""" This software was developed by the University of Tennessee as part of the Distributed Data Analysis of Neutron Scattering Experiments (DANSE) project funded by the US National Science Foundation. See the license text in license.txt copyright 2009, University of Tennessee """ import wx from sans.invariant import invariant from DataLoader.data_info import Data1D as LoaderData1D from sans.guiframe.dataFitting import Theory1D, Data1D from sans.guicomm.events import NewPlotEvent, StatusEvent from sans.guicomm.events import ERR_DATA class Plugin: """ This class defines the interface for invariant Plugin class that can be used by the gui_manager. """ def __init__(self, standalone=False): """ Abstract class for gui_manager Plugins. """ ## Plug-in name. It will appear on the application menu. self.sub_menu = "Invariant" ## Reference to the parent window. Filled by get_panels() below. self.parent = None #dictionary containing data name and error on dy of that data self.err_dy = {} ## List of panels that you would like to open in AUI windows # for your plug-in. This defines your plug-in "perspective" self.perspective = [] def populate_menu(self, id, parent): """ Create and return the list of application menu items for the plug-in. @param id: deprecated. Un-used. @param parent: parent window @return: plug-in menu """ return [] def get_panels(self, parent): """ Create and return the list of wx.Panels for your plug-in. Define the plug-in perspective. Panels should inherit from DefaultPanel defined below, or should present the same interface. They must define "window_caption" and "window_name". @param parent: parent window @return: list of panels """ ## Save a reference to the parent self.parent = parent #add error back to the data self.parent.Bind(ERR_DATA, self._on_data_error) from invariant_panel import InvariantPanel self.invariant_panel = InvariantPanel(parent=self.parent) self.invariant_panel.set_manager(manager=self) self.perspective.append(self.invariant_panel.window_name) # Return the list of panels return [self.invariant_panel] def get_tools(self): """ Returns a set of menu entries for tools """ return [] def get_context_menu(self, graph=None): """ This method is optional. When the context menu of a plot is rendered, the get_context_menu method will be called to give you a chance to add a menu item to the context menu. A ref to a Graph object is passed so that you can investigate the plot content and decide whether you need to add items to the context menu. This method returns a list of menu items. Each item is itself a list defining the text to appear in the menu, a tool-tip help text, and a call-back method. @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 invariant_option = "Compute invariant" invariant_hint = "Will displays the invariant panel for futher computation" for item in self.graph.plottables: if issubclass(item.__class__,LoaderData1D): if item.name !="$I_{obs}(q)$" and item.name !="$P_{fit}(r)$": if hasattr(item, "group_id"): return [[invariant_option, invariant_hint, self._compute_invariant]] return [] 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. @param event: menu event """ self.parent.set_perspective(self.perspective) def post_init(self): """ Post initialization call back to close the loose ends """ pass def set_default_perspective(self): """ Call back method that True to notify the parent that the current plug-in can be set as default perspective. when returning False, the plug-in is not candidate for an automatic default perspective setting """ return False def copy_data(self, item, dy=None): """ receive a data 1D and the list of errors on dy and create a new data1D data @param return """ id = None if hasattr(item,"id"): id = copy.deepcopy(item.id) data = Data1D(x=item.x, y=item.y, dx=None, dy=None) data.copy_from_datainfo(item) item.clone_without_data(clone=data) data.dy = dy data.name = item.name ## allow to highlight data when plotted data.interactive = copy.deepcopy(item.interactive) ## when 2 data have the same id override the 1 st plotted data.id = id data.group_id = item.group_id return data def _on_data_error(self, event): """ receives and event from plotting plu-gins to store the data name and their errors of y coordinates for 1Data hide and show error """ self.err_dy = event.err_dy def _compute_invariant(self, event): """ Open the invariant panel to invariant computation """ self.panel = event.GetEventObject() Plugin.on_perspective(self,event=event) for plottable in self.panel.graph.plottables: if plottable.name == self.panel.graph.selected_plottable: ## put the errors values back to the model if the errors were hiden ## before sending them to the fit engine if len(self.err_dy)>0: dy = plottable.dy if plottable.name in self.err_dy.iterkeys(): dy = self.err_dy[plottable.name] data = self.copy_data(plottable, dy) else: data = plottable # Store reference to data self.__data = data # Set the data set to be user for invariant calculation self.invariant_panel.set_data(data=data) def plot_theory(self, data=None, name=None): """ Receive a data set and post a NewPlotEvent to parent. @param data: extrapolated data to be plotted @param name: Data's name to use for the legend """ if data is None: new_plot = Theory1D(x=[], y=[], dy=None) else: new_plot = Theory1D(x=data.x, y=data.y, dy=None) new_plot.name = name new_plot.xaxis(self.__data._xaxis, self.__data._xunit) new_plot.yaxis(self.__data._yaxis, self.__data._yunit) new_plot.group_id = self.__data.group_id new_plot.id = self.__data.id + name wx.PostEvent(self.parent, NewPlotEvent(plot=new_plot, title=self.__data.name))