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path: root/lib/Target/Mips/MicroMipsInstrInfo.td
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def addrimm12 : ComplexPattern<iPTR, 2, "selectIntAddrMM", [frameindex]>;

def simm12 : Operand<i32> {
  let DecoderMethod = "DecodeSimm12";
}

def mem_mm_12 : Operand<i32> {
  let PrintMethod = "printMemOperand";
  let MIOperandInfo = (ops GPR32, simm12);
  let EncoderMethod = "getMemEncodingMMImm12";
  let ParserMatchClass = MipsMemAsmOperand;
  let OperandType = "OPERAND_MEMORY";
}

let canFoldAsLoad = 1 in
class LoadLeftRightMM<string opstr, SDNode OpNode, RegisterOperand RO,
                      Operand MemOpnd> :
  InstSE<(outs RO:$rt), (ins MemOpnd:$addr, RO:$src),
         !strconcat(opstr, "\t$rt, $addr"),
         [(set RO:$rt, (OpNode addrimm12:$addr, RO:$src))],
         NoItinerary, FrmI> {
  string Constraints = "$src = $rt";
}

class StoreLeftRightMM<string opstr, SDNode OpNode, RegisterOperand RO,
                       Operand MemOpnd>:
  InstSE<(outs), (ins RO:$rt, MemOpnd:$addr),
         !strconcat(opstr, "\t$rt, $addr"),
         [(OpNode RO:$rt, addrimm12:$addr)], NoItinerary, FrmI>;

let DecoderNamespace = "MicroMips" in {
  /// Arithmetic Instructions (ALU Immediate)
  def ADDiu_MM : MMRel, ArithLogicI<"addiu", simm16, GPR32Opnd>,
                 ADDI_FM_MM<0xc>;
  def ADDi_MM  : MMRel, ArithLogicI<"addi", simm16, GPR32Opnd>,
                 ADDI_FM_MM<0x4>;
  def SLTi_MM  : MMRel, SetCC_I<"slti", setlt, simm16, immSExt16, GPR32Opnd>,
                 SLTI_FM_MM<0x24>;
  def SLTiu_MM : MMRel, SetCC_I<"sltiu", setult, simm16, immSExt16, GPR32Opnd>,
                 SLTI_FM_MM<0x2c>;
  def ANDi_MM  : MMRel, ArithLogicI<"andi", uimm16, GPR32Opnd>,
                 ADDI_FM_MM<0x34>;
  def ORi_MM   : MMRel, ArithLogicI<"ori", uimm16, GPR32Opnd>,
                 ADDI_FM_MM<0x14>;
  def XORi_MM  : MMRel, ArithLogicI<"xori", uimm16, GPR32Opnd>,
                 ADDI_FM_MM<0x1c>;
  def LUi_MM   : MMRel, LoadUpper<"lui", GPR32Opnd, uimm16>, LUI_FM_MM;

  /// Arithmetic Instructions (3-Operand, R-Type)
  def ADDu_MM  : MMRel, ArithLogicR<"addu", GPR32Opnd>, ADD_FM_MM<0, 0x150>;
  def SUBu_MM  : MMRel, ArithLogicR<"subu", GPR32Opnd>, ADD_FM_MM<0, 0x1d0>;
  def MUL_MM   : MMRel, ArithLogicR<"mul", GPR32Opnd>, ADD_FM_MM<0, 0x210>;
  def ADD_MM   : MMRel, ArithLogicR<"add", GPR32Opnd>, ADD_FM_MM<0, 0x110>;
  def SUB_MM   : MMRel, ArithLogicR<"sub", GPR32Opnd>, ADD_FM_MM<0, 0x190>;
  def SLT_MM   : MMRel, SetCC_R<"slt", setlt, GPR32Opnd>, ADD_FM_MM<0, 0x350>;
  def SLTu_MM  : MMRel, SetCC_R<"sltu", setult, GPR32Opnd>,
                 ADD_FM_MM<0, 0x390>;
  def AND_MM   : MMRel, ArithLogicR<"and", GPR32Opnd, 1, IIAlu, and>,
                 ADD_FM_MM<0, 0x250>;
  def OR_MM    : MMRel, ArithLogicR<"or", GPR32Opnd, 1, IIAlu, or>,
                 ADD_FM_MM<0, 0x290>;
  def XOR_MM   : MMRel, ArithLogicR<"xor", GPR32Opnd, 1, IIAlu, xor>,
                 ADD_FM_MM<0, 0x310>;
  def NOR_MM   : MMRel, LogicNOR<"nor", GPR32Opnd>, ADD_FM_MM<0, 0x2d0>;
  def MULT_MM  : MMRel, Mult<"mult", IIImul, GPR32Opnd, [HI, LO]>,
                 MULT_FM_MM<0x22c>;
  def MULTu_MM : MMRel, Mult<"multu", IIImul, GPR32Opnd, [HI, LO]>,
                 MULT_FM_MM<0x26c>;

  /// Shift Instructions
  def SLL_MM   : MMRel, shift_rotate_imm<"sll", shamt, GPR32Opnd>,
                 SRA_FM_MM<0, 0>;
  def SRL_MM   : MMRel, shift_rotate_imm<"srl", shamt, GPR32Opnd>,
                 SRA_FM_MM<0x40, 0>;
  def SRA_MM   : MMRel, shift_rotate_imm<"sra", shamt, GPR32Opnd>,
                 SRA_FM_MM<0x80, 0>;
  def SLLV_MM  : MMRel, shift_rotate_reg<"sllv", GPR32Opnd>,
                 SRLV_FM_MM<0x10, 0>;
  def SRLV_MM  : MMRel, shift_rotate_reg<"srlv", GPR32Opnd>,
                 SRLV_FM_MM<0x50, 0>;
  def SRAV_MM  : MMRel, shift_rotate_reg<"srav", GPR32Opnd>,
                 SRLV_FM_MM<0x90, 0>;
  def ROTR_MM  : MMRel, shift_rotate_imm<"rotr", shamt, GPR32Opnd>,
                 SRA_FM_MM<0xc0, 0>;
  def ROTRV_MM : MMRel, shift_rotate_reg<"rotrv", GPR32Opnd>,
                 SRLV_FM_MM<0xd0, 0>;

  /// Load and Store Instructions - aligned
  defm LB_MM  : LoadM<"lb", GPR32Opnd, sextloadi8>, MMRel, LW_FM_MM<0x7>;
  defm LBu_MM : LoadM<"lbu", GPR32Opnd, zextloadi8>, MMRel, LW_FM_MM<0x5>;
  defm LH_MM  : LoadM<"lh", GPR32Opnd, sextloadi16>, MMRel, LW_FM_MM<0xf>;
  defm LHu_MM : LoadM<"lhu", GPR32Opnd, zextloadi16>, MMRel, LW_FM_MM<0xd>;
  defm LW_MM  : LoadM<"lw", GPR32Opnd>, MMRel, LW_FM_MM<0x3f>;
  defm SB_MM  : StoreM<"sb", GPR32Opnd, truncstorei8>, MMRel, LW_FM_MM<0x6>;
  defm SH_MM  : StoreM<"sh", GPR32Opnd, truncstorei16>, MMRel, LW_FM_MM<0xe>;
  defm SW_MM  : StoreM<"sw", GPR32Opnd>, MMRel, LW_FM_MM<0x3e>;

  /// Load and Store Instructions - unaligned
  let Predicates = [InMicroMips] in {
    def LWL_MM : LoadLeftRightMM<"lwl", MipsLWL, GPR32Opnd, mem_mm_12>,
                 LWL_FM_MM<0x0>;
    def LWR_MM : LoadLeftRightMM<"lwr", MipsLWR, GPR32Opnd, mem_mm_12>,
                 LWL_FM_MM<0x1>;
    def SWL_MM : StoreLeftRightMM<"swl", MipsSWL, GPR32Opnd, mem_mm_12>,
                 LWL_FM_MM<0x8>;
    def SWR_MM : StoreLeftRightMM<"swr", MipsSWR, GPR32Opnd, mem_mm_12>,
                 LWL_FM_MM<0x9>;
  }
}