def test_render_loop_compare(self) -> None: wf1 = DummyWaveform(duration=19) wf2 = DummyWaveform(duration=21) block = InstructionBlock() block.add_instruction_exec(wf1) block.add_instruction_meas([('asd', 0, 1), ('asd', 1, 1)]) block.add_instruction_exec(wf2) mcp = MultiChannelProgram(block) loop = next(iter(mcp.programs.values())) block_times, block_voltages, _ = render(block, sample_rate=0.5) loop_times, loop_voltages, _ = render(loop, sample_rate=0.5) numpy.testing.assert_equal(block_times, loop_times) numpy.testing.assert_equal(block_voltages, loop_voltages) block_times, block_voltages, block_measurements = render( block, sample_rate=0.5, render_measurements=True) loop_times, loop_voltages, loop_measurements = render( loop, sample_rate=0.5, render_measurements=True) numpy.testing.assert_equal(block_times, loop_times) numpy.testing.assert_equal(block_voltages, loop_voltages) self.assertEqual(block_measurements, loop_measurements)
def test_render(self) -> None: with self.assertWarnsRegex(DeprecationWarning, ".*InstructionBlock.*"): wf1 = DummyWaveform(duration=19) wf2 = DummyWaveform(duration=21) block = InstructionBlock() block.add_instruction_exec(wf1) block.add_instruction_meas([('asd', 0, 1)]) block.add_instruction_exec(wf2) wf1_expected = ('A', [0, 2, 4, 6, 8, 10, 12, 14, 16, 18]) wf2_expected = ('A', [ x - 19 for x in [20, 22, 24, 26, 28, 30, 32, 34, 36, 38, 40] ]) wf1_output_array_len_expected = len(wf1_expected[1]) wf2_output_array_len_expected = len(wf2_expected[1]) wf1.sample_output = numpy.linspace(start=4, stop=5, num=len(wf1_expected[1])) wf2.sample_output = numpy.linspace(6, 7, num=len(wf2_expected[1])) expected_times = numpy.arange(start=0, stop=42, step=2) expected_result = numpy.concatenate( (wf1.sample_output, wf2.sample_output)) times, voltages, _ = render(block, sample_rate=0.5) self.assertEqual(len(wf1.sample_calls), 1) self.assertEqual(len(wf2.sample_calls), 1) self.assertEqual(wf1_expected[0], wf1.sample_calls[0][0]) self.assertEqual(wf2_expected[0], wf2.sample_calls[0][0]) numpy.testing.assert_almost_equal(wf1_expected[1], wf1.sample_calls[0][1]) numpy.testing.assert_almost_equal(wf2_expected[1], wf2.sample_calls[0][1]) self.assertEqual(wf1_output_array_len_expected, len(wf1.sample_calls[0][2])) self.assertEqual(wf2_output_array_len_expected, len(wf2.sample_calls[0][2])) self.assertEqual(voltages.keys(), dict(A=0).keys()) numpy.testing.assert_almost_equal(expected_times, times) numpy.testing.assert_almost_equal(expected_result, voltages['A']) self.assertEqual(expected_result.shape, voltages['A'].shape) times, voltages, measurements = render(block, sample_rate=0.5, render_measurements=True) self.assertEqual(voltages.keys(), dict(A=0).keys()) numpy.testing.assert_almost_equal(expected_times, times) numpy.testing.assert_almost_equal(expected_result, voltages['A']) self.assertEqual(expected_result.shape, voltages['A'].shape) self.assertEqual(measurements, [('asd', 19, 1)])
def test_render_warning(self) -> None: wf1 = DummyWaveform(duration=19) wf2 = DummyWaveform(duration=21) block = InstructionBlock() block.add_instruction_exec(wf1) block.add_instruction_meas([('asd', 0, 1)]) block.add_instruction_exec(wf2) with self.assertWarns(UserWarning): render(block, sample_rate=0.51314323423)
def test_empty_repj(self): empty_block = InstructionBlock() root_block = InstructionBlock() root_block.add_instruction_repj(1, empty_block) with self.assertRaisesRegex(ValueError, 'no defined channels'): MultiChannelProgram(root_block) empty_block.add_instruction_exec(DummyWaveform(duration=1, defined_channels={'A', 'B'})) MultiChannelProgram(root_block)
def test_render_block_time_slice(self) -> None: with self.assertWarnsRegex(DeprecationWarning, ".*InstructionBlock.*"): with self.assertRaises(ValueError): wf1 = DummyWaveform(duration=19) wf2 = DummyWaveform(duration=21) block = InstructionBlock() block.add_instruction_exec(wf1) block.add_instruction_exec(wf2) times, voltages, _ = render(block, sample_rate=0.5, time_slice=(1, 16))
def test_run_program(self): wf = DummyWaveform(duration=1.1, defined_channels={'A', 'B'}) block = InstructionBlock() block.add_instruction_meas([('m1', 0., 1.)]) block.add_instruction_exec(wf) awg1 = DummyAWG() awg2 = DummyAWG() awg3 = DummyAWG() dac1 = DummyDAC() dac2 = DummyDAC() setup = HardwareSetup() setup.set_channel('A', PlaybackChannel(awg1, 0)) setup.set_channel('B', MarkerChannel(awg2, 0)) setup.set_channel('C', MarkerChannel(awg3, 0)) setup.set_measurement('m1', MeasurementMask(dac1, 'DAC_1')) setup.set_measurement('m2', MeasurementMask(dac2, 'DAC_2')) class ProgStart: def __init__(self): self.was_started = False def __call__(self): self.was_started = True program_started = ProgStart() setup.register_program('test', block, run_callback=program_started) self.assertIsNone(awg1._armed) self.assertIsNone(awg2._armed) self.assertIsNone(awg3._armed) self.assertIsNone(dac1._armed_program) self.assertIsNone(dac2._armed_program) setup.run_program('test') self.assertEqual(awg1._armed, 'test') self.assertEqual(awg2._armed, 'test') self.assertIsNone(awg3._armed) self.assertEqual(dac1._armed_program, 'test') self.assertIsNone(dac2._armed_program) self.assertTrue(program_started.was_started)
def test_add_instruction_exec(self) -> None: block = InstructionBlock() expected_instructions = [] waveforms = [DummyWaveform(), DummyWaveform(), DummyWaveform()] LOOKUP = [0, 1, 1, 0, 2, 1, 0, 0, 0, 1, 2, 2] for id in LOOKUP: waveform = waveforms[id] instruction = EXECInstruction(waveform) expected_instructions.append(instruction) block.add_instruction_exec(waveform) expected_compiled_instructions = expected_instructions.copy() expected_compiled_instructions.append(STOPInstruction()) self.__verify_block(block, expected_instructions, expected_compiled_instructions, None)
def test_build_sequence(self): wfs = [ DummyWaveform(duration=1.1, defined_channels={'A'}), DummyWaveform(duration=1.1, defined_channels={'B'}) ] sts = [ DummyPulseTemplate(duration='t1', defined_channels={'A'}, waveform=wfs[0], measurements=[('m', 0, 1)]), DummyPulseTemplate(duration='t1', defined_channels={'B'}, waveform=wfs[1]), DummyPulseTemplate(duration='t1', defined_channels={'C'}, waveform=None) ] pt = AtomicMultiChannelPulseTemplate(*sts, parameter_constraints=['a < b'], measurements=[('n', .1, .2)]) params = dict(a=ConstantParameter(1.0), b=ConstantParameter(1.1)) measurement_mapping = dict(m='foo', n='bar') channel_mapping = {'A': 'A', 'B': 'B', 'C': None} block = InstructionBlock() pt.build_sequence(None, parameters=params, conditions={}, measurement_mapping=measurement_mapping, channel_mapping=channel_mapping, instruction_block=block) expected_waveform = MultiChannelWaveform(wfs) expected_block = InstructionBlock() measurements = [('bar', .1, .2), ('foo', 0, 1)] expected_block.add_instruction_meas(measurements) expected_block.add_instruction_exec(waveform=expected_waveform) self.assertEqual(len(block.instructions), len(expected_block.instructions)) self.assertEqual(block.instructions[0].compare_key, expected_block.instructions[0].compare_key) self.assertEqual(block.instructions[1].compare_key, expected_block.instructions[1].compare_key)
def test_remove_program(self): wf_1 = DummyWaveform(duration=1.1, defined_channels={'A', 'B'}) wf_2 = DummyWaveform(duration=1.1, defined_channels={'A', 'C'}) block_1 = InstructionBlock() block_2 = InstructionBlock() block_1.add_instruction_meas([('m1', 0., 1.)]) block_1.add_instruction_exec(wf_1) block_2.add_instruction_meas([('m2', 0., 1.)]) block_2.add_instruction_exec(wf_2) awg1 = DummyAWG() awg2 = DummyAWG() awg3 = DummyAWG() dac1 = DummyDAC() dac2 = DummyDAC() setup = HardwareSetup() setup.set_channel('A', PlaybackChannel(awg1, 0)) setup.set_channel('B', MarkerChannel(awg2, 0)) setup.set_channel('C', MarkerChannel(awg3, 0)) setup.set_measurement('m1', MeasurementMask(dac1, 'DAC_1')) setup.set_measurement('m2', MeasurementMask(dac2, 'DAC_2')) setup.register_program('test_1', block_1) setup.register_program('test_2', block_2) setup.arm_program('test_1') setup.remove_program('test_1') self.assertEqual(setup.registered_programs.keys(), {'test_2'}) self.assertIsNone(awg1._armed) self.assertIsNone(awg2._armed)
def test_iter_instruction_block(self) -> None: wf1 = DummyWaveform(duration=7) wf2 = DummyWaveform(duration=5) wf3 = DummyWaveform(duration=3) repeated_block = InstructionBlock() repeated_block.add_instruction_meas([('m', 1, 2)]) repeated_block.add_instruction_exec(wf2) repeated_block.add_instruction_exec(wf1) main_block = InstructionBlock() main_block.add_instruction_exec(wf1) main_block.add_instruction_repj(2, repeated_block) main_block.add_instruction_exec(wf3) waveforms, measurements, total_time = iter_instruction_block( main_block, True) for idx, (expected, received) in enumerate( zip([wf1, wf2, wf1, wf2, wf1, wf3], waveforms)): self.assertIs(expected, received, msg="Waveform {} is wrong".format(idx)) self.assertEqual([('m', 8, 2), ('m', 20, 2)], measurements) self.assertEqual(total_time, 34)
def test_iter_waveform_exceptions(self) -> None: wf1 = DummyWaveform(duration=7) wf2 = DummyWaveform(duration=5) wf3 = DummyWaveform(duration=3) repeated_block = InstructionBlock() repeated_block.add_instruction_meas([('m', 1, 2)]) repeated_block.add_instruction_exec(wf2) repeated_block.add_instruction_exec(wf1) main_block = InstructionBlock() main_block.add_instruction_exec(wf1) main_block.add_instruction_repj(2, repeated_block) main_block.add_instruction_exec(wf3) main_block.add_instruction_goto(repeated_block) with self.assertRaises(NotImplementedError): list(iter_waveforms(main_block)) repeated_block.add_instruction(DummyInstruction()) with self.assertRaises(NotImplementedError): list(iter_waveforms(main_block)) main_block = InstructionBlock() main_block.add_instruction_stop() with self.assertRaises(StopIteration): next(iter_waveforms(main_block))
def test_iter_waveforms(self) -> None: wf1 = DummyWaveform(duration=7) wf2 = DummyWaveform(duration=5) wf3 = DummyWaveform(duration=3) repeated_block = InstructionBlock() repeated_block.add_instruction_meas([('m', 1, 2)]) repeated_block.add_instruction_exec(wf2) repeated_block.add_instruction_exec(wf1) main_block = InstructionBlock() main_block.add_instruction_exec(wf1) main_block.add_instruction_repj(2, repeated_block) main_block.add_instruction_exec(wf3) for idx, (expected, received) in enumerate( zip([wf1, wf2, wf1, wf2, wf1, wf3], iter_waveforms(main_block))): self.assertIs(expected, received, msg="Waveform {} is wrong".format(idx))
def test_multiple_nested_block_construction(self) -> None: main_block = InstructionBlock() blocks = [] waveforms = [DummyWaveform(), DummyWaveform(), DummyWaveform()] main_block.add_instruction_exec(waveforms[0]) block = InstructionBlock() trigger = Trigger() main_block.add_instruction_cjmp(trigger, block) block.return_ip = InstructionPointer(main_block, len(main_block)) blocks.append(block) block = InstructionBlock() trigger = Trigger() main_block.add_instruction_cjmp(trigger, block) block.return_ip = InstructionPointer(main_block, len(main_block)) blocks.append(block) WAVEFORM_LOOKUP = [[2, 2, 1, 1], [0, 1, 1, 0, 2, 1]] for i in [0, 1]: block = blocks[i] lookup = WAVEFORM_LOOKUP[i] for id in lookup: waveform = waveforms[id] block.add_instruction_exec(waveform) block = InstructionBlock() blocks[0].add_instruction_cjmp(trigger, block) block.return_ip = InstructionPointer(blocks[0], len(blocks[0])) blocks.append(block) for id in [1, 2, 0, 2]: waveform = waveforms[id] block.add_instruction_exec(waveform) context = dict() immutable_block = ImmutableInstructionBlock(main_block, context) self.__verify_block(main_block, immutable_block, context.copy())
def test_clear_programs(self) -> None: setup = HardwareSetup() awg1 = DummyAWG(num_channels=2, num_markers=0) awg2 = DummyAWG(num_channels=1, num_markers=1) dac1 = DummyDAC() dac2 = DummyDAC() setup.set_channel('A', PlaybackChannel(awg1, 0)) setup.set_channel('B', PlaybackChannel(awg1, 1)) setup.set_channel('C', PlaybackChannel(awg2, 0)) setup.set_channel('M1', MarkerChannel(awg2, 0)) wf1 = DummyWaveform(duration=1.1, defined_channels={'C'}) wf2 = DummyWaveform(duration=7.2, defined_channels={'A'}) wf3 = DummyWaveform(duration=3.7, defined_channels={'B', 'C'}) setup.set_measurement('m1', MeasurementMask(dac1, 'DAC_1')) setup.set_measurement('m2', MeasurementMask(dac2, 'DAC_2')) block1 = InstructionBlock() block1.add_instruction_exec(wf1) block2 = InstructionBlock() block2.add_instruction_meas([('m1', 0., 1.)]) block2.add_instruction_exec(wf2) block3 = InstructionBlock() block3.add_instruction_meas([('m2', 2., 3.)]) block3.add_instruction_exec(wf3) setup.register_program('prog1', block1) setup.register_program('prog2', block2) setup.register_program('prog3', block3) self.assertTrue(setup.registered_programs) setup.clear_programs() self.assertFalse(setup.registered_programs)
class MultiChannelTests(unittest.TestCase): def __init__(self, *args, **kwargs): super().__init__(*args, **kwargs) wf = DummyWaveform() self.descriptionA = \ """\ LOOP 1 times: ->EXEC {} 1 times ->EXEC {} 50 times ->LOOP 17 times: ->LOOP 2 times: ->EXEC {} 1 times ->EXEC {} 1 times ->EXEC {} 1 times ->LOOP 3 times: ->EXEC {} 1 times ->EXEC {} 1 times ->LOOP 24 times: ->EXEC {} 7 times ->EXEC {} 8 times""" self.descriptionB = \ """\ LOOP 1 times: ->EXEC {} 1 times ->EXEC {} 50 times ->LOOP 17 times: ->LOOP 2 times: ->EXEC {} 1 times ->EXEC {} 1 times ->EXEC {} 1 times ->LOOP 3 times: ->EXEC {} 1 times ->EXEC {} 1 times ->LOOP 36 times: ->EXEC {} 10 times ->EXEC {} 11 times""" def generate_waveform(channel): return DummyWaveform(sample_output=None, duration=1., defined_channels={channel}) def generate_multi_channel_waveform(): return MultiChannelWaveform( [generate_waveform('A'), generate_waveform('B')]) self.loop_block11 = InstructionBlock() self.loop_block11.add_instruction_exec( generate_multi_channel_waveform()) self.loop_block1 = InstructionBlock() self.loop_block1.add_instruction_repj( 5, ImmutableInstructionBlock(self.loop_block11)) self.loop_block21 = InstructionBlock() self.loop_block21.add_instruction_exec( generate_multi_channel_waveform()) self.loop_block21.add_instruction_exec( generate_multi_channel_waveform()) self.loop_block2 = InstructionBlock() self.loop_block2.add_instruction_repj( 2, ImmutableInstructionBlock(self.loop_block21)) self.loop_block2.add_instruction_exec( generate_multi_channel_waveform()) self.loop_block3 = InstructionBlock() self.loop_block3.add_instruction_exec( generate_multi_channel_waveform()) self.loop_block3.add_instruction_exec( generate_multi_channel_waveform()) self.loop_block411 = InstructionBlock() self.loop_block411.add_instruction_exec( MultiChannelWaveform([generate_waveform('A')])) self.loop_block412 = InstructionBlock() self.loop_block412.add_instruction_exec( MultiChannelWaveform([generate_waveform('A')])) self.loop_block41 = InstructionBlock() self.loop_block41.add_instruction_repj( 7, ImmutableInstructionBlock(self.loop_block411)) self.loop_block41.add_instruction_repj( 8, ImmutableInstructionBlock(self.loop_block412)) self.loop_block421 = InstructionBlock() self.loop_block421.add_instruction_exec( MultiChannelWaveform([generate_waveform('B')])) self.loop_block422 = InstructionBlock() self.loop_block422.add_instruction_exec( MultiChannelWaveform([generate_waveform('B')])) self.loop_block42 = InstructionBlock() self.loop_block42.add_instruction_repj( 10, ImmutableInstructionBlock(self.loop_block421)) self.loop_block42.add_instruction_repj( 11, ImmutableInstructionBlock(self.loop_block422)) self.chan_block4A = InstructionBlock() self.chan_block4A.add_instruction_repj( 6, ImmutableInstructionBlock(self.loop_block41)) self.chan_block4B = InstructionBlock() self.chan_block4B.add_instruction_repj( 9, ImmutableInstructionBlock(self.loop_block42)) self.loop_block4 = InstructionBlock() self.loop_block4.add_instruction_chan({ frozenset('A'): ImmutableInstructionBlock(self.chan_block4A), frozenset('B'): ImmutableInstructionBlock(self.chan_block4B) }) self.root_block = InstructionBlock() self.root_block.add_instruction_exec(generate_multi_channel_waveform()) self.root_block.add_instruction_repj( 10, ImmutableInstructionBlock(self.loop_block1)) self.root_block.add_instruction_repj( 17, ImmutableInstructionBlock(self.loop_block2)) self.root_block.add_instruction_repj( 3, ImmutableInstructionBlock(self.loop_block3)) self.root_block.add_instruction_repj( 4, ImmutableInstructionBlock(self.loop_block4)) self.maxDiff = None def get_mcp(self, channels): program = MultiChannelProgram(self.root_block, ['A', 'B']) return program[channels] def test_init(self): with self.assertRaises(ValueError): MultiChannelProgram(InstructionBlock()) mcp = MultiChannelProgram(self.root_block, ['A', 'B']) self.assertEqual(mcp.channels, {'A', 'B'}) with self.assertRaises(KeyError): mcp['C'] def test_empty_repj(self): empty_block = InstructionBlock() root_block = InstructionBlock() root_block.add_instruction_repj(1, empty_block) with self.assertRaisesRegex(ValueError, 'no defined channels'): MultiChannelProgram(root_block) empty_block.add_instruction_exec( DummyWaveform(duration=1, defined_channels={'A', 'B'})) MultiChannelProgram(root_block) def test_via_repr(self): root_loopA = self.get_mcp('A') root_loopB = self.get_mcp('B') waveformsA = tuple(loop.waveform for loop in root_loopA.get_depth_first_iterator() if loop.is_leaf()) reprA = self.descriptionA.format(*waveformsA) reprB = self.descriptionB.format( *(loop.waveform for loop in root_loopB.get_depth_first_iterator() if loop.is_leaf())) self.assertEqual(root_loopA.__repr__(), reprA) self.assertEqual(root_loopB.__repr__(), reprB) def test_init_from_loop(self): program = Loop(waveform=DummyWaveform(defined_channels={'A', 'B'})) mcp = MultiChannelProgram(program) self.assertEqual(mcp.programs, {frozenset('AB'): program}) with self.assertRaises(TypeError): MultiChannelProgram(mcp)
def test_nested_block_construction(self) -> None: main_block = InstructionBlock() expected_instructions = [[], [], [], []] expected_compiled_instructions = [[], [], [], []] expected_return_ips = [None] blocks = [] waveforms = [DummyWaveform(), DummyWaveform(), DummyWaveform()] main_block.add_instruction_exec(waveforms[0]) expected_instructions[0].append(EXECInstruction(waveforms[0])) block = InstructionBlock() trigger = Trigger() ip = InstructionPointer(block) main_block.add_instruction_cjmp(trigger, block) expected_instructions[0].append(CJMPInstruction(trigger, ip)) block.return_ip = InstructionPointer(main_block, len(main_block)) expected_return_ips.append( InstructionPointer(main_block, len(main_block))) blocks.append(block) block = InstructionBlock() trigger = Trigger() ip = InstructionPointer(block) main_block.add_instruction_cjmp(trigger, block) expected_instructions[0].append(CJMPInstruction(trigger, ip)) block.return_ip = InstructionPointer(main_block, len(main_block)) expected_return_ips.append( InstructionPointer(main_block, len(main_block))) blocks.append(block) WAVEFORM_LOOKUP = [[2, 2, 1, 1], [0, 1, 1, 0, 2, 1]] for i in [0, 1]: block = blocks[i] lookup = WAVEFORM_LOOKUP[i] for id in lookup: waveform = waveforms[id] expected_instructions[i + 1].append(EXECInstruction(waveform)) block.add_instruction_exec(waveform) block = InstructionBlock() ip = InstructionPointer(block) blocks[0].add_instruction_cjmp(trigger, block) expected_instructions[1].append(CJMPInstruction(trigger, ip)) block.return_ip = InstructionPointer(blocks[0], len(blocks[0])) expected_return_ips.append( InstructionPointer(blocks[0], len(blocks[0]))) blocks.append(block) for id in [1, 2, 0, 2]: waveform = waveforms[id] expected_instructions[3].append(EXECInstruction(waveform)) block.add_instruction_exec(waveform) for i in [0, 1, 2, 3]: expected_compiled_instructions[i] = expected_instructions[i].copy() expected_compiled_instructions[0].append(STOPInstruction()) for i in [0, 1, 2]: expected_compiled_instructions[i + 1].append( GOTOInstruction(blocks[i].return_ip)) positions = [0, None, None, None] positions[3] = len(expected_compiled_instructions[1]) self.__verify_block(blocks[2], expected_instructions[3], expected_compiled_instructions[3], expected_return_ips[3]) self.__verify_block(blocks[1], expected_instructions[2], expected_compiled_instructions[2], expected_return_ips[2]) self.__verify_block(blocks[0], expected_instructions[1], expected_compiled_instructions[1], expected_return_ips[1]) self.__verify_block(main_block, expected_instructions[0], expected_compiled_instructions[0], expected_return_ips[0])
def test_iter_instruction_block_exceptions(self) -> None: wf1 = DummyWaveform(duration=7) wf2 = DummyWaveform(duration=5) wf3 = DummyWaveform(duration=3) repeated_block = InstructionBlock() repeated_block.add_instruction_meas([('m', 1, 2)]) repeated_block.add_instruction_exec(wf2) main_block = InstructionBlock() main_block.add_instruction_exec(wf1) main_block.add_instruction_repj(2, repeated_block) main_block.add_instruction_exec(wf3) repeated_block.add_instruction_goto(main_block) with self.assertRaises(NotImplementedError): iter_instruction_block(main_block, False) repeated_block = InstructionBlock() repeated_block.add_instruction_meas([('m', 1, 2)]) repeated_block.add_instruction_exec(wf2) repeated_block.add_instruction(DummyInstruction()) main_block = InstructionBlock() main_block.add_instruction_exec(wf1) main_block.add_instruction_repj(2, repeated_block) main_block.add_instruction_exec(wf3) with self.assertRaises(NotImplementedError): iter_instruction_block(main_block, False)
def get_two_chan_test_block(wfg=WaveformGenerator(2)): generate_waveform = wfg.generate_single_channel_waveform generate_multi_channel_waveform = wfg.generate_multi_channel_waveform loop_block11 = InstructionBlock() loop_block11.add_instruction_exec(generate_multi_channel_waveform()) loop_block1 = InstructionBlock() loop_block1.add_instruction_repj(5, ImmutableInstructionBlock(loop_block11)) loop_block21 = InstructionBlock() loop_block21.add_instruction_exec(generate_multi_channel_waveform()) loop_block21.add_instruction_exec(generate_multi_channel_waveform()) loop_block2 = InstructionBlock() loop_block2.add_instruction_repj(2, ImmutableInstructionBlock(loop_block21)) loop_block2.add_instruction_exec(generate_multi_channel_waveform()) loop_block3 = InstructionBlock() loop_block3.add_instruction_exec(generate_multi_channel_waveform()) loop_block3.add_instruction_exec(generate_multi_channel_waveform()) loop_block411 = InstructionBlock() loop_block411.add_instruction_exec( MultiChannelWaveform([generate_waveform('A')])) loop_block412 = InstructionBlock() loop_block412.add_instruction_exec( MultiChannelWaveform([generate_waveform('A')])) loop_block41 = InstructionBlock() loop_block41.add_instruction_repj(7, ImmutableInstructionBlock(loop_block411)) loop_block41.add_instruction_repj(8, ImmutableInstructionBlock(loop_block412)) loop_block421 = InstructionBlock() loop_block421.add_instruction_exec( MultiChannelWaveform([generate_waveform('B')])) loop_block422 = InstructionBlock() loop_block422.add_instruction_exec( MultiChannelWaveform([generate_waveform('B')])) loop_block42 = InstructionBlock() loop_block42.add_instruction_repj(10, ImmutableInstructionBlock(loop_block421)) loop_block42.add_instruction_repj(11, ImmutableInstructionBlock(loop_block422)) chan_block4A = InstructionBlock() chan_block4A.add_instruction_repj(6, ImmutableInstructionBlock(loop_block41)) chan_block4B = InstructionBlock() chan_block4B.add_instruction_repj(9, ImmutableInstructionBlock(loop_block42)) loop_block4 = InstructionBlock() loop_block4.add_instruction_chan({ frozenset('A'): ImmutableInstructionBlock(chan_block4A), frozenset('B'): ImmutableInstructionBlock(chan_block4B) }) root_block = InstructionBlock() root_block.add_instruction_exec(generate_multi_channel_waveform()) root_block.add_instruction_repj(10, ImmutableInstructionBlock(loop_block1)) root_block.add_instruction_repj(17, ImmutableInstructionBlock(loop_block2)) root_block.add_instruction_repj(3, ImmutableInstructionBlock(loop_block3)) root_block.add_instruction_repj(4, ImmutableInstructionBlock(loop_block4)) return root_block