"""
Batch panel
"""
import wx
import wx.lib.newevent
import math
from sas.sasgui.guiframe.events import StatusEvent
from sas.sasgui.guiframe.events import NewPlotEvent
(Chi2UpdateEvent, EVT_CHI2_UPDATE) = wx.lib.newevent.NewEvent()
_BOX_WIDTH = 76
_DATA_BOX_WIDTH = 300
SMEAR_SIZE_L = 0.00
SMEAR_SIZE_H = 0.00
from sas.sasgui.perspectives.fitting.basepage import PageInfoEvent
from sas.sascalc.data_util.qsmearing import smear_selection
from sas.sasgui.perspectives.fitting.fitpage import FitPage
from sas.sasgui.perspectives.fitting.fitpage import check_data_validity
[docs]class BatchFitPage(FitPage):
"""
Batch Page
"""
window_name = "BatchFit"
window_caption = "BatchFit"
def __init__(self, parent, color=None):
"""
Initialization of the Panel
"""
FitPage.__init__(self, parent, color=color)
## draw sizer
def _fill_data_sizer(self):
"""
fill sizer 0 with data info
"""
self.data_box_description = wx.StaticBox(self, wx.ID_ANY, 'I(q) Data Source')
if check_data_validity(self.data):
dname_color = wx.BLUE
else:
dname_color = wx.RED
self.data_box_description.SetForegroundColour(dname_color)
boxsizer1 = wx.StaticBoxSizer(self.data_box_description, wx.VERTICAL)
#----------------------------------------------------------
sizer_data = wx.BoxSizer(wx.VERTICAL)
text1 = wx.StaticText(self, wx.ID_ANY, ' - Choose a file to set initial fit parameters -')
text1.SetForegroundColour(wx.RED)
sizer_data.Add(text1)
text2 = wx.StaticText(self, wx.ID_ANY, ' - This panel is not designed to view individual fits. - ')
text2.SetForegroundColour(wx.RED)
sizer_data.Add(text2)
combo = wx.BoxSizer(wx.HORIZONTAL)
self.dataSource = wx.ComboBox(self, wx.ID_ANY, style=wx.CB_READONLY)
wx.EVT_COMBOBOX(self.dataSource, wx.ID_ANY, self.on_select_data)
self.dataSource.SetMinSize((_DATA_BOX_WIDTH, -1))
combo.Add(wx.StaticText(self, wx.ID_ANY, 'Name : '))
combo.Add((0, 5))
combo.Add(self.dataSource)
sizer_data.Add(combo, 0, wx.ALL, 10)
boxsizer1.Add(sizer_data, 0, wx.ALL, 0)
self.sizer0.Add(boxsizer1, 0, wx.EXPAND | wx.ALL, 10)
self.sizer0.Layout()
# COMMENTED OUT TO USE METHODS INHERITED FROM fitpage.py
# def _fill_range_sizer(self):
# """
# Fill the sizer containing the plotting range
# add access to npts
# """
# is_2Ddata = False
#
# # Check if data is 2D
# if self.data.__class__.__name__ == "Data2D" or \
# self.enable2D:
# is_2Ddata = True
#
# title = "Fitting"
# self._get_smear_info()
#
# #Sizers
# box_description_range = wx.StaticBox(self, wx.ID_ANY, str(title))
# boxsizer_range = wx.StaticBoxSizer(box_description_range, wx.VERTICAL)
# self.sizer_set_smearer = wx.BoxSizer(wx.VERTICAL)
# #sizer_smearer = wx.BoxSizer(wx.HORIZONTAL)
# self.sizer_new_smear = wx.BoxSizer(wx.HORIZONTAL)
# self.sizer_set_masking = wx.BoxSizer(wx.HORIZONTAL)
# sizer_chi2 = wx.BoxSizer(wx.VERTICAL)
#
# sizer_fit = wx.GridSizer(2, 4, 2, 6)
# #Fit button
# self.btFit = wx.Button(self, self._ids.next(), 'Fit', size=(88, 25))
# self.default_bt_colour = self.btFit.GetDefaultAttributes()
# self.btFit.Bind(wx.EVT_BUTTON, self._onFit, id= self.btFit.GetId())
# self.btFit.SetToolTipString("Start fitting.")
#
# # Update and Draw button
# self.draw_button = wx.Button(self, self._ids.next(), 'Compute', size=(88, 24))
# self.draw_button.Bind(wx.EVT_BUTTON, \
# self._onDraw,id=self.draw_button.GetId())
# self.draw_button.SetToolTipString("Compute and Draw.")
# sizer_fit.Add(self.draw_button, 0, 0)
# sizer_fit.Add(self.btFit, 0, 0)
# sizer_chi2.Add((-1, 5))
# # get smear_selection
# self.current_smearer = smear_selection( self.data, self.model )
# boxsizer_range.Add(self.sizer_set_masking)
# #2D data? default
# is_2Ddata = False
#
# #check if it is 2D data
# if self.data.__class__.__name__ == "Data2D" or \
# self.enable2D:
# is_2Ddata = True
#
# self.sizer5.Clear(True)
#
# self.qmin = ModelTextCtrl(self, wx.ID_ANY, size=(_BOX_WIDTH, 20),
# style=wx.TE_PROCESS_ENTER,
# text_enter_callback = self._onQrangeEnter)
# self.qmin.SetValue(str(self.qmin_x))
# self.qmin.SetToolTipString("Minimun value of Q in linear scale.")
#
# self.qmax = ModelTextCtrl(self, wx.ID_ANY, size=(_BOX_WIDTH, 20),
# style=wx.TE_PROCESS_ENTER,
# text_enter_callback=self._onQrangeEnter)
# self.qmax.SetValue(str(self.qmax_x))
# self.qmax.SetToolTipString("Maximum value of Q in linear scale.")
#
# id = self._ids.next()
# self.reset_qrange =wx.Button(self, id, 'Reset', size=(77, 20))
#
# self.reset_qrange.Bind(wx.EVT_BUTTON, self.on_reset_clicked, id=id)
# self.reset_qrange.SetToolTipString(\
# "Reset Q range to the default values")
#
# sizer_horizontal = wx.BoxSizer(wx.HORIZONTAL)
# sizer = wx.GridSizer(2, 4, 2, 6)
#
# self.btEditMask = wx.Button(self, self._ids.next(),'Editor', size=(88, 23))
# self.btEditMask.Bind(wx.EVT_BUTTON,
# self._onMask,id=self.btEditMask.GetId())
# self.btEditMask.SetToolTipString("Edit Mask.")
# self.EditMask_title = wx.StaticText(self, wx.ID_ANY, ' Masking(2D)')
#
# sizer.Add(wx.StaticText(self, wx.ID_ANY, 'Q range'))
# sizer.Add(wx.StaticText(self, wx.ID_ANY, ' Min[1/A]'))
# sizer.Add(wx.StaticText(self, wx.ID_ANY, ' Max[1/A]'))
# sizer.Add(self.EditMask_title)
#
# sizer.Add(self.reset_qrange)
# sizer.Add(self.qmin)
# sizer.Add(self.qmax)
#
# sizer.Add(self.btEditMask)
# boxsizer_range.Add(sizer_chi2)
# boxsizer_range.Add((10, 10))
# boxsizer_range.Add(sizer)
#
# boxsizer_range.Add((10, 15))
# boxsizer_range.Add(sizer_fit)
# if is_2Ddata:
# self.btEditMask.Enable()
# self.EditMask_title.Enable()
# else:
# self.btEditMask.Disable()
# self.EditMask_title.Disable()
#
# ## save state
# #self.save_current_state()
#
# self.sizer5.Add(boxsizer_range, 0, wx.EXPAND | wx.ALL, 10)
# self.sizer5.Layout()
#
# def _on_select_model(self, event=None):
# """
# call back for model selection
# """
#
# self.Show(False)
# self._on_select_model_helper()
# self.set_model_param_sizer(self.model)
# if self.model is None:
# self._set_bookmark_flag(False)
# self._keep.Enable(False)
# self._set_save_flag(False)
# self.enable_disp.SetValue(False)
# self.disable_disp.SetValue(True)
# try:
# self.set_dispers_sizer()
# except:
# pass
# self.state.structurecombobox = self.structurebox.GetCurrentSelection()
# self.state.formfactorcombobox = self.formfactorbox.GetCurrentSelection()
#
# if self.model != None:
# self._set_copy_flag(True)
# self._set_paste_flag(True)
# if self.data != None:
# self._set_bookmark_flag(False)
# self._keep.Enable(False)
#
# temp_smear = None
# ## event to post model to fit to fitting plugins
# (ModelEventbox, _) = wx.lib.newevent.NewEvent()
#
# ## set smearing value whether or not
# # the data contain the smearing info
# evt = ModelEventbox(model=self.model,
# smearer=temp_smear,
# qmin=float(self.qmin_x),
# uid=self.uid,
# qmax=float(self.qmax_x))
#
# self._manager._on_model_panel(evt=evt)
# self.mbox_description.SetLabel("Model [%s]" % str(self.model.name))
# self.state.model = self.model.clone()
# self.state.model.name = self.model.name
#
#
# if event != None:
# ## post state to fit panel
# new_event = PageInfoEvent(page = self)
# wx.PostEvent(self.parent, new_event)
# #update list of plugins if new plugin is available
# if self.plugin_rbutton.GetValue():
# temp = self.parent.update_model_list()
# if temp:
# self.model_list_box = temp
# current_val = self.formfactorbox.GetValue()
# pos = self.formfactorbox.GetSelection()
# self._show_combox_helper()
# self.formfactorbox.SetSelection(pos)
# self.formfactorbox.SetValue(current_val)
# self._onDraw(event=None)
# else:
# self._draw_model()
# self.SetupScrolling()
# self.Show(True)
#
# def _update_paramv_on_fit(self):
# """
# make sure that update param values just before the fitting
# """
# #flag for qmin qmax check values
# flag = True
# self.fitrange = True
# is_modified = False
#
# if self.model != None:
# ##Check the values
# self._check_value_enter( self.fittable_param)
# self._check_value_enter( self.fixed_param)
# self._check_value_enter( self.parameters)
#
# # If qmin and qmax have been modified, update qmin and qmax and
# # Here we should check whether the boundaries have been modified.
# # If qmin and qmax have been modified, update qmin and qmax and
# # set the is_modified flag to True
# self.fitrange = self._validate_qrange(self.qmin, self.qmax)
# if self.fitrange:
# tempmin = float(self.qmin.GetValue())
# if tempmin != self.qmin_x:
# self.qmin_x = tempmin
# tempmax = float(self.qmax.GetValue())
# if tempmax != self.qmax_x:
# self.qmax_x = tempmax
# if tempmax == tempmin:
# flag = False
# #temp_smearer = None
# if self._is_2D():
# # only 2D case set mask
# flag = self._validate_Npts()
# if not flag:
# return flag
# else: flag = False
# else:
# flag = False
#
# #For invalid q range, disable the mask editor and fit button, vs.
# if not self.fitrange:
# #self.btFit.Disable()
# if self._is_2D():
# self.btEditMask.Disable()
# else:
# #self.btFit.Enable(True)
# if self._is_2D() and self.data != None:
# self.btEditMask.Enable(True)
#
# if not flag:
# msg = "Cannot Plot or Fit :Must select a "
# msg += " model or Fitting range is not valid!!! "
# wx.PostEvent(self.parent.parent, StatusEvent(status=msg))
#
# self.save_current_state()
#
# return flag
# def save_current_state(self):
# """
# Currently no save option implemented for batch page
# """
# pass
# def save_current_state_fit(self):
# """
# Currently no save option implemented for batch page
# """
# pass
# def set_data(self, data):
# """
# reset the current data
# """
# #id = None
# group_id = None
# flag = False
# if self.data is None and data is not None:
# flag = True
# if data is not None:
# #id = data.id
# group_id = data.group_id
# if self.data is not None:
# flag = (data.id != self.data.id)
# self.data = data
# if self.data is None:
# data_min = ""
# data_max = ""
# data_name = ""
# self._set_bookmark_flag(False)
# self._keep.Enable(False)
# self._set_save_flag(False)
# else:
# if self.model != None:
# self._set_bookmark_flag(False)
# self._keep.Enable(False)
# self._set_save_flag(False)
# self._set_preview_flag(True)
#
# self.formfactorbox.Enable()
# self.structurebox.Enable()
# data_name = self.data.name
# #set maximum range for x in linear scale
# if not hasattr(self.data,"data"): #Display only for 1D data fit
# # Minimum value of data
# data_min = min(self.data.x)
# # Maximum value of data
# data_max = max(self.data.x)
# self.btEditMask.Disable()
# self.EditMask_title.Disable()
# else:
#
# ## Minimum value of data
# data_min = 0
# x = max(math.fabs(self.data.xmin), math.fabs(self.data.xmax))
# y = max(math.fabs(self.data.ymin), math.fabs(self.data.ymax))
# ## Maximum value of data
# data_max = math.sqrt(x*x + y*y)
# self.btEditMask.Enable()
# self.EditMask_title.Enable()
#
# self.dataSource.SetValue(data_name)
# self.qmin_x = data_min
# self.qmax_x = data_max
# #self.minimum_q.SetValue(str(data_min))
# #self.maximum_q.SetValue(str(data_max))
# self.qmin.SetValue(str(data_min))
# self.qmax.SetValue(str(data_max))
# self.qmin.SetBackgroundColour("white")
# self.qmax.SetBackgroundColour("white")
# self.state.data = data
# self.state.qmin = self.qmin_x
# self.state.qmax = self.qmax_x
#
# #update model plot with new data information
# if flag:
# #set model view button
# if self.data.__class__.__name__ == "Data2D":
# self.enable2D = True
# self.model_view.SetLabel("2D Mode")
# else:
# self.enable2D = False
# self.model_view.SetLabel("1D Mode")
#
# self.model_view.Disable()
#
# wx.PostEvent(self._manager.parent,
# NewPlotEvent(group_id=group_id,
# action="delete"))
# #plot the current selected data
# wx.PostEvent(self._manager.parent, NewPlotEvent(plot=self.data,
# title=str(self.data.title)))
# self._manager.store_data(uid=self.uid, data=data,
# data_list=self.data_list,
# caption=self.window_name)
# self._draw_model()
[docs]class BGTextCtrl(wx.TextCtrl):
"""
Text control used to display outputs.
No editing allowed. The background is
grayed out. User can't select text.
"""
def __init__(self, *args, **kwds):
wx.TextCtrl.__init__(self, *args, **kwds)
self.SetEditable(False)
self.SetBackgroundColour(self.GetParent().parent.GetBackgroundColour())
# Bind to mouse event to avoid text highlighting
# The event will be skipped once the call-back
# is called.
self.Bind(wx.EVT_MOUSE_EVENTS, self._click)
def _click(self, event):
"""
Prevent further handling of the mouse event
by not calling Skip().
"""
pass