def __init__(self, config_dic): print 'beam scanner controller', config_dic self.ip = '192.168.1.62' self.port = 9988 self.move_xy = MoveXY(self.ip, self.port) self.rotate = Rotate(self.ip, self.port) self.point = float(config_dic['total_points']) self.side_size = float(config_dic['size']) angle = float(config_dic['angle_to_measure']) angle_speed = float(config_dic['angle_speed']) self.rotate.start_connection() self.move_xy.start_connection() self.rotate.set_hspd(angle_speed) self.fast_sweep = config_dic['fast'] if not self.rotate.move_absolute(angle): raise Exception('fail to rotate') if not self.move_xy.move_absolute(0.0,0.0): raise Exception('fail to position') from math import sqrt if self.fast_sweep: self.side_points = (self.point)/2 else: self.side_points = sqrt(self.point) self.total_points = self.point self.distance_step = self.side_size/(self.side_points-1) print 'side', self.distance_step if self.fast_sweep: self.move_xy.move_absolute(0,-self.side_size/2) else: self.move_xy.move_absolute(-self.side_size/2,-self.side_size/2) self.rotate.close_connection() time.sleep(5) self.delta_x = 0 self.prev_x_delta = self.distance_step self.delta_y = 0
def __init__(self, config_dic): print 'beam scanner controller', config_dic self.ip = '192.168.1.62' self.port = 9988 self.move_xy = MoveXY(self.ip, self.port) self.rotate = Rotate(self.ip, self.port) self.x = config_dic['x'] self.y = config_dic['y'] self.theta = config_dic['theta'] angle_speed = float(config_dic['angle_speed']) self.rotate.start_connection() self.move_xy.start_connection() self.rotate.set_hspd(angle_speed)
class BeamScannerControllerTone(ToneDCSource): def __init__(self, config_dic): print 'beam scanner controller', config_dic self.ip = '192.168.1.62' self.port = 9988 self.move_xy = MoveXY(self.ip, self.port) self.rotate = Rotate(self.ip, self.port) self.x = config_dic['x'] self.y = config_dic['y'] self.theta = config_dic['theta'] angle_speed = float(config_dic['angle_speed']) self.rotate.start_connection() self.move_xy.start_connection() self.rotate.set_hspd(angle_speed) def turn_on(self): if not self.rotate.move_absolute(self.theta): raise Exception('fail to rotate') if not self.move_xy.move_absolute(self.x, self.y): raise Exception('fail to position') def stop_source(self): self.rotate.close_connection() self.move_xy.close_connection() def turn_off(self): if not self.rotate.move_absolute(0): raise Exception('fail to rotate') if not self.move_xy.move_absolute(0,0): raise Exception('fail to position')
def __init__(self, **kwargs): super(BeamScanner, self).__init__(kwargs=kwargs) # activate the beam scanner self.active_state = False self.sweep_state = False sweep_label = Label(text='Do Sweep') self.sweep_switch = Switch(active=False) self.sweep_switch.bind(active=self.sweepe_or_not) sweep_layout = BoxLayout(orientation='horizontal', size_hint=(1,None), size=(1,40)) sweep_layout.add_widget(sweep_label) sweep_layout.add_widget(self.sweep_switch) # this is the controll to move the beam scanner self.set_center = Button(text='Set Center', size_hint=(1, None), size=(1, 30)) self.set_center.bind(on_press=self.set_zero_xy) self.move_up = Button(text='/\\', size_hint=(0.33, None), size=(1, 30)) self.move_up.bind(on_press=self.move_up_beam) move_up_padding_l = Label(size_hint=(0.33, None), size=(1, 30)) move_up_padding_r = Label(size_hint=(0.33, None), size=(1, 30)) self.move_left = Button(text='<', size_hint=(0.33, None), size=(1, 30)) self.move_left.bind(on_press=self.move_left_beam) self.move_rigth = Button(text='>', size_hint=(0.33, None), size=(1, 30)) self.move_rigth.bind(on_press=self.move_rigth_beam) self.step_size = TextInput(size_hint=(0.33, None), size=(1, 30), multiline=False) self.step_size.text = '0.0' self.move_down = Button(text='\\/', size_hint=(0.33, None), size=(1, 30)) self.move_down.bind(on_press=self.move_down_beam) move_down_padding_l = Label(size_hint=(0.33, None), size=(1, 30)) move_down_padding_r = Label(size_hint=(0.33, None), size=(1, 30)) move_top = BoxLayout(orientation='horizontal', size_hint=(1, None), size=(1, 30)) move_top.add_widget(move_up_padding_l) move_top.add_widget(self.move_up) move_top.add_widget(move_up_padding_r) move_middle = BoxLayout(orientation='horizontal', size_hint=(1, None), size=(1, 30)) move_middle.add_widget(self.move_left) move_middle.add_widget(self.step_size) move_middle.add_widget(self.move_rigth) move_bottom = BoxLayout(orientation='horizontal', size_hint=(1, None), size=(1, 30)) move_bottom.add_widget(move_down_padding_l) move_bottom.add_widget(self.move_down) move_bottom.add_widget(move_down_padding_r) move_xy_layes = BoxLayout(orientation='vertical', size_hint=(1, None), size=(1, 120)) move_xy_layes.add_widget(self.set_center) move_xy_layes.add_widget(move_top) move_xy_layes.add_widget(move_middle) move_xy_layes.add_widget(move_bottom) # this is the controll to rotate the beam scanner self.set_origin = Button(text='Set Zero', size_hint=(0.33, None), size=(1, 30)) self.set_origin.bind(on_press=self.set_zero_ang) self.do_rotation = Button(text='Rotate to:', size_hint=(0.33, None), size=(1, 30)) self.do_rotation.bind(on_press=self.rotate) self.destination_angle = TextInput(size_hint=(0.33, None), size=(1, 30), multiline=False) self.destination_angle.text = '0.0' rotation_layou = BoxLayout(orientation='horizontal', size_hint=(1, None), size=(1, 30)) rotation_layou.add_widget(self.set_origin) rotation_layou.add_widget(self.do_rotation) rotation_layou.add_widget(self.destination_angle) # rotation speed speed_rotation = Label(text='Angular Speed', size_hint=(1, None), size=(1, 30)) self.speed_rotation_value = TextInput(size_hint=(1, None), size=(1, 30)) self.speed_rotation_value.text = '10.0' rotation_speed = BoxLayout(orientaion='horizontal', size_hint=(1, None), size=(1, 30)) rotation_speed.add_widget(speed_rotation) rotation_speed.add_widget(self.speed_rotation_value) # check the plane movility size_of_plane_label = Label(text='Plane size [mm]', size=(1, 30)) self.size_of_plane_val = TextInput(size=(1, 30), multiline=False) self.size_of_plane_val.text = '0.0' self.size_of_plane_val.bind(focus=self.set_number_of_points) plane_size = BoxLayout(orientaion='horizontal', size_hint=(1, None), size=(1, 30)) plane_size.add_widget(size_of_plane_label) plane_size.add_widget(self.size_of_plane_val) # configuration # frecuency frec_label = Label(text='Set Lambda [mm]: ', size_hint=(1, None), size=(1, 30)) self.frec_value = TextInput(size_hint=(1, None), size=(1, 30), multiline=False) self.frec_value.text = '0.0' self.frec_value.bind(focus=self.set_number_of_points) frec_step = Label(text='Step factor: ', size_hint=(1, None), size=(1, 30)) self.frec_step_value = TextInput(size_hint=(1, None), size=(1, 30), multiline=False) self.frec_step_value.text = '0.45' self.frec_step_value.bind(focus=self.set_number_of_points) frec_layout_val = BoxLayout(orientation='horizontal', size_hint=(1, None), size=(1, 30)) frec_layout_val.add_widget(frec_label) frec_layout_val.add_widget(self.frec_value) frec_layout_step = BoxLayout(orientation='horizontal', size_hint=(1, None), size=(1, 30)) frec_layout_step.add_widget(frec_step) frec_layout_step.add_widget(self.frec_step_value) frec_layout = BoxLayout(orientation='vertical', size_hint=(1, None), size=(1, 60)) frec_layout.add_widget(frec_layout_val) frec_layout.add_widget(frec_layout_step) # display step step_label = Label(text='Number of Points: ') self.step_val = Label(text='0') display_step = BoxLayout(orientation='horizontal', size_hint=(1, None), size=(1, 30)) display_step.add_widget(step_label) display_step.add_widget(self.step_val) # fast sweep enable self.fast_sweepp = ToggleButton(text='fast sweep', size_hint=(1,None), size=(1,30)) # goto configuration goto_label = Label(text='Go to Position') self.goto_switch = Switch(active=False) self.goto_switch.bind(active=self.goto_or_not) x_dest = Label(text = 'x position [mm]') y_dest = Label(text = 'y position [mm]') theta_dest = Label(text = 'angle [Degree]') self.x_dest_val = TextInput(size_hint=(0.33, None), size=(1, 30), multiline=False) self.x_dest_val.text = '0.0' self.y_dest_val = TextInput(size_hint=(0.33, None), size=(1, 30), multiline=False) self.y_dest_val.text = '0.0' self.theta_dest_val = TextInput(size_hint=(0.33, None), size=(1, 30), multiline=False) self.theta_dest_val.text = '0.0' goto_layout = BoxLayout(orientation='horizontal', size_hint=(1, None), size=(1, 30)) goto_layout.add_widget(goto_label) goto_layout.add_widget(self.goto_switch) goto_layout_x = BoxLayout(orientation='horizontal', size_hint=(1, None), size=(1, 30)) goto_layout_x.add_widget(x_dest) goto_layout_x.add_widget(self.x_dest_val) goto_layout_y = BoxLayout(orientation='horizontal', size_hint=(1, None), size=(1, 30)) goto_layout_y.add_widget(y_dest) goto_layout_y.add_widget(self.y_dest_val) goto_layout_theta = BoxLayout(orientation='horizontal', size_hint=(1, None), size=(1, 30)) goto_layout_theta.add_widget(theta_dest) goto_layout_theta.add_widget(self.theta_dest_val) goto_switch = BoxLayout(orientation='vertical', size_hint=(1, None), size=(1, 120)) goto_switch.add_widget(goto_layout) goto_switch.add_widget(goto_layout_x) goto_switch.add_widget(goto_layout_y) goto_switch.add_widget(goto_layout_theta) # big container configuration paddind = BoxLayout(size_hint=(1, 1), size=(1, 1000)) self.big_one = BoxLayout(orientation='vertical') self.big_one.add_widget(sweep_layout) self.big_one.add_widget(move_xy_layes) self.big_one.add_widget(rotation_layou) self.big_one.add_widget(rotation_speed) self.big_one.add_widget(plane_size) self.big_one.add_widget(frec_layout) self.big_one.add_widget(display_step) self.big_one.add_widget(self.fast_sweepp) self.big_one.add_widget(goto_switch) self.big_one.add_widget(paddind) self.add_widget(self.big_one) # attributes that lets you connect to beam scanner self.ip_beam = '192.168.1.62' self.ip_port = 9988 self.move_xy = MoveXY(self.ip_beam, self.ip_port) self.move_ang = Rotate(self.ip_beam, self.ip_port) # disconnect thread configuration self.monitor = threading.Event() self.disconnect = True self.launch_thread = False
class BeamScanner(AbstractSource): def __init__(self, **kwargs): super(BeamScanner, self).__init__(kwargs=kwargs) # activate the beam scanner self.active_state = False self.sweep_state = False sweep_label = Label(text='Do Sweep') self.sweep_switch = Switch(active=False) self.sweep_switch.bind(active=self.sweepe_or_not) sweep_layout = BoxLayout(orientation='horizontal', size_hint=(1,None), size=(1,40)) sweep_layout.add_widget(sweep_label) sweep_layout.add_widget(self.sweep_switch) # this is the controll to move the beam scanner self.set_center = Button(text='Set Center', size_hint=(1, None), size=(1, 30)) self.set_center.bind(on_press=self.set_zero_xy) self.move_up = Button(text='/\\', size_hint=(0.33, None), size=(1, 30)) self.move_up.bind(on_press=self.move_up_beam) move_up_padding_l = Label(size_hint=(0.33, None), size=(1, 30)) move_up_padding_r = Label(size_hint=(0.33, None), size=(1, 30)) self.move_left = Button(text='<', size_hint=(0.33, None), size=(1, 30)) self.move_left.bind(on_press=self.move_left_beam) self.move_rigth = Button(text='>', size_hint=(0.33, None), size=(1, 30)) self.move_rigth.bind(on_press=self.move_rigth_beam) self.step_size = TextInput(size_hint=(0.33, None), size=(1, 30), multiline=False) self.step_size.text = '0.0' self.move_down = Button(text='\\/', size_hint=(0.33, None), size=(1, 30)) self.move_down.bind(on_press=self.move_down_beam) move_down_padding_l = Label(size_hint=(0.33, None), size=(1, 30)) move_down_padding_r = Label(size_hint=(0.33, None), size=(1, 30)) move_top = BoxLayout(orientation='horizontal', size_hint=(1, None), size=(1, 30)) move_top.add_widget(move_up_padding_l) move_top.add_widget(self.move_up) move_top.add_widget(move_up_padding_r) move_middle = BoxLayout(orientation='horizontal', size_hint=(1, None), size=(1, 30)) move_middle.add_widget(self.move_left) move_middle.add_widget(self.step_size) move_middle.add_widget(self.move_rigth) move_bottom = BoxLayout(orientation='horizontal', size_hint=(1, None), size=(1, 30)) move_bottom.add_widget(move_down_padding_l) move_bottom.add_widget(self.move_down) move_bottom.add_widget(move_down_padding_r) move_xy_layes = BoxLayout(orientation='vertical', size_hint=(1, None), size=(1, 120)) move_xy_layes.add_widget(self.set_center) move_xy_layes.add_widget(move_top) move_xy_layes.add_widget(move_middle) move_xy_layes.add_widget(move_bottom) # this is the controll to rotate the beam scanner self.set_origin = Button(text='Set Zero', size_hint=(0.33, None), size=(1, 30)) self.set_origin.bind(on_press=self.set_zero_ang) self.do_rotation = Button(text='Rotate to:', size_hint=(0.33, None), size=(1, 30)) self.do_rotation.bind(on_press=self.rotate) self.destination_angle = TextInput(size_hint=(0.33, None), size=(1, 30), multiline=False) self.destination_angle.text = '0.0' rotation_layou = BoxLayout(orientation='horizontal', size_hint=(1, None), size=(1, 30)) rotation_layou.add_widget(self.set_origin) rotation_layou.add_widget(self.do_rotation) rotation_layou.add_widget(self.destination_angle) # rotation speed speed_rotation = Label(text='Angular Speed', size_hint=(1, None), size=(1, 30)) self.speed_rotation_value = TextInput(size_hint=(1, None), size=(1, 30)) self.speed_rotation_value.text = '10.0' rotation_speed = BoxLayout(orientaion='horizontal', size_hint=(1, None), size=(1, 30)) rotation_speed.add_widget(speed_rotation) rotation_speed.add_widget(self.speed_rotation_value) # check the plane movility size_of_plane_label = Label(text='Plane size [mm]', size=(1, 30)) self.size_of_plane_val = TextInput(size=(1, 30), multiline=False) self.size_of_plane_val.text = '0.0' self.size_of_plane_val.bind(focus=self.set_number_of_points) plane_size = BoxLayout(orientaion='horizontal', size_hint=(1, None), size=(1, 30)) plane_size.add_widget(size_of_plane_label) plane_size.add_widget(self.size_of_plane_val) # configuration # frecuency frec_label = Label(text='Set Lambda [mm]: ', size_hint=(1, None), size=(1, 30)) self.frec_value = TextInput(size_hint=(1, None), size=(1, 30), multiline=False) self.frec_value.text = '0.0' self.frec_value.bind(focus=self.set_number_of_points) frec_step = Label(text='Step factor: ', size_hint=(1, None), size=(1, 30)) self.frec_step_value = TextInput(size_hint=(1, None), size=(1, 30), multiline=False) self.frec_step_value.text = '0.45' self.frec_step_value.bind(focus=self.set_number_of_points) frec_layout_val = BoxLayout(orientation='horizontal', size_hint=(1, None), size=(1, 30)) frec_layout_val.add_widget(frec_label) frec_layout_val.add_widget(self.frec_value) frec_layout_step = BoxLayout(orientation='horizontal', size_hint=(1, None), size=(1, 30)) frec_layout_step.add_widget(frec_step) frec_layout_step.add_widget(self.frec_step_value) frec_layout = BoxLayout(orientation='vertical', size_hint=(1, None), size=(1, 60)) frec_layout.add_widget(frec_layout_val) frec_layout.add_widget(frec_layout_step) # display step step_label = Label(text='Number of Points: ') self.step_val = Label(text='0') display_step = BoxLayout(orientation='horizontal', size_hint=(1, None), size=(1, 30)) display_step.add_widget(step_label) display_step.add_widget(self.step_val) # fast sweep enable self.fast_sweepp = ToggleButton(text='fast sweep', size_hint=(1,None), size=(1,30)) # goto configuration goto_label = Label(text='Go to Position') self.goto_switch = Switch(active=False) self.goto_switch.bind(active=self.goto_or_not) x_dest = Label(text = 'x position [mm]') y_dest = Label(text = 'y position [mm]') theta_dest = Label(text = 'angle [Degree]') self.x_dest_val = TextInput(size_hint=(0.33, None), size=(1, 30), multiline=False) self.x_dest_val.text = '0.0' self.y_dest_val = TextInput(size_hint=(0.33, None), size=(1, 30), multiline=False) self.y_dest_val.text = '0.0' self.theta_dest_val = TextInput(size_hint=(0.33, None), size=(1, 30), multiline=False) self.theta_dest_val.text = '0.0' goto_layout = BoxLayout(orientation='horizontal', size_hint=(1, None), size=(1, 30)) goto_layout.add_widget(goto_label) goto_layout.add_widget(self.goto_switch) goto_layout_x = BoxLayout(orientation='horizontal', size_hint=(1, None), size=(1, 30)) goto_layout_x.add_widget(x_dest) goto_layout_x.add_widget(self.x_dest_val) goto_layout_y = BoxLayout(orientation='horizontal', size_hint=(1, None), size=(1, 30)) goto_layout_y.add_widget(y_dest) goto_layout_y.add_widget(self.y_dest_val) goto_layout_theta = BoxLayout(orientation='horizontal', size_hint=(1, None), size=(1, 30)) goto_layout_theta.add_widget(theta_dest) goto_layout_theta.add_widget(self.theta_dest_val) goto_switch = BoxLayout(orientation='vertical', size_hint=(1, None), size=(1, 120)) goto_switch.add_widget(goto_layout) goto_switch.add_widget(goto_layout_x) goto_switch.add_widget(goto_layout_y) goto_switch.add_widget(goto_layout_theta) # big container configuration paddind = BoxLayout(size_hint=(1, 1), size=(1, 1000)) self.big_one = BoxLayout(orientation='vertical') self.big_one.add_widget(sweep_layout) self.big_one.add_widget(move_xy_layes) self.big_one.add_widget(rotation_layou) self.big_one.add_widget(rotation_speed) self.big_one.add_widget(plane_size) self.big_one.add_widget(frec_layout) self.big_one.add_widget(display_step) self.big_one.add_widget(self.fast_sweepp) self.big_one.add_widget(goto_switch) self.big_one.add_widget(paddind) self.add_widget(self.big_one) # attributes that lets you connect to beam scanner self.ip_beam = '192.168.1.62' self.ip_port = 9988 self.move_xy = MoveXY(self.ip_beam, self.ip_port) self.move_ang = Rotate(self.ip_beam, self.ip_port) # disconnect thread configuration self.monitor = threading.Event() self.disconnect = True self.launch_thread = False def sweepe_or_not(self, instance, value): if value: self.sweep_state = value self.goto_switch.active = False self.active_state = value def goto_or_not(self, instance, value): if value: self.sweep_state = False self.sweep_switch.active = False self.active_state = value def is_active(self): return self.active_state def do_sweep(self): return self.sweep_state # connecto to configure and move around def start_connection(self): self.disconnect = False if not self.launch_thread: try: self.move_xy.start_connection() self.move_ang.start_connection() threading.Thread(target=self.close_connection_timer).start() self.launch_thread = True try: self.move_ang.set_hspd(float(self.speed_rotation_value.text)) except: pass return True except socket.error as e: Popup(title='Error BeamScanner', content=Label(text=e.message), size_hint=(None, None), size=(200, 200)).open() return False return True def stop_connection(self): self.move_xy.close_connection() self.move_ang.close_connection() # movement of the beam scanner def move_left_beam(self, instance): if self.start_connection(): try: if not self.move_xy.move_relative(float(self.step_size.text), 0): self.stop_connection() self.disconnect = True except Exception as e: self.stop_connection() def move_rigth_beam(self, instance): if self.start_connection(): try: if not self.move_xy.move_relative(-float(self.step_size.text), 0): self.stop_connection() self.disconnect = True except Exception: self.stop_connection() def move_up_beam(self, instance): if self.start_connection(): try: if not self.move_xy.move_relative(0, -float(self.step_size.text)): self.stop_connection() self.disconnect = True except Exception as e: self.stop_connection() def move_down_beam(self, instance): if self.start_connection(): try: if not self.move_xy.move_relative(0, float(self.step_size.text)): self.stop_connection() self.disconnect = True except Exception as e: self.stop_connection() def rotate(self, instance): if self.start_connection(): try: if not self.move_ang.move_absolute(float(self.destination_angle.text)): self.stop_connection() self.disconnect = True except Exception: self.stop_connection() def set_zero_xy(self, instance): if self.start_connection(): try: if not self.move_xy.set_origin(): self.stop_connection() self.disconnect = True except Exception: self.stop_connection() def set_zero_ang(self, instance): if self.start_connection(): try: if not self.move_ang.set_origin(): self.stop_connection() self.disconnect = True except Exception: self.stop_connection() def set_number_of_points(self, instance, value): try: lambda_ = float(self.frec_value.text) factor = float(self.frec_step_value.text) if lambda_*factor > 0: size = float(self.size_of_plane_val.text) points = int(0.5 + size/(lambda_*factor)) + 1 self.step_val.text = str(points*points) except: pass # thead de apagado def close_connection_timer(self): print 'close function initiated' while 1: if self.disconnect: print 'closing function' self.stop_connection() break self.disconnect = True self.monitor.wait(15) self.launch_thread = False def get_source_config(self): return_dic = {} try : if self.sweep_state: return_dic['size'] = float(self.size_of_plane_val.text) return_dic['frec_number_point'] = (int(self.step_val.text)) return_dic['angle_to_measure'] = float(self.destination_angle.text) return_dic['instance'] = BeamScannerController return_dic['angle_speed'] = float(self.speed_rotation_value.text) return_dic['name'] = self.get_my_name() return_dic['fast'] = self.fast_sweepp.state != 'normal' if return_dic['fast']: return_dic['total_points'] = sqrt(int(self.step_val.text))*2 return_dic['frec_number_point'] = sqrt(int(self.step_val.text))*2 else: return_dic['total_points'] = int(self.step_val.text) return_dic['frec_number_point'] = int(self.step_val.text) else: return_dic['angle_speed'] = float(self.speed_rotation_value.text) return_dic['name'] = self.get_my_name() return_dic['instance'] = BeamScannerControllerTone return_dic['x'] = float(self.x_dest_val.text) return_dic['y'] = float(self.y_dest_val.text) return_dic['theta'] = float(self.theta_dest_val.text) except: raise Exception('Please Enter Numbers only') return return_dic def get_my_name(self): return 'BeamScanner' def save_config_dictionary(self): dic_return = {} dic_return['on_off'] = self.active_state dic_return['sweep'] = self.sweep_state dic_return['size'] = self.size_of_plane_val.text dic_return['total_points'] = self.step_val.text dic_return['angle_to_measure'] = self.destination_angle.text dic_return['angle_speed'] = self.speed_rotation_value.text dic_return['x'] = float(self.x_dest_val.text) dic_return['y'] = float(self.y_dest_val.text) dic_return['theta'] = float(self.theta_dest_val.text) dic_return['lambda'] = self.frec_value.text dic_return['step_factor'] = self.step_size.text return {self.get_my_name():dic_return} def set_configuration(self, config_dictionary): if self.get_my_name() in config_dictionary: config_dictionary_ = config_dictionary[self.get_my_name()] self.active_state = config_dictionary_['on_off'] self.sweep_state = config_dictionary_['sweep'] self.size_of_plane_val.text = config_dictionary_['size'] self.step_val.text = config_dictionary_['total_points'] self.destination_angle.text = config_dictionary_['angle_to_measure'] self.speed_rotation_value.text = config_dictionary_['angle_speed'] self.x_dest_val.text = str(config_dictionary_['x']) self.y_dest_val.text = str(config_dictionary_['y']) self.theta_dest_val.text = str(config_dictionary_['theta']) self.frec_value.text = config_dictionary_['lambda'] self.step_size.text = config_dictionary_['step_factor'] if self.active_state: if self.sweep_state: self.sweep_switch.active = True else: self.goto_switch.active = True else: self.sweep_switch.active = False self.goto_switch.active = False else: self.sweep_switch.active = False self.goto_switch.active = False
class BeamScannerController(AbstractSource): def __init__(self, config_dic): print 'beam scanner controller', config_dic self.ip = '192.168.1.62' self.port = 9988 self.move_xy = MoveXY(self.ip, self.port) self.rotate = Rotate(self.ip, self.port) self.point = float(config_dic['total_points']) self.side_size = float(config_dic['size']) angle = float(config_dic['angle_to_measure']) angle_speed = float(config_dic['angle_speed']) self.rotate.start_connection() self.move_xy.start_connection() self.rotate.set_hspd(angle_speed) self.fast_sweep = config_dic['fast'] if not self.rotate.move_absolute(angle): raise Exception('fail to rotate') if not self.move_xy.move_absolute(0.0,0.0): raise Exception('fail to position') from math import sqrt if self.fast_sweep: self.side_points = (self.point)/2 else: self.side_points = sqrt(self.point) self.total_points = self.point self.distance_step = self.side_size/(self.side_points-1) print 'side', self.distance_step if self.fast_sweep: self.move_xy.move_absolute(0,-self.side_size/2) else: self.move_xy.move_absolute(-self.side_size/2,-self.side_size/2) self.rotate.close_connection() time.sleep(5) self.delta_x = 0 self.prev_x_delta = self.distance_step self.delta_y = 0 def set_generator_fast_sweep(self, current_channel): if current_channel == 0: return self.delta_x = 0 self.delta_y = 0 if current_channel >= self.side_points: if current_channel == self.side_points: self.move_xy.move_absolute(-self.side_size/2,0) self.delta_x = self.distance_step else: self.delta_y = self.distance_step self.move_xy.move_relative(self.delta_x, self.delta_y) time.sleep(0.5) print 'move to postion: ',int(current_channel/self.side_points), ' , ' ,current_channel%self.side_points def set_generator(self, current_channel): if self.fast_sweep: self.set_generator_fast_sweep(current_channel) return change_detector = current_channel%self.side_points direcction = int(current_channel/self.side_points) if current_channel == 0: self.delta_x = 0 self.delta_y = 0 else: if change_detector == 0: if direcction%2 == 0: self.prev_x_delta = self.distance_step if direcction%2 ==1: self.prev_x_delta = -self.distance_step self.delta_y = self.distance_step self.delta_x = 0 else: self.delta_y = 0 self.delta_x = self.prev_x_delta self.move_xy.move_relative(self.delta_x, self.delta_y) time.sleep(0.5) print 'move to postion: ',int(current_channel/self.side_points), ' , ' ,current_channel%self.side_points def close_process(self): self.move_xy.move_absolute(0.0,0.0) self.move_xy.close_connection()