//===- CallingConvEmitter.cpp - Generate calling conventions --------------===// // // 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 tablegen backend is responsible for emitting descriptions of the calling // conventions supported by this target. // //===----------------------------------------------------------------------===// #include "CodeGenTarget.h" #include "llvm/TableGen/Error.h" #include "llvm/TableGen/Record.h" #include "llvm/TableGen/TableGenBackend.h" using namespace llvm; namespace { class CallingConvEmitter { RecordKeeper &Records; unsigned Counter; std::string CurrentAction; bool SwiftAction; std::map> AssignedRegsMap; std::map> AssignedSwiftRegsMap; std::map> DelegateToMap; public: explicit CallingConvEmitter(RecordKeeper &R) : Records(R) {} void run(raw_ostream &o); private: void EmitCallingConv(Record *CC, raw_ostream &O); void EmitAction(Record *Action, unsigned Indent, raw_ostream &O); void EmitArgRegisterLists(raw_ostream &O); }; } // End anonymous namespace void CallingConvEmitter::run(raw_ostream &O) { std::vector CCs = Records.getAllDerivedDefinitions("CallingConv"); // Emit prototypes for all of the non-custom CC's so that they can forward ref // each other. Records.startTimer("Emit prototypes"); O << "#ifndef GET_CC_REGISTER_LISTS\n\n"; for (Record *CC : CCs) { if (!CC->getValueAsBit("Custom")) { unsigned Pad = CC->getName().size(); if (CC->getValueAsBit("Entry")) { O << "bool llvm::"; Pad += 12; } else { O << "static bool "; Pad += 13; } O << CC->getName() << "(unsigned ValNo, MVT ValVT,\n" << std::string(Pad, ' ') << "MVT LocVT, CCValAssign::LocInfo LocInfo,\n" << std::string(Pad, ' ') << "ISD::ArgFlagsTy ArgFlags, CCState &State);\n"; } } // Emit each non-custom calling convention description in full. Records.startTimer("Emit full descriptions"); for (Record *CC : CCs) { if (!CC->getValueAsBit("Custom")) { EmitCallingConv(CC, O); } } EmitArgRegisterLists(O); O << "\n#endif // CC_REGISTER_LIST\n"; } void CallingConvEmitter::EmitCallingConv(Record *CC, raw_ostream &O) { ListInit *CCActions = CC->getValueAsListInit("Actions"); Counter = 0; CurrentAction = CC->getName().str(); // Call upon the creation of a map entry from the void! // We want an entry in AssignedRegsMap for every action, even if that // entry is empty. AssignedRegsMap[CurrentAction] = {}; O << "\n\n"; unsigned Pad = CurrentAction.size(); if (CC->getValueAsBit("Entry")) { O << "bool llvm::"; Pad += 12; } else { O << "static bool "; Pad += 13; } O << CurrentAction << "(unsigned ValNo, MVT ValVT,\n" << std::string(Pad, ' ') << "MVT LocVT, CCValAssign::LocInfo LocInfo,\n" << std::string(Pad, ' ') << "ISD::ArgFlagsTy ArgFlags, CCState &State) {\n"; // Emit all of the actions, in order. for (unsigned i = 0, e = CCActions->size(); i != e; ++i) { Record *Action = CCActions->getElementAsRecord(i); SwiftAction = llvm::any_of(Action->getSuperClasses(), [](const std::pair &Class) { std::string Name = Class.first->getNameInitAsString(); return StringRef(Name).startswith("CCIfSwift"); }); O << "\n"; EmitAction(Action, 2, O); } O << "\n return true; // CC didn't match.\n"; O << "}\n"; } void CallingConvEmitter::EmitAction(Record *Action, unsigned Indent, raw_ostream &O) { std::string IndentStr = std::string(Indent, ' '); if (Action->isSubClassOf("CCPredicateAction")) { O << IndentStr << "if ("; if (Action->isSubClassOf("CCIfType")) { ListInit *VTs = Action->getValueAsListInit("VTs"); for (unsigned i = 0, e = VTs->size(); i != e; ++i) { Record *VT = VTs->getElementAsRecord(i); if (i != 0) O << " ||\n " << IndentStr; O << "LocVT == " << getEnumName(getValueType(VT)); } } else if (Action->isSubClassOf("CCIf")) { O << Action->getValueAsString("Predicate"); } else { errs() << *Action; PrintFatalError(Action->getLoc(), "Unknown CCPredicateAction!"); } O << ") {\n"; EmitAction(Action->getValueAsDef("SubAction"), Indent+2, O); O << IndentStr << "}\n"; } else { if (Action->isSubClassOf("CCDelegateTo")) { Record *CC = Action->getValueAsDef("CC"); O << IndentStr << "if (!" << CC->getName() << "(ValNo, ValVT, LocVT, LocInfo, ArgFlags, State))\n" << IndentStr << " return false;\n"; DelegateToMap[CurrentAction].insert(CC->getName().str()); } else if (Action->isSubClassOf("CCAssignToReg") || Action->isSubClassOf("CCAssignToRegAndStack")) { ListInit *RegList = Action->getValueAsListInit("RegList"); if (RegList->size() == 1) { std::string Name = getQualifiedName(RegList->getElementAsRecord(0)); O << IndentStr << "if (unsigned Reg = State.AllocateReg(" << Name << ")) {\n"; if (SwiftAction) AssignedSwiftRegsMap[CurrentAction].insert(Name); else AssignedRegsMap[CurrentAction].insert(Name); } else { O << IndentStr << "static const MCPhysReg RegList" << ++Counter << "[] = {\n"; O << IndentStr << " "; ListSeparator LS; for (unsigned i = 0, e = RegList->size(); i != e; ++i) { std::string Name = getQualifiedName(RegList->getElementAsRecord(i)); if (SwiftAction) AssignedSwiftRegsMap[CurrentAction].insert(Name); else AssignedRegsMap[CurrentAction].insert(Name); O << LS << Name; } O << "\n" << IndentStr << "};\n"; O << IndentStr << "if (unsigned Reg = State.AllocateReg(RegList" << Counter << ")) {\n"; } O << IndentStr << " State.addLoc(CCValAssign::getReg(ValNo, ValVT, " << "Reg, LocVT, LocInfo));\n"; if (Action->isSubClassOf("CCAssignToRegAndStack")) { int Size = Action->getValueAsInt("Size"); int Align = Action->getValueAsInt("Align"); O << IndentStr << " (void)State.AllocateStack("; if (Size) O << Size << ", "; else O << "\n" << IndentStr << " State.getMachineFunction().getDataLayout()." "getTypeAllocSize(EVT(LocVT).getTypeForEVT(State.getContext()))," " "; if (Align) O << "Align(" << Align << ")"; else O << "\n" << IndentStr << " State.getMachineFunction().getDataLayout()." "getABITypeAlign(EVT(LocVT).getTypeForEVT(State.getContext()" "))"; O << ");\n"; } O << IndentStr << " return false;\n"; O << IndentStr << "}\n"; } else if (Action->isSubClassOf("CCAssignToRegWithShadow")) { ListInit *RegList = Action->getValueAsListInit("RegList"); ListInit *ShadowRegList = Action->getValueAsListInit("ShadowRegList"); if (!ShadowRegList->empty() && ShadowRegList->size() != RegList->size()) PrintFatalError(Action->getLoc(), "Invalid length of list of shadowed registers"); if (RegList->size() == 1) { O << IndentStr << "if (unsigned Reg = State.AllocateReg("; O << getQualifiedName(RegList->getElementAsRecord(0)); O << ", " << getQualifiedName(ShadowRegList->getElementAsRecord(0)); O << ")) {\n"; } else { unsigned RegListNumber = ++Counter; unsigned ShadowRegListNumber = ++Counter; O << IndentStr << "static const MCPhysReg RegList" << RegListNumber << "[] = {\n"; O << IndentStr << " "; ListSeparator LS; for (unsigned i = 0, e = RegList->size(); i != e; ++i) O << LS << getQualifiedName(RegList->getElementAsRecord(i)); O << "\n" << IndentStr << "};\n"; O << IndentStr << "static const MCPhysReg RegList" << ShadowRegListNumber << "[] = {\n"; O << IndentStr << " "; ListSeparator LSS; for (unsigned i = 0, e = ShadowRegList->size(); i != e; ++i) O << LSS << getQualifiedName(ShadowRegList->getElementAsRecord(i)); O << "\n" << IndentStr << "};\n"; O << IndentStr << "if (unsigned Reg = State.AllocateReg(RegList" << RegListNumber << ", " << "RegList" << ShadowRegListNumber << ")) {\n"; } O << IndentStr << " State.addLoc(CCValAssign::getReg(ValNo, ValVT, " << "Reg, LocVT, LocInfo));\n"; O << IndentStr << " return false;\n"; O << IndentStr << "}\n"; } else if (Action->isSubClassOf("CCAssignToStack")) { int Size = Action->getValueAsInt("Size"); int Align = Action->getValueAsInt("Align"); O << IndentStr << "unsigned Offset" << ++Counter << " = State.AllocateStack("; if (Size) O << Size << ", "; else O << "\n" << IndentStr << " State.getMachineFunction().getDataLayout()." "getTypeAllocSize(EVT(LocVT).getTypeForEVT(State.getContext()))," " "; if (Align) O << "Align(" << Align << ")"; else O << "\n" << IndentStr << " State.getMachineFunction().getDataLayout()." "getABITypeAlign(EVT(LocVT).getTypeForEVT(State.getContext()" "))"; O << ");\n" << IndentStr << "State.addLoc(CCValAssign::getMem(ValNo, ValVT, Offset" << Counter << ", LocVT, LocInfo));\n"; O << IndentStr << "return false;\n"; } else if (Action->isSubClassOf("CCAssignToStackWithShadow")) { int Size = Action->getValueAsInt("Size"); int Align = Action->getValueAsInt("Align"); ListInit *ShadowRegList = Action->getValueAsListInit("ShadowRegList"); unsigned ShadowRegListNumber = ++Counter; O << IndentStr << "static const MCPhysReg ShadowRegList" << ShadowRegListNumber << "[] = {\n"; O << IndentStr << " "; ListSeparator LS; for (unsigned i = 0, e = ShadowRegList->size(); i != e; ++i) O << LS << getQualifiedName(ShadowRegList->getElementAsRecord(i)); O << "\n" << IndentStr << "};\n"; O << IndentStr << "unsigned Offset" << ++Counter << " = State.AllocateStack(" << Size << ", Align(" << Align << "), " << "ShadowRegList" << ShadowRegListNumber << ");\n"; O << IndentStr << "State.addLoc(CCValAssign::getMem(ValNo, ValVT, Offset" << Counter << ", LocVT, LocInfo));\n"; O << IndentStr << "return false;\n"; } else if (Action->isSubClassOf("CCPromoteToType")) { Record *DestTy = Action->getValueAsDef("DestTy"); MVT::SimpleValueType DestVT = getValueType(DestTy); O << IndentStr << "LocVT = " << getEnumName(DestVT) <<";\n"; if (MVT(DestVT).isFloatingPoint()) { O << IndentStr << "LocInfo = CCValAssign::FPExt;\n"; } else { O << IndentStr << "if (ArgFlags.isSExt())\n" << IndentStr << " LocInfo = CCValAssign::SExt;\n" << IndentStr << "else if (ArgFlags.isZExt())\n" << IndentStr << " LocInfo = CCValAssign::ZExt;\n" << IndentStr << "else\n" << IndentStr << " LocInfo = CCValAssign::AExt;\n"; } } else if (Action->isSubClassOf("CCPromoteToUpperBitsInType")) { Record *DestTy = Action->getValueAsDef("DestTy"); MVT::SimpleValueType DestVT = getValueType(DestTy); O << IndentStr << "LocVT = " << getEnumName(DestVT) << ";\n"; if (MVT(DestVT).isFloatingPoint()) { PrintFatalError(Action->getLoc(), "CCPromoteToUpperBitsInType does not handle floating " "point"); } else { O << IndentStr << "if (ArgFlags.isSExt())\n" << IndentStr << " LocInfo = CCValAssign::SExtUpper;\n" << IndentStr << "else if (ArgFlags.isZExt())\n" << IndentStr << " LocInfo = CCValAssign::ZExtUpper;\n" << IndentStr << "else\n" << IndentStr << " LocInfo = CCValAssign::AExtUpper;\n"; } } else if (Action->isSubClassOf("CCBitConvertToType")) { Record *DestTy = Action->getValueAsDef("DestTy"); O << IndentStr << "LocVT = " << getEnumName(getValueType(DestTy)) <<";\n"; O << IndentStr << "LocInfo = CCValAssign::BCvt;\n"; } else if (Action->isSubClassOf("CCTruncToType")) { Record *DestTy = Action->getValueAsDef("DestTy"); O << IndentStr << "LocVT = " << getEnumName(getValueType(DestTy)) <<";\n"; O << IndentStr << "LocInfo = CCValAssign::Trunc;\n"; } else if (Action->isSubClassOf("CCPassIndirect")) { Record *DestTy = Action->getValueAsDef("DestTy"); O << IndentStr << "LocVT = " << getEnumName(getValueType(DestTy)) <<";\n"; O << IndentStr << "LocInfo = CCValAssign::Indirect;\n"; } else if (Action->isSubClassOf("CCPassByVal")) { int Size = Action->getValueAsInt("Size"); int Align = Action->getValueAsInt("Align"); O << IndentStr << "State.HandleByVal(ValNo, ValVT, LocVT, LocInfo, " << Size << ", Align(" << Align << "), ArgFlags);\n"; O << IndentStr << "return false;\n"; } else if (Action->isSubClassOf("CCCustom")) { O << IndentStr << "if (" << Action->getValueAsString("FuncName") << "(ValNo, ValVT, " << "LocVT, LocInfo, ArgFlags, State))\n"; O << IndentStr << " return false;\n"; } else { errs() << *Action; PrintFatalError(Action->getLoc(), "Unknown CCAction!"); } } } void CallingConvEmitter::EmitArgRegisterLists(raw_ostream &O) { // Transitively merge all delegated CCs into AssignedRegsMap. using EntryTy = std::pair>; bool Redo; do { Redo = false; std::deque Worklist(DelegateToMap.begin(), DelegateToMap.end()); while (!Worklist.empty()) { EntryTy Entry = Worklist.front(); Worklist.pop_front(); const std::string &CCName = Entry.first; std::set &Registers = Entry.second; if (!Registers.empty()) continue; for (auto &InnerEntry : Worklist) { const std::string &InnerCCName = InnerEntry.first; std::set &InnerRegisters = InnerEntry.second; if (InnerRegisters.find(CCName) != InnerRegisters.end()) { AssignedRegsMap[InnerCCName].insert( AssignedRegsMap[CCName].begin(), AssignedRegsMap[CCName].end()); InnerRegisters.erase(CCName); } } DelegateToMap.erase(CCName); Redo = true; } } while (Redo); if (AssignedRegsMap.empty()) return; O << "\n#else\n\n"; for (auto &Entry : AssignedRegsMap) { const std::string &RegName = Entry.first; std::set &Registers = Entry.second; if (RegName.empty()) continue; O << "const MCRegister " << Entry.first << "_ArgRegs[] = { "; if (Registers.empty()) { O << "0"; } else { ListSeparator LS; for (const std::string &Reg : Registers) O << LS << Reg; } O << " };\n"; } if (AssignedSwiftRegsMap.empty()) return; O << "\n// Registers used by Swift.\n"; for (auto &Entry : AssignedSwiftRegsMap) { const std::string &RegName = Entry.first; std::set &Registers = Entry.second; O << "const MCRegister " << RegName << "_Swift_ArgRegs[] = { "; ListSeparator LS; for (const std::string &Reg : Registers) O << LS << Reg; O << " };\n"; } } namespace llvm { void EmitCallingConv(RecordKeeper &RK, raw_ostream &OS) { emitSourceFileHeader("Calling Convention Implementation Fragment", OS); CallingConvEmitter(RK).run(OS); } } // End llvm namespace