//===-- RISCVBaseInfo.cpp - Top level definitions for RISCV MC ------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // // This file contains small standalone enum definitions for the RISCV target // useful for the compiler back-end and the MC libraries. // //===----------------------------------------------------------------------===// #include "RISCVBaseInfo.h" #include "llvm/ADT/ArrayRef.h" #include "llvm/ADT/Triple.h" #include "llvm/Support/raw_ostream.h" namespace llvm { namespace RISCVSysReg { #define GET_SysRegsList_IMPL #include "RISCVGenSearchableTables.inc" } // namespace RISCVSysReg namespace RISCVABI { ABI computeTargetABI(const Triple &TT, FeatureBitset FeatureBits, StringRef ABIName) { auto TargetABI = getTargetABI(ABIName); bool IsRV64 = TT.isArch64Bit(); bool IsRV32E = FeatureBits[RISCV::FeatureRV32E]; if (!ABIName.empty() && TargetABI == ABI_Unknown) { errs() << "'" << ABIName << "' is not a recognized ABI for this target (ignoring target-abi)\n"; } else if (ABIName.startswith("ilp32") && IsRV64) { errs() << "32-bit ABIs are not supported for 64-bit targets (ignoring " "target-abi)\n"; TargetABI = ABI_Unknown; } else if (ABIName.startswith("lp64") && !IsRV64) { errs() << "64-bit ABIs are not supported for 32-bit targets (ignoring " "target-abi)\n"; TargetABI = ABI_Unknown; } else if (IsRV32E && TargetABI != ABI_ILP32E && TargetABI != ABI_Unknown) { // TODO: move this checking to RISCVTargetLowering and RISCVAsmParser errs() << "Only the ilp32e ABI is supported for RV32E (ignoring target-abi)\n"; TargetABI = ABI_Unknown; } if (TargetABI != ABI_Unknown) return TargetABI; // For now, default to the ilp32/ilp32e/lp64 ABI if no explicit ABI is given // or an invalid/unrecognised string is given. In the future, it might be // worth changing this to default to ilp32f/lp64f and ilp32d/lp64d when // hardware support for floating point is present. if (IsRV32E) return ABI_ILP32E; if (IsRV64) return ABI_LP64; return ABI_ILP32; } ABI getTargetABI(StringRef ABIName) { auto TargetABI = StringSwitch(ABIName) .Case("ilp32", ABI_ILP32) .Case("ilp32f", ABI_ILP32F) .Case("ilp32d", ABI_ILP32D) .Case("ilp32e", ABI_ILP32E) .Case("lp64", ABI_LP64) .Case("lp64f", ABI_LP64F) .Case("lp64d", ABI_LP64D) .Default(ABI_Unknown); return TargetABI; } // To avoid the BP value clobbered by a function call, we need to choose a // callee saved register to save the value. RV32E only has X8 and X9 as callee // saved registers and X8 will be used as fp. So we choose X9 as bp. MCRegister getBPReg() { return RISCV::X9; } // Returns the register holding shadow call stack pointer. MCRegister getSCSPReg() { return RISCV::X18; } } // namespace RISCVABI namespace RISCVFeatures { void validate(const Triple &TT, const FeatureBitset &FeatureBits) { if (TT.isArch64Bit() && FeatureBits[RISCV::FeatureRV32E]) report_fatal_error("RV32E can't be enabled for an RV64 target"); } } // namespace RISCVFeatures namespace RISCVVPseudosTable { #define GET_RISCVVPseudosTable_IMPL #include "RISCVGenSearchableTables.inc" } // namespace RISCVVPseudosTable void RISCVVType::printVType(unsigned VType, raw_ostream &OS) { RISCVVSEW VSEW = getVSEW(VType); RISCVVLMUL VLMUL = getVLMUL(VType); unsigned Sew = 1 << (static_cast(VSEW) + 3); OS << "e" << Sew; switch (VLMUL) { case RISCVVLMUL::LMUL_RESERVED: llvm_unreachable("Unexpected LMUL value!"); case RISCVVLMUL::LMUL_1: case RISCVVLMUL::LMUL_2: case RISCVVLMUL::LMUL_4: case RISCVVLMUL::LMUL_8: { unsigned LMul = 1 << static_cast(VLMUL); OS << ",m" << LMul; break; } case RISCVVLMUL::LMUL_F2: case RISCVVLMUL::LMUL_F4: case RISCVVLMUL::LMUL_F8: { unsigned LMul = 1 << (8 - static_cast(VLMUL)); OS << ",mf" << LMul; break; } } if (isTailAgnostic(VType)) OS << ",ta"; else OS << ",tu"; if (isMaskAgnostic(VType)) OS << ",ma"; else OS << ",mu"; } } // namespace llvm