本文整理匯總了Python中qiskit.QuantumCircuit.y方法的典型用法代碼示例。如果您正苦於以下問題:Python QuantumCircuit.y方法的具體用法?Python QuantumCircuit.y怎麽用?Python QuantumCircuit.y使用的例子?那麽, 這裏精選的方法代碼示例或許可以為您提供幫助。您也可以進一步了解該方法所在類qiskit.QuantumCircuit的用法示例。
在下文中一共展示了QuantumCircuit.y方法的2個代碼示例,這些例子默認根據受歡迎程度排序。您可以為喜歡或者感覺有用的代碼點讚,您的評價將有助於係統推薦出更棒的Python代碼示例。
示例1: TestStandard1Q
# 需要導入模塊: from qiskit import QuantumCircuit [as 別名]
# 或者: from qiskit.QuantumCircuit import y [as 別名]
#.........這裏部分代碼省略.........
self.assertRaises(QISKitError, c.cu3, 0, 0, 0, 0, self.q[0])
self.assertRaises(QISKitError, c.cu3, 0, 0, 0, (self.q, 3), self.q[1])
self.assertRaises(QISKitError, c.cu3, 0, 0, 0, self.c, self.q)
# TODO self.assertRaises(QISKitError, c.cu3, 0, 0, 'a', self.q[1], self.q[2])
def test_cx(self):
self.circuit.cx(self.q[1], self.q[2])
qasm_txt = 'cx q[1],q[2];'
self.assertResult(CnotGate, qasm_txt, qasm_txt)
def test_cx_invalid(self):
c = self.circuit
self.assertRaises(QISKitError, c.cx, self.c[1], self.c[2])
self.assertRaises(QISKitError, c.cx, self.q[0], self.q[0])
self.assertRaises(QISKitError, c.cx, 0, self.q[0])
self.assertRaises(QISKitError, c.cx, (self.q, 3), self.q[0])
self.assertRaises(QISKitError, c.cx, self.c, self.q)
self.assertRaises(QISKitError, c.cx, 'a', self.q[1])
def test_cxbase(self):
qasm_txt = 'CX q[1],q[2];'
self.circuit.cx_base(self.q[1], self.q[2])
self.assertResult(CXBase, qasm_txt, qasm_txt)
def test_cxbase_invalid(self):
c = self.circuit
self.assertRaises(QISKitError, c.cx_base, self.c[1], self.c[2])
self.assertRaises(QISKitError, c.cx_base, self.q[0], self.q[0])
self.assertRaises(QISKitError, c.cx_base, 0, self.q[0])
self.assertRaises(QISKitError, c.cx_base, (self.q, 3), self.q[0])
self.assertRaises(QISKitError, c.cx_base, self.c, self.q)
self.assertRaises(QISKitError, c.cx_base, 'a', self.q[1])
def test_cy(self):
qasm_txt = 'cy q[1],q[2];'
self.circuit.cy(self.q[1], self.q[2])
self.assertResult(CyGate, qasm_txt, qasm_txt)
def test_cy_invalid(self):
c = self.circuit
self.assertRaises(QISKitError, c.cy, self.c[1], self.c[2])
self.assertRaises(QISKitError, c.cy, self.q[0], self.q[0])
self.assertRaises(QISKitError, c.cy, 0, self.q[0])
self.assertRaises(QISKitError, c.cy, (self.q, 3), self.q[0])
self.assertRaises(QISKitError, c.cy, self.c, self.q)
self.assertRaises(QISKitError, c.cy, 'a', self.q[1])
def test_cz(self):
qasm_txt = 'cz q[1],q[2];'
self.circuit.cz(self.q[1], self.q[2])
self.assertResult(CzGate, qasm_txt, qasm_txt)
def test_cz_invalid(self):
c = self.circuit
self.assertRaises(QISKitError, c.cz, self.c[1], self.c[2])
self.assertRaises(QISKitError, c.cz, self.q[0], self.q[0])
self.assertRaises(QISKitError, c.cz, 0, self.q[0])
self.assertRaises(QISKitError, c.cz, (self.q, 3), self.q[0])
self.assertRaises(QISKitError, c.cz, self.c, self.q)
self.assertRaises(QISKitError, c.cz, 'a', self.q[1])
def test_h(self):
qasm_txt = 'h q[1];'
self.circuit.h(self.q[1])
self.assertResult(HGate, qasm_txt, qasm_txt)
示例2: CircuitBackend
# 需要導入模塊: from qiskit import QuantumCircuit [as 別名]
# 或者: from qiskit.QuantumCircuit import y [as 別名]
class CircuitBackend(UnrollerBackend):
"""Backend for the unroller that produces a QuantumCircuit.
By default, basis gates are the QX gates.
"""
def __init__(self, basis=None):
"""Setup this backend.
basis is a list of operation name strings.
"""
super().__init__(basis)
self.creg = None
self.cval = None
if basis:
self.basis = basis
else:
self.basis = ["cx", "u1", "u2", "u3"]
self.gates = {}
self.listen = True
self.in_gate = ""
self.circuit = QuantumCircuit()
def set_basis(self, basis):
"""Declare the set of user-defined gates to emit.
basis is a list of operation name strings.
"""
self.basis = basis
def version(self, version):
"""Ignore the version string.
v is a version number.
"""
pass
def new_qreg(self, name, size):
"""Create a new quantum register.
name = name of the register
sz = size of the register
"""
assert size >= 0, "invalid qreg size"
q_register = QuantumRegister(size, name)
self.circuit.add(q_register)
def new_creg(self, name, size):
"""Create a new classical register.
name = name of the register
sz = size of the register
"""
assert size >= 0, "invalid creg size"
c_register = ClassicalRegister(size, name)
self.circuit.add(c_register)
def define_gate(self, name, gatedata):
"""Define a new quantum gate.
We don't check that the definition and name agree.
name is a string.
gatedata is the AST node for the gate.
"""
self.gates[name] = gatedata
def _map_qubit(self, qubit):
"""Map qubit tuple (regname, index) to (QuantumRegister, index)."""
qregs = self.circuit.get_qregs()
if qubit[0] not in qregs:
raise BackendError("qreg %s does not exist" % qubit[0])
return (qregs[qubit[0]], qubit[1])
def _map_bit(self, bit):
"""Map bit tuple (regname, index) to (ClassicalRegister, index)."""
cregs = self.circuit.get_cregs()
if bit[0] not in cregs:
raise BackendError("creg %s does not exist" % bit[0])
return (cregs[bit[0]], bit[1])
def _map_creg(self, creg):
"""Map creg name to ClassicalRegister."""
cregs = self.circuit.get_cregs()
if creg not in cregs:
raise BackendError("creg %s does not exist" % creg)
return cregs[creg]
def u(self, arg, qubit, nested_scope=None):
"""Fundamental single qubit gate.
arg is 3-tuple of Node expression objects.
qubit is (regname,idx) tuple.
nested_scope is a list of dictionaries mapping expression variables
to Node expression objects in order of increasing nesting depth.
"""
if self.listen:
if "U" not in self.basis:
self.basis.append("U")
#.........這裏部分代碼省略.........