/*===- TableGen'erated file -------------------------------------*- C++ -*-===*\ |* *| |* Assembly Matcher Source Fragment *| |* *| |* Automatically generated file, do not edit! *| |* *| \*===----------------------------------------------------------------------===*/ #ifdef GET_ASSEMBLER_HEADER #undef GET_ASSEMBLER_HEADER // This should be included into the middle of the declaration of // your subclasses implementation of MCTargetAsmParser. FeatureBitset ComputeAvailableFeatures(const FeatureBitset& FB) const; void convertToMCInst(unsigned Kind, MCInst &Inst, unsigned Opcode, const OperandVector &Operands); void convertToMapAndConstraints(unsigned Kind, const OperandVector &Operands) override; unsigned MatchInstructionImpl(const OperandVector &Operands, MCInst &Inst, uint64_t &ErrorInfo, FeatureBitset &MissingFeatures, bool matchingInlineAsm, unsigned VariantID = 0); unsigned MatchInstructionImpl(const OperandVector &Operands, MCInst &Inst, uint64_t &ErrorInfo, bool matchingInlineAsm, unsigned VariantID = 0) { FeatureBitset MissingFeatures; return MatchInstructionImpl(Operands, Inst, ErrorInfo, MissingFeatures, matchingInlineAsm, VariantID); } OperandMatchResultTy MatchOperandParserImpl( OperandVector &Operands, StringRef Mnemonic, bool ParseForAllFeatures = false); OperandMatchResultTy tryCustomParseOperand( OperandVector &Operands, unsigned MCK); #endif // GET_ASSEMBLER_HEADER_INFO #ifdef GET_OPERAND_DIAGNOSTIC_TYPES #undef GET_OPERAND_DIAGNOSTIC_TYPES Match_InvalidBareSymbol, Match_InvalidCLUIImm, Match_InvalidCSRSystemRegister, Match_InvalidCallSymbol, Match_InvalidFRMArg, Match_InvalidFenceArg, Match_InvalidImmXLenLI, Match_InvalidImmZero, Match_InvalidSImm10Lsb0000NonZero, Match_InvalidSImm12, Match_InvalidSImm12Lsb0, Match_InvalidSImm13Lsb0, Match_InvalidSImm21Lsb0JAL, Match_InvalidSImm6, Match_InvalidSImm6NonZero, Match_InvalidSImm9Lsb0, Match_InvalidTPRelAddSymbol, Match_InvalidUImm10Lsb00NonZero, Match_InvalidUImm20AUIPC, Match_InvalidUImm20LUI, Match_InvalidUImm5, Match_InvalidUImm7Lsb00, Match_InvalidUImm8Lsb00, Match_InvalidUImm8Lsb000, Match_InvalidUImm9Lsb000, Match_InvalidUImmLog2XLen, Match_InvalidUImmLog2XLenNonZero, END_OPERAND_DIAGNOSTIC_TYPES #endif // GET_OPERAND_DIAGNOSTIC_TYPES #ifdef GET_REGISTER_MATCHER #undef GET_REGISTER_MATCHER // Bits for subtarget features that participate in instruction matching. enum SubtargetFeatureBits : uint8_t { Feature_HasStdExtMBit = 5, Feature_HasStdExtABit = 1, Feature_HasStdExtFBit = 4, Feature_HasStdExtDBit = 3, Feature_HasStdExtCBit = 2, Feature_HasRVCHintsBit = 0, Feature_IsRV64Bit = 8, Feature_IsRV32Bit = 6, Feature_IsRV32EBit = 7, }; static unsigned MatchRegisterName(StringRef Name) { switch (Name.size()) { default: break; case 2: // 30 strings to match. switch (Name[0]) { default: break; case 'f': // 20 strings to match. switch (Name[1]) { default: break; case '0': // 2 strings to match. return 33; // "f0" case '1': // 2 strings to match. return 34; // "f1" case '2': // 2 strings to match. return 35; // "f2" case '3': // 2 strings to match. return 36; // "f3" case '4': // 2 strings to match. return 37; // "f4" case '5': // 2 strings to match. return 38; // "f5" case '6': // 2 strings to match. return 39; // "f6" case '7': // 2 strings to match. return 40; // "f7" case '8': // 2 strings to match. return 41; // "f8" case '9': // 2 strings to match. return 42; // "f9" } break; case 'x': // 10 strings to match. switch (Name[1]) { default: break; case '0': // 1 string to match. return 1; // "x0" case '1': // 1 string to match. return 2; // "x1" case '2': // 1 string to match. return 3; // "x2" case '3': // 1 string to match. return 4; // "x3" case '4': // 1 string to match. return 5; // "x4" case '5': // 1 string to match. return 6; // "x5" case '6': // 1 string to match. return 7; // "x6" case '7': // 1 string to match. return 8; // "x7" case '8': // 1 string to match. return 9; // "x8" case '9': // 1 string to match. return 10; // "x9" } break; } break; case 3: // 66 strings to match. switch (Name[0]) { default: break; case 'f': // 44 strings to match. switch (Name[1]) { default: break; case '1': // 20 strings to match. switch (Name[2]) { default: break; case '0': // 2 strings to match. return 43; // "f10" case '1': // 2 strings to match. return 44; // "f11" case '2': // 2 strings to match. return 45; // "f12" case '3': // 2 strings to match. return 46; // "f13" case '4': // 2 strings to match. return 47; // "f14" case '5': // 2 strings to match. return 48; // "f15" case '6': // 2 strings to match. return 49; // "f16" case '7': // 2 strings to match. return 50; // "f17" case '8': // 2 strings to match. return 51; // "f18" case '9': // 2 strings to match. return 52; // "f19" } break; case '2': // 20 strings to match. switch (Name[2]) { default: break; case '0': // 2 strings to match. return 53; // "f20" case '1': // 2 strings to match. return 54; // "f21" case '2': // 2 strings to match. return 55; // "f22" case '3': // 2 strings to match. return 56; // "f23" case '4': // 2 strings to match. return 57; // "f24" case '5': // 2 strings to match. return 58; // "f25" case '6': // 2 strings to match. return 59; // "f26" case '7': // 2 strings to match. return 60; // "f27" case '8': // 2 strings to match. return 61; // "f28" case '9': // 2 strings to match. return 62; // "f29" } break; case '3': // 4 strings to match. switch (Name[2]) { default: break; case '0': // 2 strings to match. return 63; // "f30" case '1': // 2 strings to match. return 64; // "f31" } break; } break; case 'x': // 22 strings to match. switch (Name[1]) { default: break; case '1': // 10 strings to match. switch (Name[2]) { default: break; case '0': // 1 string to match. return 11; // "x10" case '1': // 1 string to match. return 12; // "x11" case '2': // 1 string to match. return 13; // "x12" case '3': // 1 string to match. return 14; // "x13" case '4': // 1 string to match. return 15; // "x14" case '5': // 1 string to match. return 16; // "x15" case '6': // 1 string to match. return 17; // "x16" case '7': // 1 string to match. return 18; // "x17" case '8': // 1 string to match. return 19; // "x18" case '9': // 1 string to match. return 20; // "x19" } break; case '2': // 10 strings to match. switch (Name[2]) { default: break; case '0': // 1 string to match. return 21; // "x20" case '1': // 1 string to match. return 22; // "x21" case '2': // 1 string to match. return 23; // "x22" case '3': // 1 string to match. return 24; // "x23" case '4': // 1 string to match. return 25; // "x24" case '5': // 1 string to match. return 26; // "x25" case '6': // 1 string to match. return 27; // "x26" case '7': // 1 string to match. return 28; // "x27" case '8': // 1 string to match. return 29; // "x28" case '9': // 1 string to match. return 30; // "x29" } break; case '3': // 2 strings to match. switch (Name[2]) { default: break; case '0': // 1 string to match. return 31; // "x30" case '1': // 1 string to match. return 32; // "x31" } break; } break; } break; } return 0; } static unsigned MatchRegisterAltName(StringRef Name) { switch (Name.size()) { default: break; case 2: // 30 strings to match. switch (Name[0]) { default: break; case 'a': // 8 strings to match. switch (Name[1]) { default: break; case '0': // 1 string to match. return 11; // "a0" case '1': // 1 string to match. return 12; // "a1" case '2': // 1 string to match. return 13; // "a2" case '3': // 1 string to match. return 14; // "a3" case '4': // 1 string to match. return 15; // "a4" case '5': // 1 string to match. return 16; // "a5" case '6': // 1 string to match. return 17; // "a6" case '7': // 1 string to match. return 18; // "a7" } break; case 'f': // 1 string to match. if (Name[1] != 'p') break; return 9; // "fp" case 'g': // 1 string to match. if (Name[1] != 'p') break; return 4; // "gp" case 'r': // 1 string to match. if (Name[1] != 'a') break; return 2; // "ra" case 's': // 11 strings to match. switch (Name[1]) { default: break; case '0': // 1 string to match. return 9; // "s0" case '1': // 1 string to match. return 10; // "s1" case '2': // 1 string to match. return 19; // "s2" case '3': // 1 string to match. return 20; // "s3" case '4': // 1 string to match. return 21; // "s4" case '5': // 1 string to match. return 22; // "s5" case '6': // 1 string to match. return 23; // "s6" case '7': // 1 string to match. return 24; // "s7" case '8': // 1 string to match. return 25; // "s8" case '9': // 1 string to match. return 26; // "s9" case 'p': // 1 string to match. return 3; // "sp" } break; case 't': // 8 strings to match. switch (Name[1]) { default: break; case '0': // 1 string to match. return 6; // "t0" case '1': // 1 string to match. return 7; // "t1" case '2': // 1 string to match. return 8; // "t2" case '3': // 1 string to match. return 29; // "t3" case '4': // 1 string to match. return 30; // "t4" case '5': // 1 string to match. return 31; // "t5" case '6': // 1 string to match. return 32; // "t6" case 'p': // 1 string to match. return 5; // "tp" } break; } break; case 3: // 58 strings to match. switch (Name[0]) { default: break; case 'f': // 56 strings to match. switch (Name[1]) { default: break; case 'a': // 16 strings to match. switch (Name[2]) { default: break; case '0': // 2 strings to match. return 43; // "fa0" case '1': // 2 strings to match. return 44; // "fa1" case '2': // 2 strings to match. return 45; // "fa2" case '3': // 2 strings to match. return 46; // "fa3" case '4': // 2 strings to match. return 47; // "fa4" case '5': // 2 strings to match. return 48; // "fa5" case '6': // 2 strings to match. return 49; // "fa6" case '7': // 2 strings to match. return 50; // "fa7" } break; case 's': // 20 strings to match. switch (Name[2]) { default: break; case '0': // 2 strings to match. return 41; // "fs0" case '1': // 2 strings to match. return 42; // "fs1" case '2': // 2 strings to match. return 51; // "fs2" case '3': // 2 strings to match. return 52; // "fs3" case '4': // 2 strings to match. return 53; // "fs4" case '5': // 2 strings to match. return 54; // "fs5" case '6': // 2 strings to match. return 55; // "fs6" case '7': // 2 strings to match. return 56; // "fs7" case '8': // 2 strings to match. return 57; // "fs8" case '9': // 2 strings to match. return 58; // "fs9" } break; case 't': // 20 strings to match. switch (Name[2]) { default: break; case '0': // 2 strings to match. return 33; // "ft0" case '1': // 2 strings to match. return 34; // "ft1" case '2': // 2 strings to match. return 35; // "ft2" case '3': // 2 strings to match. return 36; // "ft3" case '4': // 2 strings to match. return 37; // "ft4" case '5': // 2 strings to match. return 38; // "ft5" case '6': // 2 strings to match. return 39; // "ft6" case '7': // 2 strings to match. return 40; // "ft7" case '8': // 2 strings to match. return 61; // "ft8" case '9': // 2 strings to match. return 62; // "ft9" } break; } break; case 's': // 2 strings to match. if (Name[1] != '1') break; switch (Name[2]) { default: break; case '0': // 1 string to match. return 27; // "s10" case '1': // 1 string to match. return 28; // "s11" } break; } break; case 4: // 9 strings to match. switch (Name[0]) { default: break; case 'f': // 8 strings to match. switch (Name[1]) { default: break; case 's': // 4 strings to match. if (Name[2] != '1') break; switch (Name[3]) { default: break; case '0': // 2 strings to match. return 59; // "fs10" case '1': // 2 strings to match. return 60; // "fs11" } break; case 't': // 4 strings to match. if (Name[2] != '1') break; switch (Name[3]) { default: break; case '0': // 2 strings to match. return 63; // "ft10" case '1': // 2 strings to match. return 64; // "ft11" } break; } break; case 'z': // 1 string to match. if (memcmp(Name.data()+1, "ero", 3) != 0) break; return 1; // "zero" } break; } return 0; } #endif // GET_REGISTER_MATCHER #ifdef GET_SUBTARGET_FEATURE_NAME #undef GET_SUBTARGET_FEATURE_NAME // User-level names for subtarget features that participate in // instruction matching. static const char *getSubtargetFeatureName(uint64_t Val) { switch(Val) { case Feature_HasStdExtMBit: return "'M' (Integer Multiplication and Division)"; case Feature_HasStdExtABit: return "'A' (Atomic Instructions)"; case Feature_HasStdExtFBit: return "'F' (Single-Precision Floating-Point)"; case Feature_HasStdExtDBit: return "'D' (Double-Precision Floating-Point)"; case Feature_HasStdExtCBit: return "'C' (Compressed Instructions)"; case Feature_HasRVCHintsBit: return "RVC Hint Instructions"; case Feature_IsRV64Bit: return "RV64I Base Instruction Set"; case Feature_IsRV32Bit: return "RV32I Base Instruction Set"; case Feature_IsRV32EBit: return ""; default: return "(unknown)"; } } #endif // GET_SUBTARGET_FEATURE_NAME #ifdef GET_MATCHER_IMPLEMENTATION #undef GET_MATCHER_IMPLEMENTATION static void applyMnemonicAliases(StringRef &Mnemonic, const FeatureBitset &Features, unsigned VariantID) { switch (VariantID) { case 0: switch (Mnemonic.size()) { default: break; case 4: // 1 string to match. if (memcmp(Mnemonic.data()+0, "move", 4) != 0) break; Mnemonic = "mv"; // "move" return; case 5: // 1 string to match. if (memcmp(Mnemonic.data()+0, "scall", 5) != 0) break; Mnemonic = "ecall"; // "scall" return; case 6: // 1 string to match. if (memcmp(Mnemonic.data()+0, "sbreak", 6) != 0) break; Mnemonic = "ebreak"; // "sbreak" return; case 7: // 2 strings to match. if (memcmp(Mnemonic.data()+0, "fmv.", 4) != 0) break; switch (Mnemonic[4]) { default: break; case 's': // 1 string to match. if (memcmp(Mnemonic.data()+5, ".x", 2) != 0) break; if (Features.test(Feature_HasStdExtFBit)) // "fmv.s.x" Mnemonic = "fmv.w.x"; return; case 'x': // 1 string to match. if (memcmp(Mnemonic.data()+5, ".s", 2) != 0) break; if (Features.test(Feature_HasStdExtFBit)) // "fmv.x.s" Mnemonic = "fmv.x.w"; return; } break; } break; } switch (Mnemonic.size()) { default: break; case 4: // 1 string to match. if (memcmp(Mnemonic.data()+0, "move", 4) != 0) break; Mnemonic = "mv"; // "move" return; case 5: // 1 string to match. if (memcmp(Mnemonic.data()+0, "scall", 5) != 0) break; Mnemonic = "ecall"; // "scall" return; case 6: // 1 string to match. if (memcmp(Mnemonic.data()+0, "sbreak", 6) != 0) break; Mnemonic = "ebreak"; // "sbreak" return; case 7: // 2 strings to match. if (memcmp(Mnemonic.data()+0, "fmv.", 4) != 0) break; switch (Mnemonic[4]) { default: break; case 's': // 1 string to match. if (memcmp(Mnemonic.data()+5, ".x", 2) != 0) break; if (Features.test(Feature_HasStdExtFBit)) // "fmv.s.x" Mnemonic = "fmv.w.x"; return; case 'x': // 1 string to match. if (memcmp(Mnemonic.data()+5, ".s", 2) != 0) break; if (Features.test(Feature_HasStdExtFBit)) // "fmv.x.s" Mnemonic = "fmv.x.w"; return; } break; } } enum { Tie0_1_1, }; static const uint8_t TiedAsmOperandTable[][3] = { /* Tie0_1_1 */ { 0, 1, 1 }, }; namespace { enum OperatorConversionKind { CVT_Done, CVT_Reg, CVT_Tied, CVT_95_Reg, CVT_95_addImmOperands, CVT_95_addRegOperands, CVT_regX0, CVT_imm_95_0, CVT_95_addCSRSystemRegisterOperands, CVT_imm_95_7, CVT_95_addFRMArgOperands, CVT_imm_95_15, CVT_95_addFenceArgOperands, CVT_imm_95_3, CVT_imm_95_1, CVT_imm_95_2, CVT_regX1, CVT_imm_95__MINUS_1, CVT_imm_95_3072, CVT_imm_95_3200, CVT_imm_95_3074, CVT_imm_95_3202, CVT_imm_95_3073, CVT_imm_95_3201, CVT_NUM_CONVERTERS }; enum InstructionConversionKind { Convert__Reg1_0__Reg1_1__Reg1_2, Convert__Reg1_0__Reg1_1__SImm121_2, Convert__Reg1_0__Reg1_1__Reg1_2__TPRelAddSymbol1_3, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, Convert__Reg1_0__UImm20AUIPC1_1, Convert__Reg1_0__Reg1_1__SImm13Lsb01_2, Convert__Reg1_0__regX0__SImm13Lsb01_1, Convert__Reg1_1__Reg1_0__SImm13Lsb01_2, Convert__regX0__Reg1_0__SImm13Lsb01_1, Convert__Reg1_0__Tie0_1_1__Reg1_1, Convert__Reg1_0__Tie0_1_1__ImmZero1_1, Convert__Reg1_0__Tie0_1_1__SImm6NonZero1_1, Convert__Reg1_0__Tie0_1_1__SImm10Lsb0000NonZero1_1, Convert__Reg1_0__Reg1_1__UImm10Lsb00NonZero1_2, Convert__Reg1_0__Tie0_1_1__SImm61_1, Convert__Reg1_0__SImm9Lsb01_1, Convert_NoOperands, Convert__Reg1_0__Reg1_2__imm_95_0, Convert__Reg1_0__Reg1_3__UImm8Lsb0001_1, Convert__Reg1_0__Reg1_3__UImm9Lsb0001_1, Convert__Reg1_0__Reg1_3__UImm7Lsb001_1, Convert__Reg1_0__Reg1_3__UImm8Lsb001_1, Convert__SImm12Lsb01_0, Convert__Reg1_0, Convert__Reg1_0__SImm61_1, Convert__Reg1_0__CLUIImm1_1, Convert__Reg1_0__Reg1_1, Convert__SImm6NonZero1_0, Convert__Reg1_0__Tie0_1_1__UImmLog2XLenNonZero1_1, Convert__Reg1_0__Tie0_1_1, Convert__CallSymbol1_0, Convert__Reg1_0__CallSymbol1_1, Convert__regX0__CSRSystemRegister1_0__Reg1_1, Convert__regX0__CSRSystemRegister1_0__UImm51_1, Convert__Reg1_0__CSRSystemRegister1_1__regX0, Convert__Reg1_0__CSRSystemRegister1_1__Reg1_2, Convert__Reg1_0__CSRSystemRegister1_1__UImm51_2, Convert__Reg1_0__Reg1_1__Reg1_1, Convert__Reg1_0__Reg1_1__Reg1_2__imm_95_7, Convert__Reg1_0__Reg1_1__Reg1_2__FRMArg1_3, Convert__Reg1_0__Reg1_1__imm_95_7, Convert__Reg1_0__Reg1_1__FRMArg1_2, Convert__imm_95_15__imm_95_15, Convert__FenceArg1_0__FenceArg1_1, Convert__Reg1_0__Reg1_2__Reg1_1, Convert__Reg1_0__Reg1_2__BareSymbol1_1, Convert__Reg1_0__Reg1_3__SImm121_1, Convert__Reg1_0__Reg1_1__Reg1_2__Reg1_3__imm_95_7, Convert__Reg1_0__Reg1_1__Reg1_2__Reg1_3__FRMArg1_4, Convert__Reg1_0__imm_95_3__regX0, Convert__Reg1_0__imm_95_1__regX0, Convert__Reg1_0__imm_95_2__regX0, Convert__regX0__imm_95_3__Reg1_0, Convert__Reg1_0__imm_95_3__Reg1_1, Convert__regX0__imm_95_1__Reg1_0, Convert__Reg1_0__imm_95_1__Reg1_1, Convert__regX0__imm_95_1__UImm51_0, Convert__Reg1_0__imm_95_1__UImm51_1, Convert__regX0__imm_95_2__Reg1_0, Convert__Reg1_0__imm_95_2__Reg1_1, Convert__regX0__imm_95_2__UImm51_0, Convert__Reg1_0__imm_95_2__UImm51_1, Convert__regX0__SImm21Lsb0JAL1_0, Convert__regX1__SImm21Lsb0JAL1_0, Convert__Reg1_0__SImm21Lsb0JAL1_1, Convert__regX1__Reg1_0__imm_95_0, Convert__Reg1_0__Reg1_1__imm_95_0, Convert__regX1__Reg1_0__SImm121_1, Convert__regX1__Reg1_2__SImm121_0, Convert__regX0__Reg1_0__imm_95_0, Convert__regX0__Reg1_0__SImm121_1, Convert__regX0__Reg1_2__SImm121_0, Convert__Reg1_0__BareSymbol1_1, Convert__Reg1_0__ImmXLenLI1_1, Convert__Reg1_0__AtomicMemOpOperand1_1, Convert__Reg1_0__UImm20LUI1_1, Convert__imm_95_0__imm_95_0, Convert__Reg1_0__regX0__Reg1_1, Convert__regX0__regX0__imm_95_0, Convert__Reg1_0__Reg1_1__imm_95__MINUS_1, Convert__Reg1_0__imm_95_3072__regX0, Convert__Reg1_0__imm_95_3200__regX0, Convert__Reg1_0__imm_95_3074__regX0, Convert__Reg1_0__imm_95_3202__regX0, Convert__Reg1_0__imm_95_3073__regX0, Convert__Reg1_0__imm_95_3201__regX0, Convert__regX0__regX1__imm_95_0, Convert__Reg1_0__Reg1_1__imm_95_1, Convert__regX0__regX0, Convert__Reg1_0__regX0, Convert__Reg1_0__Reg1_1__UImmLog2XLen1_2, Convert__Reg1_0__Reg1_1__UImm51_2, Convert__Reg1_0__Reg1_1__regX0, CVT_NUM_SIGNATURES }; } // end anonymous namespace static const uint8_t ConversionTable[CVT_NUM_SIGNATURES][11] = { // Convert__Reg1_0__Reg1_1__Reg1_2 { CVT_95_Reg, 1, CVT_95_Reg, 2, CVT_95_Reg, 3, CVT_Done }, // Convert__Reg1_0__Reg1_1__SImm121_2 { CVT_95_Reg, 1, CVT_95_Reg, 2, CVT_95_addImmOperands, 3, CVT_Done }, // Convert__Reg1_0__Reg1_1__Reg1_2__TPRelAddSymbol1_3 { CVT_95_Reg, 1, CVT_95_Reg, 2, CVT_95_Reg, 3, CVT_95_addImmOperands, 4, CVT_Done }, // Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1 { CVT_95_Reg, 1, CVT_95_addRegOperands, 3, CVT_95_Reg, 2, CVT_Done }, // Convert__Reg1_0__UImm20AUIPC1_1 { CVT_95_Reg, 1, CVT_95_addImmOperands, 2, CVT_Done }, // Convert__Reg1_0__Reg1_1__SImm13Lsb01_2 { CVT_95_Reg, 1, CVT_95_Reg, 2, CVT_95_addImmOperands, 3, CVT_Done }, // Convert__Reg1_0__regX0__SImm13Lsb01_1 { CVT_95_Reg, 1, CVT_regX0, 0, CVT_95_addImmOperands, 2, CVT_Done }, // Convert__Reg1_1__Reg1_0__SImm13Lsb01_2 { CVT_95_Reg, 2, CVT_95_Reg, 1, CVT_95_addImmOperands, 3, CVT_Done }, // Convert__regX0__Reg1_0__SImm13Lsb01_1 { CVT_regX0, 0, CVT_95_Reg, 1, CVT_95_addImmOperands, 2, CVT_Done }, // Convert__Reg1_0__Tie0_1_1__Reg1_1 { CVT_95_Reg, 1, CVT_Tied, Tie0_1_1, CVT_95_Reg, 2, CVT_Done }, // Convert__Reg1_0__Tie0_1_1__ImmZero1_1 { CVT_95_Reg, 1, CVT_Tied, Tie0_1_1, CVT_95_addImmOperands, 2, CVT_Done }, // Convert__Reg1_0__Tie0_1_1__SImm6NonZero1_1 { CVT_95_Reg, 1, CVT_Tied, Tie0_1_1, CVT_95_addImmOperands, 2, CVT_Done }, // Convert__Reg1_0__Tie0_1_1__SImm10Lsb0000NonZero1_1 { CVT_95_Reg, 1, CVT_Tied, Tie0_1_1, CVT_95_addImmOperands, 2, CVT_Done }, // Convert__Reg1_0__Reg1_1__UImm10Lsb00NonZero1_2 { CVT_95_Reg, 1, CVT_95_Reg, 2, CVT_95_addImmOperands, 3, CVT_Done }, // Convert__Reg1_0__Tie0_1_1__SImm61_1 { CVT_95_Reg, 1, CVT_Tied, Tie0_1_1, CVT_95_addImmOperands, 2, CVT_Done }, // Convert__Reg1_0__SImm9Lsb01_1 { CVT_95_Reg, 1, CVT_95_addImmOperands, 2, CVT_Done }, // Convert_NoOperands { CVT_Done }, // Convert__Reg1_0__Reg1_2__imm_95_0 { CVT_95_Reg, 1, CVT_95_Reg, 3, CVT_imm_95_0, 0, CVT_Done }, // Convert__Reg1_0__Reg1_3__UImm8Lsb0001_1 { CVT_95_Reg, 1, CVT_95_Reg, 4, CVT_95_addImmOperands, 2, CVT_Done }, // Convert__Reg1_0__Reg1_3__UImm9Lsb0001_1 { CVT_95_Reg, 1, CVT_95_Reg, 4, CVT_95_addImmOperands, 2, CVT_Done }, // Convert__Reg1_0__Reg1_3__UImm7Lsb001_1 { CVT_95_Reg, 1, CVT_95_Reg, 4, CVT_95_addImmOperands, 2, CVT_Done }, // Convert__Reg1_0__Reg1_3__UImm8Lsb001_1 { CVT_95_Reg, 1, CVT_95_Reg, 4, CVT_95_addImmOperands, 2, CVT_Done }, // Convert__SImm12Lsb01_0 { CVT_95_addImmOperands, 1, CVT_Done }, // Convert__Reg1_0 { CVT_95_Reg, 1, CVT_Done }, // Convert__Reg1_0__SImm61_1 { CVT_95_Reg, 1, CVT_95_addImmOperands, 2, CVT_Done }, // Convert__Reg1_0__CLUIImm1_1 { CVT_95_Reg, 1, CVT_95_addImmOperands, 2, CVT_Done }, // Convert__Reg1_0__Reg1_1 { CVT_95_Reg, 1, CVT_95_Reg, 2, CVT_Done }, // Convert__SImm6NonZero1_0 { CVT_95_addImmOperands, 1, CVT_Done }, // Convert__Reg1_0__Tie0_1_1__UImmLog2XLenNonZero1_1 { CVT_95_Reg, 1, CVT_Tied, Tie0_1_1, CVT_95_addImmOperands, 2, CVT_Done }, // Convert__Reg1_0__Tie0_1_1 { CVT_95_Reg, 1, CVT_Tied, Tie0_1_1, CVT_Done }, // Convert__CallSymbol1_0 { CVT_95_addImmOperands, 1, CVT_Done }, // Convert__Reg1_0__CallSymbol1_1 { CVT_95_Reg, 1, CVT_95_addImmOperands, 2, CVT_Done }, // Convert__regX0__CSRSystemRegister1_0__Reg1_1 { CVT_regX0, 0, CVT_95_addCSRSystemRegisterOperands, 1, CVT_95_Reg, 2, CVT_Done }, // Convert__regX0__CSRSystemRegister1_0__UImm51_1 { CVT_regX0, 0, CVT_95_addCSRSystemRegisterOperands, 1, CVT_95_addImmOperands, 2, CVT_Done }, // Convert__Reg1_0__CSRSystemRegister1_1__regX0 { CVT_95_Reg, 1, CVT_95_addCSRSystemRegisterOperands, 2, CVT_regX0, 0, CVT_Done }, // Convert__Reg1_0__CSRSystemRegister1_1__Reg1_2 { CVT_95_Reg, 1, CVT_95_addCSRSystemRegisterOperands, 2, CVT_95_Reg, 3, CVT_Done }, // Convert__Reg1_0__CSRSystemRegister1_1__UImm51_2 { CVT_95_Reg, 1, CVT_95_addCSRSystemRegisterOperands, 2, CVT_95_addImmOperands, 3, CVT_Done }, // Convert__Reg1_0__Reg1_1__Reg1_1 { CVT_95_Reg, 1, CVT_95_Reg, 2, CVT_95_Reg, 2, CVT_Done }, // Convert__Reg1_0__Reg1_1__Reg1_2__imm_95_7 { CVT_95_Reg, 1, CVT_95_Reg, 2, CVT_95_Reg, 3, CVT_imm_95_7, 0, CVT_Done }, // Convert__Reg1_0__Reg1_1__Reg1_2__FRMArg1_3 { CVT_95_Reg, 1, CVT_95_Reg, 2, CVT_95_Reg, 3, CVT_95_addFRMArgOperands, 4, CVT_Done }, // Convert__Reg1_0__Reg1_1__imm_95_7 { CVT_95_Reg, 1, CVT_95_Reg, 2, CVT_imm_95_7, 0, CVT_Done }, // Convert__Reg1_0__Reg1_1__FRMArg1_2 { CVT_95_Reg, 1, CVT_95_Reg, 2, CVT_95_addFRMArgOperands, 3, CVT_Done }, // Convert__imm_95_15__imm_95_15 { CVT_imm_95_15, 0, CVT_imm_95_15, 0, CVT_Done }, // Convert__FenceArg1_0__FenceArg1_1 { CVT_95_addFenceArgOperands, 1, CVT_95_addFenceArgOperands, 2, CVT_Done }, // Convert__Reg1_0__Reg1_2__Reg1_1 { CVT_95_Reg, 1, CVT_95_Reg, 3, CVT_95_Reg, 2, CVT_Done }, // Convert__Reg1_0__Reg1_2__BareSymbol1_1 { CVT_95_Reg, 1, CVT_95_Reg, 3, CVT_95_addImmOperands, 2, CVT_Done }, // Convert__Reg1_0__Reg1_3__SImm121_1 { CVT_95_Reg, 1, CVT_95_Reg, 4, CVT_95_addImmOperands, 2, CVT_Done }, // Convert__Reg1_0__Reg1_1__Reg1_2__Reg1_3__imm_95_7 { CVT_95_Reg, 1, CVT_95_Reg, 2, CVT_95_Reg, 3, CVT_95_Reg, 4, CVT_imm_95_7, 0, CVT_Done }, // Convert__Reg1_0__Reg1_1__Reg1_2__Reg1_3__FRMArg1_4 { CVT_95_Reg, 1, CVT_95_Reg, 2, CVT_95_Reg, 3, CVT_95_Reg, 4, CVT_95_addFRMArgOperands, 5, CVT_Done }, // Convert__Reg1_0__imm_95_3__regX0 { CVT_95_Reg, 1, CVT_imm_95_3, 0, CVT_regX0, 0, CVT_Done }, // Convert__Reg1_0__imm_95_1__regX0 { CVT_95_Reg, 1, CVT_imm_95_1, 0, CVT_regX0, 0, CVT_Done }, // Convert__Reg1_0__imm_95_2__regX0 { CVT_95_Reg, 1, CVT_imm_95_2, 0, CVT_regX0, 0, CVT_Done }, // Convert__regX0__imm_95_3__Reg1_0 { CVT_regX0, 0, CVT_imm_95_3, 0, CVT_95_Reg, 1, CVT_Done }, // Convert__Reg1_0__imm_95_3__Reg1_1 { CVT_95_Reg, 1, CVT_imm_95_3, 0, CVT_95_Reg, 2, CVT_Done }, // Convert__regX0__imm_95_1__Reg1_0 { CVT_regX0, 0, CVT_imm_95_1, 0, CVT_95_Reg, 1, CVT_Done }, // Convert__Reg1_0__imm_95_1__Reg1_1 { CVT_95_Reg, 1, CVT_imm_95_1, 0, CVT_95_Reg, 2, CVT_Done }, // Convert__regX0__imm_95_1__UImm51_0 { CVT_regX0, 0, CVT_imm_95_1, 0, CVT_95_addImmOperands, 1, CVT_Done }, // Convert__Reg1_0__imm_95_1__UImm51_1 { CVT_95_Reg, 1, CVT_imm_95_1, 0, CVT_95_addImmOperands, 2, CVT_Done }, // Convert__regX0__imm_95_2__Reg1_0 { CVT_regX0, 0, CVT_imm_95_2, 0, CVT_95_Reg, 1, CVT_Done }, // Convert__Reg1_0__imm_95_2__Reg1_1 { CVT_95_Reg, 1, CVT_imm_95_2, 0, CVT_95_Reg, 2, CVT_Done }, // Convert__regX0__imm_95_2__UImm51_0 { CVT_regX0, 0, CVT_imm_95_2, 0, CVT_95_addImmOperands, 1, CVT_Done }, // Convert__Reg1_0__imm_95_2__UImm51_1 { CVT_95_Reg, 1, CVT_imm_95_2, 0, CVT_95_addImmOperands, 2, CVT_Done }, // Convert__regX0__SImm21Lsb0JAL1_0 { CVT_regX0, 0, CVT_95_addImmOperands, 1, CVT_Done }, // Convert__regX1__SImm21Lsb0JAL1_0 { CVT_regX1, 0, CVT_95_addImmOperands, 1, CVT_Done }, // Convert__Reg1_0__SImm21Lsb0JAL1_1 { CVT_95_Reg, 1, CVT_95_addImmOperands, 2, CVT_Done }, // Convert__regX1__Reg1_0__imm_95_0 { CVT_regX1, 0, CVT_95_Reg, 1, CVT_imm_95_0, 0, CVT_Done }, // Convert__Reg1_0__Reg1_1__imm_95_0 { CVT_95_Reg, 1, CVT_95_Reg, 2, CVT_imm_95_0, 0, CVT_Done }, // Convert__regX1__Reg1_0__SImm121_1 { CVT_regX1, 0, CVT_95_Reg, 1, CVT_95_addImmOperands, 2, CVT_Done }, // Convert__regX1__Reg1_2__SImm121_0 { CVT_regX1, 0, CVT_95_Reg, 3, CVT_95_addImmOperands, 1, CVT_Done }, // Convert__regX0__Reg1_0__imm_95_0 { CVT_regX0, 0, CVT_95_Reg, 1, CVT_imm_95_0, 0, CVT_Done }, // Convert__regX0__Reg1_0__SImm121_1 { CVT_regX0, 0, CVT_95_Reg, 1, CVT_95_addImmOperands, 2, CVT_Done }, // Convert__regX0__Reg1_2__SImm121_0 { CVT_regX0, 0, CVT_95_Reg, 3, CVT_95_addImmOperands, 1, CVT_Done }, // Convert__Reg1_0__BareSymbol1_1 { CVT_95_Reg, 1, CVT_95_addImmOperands, 2, CVT_Done }, // Convert__Reg1_0__ImmXLenLI1_1 { CVT_95_Reg, 1, CVT_95_addImmOperands, 2, CVT_Done }, // Convert__Reg1_0__AtomicMemOpOperand1_1 { CVT_95_Reg, 1, CVT_95_addRegOperands, 2, CVT_Done }, // Convert__Reg1_0__UImm20LUI1_1 { CVT_95_Reg, 1, CVT_95_addImmOperands, 2, CVT_Done }, // Convert__imm_95_0__imm_95_0 { CVT_imm_95_0, 0, CVT_imm_95_0, 0, CVT_Done }, // Convert__Reg1_0__regX0__Reg1_1 { CVT_95_Reg, 1, CVT_regX0, 0, CVT_95_Reg, 2, CVT_Done }, // Convert__regX0__regX0__imm_95_0 { CVT_regX0, 0, CVT_regX0, 0, CVT_imm_95_0, 0, CVT_Done }, // Convert__Reg1_0__Reg1_1__imm_95__MINUS_1 { CVT_95_Reg, 1, CVT_95_Reg, 2, CVT_imm_95__MINUS_1, 0, CVT_Done }, // Convert__Reg1_0__imm_95_3072__regX0 { CVT_95_Reg, 1, CVT_imm_95_3072, 0, CVT_regX0, 0, CVT_Done }, // Convert__Reg1_0__imm_95_3200__regX0 { CVT_95_Reg, 1, CVT_imm_95_3200, 0, CVT_regX0, 0, CVT_Done }, // Convert__Reg1_0__imm_95_3074__regX0 { CVT_95_Reg, 1, CVT_imm_95_3074, 0, CVT_regX0, 0, CVT_Done }, // Convert__Reg1_0__imm_95_3202__regX0 { CVT_95_Reg, 1, CVT_imm_95_3202, 0, CVT_regX0, 0, CVT_Done }, // Convert__Reg1_0__imm_95_3073__regX0 { CVT_95_Reg, 1, CVT_imm_95_3073, 0, CVT_regX0, 0, CVT_Done }, // Convert__Reg1_0__imm_95_3201__regX0 { CVT_95_Reg, 1, CVT_imm_95_3201, 0, CVT_regX0, 0, CVT_Done }, // Convert__regX0__regX1__imm_95_0 { CVT_regX0, 0, CVT_regX1, 0, CVT_imm_95_0, 0, CVT_Done }, // Convert__Reg1_0__Reg1_1__imm_95_1 { CVT_95_Reg, 1, CVT_95_Reg, 2, CVT_imm_95_1, 0, CVT_Done }, // Convert__regX0__regX0 { CVT_regX0, 0, CVT_regX0, 0, CVT_Done }, // Convert__Reg1_0__regX0 { CVT_95_Reg, 1, CVT_regX0, 0, CVT_Done }, // Convert__Reg1_0__Reg1_1__UImmLog2XLen1_2 { CVT_95_Reg, 1, CVT_95_Reg, 2, CVT_95_addImmOperands, 3, CVT_Done }, // Convert__Reg1_0__Reg1_1__UImm51_2 { CVT_95_Reg, 1, CVT_95_Reg, 2, CVT_95_addImmOperands, 3, CVT_Done }, // Convert__Reg1_0__Reg1_1__regX0 { CVT_95_Reg, 1, CVT_95_Reg, 2, CVT_regX0, 0, CVT_Done }, }; void RISCVAsmParser:: convertToMCInst(unsigned Kind, MCInst &Inst, unsigned Opcode, const OperandVector &Operands) { assert(Kind < CVT_NUM_SIGNATURES && "Invalid signature!"); const uint8_t *Converter = ConversionTable[Kind]; unsigned OpIdx; Inst.setOpcode(Opcode); for (const uint8_t *p = Converter; *p; p+= 2) { OpIdx = *(p + 1); switch (*p) { default: llvm_unreachable("invalid conversion entry!"); case CVT_Reg: static_cast(*Operands[OpIdx]).addRegOperands(Inst, 1); break; case CVT_Tied: { assert(OpIdx < (size_t)(std::end(TiedAsmOperandTable) - std::begin(TiedAsmOperandTable)) && "Tied operand not found"); unsigned TiedResOpnd = TiedAsmOperandTable[OpIdx][0]; if (TiedResOpnd != (uint8_t) -1) Inst.addOperand(Inst.getOperand(TiedResOpnd)); break; } case CVT_95_Reg: static_cast(*Operands[OpIdx]).addRegOperands(Inst, 1); break; case CVT_95_addImmOperands: static_cast(*Operands[OpIdx]).addImmOperands(Inst, 1); break; case CVT_95_addRegOperands: static_cast(*Operands[OpIdx]).addRegOperands(Inst, 1); break; case CVT_regX0: Inst.addOperand(MCOperand::createReg(RISCV::X0)); break; case CVT_imm_95_0: Inst.addOperand(MCOperand::createImm(0)); break; case CVT_95_addCSRSystemRegisterOperands: static_cast(*Operands[OpIdx]).addCSRSystemRegisterOperands(Inst, 1); break; case CVT_imm_95_7: Inst.addOperand(MCOperand::createImm(7)); break; case CVT_95_addFRMArgOperands: static_cast(*Operands[OpIdx]).addFRMArgOperands(Inst, 1); break; case CVT_imm_95_15: Inst.addOperand(MCOperand::createImm(15)); break; case CVT_95_addFenceArgOperands: static_cast(*Operands[OpIdx]).addFenceArgOperands(Inst, 1); break; case CVT_imm_95_3: Inst.addOperand(MCOperand::createImm(3)); break; case CVT_imm_95_1: Inst.addOperand(MCOperand::createImm(1)); break; case CVT_imm_95_2: Inst.addOperand(MCOperand::createImm(2)); break; case CVT_regX1: Inst.addOperand(MCOperand::createReg(RISCV::X1)); break; case CVT_imm_95__MINUS_1: Inst.addOperand(MCOperand::createImm(-1)); break; case CVT_imm_95_3072: Inst.addOperand(MCOperand::createImm(3072)); break; case CVT_imm_95_3200: Inst.addOperand(MCOperand::createImm(3200)); break; case CVT_imm_95_3074: Inst.addOperand(MCOperand::createImm(3074)); break; case CVT_imm_95_3202: Inst.addOperand(MCOperand::createImm(3202)); break; case CVT_imm_95_3073: Inst.addOperand(MCOperand::createImm(3073)); break; case CVT_imm_95_3201: Inst.addOperand(MCOperand::createImm(3201)); break; } } } void RISCVAsmParser:: convertToMapAndConstraints(unsigned Kind, const OperandVector &Operands) { assert(Kind < CVT_NUM_SIGNATURES && "Invalid signature!"); unsigned NumMCOperands = 0; const uint8_t *Converter = ConversionTable[Kind]; for (const uint8_t *p = Converter; *p; p+= 2) { switch (*p) { default: llvm_unreachable("invalid conversion entry!"); case CVT_Reg: Operands[*(p + 1)]->setMCOperandNum(NumMCOperands); Operands[*(p + 1)]->setConstraint("r"); ++NumMCOperands; break; case CVT_Tied: ++NumMCOperands; break; case CVT_95_Reg: Operands[*(p + 1)]->setMCOperandNum(NumMCOperands); Operands[*(p + 1)]->setConstraint("r"); NumMCOperands += 1; break; case CVT_95_addImmOperands: Operands[*(p + 1)]->setMCOperandNum(NumMCOperands); Operands[*(p + 1)]->setConstraint("m"); NumMCOperands += 1; break; case CVT_95_addRegOperands: Operands[*(p + 1)]->setMCOperandNum(NumMCOperands); Operands[*(p + 1)]->setConstraint("m"); NumMCOperands += 1; break; case CVT_regX0: Operands[*(p + 1)]->setMCOperandNum(NumMCOperands); Operands[*(p + 1)]->setConstraint("m"); ++NumMCOperands; break; case CVT_imm_95_0: Operands[*(p + 1)]->setMCOperandNum(NumMCOperands); Operands[*(p + 1)]->setConstraint(""); ++NumMCOperands; break; case CVT_95_addCSRSystemRegisterOperands: Operands[*(p + 1)]->setMCOperandNum(NumMCOperands); Operands[*(p + 1)]->setConstraint("m"); NumMCOperands += 1; break; case CVT_imm_95_7: Operands[*(p + 1)]->setMCOperandNum(NumMCOperands); Operands[*(p + 1)]->setConstraint(""); ++NumMCOperands; break; case CVT_95_addFRMArgOperands: Operands[*(p + 1)]->setMCOperandNum(NumMCOperands); Operands[*(p + 1)]->setConstraint("m"); NumMCOperands += 1; break; case CVT_imm_95_15: Operands[*(p + 1)]->setMCOperandNum(NumMCOperands); Operands[*(p + 1)]->setConstraint(""); ++NumMCOperands; break; case CVT_95_addFenceArgOperands: Operands[*(p + 1)]->setMCOperandNum(NumMCOperands); Operands[*(p + 1)]->setConstraint("m"); NumMCOperands += 1; break; case CVT_imm_95_3: Operands[*(p + 1)]->setMCOperandNum(NumMCOperands); Operands[*(p + 1)]->setConstraint(""); ++NumMCOperands; break; case CVT_imm_95_1: Operands[*(p + 1)]->setMCOperandNum(NumMCOperands); Operands[*(p + 1)]->setConstraint(""); ++NumMCOperands; break; case CVT_imm_95_2: Operands[*(p + 1)]->setMCOperandNum(NumMCOperands); Operands[*(p + 1)]->setConstraint(""); ++NumMCOperands; break; case CVT_regX1: Operands[*(p + 1)]->setMCOperandNum(NumMCOperands); Operands[*(p + 1)]->setConstraint("m"); ++NumMCOperands; break; case CVT_imm_95__MINUS_1: Operands[*(p + 1)]->setMCOperandNum(NumMCOperands); Operands[*(p + 1)]->setConstraint(""); ++NumMCOperands; break; case CVT_imm_95_3072: Operands[*(p + 1)]->setMCOperandNum(NumMCOperands); Operands[*(p + 1)]->setConstraint(""); ++NumMCOperands; break; case CVT_imm_95_3200: Operands[*(p + 1)]->setMCOperandNum(NumMCOperands); Operands[*(p + 1)]->setConstraint(""); ++NumMCOperands; break; case CVT_imm_95_3074: Operands[*(p + 1)]->setMCOperandNum(NumMCOperands); Operands[*(p + 1)]->setConstraint(""); ++NumMCOperands; break; case CVT_imm_95_3202: Operands[*(p + 1)]->setMCOperandNum(NumMCOperands); Operands[*(p + 1)]->setConstraint(""); ++NumMCOperands; break; case CVT_imm_95_3073: Operands[*(p + 1)]->setMCOperandNum(NumMCOperands); Operands[*(p + 1)]->setConstraint(""); ++NumMCOperands; break; case CVT_imm_95_3201: Operands[*(p + 1)]->setMCOperandNum(NumMCOperands); Operands[*(p + 1)]->setConstraint(""); ++NumMCOperands; break; } } } namespace { /// MatchClassKind - The kinds of classes which participate in /// instruction matching. enum MatchClassKind { InvalidMatchClass = 0, OptionalMatchClass = 1, MCK__40_, // '(' MCK__41_, // ')' MCK_LAST_TOKEN = MCK__41_, MCK_GPRX0, // register class 'GPRX0' MCK_SP, // register class 'SP' MCK_Reg7, // derived register class MCK_FPR32C, // register class 'FPR32C' MCK_FPR64C, // register class 'FPR64C' MCK_GPRC, // register class 'GPRC' MCK_GPRTC, // register class 'GPRTC' MCK_GPRNoX0X2, // register class 'GPRNoX0X2' MCK_GPRNoX0, // register class 'GPRNoX0' MCK_FPR32, // register class 'FPR32' MCK_FPR64, // register class 'FPR64' MCK_GPR, // register class 'GPR' MCK_LAST_REGISTER = MCK_GPR, MCK_AtomicMemOpOperand, // user defined class 'AtomicMemOpOperand' MCK_BareSymbol, // user defined class 'BareSymbol' MCK_CLUIImm, // user defined class 'CLUIImmAsmOperand' MCK_CSRSystemRegister, // user defined class 'CSRSystemRegister' MCK_CallSymbol, // user defined class 'CallSymbol' MCK_FRMArg, // user defined class 'FRMArg' MCK_FenceArg, // user defined class 'FenceArg' MCK_Imm, // user defined class 'ImmAsmOperand' MCK_ImmZero, // user defined class 'ImmZeroAsmOperand' MCK_SImm21Lsb0JAL, // user defined class 'Simm21Lsb0JALAsmOperand' MCK_TPRelAddSymbol, // user defined class 'TPRelAddSymbol' MCK_UImmLog2XLen, // user defined class 'UImmLog2XLenAsmOperand' MCK_UImmLog2XLenNonZero, // user defined class 'UImmLog2XLenNonZeroAsmOperand' MCK_UImm5, // user defined class 'anonymous_2450' MCK_SImm12, // user defined class 'anonymous_2451' MCK_SImm13Lsb0, // user defined class 'anonymous_2452' MCK_UImm20LUI, // user defined class 'anonymous_2453' MCK_UImm20AUIPC, // user defined class 'anonymous_2454' MCK_ImmXLenLI, // user defined class 'anonymous_2455' MCK_SImm6, // user defined class 'anonymous_3109' MCK_SImm6NonZero, // user defined class 'anonymous_3110' MCK_UImm7Lsb00, // user defined class 'anonymous_3111' MCK_UImm8Lsb00, // user defined class 'anonymous_3112' MCK_UImm8Lsb000, // user defined class 'anonymous_3113' MCK_SImm9Lsb0, // user defined class 'anonymous_3114' MCK_UImm9Lsb000, // user defined class 'anonymous_3115' MCK_UImm10Lsb00NonZero, // user defined class 'anonymous_3116' MCK_SImm10Lsb0000NonZero, // user defined class 'anonymous_3117' MCK_SImm12Lsb0, // user defined class 'anonymous_3118' NumMatchClassKinds }; } // end anonymous namespace static unsigned getDiagKindFromRegisterClass(MatchClassKind RegisterClass) { return MCTargetAsmParser::Match_InvalidOperand; } static MatchClassKind matchTokenString(StringRef Name) { switch (Name.size()) { default: break; case 1: // 2 strings to match. switch (Name[0]) { default: break; case '(': // 1 string to match. return MCK__40_; // "(" case ')': // 1 string to match. return MCK__41_; // ")" } break; } return InvalidMatchClass; } /// isSubclass - Compute whether \p A is a subclass of \p B. static bool isSubclass(MatchClassKind A, MatchClassKind B) { if (A == B) return true; switch (A) { default: return false; case MCK_GPRX0: return B == MCK_GPR; case MCK_SP: switch (B) { default: return false; case MCK_GPRNoX0: return true; case MCK_GPR: return true; } case MCK_Reg7: switch (B) { default: return false; case MCK_GPRC: return true; case MCK_GPRTC: return true; case MCK_GPRNoX0X2: return true; case MCK_GPRNoX0: return true; case MCK_GPR: return true; } case MCK_FPR32C: return B == MCK_FPR32; case MCK_FPR64C: return B == MCK_FPR64; case MCK_GPRC: switch (B) { default: return false; case MCK_GPRNoX0X2: return true; case MCK_GPRNoX0: return true; case MCK_GPR: return true; } case MCK_GPRTC: switch (B) { default: return false; case MCK_GPRNoX0X2: return true; case MCK_GPRNoX0: return true; case MCK_GPR: return true; } case MCK_GPRNoX0X2: switch (B) { default: return false; case MCK_GPRNoX0: return true; case MCK_GPR: return true; } case MCK_GPRNoX0: return B == MCK_GPR; } } static unsigned validateOperandClass(MCParsedAsmOperand &GOp, MatchClassKind Kind) { RISCVOperand &Operand = (RISCVOperand&)GOp; if (Kind == InvalidMatchClass) return MCTargetAsmParser::Match_InvalidOperand; if (Operand.isToken() && Kind <= MCK_LAST_TOKEN) return isSubclass(matchTokenString(Operand.getToken()), Kind) ? MCTargetAsmParser::Match_Success : MCTargetAsmParser::Match_InvalidOperand; switch (Kind) { default: break; // 'AtomicMemOpOperand' class case MCK_AtomicMemOpOperand: { DiagnosticPredicate DP(Operand.isGPR()); if (DP.isMatch()) return MCTargetAsmParser::Match_Success; break; } // 'BareSymbol' class case MCK_BareSymbol: { DiagnosticPredicate DP(Operand.isBareSymbol()); if (DP.isMatch()) return MCTargetAsmParser::Match_Success; if (DP.isNearMatch()) return RISCVAsmParser::Match_InvalidBareSymbol; break; } // 'CLUIImm' class case MCK_CLUIImm: { DiagnosticPredicate DP(Operand.isCLUIImm()); if (DP.isMatch()) return MCTargetAsmParser::Match_Success; if (DP.isNearMatch()) return RISCVAsmParser::Match_InvalidCLUIImm; break; } // 'CSRSystemRegister' class case MCK_CSRSystemRegister: { DiagnosticPredicate DP(Operand.isCSRSystemRegister()); if (DP.isMatch()) return MCTargetAsmParser::Match_Success; if (DP.isNearMatch()) return RISCVAsmParser::Match_InvalidCSRSystemRegister; break; } // 'CallSymbol' class case MCK_CallSymbol: { DiagnosticPredicate DP(Operand.isCallSymbol()); if (DP.isMatch()) return MCTargetAsmParser::Match_Success; if (DP.isNearMatch()) return RISCVAsmParser::Match_InvalidCallSymbol; break; } // 'FRMArg' class case MCK_FRMArg: { DiagnosticPredicate DP(Operand.isFRMArg()); if (DP.isMatch()) return MCTargetAsmParser::Match_Success; if (DP.isNearMatch()) return RISCVAsmParser::Match_InvalidFRMArg; break; } // 'FenceArg' class case MCK_FenceArg: { DiagnosticPredicate DP(Operand.isFenceArg()); if (DP.isMatch()) return MCTargetAsmParser::Match_Success; if (DP.isNearMatch()) return RISCVAsmParser::Match_InvalidFenceArg; break; } // 'Imm' class case MCK_Imm: { DiagnosticPredicate DP(Operand.isImm()); if (DP.isMatch()) return MCTargetAsmParser::Match_Success; break; } // 'ImmZero' class case MCK_ImmZero: { DiagnosticPredicate DP(Operand.isImmZero()); if (DP.isMatch()) return MCTargetAsmParser::Match_Success; if (DP.isNearMatch()) return RISCVAsmParser::Match_InvalidImmZero; break; } // 'SImm21Lsb0JAL' class case MCK_SImm21Lsb0JAL: { DiagnosticPredicate DP(Operand.isSImm21Lsb0JAL()); if (DP.isMatch()) return MCTargetAsmParser::Match_Success; if (DP.isNearMatch()) return RISCVAsmParser::Match_InvalidSImm21Lsb0JAL; break; } // 'TPRelAddSymbol' class case MCK_TPRelAddSymbol: { DiagnosticPredicate DP(Operand.isTPRelAddSymbol()); if (DP.isMatch()) return MCTargetAsmParser::Match_Success; if (DP.isNearMatch()) return RISCVAsmParser::Match_InvalidTPRelAddSymbol; break; } // 'UImmLog2XLen' class case MCK_UImmLog2XLen: { DiagnosticPredicate DP(Operand.isUImmLog2XLen()); if (DP.isMatch()) return MCTargetAsmParser::Match_Success; if (DP.isNearMatch()) return RISCVAsmParser::Match_InvalidUImmLog2XLen; break; } // 'UImmLog2XLenNonZero' class case MCK_UImmLog2XLenNonZero: { DiagnosticPredicate DP(Operand.isUImmLog2XLenNonZero()); if (DP.isMatch()) return MCTargetAsmParser::Match_Success; if (DP.isNearMatch()) return RISCVAsmParser::Match_InvalidUImmLog2XLenNonZero; break; } // 'UImm5' class case MCK_UImm5: { DiagnosticPredicate DP(Operand.isUImm5()); if (DP.isMatch()) return MCTargetAsmParser::Match_Success; if (DP.isNearMatch()) return RISCVAsmParser::Match_InvalidUImm5; break; } // 'SImm12' class case MCK_SImm12: { DiagnosticPredicate DP(Operand.isSImm12()); if (DP.isMatch()) return MCTargetAsmParser::Match_Success; if (DP.isNearMatch()) return RISCVAsmParser::Match_InvalidSImm12; break; } // 'SImm13Lsb0' class case MCK_SImm13Lsb0: { DiagnosticPredicate DP(Operand.isSImm13Lsb0()); if (DP.isMatch()) return MCTargetAsmParser::Match_Success; if (DP.isNearMatch()) return RISCVAsmParser::Match_InvalidSImm13Lsb0; break; } // 'UImm20LUI' class case MCK_UImm20LUI: { DiagnosticPredicate DP(Operand.isUImm20LUI()); if (DP.isMatch()) return MCTargetAsmParser::Match_Success; if (DP.isNearMatch()) return RISCVAsmParser::Match_InvalidUImm20LUI; break; } // 'UImm20AUIPC' class case MCK_UImm20AUIPC: { DiagnosticPredicate DP(Operand.isUImm20AUIPC()); if (DP.isMatch()) return MCTargetAsmParser::Match_Success; if (DP.isNearMatch()) return RISCVAsmParser::Match_InvalidUImm20AUIPC; break; } // 'ImmXLenLI' class case MCK_ImmXLenLI: { DiagnosticPredicate DP(Operand.isImmXLenLI()); if (DP.isMatch()) return MCTargetAsmParser::Match_Success; if (DP.isNearMatch()) return RISCVAsmParser::Match_InvalidImmXLenLI; break; } // 'SImm6' class case MCK_SImm6: { DiagnosticPredicate DP(Operand.isSImm6()); if (DP.isMatch()) return MCTargetAsmParser::Match_Success; if (DP.isNearMatch()) return RISCVAsmParser::Match_InvalidSImm6; break; } // 'SImm6NonZero' class case MCK_SImm6NonZero: { DiagnosticPredicate DP(Operand.isSImm6NonZero()); if (DP.isMatch()) return MCTargetAsmParser::Match_Success; if (DP.isNearMatch()) return RISCVAsmParser::Match_InvalidSImm6NonZero; break; } // 'UImm7Lsb00' class case MCK_UImm7Lsb00: { DiagnosticPredicate DP(Operand.isUImm7Lsb00()); if (DP.isMatch()) return MCTargetAsmParser::Match_Success; if (DP.isNearMatch()) return RISCVAsmParser::Match_InvalidUImm7Lsb00; break; } // 'UImm8Lsb00' class case MCK_UImm8Lsb00: { DiagnosticPredicate DP(Operand.isUImm8Lsb00()); if (DP.isMatch()) return MCTargetAsmParser::Match_Success; if (DP.isNearMatch()) return RISCVAsmParser::Match_InvalidUImm8Lsb00; break; } // 'UImm8Lsb000' class case MCK_UImm8Lsb000: { DiagnosticPredicate DP(Operand.isUImm8Lsb000()); if (DP.isMatch()) return MCTargetAsmParser::Match_Success; if (DP.isNearMatch()) return RISCVAsmParser::Match_InvalidUImm8Lsb000; break; } // 'SImm9Lsb0' class case MCK_SImm9Lsb0: { DiagnosticPredicate DP(Operand.isSImm9Lsb0()); if (DP.isMatch()) return MCTargetAsmParser::Match_Success; if (DP.isNearMatch()) return RISCVAsmParser::Match_InvalidSImm9Lsb0; break; } // 'UImm9Lsb000' class case MCK_UImm9Lsb000: { DiagnosticPredicate DP(Operand.isUImm9Lsb000()); if (DP.isMatch()) return MCTargetAsmParser::Match_Success; if (DP.isNearMatch()) return RISCVAsmParser::Match_InvalidUImm9Lsb000; break; } // 'UImm10Lsb00NonZero' class case MCK_UImm10Lsb00NonZero: { DiagnosticPredicate DP(Operand.isUImm10Lsb00NonZero()); if (DP.isMatch()) return MCTargetAsmParser::Match_Success; if (DP.isNearMatch()) return RISCVAsmParser::Match_InvalidUImm10Lsb00NonZero; break; } // 'SImm10Lsb0000NonZero' class case MCK_SImm10Lsb0000NonZero: { DiagnosticPredicate DP(Operand.isSImm10Lsb0000NonZero()); if (DP.isMatch()) return MCTargetAsmParser::Match_Success; if (DP.isNearMatch()) return RISCVAsmParser::Match_InvalidSImm10Lsb0000NonZero; break; } // 'SImm12Lsb0' class case MCK_SImm12Lsb0: { DiagnosticPredicate DP(Operand.isSImm12Lsb0()); if (DP.isMatch()) return MCTargetAsmParser::Match_Success; if (DP.isNearMatch()) return RISCVAsmParser::Match_InvalidSImm12Lsb0; break; } } // end switch (Kind) if (Operand.isReg()) { MatchClassKind OpKind; switch (Operand.getReg()) { default: OpKind = InvalidMatchClass; break; case RISCV::X0: OpKind = MCK_GPRX0; break; case RISCV::X1: OpKind = MCK_GPRNoX0X2; break; case RISCV::X2: OpKind = MCK_SP; break; case RISCV::X3: OpKind = MCK_GPRNoX0X2; break; case RISCV::X4: OpKind = MCK_GPRNoX0X2; break; case RISCV::X5: OpKind = MCK_GPRTC; break; case RISCV::X6: OpKind = MCK_GPRTC; break; case RISCV::X7: OpKind = MCK_GPRTC; break; case RISCV::X8: OpKind = MCK_GPRC; break; case RISCV::X9: OpKind = MCK_GPRC; break; case RISCV::X10: OpKind = MCK_Reg7; break; case RISCV::X11: OpKind = MCK_Reg7; break; case RISCV::X12: OpKind = MCK_Reg7; break; case RISCV::X13: OpKind = MCK_Reg7; break; case RISCV::X14: OpKind = MCK_Reg7; break; case RISCV::X15: OpKind = MCK_Reg7; break; case RISCV::X16: OpKind = MCK_GPRTC; break; case RISCV::X17: OpKind = MCK_GPRTC; break; case RISCV::X18: OpKind = MCK_GPRNoX0X2; break; case RISCV::X19: OpKind = MCK_GPRNoX0X2; break; case RISCV::X20: OpKind = MCK_GPRNoX0X2; break; case RISCV::X21: OpKind = MCK_GPRNoX0X2; break; case RISCV::X22: OpKind = MCK_GPRNoX0X2; break; case RISCV::X23: OpKind = MCK_GPRNoX0X2; break; case RISCV::X24: OpKind = MCK_GPRNoX0X2; break; case RISCV::X25: OpKind = MCK_GPRNoX0X2; break; case RISCV::X26: OpKind = MCK_GPRNoX0X2; break; case RISCV::X27: OpKind = MCK_GPRNoX0X2; break; case RISCV::X28: OpKind = MCK_GPRTC; break; case RISCV::X29: OpKind = MCK_GPRTC; break; case RISCV::X30: OpKind = MCK_GPRTC; break; case RISCV::X31: OpKind = MCK_GPRTC; break; case RISCV::F0_F: OpKind = MCK_FPR32; break; case RISCV::F1_F: OpKind = MCK_FPR32; break; case RISCV::F2_F: OpKind = MCK_FPR32; break; case RISCV::F3_F: OpKind = MCK_FPR32; break; case RISCV::F4_F: OpKind = MCK_FPR32; break; case RISCV::F5_F: OpKind = MCK_FPR32; break; case RISCV::F6_F: OpKind = MCK_FPR32; break; case RISCV::F7_F: OpKind = MCK_FPR32; break; case RISCV::F8_F: OpKind = MCK_FPR32C; break; case RISCV::F9_F: OpKind = MCK_FPR32C; break; case RISCV::F10_F: OpKind = MCK_FPR32C; break; case RISCV::F11_F: OpKind = MCK_FPR32C; break; case RISCV::F12_F: OpKind = MCK_FPR32C; break; case RISCV::F13_F: OpKind = MCK_FPR32C; break; case RISCV::F14_F: OpKind = MCK_FPR32C; break; case RISCV::F15_F: OpKind = MCK_FPR32C; break; case RISCV::F16_F: OpKind = MCK_FPR32; break; case RISCV::F17_F: OpKind = MCK_FPR32; break; case RISCV::F18_F: OpKind = MCK_FPR32; break; case RISCV::F19_F: OpKind = MCK_FPR32; break; case RISCV::F20_F: OpKind = MCK_FPR32; break; case RISCV::F21_F: OpKind = MCK_FPR32; break; case RISCV::F22_F: OpKind = MCK_FPR32; break; case RISCV::F23_F: OpKind = MCK_FPR32; break; case RISCV::F24_F: OpKind = MCK_FPR32; break; case RISCV::F25_F: OpKind = MCK_FPR32; break; case RISCV::F26_F: OpKind = MCK_FPR32; break; case RISCV::F27_F: OpKind = MCK_FPR32; break; case RISCV::F28_F: OpKind = MCK_FPR32; break; case RISCV::F29_F: OpKind = MCK_FPR32; break; case RISCV::F30_F: OpKind = MCK_FPR32; break; case RISCV::F31_F: OpKind = MCK_FPR32; break; case RISCV::F0_D: OpKind = MCK_FPR64; break; case RISCV::F1_D: OpKind = MCK_FPR64; break; case RISCV::F2_D: OpKind = MCK_FPR64; break; case RISCV::F3_D: OpKind = MCK_FPR64; break; case RISCV::F4_D: OpKind = MCK_FPR64; break; case RISCV::F5_D: OpKind = MCK_FPR64; break; case RISCV::F6_D: OpKind = MCK_FPR64; break; case RISCV::F7_D: OpKind = MCK_FPR64; break; case RISCV::F8_D: OpKind = MCK_FPR64C; break; case RISCV::F9_D: OpKind = MCK_FPR64C; break; case RISCV::F10_D: OpKind = MCK_FPR64C; break; case RISCV::F11_D: OpKind = MCK_FPR64C; break; case RISCV::F12_D: OpKind = MCK_FPR64C; break; case RISCV::F13_D: OpKind = MCK_FPR64C; break; case RISCV::F14_D: OpKind = MCK_FPR64C; break; case RISCV::F15_D: OpKind = MCK_FPR64C; break; case RISCV::F16_D: OpKind = MCK_FPR64; break; case RISCV::F17_D: OpKind = MCK_FPR64; break; case RISCV::F18_D: OpKind = MCK_FPR64; break; case RISCV::F19_D: OpKind = MCK_FPR64; break; case RISCV::F20_D: OpKind = MCK_FPR64; break; case RISCV::F21_D: OpKind = MCK_FPR64; break; case RISCV::F22_D: OpKind = MCK_FPR64; break; case RISCV::F23_D: OpKind = MCK_FPR64; break; case RISCV::F24_D: OpKind = MCK_FPR64; break; case RISCV::F25_D: OpKind = MCK_FPR64; break; case RISCV::F26_D: OpKind = MCK_FPR64; break; case RISCV::F27_D: OpKind = MCK_FPR64; break; case RISCV::F28_D: OpKind = MCK_FPR64; break; case RISCV::F29_D: OpKind = MCK_FPR64; break; case RISCV::F30_D: OpKind = MCK_FPR64; break; case RISCV::F31_D: OpKind = MCK_FPR64; break; } return isSubclass(OpKind, Kind) ? (unsigned)MCTargetAsmParser::Match_Success : getDiagKindFromRegisterClass(Kind); } if (Kind > MCK_LAST_TOKEN && Kind <= MCK_LAST_REGISTER) return getDiagKindFromRegisterClass(Kind); return MCTargetAsmParser::Match_InvalidOperand; } #ifndef NDEBUG const char *getMatchClassName(MatchClassKind Kind) { switch (Kind) { case InvalidMatchClass: return "InvalidMatchClass"; case OptionalMatchClass: return "OptionalMatchClass"; case MCK__40_: return "MCK__40_"; case MCK__41_: return "MCK__41_"; case MCK_GPRX0: return "MCK_GPRX0"; case MCK_SP: return "MCK_SP"; case MCK_Reg7: return "MCK_Reg7"; case MCK_FPR32C: return "MCK_FPR32C"; case MCK_FPR64C: return "MCK_FPR64C"; case MCK_GPRC: return "MCK_GPRC"; case MCK_GPRTC: return "MCK_GPRTC"; case MCK_GPRNoX0X2: return "MCK_GPRNoX0X2"; case MCK_GPRNoX0: return "MCK_GPRNoX0"; case MCK_FPR32: return "MCK_FPR32"; case MCK_FPR64: return "MCK_FPR64"; case MCK_GPR: return "MCK_GPR"; case MCK_AtomicMemOpOperand: return "MCK_AtomicMemOpOperand"; case MCK_BareSymbol: return "MCK_BareSymbol"; case MCK_CLUIImm: return "MCK_CLUIImm"; case MCK_CSRSystemRegister: return "MCK_CSRSystemRegister"; case MCK_CallSymbol: return "MCK_CallSymbol"; case MCK_FRMArg: return "MCK_FRMArg"; case MCK_FenceArg: return "MCK_FenceArg"; case MCK_Imm: return "MCK_Imm"; case MCK_ImmZero: return "MCK_ImmZero"; case MCK_SImm21Lsb0JAL: return "MCK_SImm21Lsb0JAL"; case MCK_TPRelAddSymbol: return "MCK_TPRelAddSymbol"; case MCK_UImmLog2XLen: return "MCK_UImmLog2XLen"; case MCK_UImmLog2XLenNonZero: return "MCK_UImmLog2XLenNonZero"; case MCK_UImm5: return "MCK_UImm5"; case MCK_SImm12: return "MCK_SImm12"; case MCK_SImm13Lsb0: return "MCK_SImm13Lsb0"; case MCK_UImm20LUI: return "MCK_UImm20LUI"; case MCK_UImm20AUIPC: return "MCK_UImm20AUIPC"; case MCK_ImmXLenLI: return "MCK_ImmXLenLI"; case MCK_SImm6: return "MCK_SImm6"; case MCK_SImm6NonZero: return "MCK_SImm6NonZero"; case MCK_UImm7Lsb00: return "MCK_UImm7Lsb00"; case MCK_UImm8Lsb00: return "MCK_UImm8Lsb00"; case MCK_UImm8Lsb000: return "MCK_UImm8Lsb000"; case MCK_SImm9Lsb0: return "MCK_SImm9Lsb0"; case MCK_UImm9Lsb000: return "MCK_UImm9Lsb000"; case MCK_UImm10Lsb00NonZero: return "MCK_UImm10Lsb00NonZero"; case MCK_SImm10Lsb0000NonZero: return "MCK_SImm10Lsb0000NonZero"; case MCK_SImm12Lsb0: return "MCK_SImm12Lsb0"; case NumMatchClassKinds: return "NumMatchClassKinds"; } llvm_unreachable("unhandled MatchClassKind!"); } #endif // NDEBUG FeatureBitset RISCVAsmParser:: ComputeAvailableFeatures(const FeatureBitset& FB) const { FeatureBitset Features; if ((FB[RISCV::FeatureStdExtM])) Features.set(Feature_HasStdExtMBit); if ((FB[RISCV::FeatureStdExtA])) Features.set(Feature_HasStdExtABit); if ((FB[RISCV::FeatureStdExtF])) Features.set(Feature_HasStdExtFBit); if ((FB[RISCV::FeatureStdExtD])) Features.set(Feature_HasStdExtDBit); if ((FB[RISCV::FeatureStdExtC])) Features.set(Feature_HasStdExtCBit); if ((FB[RISCV::FeatureRVCHints])) Features.set(Feature_HasRVCHintsBit); if ((FB[RISCV::Feature64Bit])) Features.set(Feature_IsRV64Bit); if ((!FB[RISCV::Feature64Bit])) Features.set(Feature_IsRV32Bit); if ((FB[RISCV::FeatureRV32E])) Features.set(Feature_IsRV32EBit); return Features; } static bool checkAsmTiedOperandConstraints(const RISCVAsmParser&AsmParser, unsigned Kind, const OperandVector &Operands, uint64_t &ErrorInfo) { assert(Kind < CVT_NUM_SIGNATURES && "Invalid signature!"); const uint8_t *Converter = ConversionTable[Kind]; for (const uint8_t *p = Converter; *p; p+= 2) { switch (*p) { case CVT_Tied: { unsigned OpIdx = *(p+1); assert(OpIdx < (size_t)(std::end(TiedAsmOperandTable) - std::begin(TiedAsmOperandTable)) && "Tied operand not found"); unsigned OpndNum1 = TiedAsmOperandTable[OpIdx][1]; unsigned OpndNum2 = TiedAsmOperandTable[OpIdx][2]; if (OpndNum1 != OpndNum2) { auto &SrcOp1 = Operands[OpndNum1]; auto &SrcOp2 = Operands[OpndNum2]; if (SrcOp1->isReg() && SrcOp2->isReg()) { if (!AsmParser.regsEqual(*SrcOp1, *SrcOp2)) { ErrorInfo = OpndNum2; return false; } } } break; } default: break; } } return true; } static const char *const MnemonicTable = "\003add\004addi\005addiw\004addw\010amoadd.d\013amoadd.d.aq\015amoadd.d" ".aqrl\013amoadd.d.rl\010amoadd.w\013amoadd.w.aq\015amoadd.w.aqrl\013amo" "add.w.rl\010amoand.d\013amoand.d.aq\015amoand.d.aqrl\013amoand.d.rl\010" "amoand.w\013amoand.w.aq\015amoand.w.aqrl\013amoand.w.rl\010amomax.d\013" "amomax.d.aq\015amomax.d.aqrl\013amomax.d.rl\010amomax.w\013amomax.w.aq\015" "amomax.w.aqrl\013amomax.w.rl\tamomaxu.d\014amomaxu.d.aq\016amomaxu.d.aq" "rl\014amomaxu.d.rl\tamomaxu.w\014amomaxu.w.aq\016amomaxu.w.aqrl\014amom" "axu.w.rl\010amomin.d\013amomin.d.aq\015amomin.d.aqrl\013amomin.d.rl\010" "amomin.w\013amomin.w.aq\015amomin.w.aqrl\013amomin.w.rl\tamominu.d\014a" "mominu.d.aq\016amominu.d.aqrl\014amominu.d.rl\tamominu.w\014amominu.w.a" "q\016amominu.w.aqrl\014amominu.w.rl\007amoor.d\namoor.d.aq\014amoor.d.a" "qrl\namoor.d.rl\007amoor.w\namoor.w.aq\014amoor.w.aqrl\namoor.w.rl\tamo" "swap.d\014amoswap.d.aq\016amoswap.d.aqrl\014amoswap.d.rl\tamoswap.w\014" "amoswap.w.aq\016amoswap.w.aqrl\014amoswap.w.rl\010amoxor.d\013amoxor.d." "aq\015amoxor.d.aqrl\013amoxor.d.rl\010amoxor.w\013amoxor.w.aq\015amoxor" ".w.aqrl\013amoxor.w.rl\003and\004andi\005auipc\003beq\004beqz\003bge\004" "bgeu\004bgez\003bgt\004bgtu\004bgtz\003ble\004bleu\004blez\003blt\004bl" "tu\004bltz\003bne\004bnez\005c.add\006c.addi\nc.addi16sp\nc.addi4spn\007" "c.addiw\006c.addw\005c.and\006c.andi\006c.beqz\006c.bnez\010c.ebreak\005" "c.fld\007c.fldsp\005c.flw\007c.flwsp\005c.fsd\007c.fsdsp\005c.fsw\007c." "fswsp\003c.j\005c.jal\006c.jalr\004c.jr\004c.ld\006c.ldsp\004c.li\005c." "lui\004c.lw\006c.lwsp\004c.mv\005c.nop\004c.or\004c.sd\006c.sdsp\006c.s" "lli\010c.slli64\006c.srai\010c.srai64\006c.srli\010c.srli64\005c.sub\006" "c.subw\004c.sw\006c.swsp\007c.unimp\005c.xor\004call\004csrc\005csrci\004" "csrr\005csrrc\006csrrci\005csrrs\006csrrsi\005csrrw\006csrrwi\004csrs\005" "csrsi\004csrw\005csrwi\003div\004divu\005divuw\004divw\006ebreak\005eca" "ll\006fabs.d\006fabs.s\006fadd.d\006fadd.s\010fclass.d\010fclass.s\010f" "cvt.d.l\tfcvt.d.lu\010fcvt.d.s\010fcvt.d.w\tfcvt.d.wu\010fcvt.l.d\010fc" "vt.l.s\tfcvt.lu.d\tfcvt.lu.s\010fcvt.s.d\010fcvt.s.l\tfcvt.s.lu\010fcvt" ".s.w\tfcvt.s.wu\010fcvt.w.d\010fcvt.w.s\tfcvt.wu.d\tfcvt.wu.s\006fdiv.d" "\006fdiv.s\005fence\007fence.i\tfence.tso\005feq.d\005feq.s\005fge.d\005" "fge.s\005fgt.d\005fgt.s\003fld\005fle.d\005fle.s\005flt.d\005flt.s\003f" "lw\007fmadd.d\007fmadd.s\006fmax.d\006fmax.s\006fmin.d\006fmin.s\007fms" "ub.d\007fmsub.s\006fmul.d\006fmul.s\005fmv.d\007fmv.d.x\005fmv.s\007fmv" ".w.x\007fmv.x.d\007fmv.x.w\006fneg.d\006fneg.s\010fnmadd.d\010fnmadd.s\010" "fnmsub.d\010fnmsub.s\005frcsr\007frflags\004frrm\004frsr\005fscsr\003fs" "d\007fsflags\010fsflagsi\007fsgnj.d\007fsgnj.s\010fsgnjn.d\010fsgnjn.s\010" "fsgnjx.d\010fsgnjx.s\007fsqrt.d\007fsqrt.s\004fsrm\005fsrmi\004fssr\006" "fsub.d\006fsub.s\003fsw\001j\003jal\004jalr\002jr\002la\tla.tls.gd\tla." "tls.ie\002lb\003lbu\002ld\002lh\003lhu\002li\003lla\004lr.d\007lr.d.aq\t" "lr.d.aqrl\007lr.d.rl\004lr.w\007lr.w.aq\tlr.w.aqrl\007lr.w.rl\003lui\002" "lw\003lwu\004mret\003mul\004mulh\006mulhsu\005mulhu\004mulw\002mv\003ne" "g\004negw\003nop\003not\002or\003ori\007rdcycle\010rdcycleh\trdinstret\n" "rdinstreth\006rdtime\007rdtimeh\003rem\004remu\005remuw\004remw\003ret\002" "sb\004sc.d\007sc.d.aq\tsc.d.aqrl\007sc.d.rl\004sc.w\007sc.w.aq\tsc.w.aq" "rl\007sc.w.rl\002sd\004seqz\006sext.w\nsfence.vma\003sgt\004sgtu\004sgt" "z\002sh\003sll\004slli\005slliw\004sllw\003slt\004slti\005sltiu\004sltu" "\004sltz\004snez\003sra\004srai\005sraiw\004sraw\004sret\003srl\004srli" "\005srliw\004srlw\003sub\004subw\002sw\004tail\005unimp\004uret\003wfi\003" "xor\004xori"; // Feature bitsets. enum : uint8_t { AMFBS_None, AMFBS_HasStdExtA, AMFBS_HasStdExtC, AMFBS_HasStdExtD, AMFBS_HasStdExtF, AMFBS_HasStdExtM, AMFBS_IsRV32, AMFBS_IsRV64, AMFBS_HasStdExtA_IsRV64, AMFBS_HasStdExtC_HasRVCHints, AMFBS_HasStdExtC_HasStdExtD, AMFBS_HasStdExtC_IsRV32, AMFBS_HasStdExtC_IsRV64, AMFBS_HasStdExtD_IsRV64, AMFBS_HasStdExtF_IsRV64, AMFBS_HasStdExtM_IsRV64, AMFBS_HasStdExtC_HasStdExtF_IsRV32, }; static constexpr FeatureBitset FeatureBitsets[] = { {}, // AMFBS_None {Feature_HasStdExtABit, }, {Feature_HasStdExtCBit, }, {Feature_HasStdExtDBit, }, {Feature_HasStdExtFBit, }, {Feature_HasStdExtMBit, }, {Feature_IsRV32Bit, }, {Feature_IsRV64Bit, }, {Feature_HasStdExtABit, Feature_IsRV64Bit, }, {Feature_HasStdExtCBit, Feature_HasRVCHintsBit, }, {Feature_HasStdExtCBit, Feature_HasStdExtDBit, }, {Feature_HasStdExtCBit, Feature_IsRV32Bit, }, {Feature_HasStdExtCBit, Feature_IsRV64Bit, }, {Feature_HasStdExtDBit, Feature_IsRV64Bit, }, {Feature_HasStdExtFBit, Feature_IsRV64Bit, }, {Feature_HasStdExtMBit, Feature_IsRV64Bit, }, {Feature_HasStdExtCBit, Feature_HasStdExtFBit, Feature_IsRV32Bit, }, }; namespace { struct MatchEntry { uint16_t Mnemonic; uint16_t Opcode; uint8_t ConvertFn; uint8_t RequiredFeaturesIdx; uint8_t Classes[5]; StringRef getMnemonic() const { return StringRef(MnemonicTable + Mnemonic + 1, MnemonicTable[Mnemonic]); } }; // Predicate for searching for an opcode. struct LessOpcode { bool operator()(const MatchEntry &LHS, StringRef RHS) { return LHS.getMnemonic() < RHS; } bool operator()(StringRef LHS, const MatchEntry &RHS) { return LHS < RHS.getMnemonic(); } bool operator()(const MatchEntry &LHS, const MatchEntry &RHS) { return LHS.getMnemonic() < RHS.getMnemonic(); } }; } // end anonymous namespace static const MatchEntry MatchTable0[] = { { 0 /* add */, RISCV::ADD, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_GPR }, }, { 0 /* add */, RISCV::ADDI, Convert__Reg1_0__Reg1_1__SImm121_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_SImm12 }, }, { 0 /* add */, RISCV::PseudoAddTPRel, Convert__Reg1_0__Reg1_1__Reg1_2__TPRelAddSymbol1_3, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_GPR, MCK_TPRelAddSymbol }, }, { 4 /* addi */, RISCV::ADDI, Convert__Reg1_0__Reg1_1__SImm121_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_SImm12 }, }, { 9 /* addiw */, RISCV::ADDIW, Convert__Reg1_0__Reg1_1__SImm121_2, AMFBS_IsRV64, { MCK_GPR, MCK_GPR, MCK_SImm12 }, }, { 15 /* addw */, RISCV::ADDW, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_IsRV64, { MCK_GPR, MCK_GPR, MCK_GPR }, }, { 15 /* addw */, RISCV::ADDIW, Convert__Reg1_0__Reg1_1__SImm121_2, AMFBS_IsRV64, { MCK_GPR, MCK_GPR, MCK_SImm12 }, }, { 20 /* amoadd.d */, RISCV::AMOADD_D, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 29 /* amoadd.d.aq */, RISCV::AMOADD_D_AQ, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 41 /* amoadd.d.aqrl */, RISCV::AMOADD_D_AQ_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 55 /* amoadd.d.rl */, RISCV::AMOADD_D_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 67 /* amoadd.w */, RISCV::AMOADD_W, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 76 /* amoadd.w.aq */, RISCV::AMOADD_W_AQ, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 88 /* amoadd.w.aqrl */, RISCV::AMOADD_W_AQ_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 102 /* amoadd.w.rl */, RISCV::AMOADD_W_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 114 /* amoand.d */, RISCV::AMOAND_D, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 123 /* amoand.d.aq */, RISCV::AMOAND_D_AQ, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 135 /* amoand.d.aqrl */, RISCV::AMOAND_D_AQ_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 149 /* amoand.d.rl */, RISCV::AMOAND_D_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 161 /* amoand.w */, RISCV::AMOAND_W, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 170 /* amoand.w.aq */, RISCV::AMOAND_W_AQ, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 182 /* amoand.w.aqrl */, RISCV::AMOAND_W_AQ_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 196 /* amoand.w.rl */, RISCV::AMOAND_W_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 208 /* amomax.d */, RISCV::AMOMAX_D, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 217 /* amomax.d.aq */, RISCV::AMOMAX_D_AQ, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 229 /* amomax.d.aqrl */, RISCV::AMOMAX_D_AQ_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 243 /* amomax.d.rl */, RISCV::AMOMAX_D_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 255 /* amomax.w */, RISCV::AMOMAX_W, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 264 /* amomax.w.aq */, RISCV::AMOMAX_W_AQ, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 276 /* amomax.w.aqrl */, RISCV::AMOMAX_W_AQ_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 290 /* amomax.w.rl */, RISCV::AMOMAX_W_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 302 /* amomaxu.d */, RISCV::AMOMAXU_D, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 312 /* amomaxu.d.aq */, RISCV::AMOMAXU_D_AQ, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 325 /* amomaxu.d.aqrl */, RISCV::AMOMAXU_D_AQ_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 340 /* amomaxu.d.rl */, RISCV::AMOMAXU_D_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 353 /* amomaxu.w */, RISCV::AMOMAXU_W, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 363 /* amomaxu.w.aq */, RISCV::AMOMAXU_W_AQ, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 376 /* amomaxu.w.aqrl */, RISCV::AMOMAXU_W_AQ_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 391 /* amomaxu.w.rl */, RISCV::AMOMAXU_W_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 404 /* amomin.d */, RISCV::AMOMIN_D, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 413 /* amomin.d.aq */, RISCV::AMOMIN_D_AQ, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 425 /* amomin.d.aqrl */, RISCV::AMOMIN_D_AQ_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 439 /* amomin.d.rl */, RISCV::AMOMIN_D_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 451 /* amomin.w */, RISCV::AMOMIN_W, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 460 /* amomin.w.aq */, RISCV::AMOMIN_W_AQ, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 472 /* amomin.w.aqrl */, RISCV::AMOMIN_W_AQ_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 486 /* amomin.w.rl */, RISCV::AMOMIN_W_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 498 /* amominu.d */, RISCV::AMOMINU_D, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 508 /* amominu.d.aq */, RISCV::AMOMINU_D_AQ, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 521 /* amominu.d.aqrl */, RISCV::AMOMINU_D_AQ_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 536 /* amominu.d.rl */, RISCV::AMOMINU_D_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 549 /* amominu.w */, RISCV::AMOMINU_W, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 559 /* amominu.w.aq */, RISCV::AMOMINU_W_AQ, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 572 /* amominu.w.aqrl */, RISCV::AMOMINU_W_AQ_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 587 /* amominu.w.rl */, RISCV::AMOMINU_W_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 600 /* amoor.d */, RISCV::AMOOR_D, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 608 /* amoor.d.aq */, RISCV::AMOOR_D_AQ, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 619 /* amoor.d.aqrl */, RISCV::AMOOR_D_AQ_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 632 /* amoor.d.rl */, RISCV::AMOOR_D_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 643 /* amoor.w */, RISCV::AMOOR_W, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 651 /* amoor.w.aq */, RISCV::AMOOR_W_AQ, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 662 /* amoor.w.aqrl */, RISCV::AMOOR_W_AQ_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 675 /* amoor.w.rl */, RISCV::AMOOR_W_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 686 /* amoswap.d */, RISCV::AMOSWAP_D, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 696 /* amoswap.d.aq */, RISCV::AMOSWAP_D_AQ, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 709 /* amoswap.d.aqrl */, RISCV::AMOSWAP_D_AQ_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 724 /* amoswap.d.rl */, RISCV::AMOSWAP_D_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 737 /* amoswap.w */, RISCV::AMOSWAP_W, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 747 /* amoswap.w.aq */, RISCV::AMOSWAP_W_AQ, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 760 /* amoswap.w.aqrl */, RISCV::AMOSWAP_W_AQ_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 775 /* amoswap.w.rl */, RISCV::AMOSWAP_W_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 788 /* amoxor.d */, RISCV::AMOXOR_D, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 797 /* amoxor.d.aq */, RISCV::AMOXOR_D_AQ, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 809 /* amoxor.d.aqrl */, RISCV::AMOXOR_D_AQ_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 823 /* amoxor.d.rl */, RISCV::AMOXOR_D_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 835 /* amoxor.w */, RISCV::AMOXOR_W, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 844 /* amoxor.w.aq */, RISCV::AMOXOR_W_AQ, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 856 /* amoxor.w.aqrl */, RISCV::AMOXOR_W_AQ_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 870 /* amoxor.w.rl */, RISCV::AMOXOR_W_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 882 /* and */, RISCV::AND, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_GPR }, }, { 882 /* and */, RISCV::ANDI, Convert__Reg1_0__Reg1_1__SImm121_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_SImm12 }, }, { 886 /* andi */, RISCV::ANDI, Convert__Reg1_0__Reg1_1__SImm121_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_SImm12 }, }, { 891 /* auipc */, RISCV::AUIPC, Convert__Reg1_0__UImm20AUIPC1_1, AMFBS_None, { MCK_GPR, MCK_UImm20AUIPC }, }, { 897 /* beq */, RISCV::BEQ, Convert__Reg1_0__Reg1_1__SImm13Lsb01_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_SImm13Lsb0 }, }, { 901 /* beqz */, RISCV::BEQ, Convert__Reg1_0__regX0__SImm13Lsb01_1, AMFBS_None, { MCK_GPR, MCK_SImm13Lsb0 }, }, { 906 /* bge */, RISCV::BGE, Convert__Reg1_0__Reg1_1__SImm13Lsb01_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_SImm13Lsb0 }, }, { 910 /* bgeu */, RISCV::BGEU, Convert__Reg1_0__Reg1_1__SImm13Lsb01_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_SImm13Lsb0 }, }, { 915 /* bgez */, RISCV::BGE, Convert__Reg1_0__regX0__SImm13Lsb01_1, AMFBS_None, { MCK_GPR, MCK_SImm13Lsb0 }, }, { 920 /* bgt */, RISCV::BLT, Convert__Reg1_1__Reg1_0__SImm13Lsb01_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_SImm13Lsb0 }, }, { 924 /* bgtu */, RISCV::BLTU, Convert__Reg1_1__Reg1_0__SImm13Lsb01_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_SImm13Lsb0 }, }, { 929 /* bgtz */, RISCV::BLT, Convert__regX0__Reg1_0__SImm13Lsb01_1, AMFBS_None, { MCK_GPR, MCK_SImm13Lsb0 }, }, { 934 /* ble */, RISCV::BGE, Convert__Reg1_1__Reg1_0__SImm13Lsb01_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_SImm13Lsb0 }, }, { 938 /* bleu */, RISCV::BGEU, Convert__Reg1_1__Reg1_0__SImm13Lsb01_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_SImm13Lsb0 }, }, { 943 /* blez */, RISCV::BGE, Convert__regX0__Reg1_0__SImm13Lsb01_1, AMFBS_None, { MCK_GPR, MCK_SImm13Lsb0 }, }, { 948 /* blt */, RISCV::BLT, Convert__Reg1_0__Reg1_1__SImm13Lsb01_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_SImm13Lsb0 }, }, { 952 /* bltu */, RISCV::BLTU, Convert__Reg1_0__Reg1_1__SImm13Lsb01_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_SImm13Lsb0 }, }, { 957 /* bltz */, RISCV::BLT, Convert__Reg1_0__regX0__SImm13Lsb01_1, AMFBS_None, { MCK_GPR, MCK_SImm13Lsb0 }, }, { 962 /* bne */, RISCV::BNE, Convert__Reg1_0__Reg1_1__SImm13Lsb01_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_SImm13Lsb0 }, }, { 966 /* bnez */, RISCV::BNE, Convert__Reg1_0__regX0__SImm13Lsb01_1, AMFBS_None, { MCK_GPR, MCK_SImm13Lsb0 }, }, { 971 /* c.add */, RISCV::C_ADD_HINT, Convert__Reg1_0__Tie0_1_1__Reg1_1, AMFBS_HasStdExtC_HasRVCHints, { MCK_GPRX0, MCK_GPRNoX0 }, }, { 971 /* c.add */, RISCV::C_ADD, Convert__Reg1_0__Tie0_1_1__Reg1_1, AMFBS_HasStdExtC, { MCK_GPRNoX0, MCK_GPRNoX0 }, }, { 977 /* c.addi */, RISCV::C_ADDI_NOP, Convert__Reg1_0__Tie0_1_1__ImmZero1_1, AMFBS_HasStdExtC, { MCK_GPRX0, MCK_ImmZero }, }, { 977 /* c.addi */, RISCV::C_ADDI_HINT_X0, Convert__Reg1_0__Tie0_1_1__SImm6NonZero1_1, AMFBS_HasStdExtC_HasRVCHints, { MCK_GPRX0, MCK_SImm6NonZero }, }, { 977 /* c.addi */, RISCV::C_ADDI_HINT_IMM_ZERO, Convert__Reg1_0__Tie0_1_1__ImmZero1_1, AMFBS_HasStdExtC_HasRVCHints, { MCK_GPRNoX0, MCK_ImmZero }, }, { 977 /* c.addi */, RISCV::C_ADDI, Convert__Reg1_0__Tie0_1_1__SImm6NonZero1_1, AMFBS_HasStdExtC, { MCK_GPRNoX0, MCK_SImm6NonZero }, }, { 984 /* c.addi16sp */, RISCV::C_ADDI16SP, Convert__Reg1_0__Tie0_1_1__SImm10Lsb0000NonZero1_1, AMFBS_HasStdExtC, { MCK_SP, MCK_SImm10Lsb0000NonZero }, }, { 995 /* c.addi4spn */, RISCV::C_ADDI4SPN, Convert__Reg1_0__Reg1_1__UImm10Lsb00NonZero1_2, AMFBS_HasStdExtC, { MCK_GPRC, MCK_SP, MCK_UImm10Lsb00NonZero }, }, { 1006 /* c.addiw */, RISCV::C_ADDIW, Convert__Reg1_0__Tie0_1_1__SImm61_1, AMFBS_HasStdExtC_IsRV64, { MCK_GPRNoX0, MCK_SImm6 }, }, { 1014 /* c.addw */, RISCV::C_ADDW, Convert__Reg1_0__Tie0_1_1__Reg1_1, AMFBS_HasStdExtC_IsRV64, { MCK_GPRC, MCK_GPRC }, }, { 1021 /* c.and */, RISCV::C_AND, Convert__Reg1_0__Tie0_1_1__Reg1_1, AMFBS_HasStdExtC, { MCK_GPRC, MCK_GPRC }, }, { 1027 /* c.andi */, RISCV::C_ANDI, Convert__Reg1_0__Tie0_1_1__SImm61_1, AMFBS_HasStdExtC, { MCK_GPRC, MCK_SImm6 }, }, { 1034 /* c.beqz */, RISCV::C_BEQZ, Convert__Reg1_0__SImm9Lsb01_1, AMFBS_HasStdExtC, { MCK_GPRC, MCK_SImm9Lsb0 }, }, { 1041 /* c.bnez */, RISCV::C_BNEZ, Convert__Reg1_0__SImm9Lsb01_1, AMFBS_HasStdExtC, { MCK_GPRC, MCK_SImm9Lsb0 }, }, { 1048 /* c.ebreak */, RISCV::C_EBREAK, Convert_NoOperands, AMFBS_HasStdExtC, { }, }, { 1057 /* c.fld */, RISCV::C_FLD, Convert__Reg1_0__Reg1_2__imm_95_0, AMFBS_HasStdExtC_HasStdExtD, { MCK_FPR64C, MCK__40_, MCK_GPRC, MCK__41_ }, }, { 1057 /* c.fld */, RISCV::C_FLD, Convert__Reg1_0__Reg1_3__UImm8Lsb0001_1, AMFBS_HasStdExtC_HasStdExtD, { MCK_FPR64C, MCK_UImm8Lsb000, MCK__40_, MCK_GPRC, MCK__41_ }, }, { 1063 /* c.fldsp */, RISCV::C_FLDSP, Convert__Reg1_0__Reg1_2__imm_95_0, AMFBS_HasStdExtC_HasStdExtD, { MCK_FPR64C, MCK__40_, MCK_SP, MCK__41_ }, }, { 1063 /* c.fldsp */, RISCV::C_FLDSP, Convert__Reg1_0__Reg1_3__UImm9Lsb0001_1, AMFBS_HasStdExtC_HasStdExtD, { MCK_FPR64, MCK_UImm9Lsb000, MCK__40_, MCK_SP, MCK__41_ }, }, { 1071 /* c.flw */, RISCV::C_FLW, Convert__Reg1_0__Reg1_2__imm_95_0, AMFBS_HasStdExtC_HasStdExtF_IsRV32, { MCK_FPR32C, MCK__40_, MCK_GPRC, MCK__41_ }, }, { 1071 /* c.flw */, RISCV::C_FLW, Convert__Reg1_0__Reg1_3__UImm7Lsb001_1, AMFBS_HasStdExtC_HasStdExtF_IsRV32, { MCK_FPR32C, MCK_UImm7Lsb00, MCK__40_, MCK_GPRC, MCK__41_ }, }, { 1077 /* c.flwsp */, RISCV::C_FLWSP, Convert__Reg1_0__Reg1_2__imm_95_0, AMFBS_HasStdExtC_HasStdExtF_IsRV32, { MCK_FPR32C, MCK__40_, MCK_SP, MCK__41_ }, }, { 1077 /* c.flwsp */, RISCV::C_FLWSP, Convert__Reg1_0__Reg1_3__UImm8Lsb001_1, AMFBS_HasStdExtC_HasStdExtF_IsRV32, { MCK_FPR32, MCK_UImm8Lsb00, MCK__40_, MCK_SP, MCK__41_ }, }, { 1085 /* c.fsd */, RISCV::C_FSD, Convert__Reg1_0__Reg1_2__imm_95_0, AMFBS_HasStdExtC_HasStdExtD, { MCK_FPR64C, MCK__40_, MCK_GPRC, MCK__41_ }, }, { 1085 /* c.fsd */, RISCV::C_FSD, Convert__Reg1_0__Reg1_3__UImm8Lsb0001_1, AMFBS_HasStdExtC_HasStdExtD, { MCK_FPR64C, MCK_UImm8Lsb000, MCK__40_, MCK_GPRC, MCK__41_ }, }, { 1091 /* c.fsdsp */, RISCV::C_FSDSP, Convert__Reg1_0__Reg1_2__imm_95_0, AMFBS_HasStdExtC_HasStdExtD, { MCK_FPR64C, MCK__40_, MCK_SP, MCK__41_ }, }, { 1091 /* c.fsdsp */, RISCV::C_FSDSP, Convert__Reg1_0__Reg1_3__UImm9Lsb0001_1, AMFBS_HasStdExtC_HasStdExtD, { MCK_FPR64, MCK_UImm9Lsb000, MCK__40_, MCK_SP, MCK__41_ }, }, { 1099 /* c.fsw */, RISCV::C_FSW, Convert__Reg1_0__Reg1_2__imm_95_0, AMFBS_HasStdExtC_HasStdExtF_IsRV32, { MCK_FPR32C, MCK__40_, MCK_GPRC, MCK__41_ }, }, { 1099 /* c.fsw */, RISCV::C_FSW, Convert__Reg1_0__Reg1_3__UImm7Lsb001_1, AMFBS_HasStdExtC_HasStdExtF_IsRV32, { MCK_FPR32C, MCK_UImm7Lsb00, MCK__40_, MCK_GPRC, MCK__41_ }, }, { 1105 /* c.fswsp */, RISCV::C_FSWSP, Convert__Reg1_0__Reg1_2__imm_95_0, AMFBS_HasStdExtC_HasStdExtF_IsRV32, { MCK_FPR32C, MCK__40_, MCK_SP, MCK__41_ }, }, { 1105 /* c.fswsp */, RISCV::C_FSWSP, Convert__Reg1_0__Reg1_3__UImm8Lsb001_1, AMFBS_HasStdExtC_HasStdExtF_IsRV32, { MCK_FPR32, MCK_UImm8Lsb00, MCK__40_, MCK_SP, MCK__41_ }, }, { 1113 /* c.j */, RISCV::C_J, Convert__SImm12Lsb01_0, AMFBS_HasStdExtC, { MCK_SImm12Lsb0 }, }, { 1117 /* c.jal */, RISCV::C_JAL, Convert__SImm12Lsb01_0, AMFBS_HasStdExtC_IsRV32, { MCK_SImm12Lsb0 }, }, { 1123 /* c.jalr */, RISCV::C_JALR, Convert__Reg1_0, AMFBS_HasStdExtC, { MCK_GPRNoX0 }, }, { 1130 /* c.jr */, RISCV::C_JR, Convert__Reg1_0, AMFBS_HasStdExtC, { MCK_GPRNoX0 }, }, { 1135 /* c.ld */, RISCV::C_LD, Convert__Reg1_0__Reg1_2__imm_95_0, AMFBS_HasStdExtC_IsRV64, { MCK_GPRC, MCK__40_, MCK_GPRC, MCK__41_ }, }, { 1135 /* c.ld */, RISCV::C_LD, Convert__Reg1_0__Reg1_3__UImm8Lsb0001_1, AMFBS_HasStdExtC_IsRV64, { MCK_GPRC, MCK_UImm8Lsb000, MCK__40_, MCK_GPRC, MCK__41_ }, }, { 1140 /* c.ldsp */, RISCV::C_LDSP, Convert__Reg1_0__Reg1_2__imm_95_0, AMFBS_HasStdExtC_IsRV64, { MCK_GPRC, MCK__40_, MCK_SP, MCK__41_ }, }, { 1140 /* c.ldsp */, RISCV::C_LDSP, Convert__Reg1_0__Reg1_3__UImm9Lsb0001_1, AMFBS_HasStdExtC_IsRV64, { MCK_GPRNoX0, MCK_UImm9Lsb000, MCK__40_, MCK_SP, MCK__41_ }, }, { 1147 /* c.li */, RISCV::C_LI_HINT, Convert__Reg1_0__SImm61_1, AMFBS_HasStdExtC_HasRVCHints, { MCK_GPRX0, MCK_SImm6 }, }, { 1147 /* c.li */, RISCV::C_LI, Convert__Reg1_0__SImm61_1, AMFBS_HasStdExtC, { MCK_GPRNoX0, MCK_SImm6 }, }, { 1152 /* c.lui */, RISCV::C_LUI_HINT, Convert__Reg1_0__CLUIImm1_1, AMFBS_HasStdExtC_HasRVCHints, { MCK_GPRX0, MCK_CLUIImm }, }, { 1152 /* c.lui */, RISCV::C_LUI, Convert__Reg1_0__CLUIImm1_1, AMFBS_HasStdExtC, { MCK_GPRNoX0X2, MCK_CLUIImm }, }, { 1158 /* c.lw */, RISCV::C_LW, Convert__Reg1_0__Reg1_2__imm_95_0, AMFBS_None, { MCK_GPRC, MCK__40_, MCK_GPRC, MCK__41_ }, }, { 1158 /* c.lw */, RISCV::C_LW, Convert__Reg1_0__Reg1_3__UImm7Lsb001_1, AMFBS_HasStdExtC, { MCK_GPRC, MCK_UImm7Lsb00, MCK__40_, MCK_GPRC, MCK__41_ }, }, { 1163 /* c.lwsp */, RISCV::C_LWSP, Convert__Reg1_0__Reg1_2__imm_95_0, AMFBS_None, { MCK_GPRC, MCK__40_, MCK_SP, MCK__41_ }, }, { 1163 /* c.lwsp */, RISCV::C_LWSP, Convert__Reg1_0__Reg1_3__UImm8Lsb001_1, AMFBS_HasStdExtC, { MCK_GPRNoX0, MCK_UImm8Lsb00, MCK__40_, MCK_SP, MCK__41_ }, }, { 1170 /* c.mv */, RISCV::C_MV_HINT, Convert__Reg1_0__Reg1_1, AMFBS_HasStdExtC_HasRVCHints, { MCK_GPRX0, MCK_GPRNoX0 }, }, { 1170 /* c.mv */, RISCV::C_MV, Convert__Reg1_0__Reg1_1, AMFBS_HasStdExtC, { MCK_GPRNoX0, MCK_GPRNoX0 }, }, { 1175 /* c.nop */, RISCV::C_NOP, Convert_NoOperands, AMFBS_HasStdExtC, { }, }, { 1175 /* c.nop */, RISCV::C_NOP_HINT, Convert__SImm6NonZero1_0, AMFBS_HasStdExtC_HasRVCHints, { MCK_SImm6NonZero }, }, { 1181 /* c.or */, RISCV::C_OR, Convert__Reg1_0__Tie0_1_1__Reg1_1, AMFBS_HasStdExtC, { MCK_GPRC, MCK_GPRC }, }, { 1186 /* c.sd */, RISCV::C_SD, Convert__Reg1_0__Reg1_2__imm_95_0, AMFBS_HasStdExtC_IsRV64, { MCK_GPRC, MCK__40_, MCK_GPRC, MCK__41_ }, }, { 1186 /* c.sd */, RISCV::C_SD, Convert__Reg1_0__Reg1_3__UImm8Lsb0001_1, AMFBS_HasStdExtC_IsRV64, { MCK_GPRC, MCK_UImm8Lsb000, MCK__40_, MCK_GPRC, MCK__41_ }, }, { 1191 /* c.sdsp */, RISCV::C_SDSP, Convert__Reg1_0__Reg1_2__imm_95_0, AMFBS_HasStdExtC_IsRV64, { MCK_GPRC, MCK__40_, MCK_SP, MCK__41_ }, }, { 1191 /* c.sdsp */, RISCV::C_SDSP, Convert__Reg1_0__Reg1_3__UImm9Lsb0001_1, AMFBS_HasStdExtC_IsRV64, { MCK_GPR, MCK_UImm9Lsb000, MCK__40_, MCK_SP, MCK__41_ }, }, { 1198 /* c.slli */, RISCV::C_SLLI_HINT, Convert__Reg1_0__Tie0_1_1__UImmLog2XLenNonZero1_1, AMFBS_HasStdExtC_HasRVCHints, { MCK_GPRX0, MCK_UImmLog2XLenNonZero }, }, { 1198 /* c.slli */, RISCV::C_SLLI, Convert__Reg1_0__Tie0_1_1__UImmLog2XLenNonZero1_1, AMFBS_HasStdExtC, { MCK_GPRNoX0, MCK_UImmLog2XLenNonZero }, }, { 1205 /* c.slli64 */, RISCV::C_SLLI64_HINT, Convert__Reg1_0__Tie0_1_1, AMFBS_HasStdExtC_HasRVCHints, { MCK_GPR }, }, { 1214 /* c.srai */, RISCV::C_SRAI, Convert__Reg1_0__Tie0_1_1__UImmLog2XLenNonZero1_1, AMFBS_HasStdExtC, { MCK_GPRC, MCK_UImmLog2XLenNonZero }, }, { 1221 /* c.srai64 */, RISCV::C_SRAI64_HINT, Convert__Reg1_0__Tie0_1_1, AMFBS_HasStdExtC_HasRVCHints, { MCK_GPRC }, }, { 1230 /* c.srli */, RISCV::C_SRLI, Convert__Reg1_0__Tie0_1_1__UImmLog2XLenNonZero1_1, AMFBS_HasStdExtC, { MCK_GPRC, MCK_UImmLog2XLenNonZero }, }, { 1237 /* c.srli64 */, RISCV::C_SRLI64_HINT, Convert__Reg1_0__Tie0_1_1, AMFBS_HasStdExtC_HasRVCHints, { MCK_GPRC }, }, { 1246 /* c.sub */, RISCV::C_SUB, Convert__Reg1_0__Tie0_1_1__Reg1_1, AMFBS_HasStdExtC, { MCK_GPRC, MCK_GPRC }, }, { 1252 /* c.subw */, RISCV::C_SUBW, Convert__Reg1_0__Tie0_1_1__Reg1_1, AMFBS_HasStdExtC_IsRV64, { MCK_GPRC, MCK_GPRC }, }, { 1259 /* c.sw */, RISCV::C_SW, Convert__Reg1_0__Reg1_2__imm_95_0, AMFBS_None, { MCK_GPRC, MCK__40_, MCK_GPRC, MCK__41_ }, }, { 1259 /* c.sw */, RISCV::C_SW, Convert__Reg1_0__Reg1_3__UImm7Lsb001_1, AMFBS_HasStdExtC, { MCK_GPRC, MCK_UImm7Lsb00, MCK__40_, MCK_GPRC, MCK__41_ }, }, { 1264 /* c.swsp */, RISCV::C_SWSP, Convert__Reg1_0__Reg1_2__imm_95_0, AMFBS_None, { MCK_GPRC, MCK__40_, MCK_SP, MCK__41_ }, }, { 1264 /* c.swsp */, RISCV::C_SWSP, Convert__Reg1_0__Reg1_3__UImm8Lsb001_1, AMFBS_HasStdExtC, { MCK_GPR, MCK_UImm8Lsb00, MCK__40_, MCK_SP, MCK__41_ }, }, { 1271 /* c.unimp */, RISCV::C_UNIMP, Convert_NoOperands, AMFBS_HasStdExtC, { }, }, { 1279 /* c.xor */, RISCV::C_XOR, Convert__Reg1_0__Tie0_1_1__Reg1_1, AMFBS_HasStdExtC, { MCK_GPRC, MCK_GPRC }, }, { 1285 /* call */, RISCV::PseudoCALL, Convert__CallSymbol1_0, AMFBS_None, { MCK_CallSymbol }, }, { 1285 /* call */, RISCV::PseudoCALLReg, Convert__Reg1_0__CallSymbol1_1, AMFBS_None, { MCK_GPR, MCK_CallSymbol }, }, { 1290 /* csrc */, RISCV::CSRRC, Convert__regX0__CSRSystemRegister1_0__Reg1_1, AMFBS_None, { MCK_CSRSystemRegister, MCK_GPR }, }, { 1290 /* csrc */, RISCV::CSRRCI, Convert__regX0__CSRSystemRegister1_0__UImm51_1, AMFBS_None, { MCK_CSRSystemRegister, MCK_UImm5 }, }, { 1295 /* csrci */, RISCV::CSRRCI, Convert__regX0__CSRSystemRegister1_0__UImm51_1, AMFBS_None, { MCK_CSRSystemRegister, MCK_UImm5 }, }, { 1301 /* csrr */, RISCV::CSRRS, Convert__Reg1_0__CSRSystemRegister1_1__regX0, AMFBS_None, { MCK_GPR, MCK_CSRSystemRegister }, }, { 1306 /* csrrc */, RISCV::CSRRC, Convert__Reg1_0__CSRSystemRegister1_1__Reg1_2, AMFBS_None, { MCK_GPR, MCK_CSRSystemRegister, MCK_GPR }, }, { 1306 /* csrrc */, RISCV::CSRRCI, Convert__Reg1_0__CSRSystemRegister1_1__UImm51_2, AMFBS_None, { MCK_GPR, MCK_CSRSystemRegister, MCK_UImm5 }, }, { 1312 /* csrrci */, RISCV::CSRRCI, Convert__Reg1_0__CSRSystemRegister1_1__UImm51_2, AMFBS_None, { MCK_GPR, MCK_CSRSystemRegister, MCK_UImm5 }, }, { 1319 /* csrrs */, RISCV::CSRRS, Convert__Reg1_0__CSRSystemRegister1_1__Reg1_2, AMFBS_None, { MCK_GPR, MCK_CSRSystemRegister, MCK_GPR }, }, { 1319 /* csrrs */, RISCV::CSRRSI, Convert__Reg1_0__CSRSystemRegister1_1__UImm51_2, AMFBS_None, { MCK_GPR, MCK_CSRSystemRegister, MCK_UImm5 }, }, { 1325 /* csrrsi */, RISCV::CSRRSI, Convert__Reg1_0__CSRSystemRegister1_1__UImm51_2, AMFBS_None, { MCK_GPR, MCK_CSRSystemRegister, MCK_UImm5 }, }, { 1332 /* csrrw */, RISCV::CSRRW, Convert__Reg1_0__CSRSystemRegister1_1__Reg1_2, AMFBS_None, { MCK_GPR, MCK_CSRSystemRegister, MCK_GPR }, }, { 1332 /* csrrw */, RISCV::CSRRWI, Convert__Reg1_0__CSRSystemRegister1_1__UImm51_2, AMFBS_None, { MCK_GPR, MCK_CSRSystemRegister, MCK_UImm5 }, }, { 1338 /* csrrwi */, RISCV::CSRRWI, Convert__Reg1_0__CSRSystemRegister1_1__UImm51_2, AMFBS_None, { MCK_GPR, MCK_CSRSystemRegister, MCK_UImm5 }, }, { 1345 /* csrs */, RISCV::CSRRS, Convert__regX0__CSRSystemRegister1_0__Reg1_1, AMFBS_None, { MCK_CSRSystemRegister, MCK_GPR }, }, { 1345 /* csrs */, RISCV::CSRRSI, Convert__regX0__CSRSystemRegister1_0__UImm51_1, AMFBS_None, { MCK_CSRSystemRegister, MCK_UImm5 }, }, { 1350 /* csrsi */, RISCV::CSRRSI, Convert__regX0__CSRSystemRegister1_0__UImm51_1, AMFBS_None, { MCK_CSRSystemRegister, MCK_UImm5 }, }, { 1356 /* csrw */, RISCV::CSRRW, Convert__regX0__CSRSystemRegister1_0__Reg1_1, AMFBS_None, { MCK_CSRSystemRegister, MCK_GPR }, }, { 1356 /* csrw */, RISCV::CSRRWI, Convert__regX0__CSRSystemRegister1_0__UImm51_1, AMFBS_None, { MCK_CSRSystemRegister, MCK_UImm5 }, }, { 1361 /* csrwi */, RISCV::CSRRWI, Convert__regX0__CSRSystemRegister1_0__UImm51_1, AMFBS_None, { MCK_CSRSystemRegister, MCK_UImm5 }, }, { 1367 /* div */, RISCV::DIV, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_HasStdExtM, { MCK_GPR, MCK_GPR, MCK_GPR }, }, { 1371 /* divu */, RISCV::DIVU, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_HasStdExtM, { MCK_GPR, MCK_GPR, MCK_GPR }, }, { 1376 /* divuw */, RISCV::DIVUW, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_HasStdExtM_IsRV64, { MCK_GPR, MCK_GPR, MCK_GPR }, }, { 1382 /* divw */, RISCV::DIVW, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_HasStdExtM_IsRV64, { MCK_GPR, MCK_GPR, MCK_GPR }, }, { 1387 /* ebreak */, RISCV::EBREAK, Convert_NoOperands, AMFBS_None, { }, }, { 1394 /* ecall */, RISCV::ECALL, Convert_NoOperands, AMFBS_None, { }, }, { 1400 /* fabs.d */, RISCV::FSGNJX_D, Convert__Reg1_0__Reg1_1__Reg1_1, AMFBS_HasStdExtD, { MCK_FPR64, MCK_FPR64 }, }, { 1407 /* fabs.s */, RISCV::FSGNJX_S, Convert__Reg1_0__Reg1_1__Reg1_1, AMFBS_HasStdExtF, { MCK_FPR32, MCK_FPR32 }, }, { 1414 /* fadd.d */, RISCV::FADD_D, Convert__Reg1_0__Reg1_1__Reg1_2__imm_95_7, AMFBS_HasStdExtD, { MCK_FPR64, MCK_FPR64, MCK_FPR64 }, }, { 1414 /* fadd.d */, RISCV::FADD_D, Convert__Reg1_0__Reg1_1__Reg1_2__FRMArg1_3, AMFBS_HasStdExtD, { MCK_FPR64, MCK_FPR64, MCK_FPR64, MCK_FRMArg }, }, { 1421 /* fadd.s */, RISCV::FADD_S, Convert__Reg1_0__Reg1_1__Reg1_2__imm_95_7, AMFBS_HasStdExtF, { MCK_FPR32, MCK_FPR32, MCK_FPR32 }, }, { 1421 /* fadd.s */, RISCV::FADD_S, Convert__Reg1_0__Reg1_1__Reg1_2__FRMArg1_3, AMFBS_HasStdExtF, { MCK_FPR32, MCK_FPR32, MCK_FPR32, MCK_FRMArg }, }, { 1428 /* fclass.d */, RISCV::FCLASS_D, Convert__Reg1_0__Reg1_1, AMFBS_HasStdExtD, { MCK_GPR, MCK_FPR64 }, }, { 1437 /* fclass.s */, RISCV::FCLASS_S, Convert__Reg1_0__Reg1_1, AMFBS_HasStdExtF, { MCK_GPR, MCK_FPR32 }, }, { 1446 /* fcvt.d.l */, RISCV::FCVT_D_L, Convert__Reg1_0__Reg1_1__imm_95_7, AMFBS_HasStdExtD_IsRV64, { MCK_FPR64, MCK_GPR }, }, { 1446 /* fcvt.d.l */, RISCV::FCVT_D_L, Convert__Reg1_0__Reg1_1__FRMArg1_2, AMFBS_HasStdExtD_IsRV64, { MCK_FPR64, MCK_GPR, MCK_FRMArg }, }, { 1455 /* fcvt.d.lu */, RISCV::FCVT_D_LU, Convert__Reg1_0__Reg1_1__imm_95_7, AMFBS_HasStdExtD_IsRV64, { MCK_FPR64, MCK_GPR }, }, { 1455 /* fcvt.d.lu */, RISCV::FCVT_D_LU, Convert__Reg1_0__Reg1_1__FRMArg1_2, AMFBS_HasStdExtD_IsRV64, { MCK_FPR64, MCK_GPR, MCK_FRMArg }, }, { 1465 /* fcvt.d.s */, RISCV::FCVT_D_S, Convert__Reg1_0__Reg1_1, AMFBS_HasStdExtD, { MCK_FPR64, MCK_FPR32 }, }, { 1474 /* fcvt.d.w */, RISCV::FCVT_D_W, Convert__Reg1_0__Reg1_1, AMFBS_HasStdExtD, { MCK_FPR64, MCK_GPR }, }, { 1483 /* fcvt.d.wu */, RISCV::FCVT_D_WU, Convert__Reg1_0__Reg1_1, AMFBS_HasStdExtD, { MCK_FPR64, MCK_GPR }, }, { 1493 /* fcvt.l.d */, RISCV::FCVT_L_D, Convert__Reg1_0__Reg1_1__imm_95_7, AMFBS_HasStdExtD_IsRV64, { MCK_GPR, MCK_FPR64 }, }, { 1493 /* fcvt.l.d */, RISCV::FCVT_L_D, Convert__Reg1_0__Reg1_1__FRMArg1_2, AMFBS_HasStdExtD_IsRV64, { MCK_GPR, MCK_FPR64, MCK_FRMArg }, }, { 1502 /* fcvt.l.s */, RISCV::FCVT_L_S, Convert__Reg1_0__Reg1_1__imm_95_7, AMFBS_HasStdExtF_IsRV64, { MCK_GPR, MCK_FPR32 }, }, { 1502 /* fcvt.l.s */, RISCV::FCVT_L_S, Convert__Reg1_0__Reg1_1__FRMArg1_2, AMFBS_HasStdExtF_IsRV64, { MCK_GPR, MCK_FPR32, MCK_FRMArg }, }, { 1511 /* fcvt.lu.d */, RISCV::FCVT_LU_D, Convert__Reg1_0__Reg1_1__imm_95_7, AMFBS_HasStdExtD_IsRV64, { MCK_GPR, MCK_FPR64 }, }, { 1511 /* fcvt.lu.d */, RISCV::FCVT_LU_D, Convert__Reg1_0__Reg1_1__FRMArg1_2, AMFBS_HasStdExtD_IsRV64, { MCK_GPR, MCK_FPR64, MCK_FRMArg }, }, { 1521 /* fcvt.lu.s */, RISCV::FCVT_LU_S, Convert__Reg1_0__Reg1_1__imm_95_7, AMFBS_HasStdExtF_IsRV64, { MCK_GPR, MCK_FPR32 }, }, { 1521 /* fcvt.lu.s */, RISCV::FCVT_LU_S, Convert__Reg1_0__Reg1_1__FRMArg1_2, AMFBS_HasStdExtF_IsRV64, { MCK_GPR, MCK_FPR32, MCK_FRMArg }, }, { 1531 /* fcvt.s.d */, RISCV::FCVT_S_D, Convert__Reg1_0__Reg1_1__imm_95_7, AMFBS_HasStdExtD, { MCK_FPR32, MCK_FPR64 }, }, { 1531 /* fcvt.s.d */, RISCV::FCVT_S_D, Convert__Reg1_0__Reg1_1__FRMArg1_2, AMFBS_HasStdExtD, { MCK_FPR32, MCK_FPR64, MCK_FRMArg }, }, { 1540 /* fcvt.s.l */, RISCV::FCVT_S_L, Convert__Reg1_0__Reg1_1__imm_95_7, AMFBS_HasStdExtF_IsRV64, { MCK_FPR32, MCK_GPR }, }, { 1540 /* fcvt.s.l */, RISCV::FCVT_S_L, Convert__Reg1_0__Reg1_1__FRMArg1_2, AMFBS_HasStdExtF_IsRV64, { MCK_FPR32, MCK_GPR, MCK_FRMArg }, }, { 1549 /* fcvt.s.lu */, RISCV::FCVT_S_LU, Convert__Reg1_0__Reg1_1__imm_95_7, AMFBS_HasStdExtF_IsRV64, { MCK_FPR32, MCK_GPR }, }, { 1549 /* fcvt.s.lu */, RISCV::FCVT_S_LU, Convert__Reg1_0__Reg1_1__FRMArg1_2, AMFBS_HasStdExtF_IsRV64, { MCK_FPR32, MCK_GPR, MCK_FRMArg }, }, { 1559 /* fcvt.s.w */, RISCV::FCVT_S_W, Convert__Reg1_0__Reg1_1__imm_95_7, AMFBS_HasStdExtF, { MCK_FPR32, MCK_GPR }, }, { 1559 /* fcvt.s.w */, RISCV::FCVT_S_W, Convert__Reg1_0__Reg1_1__FRMArg1_2, AMFBS_HasStdExtF, { MCK_FPR32, MCK_GPR, MCK_FRMArg }, }, { 1568 /* fcvt.s.wu */, RISCV::FCVT_S_WU, Convert__Reg1_0__Reg1_1__imm_95_7, AMFBS_HasStdExtF, { MCK_FPR32, MCK_GPR }, }, { 1568 /* fcvt.s.wu */, RISCV::FCVT_S_WU, Convert__Reg1_0__Reg1_1__FRMArg1_2, AMFBS_HasStdExtF, { MCK_FPR32, MCK_GPR, MCK_FRMArg }, }, { 1578 /* fcvt.w.d */, RISCV::FCVT_W_D, Convert__Reg1_0__Reg1_1__imm_95_7, AMFBS_HasStdExtD, { MCK_GPR, MCK_FPR64 }, }, { 1578 /* fcvt.w.d */, RISCV::FCVT_W_D, Convert__Reg1_0__Reg1_1__FRMArg1_2, AMFBS_HasStdExtD, { MCK_GPR, MCK_FPR64, MCK_FRMArg }, }, { 1587 /* fcvt.w.s */, RISCV::FCVT_W_S, Convert__Reg1_0__Reg1_1__imm_95_7, AMFBS_HasStdExtF, { MCK_GPR, MCK_FPR32 }, }, { 1587 /* fcvt.w.s */, RISCV::FCVT_W_S, Convert__Reg1_0__Reg1_1__FRMArg1_2, AMFBS_HasStdExtF, { MCK_GPR, MCK_FPR32, MCK_FRMArg }, }, { 1596 /* fcvt.wu.d */, RISCV::FCVT_WU_D, Convert__Reg1_0__Reg1_1__imm_95_7, AMFBS_HasStdExtD, { MCK_GPR, MCK_FPR64 }, }, { 1596 /* fcvt.wu.d */, RISCV::FCVT_WU_D, Convert__Reg1_0__Reg1_1__FRMArg1_2, AMFBS_HasStdExtD, { MCK_GPR, MCK_FPR64, MCK_FRMArg }, }, { 1606 /* fcvt.wu.s */, RISCV::FCVT_WU_S, Convert__Reg1_0__Reg1_1__imm_95_7, AMFBS_HasStdExtF, { MCK_GPR, MCK_FPR32 }, }, { 1606 /* fcvt.wu.s */, RISCV::FCVT_WU_S, Convert__Reg1_0__Reg1_1__FRMArg1_2, AMFBS_HasStdExtF, { MCK_GPR, MCK_FPR32, MCK_FRMArg }, }, { 1616 /* fdiv.d */, RISCV::FDIV_D, Convert__Reg1_0__Reg1_1__Reg1_2__imm_95_7, AMFBS_HasStdExtD, { MCK_FPR64, MCK_FPR64, MCK_FPR64 }, }, { 1616 /* fdiv.d */, RISCV::FDIV_D, Convert__Reg1_0__Reg1_1__Reg1_2__FRMArg1_3, AMFBS_HasStdExtD, { MCK_FPR64, MCK_FPR64, MCK_FPR64, MCK_FRMArg }, }, { 1623 /* fdiv.s */, RISCV::FDIV_S, Convert__Reg1_0__Reg1_1__Reg1_2__imm_95_7, AMFBS_HasStdExtF, { MCK_FPR32, MCK_FPR32, MCK_FPR32 }, }, { 1623 /* fdiv.s */, RISCV::FDIV_S, Convert__Reg1_0__Reg1_1__Reg1_2__FRMArg1_3, AMFBS_HasStdExtF, { MCK_FPR32, MCK_FPR32, MCK_FPR32, MCK_FRMArg }, }, { 1630 /* fence */, RISCV::FENCE, Convert__imm_95_15__imm_95_15, AMFBS_None, { }, }, { 1630 /* fence */, RISCV::FENCE, Convert__FenceArg1_0__FenceArg1_1, AMFBS_None, { MCK_FenceArg, MCK_FenceArg }, }, { 1636 /* fence.i */, RISCV::FENCE_I, Convert_NoOperands, AMFBS_None, { }, }, { 1644 /* fence.tso */, RISCV::FENCE_TSO, Convert_NoOperands, AMFBS_None, { }, }, { 1654 /* feq.d */, RISCV::FEQ_D, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_HasStdExtD, { MCK_GPR, MCK_FPR64, MCK_FPR64 }, }, { 1660 /* feq.s */, RISCV::FEQ_S, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_HasStdExtF, { MCK_GPR, MCK_FPR32, MCK_FPR32 }, }, { 1666 /* fge.d */, RISCV::FLE_D, Convert__Reg1_0__Reg1_2__Reg1_1, AMFBS_HasStdExtD, { MCK_GPR, MCK_FPR64, MCK_FPR64 }, }, { 1672 /* fge.s */, RISCV::FLE_S, Convert__Reg1_0__Reg1_2__Reg1_1, AMFBS_HasStdExtF, { MCK_GPR, MCK_FPR32, MCK_FPR32 }, }, { 1678 /* fgt.d */, RISCV::FLT_D, Convert__Reg1_0__Reg1_2__Reg1_1, AMFBS_HasStdExtD, { MCK_GPR, MCK_FPR64, MCK_FPR64 }, }, { 1684 /* fgt.s */, RISCV::FLT_S, Convert__Reg1_0__Reg1_2__Reg1_1, AMFBS_HasStdExtF, { MCK_GPR, MCK_FPR32, MCK_FPR32 }, }, { 1690 /* fld */, RISCV::PseudoFLD, Convert__Reg1_0__Reg1_2__BareSymbol1_1, AMFBS_HasStdExtD, { MCK_FPR64, MCK_BareSymbol, MCK_GPR }, }, { 1690 /* fld */, RISCV::FLD, Convert__Reg1_0__Reg1_2__imm_95_0, AMFBS_HasStdExtD, { MCK_FPR64, MCK__40_, MCK_GPR, MCK__41_ }, }, { 1690 /* fld */, RISCV::FLD, Convert__Reg1_0__Reg1_3__SImm121_1, AMFBS_HasStdExtD, { MCK_FPR64, MCK_SImm12, MCK__40_, MCK_GPR, MCK__41_ }, }, { 1694 /* fle.d */, RISCV::FLE_D, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_HasStdExtD, { MCK_GPR, MCK_FPR64, MCK_FPR64 }, }, { 1700 /* fle.s */, RISCV::FLE_S, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_HasStdExtF, { MCK_GPR, MCK_FPR32, MCK_FPR32 }, }, { 1706 /* flt.d */, RISCV::FLT_D, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_HasStdExtD, { MCK_GPR, MCK_FPR64, MCK_FPR64 }, }, { 1712 /* flt.s */, RISCV::FLT_S, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_HasStdExtF, { MCK_GPR, MCK_FPR32, MCK_FPR32 }, }, { 1718 /* flw */, RISCV::PseudoFLW, Convert__Reg1_0__Reg1_2__BareSymbol1_1, AMFBS_HasStdExtF, { MCK_FPR32, MCK_BareSymbol, MCK_GPR }, }, { 1718 /* flw */, RISCV::FLW, Convert__Reg1_0__Reg1_2__imm_95_0, AMFBS_HasStdExtF, { MCK_FPR32, MCK__40_, MCK_GPR, MCK__41_ }, }, { 1718 /* flw */, RISCV::FLW, Convert__Reg1_0__Reg1_3__SImm121_1, AMFBS_HasStdExtF, { MCK_FPR32, MCK_SImm12, MCK__40_, MCK_GPR, MCK__41_ }, }, { 1722 /* fmadd.d */, RISCV::FMADD_D, Convert__Reg1_0__Reg1_1__Reg1_2__Reg1_3__imm_95_7, AMFBS_HasStdExtD, { MCK_FPR64, MCK_FPR64, MCK_FPR64, MCK_FPR64 }, }, { 1722 /* fmadd.d */, RISCV::FMADD_D, Convert__Reg1_0__Reg1_1__Reg1_2__Reg1_3__FRMArg1_4, AMFBS_HasStdExtD, { MCK_FPR64, MCK_FPR64, MCK_FPR64, MCK_FPR64, MCK_FRMArg }, }, { 1730 /* fmadd.s */, RISCV::FMADD_S, Convert__Reg1_0__Reg1_1__Reg1_2__Reg1_3__imm_95_7, AMFBS_HasStdExtF, { MCK_FPR32, MCK_FPR32, MCK_FPR32, MCK_FPR32 }, }, { 1730 /* fmadd.s */, RISCV::FMADD_S, Convert__Reg1_0__Reg1_1__Reg1_2__Reg1_3__FRMArg1_4, AMFBS_HasStdExtF, { MCK_FPR32, MCK_FPR32, MCK_FPR32, MCK_FPR32, MCK_FRMArg }, }, { 1738 /* fmax.d */, RISCV::FMAX_D, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_HasStdExtD, { MCK_FPR64, MCK_FPR64, MCK_FPR64 }, }, { 1745 /* fmax.s */, RISCV::FMAX_S, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_HasStdExtF, { MCK_FPR32, MCK_FPR32, MCK_FPR32 }, }, { 1752 /* fmin.d */, RISCV::FMIN_D, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_HasStdExtD, { MCK_FPR64, MCK_FPR64, MCK_FPR64 }, }, { 1759 /* fmin.s */, RISCV::FMIN_S, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_HasStdExtF, { MCK_FPR32, MCK_FPR32, MCK_FPR32 }, }, { 1766 /* fmsub.d */, RISCV::FMSUB_D, Convert__Reg1_0__Reg1_1__Reg1_2__Reg1_3__imm_95_7, AMFBS_HasStdExtD, { MCK_FPR64, MCK_FPR64, MCK_FPR64, MCK_FPR64 }, }, { 1766 /* fmsub.d */, RISCV::FMSUB_D, Convert__Reg1_0__Reg1_1__Reg1_2__Reg1_3__FRMArg1_4, AMFBS_HasStdExtD, { MCK_FPR64, MCK_FPR64, MCK_FPR64, MCK_FPR64, MCK_FRMArg }, }, { 1774 /* fmsub.s */, RISCV::FMSUB_S, Convert__Reg1_0__Reg1_1__Reg1_2__Reg1_3__imm_95_7, AMFBS_HasStdExtF, { MCK_FPR32, MCK_FPR32, MCK_FPR32, MCK_FPR32 }, }, { 1774 /* fmsub.s */, RISCV::FMSUB_S, Convert__Reg1_0__Reg1_1__Reg1_2__Reg1_3__FRMArg1_4, AMFBS_HasStdExtF, { MCK_FPR32, MCK_FPR32, MCK_FPR32, MCK_FPR32, MCK_FRMArg }, }, { 1782 /* fmul.d */, RISCV::FMUL_D, Convert__Reg1_0__Reg1_1__Reg1_2__imm_95_7, AMFBS_HasStdExtD, { MCK_FPR64, MCK_FPR64, MCK_FPR64 }, }, { 1782 /* fmul.d */, RISCV::FMUL_D, Convert__Reg1_0__Reg1_1__Reg1_2__FRMArg1_3, AMFBS_HasStdExtD, { MCK_FPR64, MCK_FPR64, MCK_FPR64, MCK_FRMArg }, }, { 1789 /* fmul.s */, RISCV::FMUL_S, Convert__Reg1_0__Reg1_1__Reg1_2__imm_95_7, AMFBS_HasStdExtF, { MCK_FPR32, MCK_FPR32, MCK_FPR32 }, }, { 1789 /* fmul.s */, RISCV::FMUL_S, Convert__Reg1_0__Reg1_1__Reg1_2__FRMArg1_3, AMFBS_HasStdExtF, { MCK_FPR32, MCK_FPR32, MCK_FPR32, MCK_FRMArg }, }, { 1796 /* fmv.d */, RISCV::FSGNJ_D, Convert__Reg1_0__Reg1_1__Reg1_1, AMFBS_HasStdExtD, { MCK_FPR64, MCK_FPR64 }, }, { 1802 /* fmv.d.x */, RISCV::FMV_D_X, Convert__Reg1_0__Reg1_1, AMFBS_HasStdExtD_IsRV64, { MCK_FPR64, MCK_GPR }, }, { 1810 /* fmv.s */, RISCV::FSGNJ_S, Convert__Reg1_0__Reg1_1__Reg1_1, AMFBS_HasStdExtF, { MCK_FPR32, MCK_FPR32 }, }, { 1816 /* fmv.w.x */, RISCV::FMV_W_X, Convert__Reg1_0__Reg1_1, AMFBS_HasStdExtF, { MCK_FPR32, MCK_GPR }, }, { 1824 /* fmv.x.d */, RISCV::FMV_X_D, Convert__Reg1_0__Reg1_1, AMFBS_HasStdExtD_IsRV64, { MCK_GPR, MCK_FPR64 }, }, { 1832 /* fmv.x.w */, RISCV::FMV_X_W, Convert__Reg1_0__Reg1_1, AMFBS_HasStdExtF, { MCK_GPR, MCK_FPR32 }, }, { 1840 /* fneg.d */, RISCV::FSGNJN_D, Convert__Reg1_0__Reg1_1__Reg1_1, AMFBS_HasStdExtD, { MCK_FPR64, MCK_FPR64 }, }, { 1847 /* fneg.s */, RISCV::FSGNJN_S, Convert__Reg1_0__Reg1_1__Reg1_1, AMFBS_HasStdExtF, { MCK_FPR32, MCK_FPR32 }, }, { 1854 /* fnmadd.d */, RISCV::FNMADD_D, Convert__Reg1_0__Reg1_1__Reg1_2__Reg1_3__imm_95_7, AMFBS_HasStdExtD, { MCK_FPR64, MCK_FPR64, MCK_FPR64, MCK_FPR64 }, }, { 1854 /* fnmadd.d */, RISCV::FNMADD_D, Convert__Reg1_0__Reg1_1__Reg1_2__Reg1_3__FRMArg1_4, AMFBS_HasStdExtD, { MCK_FPR64, MCK_FPR64, MCK_FPR64, MCK_FPR64, MCK_FRMArg }, }, { 1863 /* fnmadd.s */, RISCV::FNMADD_S, Convert__Reg1_0__Reg1_1__Reg1_2__Reg1_3__imm_95_7, AMFBS_HasStdExtF, { MCK_FPR32, MCK_FPR32, MCK_FPR32, MCK_FPR32 }, }, { 1863 /* fnmadd.s */, RISCV::FNMADD_S, Convert__Reg1_0__Reg1_1__Reg1_2__Reg1_3__FRMArg1_4, AMFBS_HasStdExtF, { MCK_FPR32, MCK_FPR32, MCK_FPR32, MCK_FPR32, MCK_FRMArg }, }, { 1872 /* fnmsub.d */, RISCV::FNMSUB_D, Convert__Reg1_0__Reg1_1__Reg1_2__Reg1_3__imm_95_7, AMFBS_HasStdExtD, { MCK_FPR64, MCK_FPR64, MCK_FPR64, MCK_FPR64 }, }, { 1872 /* fnmsub.d */, RISCV::FNMSUB_D, Convert__Reg1_0__Reg1_1__Reg1_2__Reg1_3__FRMArg1_4, AMFBS_HasStdExtD, { MCK_FPR64, MCK_FPR64, MCK_FPR64, MCK_FPR64, MCK_FRMArg }, }, { 1881 /* fnmsub.s */, RISCV::FNMSUB_S, Convert__Reg1_0__Reg1_1__Reg1_2__Reg1_3__imm_95_7, AMFBS_HasStdExtF, { MCK_FPR32, MCK_FPR32, MCK_FPR32, MCK_FPR32 }, }, { 1881 /* fnmsub.s */, RISCV::FNMSUB_S, Convert__Reg1_0__Reg1_1__Reg1_2__Reg1_3__FRMArg1_4, AMFBS_HasStdExtF, { MCK_FPR32, MCK_FPR32, MCK_FPR32, MCK_FPR32, MCK_FRMArg }, }, { 1890 /* frcsr */, RISCV::CSRRS, Convert__Reg1_0__imm_95_3__regX0, AMFBS_HasStdExtF, { MCK_GPR }, }, { 1896 /* frflags */, RISCV::CSRRS, Convert__Reg1_0__imm_95_1__regX0, AMFBS_HasStdExtF, { MCK_GPR }, }, { 1904 /* frrm */, RISCV::CSRRS, Convert__Reg1_0__imm_95_2__regX0, AMFBS_HasStdExtF, { MCK_GPR }, }, { 1909 /* frsr */, RISCV::CSRRS, Convert__Reg1_0__imm_95_3__regX0, AMFBS_HasStdExtF, { MCK_GPR }, }, { 1914 /* fscsr */, RISCV::CSRRW, Convert__regX0__imm_95_3__Reg1_0, AMFBS_HasStdExtF, { MCK_GPR }, }, { 1914 /* fscsr */, RISCV::CSRRW, Convert__Reg1_0__imm_95_3__Reg1_1, AMFBS_HasStdExtF, { MCK_GPR, MCK_GPR }, }, { 1920 /* fsd */, RISCV::PseudoFSD, Convert__Reg1_0__Reg1_2__BareSymbol1_1, AMFBS_HasStdExtD, { MCK_FPR64, MCK_BareSymbol, MCK_GPR }, }, { 1920 /* fsd */, RISCV::FSD, Convert__Reg1_0__Reg1_2__imm_95_0, AMFBS_HasStdExtD, { MCK_FPR64, MCK__40_, MCK_GPR, MCK__41_ }, }, { 1920 /* fsd */, RISCV::FSD, Convert__Reg1_0__Reg1_3__SImm121_1, AMFBS_HasStdExtD, { MCK_FPR64, MCK_SImm12, MCK__40_, MCK_GPR, MCK__41_ }, }, { 1924 /* fsflags */, RISCV::CSRRW, Convert__regX0__imm_95_1__Reg1_0, AMFBS_HasStdExtF, { MCK_GPR }, }, { 1924 /* fsflags */, RISCV::CSRRW, Convert__Reg1_0__imm_95_1__Reg1_1, AMFBS_HasStdExtF, { MCK_GPR, MCK_GPR }, }, { 1932 /* fsflagsi */, RISCV::CSRRWI, Convert__regX0__imm_95_1__UImm51_0, AMFBS_HasStdExtF, { MCK_UImm5 }, }, { 1932 /* fsflagsi */, RISCV::CSRRWI, Convert__Reg1_0__imm_95_1__UImm51_1, AMFBS_HasStdExtF, { MCK_GPR, MCK_UImm5 }, }, { 1941 /* fsgnj.d */, RISCV::FSGNJ_D, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_HasStdExtD, { MCK_FPR64, MCK_FPR64, MCK_FPR64 }, }, { 1949 /* fsgnj.s */, RISCV::FSGNJ_S, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_HasStdExtF, { MCK_FPR32, MCK_FPR32, MCK_FPR32 }, }, { 1957 /* fsgnjn.d */, RISCV::FSGNJN_D, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_HasStdExtD, { MCK_FPR64, MCK_FPR64, MCK_FPR64 }, }, { 1966 /* fsgnjn.s */, RISCV::FSGNJN_S, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_HasStdExtF, { MCK_FPR32, MCK_FPR32, MCK_FPR32 }, }, { 1975 /* fsgnjx.d */, RISCV::FSGNJX_D, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_HasStdExtD, { MCK_FPR64, MCK_FPR64, MCK_FPR64 }, }, { 1984 /* fsgnjx.s */, RISCV::FSGNJX_S, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_HasStdExtF, { MCK_FPR32, MCK_FPR32, MCK_FPR32 }, }, { 1993 /* fsqrt.d */, RISCV::FSQRT_D, Convert__Reg1_0__Reg1_1__imm_95_7, AMFBS_HasStdExtD, { MCK_FPR64, MCK_FPR64 }, }, { 1993 /* fsqrt.d */, RISCV::FSQRT_D, Convert__Reg1_0__Reg1_1__FRMArg1_2, AMFBS_HasStdExtD, { MCK_FPR64, MCK_FPR64, MCK_FRMArg }, }, { 2001 /* fsqrt.s */, RISCV::FSQRT_S, Convert__Reg1_0__Reg1_1__imm_95_7, AMFBS_HasStdExtF, { MCK_FPR32, MCK_FPR32 }, }, { 2001 /* fsqrt.s */, RISCV::FSQRT_S, Convert__Reg1_0__Reg1_1__FRMArg1_2, AMFBS_HasStdExtF, { MCK_FPR32, MCK_FPR32, MCK_FRMArg }, }, { 2009 /* fsrm */, RISCV::CSRRW, Convert__regX0__imm_95_2__Reg1_0, AMFBS_HasStdExtF, { MCK_GPR }, }, { 2009 /* fsrm */, RISCV::CSRRW, Convert__Reg1_0__imm_95_2__Reg1_1, AMFBS_HasStdExtF, { MCK_GPR, MCK_GPR }, }, { 2014 /* fsrmi */, RISCV::CSRRWI, Convert__regX0__imm_95_2__UImm51_0, AMFBS_HasStdExtF, { MCK_UImm5 }, }, { 2014 /* fsrmi */, RISCV::CSRRWI, Convert__Reg1_0__imm_95_2__UImm51_1, AMFBS_HasStdExtF, { MCK_GPR, MCK_UImm5 }, }, { 2020 /* fssr */, RISCV::CSRRW, Convert__regX0__imm_95_3__Reg1_0, AMFBS_HasStdExtF, { MCK_GPR }, }, { 2020 /* fssr */, RISCV::CSRRW, Convert__Reg1_0__imm_95_3__Reg1_1, AMFBS_HasStdExtF, { MCK_GPR, MCK_GPR }, }, { 2025 /* fsub.d */, RISCV::FSUB_D, Convert__Reg1_0__Reg1_1__Reg1_2__imm_95_7, AMFBS_HasStdExtD, { MCK_FPR64, MCK_FPR64, MCK_FPR64 }, }, { 2025 /* fsub.d */, RISCV::FSUB_D, Convert__Reg1_0__Reg1_1__Reg1_2__FRMArg1_3, AMFBS_HasStdExtD, { MCK_FPR64, MCK_FPR64, MCK_FPR64, MCK_FRMArg }, }, { 2032 /* fsub.s */, RISCV::FSUB_S, Convert__Reg1_0__Reg1_1__Reg1_2__imm_95_7, AMFBS_HasStdExtF, { MCK_FPR32, MCK_FPR32, MCK_FPR32 }, }, { 2032 /* fsub.s */, RISCV::FSUB_S, Convert__Reg1_0__Reg1_1__Reg1_2__FRMArg1_3, AMFBS_HasStdExtF, { MCK_FPR32, MCK_FPR32, MCK_FPR32, MCK_FRMArg }, }, { 2039 /* fsw */, RISCV::PseudoFSW, Convert__Reg1_0__Reg1_2__BareSymbol1_1, AMFBS_HasStdExtF, { MCK_FPR32, MCK_BareSymbol, MCK_GPR }, }, { 2039 /* fsw */, RISCV::FSW, Convert__Reg1_0__Reg1_2__imm_95_0, AMFBS_HasStdExtF, { MCK_FPR32, MCK__40_, MCK_GPR, MCK__41_ }, }, { 2039 /* fsw */, RISCV::FSW, Convert__Reg1_0__Reg1_3__SImm121_1, AMFBS_HasStdExtF, { MCK_FPR32, MCK_SImm12, MCK__40_, MCK_GPR, MCK__41_ }, }, { 2043 /* j */, RISCV::JAL, Convert__regX0__SImm21Lsb0JAL1_0, AMFBS_None, { MCK_SImm21Lsb0JAL }, }, { 2045 /* jal */, RISCV::JAL, Convert__regX1__SImm21Lsb0JAL1_0, AMFBS_None, { MCK_SImm21Lsb0JAL }, }, { 2045 /* jal */, RISCV::JAL, Convert__Reg1_0__SImm21Lsb0JAL1_1, AMFBS_None, { MCK_GPR, MCK_SImm21Lsb0JAL }, }, { 2049 /* jalr */, RISCV::JALR, Convert__regX1__Reg1_0__imm_95_0, AMFBS_None, { MCK_GPR }, }, { 2049 /* jalr */, RISCV::JALR, Convert__Reg1_0__Reg1_1__imm_95_0, AMFBS_None, { MCK_GPR, MCK_GPR }, }, { 2049 /* jalr */, RISCV::JALR, Convert__regX1__Reg1_0__SImm121_1, AMFBS_None, { MCK_GPR, MCK_SImm12 }, }, { 2049 /* jalr */, RISCV::JALR, Convert__Reg1_0__Reg1_1__SImm121_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_SImm12 }, }, { 2049 /* jalr */, RISCV::JALR, Convert__regX1__Reg1_2__SImm121_0, AMFBS_None, { MCK_SImm12, MCK__40_, MCK_GPR, MCK__41_ }, }, { 2049 /* jalr */, RISCV::JALR, Convert__Reg1_0__Reg1_3__SImm121_1, AMFBS_None, { MCK_GPR, MCK_SImm12, MCK__40_, MCK_GPR, MCK__41_ }, }, { 2054 /* jr */, RISCV::JALR, Convert__regX0__Reg1_0__imm_95_0, AMFBS_None, { MCK_GPR }, }, { 2054 /* jr */, RISCV::JALR, Convert__regX0__Reg1_0__SImm121_1, AMFBS_None, { MCK_GPR, MCK_SImm12 }, }, { 2054 /* jr */, RISCV::JALR, Convert__regX0__Reg1_2__SImm121_0, AMFBS_None, { MCK_SImm12, MCK__40_, MCK_GPR, MCK__41_ }, }, { 2057 /* la */, RISCV::PseudoLA, Convert__Reg1_0__BareSymbol1_1, AMFBS_None, { MCK_GPR, MCK_BareSymbol }, }, { 2060 /* la.tls.gd */, RISCV::PseudoLA_TLS_GD, Convert__Reg1_0__BareSymbol1_1, AMFBS_None, { MCK_GPR, MCK_BareSymbol }, }, { 2070 /* la.tls.ie */, RISCV::PseudoLA_TLS_IE, Convert__Reg1_0__BareSymbol1_1, AMFBS_None, { MCK_GPR, MCK_BareSymbol }, }, { 2080 /* lb */, RISCV::PseudoLB, Convert__Reg1_0__BareSymbol1_1, AMFBS_None, { MCK_GPR, MCK_BareSymbol }, }, { 2080 /* lb */, RISCV::LB, Convert__Reg1_0__Reg1_2__imm_95_0, AMFBS_None, { MCK_GPR, MCK__40_, MCK_GPR, MCK__41_ }, }, { 2080 /* lb */, RISCV::LB, Convert__Reg1_0__Reg1_3__SImm121_1, AMFBS_None, { MCK_GPR, MCK_SImm12, MCK__40_, MCK_GPR, MCK__41_ }, }, { 2083 /* lbu */, RISCV::PseudoLBU, Convert__Reg1_0__BareSymbol1_1, AMFBS_None, { MCK_GPR, MCK_BareSymbol }, }, { 2083 /* lbu */, RISCV::LBU, Convert__Reg1_0__Reg1_2__imm_95_0, AMFBS_None, { MCK_GPR, MCK__40_, MCK_GPR, MCK__41_ }, }, { 2083 /* lbu */, RISCV::LBU, Convert__Reg1_0__Reg1_3__SImm121_1, AMFBS_None, { MCK_GPR, MCK_SImm12, MCK__40_, MCK_GPR, MCK__41_ }, }, { 2087 /* ld */, RISCV::PseudoLD, Convert__Reg1_0__BareSymbol1_1, AMFBS_IsRV64, { MCK_GPR, MCK_BareSymbol }, }, { 2087 /* ld */, RISCV::LD, Convert__Reg1_0__Reg1_2__imm_95_0, AMFBS_IsRV64, { MCK_GPR, MCK__40_, MCK_GPR, MCK__41_ }, }, { 2087 /* ld */, RISCV::LD, Convert__Reg1_0__Reg1_3__SImm121_1, AMFBS_IsRV64, { MCK_GPR, MCK_SImm12, MCK__40_, MCK_GPR, MCK__41_ }, }, { 2090 /* lh */, RISCV::PseudoLH, Convert__Reg1_0__BareSymbol1_1, AMFBS_None, { MCK_GPR, MCK_BareSymbol }, }, { 2090 /* lh */, RISCV::LH, Convert__Reg1_0__Reg1_2__imm_95_0, AMFBS_None, { MCK_GPR, MCK__40_, MCK_GPR, MCK__41_ }, }, { 2090 /* lh */, RISCV::LH, Convert__Reg1_0__Reg1_3__SImm121_1, AMFBS_None, { MCK_GPR, MCK_SImm12, MCK__40_, MCK_GPR, MCK__41_ }, }, { 2093 /* lhu */, RISCV::PseudoLHU, Convert__Reg1_0__BareSymbol1_1, AMFBS_None, { MCK_GPR, MCK_BareSymbol }, }, { 2093 /* lhu */, RISCV::LHU, Convert__Reg1_0__Reg1_2__imm_95_0, AMFBS_None, { MCK_GPR, MCK__40_, MCK_GPR, MCK__41_ }, }, { 2093 /* lhu */, RISCV::LHU, Convert__Reg1_0__Reg1_3__SImm121_1, AMFBS_None, { MCK_GPR, MCK_SImm12, MCK__40_, MCK_GPR, MCK__41_ }, }, { 2097 /* li */, RISCV::PseudoLI, Convert__Reg1_0__ImmXLenLI1_1, AMFBS_None, { MCK_GPR, MCK_ImmXLenLI }, }, { 2100 /* lla */, RISCV::PseudoLLA, Convert__Reg1_0__BareSymbol1_1, AMFBS_None, { MCK_GPR, MCK_BareSymbol }, }, { 2104 /* lr.d */, RISCV::LR_D, Convert__Reg1_0__AtomicMemOpOperand1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_AtomicMemOpOperand }, }, { 2109 /* lr.d.aq */, RISCV::LR_D_AQ, Convert__Reg1_0__AtomicMemOpOperand1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_AtomicMemOpOperand }, }, { 2117 /* lr.d.aqrl */, RISCV::LR_D_AQ_RL, Convert__Reg1_0__AtomicMemOpOperand1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_AtomicMemOpOperand }, }, { 2127 /* lr.d.rl */, RISCV::LR_D_RL, Convert__Reg1_0__AtomicMemOpOperand1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_AtomicMemOpOperand }, }, { 2135 /* lr.w */, RISCV::LR_W, Convert__Reg1_0__AtomicMemOpOperand1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_AtomicMemOpOperand }, }, { 2140 /* lr.w.aq */, RISCV::LR_W_AQ, Convert__Reg1_0__AtomicMemOpOperand1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_AtomicMemOpOperand }, }, { 2148 /* lr.w.aqrl */, RISCV::LR_W_AQ_RL, Convert__Reg1_0__AtomicMemOpOperand1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_AtomicMemOpOperand }, }, { 2158 /* lr.w.rl */, RISCV::LR_W_RL, Convert__Reg1_0__AtomicMemOpOperand1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_AtomicMemOpOperand }, }, { 2166 /* lui */, RISCV::LUI, Convert__Reg1_0__UImm20LUI1_1, AMFBS_None, { MCK_GPR, MCK_UImm20LUI }, }, { 2170 /* lw */, RISCV::PseudoLW, Convert__Reg1_0__BareSymbol1_1, AMFBS_None, { MCK_GPR, MCK_BareSymbol }, }, { 2170 /* lw */, RISCV::LW, Convert__Reg1_0__Reg1_2__imm_95_0, AMFBS_None, { MCK_GPR, MCK__40_, MCK_GPR, MCK__41_ }, }, { 2170 /* lw */, RISCV::LW, Convert__Reg1_0__Reg1_3__SImm121_1, AMFBS_None, { MCK_GPR, MCK_SImm12, MCK__40_, MCK_GPR, MCK__41_ }, }, { 2173 /* lwu */, RISCV::PseudoLWU, Convert__Reg1_0__BareSymbol1_1, AMFBS_IsRV64, { MCK_GPR, MCK_BareSymbol }, }, { 2173 /* lwu */, RISCV::LWU, Convert__Reg1_0__Reg1_2__imm_95_0, AMFBS_IsRV64, { MCK_GPR, MCK__40_, MCK_GPR, MCK__41_ }, }, { 2173 /* lwu */, RISCV::LWU, Convert__Reg1_0__Reg1_3__SImm121_1, AMFBS_IsRV64, { MCK_GPR, MCK_SImm12, MCK__40_, MCK_GPR, MCK__41_ }, }, { 2177 /* mret */, RISCV::MRET, Convert__imm_95_0__imm_95_0, AMFBS_None, { }, }, { 2182 /* mul */, RISCV::MUL, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_HasStdExtM, { MCK_GPR, MCK_GPR, MCK_GPR }, }, { 2186 /* mulh */, RISCV::MULH, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_HasStdExtM, { MCK_GPR, MCK_GPR, MCK_GPR }, }, { 2191 /* mulhsu */, RISCV::MULHSU, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_HasStdExtM, { MCK_GPR, MCK_GPR, MCK_GPR }, }, { 2198 /* mulhu */, RISCV::MULHU, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_HasStdExtM, { MCK_GPR, MCK_GPR, MCK_GPR }, }, { 2204 /* mulw */, RISCV::MULW, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_HasStdExtM_IsRV64, { MCK_GPR, MCK_GPR, MCK_GPR }, }, { 2209 /* mv */, RISCV::ADDI, Convert__Reg1_0__Reg1_1__imm_95_0, AMFBS_None, { MCK_GPR, MCK_GPR }, }, { 2212 /* neg */, RISCV::SUB, Convert__Reg1_0__regX0__Reg1_1, AMFBS_None, { MCK_GPR, MCK_GPR }, }, { 2216 /* negw */, RISCV::SUBW, Convert__Reg1_0__regX0__Reg1_1, AMFBS_IsRV64, { MCK_GPR, MCK_GPR }, }, { 2221 /* nop */, RISCV::ADDI, Convert__regX0__regX0__imm_95_0, AMFBS_None, { }, }, { 2225 /* not */, RISCV::XORI, Convert__Reg1_0__Reg1_1__imm_95__MINUS_1, AMFBS_None, { MCK_GPR, MCK_GPR }, }, { 2229 /* or */, RISCV::OR, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_GPR }, }, { 2229 /* or */, RISCV::ORI, Convert__Reg1_0__Reg1_1__SImm121_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_SImm12 }, }, { 2232 /* ori */, RISCV::ORI, Convert__Reg1_0__Reg1_1__SImm121_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_SImm12 }, }, { 2236 /* rdcycle */, RISCV::CSRRS, Convert__Reg1_0__imm_95_3072__regX0, AMFBS_None, { MCK_GPR }, }, { 2244 /* rdcycleh */, RISCV::CSRRS, Convert__Reg1_0__imm_95_3200__regX0, AMFBS_IsRV32, { MCK_GPR }, }, { 2253 /* rdinstret */, RISCV::CSRRS, Convert__Reg1_0__imm_95_3074__regX0, AMFBS_None, { MCK_GPR }, }, { 2263 /* rdinstreth */, RISCV::CSRRS, Convert__Reg1_0__imm_95_3202__regX0, AMFBS_IsRV32, { MCK_GPR }, }, { 2274 /* rdtime */, RISCV::CSRRS, Convert__Reg1_0__imm_95_3073__regX0, AMFBS_None, { MCK_GPR }, }, { 2281 /* rdtimeh */, RISCV::CSRRS, Convert__Reg1_0__imm_95_3201__regX0, AMFBS_IsRV32, { MCK_GPR }, }, { 2289 /* rem */, RISCV::REM, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_HasStdExtM, { MCK_GPR, MCK_GPR, MCK_GPR }, }, { 2293 /* remu */, RISCV::REMU, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_HasStdExtM, { MCK_GPR, MCK_GPR, MCK_GPR }, }, { 2298 /* remuw */, RISCV::REMUW, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_HasStdExtM_IsRV64, { MCK_GPR, MCK_GPR, MCK_GPR }, }, { 2304 /* remw */, RISCV::REMW, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_HasStdExtM_IsRV64, { MCK_GPR, MCK_GPR, MCK_GPR }, }, { 2309 /* ret */, RISCV::JALR, Convert__regX0__regX1__imm_95_0, AMFBS_None, { }, }, { 2313 /* sb */, RISCV::PseudoSB, Convert__Reg1_0__Reg1_2__BareSymbol1_1, AMFBS_None, { MCK_GPR, MCK_BareSymbol, MCK_GPR }, }, { 2313 /* sb */, RISCV::SB, Convert__Reg1_0__Reg1_2__imm_95_0, AMFBS_None, { MCK_GPR, MCK__40_, MCK_GPR, MCK__41_ }, }, { 2313 /* sb */, RISCV::SB, Convert__Reg1_0__Reg1_3__SImm121_1, AMFBS_None, { MCK_GPR, MCK_SImm12, MCK__40_, MCK_GPR, MCK__41_ }, }, { 2316 /* sc.d */, RISCV::SC_D, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 2321 /* sc.d.aq */, RISCV::SC_D_AQ, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 2329 /* sc.d.aqrl */, RISCV::SC_D_AQ_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 2339 /* sc.d.rl */, RISCV::SC_D_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA_IsRV64, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 2347 /* sc.w */, RISCV::SC_W, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 2352 /* sc.w.aq */, RISCV::SC_W_AQ, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 2360 /* sc.w.aqrl */, RISCV::SC_W_AQ_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 2370 /* sc.w.rl */, RISCV::SC_W_RL, Convert__Reg1_0__AtomicMemOpOperand1_2__Reg1_1, AMFBS_HasStdExtA, { MCK_GPR, MCK_GPR, MCK_AtomicMemOpOperand }, }, { 2378 /* sd */, RISCV::PseudoSD, Convert__Reg1_0__Reg1_2__BareSymbol1_1, AMFBS_IsRV64, { MCK_GPR, MCK_BareSymbol, MCK_GPR }, }, { 2378 /* sd */, RISCV::SD, Convert__Reg1_0__Reg1_2__imm_95_0, AMFBS_IsRV64, { MCK_GPR, MCK__40_, MCK_GPR, MCK__41_ }, }, { 2378 /* sd */, RISCV::SD, Convert__Reg1_0__Reg1_3__SImm121_1, AMFBS_IsRV64, { MCK_GPR, MCK_SImm12, MCK__40_, MCK_GPR, MCK__41_ }, }, { 2381 /* seqz */, RISCV::SLTIU, Convert__Reg1_0__Reg1_1__imm_95_1, AMFBS_None, { MCK_GPR, MCK_GPR }, }, { 2386 /* sext.w */, RISCV::ADDIW, Convert__Reg1_0__Reg1_1__imm_95_0, AMFBS_IsRV64, { MCK_GPR, MCK_GPR }, }, { 2393 /* sfence.vma */, RISCV::SFENCE_VMA, Convert__regX0__regX0, AMFBS_None, { }, }, { 2393 /* sfence.vma */, RISCV::SFENCE_VMA, Convert__Reg1_0__regX0, AMFBS_None, { MCK_GPR }, }, { 2393 /* sfence.vma */, RISCV::SFENCE_VMA, Convert__Reg1_0__Reg1_1, AMFBS_None, { MCK_GPR, MCK_GPR }, }, { 2404 /* sgt */, RISCV::SLT, Convert__Reg1_0__Reg1_2__Reg1_1, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_GPR }, }, { 2408 /* sgtu */, RISCV::SLTU, Convert__Reg1_0__Reg1_2__Reg1_1, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_GPR }, }, { 2413 /* sgtz */, RISCV::SLT, Convert__Reg1_0__regX0__Reg1_1, AMFBS_None, { MCK_GPR, MCK_GPR }, }, { 2418 /* sh */, RISCV::PseudoSH, Convert__Reg1_0__Reg1_2__BareSymbol1_1, AMFBS_None, { MCK_GPR, MCK_BareSymbol, MCK_GPR }, }, { 2418 /* sh */, RISCV::SH, Convert__Reg1_0__Reg1_2__imm_95_0, AMFBS_None, { MCK_GPR, MCK__40_, MCK_GPR, MCK__41_ }, }, { 2418 /* sh */, RISCV::SH, Convert__Reg1_0__Reg1_3__SImm121_1, AMFBS_None, { MCK_GPR, MCK_SImm12, MCK__40_, MCK_GPR, MCK__41_ }, }, { 2421 /* sll */, RISCV::SLL, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_GPR }, }, { 2421 /* sll */, RISCV::SLLI, Convert__Reg1_0__Reg1_1__UImmLog2XLen1_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_UImmLog2XLen }, }, { 2425 /* slli */, RISCV::SLLI, Convert__Reg1_0__Reg1_1__UImmLog2XLen1_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_UImmLog2XLen }, }, { 2430 /* slliw */, RISCV::SLLIW, Convert__Reg1_0__Reg1_1__UImm51_2, AMFBS_IsRV64, { MCK_GPR, MCK_GPR, MCK_UImm5 }, }, { 2436 /* sllw */, RISCV::SLLW, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_IsRV64, { MCK_GPR, MCK_GPR, MCK_GPR }, }, { 2436 /* sllw */, RISCV::SLLIW, Convert__Reg1_0__Reg1_1__UImm51_2, AMFBS_IsRV64, { MCK_GPR, MCK_GPR, MCK_UImm5 }, }, { 2441 /* slt */, RISCV::SLT, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_GPR }, }, { 2441 /* slt */, RISCV::SLTI, Convert__Reg1_0__Reg1_1__SImm121_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_SImm12 }, }, { 2445 /* slti */, RISCV::SLTI, Convert__Reg1_0__Reg1_1__SImm121_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_SImm12 }, }, { 2450 /* sltiu */, RISCV::SLTIU, Convert__Reg1_0__Reg1_1__SImm121_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_SImm12 }, }, { 2456 /* sltu */, RISCV::SLTU, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_GPR }, }, { 2456 /* sltu */, RISCV::SLTIU, Convert__Reg1_0__Reg1_1__SImm121_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_SImm12 }, }, { 2461 /* sltz */, RISCV::SLT, Convert__Reg1_0__Reg1_1__regX0, AMFBS_None, { MCK_GPR, MCK_GPR }, }, { 2466 /* snez */, RISCV::SLTU, Convert__Reg1_0__regX0__Reg1_1, AMFBS_None, { MCK_GPR, MCK_GPR }, }, { 2471 /* sra */, RISCV::SRA, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_GPR }, }, { 2471 /* sra */, RISCV::SRAI, Convert__Reg1_0__Reg1_1__UImmLog2XLen1_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_UImmLog2XLen }, }, { 2475 /* srai */, RISCV::SRAI, Convert__Reg1_0__Reg1_1__UImmLog2XLen1_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_UImmLog2XLen }, }, { 2480 /* sraiw */, RISCV::SRAIW, Convert__Reg1_0__Reg1_1__UImm51_2, AMFBS_IsRV64, { MCK_GPR, MCK_GPR, MCK_UImm5 }, }, { 2486 /* sraw */, RISCV::SRAW, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_IsRV64, { MCK_GPR, MCK_GPR, MCK_GPR }, }, { 2486 /* sraw */, RISCV::SRAIW, Convert__Reg1_0__Reg1_1__UImm51_2, AMFBS_IsRV64, { MCK_GPR, MCK_GPR, MCK_UImm5 }, }, { 2491 /* sret */, RISCV::SRET, Convert__imm_95_0__imm_95_0, AMFBS_None, { }, }, { 2496 /* srl */, RISCV::SRL, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_GPR }, }, { 2496 /* srl */, RISCV::SRLI, Convert__Reg1_0__Reg1_1__UImmLog2XLen1_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_UImmLog2XLen }, }, { 2500 /* srli */, RISCV::SRLI, Convert__Reg1_0__Reg1_1__UImmLog2XLen1_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_UImmLog2XLen }, }, { 2505 /* srliw */, RISCV::SRLIW, Convert__Reg1_0__Reg1_1__UImm51_2, AMFBS_IsRV64, { MCK_GPR, MCK_GPR, MCK_UImm5 }, }, { 2511 /* srlw */, RISCV::SRLW, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_IsRV64, { MCK_GPR, MCK_GPR, MCK_GPR }, }, { 2511 /* srlw */, RISCV::SRLIW, Convert__Reg1_0__Reg1_1__UImm51_2, AMFBS_IsRV64, { MCK_GPR, MCK_GPR, MCK_UImm5 }, }, { 2516 /* sub */, RISCV::SUB, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_GPR }, }, { 2520 /* subw */, RISCV::SUBW, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_IsRV64, { MCK_GPR, MCK_GPR, MCK_GPR }, }, { 2525 /* sw */, RISCV::PseudoSW, Convert__Reg1_0__Reg1_2__BareSymbol1_1, AMFBS_None, { MCK_GPR, MCK_BareSymbol, MCK_GPR }, }, { 2525 /* sw */, RISCV::SW, Convert__Reg1_0__Reg1_2__imm_95_0, AMFBS_None, { MCK_GPR, MCK__40_, MCK_GPR, MCK__41_ }, }, { 2525 /* sw */, RISCV::SW, Convert__Reg1_0__Reg1_3__SImm121_1, AMFBS_None, { MCK_GPR, MCK_SImm12, MCK__40_, MCK_GPR, MCK__41_ }, }, { 2528 /* tail */, RISCV::PseudoTAIL, Convert__CallSymbol1_0, AMFBS_None, { MCK_CallSymbol }, }, { 2533 /* unimp */, RISCV::UNIMP, Convert_NoOperands, AMFBS_None, { }, }, { 2539 /* uret */, RISCV::URET, Convert__imm_95_0__imm_95_0, AMFBS_None, { }, }, { 2544 /* wfi */, RISCV::WFI, Convert__imm_95_0__imm_95_0, AMFBS_None, { }, }, { 2548 /* xor */, RISCV::XOR, Convert__Reg1_0__Reg1_1__Reg1_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_GPR }, }, { 2548 /* xor */, RISCV::XORI, Convert__Reg1_0__Reg1_1__SImm121_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_SImm12 }, }, { 2552 /* xori */, RISCV::XORI, Convert__Reg1_0__Reg1_1__SImm121_2, AMFBS_None, { MCK_GPR, MCK_GPR, MCK_SImm12 }, }, }; #include "llvm/Support/Debug.h" #include "llvm/Support/Format.h" unsigned RISCVAsmParser:: MatchInstructionImpl(const OperandVector &Operands, MCInst &Inst, uint64_t &ErrorInfo, FeatureBitset &MissingFeatures, bool matchingInlineAsm, unsigned VariantID) { // Eliminate obvious mismatches. if (Operands.size() > 6) { ErrorInfo = 6; return Match_InvalidOperand; } // Get the current feature set. const FeatureBitset &AvailableFeatures = getAvailableFeatures(); // Get the instruction mnemonic, which is the first token. StringRef Mnemonic = ((RISCVOperand&)*Operands[0]).getToken(); // Process all MnemonicAliases to remap the mnemonic. applyMnemonicAliases(Mnemonic, AvailableFeatures, VariantID); // Some state to try to produce better error messages. bool HadMatchOtherThanFeatures = false; bool HadMatchOtherThanPredicate = false; unsigned RetCode = Match_InvalidOperand; MissingFeatures.set(); // Set ErrorInfo to the operand that mismatches if it is // wrong for all instances of the instruction. ErrorInfo = ~0ULL; // Find the appropriate table for this asm variant. const MatchEntry *Start, *End; switch (VariantID) { default: llvm_unreachable("invalid variant!"); case 0: Start = std::begin(MatchTable0); End = std::end(MatchTable0); break; } // Search the table. auto MnemonicRange = std::equal_range(Start, End, Mnemonic, LessOpcode()); DEBUG_WITH_TYPE("asm-matcher", dbgs() << "AsmMatcher: found " << std::distance(MnemonicRange.first, MnemonicRange.second) << " encodings with mnemonic '" << Mnemonic << "'\n"); // Return a more specific error code if no mnemonics match. if (MnemonicRange.first == MnemonicRange.second) return Match_MnemonicFail; for (const MatchEntry *it = MnemonicRange.first, *ie = MnemonicRange.second; it != ie; ++it) { const FeatureBitset &RequiredFeatures = FeatureBitsets[it->RequiredFeaturesIdx]; bool HasRequiredFeatures = (AvailableFeatures & RequiredFeatures) == RequiredFeatures; DEBUG_WITH_TYPE("asm-matcher", dbgs() << "Trying to match opcode " << MII.getName(it->Opcode) << "\n"); // equal_range guarantees that instruction mnemonic matches. assert(Mnemonic == it->getMnemonic()); bool OperandsValid = true; for (unsigned FormalIdx = 0, ActualIdx = 1; FormalIdx != 5; ++FormalIdx) { auto Formal = static_cast(it->Classes[FormalIdx]); DEBUG_WITH_TYPE("asm-matcher", dbgs() << " Matching formal operand class " << getMatchClassName(Formal) << " against actual operand at index " << ActualIdx); if (ActualIdx < Operands.size()) DEBUG_WITH_TYPE("asm-matcher", dbgs() << " ("; Operands[ActualIdx]->print(dbgs()); dbgs() << "): "); else DEBUG_WITH_TYPE("asm-matcher", dbgs() << ": "); if (ActualIdx >= Operands.size()) { DEBUG_WITH_TYPE("asm-matcher", dbgs() << "actual operand index out of range "); OperandsValid = (Formal == InvalidMatchClass) || isSubclass(Formal, OptionalMatchClass); if (!OperandsValid) ErrorInfo = ActualIdx; break; } MCParsedAsmOperand &Actual = *Operands[ActualIdx]; unsigned Diag = validateOperandClass(Actual, Formal); if (Diag == Match_Success) { DEBUG_WITH_TYPE("asm-matcher", dbgs() << "match success using generic matcher\n"); ++ActualIdx; continue; } // If the generic handler indicates an invalid operand // failure, check for a special case. if (Diag != Match_Success) { unsigned TargetDiag = validateTargetOperandClass(Actual, Formal); if (TargetDiag == Match_Success) { DEBUG_WITH_TYPE("asm-matcher", dbgs() << "match success using target matcher\n"); ++ActualIdx; continue; } // If the target matcher returned a specific error code use // that, else use the one from the generic matcher. if (TargetDiag != Match_InvalidOperand && HasRequiredFeatures) Diag = TargetDiag; } // If current formal operand wasn't matched and it is optional // then try to match next formal operand if (Diag == Match_InvalidOperand && isSubclass(Formal, OptionalMatchClass)) { DEBUG_WITH_TYPE("asm-matcher", dbgs() << "ignoring optional operand\n"); continue; } // If this operand is broken for all of the instances of this // mnemonic, keep track of it so we can report loc info. // If we already had a match that only failed due to a // target predicate, that diagnostic is preferred. if (!HadMatchOtherThanPredicate && (it == MnemonicRange.first || ErrorInfo <= ActualIdx)) { if (HasRequiredFeatures && (ErrorInfo != ActualIdx || Diag != Match_InvalidOperand)) RetCode = Diag; ErrorInfo = ActualIdx; } // Otherwise, just reject this instance of the mnemonic. OperandsValid = false; break; } if (!OperandsValid) { DEBUG_WITH_TYPE("asm-matcher", dbgs() << "Opcode result: multiple " "operand mismatches, ignoring " "this opcode\n"); continue; } if (!HasRequiredFeatures) { HadMatchOtherThanFeatures = true; FeatureBitset NewMissingFeatures = RequiredFeatures & ~AvailableFeatures; DEBUG_WITH_TYPE("asm-matcher", dbgs() << "Missing target features:"; for (unsigned I = 0, E = NewMissingFeatures.size(); I != E; ++I) if (NewMissingFeatures[I]) dbgs() << ' ' << I; dbgs() << "\n"); if (NewMissingFeatures.count() <= MissingFeatures.count()) MissingFeatures = NewMissingFeatures; continue; } Inst.clear(); Inst.setOpcode(it->Opcode); // We have a potential match but have not rendered the operands. // Check the target predicate to handle any context sensitive // constraints. // For example, Ties that are referenced multiple times must be // checked here to ensure the input is the same for each match // constraints. If we leave it any later the ties will have been // canonicalized unsigned MatchResult; if ((MatchResult = checkEarlyTargetMatchPredicate(Inst, Operands)) != Match_Success) { Inst.clear(); DEBUG_WITH_TYPE( "asm-matcher", dbgs() << "Early target match predicate failed with diag code " << MatchResult << "\n"); RetCode = MatchResult; HadMatchOtherThanPredicate = true; continue; } if (matchingInlineAsm) { convertToMapAndConstraints(it->ConvertFn, Operands); if (!checkAsmTiedOperandConstraints(*this, it->ConvertFn, Operands, ErrorInfo)) return Match_InvalidTiedOperand; return Match_Success; } // We have selected a definite instruction, convert the parsed // operands into the appropriate MCInst. convertToMCInst(it->ConvertFn, Inst, it->Opcode, Operands); // We have a potential match. Check the target predicate to // handle any context sensitive constraints. if ((MatchResult = checkTargetMatchPredicate(Inst)) != Match_Success) { DEBUG_WITH_TYPE("asm-matcher", dbgs() << "Target match predicate failed with diag code " << MatchResult << "\n"); Inst.clear(); RetCode = MatchResult; HadMatchOtherThanPredicate = true; continue; } if (!checkAsmTiedOperandConstraints(*this, it->ConvertFn, Operands, ErrorInfo)) return Match_InvalidTiedOperand; DEBUG_WITH_TYPE( "asm-matcher", dbgs() << "Opcode result: complete match, selecting this opcode\n"); return Match_Success; } // Okay, we had no match. Try to return a useful error code. if (HadMatchOtherThanPredicate || !HadMatchOtherThanFeatures) return RetCode; ErrorInfo = 0; return Match_MissingFeature; } namespace { struct OperandMatchEntry { uint16_t Mnemonic; uint8_t OperandMask; uint8_t Class; uint8_t RequiredFeaturesIdx; StringRef getMnemonic() const { return StringRef(MnemonicTable + Mnemonic + 1, MnemonicTable[Mnemonic]); } }; // Predicate for searching for an opcode. struct LessOpcodeOperand { bool operator()(const OperandMatchEntry &LHS, StringRef RHS) { return LHS.getMnemonic() < RHS; } bool operator()(StringRef LHS, const OperandMatchEntry &RHS) { return LHS < RHS.getMnemonic(); } bool operator()(const OperandMatchEntry &LHS, const OperandMatchEntry &RHS) { return LHS.getMnemonic() < RHS.getMnemonic(); } }; } // end anonymous namespace static const OperandMatchEntry OperandMatchTable[133] = { /* Operand List Mnemonic, Mask, Operand Class, Features */ { 0 /* add */, 8 /* 3 */, MCK_TPRelAddSymbol, AMFBS_None }, { 20 /* amoadd.d */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 29 /* amoadd.d.aq */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 41 /* amoadd.d.aqrl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 55 /* amoadd.d.rl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 67 /* amoadd.w */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 76 /* amoadd.w.aq */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 88 /* amoadd.w.aqrl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 102 /* amoadd.w.rl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 114 /* amoand.d */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 123 /* amoand.d.aq */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 135 /* amoand.d.aqrl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 149 /* amoand.d.rl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 161 /* amoand.w */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 170 /* amoand.w.aq */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 182 /* amoand.w.aqrl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 196 /* amoand.w.rl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 208 /* amomax.d */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 217 /* amomax.d.aq */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 229 /* amomax.d.aqrl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 243 /* amomax.d.rl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 255 /* amomax.w */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 264 /* amomax.w.aq */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 276 /* amomax.w.aqrl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 290 /* amomax.w.rl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 302 /* amomaxu.d */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 312 /* amomaxu.d.aq */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 325 /* amomaxu.d.aqrl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 340 /* amomaxu.d.rl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 353 /* amomaxu.w */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 363 /* amomaxu.w.aq */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 376 /* amomaxu.w.aqrl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 391 /* amomaxu.w.rl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 404 /* amomin.d */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 413 /* amomin.d.aq */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 425 /* amomin.d.aqrl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 439 /* amomin.d.rl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 451 /* amomin.w */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 460 /* amomin.w.aq */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 472 /* amomin.w.aqrl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 486 /* amomin.w.rl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 498 /* amominu.d */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 508 /* amominu.d.aq */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 521 /* amominu.d.aqrl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 536 /* amominu.d.rl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 549 /* amominu.w */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 559 /* amominu.w.aq */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 572 /* amominu.w.aqrl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 587 /* amominu.w.rl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 600 /* amoor.d */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 608 /* amoor.d.aq */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 619 /* amoor.d.aqrl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 632 /* amoor.d.rl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 643 /* amoor.w */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 651 /* amoor.w.aq */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 662 /* amoor.w.aqrl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 675 /* amoor.w.rl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 686 /* amoswap.d */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 696 /* amoswap.d.aq */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 709 /* amoswap.d.aqrl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 724 /* amoswap.d.rl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 737 /* amoswap.w */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 747 /* amoswap.w.aq */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 760 /* amoswap.w.aqrl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 775 /* amoswap.w.rl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 788 /* amoxor.d */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 797 /* amoxor.d.aq */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 809 /* amoxor.d.aqrl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 823 /* amoxor.d.rl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 835 /* amoxor.w */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 844 /* amoxor.w.aq */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 856 /* amoxor.w.aqrl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 870 /* amoxor.w.rl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 1285 /* call */, 1 /* 0 */, MCK_CallSymbol, AMFBS_None }, { 1285 /* call */, 2 /* 1 */, MCK_CallSymbol, AMFBS_None }, { 1290 /* csrc */, 1 /* 0 */, MCK_CSRSystemRegister, AMFBS_None }, { 1290 /* csrc */, 1 /* 0 */, MCK_CSRSystemRegister, AMFBS_None }, { 1295 /* csrci */, 1 /* 0 */, MCK_CSRSystemRegister, AMFBS_None }, { 1301 /* csrr */, 2 /* 1 */, MCK_CSRSystemRegister, AMFBS_None }, { 1306 /* csrrc */, 2 /* 1 */, MCK_CSRSystemRegister, AMFBS_None }, { 1306 /* csrrc */, 2 /* 1 */, MCK_CSRSystemRegister, AMFBS_None }, { 1312 /* csrrci */, 2 /* 1 */, MCK_CSRSystemRegister, AMFBS_None }, { 1319 /* csrrs */, 2 /* 1 */, MCK_CSRSystemRegister, AMFBS_None }, { 1319 /* csrrs */, 2 /* 1 */, MCK_CSRSystemRegister, AMFBS_None }, { 1325 /* csrrsi */, 2 /* 1 */, MCK_CSRSystemRegister, AMFBS_None }, { 1332 /* csrrw */, 2 /* 1 */, MCK_CSRSystemRegister, AMFBS_None }, { 1332 /* csrrw */, 2 /* 1 */, MCK_CSRSystemRegister, AMFBS_None }, { 1338 /* csrrwi */, 2 /* 1 */, MCK_CSRSystemRegister, AMFBS_None }, { 1345 /* csrs */, 1 /* 0 */, MCK_CSRSystemRegister, AMFBS_None }, { 1345 /* csrs */, 1 /* 0 */, MCK_CSRSystemRegister, AMFBS_None }, { 1350 /* csrsi */, 1 /* 0 */, MCK_CSRSystemRegister, AMFBS_None }, { 1356 /* csrw */, 1 /* 0 */, MCK_CSRSystemRegister, AMFBS_None }, { 1356 /* csrw */, 1 /* 0 */, MCK_CSRSystemRegister, AMFBS_None }, { 1361 /* csrwi */, 1 /* 0 */, MCK_CSRSystemRegister, AMFBS_None }, { 1690 /* fld */, 2 /* 1 */, MCK_BareSymbol, AMFBS_HasStdExtD }, { 1718 /* flw */, 2 /* 1 */, MCK_BareSymbol, AMFBS_HasStdExtF }, { 1920 /* fsd */, 2 /* 1 */, MCK_BareSymbol, AMFBS_HasStdExtD }, { 2039 /* fsw */, 2 /* 1 */, MCK_BareSymbol, AMFBS_HasStdExtF }, { 2043 /* j */, 1 /* 0 */, MCK_SImm21Lsb0JAL, AMFBS_None }, { 2045 /* jal */, 1 /* 0 */, MCK_SImm21Lsb0JAL, AMFBS_None }, { 2045 /* jal */, 2 /* 1 */, MCK_SImm21Lsb0JAL, AMFBS_None }, { 2057 /* la */, 2 /* 1 */, MCK_BareSymbol, AMFBS_None }, { 2060 /* la.tls.gd */, 2 /* 1 */, MCK_BareSymbol, AMFBS_None }, { 2070 /* la.tls.ie */, 2 /* 1 */, MCK_BareSymbol, AMFBS_None }, { 2080 /* lb */, 2 /* 1 */, MCK_BareSymbol, AMFBS_None }, { 2083 /* lbu */, 2 /* 1 */, MCK_BareSymbol, AMFBS_None }, { 2087 /* ld */, 2 /* 1 */, MCK_BareSymbol, AMFBS_IsRV64 }, { 2090 /* lh */, 2 /* 1 */, MCK_BareSymbol, AMFBS_None }, { 2093 /* lhu */, 2 /* 1 */, MCK_BareSymbol, AMFBS_None }, { 2100 /* lla */, 2 /* 1 */, MCK_BareSymbol, AMFBS_None }, { 2104 /* lr.d */, 2 /* 1 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 2109 /* lr.d.aq */, 2 /* 1 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 2117 /* lr.d.aqrl */, 2 /* 1 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 2127 /* lr.d.rl */, 2 /* 1 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 2135 /* lr.w */, 2 /* 1 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 2140 /* lr.w.aq */, 2 /* 1 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 2148 /* lr.w.aqrl */, 2 /* 1 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 2158 /* lr.w.rl */, 2 /* 1 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 2170 /* lw */, 2 /* 1 */, MCK_BareSymbol, AMFBS_None }, { 2173 /* lwu */, 2 /* 1 */, MCK_BareSymbol, AMFBS_IsRV64 }, { 2313 /* sb */, 2 /* 1 */, MCK_BareSymbol, AMFBS_None }, { 2316 /* sc.d */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 2321 /* sc.d.aq */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 2329 /* sc.d.aqrl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 2339 /* sc.d.rl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA_IsRV64 }, { 2347 /* sc.w */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 2352 /* sc.w.aq */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 2360 /* sc.w.aqrl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 2370 /* sc.w.rl */, 4 /* 2 */, MCK_AtomicMemOpOperand, AMFBS_HasStdExtA }, { 2378 /* sd */, 2 /* 1 */, MCK_BareSymbol, AMFBS_IsRV64 }, { 2418 /* sh */, 2 /* 1 */, MCK_BareSymbol, AMFBS_None }, { 2525 /* sw */, 2 /* 1 */, MCK_BareSymbol, AMFBS_None }, { 2528 /* tail */, 1 /* 0 */, MCK_CallSymbol, AMFBS_None }, }; OperandMatchResultTy RISCVAsmParser:: tryCustomParseOperand(OperandVector &Operands, unsigned MCK) { switch(MCK) { case MCK_AtomicMemOpOperand: return parseAtomicMemOp(Operands); case MCK_BareSymbol: return parseBareSymbol(Operands); case MCK_CSRSystemRegister: return parseCSRSystemRegister(Operands); case MCK_CallSymbol: return parseCallSymbol(Operands); case MCK_SImm21Lsb0JAL: return parseJALOffset(Operands); case MCK_TPRelAddSymbol: return parseOperandWithModifier(Operands); default: return MatchOperand_NoMatch; } return MatchOperand_NoMatch; } OperandMatchResultTy RISCVAsmParser:: MatchOperandParserImpl(OperandVector &Operands, StringRef Mnemonic, bool ParseForAllFeatures) { // Get the current feature set. const FeatureBitset &AvailableFeatures = getAvailableFeatures(); // Get the next operand index. unsigned NextOpNum = Operands.size() - 1; // Search the table. auto MnemonicRange = std::equal_range(std::begin(OperandMatchTable), std::end(OperandMatchTable), Mnemonic, LessOpcodeOperand()); if (MnemonicRange.first == MnemonicRange.second) return MatchOperand_NoMatch; for (const OperandMatchEntry *it = MnemonicRange.first, *ie = MnemonicRange.second; it != ie; ++it) { // equal_range guarantees that instruction mnemonic matches. assert(Mnemonic == it->getMnemonic()); // check if the available features match const FeatureBitset &RequiredFeatures = FeatureBitsets[it->RequiredFeaturesIdx]; if (!ParseForAllFeatures && (AvailableFeatures & RequiredFeatures) != RequiredFeatures) continue; // check if the operand in question has a custom parser. if (!(it->OperandMask & (1 << NextOpNum))) continue; // call custom parse method to handle the operand OperandMatchResultTy Result = tryCustomParseOperand(Operands, it->Class); if (Result != MatchOperand_NoMatch) return Result; } // Okay, we had no match. return MatchOperand_NoMatch; } #endif // GET_MATCHER_IMPLEMENTATION #ifdef GET_MNEMONIC_SPELL_CHECKER #undef GET_MNEMONIC_SPELL_CHECKER static std::string RISCVMnemonicSpellCheck(StringRef S, const FeatureBitset &FBS, unsigned VariantID) { const unsigned MaxEditDist = 2; std::vector Candidates; StringRef Prev = ""; // Find the appropriate table for this asm variant. const MatchEntry *Start, *End; switch (VariantID) { default: llvm_unreachable("invalid variant!"); case 0: Start = std::begin(MatchTable0); End = std::end(MatchTable0); break; } for (auto I = Start; I < End; I++) { // Ignore unsupported instructions. const FeatureBitset &RequiredFeatures = FeatureBitsets[I->RequiredFeaturesIdx]; if ((FBS & RequiredFeatures) != RequiredFeatures) continue; StringRef T = I->getMnemonic(); // Avoid recomputing the edit distance for the same string. if (T.equals(Prev)) continue; Prev = T; unsigned Dist = S.edit_distance(T, false, MaxEditDist); if (Dist <= MaxEditDist) Candidates.push_back(T); } if (Candidates.empty()) return ""; std::string Res = ", did you mean: "; unsigned i = 0; for( ; i < Candidates.size() - 1; i++) Res += Candidates[i].str() + ", "; return Res + Candidates[i].str() + "?"; } #endif // GET_MNEMONIC_SPELL_CHECKER