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The Std.Canon namespace contains the following items:
| Name | Description |
|---|---|
| ApplyCNOTChain | Computes the parity of a register of qubits in-place. |
| ApplyControlledOnBitString | Applies oracle on target when controlRegister is in the state specified by bits. |
| ApplyControlledOnInt | Applies a unitary operation on the target if the control register state corresponds to a specified nonnegative integer. |
| ApplyP | Given a single-qubit Pauli operator, applies the corresponding operation to a single qubit. |
| ApplyPauli | Given a multi-qubit Pauli operator, applies the corresponding operation to a quantum register. |
| ApplyPauliFromBitString | Applies a Pauli operator on each qubit in an array if the corresponding bit of a Boolean array matches a given input. |
| ApplyPauliFromInt | Applies a Pauli operator on each qubit in an array if the corresponding bit of a Little-endian integer matches a given input. |
| ApplyQFT | Applies the rotations of Quantum Fourier Transform (QFT) to a little-endian quantum register. |
| ApplyToEach | Applies an operation to each element in a register. |
| ApplyToEachA | Applies an operation to each element in a register. The modifier A indicates that the single-element operation is adjointable. |
| ApplyToEachC | Applies an operation to each element in a register. The modifier C indicates that the single-element operation is controllable. |
| ApplyToEachCA | Applies an operation to each element in a register. The modifier CA indicates that the single-element operation is controllable and adjointable. |
| ApplyXorInPlace | Applies a bitwise-XOR operation between a classical integer and an integer represented by a register of qubits. |
| ApplyXorInPlaceL | Applies a bitwise-XOR operation between a classical integer and an integer represented by a register of qubits. |
| CX | Applies the controlled-X (CX) gate to a pair of qubits. |
| CY | Applies the controlled-Y (CY) gate to a pair of qubits. |
| CZ | Applies the controlled-Z (CZ) gate to a pair of qubits. |
| Fst | Given a pair, returns its first element. |
| Relabel | Relabels the qubits in the current array with the qubits in the updated array. The updated array must be a valid permutation of the current array. |
| Snd | Given a pair, returns its second element. |
| SwapReverseRegister | Uses SWAP gates to reverse the order of the qubits in a register. |