Exemplo n.º 1
0
        public override void Assert(IQArray <Pauli> bases, IQArray <Qubit> qubits, Result expected, string msg)
        {
            Qubit?filter(Pauli p, Qubit q) =>
            p switch
            {
                Pauli.PauliI => null,
                Pauli.PauliZ => q,
                _ => throw new InvalidOperationException("Assert on bases other than PauliZ not supported")
            };

            // All qubits are considered whose corresponding measurement basis
            // is PauliZ.  Measurement in PauliI basis are ignored, and other
            // bases will raise an exception.
            var qubitsToMeasure = bases.Zip(qubits, filter).WhereNotNull();

            // A multi-qubit measurement in the PauliZ basis corresponds to
            // computing the parity of all involved qubits' measurement values.
            // (see also https://docs.microsoft.com/quantum/concepts/pauli-measurements#multiple-qubit-measurements)
            // We use Aggregate to successively XOR a qubit's simulation value
            // to an accumulator value `accu` that is initialized to `false`.
            var actual = qubitsToMeasure.Aggregate(false, (accu, qubit) => accu ^ GetValue(qubit));

            if (actual.ToResult() != expected)
            {
                // If the expected value does not correspond to the actual measurement
                // value, we throw a Q# specific Exception together with the user
                // defined message `msg`.
                throw new ExecutionFailException(msg);
            }
        }
    }
 public virtual long StartConditionalStatement(IQArray <Result> results1, IQArray <Result> results2)
 {
     if (results1 == null)
     {
         return(results2 == null ? 1 : 0);
     }
     ;
     if (results1.Count != results2?.Count)
     {
         return(0);
     }
     ;
     return(results1.Zip(results2, (r1, r2) => (r1, r2)).Any(pair => pair.r1 != pair.r2) ? 0 : 1);
 }
Exemplo n.º 3
0
        /// <summary>
        /// The implementation of the operation.
        /// For the Toffoli simulator, the implementation returns the joint parity of the
        /// states of the measured qubits.
        /// That is, Result.One is returned if an odd number of the measured qubits are
        /// in the One state.
        /// </summary>
        public Result Measure__Body(IQArray <Pauli> paulis, IQArray <Qubit> targets)
        {
            Qubit?f(Pauli p, Qubit q) =>
            p switch
            {
                Pauli.PauliI => null,
                Pauli.PauliZ => q,
                _ => throw new InvalidOperationException($"The Toffoli simulator can only Measure in the Z basis.")
            };

            if (paulis.Length != targets.Length)
            {
                throw new InvalidOperationException($"Both input arrays for Measure (paulis, targets), must be of same size");
            }

            var qubitsToMeasure = paulis.Zip(targets, f).WhereNotNull();

            var result = this.GetParity(qubitsToMeasure);

            return(result.ToResult());
        }
    }