コード例 #1
0
ファイル: magpie_agent.py プロジェクト: simonsobs/socs
    def stream_fake_data(self, session, params=None):
        """stream_fake_data()

        **Process** - Process for streaming fake data. This will queue up
        G3Frames full of fake data to be sent to lyrebird.
        """
        self._run_fake_stream = True
        ndets = self.fp.num_dets
        chans = np.arange(ndets)
        frame_start = time.time()
        while self._run_fake_stream:
            time.sleep(2)
            frame_stop = time.time()
            ts = np.arange(frame_start, frame_stop, 1. / self.target_rate)
            frame_start = frame_stop
            nframes = len(ts)

            data_out = np.random.normal(0, 1, (nframes, ndets))
            data_out += np.sin(2 * np.pi * ts[:, None] + .2 * chans[None, :])

            for t, d in zip(ts, data_out):
                fr = core.G3Frame(core.G3FrameType.Scan)
                fr['idx'] = 0
                fr['data'] = core.G3VectorDouble(d)
                fr['timestamp'] = core.G3Time(t * core.G3Units.s)
                self.out_queue.put(fr)

                fr = core.G3Frame(core.G3FrameType.Scan)
                fr['idx'] = 1
                fr['data'] = core.G3VectorDouble(np.sin(d))
                fr['timestamp'] = core.G3Time(t * core.G3Units.s)
                self.out_queue.put(fr)

        return True, "Stopped fake stream process"
コード例 #2
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    def _send_cleanse_flowcontrol_frame(self):
        """Send CLEANSE flowcontrol frames."""
        if self.writer is not None:
            self.log.info("Sending CLEANSE flowcontrol frame")

            f = core.G3Frame(core.G3FrameType.Observation)
            f['sostream_flowcontrol'] = FlowControl.CLEANSE.value
            self.writer.Process(f)

            f = core.G3Frame(core.G3FrameType.Wiring)
            f['sostream_flowcontrol'] = FlowControl.CLEANSE.value
            self.writer.Process(f)
コード例 #3
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    def start_stream(self, session, params=None):

        if params is None:
            params = {}

        delay = params.get('delay', 1)
        ts_len = params.get('ts_len', 100)

        # Writes status frame
        f = core.G3Frame(core.G3FrameType.Housekeeping)
        f['session_id'] = 0
        f['start_time'] = time.time()
        self.writer.Process(f)

        self.is_streaming = True
        frame_num = 0
        while self.is_streaming:

            f = core.G3Frame(core.G3FrameType.Scan)

            t1 = time.time()
            t0 = t1 - delay

            ts = np.arange(t0, t1, 1 / self.freq)

            f['session_id'] = 0
            f['frame_num'] = frame_num
            f['data'] = core.G3TimestreamMap()

            for k, c in self.channels.items():

                fparams = copy.copy(c)
                bg = np.random.normal(0, fparams.get('stdev', 0), len(ts))
                if fparams['type'] == 'const':
                    xs = bg + fparams['val']
                elif fparams['type'] in ['lin', 'linear']:
                    xs = bg + ts * fparams['slope'] + fparams.get('offset', 0)
                # Wraps from -pi to pi
                xs = np.mod(xs + np.pi, 2 * np.pi) - np.pi

                f['data'][k] = core.G3Timestream(xs)
                f['data'][k].start = core.G3Time(t0 * core.G3Units.sec)
                f['data'][k].stop = core.G3Time(t1 * core.G3Units.sec)

            self.log.info("Writing G3 Frame")
            self.writer.Process(f)
            frame_num += 1
            time.sleep(delay)
        print("Writing EndProcessingFrame")
        f = core.G3Frame(core.G3FrameType.EndProcessing)
        self.writer.Process(f)
        return True, "Finished streaming"
コード例 #4
0
    def _send_start_flowcontrol_frame(self):
        """Send START flowcontrol frame."""
        if self.writer is not None:
            self.log.info("Sending START flowcontrol frame")
            f = core.G3Frame(core.G3FrameType.none)
            f['sostream_flowcontrol'] = FlowControl.START.value
            self.writer.Process(f)

            # Send new Observation frame at start of observation
            f = core.G3Frame(core.G3FrameType.Observation)
            f['session_id'] = 0
            f['start_time'] = time.time()
            self.writer.Process(f)
コード例 #5
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    def start_stream(self, session, params=None):
        """
        Task to stream fake detector data as G3Frames

        Args:
            frame_rate (float, optional):
                Frequency [Hz] at which G3Frames are sent over the network.
                Defaults to 1 frame pers sec.
            sample_rate (float, optional):
                Sample rate [Hz] for each channel.
                Defaults to 10 Hz.
        """
        if params is None:
            params = {}

        frame_rate = params.get('frame_rate', 1.)
        sample_rate = params.get('sample_rate', 10.)

        f = core.G3Frame(core.G3FrameType.Observation)
        f['session_id'] = 0
        f['start_time'] = time.time()
        self.writer.Process(f)

        frame_num = 0
        self.is_streaming = True
        while self.is_streaming:

            frame_start = time.time()
            time.sleep(1. / frame_rate)
            frame_stop = time.time()
            times = np.arange(frame_start, frame_stop, 1. / sample_rate)

            f = core.G3Frame(core.G3FrameType.Scan)
            f['session_id'] = 0
            f['frame_num'] = frame_num
            f['data'] = core.G3TimestreamMap()

            for i, chan in enumerate(self.channels):
                ts = core.G3Timestream([chan.read(t) for t in times])
                ts.start = core.G3Time(frame_start * core.G3Units.sec)
                ts.stop = core.G3Time(frame_stop * core.G3Units.sec)
                f['data'][str(i)] = ts

            self.writer.Process(f)
            self.log.info("Writing frame...")
            frame_num += 1

        return True, "Finished streaming"
コード例 #6
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    def test_50_compression(self):
        test_file = 'test_g3super.g3'

        # Entropy?
        sigma_bits = 8
        sigma = 2**sigma_bits
        _get_ts = lambda dtype: self._get_ts(
            100, 10000, sigma=sigma, dtype=dtype, seed=12345)

        w = core.G3Writer(test_file)

        sizes = {d: [] for d in ALL_DTYPES}
        for dtype in ALL_DTYPES:
            # No compression
            f = core.G3Frame()
            ts = _get_ts(dtype)
            sizes[dtype].append(ts.data.nbytes)
            ts.options(enable=0)
            f['ts_%s' % dtype] = ts
            w.Process(f)

            # Yes compression
            f = core.G3Frame()
            ts = _get_ts(dtype)
            f['ts_%s' % dtype] = ts
            w.Process(f)
        del w

        # Readback
        r = so3g.G3IndexedReader(test_file)
        last = 0
        for dtype in ALL_DTYPES:
            for i in range(2):
                r.Process(None)[0]
                here = r.Tell()
                sizes[dtype].append(here - last)
                last = here

        # Process the results...
        for dtype in ALL_DTYPES:
            err_msg = f'Failed for dtype={dtype}'
            n, s_uncomp, s_comp = sizes[dtype]
            comp_ratio = 1. - (s_uncomp - s_comp) / n
            # But really what matters is the bits-per-word, compressed.
            bits_per_word = comp_ratio * 8 * np.dtype(dtype).itemsize
            #print(dtype, bits_per_word / sigma_bits)
            # I think the theoretical limit is 1.3 or so...
            self.assertLess(bits_per_word, sigma_bits * 1.4, err_msg)
コード例 #7
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    def __call__(self, frame):
        if self.ran:
            return frame

        from pydfmux.core import dfmux as pydfmux
        hwmf = core.G3Frame(core.G3FrameType.Wiring)
        hwm = DfMuxWiringMap()
        for mod in self.hwm.query(pydfmux.ReadoutModule):
            for bolo in range(self.channels):
                mapping = DfMuxChannelMapping()
                mapping.board_ip = struct.unpack(
                    "i",
                    socket.inet_aton(
                        socket.gethostbyname('iceboard' +
                                             str(mod.iceboard.serial) +
                                             '.local')))[0]
                mapping.board_serial = int(mod.iceboard.serial)
                mapping.board_slot = mod.iceboard.slot if mod.iceboard.slot else -1
                mapping.crate_serial = int(
                    mod.iceboard.crate.serial) if mod.iceboard.slot else -1
                mapping.module = mod.module - 1  # pydfmux HWMs use 1-indexing of modules, while FPGA uses 0-indexing
                if mod.mezzanine.mezzanine == 2:
                    mapping.module += 4
                mapping.channel = bolo
                hwm[str(mapping)] = mapping
        hwmf['WiringMap'] = hwm
        hwmf['ReadoutSystem'] = 'ICE'
        self.ran = True

        return [hwmf, frame]
コード例 #8
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    def tune_dets(self, session, params):
        """tune_dets()

        **Task** - Emulates files that might come from a general tune dets
        function. These are some of the files found on simons1 registered when
        running the following ops with a single band:

             1. Find-freq
             2. setup_notches
             3. tracking_setup
             4. short g3 stream

        Args
        ----
        test_mode : bool
            If True, will skip any wait times associated with writing
            g3 files. 
        """
        # Find Freq
        action_time = time.time()
        files = [
            'amp_sweep_freq.txt', 'amp_sweep_resonance.txt',
            'amp_sweep_resp.txt'
        ]
        for f in files:
            self._write_smurf_file(f, 'find_freq', action_time=action_time)

        # Setup Notches
        action_time = time.time()
        files = ['channel_assignment_b0.txt', 'tune.npy']
        for f in files:
            self._write_smurf_file(f, 'setup_notches', action_time=action_time)

        # tracking setup
        action_time = time.time()
        fname = f"{int(time.time())}.dat"
        self._write_smurf_file(fname, 'tracking_setup', prepend_ctime=False)

        # Short g3 stream
        frame_gen = G3FrameGenerator(self.stream_id, self.sample_rate,
                                     self.nchans)
        fname = self._get_g3_filename(frame_gen.session_id, 0, makedirs=True)
        os.makedirs(os.path.dirname(fname), exist_ok=True)
        session.data['noise_file'] = fname
        writer = core.G3Writer(fname)
        writer(frame_gen.get_obs_frame())
        writer(frame_gen.get_status_frame())
        start = time.time()
        stop = start + 30
        frame_starts = np.arange(start, stop, self.frame_len)
        frame_stops = frame_starts + self.frame_len
        for t0, t1 in zip(frame_starts, frame_stops):
            if not params['test_mode']:
                now = time.time()
                if now < t1:
                    time.sleep(t1 - now)
            writer(frame_gen.get_data_frame(t0, t1))
        writer(core.G3Frame(core.G3FrameType.EndProcessing))

        return True, "Wrote tune files"
コード例 #9
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def create_focal_plane(n_det):
    # Generate a simple squarish grid.
    i, p = np.arange(n_det) // 2, np.arange(n_det) % 2
    side = max(2, int(i[-1]**.5))
    row, col = i // side, i % side
    pol_fam = (row + col) % 2
    pol = (pol_fam * 45 + p * 90) * core.G3Units.deg
    x = (col / (side - 1) - .5) * 1. * core.G3Units.deg
    y = (row / (side - 1) - .5) * 1. * core.G3Units.deg

    # Convert to quternions in the prescribed way.
    phi = np.arctan2(y, x)
    theta = np.arcsin((x**2 + y**2)**.5 / core.G3Units.rad)
    q = (coords.q_euler(2, phi) * coords.q_euler(1, theta) *
         coords.q_euler(2, -phi) * coords.q_euler(2, pol / core.G3Units.rad))

    f = core.G3Frame(FT.Calibration)  #booo
    f['cal_type'] = 'focal_plane'
    # For now just store a vector of detector names, then a vector of
    # boresight-relative quaternion rotations for corresponding dets.
    f['signal_q'] = q
    f['signal_x'] = core.G3VectorDouble(x)
    f['signal_y'] = core.G3VectorDouble(y)
    f['signal_theta'] = core.G3VectorDouble(theta)
    f['signal_phi'] = core.G3VectorDouble(phi)
    f['signal_pol'] = core.G3VectorDouble(pol)
    f['signal_names'] = core.G3VectorString()

    for j in range(n_det):
        f['signal_names'].append('det%04i%s' % (i[j], {0: 'A', 1: 'B'}[p[j]]))
    return f
コード例 #10
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ファイル: core.py プロジェクト: simonsobs/sotodlib
 def apply(self, f):
     """
     Applies the G3Module on an individual G3Frame or G3TimestreamMap. Likely
     to be useful when debugging
     
     Args:
         f (G3Frame or G3TimestreamMap)
         
     Returns:
         G3Frame: if f is a G3Frame it returns the frame after the module has been applied
         G3TimestreamMap: if f is a G3TimestreamMap it returns self.output
     """
     if type(f) == core.G3Frame:
         if f.type != core.G3FrameType.Scan:
             raise ValueError("""Cannot apply {} on a {} frame""".format(self.__class__,
                                                                        f.type))
         self.__call__(f)
         return f
     if type(f) == core.G3TimestreamMap:
         frame = core.G3Frame()
         frame.type = core.G3FrameType.Scan
         frame[self.input] = f
         self.__call__(frame)
         return frame[self.output]
     raise ValueError('apply requires a G3Frame or a G3TimestreamMap, you gave me {}'.format(type(f)))
コード例 #11
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 def _find_and_fill_frames(self, fr):
     # This function does most of the work:
     # Find frames with separation that is too large, and fill the gaps
     # with new frames.
     if self.last_frame is None:
         self.last_frame = fr
         return [fr]
     this_dt = fr['EventHeader'].time - self.last_frame['EventHeader'].time
     if this_dt > 1.5 * self.dt:
         # We're missing at least one frame
         nframes = int(np.round(this_dt / self.dt) - 1)
         injected_dt = this_dt / (nframes + 1)
         injected_frs = [core.G3Frame(core.G3FrameType.Timepoint)
                         for i in range(nframes)]
         for i, new_fr in enumerate(injected_frs):
             new_fr['EventHeader'] = self.last_frame['EventHeader'] + \
                                  injected_dt * (i + 1)
             new_fr['DfMux'] = fr['DfMux'].copy()
             try:
                 new_fr['CalibratorOn'] = fr['CalibratorOn']
             except KeyError:
                 pass
             new_fr['GarbageData'] = True
         self.last_frame = fr
         return injected_frs + [fr]
     self.last_frame = fr
     return [fr]
コード例 #12
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 def __init__(self, map_ids=None, output_map_id=None, ignore_missing_weights=False):
     self.coadd_frame = core.G3Frame(core.G3FrameType.Map)
     self.coadd_frame["Id"] = output_map_id
     if isinstance(map_ids, str):
         map_ids = [map_ids]
     self.map_ids = map_ids
     self.ignore_missing_weights = ignore_missing_weights
コード例 #13
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    def _write_obs(self, writer, props, detindx):
        """Write an observation frame.

        Given a dictionary of scalars, write these to an observation frame.

        Args:
            writer (G3Writer): The writer instance.
            props (dict): Dictionary of properties.
            detindx (dict): Dictionary of UIDs for each detector.

        Returns:
            None

        """
        f = core3g.G3Frame(core3g.G3FrameType.Observation)
        for k, v in props.items():
            if k == "detector_uid":
                # old indices loaded from so3g file
                continue
            f[k] = s3utils.to_g3_type(v)
        indx = core3g.G3MapInt()
        for k, v in detindx.items():
            indx[k] = int(v)
        f["detector_uid"] = indx
        writer(f)
        return
コード例 #14
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 def _send_end_flowcontrol_frame(self):
     """Send END flowcontrol frame."""
     if self.writer is not None:
         self.log.info("Sending END flowcontrol frame")
         f = core.G3Frame(core.G3FrameType.none)
         f['sostream_flowcontrol'] = FlowControl.END.value
         self.writer.Process(f)
コード例 #15
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    def __init__(
        self,
        map_id,
        map_stub,
        polarized=True,
        weighted=True,
        pol_conv=maps.MapPolConv.IAU,
    ):
        self.map_frame = core.G3Frame(core.G3FrameType.Map)
        self.map_frame["Id"] = map_id

        map_stub = map_stub.clone(False)
        map_stub.weighted = weighted
        map_stub.pol_conv = pol_conv

        T = map_stub.clone(False)
        T.pol_type = maps.MapPolType.T
        self.map_frame["T"] = T
        if polarized:
            Q = map_stub.clone(False)
            Q.pol_type = maps.MapPolType.Q
            self.map_frame["Q"] = Q
            U = map_stub.clone(False)
            U.pol_type = maps.MapPolType.U
            self.map_frame["U"] = U
        if weighted:
            W = maps.G3SkyMapWeights(map_stub, polarized)
            self.map_frame["Wpol" if polarized else "Wunpol"] = W
コード例 #16
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    def __init__(self, map_id, maps_in, ignore_missing_weights=False):
        self.map_frame = core.G3Frame(core.G3FrameType.Map)
        self.map_frame["Id"] = map_id

        if isinstance(maps_in, list):
            for m in maps_in:
                if isinstance(m, maps.G3SkyMap):
                    k = str(m.pol_type)
                    if k not in "TQU":
                        raise ValueError("Input map has invalid pol_type %s" % k)
                    self.map_frame[k] = m
                elif isinstance(m, maps.G3SkyMapWeights):
                    self.map_frame["Wpol" if m.polarized else "Wunpol"] = m
                else:
                    raise TypeError("maps_in must be G3SkyMap or G3SkyMapWeights")

        elif isinstance(maps_in, dict):
            for k, m in maps_in.items():
                if k not in ["T", "Q", "U", "Wpol", "Wunpol"]:
                    continue
                self.map_frame[k] = m

        else:
            raise TypeError("maps_in must be a list or dict")

        ValidateMaps(self.map_frame, ignore_missing_weights=ignore_missing_weights)
コード例 #17
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def noise_scan_frames(n_frames=3,
                      n_dets=20,
                      input='signal',
                      n_samps=200,
                      samp_rate=0.005 * core.G3Units.second,
                      t_start=core.G3Time('2020-1-1T00:00:00')):
    """
    Generate a list of frames filled with noise data and nothing else. 
    
    Args:
        n_frames (int): number of frames to make
        n_dets (int): number of detectors per frame
        input (str): name of G3TimestreamMap for detectors, should be some form of 'signal'
        n_samps (int): number of samples per detector timestream
        samp_rate (G3Unit.second): detector sampling rate
        t_start (G3Time): start time of the set of frames
    """
    frame_list = []
    for n in range(n_frames):
        f = core.G3Frame()
        f.type = core.G3FrameType.Scan
        tsm = core.G3TimestreamMap()
        z = np.zeros((n_samps, ))
        for d in enumerate_det_id(n_dets):
            tsm[d] = core.G3Timestream(z)
        tsm.start = t_start
        tsm.stop = t_start + n_samps * samp_rate
        tsm = MakeNoiseData().apply(tsm)
        f[input] = tsm
        t_start += n_samps * samp_rate
        frame_list.append(f)
    return frame_list
コード例 #18
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ファイル: returnvals.py プロジェクト: tskisner/spt3g_software
 def __call__(self, frame):
     if self.trig:
         self.trig = False
         f = core.G3Frame(core.G3FrameType.Timepoint)
         f['Foo'] = 5
         return f
     return []
コード例 #19
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    def test_write_last_meta(self, frame_recorder):
        """If last_meta exists, write it to file."""
        f = core.G3Frame(core.G3FrameType.Observation)
        f['session_id'] = 0
        f['start_time'] = time.time()

        frame_recorder.last_meta = f
        frame_recorder.create_new_file()
コード例 #20
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 def __call__(self, frame):
     if self.ran:
         return frame
     hwmf = core.G3Frame(core.G3FrameType.Wiring)
     hwmf['WiringMap'] = self.hwm
     hwmf['ReadoutSystem'] = 'DfMux'
     self.ran = True
     return [hwmf, frame]
コード例 #21
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 def __init__(self, KeysToIgnore=['PointingOffsetX', 'PointingOffsetY']):
     '''
     Ignores keys in the KeysToIgnore list during merging. By default, set
     to values written by the flux/pointing calibration that are stored to
     the BolometerPropertiesMap.
     '''
     self.outframe = core.G3Frame(core.G3FrameType.Calibration)
     self.ignore_keys = KeysToIgnore
コード例 #22
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 def __call__(self, frame):
     ret = []
     if frame.type == core.G3FrameType.Timepoint:
         if self.count % self.N == 0:
             ret.append(core.G3Frame(core.G3FrameType.Housekeeping))
         self.count += 1
         ret.append(frame)
         return ret
コード例 #23
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    def start_stream(self, session, params=None):
        if params is None:
            params = {}

        time_per_file = params.get("time_per_file", 60*60) # [sec]
        data_dir = params.get("data_dir", "data/")

        self.log.info("Writing data to {}".format(data_dir))
        self.log.info("New file every {} seconds".format(time_per_file))

        reader = core.G3Reader("tcp://localhost:{}".format(self.port))
        writer = None

        last_meta = None
        self.is_streaming = True

        while self.is_streaming:
            if writer is None:
                start_time = datetime.utcnow()
                ts = start_time.timestamp()
                subdir = os.path.join(data_dir, "{:.5}".format(str(ts)))

                if not os.path.exists(subdir):
                    os.makedirs(subdir)

                filename = start_time.strftime("%Y-%m-%d-%H-%M-%S.g3")
                filepath = os.path.join(subdir, filename)
                writer = core.G3Writer(filename=filepath)
                if last_meta is not None:
                    writer(last_meta)

            frames = reader.Process(None)
            for f in frames:
                if f.type == core.G3FrameType.Housekeeping:
                    last_meta = f
                writer(f)

            if (datetime.utcnow().timestamp() - ts) > time_per_file:
                writer(core.G3Frame(core.G3FrameType.EndProcessing))
                writer = None

        if writer is not None:
            writer(core.G3Frame(core.G3FrameType.EndProcessing))

        return True, "Finished Streaming"
コード例 #24
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 def __call__(self, frame):
     ret = []
     if (frame.type == core.G3FrameType.Timepoint and
        'DfMux' in frame.keys()):
         if self._count % self._N == 0:
             ret.append(core.G3Frame(core.G3FrameType.Scan))
         self._count += 1
     ret.append(frame)
     return ret
コード例 #25
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ファイル: spt3g.py プロジェクト: simrannerval/toast
def write_spt3g_obs(writer, props, dets, nsamp):
    f = c3g.G3Frame(c3g.G3FrameType.Observation)
    for k, v in props.items():
        f[k] = s3utils.to_g3_type(v)
    f["samples"] = c3g.G3Int(nsamp)
    for k, v in dets.items():
        f["{}_{}".format(STR_QUAT, k)] = c3g.G3VectorDouble(v)
    writer(f)
    return
コード例 #26
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    def test_write_flowcontrol_frame(self, frame_recorder):
        """Flow control frames should log a warning and continue."""
        f = core.G3Frame(core.G3FrameType.none)
        f['sostream_flowcontrol'] = FlowControl.START.value

        frame_recorder.frames = [f]
        frame_recorder.write_frames_to_file()

        assert frame_recorder.frames == []
コード例 #27
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def write_example_file(filename='hk_out.g3'):
    """Generate an example g3 file with Wiring Frame.

    This is based on other test file writing functions, but is unique in that
    it contains a wiring frame for use in testing Seek/Tell.

    Structure of frames in this file should be:
        - Housekeeping
        - Housekeeping
        - Wiring
        - Housekeeping
        - Housekeeping

    Args:
        filename (str): filename to write data to

    """
    test_file = filename

    # Write a stream of HK frames.
    w = core.G3Writer(test_file)

    # Create something to help us track the aggregator session.
    hksess = so3g.hk.HKSessionHelper(session_id=1234,
                                     description="Test HK data.")

    # Register a data provider.
    prov_id = hksess.add_provider(description='Fake data for the real world.')

    # Start the stream -- write the initial session and status frames.
    f = hksess.session_frame()
    w.Process(f)
    f = hksess.status_frame()
    w.Process(f)

    # Write dummy wiring frame
    f = core.G3Frame()
    f.type = core.G3FrameType.Wiring
    w.Process(f)

    # Now make a data frame.
    f = hksess.data_frame(prov_id=prov_id)

    # Add a data block.
    hk = so3g.IrregBlockDouble()
    hk.prefix = 'hwp_'
    hk.data['position'] = [1, 2, 3, 4, 5]
    hk.data['speed'] = [1.2, 1.2, 1.2, 1.2, 1.2]
    hk.t = [0, 1, 2, 3, 4]
    f['blocks'].append(hk)

    # Write two more housekeeping frames.
    w.Process(f)
    w.Process(f)

    del w
コード例 #28
0
def addinfo(fr):
    if fr.type == core.G3FrameType.EndProcessing:
        return
    global n
    fr['time'] = core.G3Time(int(time.time() * core.G3Units.s))
    fr['count'] = n
    fr2 = core.G3Frame(core.G3FrameType.Housekeeping)
    fr2['count'] = n
    n += 1
    return [fr, fr2]
コード例 #29
0
def PyDfMuxBolometerPropertiesInjector(frame, pydfmux_hwm=None, angle_per_mm = 4.186*core.G3Units.deg/1000):
    '''
    Insert a calibration frame following any wiring frame containing a
    BolometerPropertiesMap named "NominalBolometerProperties" that has
    the properties of each bolometer as defined by the given pydfmux 
    hardware map.
    '''

    if frame.type != core.G3FrameType.Wiring:
        return

    from spt3g import calibration
    from pydfmux.core import dfmux as pydfmux

    cal = core.G3Frame(core.G3FrameType.Calibration)
    bpm = calibration.BolometerPropertiesMap()

    for bolo in pydfmux_hwm.query(pydfmux.Bolometer):
        bp = calibration.BolometerProperties()
        if hasattr(bolo, 'physical_name'):
            bp.physical_name = str(bolo.wafer.name) + '_' + str(bolo.physical_name)
        if hasattr(bolo, 'x_mm') and bolo.x_mm is not None:
            bp.x_offset = bolo.x_mm * angle_per_mm
        if hasattr(bolo, 'y_mm') and bolo.y_mm is not None:
            bp.y_offset = bolo.y_mm * angle_per_mm
        if bolo.wafer is not None:
            bp.wafer_id = str(bolo.wafer.name)
        if hasattr(bolo, 'pixel') and bolo.pixel is not None:
            bp.pixel_id = str(bolo.pixel)
        if hasattr(bolo, 'pixel_type') and bolo.pixel_type is not None:
            bp.pixel_type = str(bolo.pixel_type)
        if hasattr(bolo, 'observing_band') and bolo.observing_band is not None:
            bp.band = float(bolo.observing_band)*core.G3Units.GHz
        if hasattr(bolo, 'polarization_angle') and bolo.polarization_angle is not None:
            bp.pol_angle = float(bolo.polarization_angle)*core.G3Units.deg
            bp.pol_efficiency = 1.0
        if hasattr(bolo, 'coupling') and bolo.coupling is not None:
            if bolo.coupling == "optical":
                bp.coupling = calibration.BolometerCouplingType.Optical
            elif bolo.coupling == "dark_tres":
                bp.coupling = calibration.BolometerCouplingType.DarkTermination
            elif bolo.coupling == "dark_xover":
                bp.coupling = calibration.BolometerCouplingType.DarkCrossover
            elif bolo.coupling == "resistor":
                bp.coupling = calibration.BolometerCouplingType.Resistor
            else:
                raise ValueError("Unrecognized coupling type %s" % bolo.coupling)

        bpm[str(bolo.name)] = bp

    cal['NominalBolometerProperties'] = bpm
    from pydfmux import current_transferfunction
    cal['DfMuxTransferFunction'] = current_transferfunction

    return [frame, cal]
コード例 #30
0
ファイル: smurf_recorder.py プロジェクト: gdevenyi/socs
    def close_file(self):
        """Close a file. Clean up with EndProcessing frame, set self.writer to
        None, rezero suffix.

        """
        if self.writer is not None:
            # Flush internal cache and clean-up (no frame written)
            self.writer(core.G3Frame(core.G3FrameType.EndProcessing))
            self.log.debug("File closed.")
        self.writer = None
        self.filename_suffix = 0