BFI Bit Field Insert Bit Field Insert copies any number of low order bits from a register into the same number of adjacent bits at any position in the destination register. For more information about the constrained unpredictable behavior of this instruction, see Architectural Constraints on UNPREDICTABLE behaviors. If CPSR.DIT is 1, this instruction has passed its condition execution check, and does not use R15 as either its source or destination: The execution time of this instruction is independent of:The values of the data supplied in any of its registers.The values of the NZCV flags. The response of this instruction to asynchronous exceptions does not vary based on:The values of the data supplied in any of its registers.The values of the NZCV flags. It has encodings from the following instruction sets: A32 ( A1 ) and T32 ( T1 ) . != 1111 0 1 1 1 1 1 0 0 0 1 != 1111 BFI{<c>}{<q>} <Rd>, <Rn>, #<lsb>, #<width> if Rn == '1111' then SEE "BFC"; d = UInt(Rd); n = UInt(Rn); msbit = UInt(msb); lsbit = UInt(lsb); if d == 15 then UNPREDICTABLE; if msbit < lsbit then UNPREDICTABLE; msbit < lsbit 1 1 1 1 0 (0) 1 1 0 1 1 0 != 1111 0 (0) BFI{<c>}{<q>} <Rd>, <Rn>, #<lsb>, #<width> if Rn == '1111' then SEE "BFC"; d = UInt(Rd); n = UInt(Rn); msbit = UInt(msb); lsbit = UInt(imm3:imm2); if d == 15 then UNPREDICTABLE; // Armv8-A removes UNPREDICTABLE for R13 if msbit < lsbit then UNPREDICTABLE; msbit < lsbit <c> See Standard assembler syntax fields. <q> See Standard assembler syntax fields. <Rd> Is the general-purpose destination register, encoded in the "Rd" field. <Rn> Is the general-purpose source register, encoded in the "Rn" field. <lsb> For encoding A1: is the least significant destination bit, in the range 0 to 31, encoded in the "lsb" field. <lsb> For encoding T1: is the least significant destination bit, in the range 0 to 31, encoded in the "imm3:imm2" field. <width> Is the number of bits to be copied, in the range 1 to 32-<lsb>, encoded in the "msb" field as <lsb>+<width>-1. if ConditionPassed() then EncodingSpecificOperations(); R[d]<msbit:lsbit> = R[n]<(msbit-lsbit):0>; // Other bits of R[d] are unchanged