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# Shift operations

Register shift operations move the bits in a register left or right by a specified number of bits, the shift length. Register shift can be performed:

• directly by the instructions `ASR`, `LSR`, `LSL`, `ROR`, and `RRX`, and the result is written to a destination register

• during the calculation of `Operand2` by the instructions that specify the second operand as a register with shift. The result is used by the instruction.

The permitted shift lengths depend on the shift type and the instruction, see the individual instruction description or the flexible second operand description. If the shift length is 0, no shift occurs. Register shift operations update the carry flag except when the specified shift length is 0. The following sub-sections describe the various shift operations and how they affect the carry flag. In these descriptions, `Rm` is the register containing the value to be shifted, and `n` is the shift length.

## ASR

Arithmetic shift right by `n` bits moves the left-hand `32`-`n` bits of the register `Rm`, to the right by `n` places, into the right-hand `32`-`n` bits of the result. And it copies the original bit[31] of the register into the left-hand `n` bits of the result. See Figure 1.

You can use the `ASR #n` operation to divide the value in the register `Rm` by 2`n`, with the result being rounded towards negative-infinity.

When the instruction is `ASRS` or when ```ASR #n``` is used in `Operand2` with the instructions `MOVS`, `MVNS`, `ANDS`, `ORRS`, `ORNS`, `EORS`, `BICS`, `TEQ` or `TST`, the carry flag is updated to the last bit shifted out, bit[`n`-1], of the register `Rm`.

### Note

• If `n` is 32 or more, then all the bits in the result are set to the value of bit[31] of `Rm`.

• If `n` is 32 or more and the carry flag is updated, it is updated to the value of bit[31] of `Rm`.

## LSR

Logical shift right by `n` bits moves the left-hand `32`-`n` bits of the register `Rm`, to the right by `n` places, into the right-hand `32`-`n` bits of the result. And it sets the left-hand `n` bits of the result to 0. See Figure 2.

You can use the `LSR #n` operation to divide the value in the register `Rm` by 2`n`, if the value is regarded as an unsigned integer.

When the instruction is `LSRS` or when ```LSR #n``` is used in `Operand2` with the instructions `MOVS`, `MVNS`, `ANDS`, `ORRS`, `ORNS`, `EORS`, `BICS`, `TEQ` or `TST`, the carry flag is updated to the last bit shifted out, bit[`n`-1], of the register `Rm`.

### Note

• If `n` is 32 or more, then all the bits in the result are cleared to 0.

• If `n` is 33 or more and the carry flag is updated, it is updated to 0.

## LSL

Logical shift left by `n` bits moves the right-hand `32`-`n` bits of the register `Rm`, to the left by `n` places, into the left-hand `32`-`n` bits of the result. And it sets the right-hand `n` bits of the result to 0. See Figure 3.

You can use the `LSL #n` operation to multiply the value in the register `Rm` by 2`n`, if the value is regarded as an unsigned integer or a two’s complement signed integer. Overflow can occur without warning.

When the instruction is `LSLS` or when ```LSL #n```, with non-zero `n`, is used in `Operand2` with the instructions `MOVS`, `MVNS`, `ANDS`, `ORRS`, `ORNS`, `EORS`, `BICS`, `TEQ` or `TST`, the carry flag is updated to the last bit shifted out, bit[`32`-`n`], of the register `Rm`. These instructions do not affect the carry flag when used with ```LSL #0```.

### Note

• If `n` is 32 or more, then all the bits in the result are cleared to 0.

• If `n` is 33 or more and the carry flag is updated, it is updated to 0.

## ROR

Rotate right by `n` bits moves the left-hand `32`-`n` bits of the register `Rm`, to the right by `n` places, into the right-hand `32`-`n` bits of the result. And it moves the right-hand `n` bits of the register into the left-hand `n` bits of the result. See Figure 4.

When the instruction is `RORS` or when ```ROR #n``` is used in `Operand2` with the instructions `MOVS`, `MVNS`, `ANDS`, `ORRS`, `ORNS`, `EORS`, `BICS`, `TEQ` or `TST`, the carry flag is updated to the last bit rotation, bit[`n`-1], of the register `Rm`.

### Note

• If `n` is 32, then the value of the result is same as the value in `Rm`, and if the carry flag is updated, it is updated to bit[31] of `Rm`.

• `ROR` with shift length, `n`, more than 32 is the same as `ROR` with shift length `n`-32.

## RRX

Rotate right with extend moves the bits of the register `Rm` to the right by one bit. And it copies the carry flag into bit[31] of the result. See Figure 5.

When the instruction is `RRXS` or when `RRX` is used in `Operand2` with the instructions `MOVS`, `MVNS`, `ANDS`, `ORRS`, `ORNS`, `EORS`, `BICS`, `TEQ` or `TST`, the carry flag is updated to bit[0] of the register `Rm`.