Exemplo n.º 1
0
def test_ThreadPollInput():
    app = pg.mkQApp()

    outstream = OutputStream()
    outstream.configure(**stream_spec)
    instream = InputStream()
    instream.connect(outstream)

    sender = ThreadSender(output_stream=outstream)
    poller = ThreadPollInput(input_stream=instream, return_data=True)

    global last_pos
    last_pos = 0

    def on_new_data(pos, arr):
        assert arr.shape == (chunksize, nb_channel)
        global last_pos
        last_pos += chunksize
        assert last_pos == pos

    def terminate():
        sender.wait()
        poller.stop()
        poller.wait()
        app.quit()

    sender.finished.connect(terminate)
    poller.new_data.connect(on_new_data)

    poller.start()
    sender.start()

    app.exec_()
Exemplo n.º 2
0
class StreamMonitor(Node):
    """
    Monitors activity on an input stream and prints details about packets
    received.
    """
    _input_specs = {'signals': {}}
    
    def __init__(self, **kargs):
        Node.__init__(self, **kargs)
    
    def _configure(self):
        pass

    def _initialize(self):
        # There are many ways to poll for data from the input stream. In this
        # case, we will use a background thread to monitor the stream and emit
        # a Qt signal whenever data is available.
        self.poller = ThreadPollInput(self.input, return_data=True)
        self.poller.new_data.connect(self.data_received)
        
    def _start(self):
        self.poller.start()
        
    def data_received(self, ptr, data):
        print("Data received: %d %s %s" % (ptr, data.shape, data.dtype))
Exemplo n.º 3
0
def test_ThreadPollInput():
    app = pg.mkQApp()
    
    outstream = OutputStream()
    outstream.configure(**stream_spec)
    instream = InputStream()
    instream.connect(outstream)
    
    sender = ThreadSender(output_stream=outstream)
    poller = ThreadPollInput(input_stream=instream, return_data=True)
    
    
    global last_pos
    last_pos= 0
    def on_new_data(pos, arr):
        assert arr.shape==(chunksize, nb_channel)
        global last_pos
        last_pos += chunksize
        assert last_pos==pos
    
    def terminate():
        sender.wait()
        poller.stop()
        poller.wait()
        app.quit()
    
    sender.finished.connect(terminate)
    poller.new_data.connect(on_new_data)
    
    poller.start()
    sender.start()
    
    app.exec_()
Exemplo n.º 4
0
def test_stream_splitter():
    app = pg.mkQApp()

    stream_spec = dict(protocol='tcp',
                       interface='127.0.0.1',
                       port='*',
                       transfermode='plaindata',
                       streamtype='analogsignal',
                       dtype='float32',
                       shape=(-1, nb_channel),
                       timeaxis=0,
                       compression='',
                       scale=None,
                       offset=None,
                       units='')

    outstream = OutputStream()
    outstream.configure(**stream_spec)
    sender = ThreadSender(output_stream=outstream)

    def on_new_data(pos, arr):
        assert arr.shape == (chunksize, 1)
        # print(pos, arr.shape)

    all_instream = []
    all_poller = []
    splitter = StreamSplitter()
    splitter.configure()
    splitter.input.connect(outstream)
    for name, output in splitter.outputs.items():
        output.configure()
        instream = InputStream()
        instream.connect(output)
        poller = ThreadPollInput(input_stream=instream)
        poller.new_data.connect(on_new_data)
        all_instream.append(instream)
        all_poller.append(poller)
    splitter.initialize()

    def terminate():
        sender.wait()
        splitter.stop()
        for poller in all_poller:
            poller.stop()
            poller.wait()
        app.quit()

    sender.terminated.connect(terminate)

    for poller in all_poller:
        poller.start()

    splitter.start()
    sender.start()

    app.exec_()
Exemplo n.º 5
0
def test_streamconverter():
    app = pg.mkQApp()
    
    stream_spec = dict(protocol='tcp', interface='127.0.0.1', port='*', 
                       transfermode='plaindata', streamtype='analogsignal',
                       dtype='float32', shape=(-1, nb_channel), timeaxis = 0, 
                       compression ='', scale = None, offset = None, units = '')
    
    outstream = OutputStream()
    outstream.configure(**stream_spec)
    sender = ThreadSender(output_stream=outstream)
    
    stream_spec2 = dict(protocol='tcp', interface='127.0.0.1', port='*', 
                   transfermode='sharedarray', streamtype='analogsignal',
                   dtype='float32', shape=(nb_channel, -1), timeaxis = 1, 
                   compression ='', scale = None, offset = None, units = '',
                   sharedarray_shape = (nb_channel, chunksize*20), ring_buffer_method = 'double',
                   )

    
    
    conv = StreamConverter()
    conv.configure()
    conv.input.connect(outstream)
    conv.output.configure(**stream_spec2)
    conv.initialize()

    instream = InputStream()
    instream.connect(conv.output)

    global last_pos
    last_pos= 0
    def on_new_data(pos, arr):
        assert arr is None
        global last_pos
        last_pos += chunksize
        assert last_pos==pos
    
    def terminate():
        sender.wait()
        conv.stop()        
        poller.stop()
        poller.wait()
        app.quit()

    poller = ThreadPollInput(input_stream=instream)
    sender.terminated.connect(terminate)
    poller.new_data.connect(on_new_data)
    
    
    poller.start()
    conv.start()
    sender.start()
    
    
    app.exec_()
Exemplo n.º 6
0
def test_streamconverter():
    app = pg.mkQApp()
    
    stream_spec = dict(protocol='tcp', interface='127.0.0.1', port='*', 
                       transfermode='plaindata', streamtype='analogsignal',
                       dtype='float32', shape=(-1, nb_channel))
    
    outstream = OutputStream()
    outstream.configure(**stream_spec)
    sender = ThreadSender(output_stream=outstream)
    
    stream_spec2 = dict(protocol='tcp', interface='127.0.0.1', port='*', 
                   transfermode='sharedmem', streamtype='analogsignal',
                   dtype='float32', shape=(-1, nb_channel), buffer_size=1000,
                   double=True,
                   )

    
    
    conv = StreamConverter()
    conv.configure()
    conv.input.connect(outstream)
    conv.output.configure(**stream_spec2)
    conv.initialize()

    instream = InputStream()
    instream.connect(conv.output)

    global last_pos
    last_pos= 0
    def on_new_data(pos, arr):
        assert arr is None
        global last_pos
        last_pos += chunksize
        assert last_pos==pos
    
    def terminate():
        sender.wait()
        #~ conv.stop()
        poller.stop()
        poller.wait()
        app.quit()

    poller = ThreadPollInput(input_stream=instream, return_data=None)
    sender.finished.connect(terminate)
    poller.new_data.connect(on_new_data)
    
    
    poller.start()
    conv.start()
    sender.start()
    
    
    app.exec_()
Exemplo n.º 7
0
def test_stream_splitter():
    app = pg.mkQApp()
    
    stream_spec = dict(protocol='tcp', interface='127.0.0.1', port='*', 
                       transfermode='plaindata', streamtype='analogsignal',
                       dtype='float32', shape=(-1, nb_channel), timeaxis = 0, 
                       compression ='', scale = None, offset = None, units = '')
    
    outstream = OutputStream()
    outstream.configure(**stream_spec)
    sender = ThreadSender(output_stream=outstream)

    def on_new_data(pos, arr):
        assert arr.shape==(chunksize, 1)
        # print(pos, arr.shape)
    
    all_instream = []
    all_poller = []
    splitter = StreamSplitter()
    splitter.configure()
    splitter.input.connect(outstream)
    for name, output in splitter.outputs.items():
        output.configure()
        instream = InputStream()
        instream.connect(output)
        poller = ThreadPollInput(input_stream=instream)
        poller.new_data.connect(on_new_data)
        all_instream.append(instream)
        all_poller.append(poller)
    splitter.initialize()

    def terminate():
        sender.wait()
        splitter.stop()
        for poller in all_poller:
            poller.stop()
            poller.wait()
        app.quit()

    sender.terminated.connect(terminate)
    
    for poller in all_poller:
        poller.start()
    
    splitter.start()
    sender.start()
    
    
    app.exec_()
Exemplo n.º 8
0
def test_stream_splitter():
    app = pg.mkQApp()

    outstream = OutputStream()
    outstream.configure(**stream_spec)
    sender = ThreadSender(output_stream=outstream)

    def on_new_data(pos, arr):
        assert arr.shape[0] == chunksize
        assert not arr.flags['C_CONTIGUOUS']

    all_instream = []
    all_poller = []
    splitter = ChannelSplitter()
    splitter.configure(output_channels={
        'out0': [0, 1, 2],
        'out1': [1, 4, 9, 12]
    })
    splitter.input.connect(outstream)
    for name, output in splitter.outputs.items():
        output.configure()
        instream = InputStream()
        instream.connect(output)
        poller = ThreadPollInput(input_stream=instream, return_data=True)
        poller.new_data.connect(on_new_data)
        all_instream.append(instream)
        all_poller.append(poller)
    splitter.initialize()

    def terminate():
        sender.wait()
        splitter.stop()
        for poller in all_poller:
            poller.stop()
            poller.wait()
        app.quit()

    sender.finished.connect(terminate)

    for poller in all_poller:
        poller.start()

    splitter.start()
    sender.start()

    app.exec_()
Exemplo n.º 9
0
def test_stream_splitter():
    app = pg.mkQApp()
    
    outstream = OutputStream()
    outstream.configure(**stream_spec)
    sender = ThreadSender(output_stream=outstream)

    def on_new_data(pos, arr):
        assert arr.shape[0]==chunksize
        assert not arr.flags['C_CONTIGUOUS']
    
    all_instream = []
    all_poller = []
    splitter = ChannelSplitter()
    splitter.configure(output_channels = { 'out0' : [0,1,2], 'out1' : [1,4,9, 12] })
    splitter.input.connect(outstream)
    for name, output in splitter.outputs.items():
        output.configure()
        instream = InputStream()
        instream.connect(output)
        poller = ThreadPollInput(input_stream=instream, return_data=True)
        poller.new_data.connect(on_new_data)
        all_instream.append(instream)
        all_poller.append(poller)
    splitter.initialize()

    def terminate():
        sender.wait()
        splitter.stop()
        for poller in all_poller:
            poller.stop()
            poller.wait()
        app.quit()

    sender.finished.connect(terminate)
    
    for poller in all_poller:
        poller.start()
    
    splitter.start()
    sender.start()
    
    
    app.exec_()
Exemplo n.º 10
0
def test_ChunkResizer():
    app = pg.mkQApp()
    
    outstream = OutputStream()
    outstream.configure(**stream_spec)
    sender = ThreadSender(output_stream=outstream)

    chunkresizer = ChunkResizer()
    chunkresizer.configure(chunksize=33)
    chunkresizer.input.connect(outstream)
    chunkresizer.output.configure()
    chunkresizer.initialize()


    def on_new_data(pos, arr):
        #~ print('recv', arr.shape, pos)
        assert arr.shape[0] == 33
    
    instream = InputStream()
    instream.connect(chunkresizer.output)
    poller = ThreadPollInput(input_stream=instream, return_data=True)
    poller.new_data.connect(on_new_data)
    
        
    def terminate():
        sender.wait()
        chunkresizer.stop()
        poller.stop()
        poller.wait()
        app.quit()
        
    sender.finished.connect(terminate)
    
    poller.start()
    chunkresizer.start()
    sender.start()
    
    
    app.exec_()
Exemplo n.º 11
0
def test_streamconverter():
    app = pg.mkQApp()

    stream_spec = dict(protocol='tcp',
                       interface='127.0.0.1',
                       port='*',
                       transfermode='plaindata',
                       streamtype='analogsignal',
                       dtype='float32',
                       shape=(-1, nb_channel),
                       timeaxis=0,
                       compression='',
                       scale=None,
                       offset=None,
                       units='')

    outstream = OutputStream()
    outstream.configure(**stream_spec)
    sender = ThreadSender(output_stream=outstream)

    stream_spec2 = dict(
        protocol='tcp',
        interface='127.0.0.1',
        port='*',
        transfermode='sharedarray',
        streamtype='analogsignal',
        dtype='float32',
        shape=(nb_channel, -1),
        timeaxis=1,
        compression='',
        scale=None,
        offset=None,
        units='',
        sharedarray_shape=(nb_channel, chunksize * 20),
        ring_buffer_method='double',
    )

    conv = StreamConverter()
    conv.configure()
    conv.input.connect(outstream)
    conv.output.configure(**stream_spec2)
    conv.initialize()

    instream = InputStream()
    instream.connect(conv.output)

    global last_pos
    last_pos = 0

    def on_new_data(pos, arr):
        assert arr is None
        global last_pos
        last_pos += chunksize
        assert last_pos == pos

    def terminate():
        sender.wait()
        conv.stop()
        poller.stop()
        poller.wait()
        app.quit()

    poller = ThreadPollInput(input_stream=instream)
    sender.terminated.connect(terminate)
    poller.new_data.connect(on_new_data)

    poller.start()
    conv.start()
    sender.start()

    app.exec_()
Exemplo n.º 12
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 def _initialize(self):
     # There are many ways to poll for data from the input stream. In this
     # case, we will use a background thread to monitor the stream and emit
     # a Qt signal whenever data is available.
     self.poller = ThreadPollInput(self.input, return_data=True)
     self.poller.new_data.connect(self.data_received)