def test_join_encoded_msgpack(self): # test encoding for MsgPack format traces = [] traces.append( [Span(name="client.testing", tracer=None), Span(name="client.testing", tracer=None),] ) traces.append( [Span(name="client.testing", tracer=None), Span(name="client.testing", tracer=None),] ) encoder = MsgpackEncoder() # Encode each individual trace on its own encoded_traces = [encoder.encode_trace(trace) for trace in traces] # Join the encoded traces together data = encoder.join_encoded(encoded_traces) # Parse the encoded data items = encoder._decode(data) # test the encoded output that should be a string # and the output must be flatten assert isinstance(data, msgpack_type) assert len(items) == 2 assert len(items[0]) == 2 assert len(items[1]) == 2 for i in range(2): for j in range(2): assert b"client.testing" == items[i][j][b"name"]
def test_encode_traces_msgpack(self): # test encoding for MsgPack format traces = [] traces.append([ Span(name="client.testing", tracer=None), Span(name="client.testing", tracer=None), ]) traces.append([ Span(name="client.testing", tracer=None), Span(name="client.testing", tracer=None), ]) encoder = MsgpackEncoder() spans = encoder.encode_traces(traces) items = encoder._decode(spans) # test the encoded output that should be a string # and the output must be flatten assert isinstance(spans, msgpack_type) assert len(items) == 2 assert len(items[0]) == 2 assert len(items[1]) == 2 for i in range(2): for j in range(2): assert b"client.testing" == items[i][j][b"name"]