def test_logic(self):
        circ = make_simple_logic()
        task = Task(circ, get_pylinalg_qpu())

        for res in task.states():
            self.assertEqual(int(res.intermediate_measurements[0].cbits[0]), 1)
            self.assertEqual(int(res.intermediate_measurements[1].cbits[0]), 0)
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    def test_analyze_mode(self):

        circuit = generate_bell_state()
        task = Task(circuit, get_qpu_server())

        for state in task.states():
            self.assertAlmostEqual(state.probability, 0.5)
    def test_cc(self):
        circ = make_c_control_circuit()
        task = Task(circ, get_pylinalg_qpu())

        for res in task.states():
            self.assertEqual(res.intermediate_measurements[0].cbits[0], 1)
            self.assertEqual(res.intermediate_measurements[1].cbits[0], 1)
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    def test_bit_ordering(self):
        circ = generate_bit_ordering()
        for n_shots in [0, 10]:
            #            for expected_res, qbits in [(2, [0, 1, 2, 3]), (1, [0, 1, 2])]:
            for expected_res, qbits in [(2, [0, 1, 2, 3]), (1, [0, 1, 2]),
                                        (2, [2, 3]), (1, [3, 2])]:

                ref_task = Task(circ, get_qpu_server())
                if n_shots == 0:
                    for res in ref_task.states(qbits=qbits):
                        self.assertEqual(res.state.int, expected_res)
                else:
                    for res in ref_task.execute(nb_samples=n_shots,
                                                qbits=qbits):
                        self.assertEqual(res.state.int, expected_res)
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    def test_break(self):

        circ = generate_break()
        task = Task(circ, get_qpu_server())
        exp = exception_types.QPUException(exception_types.ErrorType.BREAK)
        exp = exception_types.QPUException(exception_types.ErrorType.BREAK)
        raised = False

        try:
            res = task.execute()
        except exception_types.QPUException as Exp:
            self.assertEqual(Exp.code, 10)
            self.assertEqual(Exp.modulename, "qat.pylinalg")
            raised = True

        self.assertTrue(raised)
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    def test_reset(self):
        """test that reset gate works
        FIXME in 'analyze' mode, not testing intermediate_measurements
        FIXME not testing if resetting several qbits
        """
        # program with final state: qbit 0 : 0 with 100% prob,
        # but intermediate measure can be 0 or 1 with 50% prob
        prog = Program()
        reg = prog.qalloc(1)
        prog.apply(H, reg)
        prog.reset(reg)
        circ = prog.to_circ()

        ref_task = Task(circ, get_pylinalg_qpu())
        for res in ref_task.execute(nb_samples=5):

            self.assertEqual(res.state.int, 0)
            self.assertAlmostEqual(
                res.intermediate_measurements[0].probability, 0.5, delta=1e-10)
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    def test_default_mode(self):

        circuit = generate_bell_state()
        task = Task(circuit, get_qpu_server())
        result = task.execute()
        self.assertTrue(result.state.int == result.state.int)
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    def test_formula_and_cctrl(self):

        circ = generate_boolean()
        task = Task(circ, get_qpu_server())
        res = task.execute()
        self.assertEqual(res.state.int, 7)