lib/Target/CSKY/CSKYInstrFormats.td - llvm-project/llvm - Git at Google

 //===-- CSKYInstrFormats.td - CSKY Instruction Formats -----*- tablegen -*-===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//

 class AddrMode<bits<5> val> {
   bits<5> Value = val;
 }

 def AddrModeNone : AddrMode<0>;
 def AddrMode32B : AddrMode<1>;   // ld32.b, ld32.bs, st32.b, st32.bs, +4kb
 def AddrMode32H : AddrMode<2>;   // ld32.h, ld32.hs, st32.h, st32.hs, +8kb
 def AddrMode32WD : AddrMode<3>;  // ld32.w, st32.w, ld32.d, st32.d, +16kb
 def AddrMode16B : AddrMode<4>;   // ld16.b, +32b
 def AddrMode16H : AddrMode<5>;   // ld16.h, +64b
 def AddrMode16W : AddrMode<6>;   // ld16.w, +128b or +1kb
 def AddrMode32SDF : AddrMode<7>; // flds, fldd, +1kb

 class CSKYInst<AddrMode am, int sz, dag outs, dag ins, string asmstr,
                list<dag> pattern> : Instruction {
   let Namespace = "CSKY";
   int Size = sz;
   AddrMode AM = am;

   let OutOperandList = outs;
   let InOperandList = ins;
   let AsmString = asmstr;
   let Pattern = pattern;
   let Itinerary = NoItinerary;
   let TSFlags{4 - 0} = AM.Value;
 }

 class CSKYPseudo<dag outs, dag ins, string asmstr, list<dag> pattern>
     : CSKYInst<AddrModeNone, 0, outs, ins, asmstr, pattern> {
   let isCodeGenOnly = 1;
   let isPseudo = 1;
 }

 class CSKY32Inst<AddrMode am, bits<6> opcode, dag outs, dag ins, string asmstr,
                  list<dag> pattern>
     : CSKYInst<am, 4, outs, ins, asmstr, pattern> {
   field bits<32> Inst;
   let Inst{31 - 26} = opcode;
 }

 // CSKY 32-bit instruction
 // Format< OP[6] | Offset[26] >
 // Instruction(1): bsr32
 class J<bits<6> opcode, dag outs, dag ins, string op, list<dag> pattern>
     : CSKY32Inst<AddrModeNone, opcode, outs, ins, !strconcat(op, "\t$offset"),
                  pattern> {
   bits<26> offset;
   let Inst{25 - 0} = offset;
 }

 // Format< OP[6] | RZ[5] | SOP[3] | OFFSET[18] >
 // Instructions(7): grs, lrs32.b, lrs32.h, lrs32.w, srs32.b, srs32.h, srs32.w
 class I_18_Z_L<bits<3> sop, string op, Operand operand, list<dag> pattern>
     : CSKY32Inst<AddrModeNone, 0x33, (outs GPR:$rz), (ins operand:$offset),
                  !strconcat(op, "\t$rz, $offset"), pattern> {
   bits<5> rz;
   bits<18> offset;
   let Inst{25 - 21} = rz;
   let Inst{20 - 18} = sop;
   let Inst{17 - 0} = offset;
 }

 // Format< OP[6] | RZ[5] | RX[5] | IMM[16] >
 // Instructions(1): ori32
 class I_16_ZX<string op, ImmLeaf ImmType, list<dag> pattern>
     : CSKY32Inst<AddrModeNone, 0x3b,
                  (outs GPR:$rz), (ins GPR:$rx,ImmType:$imm16),
                  !strconcat(op, "\t$rz, $rx, $imm16"), pattern> {
   bits<5> rz;
   bits<5> rx;
   bits<16> imm16;
   let Inst{25 - 21} = rz;
   let Inst{20 - 16} = rx;
   let Inst{15 - 0} = imm16;
 }

 // Format< OP[6] | SOP[5] | RZ[5] | IMM[16] >
 // Instructions(3): movi32, movih32, (bgeni32)
 class I_16_MOV<bits<5> sop, string op, ImmLeaf ImmType>
     : CSKY32Inst<AddrModeNone, 0x3a, (outs GPR:$rz), (ins ImmType:$imm16),
                  !strconcat(op, "\t$rz, $imm16"),
                  [(set GPR:$rz, ImmType:$imm16)]> {
   bits<5> rz;
   bits<16> imm16;
   let Inst{25 - 21} = sop;
   let Inst{20 - 16} = rz;
   let Inst{15 - 0} = imm16;
   let isReMaterializable = 1;
   let isAsCheapAsAMove = 1;
   let isMoveImm = 1;
 }

 // Format< OP[6] | SOP[5] | RZ[5] | OFFSET[16] >
 // Instructions(1): lrw32
 class I_16_Z_L<bits<5> sop, string op, Operand operand, list<dag> pattern>
     : CSKY32Inst<AddrModeNone, 0x3a,
                  (outs GPR:$rz), (ins operand:$imm16),
                  !strconcat(op, "\t$rz, [$imm16]"), pattern> {
   bits<5> rz;
   bits<16> imm16;
   let Inst{25 - 21} = sop;
   let Inst{20 - 16} = rz;
   let Inst{15 - 0} = imm16;
 }

 // Format< OP[6] | SOP[5] | 00000[5] | OFFSET[16] >
 // Instructions(5): bt32, bf32, br32, jmpi32, jsri32
 class I_16_L<bits<5> sop, dag outs, dag ins, string op, list<dag> pattern>
     : CSKY32Inst<AddrModeNone, 0x3a, outs, ins, !strconcat(op, "\t$imm16"),
                  pattern> {
   bits<16> imm16;
   let Inst{25 - 21} = sop;
   let Inst{20 - 16} = 0;
   let Inst{15 - 0} = imm16;
 }

 // bt32, bf32, br32, jmpi32
 class I_16_L_B<bits<5> sop, string op, Operand operand, list<dag> pattern>
     : I_16_L<sop, (outs), (ins operand:$imm16, CARRY:$ca), op, pattern> {
   let isBranch = 1;
   let isTerminator = 1;
 }

 // Format< OP[6] | SOP[5] | RX[5] | 0000000000000000[16] >
 // Instructions(2): jmp32, jsr32
 class I_16_JX<bits<5> sop, string op, list<dag> pattern>
     : CSKY32Inst<AddrModeNone, 0x3a, (outs), (ins GPR:$rx),
                  !strconcat(op, "\t$rx"), pattern> {
   bits<5> rx;
   bits<16> imm16;
   let Inst{25 - 21} = sop;
   let Inst{20 - 16} = rx;
   let Inst{15 - 0} = 0;
 }

 // Format< OP[6] | SOP[5] | RX[5] | 00000000000000[14] | IMM[2] >
 // Instructions(1): jmpix32
 class I_16_J_XI<bits<5> sop, string op, Operand operand, list<dag> pattern>
     : CSKY32Inst<AddrModeNone, 0x3a, (outs),
                  (ins GPR:$rx, operand:$imm2),
                  !strconcat(op, "\t$rx, $imm2"), pattern> {
   bits<5> rx;
   bits<2> imm2;
   let Inst{25 - 21} = sop;
   let Inst{20 - 16} = rx;
   let Inst{15 - 2} = 0;
   let Inst{1 - 0} = imm2;
 }

 // Format< OP[6] | SOP[5] | PCODE[5] | 0000000000000000[16] >
 // Instructions(1): rts32
 class I_16_RET<bits<5> sop, bits<5> pcode, string op, list<dag> pattern>
     : CSKY32Inst<AddrModeNone, 0x3a, (outs), (ins), op, pattern> {
   let Inst{25 - 21} = sop;
   let Inst{20 - 16} = pcode;
   let Inst{15 - 0} = 0;
   let isTerminator = 1;
   let isReturn = 1;
   let isBarrier = 1;
 }

 // Format< OP[6] | SOP[5] | RX[5] | IMM16[16] >
 // Instructions(3): cmpnei32, cmphsi32, cmplti32
 class I_16_X<bits<5> sop, string op>
     : CSKY32Inst<AddrModeNone, 0x3a, (outs CARRY:$ca),
     (ins GPR:$rx, i32imm:$imm16), !strconcat(op, "\t$rx, $imm16"), []> {
   bits<16> imm16;
   bits<5> rx;
   let Inst{25 - 21} = sop;
   let Inst{20 - 16} = rx;
   let Inst{15 - 0} = imm16;
   let isCompare = 1;
 }

 // Format< OP[6] | SOP[5] | RX[5] | OFFSET[16] >
 // Instructions(7): bez32, bnez32, bnezad32, bhz32, blsz32, blz32, bhsz32
 class I_16_X_L<bits<5> sop, string op, Operand operand>
     : CSKY32Inst<AddrModeNone, 0x3a, (outs), (ins GPR:$rx, operand:$imm16),
                  !strconcat(op, "\t$rx, $imm16"), []> {
   bits<5> rx;
   bits<16> imm16;
   let Inst{25 - 21} = sop;
   let Inst{20 - 16} = rx;
   let Inst{15 - 0} = imm16;
   let isBranch = 1;
   let isTerminator = 1;
 }

 // Format< OP[6] | RZ[5] | RX[5] | SOP[4] | IMM[12] >
 // Instructions(5): addi32, subi32, andi32, andni32, xori32
 class I_12<bits<4> sop, string op, SDNode node, ImmLeaf ImmType>
     : CSKY32Inst<AddrModeNone, 0x39, (outs GPR:$rz),
     (ins GPR:$rx, ImmType:$imm12), !strconcat(op, "\t$rz, $rx, $imm12"),
     [(set GPR:$rz, (node GPR:$rx, ImmType:$imm12))]> {
   bits<5> rz;
   bits<5> rx;
   bits<12> imm12;
   let Inst{25 - 21} = rz;
   let Inst{20 - 16} = rx;
   let Inst{15 - 12} = sop;
   let Inst{11 - 0} = imm12;
 }

 class I_LDST<AddrMode am, bits<6> opcode, bits<4> sop, dag outs, dag ins,
              string op, list<dag> pattern>
     : CSKY32Inst<am, opcode, outs, ins, !strconcat(op, "\t$rz, ($rx, $imm12)"),
                  pattern> {
   bits<5> rx;
   bits<5> rz;
   bits<12> imm12;
   let Inst{25 - 21} = rz;
   let Inst{20 - 16} = rx;
   let Inst{15 - 12} = sop;
   let Inst{11 - 0} = imm12;
 }

 // Format< OP[6] | RZ[5] | RX[5] | SOP[4] | OFFSET[12] >
 // Instructions(6): ld32.b, ld32.bs, ld32.h, ld32.hs, ld32.w, ld32.d
 class I_LD<AddrMode am, bits<4> sop, string op, Operand operand>
     : I_LDST<am, 0x36, sop,
     (outs GPR:$rz), (ins GPR:$rx, operand:$imm12), op, []>;

 // Format< OP[6] | RZ[5] | RX[5] | SOP[4] | OFFSET[12] >
 // Instructions(4): st32.b, st32.h, st32.w, st32.d
 class I_ST<AddrMode am, bits<4> sop, string op, Operand operand>
     : I_LDST<am, 0x37, sop, (outs),
     (ins GPR:$rz, GPR:$rx, operand:$imm12), op, []>;

 // Format< OP[6] | SOP[5] | PCODE[5] | 0000[4] | 000 | R28 | LIST2[3] | R15 |
 // LIST1[4] >
 // Instructions(2): push32, pop32
 class I_12_PP<bits<5> sop, bits<5> pcode, dag outs, dag ins, string op>
     : CSKY32Inst<AddrModeNone, 0x3a, outs, ins, !strconcat(op, "\t$regs"), []> {
   bits<12> regs;
   let Inst{25 - 21} = sop;
   let Inst{20 - 16} = pcode;
   let Inst{15 - 12} = 0;
   let Inst{11 - 0} = regs;
 }

 // Format< OP[6] | RZ[5] | RX[5] | SOP[6] | PCODE[5] | IMM[5]>
 // Instructions(4): incf32, inct32, decf32, dect32
 class I_5_ZX<bits<6> sop, bits<5> pcode, string op, ImmLeaf ImmType,
              list<dag> pattern>
     : CSKY32Inst<AddrModeNone, 0x31, (outs GPR:$rz),
     (ins GPR:$false, GPR:$rx, ImmType:$imm5),
     !strconcat(op, "\t$rz, $rx, $imm5"), pattern> {
   bits<5> rz;
   bits<5> rx;
   bits<5> imm5;
   let Inst{25 - 21} = rz;
   let Inst{20 - 16} = rx;
   let Inst{15 - 10} = sop;
   let Inst{9 - 5} = pcode;
   let Inst{4 - 0} = imm5;
   let Constraints = "$rz = $false";
 }

 // Format< OP[6] | IMM[5] | RX[5] | SOP[6] | PCODE[5] | RZ[5]>
 // Instructions(13): decgt32, declt32, decne32, lsli32, lslc32, lsri32
 //                   lsrc32, asri32, asrc32, rotli32, xsr32, bclri32, bseti32
 class I_5_XZ<bits<6> sop, bits<5> pcode, string op, dag ins, dag outs,
              list<dag> pattern>
     : CSKY32Inst<AddrModeNone, 0x31, ins, outs,
                  !strconcat(op, "\t$rz, $rx, $imm5"), pattern> {
   bits<5> imm5;
   bits<5> rx;
   bits<5> rz;
   let Inst{25 - 21} = imm5;
   let Inst{20 - 16} = rx;
   let Inst{15 - 10} = sop;
   let Inst{9 - 5} = pcode;
   let Inst{4 - 0} = rz;
 }

 // Format< OP[6] | RY[5] | RX[5] | SOP[6] | PCODE[5] | IMM[5]>
 // Instructions(2): ldm32, (ldq32), stm32, (stq32)
 class I_5_YX<bits<6> opcode, dag outs, dag ins, string op, list<dag> pattern,
              bits<5> imm5>
     : CSKY32Inst<AddrModeNone, opcode, outs, ins,
                  op #"\t${ry}, (${rx}), " #!cast<int>(imm5), pattern> {
   bits<5> rx;
   bits<5> ry;
   let Inst{25 - 21} = ry; // ry
   let Inst{20 - 16} = rx;
   let Inst{15 - 10} = 0b000111;
   let Inst{9 - 5} = 0b00001;
   let Inst{4 - 0} = imm5{4 - 0}; // imm5
 }

 // Format< OP[6] | LSB[5] | RX[5] | SOP[6] | MSB[5] | RZ[5]>
 // Instructions(6): zext32, zextb32, zexth32, sext32, sextb32, sexth32
 class I_5_XZ_U<bits<6> sop, bits<5> lsb, bits<5> msb, dag outs, dag ins,
                string op, list<dag> pattern>
     : CSKY32Inst<AddrModeNone, 0x31, outs, ins,
                  op #"\t$rz, $rx, " #!cast<int>(msb) #", " #!cast<int>(lsb),
                  pattern> {
   bits<5> rx;
   bits<5> rz;
   let Inst{25 - 21} = lsb; // lsb
   let Inst{20 - 16} = rx;
   let Inst{15 - 10} = sop;
   let Inst{9 - 5} = msb; // msb
   let Inst{4 - 0} = rz;
 }

 // sextb, sexth
 class I_5_XZ_US<bits<6> sop, bits<5> lsb, bits<5> msb, string op, SDNode opnode,
   ValueType type> : I_5_XZ_U<sop, lsb, msb,
   (outs GPR:$rz), (ins GPR:$rx),op, [(set GPR:$rz, (opnode GPR:$rx, type))]>;

 class I_5_XZ_UZ<bits<6> sop, bits<5> lsb, bits<5> msb, string op, int v>
     : I_5_XZ_U<sop, lsb, msb, (outs GPR:$rz), (ins GPR:$rx), op,
     [(set GPR:$rz, (and GPR:$rx, (i32 v)))]>;

 // Format< OP[6] | RZ[5] | RX[5] | SOP[6] | SIZE[5] | LSB[5]>
 // Instructions(1): ins32
 class I_5_ZX_U<bits<6> sop, string op, Operand operand, list<dag> pattern>
     : CSKY32Inst<AddrModeNone, 0x31, (outs GPR:$rz), (ins operand:$size_lsb),
                  !strconcat(op, "\t$rz, operand:$size_lsb"), pattern> {
   bits<10> size_lsb;
   bits<5> rz;
   bits<5> rx;
   let Inst{25 - 21} = rz;
   let Inst{20 - 16} = rx;
   let Inst{15 - 10} = sop;
   let Inst{9 - 5} = size_lsb{9 - 5}; // size
   let Inst{4 - 0} = size_lsb{4 - 0}; // lsb
 }

 // Format< OP[6] | IMM[5] | RX[5] | SOP[6] | PCODE[5] | 00000 >
 // Instructions(1): btsti32
 class I_5_X<bits<6> sop, bits<5> pcode, string op, ImmLeaf ImmType,
             list<dag> pattern>
     : CSKY32Inst<AddrModeNone, 0x31,
     (outs CARRY:$ca), (ins GPR:$rx, ImmType:$imm5),
     !strconcat(op, "\t$rx, $imm5"), pattern> {
   bits<5> imm5;
   bits<5> rx;
   let Inst{25 - 21} = imm5;
   let Inst{20 - 16} = rx;
   let Inst{15 - 10} = sop;
   let Inst{9 - 5} = pcode;
   let Inst{4 - 0} = 0;
   let isCompare = 1;
 }

 // Format< OP[6] | IMM[5] | 00000[5] | SOP[6] | PCODE[5] | RZ[5]>
 // Instructions(1): bmaski32
 class I_5_Z<bits<6> sop, bits<5> pcode, string op, ImmLeaf ImmType,
             list<dag> pattern>
     : CSKY32Inst<AddrModeNone, 0x31, (outs GPR:$rz), (ins ImmType:$imm5),
                  !strconcat(op, "\t$rz, $imm5"), pattern> {
   bits<5> imm5;
   bits<5> rz;
   let Inst{25 - 21} = imm5;
   let Inst{20 - 16} = 0;
   let Inst{15 - 10} = sop;
   let Inst{9 - 5} = pcode;
   let Inst{4 - 0} = rz;
 }

 // Format< OP[6] | RY[5] | RX[5] | SOP[6] | PCODE[5] | RZ[5] >
 // Instructions(24): addu32, addc32, subu32, subc32, (rsub32), ixh32, ixw32,
 // ixd32, and32, andn32, or32, xor32, nor32, lsl32, lsr32, asr32, rotl32
 // mult32, divu32, divs32, mul.(u/s)32, mula.32.l, mula.u32, mulall.s16.s
 class R_YXZ<bits<6> opcode, bits<6> sop, bits<5> pcode, dag outs, dag ins,
             string op, list<dag> pattern>
     : CSKY32Inst<AddrModeNone, opcode, outs, ins,
                  !strconcat(op, "\t$rz, $rx, $ry"), pattern> {
   bits<5> ry;
   bits<5> rx;
   bits<5> rz;
   let Inst{25 - 21} = ry;
   let Inst{20 - 16} = rx;
   let Inst{15 - 10} = sop;
   let Inst{9 - 5} = pcode;
   let Inst{4 - 0} = rz;
 }

 // R_YXZ instructions with simple pattern
 // Output: GPR:rz
 // Input: GPR:rx, GPR:ry
 // Asm string: op rz, rx, ry
 // Instructions: addu32, subu32, ixh32, ixw32, ixd32, and32, andn32, or32,
 // xor32, nor32, lsl32, lsr32, asr32, mult32, divu32, divs32
 class R_YXZ_SP_F1<bits<6> sop, bits<5> pcode, PatFrag opnode, string op,
   bit Commutable = 0> : R_YXZ<0x31, sop, pcode, (outs GPR:$rz),
   (ins GPR:$rx, GPR:$ry), op, [(set GPR:$rz, (opnode GPR:$rx, GPR:$ry))]> {
   let isCommutable = Commutable;
 }

 // Format< OP[6] | RY[5] | RX[5] | SOP[6] | PCODE[5] | RZ[5] >
 // Instructions:(8) ldr32.b, ldr32.h, ldr32.bs, ldr32.hs, ldr32.w,
 //                  str32.b, str32.h, str32.w
 class R_YXZ_LDST<bits<6> opcode, bits<6> sop, bits<5> pcode, int no, dag outs,
                  dag ins, string op, list<dag> pattern>
     : CSKY32Inst<AddrModeNone, opcode, outs, ins,
                  op #"\t$rz, ($rx, $ry << " #no #")", pattern> {
   bits<5> rx;
   bits<5> ry;
   bits<5> rz;
   let Inst{25 - 21} = ry; // ry;
   let Inst{20 - 16} = rx; // rx;
   let Inst{15 - 10} = sop;
   let Inst{9 - 5} = pcode; // pcode;
   let Inst{4 - 0} = rz;
 }

 class I_LDR<bits<6> sop, bits<5> pcode, string op, int no>
     : R_YXZ_LDST<0x34, sop, pcode, no,
     (outs GPR:$rz), (ins GPR:$rx, GPR:$ry), op, []>;

 class I_STR<bits<6> sop, bits<5> pcode, string op, int no>
     : R_YXZ_LDST<0x35, sop, pcode, no, (outs),
     (ins GPR:$rz, GPR:$rx, GPR:$ry), op, []>;

 // Format< OP[6] | RX[5] | RX[5] | SOP[6] | PCODE[5] | RZ[5] >
 // Instructions:(1) not32
 class R_XXZ<bits<6> sop, bits<5> pcode, dag outs, dag ins, string op,
             list<dag> pattern>
     : CSKY32Inst<AddrModeNone, 0x31, outs, ins, !strconcat(op, "\t$rz, $rx"),
                  pattern> {
   bits<5> rx;
   bits<5> rz;
   let Inst{25 - 21} = rx;
   let Inst{20 - 16} = rx;
   let Inst{15 - 10} = sop;
   let Inst{9 - 5} = pcode;
   let Inst{4 - 0} = rz;
 }

 // Format< OP[6] | RY[5] | RX[5] | SOP[6] | PCODE[5] | 00000[5] >
 // Instructions:(4) cmpne32, cmphs32, cmplt32, tst32
 class R_YX<bits<6> sop, bits<5> pcode, string op>
     : CSKY32Inst<AddrModeNone, 0x31, (outs CARRY:$ca),
                  (ins GPR:$rx, GPR:$ry),
                  !strconcat(op, "\t$rx, $ry"), []> {
   bits<5> ry;
   bits<5> rx;
   let Inst{25 - 21} = ry;
   let Inst{20 - 16} = rx;
   let Inst{15 - 10} = sop;
   let Inst{9 - 5} = pcode;
   let Inst{4 - 0} = 0;
   let isCompare = 1;
 }

 // Format< OP[6] | 00000[5] | RX[5] | SOP[6] | PCODE[5] | RZ[5] >
 // Instructions:(12)
 //   mov32, xtrb0.32, xtrb1.32, xtrb2.32, xtrb3.32, brev32, revb32
 //   revh32, abs32, ff0.32, ff1.32, bgenr32
 class R_XZ<bits<6> sop, bits<5> pcode, string op>
     : CSKY32Inst<AddrModeNone, 0x31, (outs GPR:$rz), (ins GPR:$rx),
                  !strconcat(op, "\t$rz, $rx"), []> {
   bits<5> rx;
   bits<5> rz;
   let Inst{25 - 21} = 0;
   let Inst{20 - 16} = rx;
   let Inst{15 - 10} = sop;
   let Inst{9 - 5} = pcode;
   let Inst{4 - 0} = rz;
 }

 // Format< OP[6] | RZ[5] | RX[5] | SOP[6] | PCODE[5] | 00000[5] >
 // Instructions:(2) movf32, movt32
 class R_ZX<bits<6> sop, bits<5> pcode, string op, list<dag> pattern>
     : CSKY32Inst<AddrModeNone, 0x31, (outs GPR:$rz),
                  (ins CARRY:$ca, GPR:$rx, GPR:$false),
                  !strconcat(op, "\t$rz, $rx"), pattern> {
   bits<5> rz;
   bits<5> rx;
   let Inst{25 - 21} = rz;
   let Inst{20 - 16} = rx;
   let Inst{15 - 10} = sop;
   let Inst{9 - 5} = pcode;
   let Inst{4 - 0} = 0;
   let Constraints = "$rz = $false";
   let isSelect = 1;
 }

 // Format< OP[6] | 00000[5] | RX[5] | SOP[6] | PCODE[5] | 00000[5] >
 // Instructions:(1) tstnbz32
 class R_X<bits<6> sop, bits<5> pcode, string op, list<dag> pattern>
     : CSKY32Inst<AddrModeNone, 0x31, (outs CARRY:$ca),(ins GPR:$rx),
                  !strconcat(op, "\t$rx"), pattern> {
   bits<5> rx;
   let Inst{25 - 21} = 0;
   let Inst{20 - 16} = rx;
   let Inst{15 - 10} = sop;
   let Inst{9 - 5} = pcode;
   let Inst{4 - 0} = 0;
 }

 // Format< OP[6] | 00000[5] | 00000[5] | SOP[6] | PCODE[5] | RZ[5] >
 // Instructions:(2) mvc32, mvcv32
 class R_Z_1<bits<6> sop, bits<5> pcode, string op>
     : CSKY32Inst<AddrModeNone, 0x31, (outs GPR:$rz),
                  (ins CARRY:$ca), !strconcat(op, "\t$rz"), []> {
   bits<5> rz;
   let Inst{25 - 21} = 0;
   let Inst{20 - 16} = 0;
   let Inst{15 - 10} = sop;
   let Inst{9 - 5} = pcode;
   let Inst{4 - 0} = rz;
 }

 // Format< OP[6] | RZ[5] | 00000[5] | SOP[6] | PCODE[5] | 00000[5] >
 // Instructions:(2) clrf32, clrt32
 class R_Z_2<bits<6> sop, bits<5> pcode, string op, list<dag> pattern>
     : CSKY32Inst<AddrModeNone, 0x31, (outs GPR:$rz),
     (ins CARRY:$ca, GPR:$false), !strconcat(op, "\t$rz"), []> {
   bits<5> rz;
   let Inst{25 - 21} = rz;
   let Inst{20 - 16} = 0;
   let Inst{15 - 10} = sop;
   let Inst{9 - 5} = pcode;
   let Inst{4 - 0} = 0;
   let Constraints = "$rz = $false";
 }
	//===-- CSKYInstrFormats.td - CSKY Instruction Formats ------ tablegen --===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//

	class AddrMode<bits<5> val> {
	bits<5> Value = val;
	}

	def AddrModeNone : AddrMode<0>;
	def AddrMode32B : AddrMode<1>; // ld32.b, ld32.bs, st32.b, st32.bs, +4kb
	def AddrMode32H : AddrMode<2>; // ld32.h, ld32.hs, st32.h, st32.hs, +8kb
	def AddrMode32WD : AddrMode<3>; // ld32.w, st32.w, ld32.d, st32.d, +16kb
	def AddrMode16B : AddrMode<4>; // ld16.b, +32b
	def AddrMode16H : AddrMode<5>; // ld16.h, +64b
	def AddrMode16W : AddrMode<6>; // ld16.w, +128b or +1kb
	def AddrMode32SDF : AddrMode<7>; // flds, fldd, +1kb

	class CSKYInst<AddrMode am, int sz, dag outs, dag ins, string asmstr,
	list<dag> pattern> : Instruction {
	let Namespace = "CSKY";
	int Size = sz;
	AddrMode AM = am;

	let OutOperandList = outs;
	let InOperandList = ins;
	let AsmString = asmstr;
	let Pattern = pattern;
	let Itinerary = NoItinerary;
	let TSFlags{4 - 0} = AM.Value;
	}

	class CSKYPseudo<dag outs, dag ins, string asmstr, list<dag> pattern>
	: CSKYInst<AddrModeNone, 0, outs, ins, asmstr, pattern> {
	let isCodeGenOnly = 1;
	let isPseudo = 1;
	}

	class CSKY32Inst<AddrMode am, bits<6> opcode, dag outs, dag ins, string asmstr,
	list<dag> pattern>
	: CSKYInst<am, 4, outs, ins, asmstr, pattern> {
	field bits<32> Inst;
	let Inst{31 - 26} = opcode;
	}

	// CSKY 32-bit instruction
	// Format< OP[6] \| Offset[26] >
	// Instruction(1): bsr32
	class J<bits<6> opcode, dag outs, dag ins, string op, list<dag> pattern>
	: CSKY32Inst<AddrModeNone, opcode, outs, ins, !strconcat(op, "\t$offset"),
	pattern> {
	bits<26> offset;
	let Inst{25 - 0} = offset;
	}

	// Format< OP[6] \| RZ[5] \| SOP[3] \| OFFSET[18] >
	// Instructions(7): grs, lrs32.b, lrs32.h, lrs32.w, srs32.b, srs32.h, srs32.w
	class I_18_Z_L<bits<3> sop, string op, Operand operand, list<dag> pattern>
	: CSKY32Inst<AddrModeNone, 0x33, (outs GPR:$rz), (ins operand:$offset),
	!strconcat(op, "\t$rz, $offset"), pattern> {
	bits<5> rz;
	bits<18> offset;
	let Inst{25 - 21} = rz;
	let Inst{20 - 18} = sop;
	let Inst{17 - 0} = offset;
	}

	// Format< OP[6] \| RZ[5] \| RX[5] \| IMM[16] >
	// Instructions(1): ori32
	class I_16_ZX<string op, ImmLeaf ImmType, list<dag> pattern>
	: CSKY32Inst<AddrModeNone, 0x3b,
	(outs GPR:$rz), (ins GPR:$rx,ImmType:$imm16),
	!strconcat(op, "\t$rz, $rx, $imm16"), pattern> {
	bits<5> rz;
	bits<5> rx;
	bits<16> imm16;
	let Inst{25 - 21} = rz;
	let Inst{20 - 16} = rx;
	let Inst{15 - 0} = imm16;
	}

	// Format< OP[6] \| SOP[5] \| RZ[5] \| IMM[16] >
	// Instructions(3): movi32, movih32, (bgeni32)
	class I_16_MOV<bits<5> sop, string op, ImmLeaf ImmType>
	: CSKY32Inst<AddrModeNone, 0x3a, (outs GPR:$rz), (ins ImmType:$imm16),
	!strconcat(op, "\t$rz, $imm16"),
	[(set GPR:$rz, ImmType:$imm16)]> {
	bits<5> rz;
	bits<16> imm16;
	let Inst{25 - 21} = sop;
	let Inst{20 - 16} = rz;
	let Inst{15 - 0} = imm16;
	let isReMaterializable = 1;
	let isAsCheapAsAMove = 1;
	let isMoveImm = 1;
	}

	// Format< OP[6] \| SOP[5] \| RZ[5] \| OFFSET[16] >
	// Instructions(1): lrw32
	class I_16_Z_L<bits<5> sop, string op, Operand operand, list<dag> pattern>
	: CSKY32Inst<AddrModeNone, 0x3a,
	(outs GPR:$rz), (ins operand:$imm16),
	!strconcat(op, "\t$rz, [$imm16]"), pattern> {
	bits<5> rz;
	bits<16> imm16;
	let Inst{25 - 21} = sop;
	let Inst{20 - 16} = rz;
	let Inst{15 - 0} = imm16;
	}

	// Format< OP[6] \| SOP[5] \| 00000[5] \| OFFSET[16] >
	// Instructions(5): bt32, bf32, br32, jmpi32, jsri32
	class I_16_L<bits<5> sop, dag outs, dag ins, string op, list<dag> pattern>
	: CSKY32Inst<AddrModeNone, 0x3a, outs, ins, !strconcat(op, "\t$imm16"),
	pattern> {
	bits<16> imm16;
	let Inst{25 - 21} = sop;
	let Inst{20 - 16} = 0;
	let Inst{15 - 0} = imm16;
	}

	// bt32, bf32, br32, jmpi32
	class I_16_L_B<bits<5> sop, string op, Operand operand, list<dag> pattern>
	: I_16_L<sop, (outs), (ins operand:$imm16, CARRY:$ca), op, pattern> {
	let isBranch = 1;
	let isTerminator = 1;
	}

	// Format< OP[6] \| SOP[5] \| RX[5] \| 0000000000000000[16] >
	// Instructions(2): jmp32, jsr32
	class I_16_JX<bits<5> sop, string op, list<dag> pattern>
	: CSKY32Inst<AddrModeNone, 0x3a, (outs), (ins GPR:$rx),
	!strconcat(op, "\t$rx"), pattern> {
	bits<5> rx;
	bits<16> imm16;
	let Inst{25 - 21} = sop;
	let Inst{20 - 16} = rx;
	let Inst{15 - 0} = 0;
	}

	// Format< OP[6] \| SOP[5] \| RX[5] \| 00000000000000[14] \| IMM[2] >
	// Instructions(1): jmpix32
	class I_16_J_XI<bits<5> sop, string op, Operand operand, list<dag> pattern>
	: CSKY32Inst<AddrModeNone, 0x3a, (outs),
	(ins GPR:$rx, operand:$imm2),
	!strconcat(op, "\t$rx, $imm2"), pattern> {
	bits<5> rx;
	bits<2> imm2;
	let Inst{25 - 21} = sop;
	let Inst{20 - 16} = rx;
	let Inst{15 - 2} = 0;
	let Inst{1 - 0} = imm2;
	}

	// Format< OP[6] \| SOP[5] \| PCODE[5] \| 0000000000000000[16] >
	// Instructions(1): rts32
	class I_16_RET<bits<5> sop, bits<5> pcode, string op, list<dag> pattern>
	: CSKY32Inst<AddrModeNone, 0x3a, (outs), (ins), op, pattern> {
	let Inst{25 - 21} = sop;
	let Inst{20 - 16} = pcode;
	let Inst{15 - 0} = 0;
	let isTerminator = 1;
	let isReturn = 1;
	let isBarrier = 1;
	}

	// Format< OP[6] \| SOP[5] \| RX[5] \| IMM16[16] >
	// Instructions(3): cmpnei32, cmphsi32, cmplti32
	class I_16_X<bits<5> sop, string op>
	: CSKY32Inst<AddrModeNone, 0x3a, (outs CARRY:$ca),
	(ins GPR:$rx, i32imm:$imm16), !strconcat(op, "\t$rx, $imm16"), []> {
	bits<16> imm16;
	bits<5> rx;
	let Inst{25 - 21} = sop;
	let Inst{20 - 16} = rx;
	let Inst{15 - 0} = imm16;
	let isCompare = 1;
	}

	// Format< OP[6] \| SOP[5] \| RX[5] \| OFFSET[16] >
	// Instructions(7): bez32, bnez32, bnezad32, bhz32, blsz32, blz32, bhsz32
	class I_16_X_L<bits<5> sop, string op, Operand operand>
	: CSKY32Inst<AddrModeNone, 0x3a, (outs), (ins GPR:$rx, operand:$imm16),
	!strconcat(op, "\t$rx, $imm16"), []> {
	bits<5> rx;
	bits<16> imm16;
	let Inst{25 - 21} = sop;
	let Inst{20 - 16} = rx;
	let Inst{15 - 0} = imm16;
	let isBranch = 1;
	let isTerminator = 1;
	}

	// Format< OP[6] \| RZ[5] \| RX[5] \| SOP[4] \| IMM[12] >
	// Instructions(5): addi32, subi32, andi32, andni32, xori32
	class I_12<bits<4> sop, string op, SDNode node, ImmLeaf ImmType>
	: CSKY32Inst<AddrModeNone, 0x39, (outs GPR:$rz),
	(ins GPR:$rx, ImmType:$imm12), !strconcat(op, "\t$rz, $rx, $imm12"),
	[(set GPR:$rz, (node GPR:$rx, ImmType:$imm12))]> {
	bits<5> rz;
	bits<5> rx;
	bits<12> imm12;
	let Inst{25 - 21} = rz;
	let Inst{20 - 16} = rx;
	let Inst{15 - 12} = sop;
	let Inst{11 - 0} = imm12;
	}

	class I_LDST<AddrMode am, bits<6> opcode, bits<4> sop, dag outs, dag ins,
	string op, list<dag> pattern>
	: CSKY32Inst<am, opcode, outs, ins, !strconcat(op, "\t$rz, ($rx, $imm12)"),
	pattern> {
	bits<5> rx;
	bits<5> rz;
	bits<12> imm12;
	let Inst{25 - 21} = rz;
	let Inst{20 - 16} = rx;
	let Inst{15 - 12} = sop;
	let Inst{11 - 0} = imm12;
	}

	// Format< OP[6] \| RZ[5] \| RX[5] \| SOP[4] \| OFFSET[12] >
	// Instructions(6): ld32.b, ld32.bs, ld32.h, ld32.hs, ld32.w, ld32.d
	class I_LD<AddrMode am, bits<4> sop, string op, Operand operand>
	: I_LDST<am, 0x36, sop,
	(outs GPR:$rz), (ins GPR:$rx, operand:$imm12), op, []>;

	// Format< OP[6] \| RZ[5] \| RX[5] \| SOP[4] \| OFFSET[12] >
	// Instructions(4): st32.b, st32.h, st32.w, st32.d
	class I_ST<AddrMode am, bits<4> sop, string op, Operand operand>
	: I_LDST<am, 0x37, sop, (outs),
	(ins GPR:$rz, GPR:$rx, operand:$imm12), op, []>;

	// Format< OP[6] \| SOP[5] \| PCODE[5] \| 0000[4] \| 000 \| R28 \| LIST2[3] \| R15 \|
	// LIST1[4] >
	// Instructions(2): push32, pop32
	class I_12_PP<bits<5> sop, bits<5> pcode, dag outs, dag ins, string op>
	: CSKY32Inst<AddrModeNone, 0x3a, outs, ins, !strconcat(op, "\t$regs"), []> {
	bits<12> regs;
	let Inst{25 - 21} = sop;
	let Inst{20 - 16} = pcode;
	let Inst{15 - 12} = 0;
	let Inst{11 - 0} = regs;
	}

	// Format< OP[6] \| RZ[5] \| RX[5] \| SOP[6] \| PCODE[5] \| IMM[5]>
	// Instructions(4): incf32, inct32, decf32, dect32
	class I_5_ZX<bits<6> sop, bits<5> pcode, string op, ImmLeaf ImmType,
	list<dag> pattern>
	: CSKY32Inst<AddrModeNone, 0x31, (outs GPR:$rz),
	(ins GPR:$false, GPR:$rx, ImmType:$imm5),
	!strconcat(op, "\t$rz, $rx, $imm5"), pattern> {
	bits<5> rz;
	bits<5> rx;
	bits<5> imm5;
	let Inst{25 - 21} = rz;
	let Inst{20 - 16} = rx;
	let Inst{15 - 10} = sop;
	let Inst{9 - 5} = pcode;
	let Inst{4 - 0} = imm5;
	let Constraints = "$rz = $false";
	}

	// Format< OP[6] \| IMM[5] \| RX[5] \| SOP[6] \| PCODE[5] \| RZ[5]>
	// Instructions(13): decgt32, declt32, decne32, lsli32, lslc32, lsri32
	// lsrc32, asri32, asrc32, rotli32, xsr32, bclri32, bseti32
	class I_5_XZ<bits<6> sop, bits<5> pcode, string op, dag ins, dag outs,
	list<dag> pattern>
	: CSKY32Inst<AddrModeNone, 0x31, ins, outs,
	!strconcat(op, "\t$rz, $rx, $imm5"), pattern> {
	bits<5> imm5;
	bits<5> rx;
	bits<5> rz;
	let Inst{25 - 21} = imm5;
	let Inst{20 - 16} = rx;
	let Inst{15 - 10} = sop;
	let Inst{9 - 5} = pcode;
	let Inst{4 - 0} = rz;
	}

	// Format< OP[6] \| RY[5] \| RX[5] \| SOP[6] \| PCODE[5] \| IMM[5]>
	// Instructions(2): ldm32, (ldq32), stm32, (stq32)
	class I_5_YX<bits<6> opcode, dag outs, dag ins, string op, list<dag> pattern,
	bits<5> imm5>
	: CSKY32Inst<AddrModeNone, opcode, outs, ins,
	op #"\t${ry}, (${rx}), " #!cast<int>(imm5), pattern> {
	bits<5> rx;
	bits<5> ry;
	let Inst{25 - 21} = ry; // ry
	let Inst{20 - 16} = rx;
	let Inst{15 - 10} = 0b000111;
	let Inst{9 - 5} = 0b00001;
	let Inst{4 - 0} = imm5{4 - 0}; // imm5
	}

	// Format< OP[6] \| LSB[5] \| RX[5] \| SOP[6] \| MSB[5] \| RZ[5]>
	// Instructions(6): zext32, zextb32, zexth32, sext32, sextb32, sexth32
	class I_5_XZ_U<bits<6> sop, bits<5> lsb, bits<5> msb, dag outs, dag ins,
	string op, list<dag> pattern>
	: CSKY32Inst<AddrModeNone, 0x31, outs, ins,
	op #"\t$rz, $rx, " #!cast<int>(msb) #", " #!cast<int>(lsb),
	pattern> {
	bits<5> rx;
	bits<5> rz;
	let Inst{25 - 21} = lsb; // lsb
	let Inst{20 - 16} = rx;
	let Inst{15 - 10} = sop;
	let Inst{9 - 5} = msb; // msb
	let Inst{4 - 0} = rz;
	}

	// sextb, sexth
	class I_5_XZ_US<bits<6> sop, bits<5> lsb, bits<5> msb, string op, SDNode opnode,
	ValueType type> : I_5_XZ_U<sop, lsb, msb,
	(outs GPR:$rz), (ins GPR:$rx),op, [(set GPR:$rz, (opnode GPR:$rx, type))]>;

	class I_5_XZ_UZ<bits<6> sop, bits<5> lsb, bits<5> msb, string op, int v>
	: I_5_XZ_U<sop, lsb, msb, (outs GPR:$rz), (ins GPR:$rx), op,
	[(set GPR:$rz, (and GPR:$rx, (i32 v)))]>;

	// Format< OP[6] \| RZ[5] \| RX[5] \| SOP[6] \| SIZE[5] \| LSB[5]>
	// Instructions(1): ins32
	class I_5_ZX_U<bits<6> sop, string op, Operand operand, list<dag> pattern>
	: CSKY32Inst<AddrModeNone, 0x31, (outs GPR:$rz), (ins operand:$size_lsb),
	!strconcat(op, "\t$rz, operand:$size_lsb"), pattern> {
	bits<10> size_lsb;
	bits<5> rz;
	bits<5> rx;
	let Inst{25 - 21} = rz;
	let Inst{20 - 16} = rx;
	let Inst{15 - 10} = sop;
	let Inst{9 - 5} = size_lsb{9 - 5}; // size
	let Inst{4 - 0} = size_lsb{4 - 0}; // lsb
	}

	// Format< OP[6] \| IMM[5] \| RX[5] \| SOP[6] \| PCODE[5] \| 00000 >
	// Instructions(1): btsti32
	class I_5_X<bits<6> sop, bits<5> pcode, string op, ImmLeaf ImmType,
	list<dag> pattern>
	: CSKY32Inst<AddrModeNone, 0x31,
	(outs CARRY:$ca), (ins GPR:$rx, ImmType:$imm5),
	!strconcat(op, "\t$rx, $imm5"), pattern> {
	bits<5> imm5;
	bits<5> rx;
	let Inst{25 - 21} = imm5;
	let Inst{20 - 16} = rx;
	let Inst{15 - 10} = sop;
	let Inst{9 - 5} = pcode;
	let Inst{4 - 0} = 0;
	let isCompare = 1;
	}

	// Format< OP[6] \| IMM[5] \| 00000[5] \| SOP[6] \| PCODE[5] \| RZ[5]>
	// Instructions(1): bmaski32
	class I_5_Z<bits<6> sop, bits<5> pcode, string op, ImmLeaf ImmType,
	list<dag> pattern>
	: CSKY32Inst<AddrModeNone, 0x31, (outs GPR:$rz), (ins ImmType:$imm5),
	!strconcat(op, "\t$rz, $imm5"), pattern> {
	bits<5> imm5;
	bits<5> rz;
	let Inst{25 - 21} = imm5;
	let Inst{20 - 16} = 0;
	let Inst{15 - 10} = sop;
	let Inst{9 - 5} = pcode;
	let Inst{4 - 0} = rz;
	}

	// Format< OP[6] \| RY[5] \| RX[5] \| SOP[6] \| PCODE[5] \| RZ[5] >
	// Instructions(24): addu32, addc32, subu32, subc32, (rsub32), ixh32, ixw32,
	// ixd32, and32, andn32, or32, xor32, nor32, lsl32, lsr32, asr32, rotl32
	// mult32, divu32, divs32, mul.(u/s)32, mula.32.l, mula.u32, mulall.s16.s
	class R_YXZ<bits<6> opcode, bits<6> sop, bits<5> pcode, dag outs, dag ins,
	string op, list<dag> pattern>
	: CSKY32Inst<AddrModeNone, opcode, outs, ins,
	!strconcat(op, "\t$rz, $rx, $ry"), pattern> {
	bits<5> ry;
	bits<5> rx;
	bits<5> rz;
	let Inst{25 - 21} = ry;
	let Inst{20 - 16} = rx;
	let Inst{15 - 10} = sop;
	let Inst{9 - 5} = pcode;
	let Inst{4 - 0} = rz;
	}

	// R_YXZ instructions with simple pattern
	// Output: GPR:rz
	// Input: GPR:rx, GPR:ry
	// Asm string: op rz, rx, ry
	// Instructions: addu32, subu32, ixh32, ixw32, ixd32, and32, andn32, or32,
	// xor32, nor32, lsl32, lsr32, asr32, mult32, divu32, divs32
	class R_YXZ_SP_F1<bits<6> sop, bits<5> pcode, PatFrag opnode, string op,
	bit Commutable = 0> : R_YXZ<0x31, sop, pcode, (outs GPR:$rz),
	(ins GPR:$rx, GPR:$ry), op, [(set GPR:$rz, (opnode GPR:$rx, GPR:$ry))]> {
	let isCommutable = Commutable;
	}

	// Format< OP[6] \| RY[5] \| RX[5] \| SOP[6] \| PCODE[5] \| RZ[5] >
	// Instructions:(8) ldr32.b, ldr32.h, ldr32.bs, ldr32.hs, ldr32.w,
	// str32.b, str32.h, str32.w
	class R_YXZ_LDST<bits<6> opcode, bits<6> sop, bits<5> pcode, int no, dag outs,
	dag ins, string op, list<dag> pattern>
	: CSKY32Inst<AddrModeNone, opcode, outs, ins,
	op #"\t$rz, ($rx, $ry << " #no #")", pattern> {
	bits<5> rx;
	bits<5> ry;
	bits<5> rz;
	let Inst{25 - 21} = ry; // ry;
	let Inst{20 - 16} = rx; // rx;
	let Inst{15 - 10} = sop;
	let Inst{9 - 5} = pcode; // pcode;
	let Inst{4 - 0} = rz;
	}

	class I_LDR<bits<6> sop, bits<5> pcode, string op, int no>
	: R_YXZ_LDST<0x34, sop, pcode, no,
	(outs GPR:$rz), (ins GPR:$rx, GPR:$ry), op, []>;

	class I_STR<bits<6> sop, bits<5> pcode, string op, int no>
	: R_YXZ_LDST<0x35, sop, pcode, no, (outs),
	(ins GPR:$rz, GPR:$rx, GPR:$ry), op, []>;

	// Format< OP[6] \| RX[5] \| RX[5] \| SOP[6] \| PCODE[5] \| RZ[5] >
	// Instructions:(1) not32
	class R_XXZ<bits<6> sop, bits<5> pcode, dag outs, dag ins, string op,
	list<dag> pattern>
	: CSKY32Inst<AddrModeNone, 0x31, outs, ins, !strconcat(op, "\t$rz, $rx"),
	pattern> {
	bits<5> rx;
	bits<5> rz;
	let Inst{25 - 21} = rx;
	let Inst{20 - 16} = rx;
	let Inst{15 - 10} = sop;
	let Inst{9 - 5} = pcode;
	let Inst{4 - 0} = rz;
	}

	// Format< OP[6] \| RY[5] \| RX[5] \| SOP[6] \| PCODE[5] \| 00000[5] >
	// Instructions:(4) cmpne32, cmphs32, cmplt32, tst32
	class R_YX<bits<6> sop, bits<5> pcode, string op>
	: CSKY32Inst<AddrModeNone, 0x31, (outs CARRY:$ca),
	(ins GPR:$rx, GPR:$ry),
	!strconcat(op, "\t$rx, $ry"), []> {
	bits<5> ry;
	bits<5> rx;
	let Inst{25 - 21} = ry;
	let Inst{20 - 16} = rx;
	let Inst{15 - 10} = sop;
	let Inst{9 - 5} = pcode;
	let Inst{4 - 0} = 0;
	let isCompare = 1;
	}

	// Format< OP[6] \| 00000[5] \| RX[5] \| SOP[6] \| PCODE[5] \| RZ[5] >
	// Instructions:(12)
	// mov32, xtrb0.32, xtrb1.32, xtrb2.32, xtrb3.32, brev32, revb32
	// revh32, abs32, ff0.32, ff1.32, bgenr32
	class R_XZ<bits<6> sop, bits<5> pcode, string op>
	: CSKY32Inst<AddrModeNone, 0x31, (outs GPR:$rz), (ins GPR:$rx),
	!strconcat(op, "\t$rz, $rx"), []> {
	bits<5> rx;
	bits<5> rz;
	let Inst{25 - 21} = 0;
	let Inst{20 - 16} = rx;
	let Inst{15 - 10} = sop;
	let Inst{9 - 5} = pcode;
	let Inst{4 - 0} = rz;
	}

	// Format< OP[6] \| RZ[5] \| RX[5] \| SOP[6] \| PCODE[5] \| 00000[5] >
	// Instructions:(2) movf32, movt32
	class R_ZX<bits<6> sop, bits<5> pcode, string op, list<dag> pattern>
	: CSKY32Inst<AddrModeNone, 0x31, (outs GPR:$rz),
	(ins CARRY:$ca, GPR:$rx, GPR:$false),
	!strconcat(op, "\t$rz, $rx"), pattern> {
	bits<5> rz;
	bits<5> rx;
	let Inst{25 - 21} = rz;
	let Inst{20 - 16} = rx;
	let Inst{15 - 10} = sop;
	let Inst{9 - 5} = pcode;
	let Inst{4 - 0} = 0;
	let Constraints = "$rz = $false";
	let isSelect = 1;
	}

	// Format< OP[6] \| 00000[5] \| RX[5] \| SOP[6] \| PCODE[5] \| 00000[5] >
	// Instructions:(1) tstnbz32
	class R_X<bits<6> sop, bits<5> pcode, string op, list<dag> pattern>
	: CSKY32Inst<AddrModeNone, 0x31, (outs CARRY:$ca),(ins GPR:$rx),
	!strconcat(op, "\t$rx"), pattern> {
	bits<5> rx;
	let Inst{25 - 21} = 0;
	let Inst{20 - 16} = rx;
	let Inst{15 - 10} = sop;
	let Inst{9 - 5} = pcode;
	let Inst{4 - 0} = 0;
	}

	// Format< OP[6] \| 00000[5] \| 00000[5] \| SOP[6] \| PCODE[5] \| RZ[5] >
	// Instructions:(2) mvc32, mvcv32
	class R_Z_1<bits<6> sop, bits<5> pcode, string op>
	: CSKY32Inst<AddrModeNone, 0x31, (outs GPR:$rz),
	(ins CARRY:$ca), !strconcat(op, "\t$rz"), []> {
	bits<5> rz;
	let Inst{25 - 21} = 0;
	let Inst{20 - 16} = 0;
	let Inst{15 - 10} = sop;
	let Inst{9 - 5} = pcode;
	let Inst{4 - 0} = rz;
	}

	// Format< OP[6] \| RZ[5] \| 00000[5] \| SOP[6] \| PCODE[5] \| 00000[5] >
	// Instructions:(2) clrf32, clrt32
	class R_Z_2<bits<6> sop, bits<5> pcode, string op, list<dag> pattern>
	: CSKY32Inst<AddrModeNone, 0x31, (outs GPR:$rz),
	(ins CARRY:$ca, GPR:$false), !strconcat(op, "\t$rz"), []> {
	bits<5> rz;
	let Inst{25 - 21} = rz;
	let Inst{20 - 16} = 0;
	let Inst{15 - 10} = sop;
	let Inst{9 - 5} = pcode;
	let Inst{4 - 0} = 0;
	let Constraints = "$rz = $false";
	}