import dataset import plots import scipy import gobject import gtk class Project: def __init__(self,name="Testing"): self.data_tree = gtk.TreeStore(gobject.TYPE_STRING, gobject.TYPE_STRING, gobject.TYPE_PYOBJECT) self.name = name self.dim_names = [] self._observers = {} self.current_data=None self.datasets=[] self.sel_obj = dataset.Selection() def attach(self,observer,key): """Attach observer for selection updates""" if not self._observers.has_key(key): self._observers[key]=[] if not observer in self._observers[key]: self._observers[key].append(observer) def detach(self,observer,key): """Detach observer for selection updates""" try: self._observers[key].remove(observer) except ValueError: pass def notify(self,key,modifier=None): """Notifies observers""" for observer in self._observers[key]: if modifier != observer: observer.update(self,key) def set_selection(self,dim_name,selection): """Sets a current selection and notify observers""" self.sel_obj.current_selection[dim_name] = set(selection) self.notify('selection_update') def get_selection(self): """Returns the current selection object""" return self.sel_obj.current_selection def add_data(self, parent, data): """Adds a set of data and plots to the navigator. This method is usually called after a Function in a workflow has finished and returns its output.""" for d in data: if isinstance(d, dataset.Dataset): self.add_dataset(d) self.data_tree_insert(None, d.get_name(), d) elif isinstance(d, plots.Plot): # self.add_view(d) self.data_tree_insert(None, 'view', d) def data_tree_insert(self, parent, text, data): tree = self.data_tree iter = tree.append(parent) tree.set_value(iter, 0, text) tree.set_value(iter, 1, type(data)) tree.set_value(iter, 2, data) def add_dataset(self,dataset): """Appends a new Dataset to the project.""" self.datasets.append(dataset) for dim_name in dataset.ids.keys(): if dim_name not in self.dim_names: self.dim_names.append(dim_name) def suggest_dim_name(self,dim_name): """Creates an arbitrary unique name for a new dimension.""" while dim_name in self.dim_names: dim_name = dim_name + "_t" return dim_name def object_at(self, path): "Returns the object at a given path in the tree." iter = self.get_iter(path) object = self.get_value(iter, 2) if object: object.show() return object def set_current_data(self, obj): self.current_data = obj