| 36 | info_txt += "Reg_term\n\n" |
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| 37 | info_txt += "where I_meas(q) is the measured scattering intensity and " |
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| 38 | info_txt += "I_th(q) is " |
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| 39 | info_txt += "the prediction from the Fourier transform of the P(r) " |
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| 40 | info_txt += "expansion. " |
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| 41 | info_txt += "The Reg_term term is a regularization term set to the second" |
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| 42 | info_txt += " derivative " |
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| 43 | info_txt += "d**2P(r)/dr**2 integrated over r. It is used to produce " |
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| 44 | info_txt += "a smooth P(r) output.\n\n" |
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| 45 | info_txt += "The following are user inputs:\n\n" |
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| 46 | info_txt += " - Number of terms: the number of base functions in the P(r)" |
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| 47 | info_txt += " expansion.\n\n" |
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| 48 | info_txt += " - Regularization constant: a multiplicative constant " |
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| 49 | info_txt += "to set the size of " |
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| 50 | info_txt += "the regularization term.\n\n" |
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| 51 | info_txt += " - Maximum distance: the maximum distance between any " |
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| 52 | info_txt += "two points in the system.\n" |
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[3350ad6] | 53 | |
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[51f14603] | 54 | return info_txt |
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[3350ad6] | 55 | |
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[51f14603] | 56 | |
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| 57 | class Invertor(Cinvertor): |
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| 58 | """ |
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| 59 | Invertor class to perform P(r) inversion |
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[3350ad6] | 60 | |
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[51f14603] | 61 | The problem is solved by posing the problem as Ax = b, |
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| 62 | where x is the set of coefficients we are looking for. |
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[3350ad6] | 63 | |
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[51f14603] | 64 | Npts is the number of points. |
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[3350ad6] | 65 | |
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[51f14603] | 66 | In the following i refers to the ith base function coefficient. |
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| 67 | The matrix has its entries j in its first Npts rows set to :: |
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| 68 | |
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| 69 | A[j][i] = (Fourier transformed base function for point j) |
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[3350ad6] | 70 | |
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[51f14603] | 71 | We them choose a number of r-points, n_r, to evaluate the second |
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| 72 | derivative of P(r) at. This is used as our regularization term. |
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| 73 | For a vector r of length n_r, the following n_r rows are set to :: |
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| 74 | |
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| 75 | A[j+Npts][i] = (2nd derivative of P(r), d**2(P(r))/d(r)**2, |
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| 76 | evaluated at r[j]) |
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[3350ad6] | 77 | |
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[51f14603] | 78 | The vector b has its first Npts entries set to :: |
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| 79 | |
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| 80 | b[j] = (I(q) observed for point j) |
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[3350ad6] | 81 | |
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[51f14603] | 82 | The following n_r entries are set to zero. |
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[3350ad6] | 83 | |
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[51f14603] | 84 | The result is found by using scipy.linalg.basic.lstsq to invert |
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| 85 | the matrix and find the coefficients x. |
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[3350ad6] | 86 | |
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[51f14603] | 87 | Methods inherited from Cinvertor: |
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| 88 | |
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| 89 | * ``get_peaks(pars)``: returns the number of P(r) peaks |
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| 90 | * ``oscillations(pars)``: returns the oscillation parameters for the output P(r) |
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| 91 | * ``get_positive(pars)``: returns the fraction of P(r) that is above zero |
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| 92 | * ``get_pos_err(pars)``: returns the fraction of P(r) that is 1-sigma above zero |
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| 93 | """ |
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| 94 | ## Chisqr of the last computation |
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[3350ad6] | 95 | chi2 = 0 |
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[51f14603] | 96 | ## Time elapsed for last computation |
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| 97 | elapsed = 0 |
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| 98 | ## Alpha to get the reg term the same size as the signal |
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| 99 | suggested_alpha = 0 |
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| 100 | ## Last number of base functions used |
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| 101 | nfunc = 10 |
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| 102 | ## Last output values |
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| 103 | out = None |
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| 104 | ## Last errors on output values |
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| 105 | cov = None |
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| 106 | ## Background value |
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| 107 | background = 0 |
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| 108 | ## Information dictionary for application use |
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| 109 | info = {} |
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[3350ad6] | 110 | |
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[51f14603] | 111 | def __init__(self): |
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| 112 | Cinvertor.__init__(self) |
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[3350ad6] | 113 | |
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[51f14603] | 114 | def __setstate__(self, state): |
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| 115 | """ |
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| 116 | restore the state of invertor for pickle |
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| 117 | """ |
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| 118 | (self.__dict__, self.alpha, self.d_max, |
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| 119 | self.q_min, self.q_max, |
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| 120 | self.x, self.y, |
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| 121 | self.err, self.has_bck, |
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| 122 | self.slit_height, self.slit_width) = state |
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[3350ad6] | 123 | |
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[51f14603] | 124 | def __reduce_ex__(self, proto): |
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| 125 | """ |
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| 126 | Overwrite the __reduce_ex__ |
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| 127 | """ |
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| 128 | |
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| 129 | state = (self.__dict__, |
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| 130 | self.alpha, self.d_max, |
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| 131 | self.q_min, self.q_max, |
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| 132 | self.x, self.y, |
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| 133 | self.err, self.has_bck, |
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| 134 | self.slit_height, self.slit_width, |
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[3350ad6] | 135 | ) |
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[51f14603] | 136 | return (Invertor, tuple(), state, None, None) |
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[3350ad6] | 137 | |
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[51f14603] | 138 | def __setattr__(self, name, value): |
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| 139 | """ |
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| 140 | Set the value of an attribute. |
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| 141 | Access the parent class methods for |
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| 142 | x, y, err, d_max, q_min, q_max and alpha |
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| 143 | """ |
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| 144 | if name == 'x': |
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| 145 | if 0.0 in value: |
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| 146 | msg = "Invertor: one of your q-values is zero. " |
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| 147 | msg += "Delete that entry before proceeding" |
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| 148 | raise ValueError, msg |
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| 149 | return self.set_x(value) |
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| 150 | elif name == 'y': |
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| 151 | return self.set_y(value) |
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| 152 | elif name == 'err': |
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| 153 | value2 = abs(value) |
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| 154 | return self.set_err(value2) |
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| 155 | elif name == 'd_max': |
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[d470dc7] | 156 | if value <= 0.0: |
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| 157 | msg = "Invertor: d_max must be greater than zero." |
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| 158 | msg += "Correct that entry before proceeding" |
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| 159 | raise ValueError, msg |
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[51f14603] | 160 | return self.set_dmax(value) |
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| 161 | elif name == 'q_min': |
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| 162 | if value == None: |
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| 163 | return self.set_qmin(-1.0) |
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| 164 | return self.set_qmin(value) |
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| 165 | elif name == 'q_max': |
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| 166 | if value == None: |
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| 167 | return self.set_qmax(-1.0) |
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| 168 | return self.set_qmax(value) |
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| 169 | elif name == 'alpha': |
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| 170 | return self.set_alpha(value) |
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| 171 | elif name == 'slit_height': |
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| 172 | return self.set_slit_height(value) |
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| 173 | elif name == 'slit_width': |
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| 174 | return self.set_slit_width(value) |
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| 175 | elif name == 'has_bck': |
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| 176 | if value == True: |
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| 177 | return self.set_has_bck(1) |
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| 178 | elif value == False: |
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| 179 | return self.set_has_bck(0) |
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| 180 | else: |
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| 181 | raise ValueError, "Invertor: has_bck can only be True or False" |
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[3350ad6] | 182 | |
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[51f14603] | 183 | return Cinvertor.__setattr__(self, name, value) |
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[3350ad6] | 184 | |
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[51f14603] | 185 | def __getattr__(self, name): |
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| 186 | """ |
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| 187 | Return the value of an attribute |
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| 188 | """ |
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| 189 | #import numpy |
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| 190 | if name == 'x': |
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| 191 | out = numpy.ones(self.get_nx()) |
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| 192 | self.get_x(out) |
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| 193 | return out |
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| 194 | elif name == 'y': |
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| 195 | out = numpy.ones(self.get_ny()) |
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| 196 | self.get_y(out) |
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| 197 | return out |
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| 198 | elif name == 'err': |
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| 199 | out = numpy.ones(self.get_nerr()) |
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| 200 | self.get_err(out) |
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| 201 | return out |
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| 202 | elif name == 'd_max': |
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| 203 | return self.get_dmax() |
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| 204 | elif name == 'q_min': |
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| 205 | qmin = self.get_qmin() |
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| 206 | if qmin < 0: |
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| 207 | return None |
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| 208 | return qmin |
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| 209 | elif name == 'q_max': |
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| 210 | qmax = self.get_qmax() |
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| 211 | if qmax < 0: |
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| 212 | return None |
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| 213 | return qmax |
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| 214 | elif name == 'alpha': |
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| 215 | return self.get_alpha() |
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| 216 | elif name == 'slit_height': |
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| 217 | return self.get_slit_height() |
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| 218 | elif name == 'slit_width': |
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| 219 | return self.get_slit_width() |
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| 220 | elif name == 'has_bck': |
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| 221 | value = self.get_has_bck() |
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| 222 | if value == 1: |
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| 223 | return True |
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| 224 | else: |
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| 225 | return False |
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| 226 | elif name in self.__dict__: |
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| 227 | return self.__dict__[name] |
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| 228 | return None |
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[3350ad6] | 229 | |
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[51f14603] | 230 | def clone(self): |
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| 231 | """ |
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| 232 | Return a clone of this instance |
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| 233 | """ |
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| 234 | #import copy |
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[3350ad6] | 235 | |
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[51f14603] | 236 | invertor = Invertor() |
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[3350ad6] | 237 | invertor.chi2 = self.chi2 |
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[51f14603] | 238 | invertor.elapsed = self.elapsed |
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[3350ad6] | 239 | invertor.nfunc = self.nfunc |
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| 240 | invertor.alpha = self.alpha |
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| 241 | invertor.d_max = self.d_max |
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| 242 | invertor.q_min = self.q_min |
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| 243 | invertor.q_max = self.q_max |
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| 244 | |
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[51f14603] | 245 | invertor.x = self.x |
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| 246 | invertor.y = self.y |
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| 247 | invertor.err = self.err |
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| 248 | invertor.has_bck = self.has_bck |
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| 249 | invertor.slit_height = self.slit_height |
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| 250 | invertor.slit_width = self.slit_width |
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[3350ad6] | 251 | |
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[51f14603] | 252 | invertor.info = copy.deepcopy(self.info) |
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[3350ad6] | 253 | |
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[51f14603] | 254 | return invertor |
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[3350ad6] | 255 | |
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[51f14603] | 256 | def invert(self, nfunc=10, nr=20): |
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| 257 | """ |
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| 258 | Perform inversion to P(r) |
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[3350ad6] | 259 | |
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[51f14603] | 260 | The problem is solved by posing the problem as Ax = b, |
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| 261 | where x is the set of coefficients we are looking for. |
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[3350ad6] | 262 | |
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[51f14603] | 263 | Npts is the number of points. |
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[3350ad6] | 264 | |
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[51f14603] | 265 | In the following i refers to the ith base function coefficient. |
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| 266 | The matrix has its entries j in its first Npts rows set to :: |
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| 267 | |
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| 268 | A[i][j] = (Fourier transformed base function for point j) |
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[3350ad6] | 269 | |
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[51f14603] | 270 | We them choose a number of r-points, n_r, to evaluate the second |
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| 271 | derivative of P(r) at. This is used as our regularization term. |
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| 272 | For a vector r of length n_r, the following n_r rows are set to :: |
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| 273 | |
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| 274 | A[i+Npts][j] = (2nd derivative of P(r), d**2(P(r))/d(r)**2, evaluated at r[j]) |
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[3350ad6] | 275 | |
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[51f14603] | 276 | The vector b has its first Npts entries set to :: |
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| 277 | |
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| 278 | b[j] = (I(q) observed for point j) |
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[3350ad6] | 279 | |
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[51f14603] | 280 | The following n_r entries are set to zero. |
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[3350ad6] | 281 | |
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[51f14603] | 282 | The result is found by using scipy.linalg.basic.lstsq to invert |
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| 283 | the matrix and find the coefficients x. |
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[3350ad6] | 284 | |
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[51f14603] | 285 | :param nfunc: number of base functions to use. |
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| 286 | :param nr: number of r points to evaluate the 2nd derivative at for the reg. term. |
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| 287 | :return: c_out, c_cov - the coefficients with covariance matrix |
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| 288 | """ |
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| 289 | # Reset the background value before proceeding |
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| 290 | self.background = 0.0 |
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| 291 | return self.lstsq(nfunc, nr=nr) |
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[3350ad6] | 292 | |
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[51f14603] | 293 | def iq(self, out, q): |
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| 294 | """ |
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| 295 | Function to call to evaluate the scattering intensity |
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[3350ad6] | 296 | |
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[51f14603] | 297 | :param args: c-parameters, and q |
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| 298 | :return: I(q) |
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[3350ad6] | 299 | |
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[51f14603] | 300 | """ |
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| 301 | return Cinvertor.iq(self, out, q) + self.background |
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[3350ad6] | 302 | |
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[51f14603] | 303 | def invert_optimize(self, nfunc=10, nr=20): |
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| 304 | """ |
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| 305 | Slower version of the P(r) inversion that uses scipy.optimize.leastsq. |
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[3350ad6] | 306 | |
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[51f14603] | 307 | This probably produce more reliable results, but is much slower. |
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| 308 | The minimization function is set to |
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| 309 | sum_i[ (I_obs(q_i) - I_theo(q_i))/err**2 ] + alpha * reg_term, |
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| 310 | where the reg_term is given by Svergun: it is the integral of |
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| 311 | the square of the first derivative |
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| 312 | of P(r), d(P(r))/dr, integrated over the full range of r. |
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[3350ad6] | 313 | |
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[51f14603] | 314 | :param nfunc: number of base functions to use. |
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| 315 | :param nr: number of r points to evaluate the 2nd derivative at |
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| 316 | for the reg. term. |
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[3350ad6] | 317 | |
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[51f14603] | 318 | :return: c_out, c_cov - the coefficients with covariance matrix |
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[3350ad6] | 319 | |
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[51f14603] | 320 | """ |
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| 321 | self.nfunc = nfunc |
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| 322 | # First, check that the current data is valid |
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| 323 | if self.is_valid() <= 0: |
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| 324 | msg = "Invertor.invert: Data array are of different length" |
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| 325 | raise RuntimeError, msg |
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[3350ad6] | 326 | |
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[51f14603] | 327 | p = numpy.ones(nfunc) |
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| 328 | t_0 = time.time() |
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[3350ad6] | 329 | out, cov_x, _, _, _ = optimize.leastsq(self.residuals, p, full_output=1) |
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| 330 | |
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[51f14603] | 331 | # Compute chi^2 |
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| 332 | res = self.residuals(out) |
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| 333 | chisqr = 0 |
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| 334 | for i in range(len(res)): |
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| 335 | chisqr += res[i] |
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[3350ad6] | 336 | |
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[51f14603] | 337 | self.chi2 = chisqr |
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| 338 | |
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| 339 | # Store computation time |
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| 340 | self.elapsed = time.time() - t_0 |
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[3350ad6] | 341 | |
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[51f14603] | 342 | if cov_x is None: |
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| 343 | cov_x = numpy.ones([nfunc, nfunc]) |
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| 344 | cov_x *= math.fabs(chisqr) |
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| 345 | return out, cov_x |
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[3350ad6] | 346 | |
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[51f14603] | 347 | def pr_fit(self, nfunc=5): |
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| 348 | """ |
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| 349 | This is a direct fit to a given P(r). It assumes that the y data |
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| 350 | is set to some P(r) distribution that we are trying to reproduce |
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| 351 | with a set of base functions. |
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[3350ad6] | 352 | |
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[51f14603] | 353 | This method is provided as a test. |
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| 354 | """ |
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| 355 | # First, check that the current data is valid |
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| 356 | if self.is_valid() <= 0: |
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| 357 | msg = "Invertor.invert: Data arrays are of different length" |
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| 358 | raise RuntimeError, msg |
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[3350ad6] | 359 | |
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[51f14603] | 360 | p = numpy.ones(nfunc) |
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| 361 | t_0 = time.time() |
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[3350ad6] | 362 | out, cov_x, _, _, _ = optimize.leastsq(self.pr_residuals, p, full_output=1) |
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| 363 | |
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[51f14603] | 364 | # Compute chi^2 |
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| 365 | res = self.pr_residuals(out) |
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| 366 | chisqr = 0 |
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| 367 | for i in range(len(res)): |
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| 368 | chisqr += res[i] |
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[3350ad6] | 369 | |
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[51f14603] | 370 | self.chisqr = chisqr |
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[3350ad6] | 371 | |
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[51f14603] | 372 | # Store computation time |
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| 373 | self.elapsed = time.time() - t_0 |
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| 374 | |
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| 375 | return out, cov_x |
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[3350ad6] | 376 | |
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[51f14603] | 377 | def pr_err(self, c, c_cov, r): |
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| 378 | """ |
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| 379 | Returns the value of P(r) for a given r, and base function |
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| 380 | coefficients, with error. |
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[3350ad6] | 381 | |
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[51f14603] | 382 | :param c: base function coefficients |
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| 383 | :param c_cov: covariance matrice of the base function coefficients |
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| 384 | :param r: r-value to evaluate P(r) at |
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[3350ad6] | 385 | |
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[51f14603] | 386 | :return: P(r) |
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[3350ad6] | 387 | |
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[51f14603] | 388 | """ |
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| 389 | return self.get_pr_err(c, c_cov, r) |
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[3350ad6] | 390 | |
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[51f14603] | 391 | def _accept_q(self, q): |
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| 392 | """ |
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| 393 | Check q-value against user-defined range |
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| 394 | """ |
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| 395 | if not self.q_min == None and q < self.q_min: |
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| 396 | return False |
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| 397 | if not self.q_max == None and q > self.q_max: |
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| 398 | return False |
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| 399 | return True |
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[3350ad6] | 400 | |
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[51f14603] | 401 | def lstsq(self, nfunc=5, nr=20): |
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| 402 | """ |
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| 403 | The problem is solved by posing the problem as Ax = b, |
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| 404 | where x is the set of coefficients we are looking for. |
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[3350ad6] | 405 | |
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[51f14603] | 406 | Npts is the number of points. |
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[3350ad6] | 407 | |
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[51f14603] | 408 | In the following i refers to the ith base function coefficient. |
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| 409 | The matrix has its entries j in its first Npts rows set to :: |
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| 410 | |
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| 411 | A[i][j] = (Fourier transformed base function for point j) |
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[3350ad6] | 412 | |
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[51f14603] | 413 | We them choose a number of r-points, n_r, to evaluate the second |
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| 414 | derivative of P(r) at. This is used as our regularization term. |
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| 415 | For a vector r of length n_r, the following n_r rows are set to :: |
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| 416 | |
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| 417 | A[i+Npts][j] = (2nd derivative of P(r), d**2(P(r))/d(r)**2, |
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| 418 | evaluated at r[j]) |
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[3350ad6] | 419 | |
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[51f14603] | 420 | The vector b has its first Npts entries set to :: |
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| 421 | |
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| 422 | b[j] = (I(q) observed for point j) |
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[3350ad6] | 423 | |
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[51f14603] | 424 | The following n_r entries are set to zero. |
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[3350ad6] | 425 | |
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[51f14603] | 426 | The result is found by using scipy.linalg.basic.lstsq to invert |
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| 427 | the matrix and find the coefficients x. |
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[3350ad6] | 428 | |
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[51f14603] | 429 | :param nfunc: number of base functions to use. |
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| 430 | :param nr: number of r points to evaluate the 2nd derivative at for the reg. term. |
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| 431 | |
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| 432 | If the result does not allow us to compute the covariance matrix, |
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| 433 | a matrix filled with zeros will be returned. |
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| 434 | |
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| 435 | """ |
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| 436 | # Note: To make sure an array is contiguous: |
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| 437 | # blah = numpy.ascontiguousarray(blah_original) |
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| 438 | # ... before passing it to C |
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[3350ad6] | 439 | |
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[51f14603] | 440 | if self.is_valid() < 0: |
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| 441 | msg = "Invertor: invalid data; incompatible data lengths." |
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| 442 | raise RuntimeError, msg |
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[3350ad6] | 443 | |
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[51f14603] | 444 | self.nfunc = nfunc |
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| 445 | # a -- An M x N matrix. |
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| 446 | # b -- An M x nrhs matrix or M vector. |
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| 447 | npts = len(self.x) |
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[3350ad6] | 448 | nq = nr |
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[51f14603] | 449 | sqrt_alpha = math.sqrt(math.fabs(self.alpha)) |
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| 450 | if sqrt_alpha < 0.0: |
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| 451 | nq = 0 |
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| 452 | |
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| 453 | # If we need to fit the background, add a term |
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| 454 | if self.has_bck == True: |
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| 455 | nfunc_0 = nfunc |
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| 456 | nfunc += 1 |
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| 457 | |
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| 458 | a = numpy.zeros([npts + nq, nfunc]) |
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| 459 | b = numpy.zeros(npts + nq) |
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| 460 | err = numpy.zeros([nfunc, nfunc]) |
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[3350ad6] | 461 | |
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[51f14603] | 462 | # Construct the a matrix and b vector that represent the problem |
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| 463 | t_0 = time.time() |
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| 464 | try: |
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| 465 | self._get_matrix(nfunc, nq, a, b) |
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| 466 | except: |
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| 467 | raise RuntimeError, "Invertor: could not invert I(Q)\n %s" % sys.exc_value |
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[3350ad6] | 468 | |
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[51f14603] | 469 | # Perform the inversion (least square fit) |
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| 470 | c, chi2, _, _ = lstsq(a, b) |
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| 471 | # Sanity check |
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| 472 | try: |
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| 473 | float(chi2) |
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| 474 | except: |
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| 475 | chi2 = -1.0 |
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| 476 | self.chi2 = chi2 |
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[3350ad6] | 477 | |
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[51f14603] | 478 | inv_cov = numpy.zeros([nfunc, nfunc]) |
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| 479 | # Get the covariance matrix, defined as inv_cov = a_transposed * a |
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| 480 | self._get_invcov_matrix(nfunc, nr, a, inv_cov) |
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[3350ad6] | 481 | |
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[51f14603] | 482 | # Compute the reg term size for the output |
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| 483 | sum_sig, sum_reg = self._get_reg_size(nfunc, nr, a) |
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[3350ad6] | 484 | |
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[51f14603] | 485 | if math.fabs(self.alpha) > 0: |
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| 486 | new_alpha = sum_sig / (sum_reg / self.alpha) |
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| 487 | else: |
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| 488 | new_alpha = 0.0 |
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| 489 | self.suggested_alpha = new_alpha |
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[3350ad6] | 490 | |
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[51f14603] | 491 | try: |
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| 492 | cov = numpy.linalg.pinv(inv_cov) |
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| 493 | err = math.fabs(chi2 / float(npts - nfunc)) * cov |
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| 494 | except: |
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| 495 | # We were not able to estimate the errors |
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| 496 | # Return an empty error matrix |
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[3350ad6] | 497 | logging.error(sys.exc_value) |
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| 498 | |
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[51f14603] | 499 | # Keep a copy of the last output |
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| 500 | if self.has_bck == False: |
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| 501 | self.background = 0 |
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| 502 | self.out = c |
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| 503 | self.cov = err |
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| 504 | else: |
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| 505 | self.background = c[0] |
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[3350ad6] | 506 | |
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[51f14603] | 507 | err_0 = numpy.zeros([nfunc, nfunc]) |
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| 508 | c_0 = numpy.zeros(nfunc) |
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[3350ad6] | 509 | |
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[51f14603] | 510 | for i in range(nfunc_0): |
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[3350ad6] | 511 | c_0[i] = c[i + 1] |
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[51f14603] | 512 | for j in range(nfunc_0): |
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[3350ad6] | 513 | err_0[i][j] = err[i + 1][j + 1] |
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| 514 | |
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[51f14603] | 515 | self.out = c_0 |
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| 516 | self.cov = err_0 |
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[3350ad6] | 517 | |
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[51f14603] | 518 | # Store computation time |
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| 519 | self.elapsed = time.time() - t_0 |
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[3350ad6] | 520 | |
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[51f14603] | 521 | return self.out, self.cov |
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[3350ad6] | 522 | |
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[51f14603] | 523 | def estimate_numterms(self, isquit_func=None): |
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| 524 | """ |
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| 525 | Returns a reasonable guess for the |
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| 526 | number of terms |
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[3350ad6] | 527 | |
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[51f14603] | 528 | :param isquit_func: |
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| 529 | reference to thread function to call to check whether the computation needs to |
---|
| 530 | be stopped. |
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[3350ad6] | 531 | |
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[51f14603] | 532 | :return: number of terms, alpha, message |
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[3350ad6] | 533 | |
---|
[51f14603] | 534 | """ |
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[5f8fc78] | 535 | from num_term import NTermEstimator |
---|
| 536 | estimator = NTermEstimator(self.clone()) |
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[51f14603] | 537 | try: |
---|
| 538 | return estimator.num_terms(isquit_func) |
---|
| 539 | except: |
---|
| 540 | # If we fail, estimate alpha and return the default |
---|
| 541 | # number of terms |
---|
| 542 | best_alpha, _, _ = self.estimate_alpha(self.nfunc) |
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[3d250da3] | 543 | logging.warning("Invertor.estimate_numterms: %s" % sys.exc_value) |
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[51f14603] | 544 | return self.nfunc, best_alpha, "Could not estimate number of terms" |
---|
[3350ad6] | 545 | |
---|
[51f14603] | 546 | def estimate_alpha(self, nfunc): |
---|
| 547 | """ |
---|
| 548 | Returns a reasonable guess for the |
---|
| 549 | regularization constant alpha |
---|
[3350ad6] | 550 | |
---|
[51f14603] | 551 | :param nfunc: number of terms to use in the expansion. |
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[3350ad6] | 552 | |
---|
[51f14603] | 553 | :return: alpha, message, elapsed |
---|
[3350ad6] | 554 | |
---|
[51f14603] | 555 | where alpha is the estimate for alpha, |
---|
| 556 | message is a message for the user, |
---|
| 557 | elapsed is the computation time |
---|
| 558 | """ |
---|
| 559 | #import time |
---|
| 560 | try: |
---|
| 561 | pr = self.clone() |
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[3350ad6] | 562 | |
---|
[51f14603] | 563 | # T_0 for computation time |
---|
| 564 | starttime = time.time() |
---|
| 565 | elapsed = 0 |
---|
[3350ad6] | 566 | |
---|
[51f14603] | 567 | # If the current alpha is zero, try |
---|
| 568 | # another value |
---|
| 569 | if pr.alpha <= 0: |
---|
| 570 | pr.alpha = 0.0001 |
---|
[3350ad6] | 571 | |
---|
[51f14603] | 572 | # Perform inversion to find the largest alpha |
---|
| 573 | out, _ = pr.invert(nfunc) |
---|
| 574 | elapsed = time.time() - starttime |
---|
| 575 | initial_alpha = pr.alpha |
---|
| 576 | initial_peaks = pr.get_peaks(out) |
---|
[3350ad6] | 577 | |
---|
[51f14603] | 578 | # Try the inversion with the estimated alpha |
---|
| 579 | pr.alpha = pr.suggested_alpha |
---|
| 580 | out, _ = pr.invert(nfunc) |
---|
[3350ad6] | 581 | |
---|
[51f14603] | 582 | npeaks = pr.get_peaks(out) |
---|
| 583 | # if more than one peak to start with |
---|
| 584 | # just return the estimate |
---|
| 585 | if npeaks > 1: |
---|
| 586 | #message = "Your P(r) is not smooth, |
---|
| 587 | #please check your inversion parameters" |
---|
| 588 | message = None |
---|
| 589 | return pr.suggested_alpha, message, elapsed |
---|
| 590 | else: |
---|
[3350ad6] | 591 | |
---|
[51f14603] | 592 | # Look at smaller values |
---|
| 593 | # We assume that for the suggested alpha, we have 1 peak |
---|
| 594 | # if not, send a message to change parameters |
---|
| 595 | alpha = pr.suggested_alpha |
---|
| 596 | best_alpha = pr.suggested_alpha |
---|
| 597 | found = False |
---|
| 598 | for i in range(10): |
---|
[3350ad6] | 599 | pr.alpha = (0.33) ** (i + 1) * alpha |
---|
[51f14603] | 600 | out, _ = pr.invert(nfunc) |
---|
[3350ad6] | 601 | |
---|
[51f14603] | 602 | peaks = pr.get_peaks(out) |
---|
| 603 | if peaks > 1: |
---|
| 604 | found = True |
---|
| 605 | break |
---|
| 606 | best_alpha = pr.alpha |
---|
[3350ad6] | 607 | |
---|
[51f14603] | 608 | # If we didn't find a turning point for alpha and |
---|
| 609 | # the initial alpha already had only one peak, |
---|
| 610 | # just return that |
---|
| 611 | if not found and initial_peaks == 1 and \ |
---|
| 612 | initial_alpha < best_alpha: |
---|
| 613 | best_alpha = initial_alpha |
---|
[3350ad6] | 614 | |
---|
[51f14603] | 615 | # Check whether the size makes sense |
---|
| 616 | message = '' |
---|
[3350ad6] | 617 | |
---|
[51f14603] | 618 | if not found: |
---|
| 619 | message = None |
---|
| 620 | elif best_alpha >= 0.5 * pr.suggested_alpha: |
---|
| 621 | # best alpha is too big, return a |
---|
| 622 | # reasonable value |
---|
[3350ad6] | 623 | message = "The estimated alpha for your system is too " |
---|
[51f14603] | 624 | message += "large. " |
---|
| 625 | message += "Try increasing your maximum distance." |
---|
[3350ad6] | 626 | |
---|
[51f14603] | 627 | return best_alpha, message, elapsed |
---|
[3350ad6] | 628 | |
---|
[51f14603] | 629 | except: |
---|
| 630 | message = "Invertor.estimate_alpha: %s" % sys.exc_value |
---|
| 631 | return 0, message, elapsed |
---|
[3350ad6] | 632 | |
---|
[51f14603] | 633 | def to_file(self, path, npts=100): |
---|
| 634 | """ |
---|
| 635 | Save the state to a file that will be readable |
---|
| 636 | by SliceView. |
---|
[3350ad6] | 637 | |
---|
[51f14603] | 638 | :param path: path of the file to write |
---|
| 639 | :param npts: number of P(r) points to be written |
---|
[3350ad6] | 640 | |
---|
[51f14603] | 641 | """ |
---|
| 642 | file = open(path, 'w') |
---|
| 643 | file.write("#d_max=%g\n" % self.d_max) |
---|
| 644 | file.write("#nfunc=%g\n" % self.nfunc) |
---|
| 645 | file.write("#alpha=%g\n" % self.alpha) |
---|
| 646 | file.write("#chi2=%g\n" % self.chi2) |
---|
| 647 | file.write("#elapsed=%g\n" % self.elapsed) |
---|
| 648 | file.write("#qmin=%s\n" % str(self.q_min)) |
---|
| 649 | file.write("#qmax=%s\n" % str(self.q_max)) |
---|
| 650 | file.write("#slit_height=%g\n" % self.slit_height) |
---|
| 651 | file.write("#slit_width=%g\n" % self.slit_width) |
---|
| 652 | file.write("#background=%g\n" % self.background) |
---|
| 653 | if self.has_bck == True: |
---|
| 654 | file.write("#has_bck=1\n") |
---|
| 655 | else: |
---|
| 656 | file.write("#has_bck=0\n") |
---|
| 657 | file.write("#alpha_estimate=%g\n" % self.suggested_alpha) |
---|
| 658 | if not self.out == None: |
---|
| 659 | if len(self.out) == len(self.cov): |
---|
| 660 | for i in range(len(self.out)): |
---|
| 661 | file.write("#C_%i=%s+-%s\n" % (i, str(self.out[i]), |
---|
[3350ad6] | 662 | str(self.cov[i][i]))) |
---|
[51f14603] | 663 | file.write("<r> <Pr> <dPr>\n") |
---|
[3350ad6] | 664 | r = numpy.arange(0.0, self.d_max, self.d_max / npts) |
---|
| 665 | |
---|
[51f14603] | 666 | for r_i in r: |
---|
| 667 | (value, err) = self.pr_err(self.out, self.cov, r_i) |
---|
| 668 | file.write("%g %g %g\n" % (r_i, value, err)) |
---|
[3350ad6] | 669 | |
---|
[51f14603] | 670 | file.close() |
---|
[3350ad6] | 671 | |
---|
[51f14603] | 672 | def from_file(self, path): |
---|
| 673 | """ |
---|
| 674 | Load the state of the Invertor from a file, |
---|
| 675 | to be able to generate P(r) from a set of |
---|
| 676 | parameters. |
---|
[3350ad6] | 677 | |
---|
[51f14603] | 678 | :param path: path of the file to load |
---|
[3350ad6] | 679 | |
---|
[51f14603] | 680 | """ |
---|
| 681 | #import os |
---|
| 682 | #import re |
---|
| 683 | if os.path.isfile(path): |
---|
| 684 | try: |
---|
| 685 | fd = open(path, 'r') |
---|
[3350ad6] | 686 | |
---|
[51f14603] | 687 | buff = fd.read() |
---|
| 688 | lines = buff.split('\n') |
---|
| 689 | for line in lines: |
---|
| 690 | if line.startswith('#d_max='): |
---|
| 691 | toks = line.split('=') |
---|
| 692 | self.d_max = float(toks[1]) |
---|
| 693 | elif line.startswith('#nfunc='): |
---|
| 694 | toks = line.split('=') |
---|
| 695 | self.nfunc = int(toks[1]) |
---|
| 696 | self.out = numpy.zeros(self.nfunc) |
---|
| 697 | self.cov = numpy.zeros([self.nfunc, self.nfunc]) |
---|
| 698 | elif line.startswith('#alpha='): |
---|
| 699 | toks = line.split('=') |
---|
| 700 | self.alpha = float(toks[1]) |
---|
| 701 | elif line.startswith('#chi2='): |
---|
| 702 | toks = line.split('=') |
---|
| 703 | self.chi2 = float(toks[1]) |
---|
| 704 | elif line.startswith('#elapsed='): |
---|
| 705 | toks = line.split('=') |
---|
| 706 | self.elapsed = float(toks[1]) |
---|
| 707 | elif line.startswith('#alpha_estimate='): |
---|
| 708 | toks = line.split('=') |
---|
| 709 | self.suggested_alpha = float(toks[1]) |
---|
| 710 | elif line.startswith('#qmin='): |
---|
| 711 | toks = line.split('=') |
---|
| 712 | try: |
---|
| 713 | self.q_min = float(toks[1]) |
---|
| 714 | except: |
---|
| 715 | self.q_min = None |
---|
| 716 | elif line.startswith('#qmax='): |
---|
| 717 | toks = line.split('=') |
---|
| 718 | try: |
---|
| 719 | self.q_max = float(toks[1]) |
---|
| 720 | except: |
---|
| 721 | self.q_max = None |
---|
| 722 | elif line.startswith('#slit_height='): |
---|
| 723 | toks = line.split('=') |
---|
| 724 | self.slit_height = float(toks[1]) |
---|
| 725 | elif line.startswith('#slit_width='): |
---|
| 726 | toks = line.split('=') |
---|
| 727 | self.slit_width = float(toks[1]) |
---|
| 728 | elif line.startswith('#background='): |
---|
| 729 | toks = line.split('=') |
---|
| 730 | self.background = float(toks[1]) |
---|
| 731 | elif line.startswith('#has_bck='): |
---|
| 732 | toks = line.split('=') |
---|
| 733 | if int(toks[1]) == 1: |
---|
| 734 | self.has_bck = True |
---|
| 735 | else: |
---|
| 736 | self.has_bck = False |
---|
[3350ad6] | 737 | |
---|
[51f14603] | 738 | # Now read in the parameters |
---|
| 739 | elif line.startswith('#C_'): |
---|
| 740 | toks = line.split('=') |
---|
| 741 | p = re.compile('#C_([0-9]+)') |
---|
| 742 | m = p.search(toks[0]) |
---|
| 743 | toks2 = toks[1].split('+-') |
---|
| 744 | i = int(m.group(1)) |
---|
| 745 | self.out[i] = float(toks2[0]) |
---|
[3350ad6] | 746 | |
---|
[51f14603] | 747 | self.cov[i][i] = float(toks2[1]) |
---|
[3350ad6] | 748 | |
---|
[51f14603] | 749 | except: |
---|
| 750 | msg = "Invertor.from_file: corrupted file\n%s" % sys.exc_value |
---|
| 751 | raise RuntimeError, msg |
---|
| 752 | else: |
---|
| 753 | msg = "Invertor.from_file: '%s' is not a file" % str(path) |
---|
| 754 | raise RuntimeError, msg |
---|