def test_001_t (self): # set up fg src_data0 =(1,2,3,4,5,6,7,8,0,0,0,0) src_data1 =(1j,2j,3j,4j,5j,6j,7j,8j) expected_result = (1,2,3+1j,4+2j,5+3j,6+4j,7+5j,8+6j,7j,8j) src0 = blocks.vector_source_c(src_data0,vlen=4) src1 = blocks.vector_source_c(src_data1,vlen=4) oas = fbmc_overlapping_parallel_to_serial_vcc(M=4) dst = blocks.vector_sink_c(vlen=1) self.tb.connect(src0,(oas,0)) self.tb.connect(src1,(oas,1)) self.tb.connect(oas,dst) self.tb.run () # check data result = dst.data() self.assertEqual(expected_result,result)
def test_003_t(self): M=int(math.pow(2,7)) num = int(math.pow(2,14)) src0 = list() src1 = list() for i in range(M*num): src0.append(int(random.random()*10)) src1.append(int(random.random()*10)*1j) src0.extend([0]*M) expected_result = list() expected_result.extend(src0[0:int(M/2)]) for i in range(len(src1)): expected_result.append(src1[i]+src0[int(M/2)+i]) src0 = blocks.vector_source_c(src0,vlen=M) src1 = blocks.vector_source_c(src1,vlen=M) oas = fbmc_overlapping_parallel_to_serial_vcc(M=M) dst = blocks.vector_sink_c(vlen=1) self.tb.connect(src0,(oas,0)) self.tb.connect(src1,(oas,1)) self.tb.connect(oas,dst) self.tb.run () # check data result = dst.data() self.assertComplexTuplesAlmostEqual(tuple(expected_result),tuple(result),6)