fitting.py @ d0eac66

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 d0eac66 was d0eac66, checked in by Jae Cho <jhjcho@…>, 15 years ago
Fixed generating an error when calling 'select data for fitting' twice.
Property mode set to `100644`
File size: 35.6 KB

Rev	Line
[d89f09b]	1	import os,os.path, re
	2	import sys, wx, logging
[0550752]	3	import string, numpy, math
[d89f09b]	4
[3b19ac9]	5	from copy import deepcopy
[dc317d1]	6	from danse.common.plottools.plottables import Data1D, Theory1D,Data2D
[6f73a08]	7	from danse.common.plottools.PlotPanel import PlotPanel
[d89f09b]	8	from sans.guicomm.events import NewPlotEvent, StatusEvent
[32d802f]	9	from sans.guicomm.events import EVT_SLICER_PANEL,EVT_MODEL2D_PANEL
[568e1a5]	10
[6f73a08]	11	from sans.fit.AbstractFitEngine import Model,Data,FitData1D,FitData2D
[d89f09b]	12	from fitproblem import FitProblem
	13	from fitpanel import FitPanel
[e9b4cc4]	14	from fit_thread import FitThread
[2dbb681]	15	import models,modelpage
[e1a310f]	16	import fitpage1D,fitpage2D
[dabb633]	17	import park
[d250f7d]	18	DEFAULT_BEAM = 0.005
[cfc68540]	19	DEFAULT_QMIN = 0.0
[fd25fb0]	20	DEFAULT_QMAX = 0.1
[cfc68540]	21	DEFAULT_NPTS = 40
[e9b4cc4]	22	import time
	23	import thread
	24	print "main",thread.get_ident()
	25
[d89f09b]	26	class Plugin:
	27	"""
[dabb633]	28	Fitting plugin is used to perform fit
[d89f09b]	29	"""
	30	def __init__(self):
	31	## Plug-in name
	32	self.sub_menu = "Fitting"
	33
	34	## Reference to the parent window
	35	self.parent = None
	36	self.menu_mng = models.ModelManager()
	37	## List of panels for the simulation perspective (names)
	38	self.perspective = []
[568e1a5]	39	self.mypanels=[]
[e9b4cc4]	40	self.calc_thread = None
	41	self.done = False
[d89f09b]	42	# Start with a good default
	43	self.elapsed = 0.022
	44	self.fitter = None
	45
	46	#Flag to let the plug-in know that it is running standalone
	47	self.standalone=True
	48	## Fit engine
[3b19ac9]	49	self._fit_engine = 'scipy'
[b2c3225]	50	self.enable_model2D=False
[d89f09b]	51	# Log startup
	52	logging.info("Fitting plug-in started")
[32d802f]	53	# model 2D view
	54	self.model2D_id=None
[d89f09b]	55
	56	def populate_menu(self, id, owner):
	57	"""
	58	Create a menu for the Fitting plug-in
	59	@param id: id to create a menu
	60	@param owner: owner of menu
	61	@ return : list of information to populate the main menu
	62	"""
[32d802f]	63	self.parent.Bind(EVT_MODEL2D_PANEL, self._on_model2D_show)
[d89f09b]	64	#Menu for fitting
	65	self.menu1 = wx.Menu()
	66	id1 = wx.NewId()
	67	self.menu1.Append(id1, '&Show fit panel')
	68	wx.EVT_MENU(owner, id1, self.on_perspective)
[3b19ac9]	69	id3 = wx.NewId()
[442895f]	70	self.menu1.AppendCheckItem(id3, "park")
[e5af88b]	71
[3b19ac9]	72	wx.EVT_MENU(owner, id3, self._onset_engine)
[d89f09b]	73
	74	#menu for model
	75	menu2 = wx.Menu()
[f39511b]	76
[d89f09b]	77	self.menu_mng.populate_menu(menu2, owner)
	78	id2 = wx.NewId()
	79	owner.Bind(models.EVT_MODEL,self._on_model_menu)
[2dbb681]	80	#owner.Bind(modelpage.EVT_MODEL,self._on_model_menu)
[d89f09b]	81	self.fit_panel.set_owner(owner)
	82	self.fit_panel.set_model_list(self.menu_mng.get_model_list())
[bcd6d51]	83	owner.Bind(fitpage1D.EVT_MODEL_BOX,self._on_model_panel)
[e1a310f]	84	owner.Bind(fitpage2D.EVT_MODEL_BOX,self._on_model_panel)
[3b19ac9]	85	#create menubar items
[d89f09b]	86	return [(id, self.menu1, "Fitting"),(id2, menu2, "Model")]
	87
	88
	89	def help(self, evt):
	90	"""
	91	Show a general help dialog.
	92	TODO: replace the text with a nice image
	93	"""
[d7d143b0]	94	from helpDialog import HelpWindow
	95	dialog = HelpWindow(None, -1, 'HelpWindow')
	96	if dialog.ShowModal() == wx.ID_OK:
	97	pass
	98	dialog.Destroy()
	99
[d89f09b]	100
	101	def get_context_menu(self, graph=None):
	102	"""
	103	Get the context menu items available for P(r)
	104	@param graph: the Graph object to which we attach the context menu
	105	@return: a list of menu items with call-back function
	106	"""
	107	self.graph=graph
	108	for item in graph.plottables:
[693ab78]	109	if item.__class__.__name__ is "Data2D":
[2dbb681]	110	return [["Select data for Fitting",\
	111	"Dialog with fitting parameters ", self._onSelect]]
[6f73a08]	112	else:
[693ab78]	113	if item.name==graph.selected_plottable and\
	114	item.__class__.__name__ is "Data1D":
[2dbb681]	115	return [["Select data for Fitting", \
	116	"Dialog with fitting parameters ", self._onSelect]]
[d89f09b]	117	return []
	118
	119
	120	def get_panels(self, parent):
	121	"""
	122	Create and return a list of panel objects
	123	"""
	124	self.parent = parent
	125	# Creation of the fit panel
	126	self.fit_panel = FitPanel(self.parent, -1)
	127	#Set the manager forthe main panel
	128	self.fit_panel.set_manager(self)
	129	# List of windows used for the perspective
	130	self.perspective = []
	131	self.perspective.append(self.fit_panel.window_name)
	132	# take care of saving data, model and page associated with each other
[3b19ac9]	133	self.page_finder = {}
	134	#index number to create random model name
	135	self.index_model = 0
[32673ac]	136	self.parent.Bind(EVT_SLICER_PANEL, self._on_slicer_event)
[888e62c]	137
[32d802f]	138
[3b19ac9]	139	#create the fitting panel
[568e1a5]	140	#return [self.fit_panel]
[32673ac]	141
[568e1a5]	142	self.mypanels.append(self.fit_panel)
	143	return self.mypanels
[888e62c]	144
	145
[32d802f]	146	def _on_model2D_show(self, event ):
	147	print "model2D get the id ", event.id
[888e62c]	148
	149
[568e1a5]	150	def _on_slicer_event(self, event):
[32673ac]	151	print "fitting:slicer event ", event.panel
[888e62c]	152	if event.panel!=None:
	153	new_panel = event.panel
	154	# Set group ID if available
	155	event_id = self.parent.popup_panel(new_panel)
	156	self.menu1.Append(event_id, new_panel.window_caption,
	157	"Show %s plot panel" % new_panel.window_caption)
	158	# Set UID to allow us to reference the panel later
	159	new_panel.uid = event_id
	160	new_panel
	161	self.mypanels.append(new_panel)
[568e1a5]	162	return
[d23544dc]	163	def _on_show_panel(self, event):
	164	print "_on_show_panel: fitting"
[d89f09b]	165
	166	def get_perspective(self):
	167	"""
	168	Get the list of panel names for this perspective
	169	"""
	170	return self.perspective
	171
	172
	173	def on_perspective(self, event):
	174	"""
	175	Call back function for the perspective menu item.
	176	We notify the parent window that the perspective
	177	has changed.
	178	"""
	179	self.parent.set_perspective(self.perspective)
	180
	181
	182	def post_init(self):
	183	"""
	184	Post initialization call back to close the loose ends
	185	[Somehow openGL needs this call]
	186	"""
	187	self.parent.set_perspective(self.perspective)
	188
	189
	190	def _onSelect(self,event):
	191	"""
	192	when Select data to fit a new page is created .Its reference is
	193	added to self.page_finder
	194	"""
	195	self.panel = event.GetEventObject()
	196	for item in self.panel.graph.plottables:
[693ab78]	197	if item.name == self.panel.graph.selected_plottable or\
	198	item.__class__.__name__ is "Data2D":
[3b19ac9]	199	#find a name for the page created for notebook
[d89f09b]	200	try:
[d0eac66]	201
[6bcdad1]	202	page, model_name = self.fit_panel.add_fit_page(item)
[3b19ac9]	203	# add data associated to the page created
[d0eac66]	204
	205	if page !=None:
[6f73a08]	206	#create a fitproblem storing all link to data,model,page creation
	207	self.page_finder[page]= FitProblem()
[6bcdad1]	208	self.page_finder[page].save_model_name(model_name)
[bcd6d51]	209	self.page_finder[page].add_data(item)
[d0eac66]	210	wx.PostEvent(self.parent, StatusEvent(status="Page Created"))
	211	else:
	212	wx.PostEvent(self.parent, StatusEvent(status="Page was already Created"))
[d89f09b]	213	except:
[d0eac66]	214	#raise
[6f73a08]	215	wx.PostEvent(self.parent, StatusEvent(status="Creating Fit page: %s"\
	216	%sys.exc_value))
[948add7]	217	def schedule_for_fit(self,value=0,fitproblem =None):
	218	"""
	219
	220	"""
	221	if fitproblem !=None:
	222	fitproblem.schedule_tofit(value)
	223	else:
	224	current_pg=self.fit_panel.get_current_page()
	225	for page, val in self.page_finder.iteritems():
	226	if page ==current_pg :
	227	val.schedule_tofit(value)
	228	break
	229
[d89f09b]	230
	231	def get_page_finder(self):
	232	""" @return self.page_finder used also by simfitpage.py"""
	233	return self.page_finder
	234
	235
[3b19ac9]	236	def set_page_finder(self,modelname,names,values):
[d89f09b]	237	"""
	238	Used by simfitpage.py to reset a parameter given the string constrainst.
	239	@param modelname: the name ot the model for with the parameter has to reset
	240	@param value: can be a string in this case.
[3b19ac9]	241	@param names: the paramter name
[d89f09b]	242	@note: expecting park used for fit.
	243	"""
[94999eb]	244	sim_page=self.fit_panel.get_page(1)
[d89f09b]	245	for page, value in self.page_finder.iteritems():
	246	if page != sim_page:
	247	list=value.get_model()
	248	model=list[0]
[bcd6d51]	249	#print "fitting",model.name,modelname
[d89f09b]	250	if model.name== modelname:
[3b19ac9]	251	value.set_model_param(names,values)
[d89f09b]	252	break
	253
	254
	255
	256	def split_string(self,item):
	257	"""
[3b19ac9]	258	receive a word containing dot and split it. used to split parameterset
	259	name into model name and parameter name example:
	260	paramaterset (item) = M1.A
	261	@return model_name =M1 , parameter name =A
[d89f09b]	262	"""
	263	if string.find(item,".")!=-1:
	264	param_names= re.split("\.",item)
	265	model_name=param_names[0]
	266	param_name=param_names[1]
	267	return model_name,param_name
	268
[e9b4cc4]	269
[4af20b4]	270	def _single_fit_completed(self,result,pars,cpage,qmin,qmax,elapsed,
	271	ymin=None, ymax=None, xmin=None, xmax=None):
[d89f09b]	272	"""
[3b19ac9]	273	Display fit result on one page of the notebook.
	274	@param result: result of fit
	275	@param pars: list of names of parameters fitted
	276	@param current_pg: the page where information will be displayed
	277	@param qmin: the minimum value of x to replot the model
	278	@param qmax: the maximum value of x to replot model
[d89f09b]	279
	280	"""
[89032bf]	281	#print "single fit ", pars,result.pvec,result.stderr,result.fitness
[e9b4cc4]	282	#self.done = True
	283	#wx.PostEvent(self.parent, StatusEvent(status="Fitting Completed: %g" % elapsed))
[d89f09b]	284	try:
	285	for page, value in self.page_finder.iteritems():
[948add7]	286	if page==cpage :
[6f73a08]	287	#fitdata = value.get_data()
[d89f09b]	288	list = value.get_model()
	289	model= list[0]
	290	break
	291	i = 0
[89032bf]	292	#print "fitting: single fit pars ", pars
[d89f09b]	293	for name in pars:
	294	if result.pvec.__class__==numpy.float64:
[1b07935d]	295	model.setParam(name,result.pvec)
[d89f09b]	296	else:
[1b07935d]	297	model.setParam(name,result.pvec[i])
[442895f]	298	# print "fitting: single fit", name, result.pvec[i]
[d89f09b]	299	i += 1
[26bf293]	300	print "fitting result : chisqr",result.fitness
	301	print "fitting result : pvec",result.pvec
	302	print "fitting result : stderr",result.stderr
[4af20b4]	303	print "qmin qmax xmin xmax ymin , ymax",qmin, qmax,xmin, xmax ,ymin, ymax
[442895f]	304
[948add7]	305	cpage.onsetValues(result.fitness, result.pvec,result.stderr)
[4af20b4]	306	self.plot_helper(currpage=cpage,qmin=qmin,qmax=qmax,
	307	ymin=ymin, ymax=ymax,
	308	xmin=xmin, xmax=xmax,title="Fitted model 2D ")
[d89f09b]	309	except:
[89032bf]	310	#raise
[060b857]	311	wx.PostEvent(self.parent, StatusEvent(status="Fitting error: %s" % sys.exc_value))
[d89f09b]	312
	313
[e9b4cc4]	314	def _simul_fit_completed(self,result,qmin,qmax, elapsed,pars=None,cpage=None, ymin=None, ymax=None):
[d89f09b]	315	"""
	316	Parameter estimation completed,
	317	display the results to the user
	318	@param alpha: estimated best alpha
	319	@param elapsed: computation time
	320	"""
[e9b4cc4]	321	wx.PostEvent(self.parent, StatusEvent(status="Fitting Completed: %g" % elapsed))
[d89f09b]	322	try:
	323	for page, value in self.page_finder.iteritems():
[948add7]	324	if value.get_scheduled()==1:
[6f73a08]	325	#fitdata = value.get_data()
[3b19ac9]	326	list = value.get_model()
	327	model= list[0]
	328
	329	small_out = []
	330	small_cov = []
	331	i = 0
	332	#Separate result in to data corresponding to each page
	333	for p in result.parameters:
	334	model_name,param_name = self.split_string(p.name)
	335	if model.name == model_name:
	336	small_out.append(p.value )
[26bf293]	337	small_cov.append(p.stderr)
[3b19ac9]	338	model.setParam(param_name,p.value)
	339	# Display result on each page
	340	page.onsetValues(result.fitness, small_out,small_cov)
	341	#Replot model
[9d31a8b]	342	self.plot_helper(currpage= page,qmin= qmin,qmax= qmax,ymin=ymin, ymax=ymax)
[d89f09b]	343	except:
	344	wx.PostEvent(self.parent, StatusEvent(status="Fitting error: %s" % sys.exc_value))
	345
[e9b4cc4]	346
[4af20b4]	347	def _on_single_fit(self,id=None,qmin=None, qmax=None,ymin=None, ymax=None,xmin=None,xmax=None):
[d89f09b]	348	"""
	349	perform fit for the current page and return chisqr,out and cov
	350	@param engineName: type of fit to be performed
	351	@param id: unique id corresponding to a fit problem(model, set of data)
	352	@param model: model to fit
	353
	354	"""
[948add7]	355	#print "in single fitting"
[d89f09b]	356	#set an engine to perform fit
	357	from sans.fit.Fitting import Fit
	358	self.fitter= Fit(self._fit_engine)
[3b19ac9]	359	#Setting an id to store model and data in fit engine
[d89f09b]	360	if id==None:
[17fc6f8]	361	self.id=0
	362	else:
	363	self.id = id
[948add7]	364	page_fitted=None
	365	fit_problem=None
[3b19ac9]	366	#Get information (model , data) related to the page on
	367	#with the fit will be perform
[57f3320]	368	#current_pg=self.fit_panel.get_current_page()
	369	#simul_pg=self.fit_panel.get_page(0)
[948add7]	370
[d89f09b]	371	for page, value in self.page_finder.iteritems():
[948add7]	372	if value.get_scheduled() ==1 :
[9d31a8b]	373	metadata = value.get_data()
[d89f09b]	374	list=value.get_model()
	375	model=list[0]
[08b9c6c8]	376	smearer= value.get_smearer()
[26bf293]	377	print "single fit", model, smearer
[3b19ac9]	378	#Create list of parameters for fitting used
[d89f09b]	379	pars=[]
	380	templist=[]
	381	try:
[948add7]	382	#templist=current_pg.get_param_list()
	383	templist=page.get_param_list()
	384	for element in templist:
	385	pars.append(str(element[0].GetLabelText()))
	386	pars.sort()
[89032bf]	387	#print "single fit start pars:", pars
[948add7]	388	#Do the single fit
[3b19ac9]	389	self.fitter.set_model(Model(model), self.id, pars)
[888e62c]	390	#print "args...:",metadata,self.id,smearer,qmin,qmax,ymin,ymax
[17fc6f8]	391
	392	self.fitter.set_data(data=metadata,Uid=self.id,
	393	smearer=smearer,qmin= qmin,qmax=qmax,
	394	ymin=ymin,ymax=ymax)
	395
[948add7]	396	self.fitter.select_problem_for_fit(Uid=self.id,value=value.get_scheduled())
	397	page_fitted=page
	398	self.id+=1
	399	self.schedule_for_fit( 0,value)
[d89f09b]	400	except:
[26bf293]	401	raise
	402	#wx.PostEvent(self.parent, StatusEvent(status="Fitting error: %s" % sys.exc_value))
[d89f09b]	403	return
[948add7]	404	# make sure to keep an alphabetic order
	405	#of parameter names in the list
	406	try:
[e9b4cc4]	407	# If a thread is already started, stop it
	408	if self.calc_thread != None and self.calc_thread.isrunning():
	409	self.calc_thread.stop()
	410
	411	self.calc_thread =FitThread(parent =self.parent,
	412	fn= self.fitter,
	413	pars= pars,
	414	cpage= page_fitted,
	415	qmin=qmin,
	416	qmax=qmax,
[26bf293]	417
[e9b4cc4]	418	completefn=self._single_fit_completed,
	419	updatefn=None)
	420	self.calc_thread.queue()
	421	self.calc_thread.ready(2.5)
	422	#while not self.done:
	423	#print "when here"
	424	# time.sleep(1)
	425
	426
[948add7]	427	except:
[26bf293]	428	raise
[948add7]	429	wx.PostEvent(self.parent, StatusEvent(status="Single Fit error: %s" % sys.exc_value))
	430	return
[d89f09b]	431
[9d31a8b]	432	def _on_simul_fit(self, id=None,qmin=None,qmax=None, ymin=None, ymax=None):
[d89f09b]	433	"""
	434	perform fit for all the pages selected on simpage and return chisqr,out and cov
	435	@param engineName: type of fit to be performed
	436	@param id: unique id corresponding to a fit problem(model, set of data)
	437	in park_integration
	438	@param model: model to fit
	439
	440	"""
	441	#set an engine to perform fit
	442	from sans.fit.Fitting import Fit
	443	self.fitter= Fit(self._fit_engine)
[3b19ac9]	444
[d89f09b]	445	#Setting an id to store model and data
	446	if id==None:
	447	id = 0
	448	self.id = id
[3b19ac9]	449
[d89f09b]	450	for page, value in self.page_finder.iteritems():
	451	try:
[948add7]	452	if value.get_scheduled()==1:
[9d31a8b]	453	metadata = value.get_data()
[3b19ac9]	454	list = value.get_model()
	455	model= list[0]
[d89f09b]	456	#Create dictionary of parameters for fitting used
	457	pars = []
	458	templist = []
[3b19ac9]	459	templist = page.get_param_list()
[d89f09b]	460	for element in templist:
	461	try:
	462	name = str(element[0].GetLabelText())
	463	pars.append(name)
	464	except:
	465	wx.PostEvent(self.parent, StatusEvent(status="Fitting error: %s" % sys.exc_value))
	466	return
[c80c06f]	467	# need to check this print "new model "
[00561739]	468	new_model=Model(model)
[8e81af0]	469	param=value.get_model_param()
	470
	471	if len(param)>0:
	472	for item in param:
	473	param_value = item[1]
	474	param_name = item[0]
	475	#print "fitting ", param,param_name, param_value
	476
	477	#new_model.set( model.getParam(param_name[0])= param_value)
	478	#new_model.set( exec"%s=%s"%(param_name[0], param_value))
	479	#new_model.set( exec "%s"%(param_nam) = param_value)
	480	new_model.parameterset[ param_name].set( param_value )
[c80c06f]	481
[948add7]	482	self.fitter.set_model(new_model, self.id, pars)
[9d31a8b]	483	self.fitter.set_data(metadata,self.id,qmin,qmax,ymin,ymax)
[948add7]	484	self.fitter.select_problem_for_fit(Uid=self.id,value=value.get_scheduled())
[3b19ac9]	485	self.id += 1
[d89f09b]	486	except:
[89032bf]	487	#raise
[3b19ac9]	488	wx.PostEvent(self.parent, StatusEvent(status="Fitting error: %s" % sys.exc_value))
	489	return
[dabb633]	490	#Do the simultaneous fit
[d89f09b]	491	try:
[e9b4cc4]	492	# If a thread is already started, stop it
	493	if self.calc_thread != None and self.calc_thread.isrunning():
	494	self.calc_thread.stop()
	495
	496	self.calc_thread =FitThread(parent =self.parent,
	497	fn= self.fitter,
	498	qmin=qmin,
	499	qmax=qmax,
	500	ymin= ymin,
	501	ymax= ymax,
	502	completefn= self._simul_fit_completed,
	503	updatefn=None)
	504	self.calc_thread.queue()
	505	self.calc_thread.ready(2.5)
	506
[d89f09b]	507	except:
[89032bf]	508	#raise
[d89f09b]	509	wx.PostEvent(self.parent, StatusEvent(status="Simultaneous Fitting error: %s" % sys.exc_value))
	510	return
[3b19ac9]	511
	512
	513	def _onset_engine(self,event):
	514	""" set engine to scipy"""
	515	if self._fit_engine== 'park':
	516	self._on_change_engine('scipy')
	517	else:
	518	self._on_change_engine('park')
	519	wx.PostEvent(self.parent, StatusEvent(status="Engine set to: %s" % self._fit_engine))
	520
	521
[d89f09b]	522	def _on_change_engine(self, engine='park'):
	523	"""
	524	Allow to select the type of engine to perform fit
	525	@param engine: the key work of the engine
	526	"""
	527	self._fit_engine = engine
	528
	529
	530	def _on_model_panel(self, evt):
	531	"""
	532	react to model selection on any combo box or model menu.plot the model
	533	"""
[e1a310f]	534
[d89f09b]	535	model = evt.model
	536	name = evt.name
[32d802f]	537
[94999eb]	538	sim_page=self.fit_panel.GetPage(1)
[d89f09b]	539	current_pg = self.fit_panel.get_current_page()
	540	if current_pg != sim_page:
	541	current_pg.set_panel(model)
[6bcdad1]	542	model.name = self.page_finder[current_pg].get_name()
[d89f09b]	543	try:
[bcd6d51]	544	metadata=self.page_finder[current_pg].get_data()
[6bcdad1]	545	M_name=model.name+"= "+name+"("+metadata.group_id+")"
[d89f09b]	546	except:
[6bcdad1]	547	M_name=model.name+"= "+name
	548	#model.name="M"+str(self.index_model)
[d89f09b]	549	self.index_model += 1
[6bcdad1]	550	# save model name
[442895f]	551
[6bcdad1]	552	# save the name containing the data name with the appropriate model
[1b07935d]	553	self.page_finder[current_pg].set_model(model,M_name)
[d89f09b]	554	self.plot_helper(currpage= current_pg,qmin= None,qmax= None)
	555	sim_page.add_model(self.page_finder)
	556
[08b9c6c8]	557	def set_smearer(self,smearer):
	558	current_pg=self.fit_panel.get_current_page()
	559	self.page_finder[current_pg].set_smearer(smearer)
	560
[d89f09b]	561	def redraw_model(self,qmin= None,qmax= None):
	562	"""
	563	Draw a theory according to model changes or data range.
	564	@param qmin: the minimum value plotted for theory
	565	@param qmax: the maximum value plotted for theory
	566	"""
	567	current_pg=self.fit_panel.get_current_page()
	568	for page, value in self.page_finder.iteritems():
	569	if page ==current_pg :
	570	break
	571	self.plot_helper(currpage=page,qmin= qmin,qmax= qmax)
	572
[89032bf]	573	def plot_helper(self,currpage, fitModel=None, qmin=None,qmax=None,
[4af20b4]	574	ymin=None,ymax=None, xmin=None, xmax=None,title=None ):
[d89f09b]	575	"""
	576	Plot a theory given a model and data
	577	@param model: the model from where the theory is derived
	578	@param currpage: page in a dictionary referring to some data
	579	"""
[26bf293]	580	if self.fit_panel.GetPageCount() >1:
[d89f09b]	581	for page in self.page_finder.iterkeys():
	582	if page==currpage :
[bcd6d51]	583	data=self.page_finder[page].get_data()
	584	list=self.page_finder[page].get_model()
	585	model=list[0]
[d89f09b]	586	break
[26bf293]	587	print "model in fitting",model
[693ab78]	588	if data!=None and data.__class__.__name__ != 'Data2D':
[d89f09b]	589	theory = Theory1D(x=[], y=[])
[6bcdad1]	590	theory.name = model.name
[d89f09b]	591	theory.group_id = data.group_id
[6bcdad1]	592	theory.id = "Model"
[d89f09b]	593	x_name, x_units = data.get_xaxis()
	594	y_name, y_units = data.get_yaxis()
	595	theory.xaxis(x_name, x_units)
	596	theory.yaxis(y_name, y_units)
	597	if qmin == None :
	598	qmin = min(data.x)
	599	if qmax == None :
[4af20b4]	600	qmax = max(data.x)
[d89f09b]	601	try:
	602	tempx = qmin
[1b07935d]	603	tempy = model.run(qmin)
[d89f09b]	604	theory.x.append(tempx)
	605	theory.y.append(tempy)
	606	except :
	607	wx.PostEvent(self.parent, StatusEvent(status="fitting \
	608	skipping point x %g %s" %(qmin, sys.exc_value)))
	609
	610	for i in range(len(data.x)):
	611	try:
	612	if data.x[i]> qmin and data.x[i]< qmax:
	613	tempx = data.x[i]
[1b07935d]	614	tempy = model.run(tempx)
[d89f09b]	615	theory.x.append(tempx)
	616	theory.y.append(tempy)
[04edd0d]	617
[d89f09b]	618	except:
	619	wx.PostEvent(self.parent, StatusEvent(status="fitting \
	620	skipping point x %g %s" %(data.x[i], sys.exc_value)))
	621	try:
	622	tempx = qmax
[1b07935d]	623	tempy = model.run(qmax)
[d89f09b]	624	theory.x.append(tempx)
	625	theory.y.append(tempy)
	626	except:
[00561739]	627	wx.PostEvent(self.parent, StatusEvent(status="fitting \
[32d802f]	628	skipping point x %g %s" %(qmin, sys.exc_value)) )
	629	wx.PostEvent(self.parent, NewPlotEvent(plot=theory,
	630	title=str(data.name)))
[6f73a08]	631	else:
[89032bf]	632
[dc317d1]	633	theory=Data2D(data.data, data.err_data)
[6bcdad1]	634	theory.name= model.name
[89032bf]	635	if title !=None:
	636	self.title = title
	637	theory.id= self.title
	638	theory.group_id= self.title+data.name
	639	else:
	640	self.title= "Analytical model 2D "
	641	theory.id= "Model"
	642	theory.group_id= "Model"+data.name
[6f73a08]	643	theory.x_bins= data.x_bins
	644	theory.y_bins= data.y_bins
	645	tempy=[]
[22210ef]	646	#print "max x,y",max(data.xmax,data.xmin),max(data.ymax,data.ymin)
[17fc6f8]	647	if qmin==None:
[4af20b4]	648	qmin=0#data.xmin
[17fc6f8]	649	if qmax==None:
[4af20b4]	650	qmax=math.sqrt(math.pow(max(math.fabs(data.xmax),math.fabs(data.xmin)),2)/
	651	+math.pow(max(math.fabs(data.ymax),math.fabs(data.ymin)),2))
[17fc6f8]	652	if ymin==None:
	653	ymin=data.ymin
	654	if ymax==None:
	655	ymax=data.ymax
[4af20b4]	656	if xmin ==None:
	657	xmin=data.xmin
	658	if xmax==None:
	659	xmax=data.xmax
[888e62c]	660	#print " q range =",
[57668f8]	661	theory.data = numpy.zeros((len(data.y_bins),len(data.x_bins)))
[4af20b4]	662	for j in range(len(data.y_bins)):
	663	for i in range(len(data.x_bins)):
	664	tempqij=math.sqrt((math.pow(data.y_bins[j],2)+math.pow(data.x_bins[i],2)))
[a69e233]	665	#if tempqij>= qmin and tempqij<= qmax:
	666	theory.data[j][i]=model.runXY([data.y_bins[j],data.x_bins[i]])
	667	#else:
	668	#theory.data[j][i]=None
	669	#print "len(data.x_bins),len(data.y_bins);",len(data.x_bins),len(data.y_bins),i,j
[44bbf6a]	670	#print "fitting : plot_helper:", theory.image
[2dbb681]	671	#print "fitting : plot_helper:",theory.image
[1f62278]	672	theory.detector= data.detector
	673	theory.source= data.source
[22210ef]	674
[d0eac66]	675	theory.qmin= qmin
	676	theory.qmax= qmax
[4274c0e]	677	theory.ymin= ymin
	678	theory.ymax= ymax
[d0eac66]	679	theory.xmin= xmin
	680	theory.xmax= xmax
[04edd0d]	681
[32d802f]	682	wx.PostEvent(self.parent, NewPlotEvent(plot=theory,
[89032bf]	683	title=self.title +str(data.name)))
[6f73a08]	684
	685
[d89f09b]	686	def _on_model_menu(self, evt):
	687	"""
	688	Plot a theory from a model selected from the menu
	689	"""
[86c1832]	690	name = evt.model.__name__
	691	if hasattr(evt.model, "name"):
	692	name = evt.model.name
[32d802f]	693	print "on model menu", name
[b2c3225]	694	model=evt.model()
[2dbb681]	695	description=model.description
[3dc83be]	696
	697	# Create a model page. If a new page is created, the model
	698	# will be plotted automatically. If a page already exists,
	699	# the content will be updated and the plot refreshed
	700	self.fit_panel.add_model_page(model,description,name,topmenu=True)
[1b07935d]	701
[26bf293]	702	def draw_model(self,model,name ,data=None,description=None,enable1D=True, enable2D=False,
[cfc68540]	703	qmin=DEFAULT_QMIN, qmax=DEFAULT_QMAX, qstep=DEFAULT_NPTS):
[3b19ac9]	704	"""
	705	draw model with default data value
	706	"""
[26bf293]	707	if data !=None:
	708	self.redraw_model(qmin,qmax)
	709	return
[d74d751]	710	self._draw_model2D(model=model,
	711	description=model.description,
	712	enable2D= enable2D,
	713	qmin=qmin,
	714	qmax=qmax,
[c48a26a]	715	qstep=qstep)
[86c1832]	716	self._draw_model1D(model,name,model.description, enable1D,qmin,qmax, qstep)
[cfc68540]	717
	718	def _draw_model1D(self,model,name,description=None, enable1D=True,
	719	qmin=DEFAULT_QMIN, qmax=DEFAULT_QMAX, qstep=DEFAULT_NPTS):
[e5a9e32]	720
[d250f7d]	721	if enable1D:
[d15c0202]	722	x= numpy.linspace(start= qmin,
	723	stop= qmax,
	724	num= qstep,
	725	endpoint=True
	726	)
[f39511b]	727	xlen= len(x)
	728	y = numpy.zeros(xlen)
[d250f7d]	729	if not enable1D:
[f39511b]	730	for i in range(xlen):
	731	y[i] = model.run(x[i])
[d15c0202]	732
[f39511b]	733	try:
	734	new_plot = Theory1D(x, y)
[32d802f]	735
[86c1832]	736	new_plot.name = name
[f39511b]	737	new_plot.xaxis("\\rm{Q}", 'A^{-1}')
	738	new_plot.yaxis("\\rm{Intensity} ","cm^{-1}")
[6bcdad1]	739	new_plot.id = "Model"
	740	new_plot.group_id ="Model"
[f39511b]	741	wx.PostEvent(self.parent, NewPlotEvent(plot=new_plot, title="Analytical model 1D"))
	742	except:
[32d802f]	743	wx.PostEvent(self.parent, StatusEvent(status="Draw model 1D error: %s" % sys.exc_value))
	744	#raise
[f39511b]	745	else:
	746	for i in range(xlen):
	747	y[i] = model.run(x[i])
[d15c0202]	748	#print x, y
[f39511b]	749	try:
	750	new_plot = Theory1D(x, y)
[32d802f]	751	print "draw model 1D", name
[86c1832]	752	new_plot.name = name
[f39511b]	753	new_plot.xaxis("\\rm{Q}", 'A^{-1}')
	754	new_plot.yaxis("\\rm{Intensity} ","cm^{-1}")
[6bcdad1]	755	new_plot.id ="Model"
	756	new_plot.group_id ="Model"
[3dc83be]	757
	758	# Pass the reset flag to let the plotting event handler
	759	# know that we are replacing the whole plot
[6bcdad1]	760	wx.PostEvent(self.parent, NewPlotEvent(plot=new_plot,
[3dc83be]	761	title="Analytical model 1D ", reset=True ))
[f39511b]	762
	763	except:
[32d802f]	764	#raise
	765	wx.PostEvent(self.parent, StatusEvent(status="Draw model 1D error: %s" % sys.exc_value))
[e9b4cc4]	766	def update(self, output,time):
	767	pass
[20be946]	768
[b2c6d23]	769	def complete(self, output, elapsed, model, qmin, qmax,qstep=DEFAULT_NPTS):
[26bf293]	770
[20be946]	771	wx.PostEvent(self.parent, StatusEvent(status="Calc \
	772	complete in %g sec" % elapsed))
[d15c0202]	773	#print "complete",output, model,qmin, qmax
[20be946]	774	data = output
[13e120a]	775	temp= numpy.zeros(numpy.shape(data))
	776	temp[temp==0]=1
	777	theory= Data2D(image=data, err_image=temp)
	778
[d15c0202]	779	from DataLoader.data_info import Detector, Source
	780
	781	detector = Detector()
	782	theory.detector=[]
	783	theory.detector.append(detector)
	784
[b2c6d23]	785	theory.detector[0].pixel_size.x= qmax/(qstep/2-1)#5.0
	786	theory.detector[0].pixel_size.y= qmax/(qstep/2-1)#5.0
	787	theory.detector[0].beam_center.x= qmax
	788	theory.detector[0].beam_center.y= qmax
	789	theory.detector[0].distance= 1e+12#13705.0
[d15c0202]	790	theory.source= Source()
[b2c6d23]	791	theory.source.wavelength= 2*math.pi/1e+12#8.4
[13e120a]	792	theory.x_bins =[]
	793	theory.y_bins =[]
	794	# compute x_bins and y_bins
	795	# Qx and Qy vectors
	796
	797	distance = theory.detector[0].distance
	798	pixel = qstep/2-1
	799	theta = pixel / distance / 100.0
	800	wavelength = theory.source.wavelength
	801	pixel_width_x = theory.detector[0].pixel_size.x
	802	pixel_width_y = theory.detector[0].pixel_size.y
	803	center_x = theory.detector[0].beam_center.x/pixel_width_x
	804	center_y = theory.detector[0].beam_center.y/pixel_width_y
[d15c0202]	805
[13e120a]	806
	807	size_x, size_y= numpy.shape(theory.data)
	808	#print "size_x,size_y",size_x, size_y
	809	for i_x in range(size_x):
	810	theta = (i_x-center_x+1)*pixel_width_x / distance / size_x#100.0
	811	qx = 4.0math.pi/wavelength math.sin(theta/2.0)
	812	theory.x_bins.append(qx)
	813	for i_y in range(size_y):
	814	theta = (i_y-center_y+1)*pixel_width_y / distance / size_y#100.0
	815	qy = 4.0math.pi/wavelength math.sin(theta/2.0)
	816	theory.y_bins.append(qy)
	817
	818	#theory.err_data= numpy.
[20be946]	819	theory.name= model.name
	820	theory.group_id ="Model"
	821	theory.id ="Model"
[22210ef]	822
	823
	824
[d15c0202]	825	theory.xmin= -qmax
[20be946]	826	theory.xmax= qmax
[d15c0202]	827	theory.ymin= -qmax
[20be946]	828	theory.ymax= qmax
[b2c6d23]	829
[89032bf]	830	print "model draw comptele xmax",theory.xmax,model.name
[20be946]	831	wx.PostEvent(self.parent, NewPlotEvent(plot=theory,
[32d802f]	832	title="Analytical model 2D ", reset=True ))
[20be946]	833
	834
	835
[cfc68540]	836	def _draw_model2D(self,model,description=None, enable2D=False,
	837	qmin=DEFAULT_QMIN, qmax=DEFAULT_QMAX, qstep=DEFAULT_NPTS):
[d15c0202]	838
	839	x= numpy.linspace(start= -1*qmax,
	840	stop= qmax,
	841	num= qstep,
	842	endpoint=True )
	843	y = numpy.linspace(start= -1*qmax,
	844	stop= qmax,
	845	num= qstep,
	846	endpoint=True )
	847
[dc317d1]	848	lx = len(x)
[1c5b068]	849	#print x
[dc317d1]	850	data=numpy.zeros([len(x),len(y)])
[20be946]	851	self.model= model
[dc317d1]	852	if enable2D:
[20be946]	853	from model_thread import Calc2D
[d15c0202]	854	self.calc_thread = Calc2D(parent =self.parent,x=x,
	855	y=y,model= self.model,
	856	qmin=qmin,
	857	qmax=qmax,
[b2c6d23]	858	qstep=qstep,
[20be946]	859	completefn=self.complete,
[e9b4cc4]	860	updatefn=None)
[20be946]	861	self.calc_thread.queue()
	862	self.calc_thread.ready(2.5)
[89032bf]	863
	864	def show_panel2D(self, id=None ):
[32d802f]	865	self.parent.show_panel(self.model2D_id)
[20be946]	866
[db709e4]	867
[d89f09b]	868	if __name__ == "__main__":
	869	i = Plugin()
	870
	871
	872
	873

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SasView

source: sasview/sansview/perspectives/fitting/fitting.py @ d0eac66

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