def add_dc(id, name, base): dc = DeviceConfig(id, name, d) dc.base = base dc.spacing = 1 dc.num = 1000 dc.time = 1 cl._add_config(dc)
def get_config_list(self): """Query and return the list of supported device configurations. Returns a ConfigList object. """ config_list = ConfigList() device = None config = None description = self.alh.get("sensing/deviceConfigList") for line in description.split("\n"): g = re.match("dev #([0-9]+), (.+), [0-9]+ configs:", line) if g: device = Device(int(g.group(1)), g.group(2)) config_list._add_device(device) continue g = re.match(" cfg #([0-9]+): (.+):", line) if g: config = DeviceConfig(int(g.group(1)), g.group(2), device) config_list._add_config(config) continue g = re.match(" base: ([0-9]+) Hz, spacing: ([0-9]+) Hz, bw: ([0-9]+) Hz, channels: ([0-9]+), time: ([0-9]+) ms", line) if g: config.base = int(g.group(1)) config.spacing = int(g.group(2)) config.bw = int(g.group(3)) config.num = int(g.group(4)) config.time = int(g.group(5)) continue return config_list
def get_config_list(self): """Query and return the list of supported device configurations. :return: a :py:class:`ConfigList` object """ config_list = ConfigList() device = None config = None description = self.alh.get("sensing/deviceConfigList") description = description.decode("ascii") configs_left = 0 state = 0 for line in description.split("\n"): g = re.match("dev #([0-9]+), (.+), ([0-9]+) configs:", line) if state == 0 and g: device = Device(int(g.group(1)), g.group(2)) config_list._add_device(device) configs_left = int(g.group(3)) state = 1 continue g = re.match(" cfg #([0-9]+): (.+):", line) if state == 1 and g: config = DeviceConfig(int(g.group(1)), g.group(2), device) state = 2 continue g = re.match( " base: ([0-9]+) Hz, spacing: ([0-9]+) Hz, bw: ([0-9]+) Hz, channels: ([0-9]+), time: ([0-9]+) ms", line) if state == 2 and g: config.base = int(g.group(1)) config.spacing = int(g.group(2)) config.bw = int(g.group(3)) config.num = int(g.group(4)) config.time = int(g.group(5)) config_list._add_config(config) configs_left -= 1 if configs_left < 0: raise CRCError elif configs_left == 0: state = 0 else: state = 1 continue if configs_left != 0: raise CRCError return config_list
def get_config_list(self): """Query and return the list of supported device configurations. :return: a :py:class:`ConfigList` object """ config_list = ConfigList() device = None config = None description = self.alh.get("sensing/deviceConfigList") description = description.decode("ascii") configs_left = 0 state = 0 for line in description.split("\n"): g = re.match("dev #([0-9]+), (.+), ([0-9]+) configs:", line) if state == 0 and g: device = Device(int(g.group(1)), g.group(2)) config_list._add_device(device) configs_left = int(g.group(3)) state = 1 continue g = re.match(" cfg #([0-9]+): (.+):", line) if state == 1 and g: config = DeviceConfig(int(g.group(1)), g.group(2), device) state = 2 continue g = re.match(" base: ([0-9]+) Hz, spacing: ([0-9]+) Hz, bw: ([0-9]+) Hz, channels: ([0-9]+), time: ([0-9]+) ms", line) if state == 2 and g: config.base = int(g.group(1)) config.spacing = int(g.group(2)) config.bw = int(g.group(3)) config.num = int(g.group(4)) config.time = int(g.group(5)) config_list._add_config(config) configs_left -= 1 if configs_left < 0: raise CRCError elif configs_left == 0: state = 0 else: state = 1 continue if configs_left != 0: raise CRCError return config_list
def _get_sc(self): d = Device(0, "test") dc = DeviceConfig(0, "foo", d) dc.base = 1000 dc.spacing = 1 dc.num = 1000 dc.time = 1 sc = SweepConfig(dc, 0, 3, 1) return sc
def setUp(self): d = Device(0, "test") dc = DeviceConfig(0, "foo", d) dc.base = 1000 dc.spacing = 1 dc.num = 1000 sc = SweepConfig(dc, 0, 3, 1) p = SpectrumSensorProgram(sc, 0, 10, 1) self.r = r = SpectrumSensorResult(p) s = Sweep() s.timestamp = 0.0 s.data = [0.0, 1.0, 2.0] r.sweeps.append(s) s = Sweep() s.timestamp = 1.0 s.data = [3.0, 4.0] r.sweeps.append(s)
def setUp(self): d = Device(0, "test") dc = DeviceConfig(0, "foo", d) dc.base = 1000 dc.spacing = 1 dc.num = 1000 sc = SweepConfig(dc, 0, 3, 1) p = SpectrumSensorProgram(sc, 0, 10, 1) self.r = r = SpectrumSensorResult(p) s = Sweep() s.timestamp = 0.0 s.data = [ 0.0, 1.0, 2.0 ] r.sweeps.append(s) s = Sweep() s.timestamp = 1.0 s.data = [ 3.0, 4.0 ] r.sweeps.append(s)