DictStateFn
class qiskit.opflow.state_fns.DictStateFn(*args, **kwargs)
Bases: StateFn
Deprecated: A class for state functions and measurements which are defined by a lookup table, stored in a dict.
The class qiskit.opflow.state_fns.dict_state_fn.DictStateFn
is deprecated as of qiskit-terra 0.24.0. It will be removed no earlier than 3 months after the release date. For code migration guidelines, visit https://qisk.it/opflow_migration.
Parameters
- primitive – The dict, single bitstring (if defining a basis sate), or Qiskit Result, which defines the behavior of the underlying function.
- coeff – A coefficient by which to multiply the state function.
- is_measurement – Whether the StateFn is a measurement operator.
- from_operator – if True the StateFn is derived from OperatorStateFn. (Default: False)
Raises
TypeError – invalid parameters.
Attributes
INDENTATION
Default value: ' '
coeff
A coefficient by which the state function is multiplied.
instance_id
Return the unique instance id.
is_measurement
Whether the StateFn object is a measurement Operator.
num_qubits
parameters
primitive
Type: Dict[str, complex]
The primitive which defines the behavior of the underlying State function.
settings
Return settings.
Methods
add
add(other)
Return Operator addition of self and other, overloaded by +
.
Parameters
other (OperatorBase) – An OperatorBase
with the same number of qubits as self, and in the same ‘Operator’, ‘State function’, or ‘Measurement’ category as self (i.e. the same type of underlying function).
Returns
An OperatorBase
equivalent to the sum of self and other.
Return type
adjoint
adjoint()
Return a new Operator equal to the Operator’s adjoint (conjugate transpose), overloaded by ~
. For StateFns, this also turns the StateFn into a measurement.
Returns
An OperatorBase
equivalent to the adjoint of self.
Return type
eval
eval(front=None)
Evaluate the Operator’s underlying function, either on a binary string or another Operator. A square binary Operator can be defined as a function taking a binary function to another binary function. This method returns the value of that function for a given StateFn or binary string. For example, op.eval('0110').eval('1110')
can be seen as querying the Operator’s matrix representation by row 6 and column 14, and will return the complex value at those “indices.” Similarly for a StateFn, op.eval('1011')
will return the complex value at row 11 of the vector representation of the StateFn, as all StateFns are defined to be evaluated from Zero implicitly (i.e. it is as if .eval('0000')
is already called implicitly to always “indexing” from column 0).
If front
is None, the matrix-representation of the operator is returned.
Parameters
front (str |Dict[str, complex] | ndarray |OperatorBase |Statevector | None) – The bitstring, dict of bitstrings (with values being coefficients), or StateFn to evaluated by the Operator’s underlying function, or None.
Returns
The output of the Operator’s evaluation function. If self is a StateFn
, the result is a float or complex. If self is an Operator (PrimitiveOp, ComposedOp, SummedOp, EvolvedOp,
etc.), the result is a StateFn. If front
is None, the matrix-representation of the operator is returned, which is a MatrixOp
for the operators and a VectorStateFn
for state-functions. If either self or front contain proper ListOps
(not ListOp subclasses), the result is an n-dimensional list of complex or StateFn results, resulting from the recursive evaluation by each OperatorBase in the ListOps.
Return type
permute
permute(permutation)
Permute the qubits of the state function.
Parameters
permutation (List[int]) – A list defining where each qubit should be permuted. The qubit at index j of the circuit should be permuted to position permutation[j].
Returns
A new StateFn containing the permuted primitive.
Return type
primitive_strings
primitive_strings()
Return a set of strings describing the primitives contained in the Operator. For example, {'QuantumCircuit', 'Pauli'}
. For hierarchical Operators, such as ListOps
, this can help illuminate the primitives represented in the various recursive levels, and therefore which conversions can be applied.
Returns
A set of strings describing the primitives contained within the Operator.
Return type
sample
sample(shots=1024, massive=False, reverse_endianness=False)
Sample the state function as a normalized probability distribution. Returns dict of bitstrings in order of probability, with values being probability.
Parameters
- shots (int) – The number of samples to take to approximate the State function.
- massive (bool) – Whether to allow large conversions, e.g. creating a matrix representing over 16 qubits.
- reverse_endianness (bool) – Whether to reverse the endianness of the bitstrings in the return dict to match Terra’s big-endianness.
Returns
A dict containing pairs sampled strings from the State function and sampling frequency divided by shots.
Return type
tensor
tensor(other)
Return tensor product between self and other, overloaded by ^
. Note: You must be conscious of Qiskit’s big-endian bit printing convention. Meaning, Plus.tensor(Zero) produces a |+⟩ on qubit 0 and a |0⟩ on qubit 1, or |+⟩⨂|0⟩, but would produce a QuantumCircuit like
|0⟩– |+⟩–
Because Terra prints circuits and results with qubit 0 at the end of the string or circuit.
Parameters
other (OperatorBase) – The OperatorBase
to tensor product with self.
Returns
An OperatorBase
equivalent to the tensor product of self and other.
Return type
to_circuit_op
to_density_matrix
to_density_matrix(massive=False)
Return matrix representing product of StateFn evaluated on pairs of basis states. Overridden by child classes.
Parameters
massive (bool) – Whether to allow large conversions, e.g. creating a matrix representing over 16 qubits.
Returns
The NumPy array representing the density matrix of the State function.
Raises
ValueError – If massive is set to False, and exponentially large computation is needed.
Return type
to_matrix
to_matrix(massive=False)
Return NumPy representation of the Operator. Represents the evaluation of the Operator’s underlying function on every combination of basis binary strings. Warn if more than 16 qubits to force having to set massive=True
if such a large vector is desired.
Returns
The NumPy ndarray
equivalent to this Operator.
Return type
to_spmatrix
to_spmatrix()
Same as to_matrix, but returns csr sparse matrix.
Returns
CSR sparse matrix representation of the State function.
Raises
ValueError – invalid parameters.
Return type
spmatrix