import os,os.path, re import sys, wx, logging import string, numpy, pylab, math from copy import deepcopy from sans.guitools.plottables import Data1D, Theory1D from sans.guitools.PlotPanel import PlotPanel from sans.guicomm.events import NewPlotEvent, StatusEvent from sans.fit.AbstractFitEngine import Model,Data from fitproblem import FitProblem from fitpanel import FitPanel import models import fitpage class PlottableData(Data,Data1D): """ class plottable data: class allowing to plot Data type on panel""" def __init__(self,data,data1d): self.x = data1d.x self.y = data1d.y self.dx = data1d.dx self.dy = data1d.dy self.group_id = data1d.group_id x_name, x_units = data1d.get_xaxis() y_name, y_units = data1d.get_yaxis() self.xaxis( x_name, x_units) self.yaxis( y_name, y_units ) self.qmin = data.qmin self.qmax = data.qmax class Plugin: """ """ def __init__(self): ## Plug-in name self.sub_menu = "Fitting" ## Reference to the parent window self.parent = None self.menu_mng = models.ModelManager() ## List of panels for the simulation perspective (names) self.perspective = [] # Start with a good default self.elapsed = 0.022 self.fitter = None #Flag to let the plug-in know that it is running standalone self.standalone=True ## Fit engine self._fit_engine = 'scipy' # Log startup logging.info("Fitting plug-in started") def populate_menu(self, id, owner): """ Create a menu for the Fitting plug-in @param id: id to create a menu @param owner: owner of menu @ return : list of information to populate the main menu """ #Menu for fitting self.menu1 = wx.Menu() id1 = wx.NewId() self.menu1.Append(id1, '&Show fit panel') wx.EVT_MENU(owner, id1, self.on_perspective) id3 = wx.NewId() self.menu1.Append(id3,'&scipy \ park','toggle engine to park or scipy') wx.EVT_MENU(owner, id3, self._onset_engine) #menu for model menu2 = wx.Menu() self.menu_mng.populate_menu(menu2, owner) id2 = wx.NewId() owner.Bind(models.EVT_MODEL,self._on_model_menu) self.fit_panel.set_owner(owner) self.fit_panel.set_model_list(self.menu_mng.get_model_list()) owner.Bind(fitpage.EVT_MODEL_BOX,self._on_model_panel) #create menubar items return [(id, self.menu1, "Fitting"),(id2, menu2, "Model")] def help(self, evt): """ Show a general help dialog. TODO: replace the text with a nice image """ pass def get_context_menu(self, graph=None): """ Get the context menu items available for P(r) @param graph: the Graph object to which we attach the context menu @return: a list of menu items with call-back function """ self.graph=graph for item in graph.plottables: if item.name==graph.selected_plottable and item.__class__.__name__ is not "Theory1D": return [["Select Data", "Dialog with fitting parameters ", self._onSelect]] return [] def get_panels(self, parent): """ Create and return a list of panel objects """ self.parent = parent # Creation of the fit panel self.fit_panel = FitPanel(self.parent, -1) #Set the manager forthe main panel self.fit_panel.set_manager(self) # List of windows used for the perspective self.perspective = [] self.perspective.append(self.fit_panel.window_name) # take care of saving data, model and page associated with each other self.page_finder = {} #index number to create random model name self.index_model = 0 #create the fitting panel return [self.fit_panel] def get_perspective(self): """ Get the list of panel names for this perspective """ return self.perspective def on_perspective(self, event): """ Call back function for the perspective menu item. We notify the parent window that the perspective has changed. """ self.parent.set_perspective(self.perspective) def post_init(self): """ Post initialization call back to close the loose ends [Somehow openGL needs this call] """ self.parent.set_perspective(self.perspective) def _onSelect(self,event): """ when Select data to fit a new page is created .Its reference is added to self.page_finder """ self.panel = event.GetEventObject() for item in self.panel.graph.plottables: if item.name == self.panel.graph.selected_plottable: #find a name for the page created for notebook try: name = item.group_id # item in Data1D except: name = 'Fit' try: page = self.fit_panel.add_fit_page(name) # add data associated to the page created page.set_data_name(item) #create a fitproblem storing all link to data,model,page creation self.page_finder[page]= FitProblem() data_for_park= Data(sans_data=item) datap=PlottableData(data=data_for_park,data1d=item) self.page_finder[page].add_data(datap) except: raise wx.PostEvent(self.parent, StatusEvent(status="Fitting error: \ data already Selected ")) def get_page_finder(self): """ @return self.page_finder used also by simfitpage.py""" return self.page_finder def set_page_finder(self,modelname,names,values): """ Used by simfitpage.py to reset a parameter given the string constrainst. @param modelname: the name ot the model for with the parameter has to reset @param value: can be a string in this case. @param names: the paramter name @note: expecting park used for fit. """ sim_page=self.fit_panel.get_page(0) for page, value in self.page_finder.iteritems(): if page != sim_page: list=value.get_model() model=list[0] if model.name== modelname: value.set_model_param(names,values) break def split_string(self,item): """ receive a word containing dot and split it. used to split parameterset name into model name and parameter name example: paramaterset (item) = M1.A @return model_name =M1 , parameter name =A """ if string.find(item,".")!=-1: param_names= re.split("\.",item) model_name=param_names[0] param_name=param_names[1] return model_name,param_name def _single_fit_completed(self,result,pars,current_pg,qmin,qmax): """ Display fit result on one page of the notebook. @param result: result of fit @param pars: list of names of parameters fitted @param current_pg: the page where information will be displayed @param qmin: the minimum value of x to replot the model @param qmax: the maximum value of x to replot model """ try: for page, value in self.page_finder.iteritems(): if page== current_pg: data = value.get_data() list = value.get_model() model= list[0] break i = 0 for name in pars: if result.pvec.__class__==numpy.float64: model.setParam(name,result.pvec) else: model.setParam(name,result.pvec[i]) i += 1 current_pg.onsetValues(result.fitness, result.pvec,result.stderr) self.plot_helper(currpage=current_pg,qmin=qmin,qmax=qmax) except: wx.PostEvent(self.parent, StatusEvent(status="Fitting error: %s" % sys.exc_value)) def _simul_fit_completed(self,result,qmin,qmax): """ Parameter estimation completed, display the results to the user @param alpha: estimated best alpha @param elapsed: computation time """ try: for page, value in self.page_finder.iteritems(): print "fitting : simultaneous scheduled ",value.get_scheduled() if value.get_scheduled()=='True': data = value.get_data() list = value.get_model() model= list[0] small_out = [] small_cov = [] i = 0 #Separate result in to data corresponding to each page for p in result.parameters: model_name,param_name = self.split_string(p.name) if model.name == model_name: small_out.append(p.value ) small_cov.append(p.stderr) model.setParam(param_name,p.value) # Display result on each page page.onsetValues(result.fitness, small_out,small_cov) #Replot model self.plot_helper(currpage= page,qmin= qmin,qmax= qmax) except: wx.PostEvent(self.parent, StatusEvent(status="Fitting error: %s" % sys.exc_value)) def _on_single_fit(self,id=None,qmin=None,qmax=None): """ perform fit for the current page and return chisqr,out and cov @param engineName: type of fit to be performed @param id: unique id corresponding to a fit problem(model, set of data) @param model: model to fit """ #set an engine to perform fit from sans.fit.Fitting import Fit self.fitter= Fit(self._fit_engine) #Setting an id to store model and data in fit engine if id==None: id=0 self.id = id #Get information (model , data) related to the page on #with the fit will be perform current_pg=self.fit_panel.get_current_page() for page, value in self.page_finder.iteritems(): if page ==current_pg : data = value.get_data() list=value.get_model() model=list[0] #Create list of parameters for fitting used pars=[] templist=[] try: templist=current_pg.get_param_list() except: raise wx.PostEvent(self.parent, StatusEvent(status="Fitting error: %s" % sys.exc_value)) return for element in templist: try: pars.append(str(element[0].GetLabelText())) except: wx.PostEvent(self.parent, StatusEvent(status="Fitting error: %s" % sys.exc_value)) return # make sure to keep an alphabetic order #of parameter names in the list pars.sort() #Do the single fit try: self.fitter.set_model(Model(model), self.id, pars) self.fitter.set_data(data,self.id,qmin,qmax) result=self.fitter.fit() self._single_fit_completed(result,pars,current_pg,qmin,qmax) except: wx.PostEvent(self.parent, StatusEvent(status="Single Fit error: %s" % sys.exc_value)) return def _on_simul_fit(self, id=None,qmin=None,qmax=None): """ perform fit for all the pages selected on simpage and return chisqr,out and cov @param engineName: type of fit to be performed @param id: unique id corresponding to a fit problem(model, set of data) in park_integration @param model: model to fit """ #set an engine to perform fit from sans.fit.Fitting import Fit self.fitter= Fit(self._fit_engine) #Setting an id to store model and data if id==None: id = 0 self.id = id for page, value in self.page_finder.iteritems(): try: print "fitting : simultaneous scheduled ",value.get_scheduled(),value.schedule if value.get_scheduled()=='True': print "fitting: self.page_finder",value.get_scheduled() data = value.get_data() #print "fitting: data",data list = value.get_model() model= list[0] #Create dictionary of parameters for fitting used pars = [] templist = [] templist = page.get_param_list() for element in templist: try: name = str(element[0].GetLabelText()) pars.append(name) except: wx.PostEvent(self.parent, StatusEvent(status="Fitting error: %s" % sys.exc_value)) return self.fitter.set_model(Model(model), self.id, pars) self.fitter.set_data(data,self.id,qmin,qmax) self.id += 1 except: wx.PostEvent(self.parent, StatusEvent(status="Fitting error: %s" % sys.exc_value)) return #Do the simultaneous fit try: result=self.fitter.fit() self._simul_fit_completed(result,qmin,qmax) except: wx.PostEvent(self.parent, StatusEvent(status="Simultaneous Fitting error: %s" % sys.exc_value)) return def _onset_engine(self,event): """ set engine to scipy""" if self._fit_engine== 'park': self._on_change_engine('scipy') else: self._on_change_engine('park') wx.PostEvent(self.parent, StatusEvent(status="Engine set to: %s" % self._fit_engine)) def _on_change_engine(self, engine='park'): """ Allow to select the type of engine to perform fit @param engine: the key work of the engine """ self._fit_engine = engine def _on_model_panel(self, evt): """ react to model selection on any combo box or model menu.plot the model """ model = evt.model name = evt.name sim_page=self.fit_panel.get_page(0) current_pg = self.fit_panel.get_current_page() if current_pg != sim_page: current_pg.set_model_name(name) current_pg.set_panel(model) try: data=self.page_finder[current_pg].get_data() M_name="M"+str(self.index_model)+"= "+name+"("+data.group_id+")" except: raise M_name="M"+str(self.index_model)+"= "+name model.name="M"+str(self.index_model) self.index_model += 1 self.page_finder[current_pg].set_theory("Fitness") #print "on model",model.name self.page_finder[current_pg].set_model(model,M_name) self.plot_helper(currpage= current_pg,qmin= None,qmax= None) sim_page.add_model(self.page_finder) def redraw_model(self,qmin= None,qmax= None): """ Draw a theory according to model changes or data range. @param qmin: the minimum value plotted for theory @param qmax: the maximum value plotted for theory """ current_pg=self.fit_panel.get_current_page() for page, value in self.page_finder.iteritems(): if page ==current_pg : break self.plot_helper(currpage=page,qmin= qmin,qmax= qmax) def plot_helper(self,currpage,qmin=None,qmax=None): """ Plot a theory given a model and data @param model: the model from where the theory is derived @param currpage: page in a dictionary referring to some data """ if self.fit_panel.get_page_count() >1: for page in self.page_finder.iterkeys(): if page==currpage : break data=self.page_finder[page].get_data() list=self.page_finder[page].get_model() model=list[0] if data!=None: theory = Theory1D(x=[], y=[]) theory.name = self.page_finder[page].get_theory() theory.group_id = data.group_id x_name, x_units = data.get_xaxis() y_name, y_units = data.get_yaxis() theory.xaxis(x_name, x_units) theory.yaxis(y_name, y_units) if qmin == None : qmin = min(data.x) if qmax == None : qmax = max(data.x) try: tempx = qmin tempy = model.run(qmin) theory.x.append(tempx) theory.y.append(tempy) except : wx.PostEvent(self.parent, StatusEvent(status="fitting \ skipping point x %g %s" %(qmin, sys.exc_value))) for i in range(len(data.x)): try: if data.x[i]> qmin and data.x[i]< qmax: tempx = data.x[i] tempy = model.run(tempx) theory.x.append(tempx) theory.y.append(tempy) except: wx.PostEvent(self.parent, StatusEvent(status="fitting \ skipping point x %g %s" %(data.x[i], sys.exc_value))) try: tempx = qmax tempy = model.run(qmax) theory.x.append(tempx) theory.y.append(tempy) except: wx.PostEvent(self.parent, StatusEvent(status="fitting \ skipping point x %g %s" %(qmax, sys.exc_value))) try: from sans.guicomm.events import NewPlotEvent wx.PostEvent(self.parent, NewPlotEvent(plot=theory, title="Analytical model")) except: raise print "SimView.complete1D: could not import sans.guicomm.events" def _on_model_menu(self, evt): """ Plot a theory from a model selected from the menu """ name="Model View" model=evt.modelinfo.model() description=evt.modelinfo.description self.fit_panel.add_model_page(model,description,name) self.draw_model(model) def draw_model(self,model): """ draw model with default data value """ x = pylab.arange(0.001, 0.1, 0.001) xlen = len(x) dy = numpy.zeros(xlen) y = numpy.zeros(xlen) for i in range(xlen): y[i] = model.run(x[i]) dy[i] = math.sqrt(math.fabs(y[i])) try: new_plot = Theory1D(x, y) new_plot.name ="Fitness" new_plot.xaxis("\\rm{Q}", 'A^{-1}') new_plot.yaxis("\\rm{Intensity} ","cm^{-1}") wx.PostEvent(self.parent, NewPlotEvent(plot=new_plot, title="Analytical model")) except: print "SimView.complete1D: could not import sans.guicomm.events" if __name__ == "__main__": i = Plugin()