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SARX/SHLX/SHRX — Shift Without Affecting Flags

Opcode/Instruction

VEX.NDS1.LZ.F3.0F38.W0 F7 /r

SARX r32a, r/m32, r32b

VEX.NDS1.LZ.66.0F38.W0 F7 /r

SHLX r32a, r/m32, r32b

VEX.NDS1.LZ.F2.0F38.W0 F7 /r

SHRX r32a, r/m32, r32b

VEX.NDS1.LZ.F3.0F38.W1 F7 /r

SARX r64a, r/m64, r64b

VEX.NDS1.LZ.66.0F38.W1 F7 /r

SHLX r64a, r/m64, r64b

VEX.NDS1.LZ.F2.0F38.W1 F7 /r

SHRX r64a, r/m64, r64b

Op/En

RMV

RMV

RMV

RMV

RMV

RMV

64/32 -bit Mode

V/V

V/V

V/V

V/N.E.

V/N.E.

V/N.E.

CPUID Feature Flag

BMI2

BMI2

BMI2

BMI2

BMI2

BMI2

Description

Shift r/m32 arithmetically right with count specified in r32b.

Shift r/m32 logically left with count specified in r32b.

Shift r/m32 logically right with count specified in r32b.

Shift r/m64 arithmetically right with count specified in r64b.

Shift r/m64 logically left with count specified in r64b.

Shift r/m64 logically right with count specified in r64b.

NOTES:

1. ModRM:r/m is used to encode the first source operand (second operand) and VEX.vvvv encodes the second source operand (third oper-

and).

Instruction Operand Encoding

Op/En Operand 1 Operand 2 Operand 3 Operand 4
RMV ModRM:reg (w) ModRM:r/m (r) VEX.vvvv (r) NA

Description

Shifts the bits of the first source operand (the second operand) to the left or right by a COUNT value specified in the second source operand (the third operand). The result is written to the destination operand (the first operand).

The shift arithmetic right (SARX) and shift logical right (SHRX) instructions shift the bits of the destination operand to the right (toward less significant bit locations), SARX keeps and propagates the most significant bit (sign bit) while shifting.

The logical shift left (SHLX) shifts the bits of the destination operand to the left (toward more significant bit loca-tions).

This instruction is not supported in real mode and virtual-8086 mode. The operand size is always 32 bits if not in 64-bit mode. In 64-bit mode operand size 64 requires VEX.W1. VEX.W1 is ignored in non-64-bit modes. An attempt to execute this instruction with VEX.L not equal to 0 will cause #UD.

If the value specified in the first source operand exceeds OperandSize -1, the COUNT value is masked.

SARX,SHRX, and SHLX instructions do not update flags.

Operation

TEMP ← SRC1;
IF VEX.W1 and CS.L = 1
    THEN
    countMASK ←3FH;
    ELSE
    countMASK ←1FH;
FI
COUNT ← (SRC2 AND countMASK)
DEST[OperandSize -1] = TEMP[OperandSize -1];
DO WHILE (COUNT ≠ 0)
IF instruction is SHLX
    THEN
    DEST[] ← DEST *2;
    ELSE IF instruction is SHRX
    THEN
    DEST[] ← DEST /2; //unsigned divide
    ELSE
    // SARX
    DEST[] ← DEST /2; // signed divide, round toward negative infinity
FI;
COUNT ← COUNT - 1;
OD

Flags Affected

None.

Intel C/C++ Compiler Intrinsic Equivalent

Auto-generated from high-level language.

SIMD Floating-Point Exceptions

None

Other Exceptions

See Section 2.5.1, “Exception Conditions for VEX-Encoded GPR Instructions”, Table 2-29; additionally

#UD If VEX.W = 1.