//===-- SparcSubtarget.cpp - SPARC Subtarget Information ------------------===// // // 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 implements the SPARC specific subclass of TargetSubtargetInfo. // //===----------------------------------------------------------------------===// #include "SparcSubtarget.h" #include "SparcSelectionDAGInfo.h" #include "llvm/ADT/StringRef.h" #include "llvm/MC/TargetRegistry.h" #include "llvm/Support/MathExtras.h" using namespace llvm; #define DEBUG_TYPE "sparc-subtarget" #define GET_SUBTARGETINFO_TARGET_DESC #define GET_SUBTARGETINFO_CTOR #include "SparcGenSubtargetInfo.inc" void SparcSubtarget::anchor() { } SparcSubtarget &SparcSubtarget::initializeSubtargetDependencies( StringRef CPU, StringRef TuneCPU, StringRef FS) { const Triple &TT = getTargetTriple(); // Determine default and user specified characteristics std::string CPUName = std::string(CPU); if (CPUName.empty()) CPUName = TT.isSPARC64() ? "v9" : "v8"; if (TuneCPU.empty()) TuneCPU = CPUName; // Parse features string. ParseSubtargetFeatures(CPUName, TuneCPU, FS); if (!Is64Bit && TT.isSPARC64()) { FeatureBitset Features = getFeatureBits(); setFeatureBits(Features.set(Sparc::Feature64Bit)); Is64Bit = true; } // Popc is a v9-only instruction. if (!IsV9) UsePopc = false; return *this; } SparcSubtarget::SparcSubtarget(const StringRef &CPU, const StringRef &TuneCPU, const StringRef &FS, const TargetMachine &TM) : SparcGenSubtargetInfo(TM.getTargetTriple(), CPU, TuneCPU, FS), ReserveRegister(TM.getMCRegisterInfo()->getNumRegs()), InstrInfo(initializeSubtargetDependencies(CPU, TuneCPU, FS)), TLInfo(TM, *this), FrameLowering(*this) { TSInfo = std::make_unique(); } SparcSubtarget::~SparcSubtarget() = default; const SelectionDAGTargetInfo *SparcSubtarget::getSelectionDAGInfo() const { return TSInfo.get(); } void SparcSubtarget::initLibcallLoweringInfo(LibcallLoweringInfo &Info) const { if (hasHardQuad()) return; // Setup Runtime library names. if (is64Bit() && !useSoftFloat()) { Info.setLibcallImpl(RTLIB::ADD_F128, RTLIB::impl__Qp_add); Info.setLibcallImpl(RTLIB::SUB_F128, RTLIB::impl__Qp_sub); Info.setLibcallImpl(RTLIB::MUL_F128, RTLIB::impl__Qp_mul); Info.setLibcallImpl(RTLIB::DIV_F128, RTLIB::impl__Qp_div); Info.setLibcallImpl(RTLIB::SQRT_F128, RTLIB::impl__Qp_sqrt); Info.setLibcallImpl(RTLIB::FPTOSINT_F128_I32, RTLIB::impl__Qp_qtoi); Info.setLibcallImpl(RTLIB::FPTOUINT_F128_I32, RTLIB::impl__Qp_qtoui); Info.setLibcallImpl(RTLIB::SINTTOFP_I32_F128, RTLIB::impl__Qp_itoq); Info.setLibcallImpl(RTLIB::UINTTOFP_I32_F128, RTLIB::impl__Qp_uitoq); Info.setLibcallImpl(RTLIB::FPTOSINT_F128_I64, RTLIB::impl__Qp_qtox); Info.setLibcallImpl(RTLIB::FPTOUINT_F128_I64, RTLIB::impl__Qp_qtoux); Info.setLibcallImpl(RTLIB::SINTTOFP_I64_F128, RTLIB::impl__Qp_xtoq); Info.setLibcallImpl(RTLIB::UINTTOFP_I64_F128, RTLIB::impl__Qp_uxtoq); Info.setLibcallImpl(RTLIB::FPEXT_F32_F128, RTLIB::impl__Qp_stoq); Info.setLibcallImpl(RTLIB::FPEXT_F64_F128, RTLIB::impl__Qp_dtoq); Info.setLibcallImpl(RTLIB::FPROUND_F128_F32, RTLIB::impl__Qp_qtos); Info.setLibcallImpl(RTLIB::FPROUND_F128_F64, RTLIB::impl__Qp_qtod); } else if (!useSoftFloat()) { Info.setLibcallImpl(RTLIB::ADD_F128, RTLIB::impl__Q_add); Info.setLibcallImpl(RTLIB::SUB_F128, RTLIB::impl__Q_sub); Info.setLibcallImpl(RTLIB::MUL_F128, RTLIB::impl__Q_mul); Info.setLibcallImpl(RTLIB::DIV_F128, RTLIB::impl__Q_div); Info.setLibcallImpl(RTLIB::SQRT_F128, RTLIB::impl__Q_sqrt); Info.setLibcallImpl(RTLIB::FPTOSINT_F128_I32, RTLIB::impl__Q_qtoi); Info.setLibcallImpl(RTLIB::FPTOUINT_F128_I32, RTLIB::impl__Q_qtou); Info.setLibcallImpl(RTLIB::SINTTOFP_I32_F128, RTLIB::impl__Q_itoq); Info.setLibcallImpl(RTLIB::UINTTOFP_I32_F128, RTLIB::impl__Q_utoq); Info.setLibcallImpl(RTLIB::FPEXT_F32_F128, RTLIB::impl__Q_stoq); Info.setLibcallImpl(RTLIB::FPEXT_F64_F128, RTLIB::impl__Q_dtoq); Info.setLibcallImpl(RTLIB::FPROUND_F128_F32, RTLIB::impl__Q_qtos); Info.setLibcallImpl(RTLIB::FPROUND_F128_F64, RTLIB::impl__Q_qtod); } } int SparcSubtarget::getAdjustedFrameSize(int frameSize) const { if (is64Bit()) { // All 64-bit stack frames must be 16-byte aligned, and must reserve space // for spilling the 16 window registers at %sp+BIAS..%sp+BIAS+128. frameSize += 128; // Frames with calls must also reserve space for 6 outgoing arguments // whether they are used or not. LowerCall_64 takes care of that. frameSize = alignTo(frameSize, 16); } else { // Emit the correct save instruction based on the number of bytes in // the frame. Minimum stack frame size according to V8 ABI is: // 16 words for register window spill // 1 word for address of returned aggregate-value // + 6 words for passing parameters on the stack // ---------- // 23 words * 4 bytes per word = 92 bytes frameSize += 92; // Round up to next doubleword boundary -- a double-word boundary // is required by the ABI. frameSize = alignTo(frameSize, 8); } return frameSize; } bool SparcSubtarget::enableMachineScheduler() const { return true; }