//===- CodeGenIntrinsics.cpp - Intrinsic Class Wrapper --------------------===// // // 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 defines a wrapper class for the 'Intrinsic' TableGen class. // //===----------------------------------------------------------------------===// #include "CodeGenIntrinsics.h" #include "llvm/ADT/ArrayRef.h" #include "llvm/ADT/STLExtras.h" #include "llvm/ADT/Twine.h" #include "llvm/Support/ErrorHandling.h" #include "llvm/TableGen/Error.h" #include "llvm/TableGen/Record.h" #include #include using namespace llvm; //===----------------------------------------------------------------------===// // CodeGenIntrinsic Implementation //===----------------------------------------------------------------------===// CodeGenIntrinsicTable::CodeGenIntrinsicTable(const RecordKeeper &RC) { std::vector IntrProperties = RC.getAllDerivedDefinitions("IntrinsicProperty"); std::vector DefaultProperties; for (Record *Rec : IntrProperties) if (Rec->getValueAsBit("IsDefault")) DefaultProperties.push_back(Rec); std::vector Defs = RC.getAllDerivedDefinitions("Intrinsic"); Intrinsics.reserve(Defs.size()); for (unsigned I = 0, e = Defs.size(); I != e; ++I) Intrinsics.push_back(CodeGenIntrinsic(Defs[I], DefaultProperties)); llvm::sort(Intrinsics, [](const CodeGenIntrinsic &LHS, const CodeGenIntrinsic &RHS) { return std::tie(LHS.TargetPrefix, LHS.Name) < std::tie(RHS.TargetPrefix, RHS.Name); }); Targets.push_back({"", 0, 0}); for (size_t I = 0, E = Intrinsics.size(); I < E; ++I) if (Intrinsics[I].TargetPrefix != Targets.back().Name) { Targets.back().Count = I - Targets.back().Offset; Targets.push_back({Intrinsics[I].TargetPrefix, I, 0}); } Targets.back().Count = Intrinsics.size() - Targets.back().Offset; } CodeGenIntrinsic::CodeGenIntrinsic(Record *R, ArrayRef DefaultProperties) { TheDef = R; std::string DefName = std::string(R->getName()); ArrayRef DefLoc = R->getLoc(); Properties = 0; isOverloaded = false; isCommutative = false; canThrow = false; isNoReturn = false; isNoCallback = false; isNoSync = false; isNoFree = false; isWillReturn = false; isCold = false; isNoDuplicate = false; isNoMerge = false; isConvergent = false; isSpeculatable = false; hasSideEffects = false; isStrictFP = false; if (DefName.size() <= 4 || DefName.substr(0, 4) != "int_") PrintFatalError(DefLoc, "Intrinsic '" + DefName + "' does not start with 'int_'!"); EnumName = DefName.substr(4); if (R->getValue( "ClangBuiltinName")) // Ignore a missing ClangBuiltinName field. ClangBuiltinName = std::string(R->getValueAsString("ClangBuiltinName")); if (R->getValue("MSBuiltinName")) // Ignore a missing MSBuiltinName field. MSBuiltinName = std::string(R->getValueAsString("MSBuiltinName")); TargetPrefix = std::string(R->getValueAsString("TargetPrefix")); Name = std::string(R->getValueAsString("LLVMName")); if (Name == "") { // If an explicit name isn't specified, derive one from the DefName. Name = "llvm."; for (unsigned i = 0, e = EnumName.size(); i != e; ++i) Name += (EnumName[i] == '_') ? '.' : EnumName[i]; } else { // Verify it starts with "llvm.". if (Name.size() <= 5 || Name.substr(0, 5) != "llvm.") PrintFatalError(DefLoc, "Intrinsic '" + DefName + "'s name does not start with 'llvm.'!"); } // If TargetPrefix is specified, make sure that Name starts with // "llvm..". if (!TargetPrefix.empty()) { if (Name.size() < 6 + TargetPrefix.size() || Name.substr(5, 1 + TargetPrefix.size()) != (TargetPrefix + ".")) PrintFatalError(DefLoc, "Intrinsic '" + DefName + "' does not start with 'llvm." + TargetPrefix + ".'!"); } if (auto *Types = R->getValue("Types")) { auto *TypeList = cast(Types->getValue()); isOverloaded = R->getValueAsBit("isOverloaded"); unsigned I = 0; for (unsigned E = R->getValueAsListInit("RetTypes")->size(); I < E; ++I) IS.RetTys.push_back(TypeList->getElementAsRecord(I)); for (unsigned E = TypeList->size(); I < E; ++I) IS.ParamTys.push_back(TypeList->getElementAsRecord(I)); } // Parse the intrinsic properties. ListInit *PropList = R->getValueAsListInit("IntrProperties"); for (unsigned i = 0, e = PropList->size(); i != e; ++i) { Record *Property = PropList->getElementAsRecord(i); assert(Property->isSubClassOf("IntrinsicProperty") && "Expected a property!"); setProperty(Property); } // Set default properties to true. setDefaultProperties(R, DefaultProperties); // Also record the SDPatternOperator Properties. Properties = parseSDPatternOperatorProperties(R); // Sort the argument attributes for later benefit. for (auto &Attrs : ArgumentAttributes) llvm::sort(Attrs); } void CodeGenIntrinsic::setDefaultProperties( Record *R, ArrayRef DefaultProperties) { // opt-out of using default attributes. if (R->getValueAsBit("DisableDefaultAttributes")) return; for (Record *Rec : DefaultProperties) setProperty(Rec); } void CodeGenIntrinsic::setProperty(Record *R) { if (R->getName() == "IntrNoMem") ME = MemoryEffects::none(); else if (R->getName() == "IntrReadMem") { if (ME.onlyWritesMemory()) PrintFatalError(TheDef->getLoc(), Twine("IntrReadMem cannot be used after IntrNoMem or " "IntrWriteMem. Default is ReadWrite")); ME &= MemoryEffects::readOnly(); } else if (R->getName() == "IntrWriteMem") { if (ME.onlyReadsMemory()) PrintFatalError(TheDef->getLoc(), Twine("IntrWriteMem cannot be used after IntrNoMem or " "IntrReadMem. Default is ReadWrite")); ME &= MemoryEffects::writeOnly(); } else if (R->getName() == "IntrArgMemOnly") ME &= MemoryEffects::argMemOnly(); else if (R->getName() == "IntrInaccessibleMemOnly") ME &= MemoryEffects::inaccessibleMemOnly(); else if (R->getName() == "IntrInaccessibleMemOrArgMemOnly") ME &= MemoryEffects::inaccessibleOrArgMemOnly(); else if (R->getName() == "Commutative") isCommutative = true; else if (R->getName() == "Throws") canThrow = true; else if (R->getName() == "IntrNoDuplicate") isNoDuplicate = true; else if (R->getName() == "IntrNoMerge") isNoMerge = true; else if (R->getName() == "IntrConvergent") isConvergent = true; else if (R->getName() == "IntrNoReturn") isNoReturn = true; else if (R->getName() == "IntrNoCallback") isNoCallback = true; else if (R->getName() == "IntrNoSync") isNoSync = true; else if (R->getName() == "IntrNoFree") isNoFree = true; else if (R->getName() == "IntrWillReturn") isWillReturn = !isNoReturn; else if (R->getName() == "IntrCold") isCold = true; else if (R->getName() == "IntrSpeculatable") isSpeculatable = true; else if (R->getName() == "IntrHasSideEffects") hasSideEffects = true; else if (R->getName() == "IntrStrictFP") isStrictFP = true; else if (R->isSubClassOf("NoCapture")) { unsigned ArgNo = R->getValueAsInt("ArgNo"); addArgAttribute(ArgNo, NoCapture); } else if (R->isSubClassOf("NoAlias")) { unsigned ArgNo = R->getValueAsInt("ArgNo"); addArgAttribute(ArgNo, NoAlias); } else if (R->isSubClassOf("NoUndef")) { unsigned ArgNo = R->getValueAsInt("ArgNo"); addArgAttribute(ArgNo, NoUndef); } else if (R->isSubClassOf("NonNull")) { unsigned ArgNo = R->getValueAsInt("ArgNo"); addArgAttribute(ArgNo, NonNull); } else if (R->isSubClassOf("Returned")) { unsigned ArgNo = R->getValueAsInt("ArgNo"); addArgAttribute(ArgNo, Returned); } else if (R->isSubClassOf("ReadOnly")) { unsigned ArgNo = R->getValueAsInt("ArgNo"); addArgAttribute(ArgNo, ReadOnly); } else if (R->isSubClassOf("WriteOnly")) { unsigned ArgNo = R->getValueAsInt("ArgNo"); addArgAttribute(ArgNo, WriteOnly); } else if (R->isSubClassOf("ReadNone")) { unsigned ArgNo = R->getValueAsInt("ArgNo"); addArgAttribute(ArgNo, ReadNone); } else if (R->isSubClassOf("ImmArg")) { unsigned ArgNo = R->getValueAsInt("ArgNo"); addArgAttribute(ArgNo, ImmArg); } else if (R->isSubClassOf("Align")) { unsigned ArgNo = R->getValueAsInt("ArgNo"); uint64_t Align = R->getValueAsInt("Align"); addArgAttribute(ArgNo, Alignment, Align); } else if (R->isSubClassOf("Dereferenceable")) { unsigned ArgNo = R->getValueAsInt("ArgNo"); uint64_t Bytes = R->getValueAsInt("Bytes"); addArgAttribute(ArgNo, Dereferenceable, Bytes); } else llvm_unreachable("Unknown property!"); } bool CodeGenIntrinsic::isParamAPointer(unsigned ParamIdx) const { if (ParamIdx >= IS.ParamTys.size()) return false; return (IS.ParamTys[ParamIdx]->isSubClassOf("LLVMQualPointerType") || IS.ParamTys[ParamIdx]->isSubClassOf("LLVMAnyPointerType")); } bool CodeGenIntrinsic::isParamImmArg(unsigned ParamIdx) const { // Convert argument index to attribute index starting from `FirstArgIndex`. ++ParamIdx; if (ParamIdx >= ArgumentAttributes.size()) return false; ArgAttribute Val{ImmArg, 0}; return std::binary_search(ArgumentAttributes[ParamIdx].begin(), ArgumentAttributes[ParamIdx].end(), Val); } void CodeGenIntrinsic::addArgAttribute(unsigned Idx, ArgAttrKind AK, uint64_t V) { if (Idx >= ArgumentAttributes.size()) ArgumentAttributes.resize(Idx + 1); ArgumentAttributes[Idx].emplace_back(AK, V); }