Ejemplo n.º 1
0
 def test_add_qreg_creg(self):
     """ add_qreg() and  add_creg() methods"""
     dag = DAGCircuit()
     dag.add_qreg(QuantumRegister(2, 'qr'))
     dag.add_creg(ClassicalRegister(1, 'cr'))
     self.assertDictEqual(dag.qregs, {'qr': QuantumRegister(2, 'qr')})
     self.assertDictEqual(dag.cregs, {'cr': ClassicalRegister(1, 'cr')})
Ejemplo n.º 2
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 def test_create(self):
     """
     Creation using add_basis_element(), add_qreg(), add_creg(), and apply_operation_back()."""
     qreg = QuantumRegister(2, 'qr')
     creg = ClassicalRegister(2, 'cr')
     qubit0 = ('qr', 0)
     qubit1 = ('qr', 1)
     clbit0 = ('cr', 0)
     clbit1 = ('cr', 1)
     condition = ('cr', 3)
     dag = DAGCircuit()
     dag.add_basis_element('h', 1, number_classical=0, number_parameters=0)
     dag.add_basis_element('cx', 2)
     dag.add_basis_element('x', 1)
     dag.add_basis_element('measure',
                           1,
                           number_classical=1,
                           number_parameters=0)
     dag.add_qreg(qreg)
     dag.add_creg(creg)
     dag.apply_operation_back('h', [qubit0], [], [], condition=None)
     dag.apply_operation_back('cx', [qubit0, qubit1], [], [],
                              condition=None)
     dag.apply_operation_back('measure', [qubit1], [clbit1], [],
                              condition=None)
     dag.apply_operation_back('x', [qubit1], [], [], condition=condition)
     dag.apply_operation_back('measure', [qubit0], [clbit0], [],
                              condition=None)
     dag.apply_operation_back('measure', [qubit1], [clbit1], [],
                              condition=None)
     self.assertEqual(len(dag.multi_graph.nodes), 14)
     self.assertEqual(len(dag.multi_graph.edges), 16)
Ejemplo n.º 3
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    def setUp(self):
        self.dag = DAGCircuit()
        qreg = QuantumRegister(3, 'qr')
        creg = ClassicalRegister(2, 'cr')
        self.dag.add_qreg(qreg)
        self.dag.add_creg(creg)
        self.dag.add_basis_element(name='h', number_qubits=1,
                                   number_classical=0, number_parameters=0)
        self.dag.add_basis_element('cx', 2, 0, 0)
        self.dag.add_basis_element('x', 1, 0, 0)
        self.dag.add_basis_element('measure', 1, 1, 0)
        self.dag.add_basis_element('reset', 1, 0, 0)

        self.qubit0 = qreg[0]
        self.qubit1 = qreg[1]
        self.qubit2 = qreg[2]
        self.clbit0 = creg[0]
        self.clbit1 = creg[1]
        self.condition = (creg, 3)
Ejemplo n.º 4
0
    def test_layers_basic(self):
        """ The layers() method."""
        qreg = QuantumRegister(2, 'qr')
        creg = ClassicalRegister(2, 'cr')
        qubit0 = ('qr', 0)
        qubit1 = ('qr', 1)
        clbit0 = ('cr', 0)
        clbit1 = ('cr', 1)
        condition = ('cr', 3)
        dag = DAGCircuit()
        dag.add_basis_element('h', 1, number_classical=0, number_parameters=0)
        dag.add_basis_element('cx', 2)
        dag.add_basis_element('x', 1)
        dag.add_basis_element('measure',
                              1,
                              number_classical=1,
                              number_parameters=0)
        dag.add_qreg(qreg)
        dag.add_creg(creg)
        dag.apply_operation_back('h', [qubit0], [], [], condition=None)
        dag.apply_operation_back('cx', [qubit0, qubit1], [], [],
                                 condition=None)
        dag.apply_operation_back('measure', [qubit1], [clbit1], [],
                                 condition=None)
        dag.apply_operation_back('x', [qubit1], [], [], condition=condition)
        dag.apply_operation_back('measure', [qubit0], [clbit0], [],
                                 condition=None)
        dag.apply_operation_back('measure', [qubit1], [clbit1], [],
                                 condition=None)

        layers = list(dag.layers())
        self.assertEqual(5, len(layers))

        name_layers = [[
            node[1]["name"]
            for node in layer["graph"].multi_graph.nodes(data=True)
            if node[1]["type"] == "op"
        ] for layer in layers]

        self.assertEqual(
            [['h'], ['cx'], ['measure'], ['x'], ['measure', 'measure']],
            name_layers)
Ejemplo n.º 5
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    def test_layers_basic(self):
        """ The layers() method returns a list of layers, each of them with a list of nodes."""
        qreg = QuantumRegister(2, 'qr')
        creg = ClassicalRegister(2, 'cr')
        qubit0 = qreg[0]
        qubit1 = qreg[1]
        clbit0 = creg[0]
        clbit1 = creg[1]
        condition = (creg, 3)
        dag = DAGCircuit()
        dag.add_basis_element('h', 1, 0, 0)
        dag.add_basis_element('cx', 2, 0, 0)
        dag.add_basis_element('x', 1, 0, 0)
        dag.add_basis_element('measure', 1, 1, 0)
        dag.add_qreg(qreg)
        dag.add_creg(creg)
        dag.apply_operation_back(HGate(qubit0))
        dag.apply_operation_back(CnotGate(qubit0, qubit1), condition=None)
        dag.apply_operation_back(Measure(qubit1, clbit1), condition=None)
        dag.apply_operation_back(XGate(qubit1), condition=condition)
        dag.apply_operation_back(Measure(qubit0, clbit0), condition=None)
        dag.apply_operation_back(Measure(qubit1, clbit1), condition=None)

        layers = list(dag.layers())
        self.assertEqual(5, len(layers))

        name_layers = [
            [node[1]["op"].name
             for node in layer["graph"].multi_graph.nodes(data=True)
             if node[1]["type"] == "op"] for layer in layers]

        self.assertEqual([
            ['h'],
            ['cx'],
            ['measure'],
            ['x'],
            ['measure', 'measure']
        ], name_layers)
Ejemplo n.º 6
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    def _process_node(self, node):
        """Carry out the action associated with node n."""
        if node.type == "program":
            self._process_children(node)

        elif node.type == "qreg":
            qreg = QuantumRegister(node.index, node.name)
            self.qregs[node.name] = qreg
            self.backend.new_qreg(qreg)

        elif node.type == "creg":
            creg = ClassicalRegister(node.index, node.name)
            self.cregs[node.name] = creg
            self.backend.new_creg(creg)

        elif node.type == "id":
            raise UnrollerError("internal error: _process_node on id")

        elif node.type == "int":
            raise UnrollerError("internal error: _process_node on int")

        elif node.type == "real":
            raise UnrollerError("internal error: _process_node on real")

        elif node.type == "indexed_id":
            raise UnrollerError("internal error: _process_node on indexed_id")

        elif node.type == "id_list":
            # We process id_list nodes when they are leaves of barriers.
            return [
                self._process_bit_id(node_children)
                for node_children in node.children
            ]

        elif node.type == "primary_list":
            # We should only be called for a barrier.
            return [self._process_bit_id(m) for m in node.children]

        elif node.type == "gate":
            self._process_gate(node)

        elif node.type == "custom_unitary":
            self._process_custom_unitary(node)

        elif node.type == "universal_unitary":
            args = self._process_node(node.children[0])
            qid = self._process_bit_id(node.children[1])
            for element in qid:
                self.backend.u(args, element)

        elif node.type == "cnot":
            self._process_cnot(node)

        elif node.type == "expression_list":
            return node.children

        elif node.type == "binop":
            raise UnrollerError("internal error: _process_node on binop")

        elif node.type == "prefix":
            raise UnrollerError("internal error: _process_node on prefix")

        elif node.type == "measure":
            self._process_measure(node)

        elif node.type == "format":
            self.version = node.version()
            self.backend.version(node.version())

        elif node.type == "barrier":
            ids = self._process_node(node.children[0])
            self.backend.barrier(ids)

        elif node.type == "reset":
            id0 = self._process_bit_id(node.children[0])
            for i, _ in enumerate(id0):
                self.backend.reset(id0[i])

        elif node.type == "if":
            self._process_if(node)

        elif node.type == "opaque":
            self._process_gate(node, opaque=True)

        elif node.type == "external":
            raise UnrollerError("internal error: _process_node on external")

        else:
            raise UnrollerError("internal error: undefined node type",
                                node.type, "line=%s" % node.line,
                                "file=%s" % node.file)
        return None
Ejemplo n.º 7
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 def test_add_reg_bad_type(self):
     """ add_qreg with a classical register is not allowed."""
     dag = DAGCircuit()
     cr = ClassicalRegister(2)
     self.assertRaises(DAGCircuitError, dag.add_qreg, cr)