mirror of
https://github.com/RPCS3/llvm-mirror.git
synced 2024-11-25 12:12:47 +01:00
a4698bb735
There are a couple of bugs with the sc, scs, ll, lld instructions expanding: 1. On R6 these instruction pack immediate offset into a 9-bit field. Now if an immediate exceeds 9-bits assembler does not perform expansion and just rejects such instruction. 2. On 64-bit non-PIC code if an operand is a symbol assembler generates incorrect sequence of instructions. It uses R_MIPS_HI16 and R_MIPS_LO16 relocations and skips R_MIPS_HIGHEST and R_MIPS_HIGHER ones. To solve these problems this patch: - Introduces `mem_simm9_exp` to mark 9-bit memory immediate operands which require expansion. Probably later all `mem_simm9` operands will be able to migrate on `mem_simm9_exp` and we rename it to `mem_simm9`. - Adds new `OPERAND_MEM_SIMM9` operand type and assigns it to the `mem_simm9_exp`. That allows to know operand size in the `processInstruction` method and decide whether we need to expand instruction. - Adds `expandMem9Inst` method to expand instructions with 9-bit memory immediate operand. This method just load immediate into a "base" register used by origibal instruction: sc $2, 256($sp) => addiu $1, $sp, 256 sc $2, 0($1) - Fix `expandMem16Inst` to support a correct set of relocations for symbol loading in case of 64-bit non-PIC code. ll $12, symbol => lui $12, 0 R_MIPS_HIGHEST symbol daddiu $12, $12, 0 R_MIPS_HIGHER symbol dsll $12, $12, 16 daddiu $12, $12, 0 R_MIPS_HI16 symbol dsll $12, $12, 16 ll $12, 0($12) R_MIPS_LO16 symbol - Fix `expandMem16Inst` to unify handling of 3 and 4 operands instructions. - Delete unused now `MipsTargetStreamer::emitSCWithSymOffset` method. Task for next patches - implement expanding for other instructions use `mem_simm9` operand and other `mem_simm##` operands. Differential Revision: https://reviews.llvm.org/D70648
341 lines
16 KiB
TableGen
341 lines
16 KiB
TableGen
//=- Mips64r6InstrInfo.td - Mips64r6 Instruction Information -*- tablegen -*-=//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// This file describes Mips64r6 instructions.
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//
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//===----------------------------------------------------------------------===//
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// Notes about removals/changes from MIPS32r6:
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// Reencoded: dclo, dclz
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//===----------------------------------------------------------------------===//
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//
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// Instruction Encodings
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//
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//===----------------------------------------------------------------------===//
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class DALIGN_ENC : SPECIAL3_DALIGN_FM<OPCODE6_DALIGN>;
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class DAUI_ENC : DAUI_FM;
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class DAHI_ENC : REGIMM_FM<OPCODE5_DAHI>;
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class DATI_ENC : REGIMM_FM<OPCODE5_DATI>;
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class DBITSWAP_ENC : SPECIAL3_2R_FM<OPCODE6_DBITSWAP>;
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class DCLO_R6_ENC : SPECIAL_2R_FM<OPCODE6_DCLO>;
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class DCLZ_R6_ENC : SPECIAL_2R_FM<OPCODE6_DCLZ>;
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class DDIV_ENC : SPECIAL_3R_FM<0b00010, 0b011110>;
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class DDIVU_ENC : SPECIAL_3R_FM<0b00010, 0b011111>;
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class DLSA_R6_ENC : SPECIAL_LSA_FM<OPCODE6_DLSA>;
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class DMOD_ENC : SPECIAL_3R_FM<0b00011, 0b011110>;
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class DMODU_ENC : SPECIAL_3R_FM<0b00011, 0b011111>;
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class DMUH_ENC : SPECIAL_3R_FM<0b00011, 0b011100>;
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class DMUHU_ENC : SPECIAL_3R_FM<0b00011, 0b011101>;
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class DMUL_R6_ENC : SPECIAL_3R_FM<0b00010, 0b011100>;
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class DMULU_ENC : SPECIAL_3R_FM<0b00010, 0b011101>;
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class LDPC_ENC : PCREL18_FM<OPCODE3_LDPC>;
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class LWUPC_ENC : PCREL19_FM<OPCODE2_LWUPC>;
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class LLD_R6_ENC : SPECIAL3_LL_SC_FM<OPCODE6_LLD>;
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class SCD_R6_ENC : SPECIAL3_LL_SC_FM<OPCODE6_SCD>;
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class CRC32D_ENC : SPECIAL3_2R_SZ_CRC<3,0>;
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class CRC32CD_ENC : SPECIAL3_2R_SZ_CRC<3,1>;
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//===----------------------------------------------------------------------===//
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//
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// Instruction Descriptions
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//
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//===----------------------------------------------------------------------===//
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class AHI_ATI_DESC_BASE<string instr_asm, RegisterOperand GPROpnd,
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InstrItinClass itin> {
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dag OutOperandList = (outs GPROpnd:$rs);
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dag InOperandList = (ins GPROpnd:$rt, uimm16_altrelaxed:$imm);
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string AsmString = !strconcat(instr_asm, "\t$rs, $rt, $imm");
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string Constraints = "$rs = $rt";
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InstrItinClass Itinerary = itin;
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}
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class DALIGN_DESC : ALIGN_DESC_BASE<"dalign", GPR64Opnd, uimm3, II_DALIGN>;
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class DAHI_DESC : AHI_ATI_DESC_BASE<"dahi", GPR64Opnd, II_DAHI>;
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class DATI_DESC : AHI_ATI_DESC_BASE<"dati", GPR64Opnd, II_DATI>;
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class DAUI_DESC : AUI_DESC_BASE<"daui", GPR64Opnd, II_DAUI>;
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class DBITSWAP_DESC : BITSWAP_DESC_BASE<"dbitswap", GPR64Opnd, II_DBITSWAP>;
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class DCLO_R6_DESC : CLO_R6_DESC_BASE<"dclo", GPR64Opnd, II_DCLO>;
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class DCLZ_R6_DESC : CLZ_R6_DESC_BASE<"dclz", GPR64Opnd, II_DCLZ>;
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class DDIV_DESC : DIVMOD_DESC_BASE<"ddiv", GPR64Opnd, II_DDIV, sdiv>;
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class DDIVU_DESC : DIVMOD_DESC_BASE<"ddivu", GPR64Opnd, II_DDIVU, udiv>;
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class DLSA_R6_DESC : LSA_R6_DESC_BASE<"dlsa", GPR64Opnd, uimm2_plus1, II_DLSA>;
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class DMOD_DESC : DIVMOD_DESC_BASE<"dmod", GPR64Opnd, II_DMOD, srem>;
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class DMODU_DESC : DIVMOD_DESC_BASE<"dmodu", GPR64Opnd, II_DMODU, urem>;
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class DMUH_DESC : MUL_R6_DESC_BASE<"dmuh", GPR64Opnd, II_DMUH, mulhs>;
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class DMUHU_DESC : MUL_R6_DESC_BASE<"dmuhu", GPR64Opnd, II_DMUHU, mulhu>;
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class DMUL_R6_DESC : MUL_R6_DESC_BASE<"dmul", GPR64Opnd, II_DMUL, mul>;
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class DMULU_DESC : MUL_R6_DESC_BASE<"dmulu", GPR64Opnd, II_DMUL>;
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class LDPC_DESC : PCREL_DESC_BASE<"ldpc", GPR64Opnd, simm18_lsl3, II_LDPC>;
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class LWUPC_DESC : PCREL_DESC_BASE<"lwupc", GPR32Opnd, simm19_lsl2, II_LWUPC>;
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class LLD_R6_DESC : LL_R6_DESC_BASE<"lld", GPR64Opnd, mem_simm9_exp, II_LLD>;
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class SCD_R6_DESC : SC_R6_DESC_BASE<"scd", GPR64Opnd, II_SCD>;
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class SELEQZ64_DESC : SELEQNE_Z_DESC_BASE<"seleqz", GPR64Opnd>;
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class SELNEZ64_DESC : SELEQNE_Z_DESC_BASE<"selnez", GPR64Opnd>;
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class BGEC64_DESC : CMP_BC_DESC_BASE<"bgec", brtarget, GPR64Opnd>;
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class BGEUC64_DESC : CMP_BC_DESC_BASE<"bgeuc", brtarget, GPR64Opnd>;
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class BEQC64_DESC : CMP_BC_DESC_BASE<"beqc", brtarget, GPR64Opnd>;
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class BNEC64_DESC : CMP_BC_DESC_BASE<"bnec", brtarget, GPR64Opnd>;
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class BLTC64_DESC : CMP_BC_DESC_BASE<"bltc", brtarget, GPR64Opnd>;
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class BLTUC64_DESC : CMP_BC_DESC_BASE<"bltuc", brtarget, GPR64Opnd>;
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class BLTZC64_DESC : CMP_CBR_RT_Z_DESC_BASE<"bltzc", brtarget, GPR64Opnd>;
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class BGEZC64_DESC : CMP_CBR_RT_Z_DESC_BASE<"bgezc", brtarget, GPR64Opnd>;
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class BLEZC64_DESC : CMP_CBR_RT_Z_DESC_BASE<"blezc", brtarget, GPR64Opnd>;
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class BGTZC64_DESC : CMP_CBR_RT_Z_DESC_BASE<"bgtzc", brtarget, GPR64Opnd>;
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class BEQZC64_DESC : CMP_CBR_EQNE_Z_DESC_BASE<"beqzc", brtarget21, GPR64Opnd>;
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class BNEZC64_DESC : CMP_CBR_EQNE_Z_DESC_BASE<"bnezc", brtarget21, GPR64Opnd>;
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class JIALC64_DESC : JMP_IDX_COMPACT_DESC_BASE<"jialc", calloffset16,
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GPR64Opnd, II_JIALC> {
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bit isCall = 1;
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list<Register> Defs = [RA];
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}
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class JIC64_DESC : JMP_IDX_COMPACT_DESC_BASE<"jic", jmpoffset16, GPR64Opnd,
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II_JIC> {
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bit isBarrier = 1;
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bit isTerminator = 1;
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list<Register> Defs = [AT];
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}
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class LL64_R6_DESC : LL_R6_DESC_BASE<"ll", GPR32Opnd, mem_simm9_exp, II_LL>;
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class SC64_R6_DESC : SC_R6_DESC_BASE<"sc", GPR32Opnd, II_SC>;
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class JR_HB64_R6_DESC : JR_HB_DESC_BASE<"jr.hb", GPR64Opnd> {
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bit isBranch = 1;
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bit isIndirectBranch = 1;
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bit hasDelaySlot = 1;
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bit isTerminator=1;
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bit isBarrier=1;
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bit isCTI = 1;
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InstrItinClass Itinerary = II_JR_HB;
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}
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class CRC32D_DESC : CRC_DESC_BASE<"crc32d", GPR32Opnd, II_CRC32D>;
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class CRC32CD_DESC : CRC_DESC_BASE<"crc32cd", GPR32Opnd, II_CRC32CD>;
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//===----------------------------------------------------------------------===//
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//
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// Instruction Definitions
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//
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//===----------------------------------------------------------------------===//
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let AdditionalPredicates = [NotInMicroMips] in {
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let DecoderMethod = "DecodeDAHIDATI" in {
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def DATI : DATI_ENC, DATI_DESC, ISA_MIPS64R6;
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def DAHI : DAHI_ENC, DAHI_DESC, ISA_MIPS64R6;
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}
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def DAUI : DAUI_ENC, DAUI_DESC, ISA_MIPS64R6;
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def DALIGN : DALIGN_ENC, DALIGN_DESC, ISA_MIPS64R6;
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def DBITSWAP : DBITSWAP_ENC, DBITSWAP_DESC, ISA_MIPS64R6;
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def DCLO_R6 : DCLO_R6_ENC, DCLO_R6_DESC, ISA_MIPS64R6;
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def DCLZ_R6 : DCLZ_R6_ENC, DCLZ_R6_DESC, ISA_MIPS64R6;
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def DDIV : DDIV_ENC, DDIV_DESC, ISA_MIPS64R6;
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def DDIVU : DDIVU_ENC, DDIVU_DESC, ISA_MIPS64R6;
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def DMOD : DMOD_ENC, DMOD_DESC, ISA_MIPS64R6;
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def DMODU : DMODU_ENC, DMODU_DESC, ISA_MIPS64R6;
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def DLSA_R6 : DLSA_R6_ENC, DLSA_R6_DESC, ISA_MIPS64R6;
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def DMUH: DMUH_ENC, DMUH_DESC, ISA_MIPS64R6;
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def DMUHU: DMUHU_ENC, DMUHU_DESC, ISA_MIPS64R6;
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def DMUL_R6: DMUL_R6_ENC, DMUL_R6_DESC, ISA_MIPS64R6;
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def DMULU: DMULU_ENC, DMULU_DESC, ISA_MIPS64R6;
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def LLD_R6 : LLD_R6_ENC, LLD_R6_DESC, ISA_MIPS64R6;
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}
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def LDPC: LDPC_ENC, LDPC_DESC, ISA_MIPS64R6;
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def LWUPC : LWUPC_ENC, LWUPC_DESC, ISA_MIPS64R6;
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def SCD_R6 : SCD_R6_ENC, SCD_R6_DESC, ISA_MIPS32R6;
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let DecoderNamespace = "Mips32r6_64r6_GP64" in {
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def SELEQZ64 : SELEQZ_ENC, SELEQZ64_DESC, ISA_MIPS32R6, GPR_64;
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def SELNEZ64 : SELNEZ_ENC, SELNEZ64_DESC, ISA_MIPS32R6, GPR_64;
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def JR_HB64_R6 : JR_HB_R6_ENC, JR_HB64_R6_DESC, ISA_MIPS32R6;
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}
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let AdditionalPredicates = [NotInMicroMips],
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DecoderNamespace = "Mips32r6_64r6_PTR64" in {
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def LL64_R6 : LL_R6_ENC, LL64_R6_DESC, PTR_64, ISA_MIPS64R6;
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def SC64_R6 : SC_R6_ENC, SC64_R6_DESC, PTR_64, ISA_MIPS64R6;
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}
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let DecoderNamespace = "Mips32r6_64r6_GP64" in {
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// Jump and Branch Instructions
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def JIALC64 : JIALC_ENC, JIALC64_DESC, ISA_MIPS64R6, GPR_64;
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def JIC64 : JIC_ENC, JIC64_DESC, ISA_MIPS64R6, GPR_64;
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def BEQC64 : BEQC_ENC, BEQC64_DESC, ISA_MIPS64R6, GPR_64;
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def BEQZC64 : BEQZC_ENC, BEQZC64_DESC, ISA_MIPS64R6, GPR_64;
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def BGEC64 : BGEC_ENC, BGEC64_DESC, ISA_MIPS64R6, GPR_64;
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def BGEUC64 : BGEUC_ENC, BGEUC64_DESC, ISA_MIPS64R6, GPR_64;
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def BGTZC64 : BGTZC_ENC, BGTZC64_DESC, ISA_MIPS64R6, GPR_64;
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def BLEZC64 : BLEZC_ENC, BLEZC64_DESC, ISA_MIPS64R6, GPR_64;
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def BLTC64 : BLTC_ENC, BLTC64_DESC, ISA_MIPS64R6, GPR_64;
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def BLTUC64 : BLTUC_ENC, BLTUC64_DESC, ISA_MIPS64R6, GPR_64;
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def BNEC64 : BNEC_ENC, BNEC64_DESC, ISA_MIPS64R6, GPR_64;
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def BNEZC64 : BNEZC_ENC, BNEZC64_DESC, ISA_MIPS64R6, GPR_64;
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}
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let DecoderNamespace = "Mips32r6_64r6_BranchZero" in {
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def BLTZC64 : BLTZC_ENC, BLTZC64_DESC, ISA_MIPS64R6, GPR_64;
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def BGEZC64 : BGEZC_ENC, BGEZC64_DESC, ISA_MIPS64R6, GPR_64;
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}
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let AdditionalPredicates = [NotInMicroMips] in {
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def CRC32D : R6MMR6Rel, CRC32D_ENC, CRC32D_DESC, ISA_MIPS64R6, ASE_CRC;
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def CRC32CD : R6MMR6Rel, CRC32CD_ENC, CRC32CD_DESC, ISA_MIPS64R6, ASE_CRC;
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}
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//===----------------------------------------------------------------------===//
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//
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// Instruction Aliases
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//
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//===----------------------------------------------------------------------===//
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def : MipsInstAlias<"jr $rs", (JALR64 ZERO_64, GPR64Opnd:$rs), 1>, ISA_MIPS64R6;
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def : MipsInstAlias<"jrc $rs", (JIC64 GPR64Opnd:$rs, 0), 1>, ISA_MIPS64R6;
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def : MipsInstAlias<"jalrc $rs", (JIALC64 GPR64Opnd:$rs, 0), 1>, ISA_MIPS64R6;
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//===----------------------------------------------------------------------===//
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//
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// Patterns and Pseudo Instructions
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//
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//===----------------------------------------------------------------------===//
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// i64 selects
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def : MipsPat<(select i64:$cond, i64:$t, i64:$f),
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(OR64 (SELNEZ64 i64:$t, i64:$cond),
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(SELEQZ64 i64:$f, i64:$cond))>,
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ISA_MIPS64R6;
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def : MipsPat<(select (i32 (seteq i64:$cond, immz)), i64:$t, i64:$f),
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(OR64 (SELEQZ64 i64:$t, i64:$cond),
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(SELNEZ64 i64:$f, i64:$cond))>,
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ISA_MIPS64R6;
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def : MipsPat<(select (i32 (setne i64:$cond, immz)), i64:$t, i64:$f),
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(OR64 (SELNEZ64 i64:$t, i64:$cond),
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(SELEQZ64 i64:$f, i64:$cond))>,
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ISA_MIPS64R6;
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def : MipsPat<(select (i32 (seteq i64:$cond, immZExt16_64:$imm)), i64:$t, i64:$f),
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(OR64 (SELEQZ64 i64:$t, (XORi64 i64:$cond, immZExt16_64:$imm)),
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(SELNEZ64 i64:$f, (XORi64 i64:$cond, immZExt16_64:$imm)))>,
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ISA_MIPS64R6;
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def : MipsPat<(select (i32 (setne i64:$cond, immZExt16_64:$imm)), i64:$t, i64:$f),
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(OR64 (SELNEZ64 i64:$t, (XORi64 i64:$cond, immZExt16_64:$imm)),
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(SELEQZ64 i64:$f, (XORi64 i64:$cond, immZExt16_64:$imm)))>,
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ISA_MIPS64R6;
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def : MipsPat<
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(select (i32 (setgt i64:$cond, immSExt16Plus1:$imm)), i64:$t, i64:$f),
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(OR64 (SELEQZ64 i64:$t,
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(SUBREG_TO_REG (i64 0), (SLTi64 i64:$cond, (Plus1 imm:$imm)),
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sub_32)),
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(SELNEZ64 i64:$f,
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(SUBREG_TO_REG (i64 0), (SLTi64 i64:$cond, (Plus1 imm:$imm)),
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sub_32)))>,
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ISA_MIPS64R6;
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def : MipsPat<
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(select (i32 (setugt i64:$cond, immSExt16Plus1:$imm)), i64:$t, i64:$f),
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(OR64 (SELEQZ64 i64:$t,
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(SUBREG_TO_REG (i64 0), (SLTiu64 i64:$cond, (Plus1 imm:$imm)),
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sub_32)),
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(SELNEZ64 i64:$f,
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(SUBREG_TO_REG (i64 0), (SLTiu64 i64:$cond, (Plus1 imm:$imm)),
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sub_32)))>,
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ISA_MIPS64R6;
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def : MipsPat<(select (i32 (setne i64:$cond, immz)), i64:$t, immz),
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(SELNEZ64 i64:$t, i64:$cond)>, ISA_MIPS64R6;
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def : MipsPat<(select (i32 (seteq i64:$cond, immz)), i64:$t, immz),
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(SELEQZ64 i64:$t, i64:$cond)>, ISA_MIPS64R6;
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def : MipsPat<(select (i32 (setne i64:$cond, immz)), immz, i64:$f),
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(SELEQZ64 i64:$f, i64:$cond)>, ISA_MIPS64R6;
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def : MipsPat<(select (i32 (seteq i64:$cond, immz)), immz, i64:$f),
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(SELNEZ64 i64:$f, i64:$cond)>, ISA_MIPS64R6;
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// i64 selects from an i32 comparison
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// One complicating factor here is that bits 32-63 of an i32 are undefined.
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// FIXME: Ideally, setcc would always produce an i64 on MIPS64 targets.
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// This would allow us to remove the sign-extensions here.
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def : MipsPat<(select i32:$cond, i64:$t, i64:$f),
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(OR64 (SELNEZ64 i64:$t, (SLL64_32 i32:$cond)),
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(SELEQZ64 i64:$f, (SLL64_32 i32:$cond)))>,
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ISA_MIPS64R6;
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def : MipsPat<(select (i32 (seteq i32:$cond, immz)), i64:$t, i64:$f),
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(OR64 (SELEQZ64 i64:$t, (SLL64_32 i32:$cond)),
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(SELNEZ64 i64:$f, (SLL64_32 i32:$cond)))>,
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ISA_MIPS64R6;
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def : MipsPat<(select (i32 (setne i32:$cond, immz)), i64:$t, i64:$f),
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(OR64 (SELNEZ64 i64:$t, (SLL64_32 i32:$cond)),
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(SELEQZ64 i64:$f, (SLL64_32 i32:$cond)))>,
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ISA_MIPS64R6;
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def : MipsPat<(select (i32 (seteq i32:$cond, immZExt16:$imm)), i64:$t, i64:$f),
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(OR64 (SELEQZ64 i64:$t, (SLL64_32 (XORi i32:$cond,
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immZExt16:$imm))),
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(SELNEZ64 i64:$f, (SLL64_32 (XORi i32:$cond,
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immZExt16:$imm))))>,
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ISA_MIPS64R6;
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def : MipsPat<(select (i32 (setne i32:$cond, immZExt16:$imm)), i64:$t, i64:$f),
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(OR64 (SELNEZ64 i64:$t, (SLL64_32 (XORi i32:$cond,
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immZExt16:$imm))),
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(SELEQZ64 i64:$f, (SLL64_32 (XORi i32:$cond,
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immZExt16:$imm))))>,
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ISA_MIPS64R6;
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def : MipsPat<(select i32:$cond, i64:$t, immz),
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(SELNEZ64 i64:$t, (SLL64_32 i32:$cond))>,
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ISA_MIPS64R6;
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def : MipsPat<(select (i32 (setne i32:$cond, immz)), i64:$t, immz),
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(SELNEZ64 i64:$t, (SLL64_32 i32:$cond))>,
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ISA_MIPS64R6;
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def : MipsPat<(select (i32 (seteq i32:$cond, immz)), i64:$t, immz),
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(SELEQZ64 i64:$t, (SLL64_32 i32:$cond))>,
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ISA_MIPS64R6;
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def : MipsPat<(select i32:$cond, immz, i64:$f),
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(SELEQZ64 i64:$f, (SLL64_32 i32:$cond))>,
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ISA_MIPS64R6;
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def : MipsPat<(select (i32 (setne i32:$cond, immz)), immz, i64:$f),
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(SELEQZ64 i64:$f, (SLL64_32 i32:$cond))>,
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ISA_MIPS64R6;
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def : MipsPat<(select (i32 (seteq i32:$cond, immz)), immz, i64:$f),
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(SELNEZ64 i64:$f, (SLL64_32 i32:$cond))>,
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ISA_MIPS64R6;
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// Patterns used for matching away redundant sign extensions.
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// MIPS32 arithmetic instructions sign extend their result implicitly.
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def : MipsPat<(i64 (sext (i32 (mul GPR32:$src, GPR32:$src2)))),
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(INSERT_SUBREG (i64 (IMPLICIT_DEF)),
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(MUL_R6 GPR32:$src, GPR32:$src2), sub_32)>, ISA_MIPS64R6;
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def : MipsPat<(i64 (sext (i32 (sdiv GPR32:$src, GPR32:$src2)))),
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(INSERT_SUBREG (i64 (IMPLICIT_DEF)),
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(DIV GPR32:$src, GPR32:$src2), sub_32)>, ISA_MIPS64R6;
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def : MipsPat<(i64 (sext (i32 (udiv GPR32:$src, GPR32:$src2)))),
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(INSERT_SUBREG (i64 (IMPLICIT_DEF)),
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(DIVU GPR32:$src, GPR32:$src2), sub_32)>, ISA_MIPS64R6;
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def : MipsPat<(i64 (sext (i32 (srem GPR32:$src, GPR32:$src2)))),
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(INSERT_SUBREG (i64 (IMPLICIT_DEF)),
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(MOD GPR32:$src, GPR32:$src2), sub_32)>, ISA_MIPS64R6;
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def : MipsPat<(i64 (sext (i32 (urem GPR32:$src, GPR32:$src2)))),
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(INSERT_SUBREG (i64 (IMPLICIT_DEF)),
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(MODU GPR32:$src, GPR32:$src2), sub_32)>, ISA_MIPS64R6;
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// Pseudo instructions
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let AdditionalPredicates = [NotInMips16Mode, NotInMicroMips,
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NoIndirectJumpGuards] in {
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def TAILCALL64R6REG : TailCallRegR6<JALR64, ZERO_64, GPR64Opnd>, ISA_MIPS64R6;
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def PseudoIndirectBranch64R6 : PseudoIndirectBranchBaseR6<JALR64, ZERO_64,
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GPR64Opnd>,
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ISA_MIPS64R6;
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}
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let AdditionalPredicates = [NotInMips16Mode, NotInMicroMips,
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UseIndirectJumpsHazard] in {
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def TAILCALLHB64R6REG : TailCallReg<JR_HB64_R6, GPR64Opnd>,
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ISA_MIPS64R6;
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def PseudoIndrectHazardBranch64R6 : PseudoIndirectBranchBase<JR_HB64_R6,
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GPR64Opnd>,
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ISA_MIPS64R6;
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}
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