def electrode_changed(self): value = self.cBoxCond.currentText() if (self.cBoxElectrode1.currentText() == ''): self.TxtDegLoc1.clear() self.TxtDegLoc1_2.clear() self.TxtDegLocDif.clear() self.TxtEffLoc1.clear() self.TxtEffLoc2.clear() self.TxtEffLocDif.clear() else: if (value == 'Alone'): cond = 'B' elif (value == 'Spontaneous'): cond = 'C' else: cond = 'D' from undirectedGraph import Graph g1 = Graph() g1.create_nodes( g1.create_edges(self.cBoxPatient1.currentText() + '-' + cond)) self.TxtDegLoc1.setText( str( round( g1.degrees[int(self.cBoxElectrode1.currentText()) - 1], 3))) self.TxtEffLoc1.setText( str( round( g1.locals_efficiency[ int(self.cBoxElectrode1.currentText()) - 1], 3))) g2 = Graph() g2.create_nodes( g2.create_edges(self.cBoxPatient2.currentText() + '-' + cond)) self.TxtDegLoc1_2.setText( str( round( g2.degrees[int(self.cBoxElectrode1.currentText()) - 1], 3))) self.TxtEffLoc2.setText( str( round( g2.locals_efficiency[ int(self.cBoxElectrode1.currentText()) - 1], 3))) self.TxtDegLocDif.setText( str( round( abs( float(self.TxtDegLoc1.text()) - float(self.TxtDegLoc1_2.text())), 3))) self.TxtEffLocDif.setText( str( round( abs( float(self.TxtEffLoc1.text()) - float(self.TxtEffLoc2.text())), 3)))
def get_condition_data(self, research_name, group, condition): """This function calculates all the graph attributes of a specific conddition, group and research. :param research_name: Research's name :type research_name: String :param group: Group's name. :type group: String :param condition: Condition's name. :type condition: String :return: density, shortest_path_length, min_degree, max_degree, degree, local_efficiency :rtype: float """ from undirectedGraph import Graph import numpy with open( r'\\URI\Users\uriel\PycharmProjects\FinalProject\Gui\Patients.json' ) as json_file: patients_counter = 0 shortest_path_length = 0 density = 0 modularity = 0 min_degree = 0 max_degree = 0 min_efficiency = 0 max_efficiency = 0 degree = 0 local_efficiency = 0 data = json.load(json_file) for res in data['Patients']: if (res['research_name'] == research_name) and (res['group'] == group): patients_counter = patients_counter + 1 g = Graph() g.create_nodes( g.create_edges(res['full_name'] + '-' + condition)) print(res['full_name'] + '-' + condition + '-->' + res['group']) shortest_path_length = shortest_path_length + g.shortest_paths density = density + g.density # modularity min_degree = min_degree + g.min_degree() max_degree = max_degree + g.max_degree() # degree = numpy.array(degree) print(numpy.array(g.degrees)) degree = degree + numpy.array(g.degrees) local_efficiency = local_efficiency + numpy.array( g.locals_efficiency) print((density / patients_counter), (shortest_path_length / patients_counter), (min_degree / patients_counter), (max_degree / patients_counter), (degree / patients_counter), (local_efficiency / patients_counter)) return (density / patients_counter), ( shortest_path_length / patients_counter), (min_degree / patients_counter), ( max_degree / patients_counter), (degree / patients_counter), (local_efficiency / patients_counter)
def show_res_electrode(self): from undirectedGraph import Graph print(self.cBoxPname.currentText()) g = Graph() g.create_nodes( g.create_edges(self.cBoxPname.currentText() + '-' + cond)) # ---- For the COMOBO BOX -------- # self.TxtDeg.setText( str(round(g.degrees[int(self.cBoxElectrode.currentText()) - 1], 3))) self.TxtEff.setText( str( round( g.locals_efficiency[int(self.cBoxElectrode.currentText()) - 1], 3)))
def patient1_changed(self, value): print(value) condVal = self.cBoxCond.currentText() if (value == ''): self.TxtDesGlob1.clear() self.TxtAvgGlob1.clear() self.BrainGraph_2.clear() else: from undirectedGraph import Graph g = Graph() g.create_nodes(g.create_edges(value + '-' + cond)) # Global Parameters self.TxtDesGlob1.setText(str(round(g.density, 3))) self.TxtAvgGlob1.setText(str(round(g.shortest_paths, 3))) self.BrainGraph_2.setPixmap( QtGui.QPixmap(value + '-' + cond + ".png")) self.BrainGraph_2.setScaledContents(True) self.check_patients()
def patient2_changed(self, value): print(value) conddVal = self.cBoxCond.currentText() if (value == ''): self.TxtDesGlo2.clear() self.TxtAvgGlob2.clear() self.BrainGraph.clear() else: from undirectedGraph import Graph g = Graph() g.create_nodes(g.create_edges(value + '-' + cond)) self.TxtDesGlo2.setText(str(round(g.density, 3))) self.TxtAvgGlob2.setText(str(round(g.shortest_paths, 3))) self.BrainGraph.setPixmap( QtGui.QPixmap(value + '-' + cond + ".png")) self.BrainGraph.setScaledContents(True) # self.TxtDeg.setText(str(g.degrees[int(self.cBoxElectrode.currentText()) - 1])) # self.TxtEff.setText(str(g.locals_efficiency[int(self.cBoxElectrode.currentText()) - 1])) self.check_patients()
def condition_changed(self, value): global cond cond = '' if not (value == ''): if (value == 'Alone'): cond = 'B' elif (value == 'Spontaneous'): cond = 'C' else: cond = 'D' from undirectedGraph import Graph g = Graph() g.create_nodes( g.create_edges(self.cBoxPname.currentText() + '-' + cond)) self.TxtDes.setText(str(round(g.density, 3))) self.TxtAvg.setText(str(round(g.shortest_paths, 3))) self.BrainGraph.setPixmap( QtGui.QPixmap(self.cBoxPname.currentText() + '-' + cond + ".png")) self.BrainGraph.setScaledContents(True) self.TxtDeg.setText( str( round(g.degrees[int(self.cBoxElectrode.currentText()) - 1], 3))) self.TxtEff.setText( str( round( g.locals_efficiency[ int(self.cBoxElectrode.currentText()) - 1], 3))) else: self.TxtDes.clear() self.TxtAvg.clear() self.TxtMod.clear() self.BrainGraph.clear() self.TxtDeg.clear() self.TxtEff.clear()