Example #1
0
 class Data2DCameraSummary(PT.IsDescription):
     cam_id = PT.StringCol(16, pos=0)
     camn = PT.Int32Col(pos=1)
     start_frame = PT.UInt64Col(pos=2)
     stop_frame = PT.UInt64Col(pos=3)
     start_timestamp = PT.FloatCol(pos=4)
     stop_timestamp = PT.FloatCol(pos=5)
Example #2
0
 class ExactMovieInfo(PT.IsDescription):
     cam_id = PT.StringCol(16, pos=0)
     filename = PT.StringCol(255, pos=1)
     start_frame = PT.UInt64Col(pos=2)
     stop_frame = PT.UInt64Col(pos=3)
     start_timestamp = PT.FloatCol(pos=4)
     stop_timestamp = PT.FloatCol(pos=5)
Example #3
0
 def init_cluster_table(self):
     if self.read_mode == 'w':
         try:
             self.db_main.remove_node('/', 'cluster_table')
             print 'Cluster table dropped.'
         except tables.exceptions.NoSuchNodeError:
             print 'cluster table does not exist yet. nothing to drop.'
         try:
             cluster_desc = {
                 'train_uuid': tables.StringCol(32),
                 'ticker': tables.StringCol(10),
                 'kpi': tables.StringCol(15),
                 'c0': tables.FloatCol(),
                 'c1': tables.FloatCol(),
                 'c2': tables.FloatCol(),
                 'c3': tables.FloatCol(),
                 'c4': tables.FloatCol()
             }
             self.t_clusters = self.db_main.create_table(
                 '/', 'cluster_table', cluster_desc)
             self.t_clusters.cols.ticker.create_index()
             self.t_clusters.cols.kpi.create_index()
             print 'cluster table created.'
         except tables.exceptions.NodeError:
             self.t_clusters = self.db_main.get_node('/', 'cluster_table')
             print 'cluster table exists already.'
     else:
         self.t_clusters = self.db_main.get_node('/', 'cluster_table')
         print 'cluster table exists already.'
class DirectionReconstruction(tb.IsDescription):
    MC_Energy = tb.FloatCol(dflt=1, pos=1)
    N_LST = tb.Int16Col(dflt=1, pos=2)
    N_MST = tb.Int16Col(dflt=1, pos=3)
    N_SST = tb.Int16Col(dflt=1, pos=4)
    multiplicity = tb.Int64Col(dflt=1, pos=5)
    off_angle = tb.FloatCol(dflt=1, pos=6)
    offset = tb.FloatCol(dflt=1, pos=7)
class VectorDescription(pytables.IsDescription):
    """
    Customized record for writing solution vectors including a counter
    and time information.
    """
    counter = pytables.Int64Col()  # Signed 64-bit integer
    values = pytables.FloatCol(shape=u_1.vector().array().shape)  #
    time = pytables.FloatCol()  # double (double-precision)
Example #6
0
 def init_recommendation_table(self):
     if self.read_mode == 'w':
         try:
             self.db_main.remove_node('/', 'recommend')
             print 'recommendation table dropped.'
         except tables.exceptions.NoSuchNodeError:
             print 'recommendation table does not exist yet. nothing to initialize.'
         try:
             recommend_desc = {
                 'sim_uuid': tables.StringCol(32),
                 'dix': tables.IntCol(),
                 'symbol': tables.StringCol(10),
                 'tradeTx': tables.StringCol(10),
                 'tradePriceMin': tables.FloatCol(),
                 'tradePriceMid': tables.FloatCol(),
                 'tradePriceMax': tables.FloatCol(),
                 'trade12dd': tables.IntCol(),
                 'tradeIdxPct': tables.FloatCol(),
                 'tradeDate': tables.StringCol(10),
                 'tradeDateCopy': tables.StringCol(10),
                 'offsetTraining': tables.IntCol(),
                 'minTraining': tables.IntCol(),
                 'modelAccuracy': tables.FloatCol()
             }
             self.t_recommend = self.db_main.create_table(
                 '/', 'recommend', recommend_desc)
             self.t_recommend.cols.sim_uuid.create_index()
             self.t_recommend.cols.dix.create_index()
             print 'recommendation table created.'
         except tables.exceptions.NodeError:
             self.t_recommend = self.db_main.get_node('/', 'recommend')
             print 'recommendation table opened.'
     else:
         try:
             self.t_recommend = self.db_main.get_node('/', 'recommend')
             print 'recommendation table opened.'
         except tables.exceptions.NoSuchNodeError:
             recommend_desc = {
                 'sim_uuid': tables.StringCol(32),
                 'dix': tables.IntCol(),
                 'symbol': tables.StringCol(10),
                 'tradeTx': tables.StringCol(10),
                 'tradePriceMin': tables.FloatCol(),
                 'tradePriceMid': tables.FloatCol(),
                 'tradePriceMax': tables.FloatCol(),
                 'trade12dd': tables.IntCol(),
                 'tradeIdxPct': tables.FloatCol(),
                 'tradeDate': tables.StringCol(10),
                 'tradeDateCopy': tables.StringCol(10),
                 'offsetTraining': tables.IntCol(),
                 'minTraining': tables.IntCol(),
                 'modelAccuracy': tables.FloatCol()
             }
             self.t_recommend = self.db_main.create_table(
                 '/', 'recommend', recommend_desc)
             self.t_recommend.cols.sim_uuid.create_index()
             self.t_recommend.cols.dix.create_index()
Example #7
0
class Particle(tables.IsDescription):
    """Description of a table record."""
    name = tables.StringCol(16, pos=1)
    lati = tables.IntCol(pos=2)
    vector = tables.Int32Col(shape=(200, ), pos=3)
    matrix1 = tables.Int32Col(shape=(2, 200), pos=4)
    matrix2 = tables.FloatCol(shape=(100, 2), pos=5)
    matrix3 = tables.FloatCol(shape=(10, 100, 2), pos=5)
    matrix4 = tables.FloatCol(shape=(2, 10, 100, 2), pos=5)
Example #8
0
class TimeEncodedSignalDescriptor(t.IsDescription):
    """Descriptor of saved time-encoded signal."""

    comment      = t.StringCol(64, pos=1)      # description of signal
    bw           = t.FloatCol(pos=2, dflt=1.0) # bandwidth (rad/s)
    dt           = t.FloatCol(pos=3, dflt=1.0) # interval between samples (s)
    b            = t.FloatCol(pos=4, dflt=1.0) # bias
    d            = t.FloatCol(pos=5, dflt=1.0) # threshold
    k            = t.FloatCol(pos=6, dflt=1.0) # integration constant
Example #9
0
class ReconstructedKascadeEvent(tables.IsDescription):
    """Store information about reconstructed events"""

    # r, phi is core position

    id = tables.UInt32Col()
    station_id = tables.UInt8Col()
    r = tables.Float32Col()
    phi = tables.Float32Col()
    alpha = tables.Float32Col()
    t1 = tables.Float32Col()
    t2 = tables.Float32Col()
    t3 = tables.Float32Col()
    t4 = tables.Float32Col()
    n1 = tables.Float32Col()
    n2 = tables.Float32Col()
    n3 = tables.Float32Col()
    n4 = tables.Float32Col()
    reference_theta = tables.Float32Col()
    reference_phi = tables.Float32Col()
    reconstructed_theta = tables.Float32Col()
    reconstructed_phi = tables.Float32Col()
    min_n134 = tables.Float32Col()

    k_energy = tables.FloatCol()
    k_core_pos = tables.FloatCol(shape=2)
    k_Num_e = tables.FloatCol()
    k_Num_mu = tables.FloatCol()
    k_dens_e = tables.FloatCol(shape=4)
    k_dens_mu = tables.FloatCol(shape=4)
    k_P200 = tables.FloatCol()
    k_T200 = tables.FloatCol()
Example #10
0
class _Event(tb.IsDescription):
    """
    Description of the table /events/eventTable.
    """
    # UIntAtom = uint32
    array_row = tb.UIntCol(pos=0)  # indicates the corresponding row in the
    event_start = tb.UIntCol(itemsize=8,
                             pos=1)  # start index of the event in the data
    event_length = tb.UIntCol(pos=2)
    n_levels = tb.UIntCol(pos=3)
    raw_points_per_side = tb.UIntCol(pos=4)
    baseline = tb.FloatCol(pos=5)
    current_blockage = tb.FloatCol(pos=6)
    area = tb.FloatCol(pos=7)
Example #11
0
 def connect_PyTable(self,
                     filepath,
                     table_name='example',
                     h5f_description=None):
     self.h5f = tb.open_file(filepath, 'w')
     self.h5f_table_name = table_name
     if h5f_description is None:
         tmp_desc = {
             'coordX': tb.FloatCol(),
             'coordY': tb.FloatCol(),
             'APN': tb.StringCol(12),
             'maz': tb.Int32Col()
         }
     tbl = self.h5f.create_table('/', self.h5f_table_name, tmp_desc)
     self.USING_PYTABLES = True
Example #12
0
 def init_q_table(self):
     if self.read_mode == 'w':
         try:
             self.db_main.remove_node('/', 'q_table')
             print 'q_table table dropped.'
         except tables.exceptions.NoSuchNodeError:
             print 'no q table to drop.'
         try:
             q_table_desc = {
                 'ticker': tables.IntCol(),
                 'state': tables.IntCol(),
                 'action': tables.IntCol(),
                 'reward': tables.FloatCol()
             }
             self.t_q = self.db_main.create_table('/', 'q_table',
                                                  q_table_desc)
             self.t_q.cols.ticker.create_index()
             self.t_q.cols.state.create_index()
             self.t_q.cols.action.create_index()
             print 'q table created.'
         except tables.exceptions.NodeError:
             self.t_q = self.db_main.get_node('/', 'q_table')
             print 'q table opened.'
     else:
         self.t_q = self.db_main.get_node('/', 'q_table')
         print 'q table opened.'
Example #13
0
 def init_stats_table(self):
     if self.read_mode == 'w':
         try:
             self.db_main.remove_node('/', 'stats')
             print 'stats table dropped.'
         except tables.exceptions.NoSuchNodeError:
             print 'stats table not exist yet. nothing to initialize.'
         try:
             stats_desc = {
                 'train_uuid': tables.StringCol(32),
                 'pca': tables.IntCol(),
                 'ticker': tables.StringCol(10),
                 'model': tables.StringCol(3),
                 'kpi': tables.StringCol(15),
                 'accuracy': tables.FloatCol()
             }
             self.t_stats = self.db_main.create_table(
                 '/', 'stats', stats_desc)
             self.t_stats.cols.ticker.create_index()
             self.t_stats.cols.kpi.create_index()
             print 'statistics table created.'
         except tables.exceptions.NodeError:
             self.t_stats = self.db_main.get_node('/', 'stats')
             print 'stats table opened.'
     else:
         self.t_stats = self.db_main.get_node('/', 'stats')
         print 'stats table opened.'
Example #14
0
 def _col_descriptor(self):
     descriptor = OrderedDict([(k, t.FloatCol(dflt=nan, pos=i))
                               for i, k in enumerate(self.col_names)])
     descriptor['stat'] = t.IntCol(dflt=-1,
                                   pos=self.col_names.index('stat'))
     descriptor['qn'] = t.IntCol(dflt=-1, pos=self.col_names.index('qn'))
     return descriptor
Example #15
0
 def init_q_log(self):
     if self.read_mode == 'w':
         try:
             self.db_main.remove_node('/', 'q_log')
             print 'stats table dropped.'
         except tables.exceptions.NoSuchNodeError:
             print 'no q_log to drop.'
         try:
             q_log_desc = {
                 'sim_uuid': tables.StringCol(32),
                 'ticker': tables.StringCol(10),
                 'dix': tables.IntCol(),
                 'state': tables.Int64Col(),
                 'action': tables.IntCol(),
                 'reward': tables.FloatCol()
             }
             self.q_log = self.db_main.create_table('/', 'q_log',
                                                    q_log_desc)
             self.q_log.cols.ticker.create_index()
             self.q_log.cols.state.create_index()
             self.q_log.cols.action.create_index()
             print 'q log table created.'
         except tables.exceptions.NodeError:
             self.q_log = self.db_main.get_node('/', 'q_log')
             print 'q_log table opened.'
     else:
         self.q_log = self.db_main.get_node('/', 'q_log')
         print 'q_log table opened.'
Example #16
0
def quickforcesave(fileName, pixels, dataList, description=''):
    with tb.open_file(fileName, mode='w', title=description) as h5file:
        pix = np.array([[i[0], i[1]] for i in pixels])
        parray = h5file.create_array('/', 'center_pix', pix,
                                     'the pixels on which sphere is centered')
        parray.attrs.plotting_note = 'remember x and y coordinates are switched when plotting on an image'

        dgroup = h5file.create_group(
            h5file.root, 'calcData',
            'numerical data calculated from measurements at each separation')

        for i in dataList:
            tablestyle = {}
            for j in dataList[i]:
                if j == 'Title':
                    Title = dataList[i][j]
                    continue

                tablestyle[j] = tb.FloatCol()

            newtable = h5file.create_table(dgroup, i, tablestyle, title=Title)

            aRow = newtable.row
            for m, j in enumerate(dataList[i]['separations']):
                for k in tablestyle:
                    #print(j)
                    aRow[k] = dataList[i][k][m]
                aRow.append()
            newtable.flush()
    return 0
Example #17
0
class TimeDelta(tables.IsDescription):
    """Store time differences"""

    ext_timestamp = tables.UInt64Col(pos=0)
    timestamp = tables.UInt32Col(pos=1)
    nanoseconds = tables.UInt32Col(pos=2)
    delta = tables.FloatCol(pos=3)
 class AccessRecord(tables.IsDescription):
     """
     structure for records of file access in associated h5 file
     """
     timestamp = tables.FloatCol()  # timestamp of operation
     computerid = tables.StringCol(36)  # name of machine performing op
     datastoreid = tables.StringCol(36)  # type of action taken
     action = tables.StringCol(36)  # type of action taken
Example #19
0
class Particle(tb.IsDescription):
    name = tb.StringCol(16)  # 16-character String
    idnumber = tb.Int64Col()  # Signed 64-bit integer
    ADCcount = tb.UInt16Col()  # Unsigned short integer
    TDCcount = tb.UInt8Col()  # Unsigned byte
    grid_i = tb.Int32Col()  # Integer
    grid_j = tb.IntCol()  # Integer (equivalent to Int32Col)
    pressure = tb.Float32Col()  # Float (single-precision)
    energy = tb.FloatCol()  # Double (double-precision)
Example #20
0
class KascadeEvent(tables.IsDescription):
    """Store events from KASCADE"""

    run_id = tables.IntCol()
    event_id = tables.Int64Col()
    timestamp = tables.Time32Col()
    nanoseconds = tables.UInt32Col()
    ext_timestamp = tables.UInt64Col()
    energy = tables.FloatCol()
    core_pos = tables.FloatCol(shape=2)
    zenith = tables.FloatCol()
    azimuth = tables.FloatCol()
    Num_e = tables.FloatCol()
    Num_mu = tables.FloatCol()
    dens_e = tables.FloatCol(shape=4)
    dens_mu = tables.FloatCol(shape=4)
    P200 = tables.FloatCol()
    T200 = tables.FloatCol()
Example #21
0
 class TSystemSave(tables.IsDescription):
     u = tables.FloatCol(shape=u_shape)
     mesh = tables.FloatCol(shape=mesh_shape)
     lambd = tables.FloatCol(shape=lambd_shape)
     dt = tables.FloatCol()
     Dt = tables.FloatCol()
     eps = tables.FloatCol()
     dx = tables.FloatCol()
Example #22
0
class KascadeEvent(tables.IsDescription):
    """Store events from KASCADE"""

    run_id = tables.IntCol(pos=0)
    event_id = tables.Int64Col(pos=1)
    timestamp = tables.Time32Col(pos=2)
    nanoseconds = tables.UInt32Col(pos=3)
    ext_timestamp = tables.UInt64Col(pos=4)

    energy = tables.FloatCol(pos=5)
    core_pos = tables.FloatCol(pos=6, shape=2)
    zenith = tables.FloatCol(pos=7)
    azimuth = tables.FloatCol(pos=8)
    Num_e = tables.FloatCol(pos=9)
    Num_mu = tables.FloatCol(pos=10)
    dens_e = tables.FloatCol(pos=11, shape=4)
    dens_mu = tables.FloatCol(pos=12, shape=4)
    P200 = tables.FloatCol(pos=13)
    T200 = tables.FloatCol(pos=14)
Example #23
0
class Info2D(PT.IsDescription):
    camn = PT.UInt16Col(pos=0)
    frame = PT.Int64Col(pos=1)
    timestamp = PT.FloatCol(
        pos=2
    )  # when the image trigger happened (returned by timestamp modeler on MainBrain)
    cam_received_timestamp = PT.FloatCol(
        pos=3
    )  # when the image was acquired by flydra software (on camera computer)
    x = PT.Float32Col(pos=4)
    y = PT.Float32Col(pos=5)
    area = PT.Float32Col(pos=6)
    slope = PT.Float32Col(pos=7)
    eccentricity = PT.Float32Col(pos=8)
    frame_pt_idx = PT.UInt8Col(
        pos=9)  # index of point if there were > 1 points in frame
    cur_val = PT.UInt8Col(pos=10)
    mean_val = PT.Float32Col(pos=11)
    sumsqf_val = PT.Float32Col(pos=12)  # estimate of <x^2> (running_sumsqf)
Example #24
0
 def init_simulation_log(self):
     try:
         perf_desc = {
             'sim_uuid': tables.StringCol(32),
             'gamma': tables.FloatCol(),
             'alpha': tables.FloatCol(),
             'simrun': tables.IntCol(),
             'dix': tables.IntCol(),
             'index': tables.StringCol(10),
             'p_value': tables.FloatCol(),
             'cash': tables.FloatCol(),
             'i_value': tables.IntCol()
         }
         self.s_log = self.db_main.create_table('/', 's_log', perf_desc)
         self.s_log.cols.dix.create_index(kind='full')
         print 'simulation log table created.'
     except tables.exceptions.NodeError:
         s_log = self.db_main.get_node('/', 's_log')
         print 'simulation log opened.'
Example #25
0
    class Info(tb.IsDescription):  # 1
        _v_pos = 1
        name = tb.StringCol(itemsize=2)
        value = tb.ComplexCol(itemsize=16, pos=0)  # 0
        y2 = tb.FloatCol(pos=1)  # 1
        z2 = tb.UInt8Col()

        class Info2(tb.IsDescription):
            y3 = tb.Time64Col(shape=2)
            name = tb.StringCol(itemsize=2)
            value = tb.ComplexCol(itemsize=16, shape=2)
Example #26
0
class Particle(tables.IsDescription):
    """This class defines a table record.
    """

    lati = tables.IntCol(pos=0)
    #    longi       = IntCol(pos=1)
    Time = tables.Time64Col(pos=2)
    pressure = tables.FloatCol(pos=3)
    ID = tables.StringCol(itemsize=10, pos=4)
    Int16 = tables.UIntCol(itemsize=4, pos=5)
    Int64 = tables.IntCol(itemsize=8, pos=6)
    Bool = tables.BoolCol(pos=7)
Example #27
0
class ENMetadata(tables.IsDescription):
    artist = tables.StringCol(MAXSTRLEN)
    bitrate = tables.IntCol()
    duration = tables.FloatCol()
    genre = tables.StringCol(MAXSTRLEN)
    id = tables.StringCol(MAXSTRLEN)
    md5 = tables.StringCol(32)
    release = tables.StringCol(MAXSTRLEN)
    samplerate = tables.IntCol()
    status = tables.StringCol(MAXSTRLEN)
    title = tables.StringCol(MAXSTRLEN)
    analysispath = tables.StringCol(MAXSTRLEN)
Example #28
0
 def init_transaction_log(self):
     try:
         t_log_desc = {
             'sim_uuid': tables.StringCol(32),
             'dix': tables.IntCol(),
             'ticker': tables.StringCol(10),
             'tx': tables.StringCol(10),
             'price': tables.FloatCol(),
             'volume': tables.IntCol(),
             'close': tables.FloatCol(),
             'cash_before': tables.FloatCol(),
             'cash_after': tables.FloatCol(),
             '12dd': tables.IntCol()
         }
         self.t_log = self.db_main.create_table('/', 't_log', t_log_desc)
         self.t_log.cols.sim_uuid.create_index()
         self.t_log.cols.ticker.create_index()
         print 'transaction log table created.'
     except tables.exceptions.NodeError:
         self.t_log = self.db_main.get_node('/', 't_log')
         print 'transaction log opened.'
Example #29
0
class ObservationDescriptor(tb.IsDescription):
    id = tb.Int64Col(pos=0)
    # pwp
    pwp_id = tb.Int64Col(pos=1)
    pwp_order = tb.Int64Col(pos=2)
    ra = tb.FloatCol(pos=3)
    dec = tb.FloatCol(pos=4)
    mag = tb.FloatCol(pos=5)
    mag_err = tb.FloatCol(pos=6)
    hjd = tb.FloatCol(pos=7)

    chip_nro = tb.FloatCol(pos=8)
    stel_cls = tb.FloatCol(pos=9)
    elip = tb.FloatCol(pos=10)
    pos_ang = tb.FloatCol(pos=11)
    # ms
    tile_id = tb.Int64Col(pos=12)
    source_id = tb.Int64Col(pos=13)
Example #30
0
 class sami_master(tables.IsDescription):
     name      = tables.StringCol(19,pos=1)
     RA        = tables.FloatCol(pos=2)
     Dec       = tables.FloatCol(pos=3)
     r_petro   = tables.Float32Col(pos=4)
     r_auto    = tables.Float32Col(pos=5)
     z_tonry   = tables.Float32Col(pos=6)
     z_spec    = tables.Float32Col(pos=7)
     M_r       = tables.Float32Col(pos=8)
     r_e       = tables.Float32Col(pos=9)
     med_mu_re = tables.Float32Col(pos=10)
     mu_re     = tables.Float32Col(pos=11)
     mu_2re    = tables.Float32Col(pos=12)
     ellip     = tables.Float32Col(pos=13)
     PA        = tables.Float32Col(pos=14)
     Mstar     = tables.Float32Col(pos=15)
     g_minus_i = tables.Float32Col(pos=16)
     A_g       = tables.Float32Col(pos=17)
     CATID     = tables.Int64Col(pos=0)
     SURV_SAMI = tables.UInt16Col(pos=18)
     PRI_SAMI  = tables.UInt16Col(pos=19)
     BAD_CLASS = tables.UInt16Col(pos=20)