source: sasview/park_integration/ScipyFitting.py @ 4753fc2

ESS_GUIESS_GUI_DocsESS_GUI_batch_fittingESS_GUI_bumps_abstractionESS_GUI_iss1116ESS_GUI_iss879ESS_GUI_iss959ESS_GUI_openclESS_GUI_orderingESS_GUI_sync_sascalccostrafo411magnetic_scattrelease-4.1.1release-4.1.2release-4.2.2release_4.0.1ticket-1009ticket-1094-headlessticket-1242-2d-resolutionticket-1243ticket-1249ticket885unittest-saveload
Last change on this file since 4753fc2 was d603001, checked in by Jae Cho <jhjcho@…>, 14 years ago

Added iteration # in str on Scipy_fitting

  • Property mode set to 100644
File size: 5.7 KB
Line 
1
2
3"""
4ScipyFitting module contains FitArrange , ScipyFit,
5Parameter classes.All listed classes work together to perform a
6simple fit with scipy optimizer.
7"""
8
9import numpy 
10from scipy import optimize
11
12from sans.fit.AbstractFitEngine import FitEngine
13from sans.fit.AbstractFitEngine import SansAssembly
14#from sans.fit.AbstractFitEngine import FitAbort
15
16class fitresult(object):
17    """
18    Storing fit result
19    """
20    def __init__(self, model=None, param_list=None):
21        self.calls = None
22        self.fitness = None
23        self.chisqr = None
24        self.pvec = None
25        self.cov = None
26        self.info = None
27        self.mesg = None
28        self.success = None
29        self.stderr = None
30        self.parameters = None
31        self.model = model
32        self.param_list = param_list
33        self.iterations = 0
34     
35    def set_model(self, model):
36        """
37        """
38        self.model = model
39       
40    def set_fitness(self, fitness):
41        """
42        """
43        self.fitness = fitness
44       
45    def __str__(self):
46        """
47        """
48        if self.pvec == None and self.model is None and self.param_list is None:
49            return "No results"
50        n = len(self.model.parameterset)
51        self.iterations += 1
52        result_param = zip(xrange(n), self.model.parameterset)
53        msg = [" [Iteration #: %s] | P%-3d  %s......|.....%s" % \
54               (self.iterations, p[0], p[1], p[1].value)\
55              for p in result_param if p[1].name in self.param_list]
56        msg.append("=== goodness of fit: %s" % (str(self.fitness)))
57        return "\n".join(msg)
58   
59    def print_summary(self):
60        """
61        """
62        print self   
63
64class ScipyFit(FitEngine):
65    """
66    ScipyFit performs the Fit.This class can be used as follow:
67    #Do the fit SCIPY
68    create an engine: engine = ScipyFit()
69    Use data must be of type plottable
70    Use a sans model
71   
72    Add data with a dictionnary of FitArrangeDict where Uid is a key and data
73    is saved in FitArrange object.
74    engine.set_data(data,Uid)
75   
76    Set model parameter "M1"= model.name add {model.parameter.name:value}.
77   
78    :note: Set_param() if used must always preceded set_model()
79         for the fit to be performed.In case of Scipyfit set_param is called in
80         fit () automatically.
81   
82    engine.set_param( model,"M1", {'A':2,'B':4})
83   
84    Add model with a dictionnary of FitArrangeDict{} where Uid is a key and model
85    is save in FitArrange object.
86    engine.set_model(model,Uid)
87   
88    engine.fit return chisqr,[model.parameter 1,2,..],[[err1....][..err2...]]
89    chisqr1, out1, cov1=engine.fit({model.parameter.name:value},qmin,qmax)
90    """
91    def __init__(self):
92        """
93        Creates a dictionary (self.fit_arrange_dict={})of FitArrange elements
94        with Uid as keys
95        """
96        FitEngine.__init__(self)
97        self.fit_arrange_dict = {}
98        self.param_list = []
99        self.curr_thread = None
100    #def fit(self, *args, **kw):
101    #    return profile(self._fit, *args, **kw)
102
103    def fit(self, q=None, handler=None, curr_thread=None):
104        """
105        """
106        fitproblem = []
107        for fproblem in self.fit_arrange_dict.itervalues():
108            if fproblem.get_to_fit() == 1:
109                fitproblem.append(fproblem)
110        if len(fitproblem) > 1 : 
111            msg = "Scipy can't fit more than a single fit problem at a time."
112            raise RuntimeError, msg
113            return
114        elif len(fitproblem) == 0 : 
115            raise RuntimeError, "No Assembly scheduled for Scipy fitting."
116            return
117   
118        listdata = []
119        model = fitproblem[0].get_model()
120        listdata = fitproblem[0].get_data()
121        # Concatenate dList set (contains one or more data)before fitting
122        data = listdata
123        self.curr_thread = curr_thread
124        result = fitresult(model=model, param_list=self.param_list)
125        if handler is not None:
126            handler.set_result(result=result)
127        #try:
128        functor = SansAssembly(self.param_list, model, data, handler=handler,
129                         fitresult=result, curr_thread= self.curr_thread)
130        out, cov_x, _, _, success = optimize.leastsq(functor,
131                                            model.get_params(self.param_list),
132                                                    full_output=1,
133                                                    warning=True)
134       
135        #chisqr = functor.chisq(out)
136        chisqr = functor.chisq()
137        if cov_x is not None and numpy.isfinite(cov_x).all():
138            stderr = numpy.sqrt(numpy.diag(cov_x))
139        else:
140            stderr = None
141        if not (numpy.isnan(out).any()) or (cov_x != None):
142            result.fitness = chisqr
143            result.stderr  = stderr
144            result.pvec = out
145            result.success = success
146            #print result
147            if q is not None:
148                #print "went here"
149                q.put(result)
150                #print "get q scipy fit enfine",q.get()
151                return q
152            return result
153        else: 
154            raise ValueError, "SVD did not converge" + str(success)
155   
156
157
158#def profile(fn, *args, **kw):
159#    import cProfile, pstats, os
160#    global call_result
161#   def call():
162#        global call_result
163#        call_result = fn(*args, **kw)
164#    cProfile.runctx('call()', dict(call=call), {}, 'profile.out')
165#    stats = pstats.Stats('profile.out')
166#    stats.sort_stats('time')
167#    stats.sort_stats('calls')
168#    stats.print_stats()
169#    os.unlink('profile.out')
170#    return call_result
171
172     
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