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//===----------------------------------------------------------------------===//
//
// 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 contains code dealing with C++ code generation of virtual tables.
//
//===----------------------------------------------------------------------===//
#include "CIRGenVTables.h"
#include "CIRGenCXXABI.h"
#include "CIRGenModule.h"
#include "mlir/IR/Types.h"
#include "clang/AST/VTTBuilder.h"
#include "clang/AST/VTableBuilder.h"
#include "llvm/ADT/SmallVector.h"
using namespace llvm;
using namespace clang;
using namespace clang::CIRGen;
CIRGenVTables::CIRGenVTables(CIRGenModule &cgm)
: cgm(cgm), vtContext(cgm.getASTContext().getVTableContext()) {}
mlir::Type CIRGenModule::getVTableComponentType() {
mlir::Type ptrTy = builder.getUInt8PtrTy();
assert(!cir::MissingFeatures::vtableRelativeLayout());
return ptrTy;
}
mlir::Type CIRGenVTables::getVTableComponentType() {
return cgm.getVTableComponentType();
}
cir::RecordType CIRGenVTables::getVTableType(const VTableLayout &layout) {
SmallVector<mlir::Type, 4> tys;
mlir::Type componentType = getVTableComponentType();
for (unsigned i = 0, e = layout.getNumVTables(); i != e; ++i)
tys.push_back(cir::ArrayType::get(componentType, layout.getVTableSize(i)));
// FIXME(cir): should VTableLayout be encoded like we do for some
// AST nodes?
return cgm.getBuilder().getAnonRecordTy(tys, /*incomplete=*/false);
}
/// This is a callback from Sema to tell us that a particular vtable is
/// required to be emitted in this translation unit.
///
/// This is only called for vtables that _must_ be emitted (mainly due to key
/// functions). For weak vtables, CodeGen tracks when they are needed and
/// emits them as-needed.
void CIRGenModule::emitVTable(const CXXRecordDecl *rd) {
vtables.generateClassData(rd);
}
void CIRGenVTables::generateClassData(const CXXRecordDecl *rd) {
assert(!cir::MissingFeatures::generateDebugInfo());
if (rd->getNumVBases())
cgm.getCXXABI().emitVirtualInheritanceTables(rd);
cgm.getCXXABI().emitVTableDefinitions(*this, rd);
}
mlir::Attribute CIRGenVTables::getVTableComponent(
const VTableLayout &layout, unsigned componentIndex, mlir::Attribute rtti,
unsigned &nextVTableThunkIndex, unsigned vtableAddressPoint,
bool vtableHasLocalLinkage) {
const VTableComponent &component = layout.vtable_components()[componentIndex];
CIRGenBuilderTy builder = cgm.getBuilder();
assert(!cir::MissingFeatures::vtableRelativeLayout());
switch (component.getKind()) {
case VTableComponent::CK_CompleteDtorPointer:
cgm.errorNYI("getVTableComponent: CompleteDtorPointer");
return mlir::Attribute();
case VTableComponent::CK_DeletingDtorPointer:
cgm.errorNYI("getVTableComponent: DeletingDtorPointer");
return mlir::Attribute();
case VTableComponent::CK_UnusedFunctionPointer:
cgm.errorNYI("getVTableComponent: UnusedFunctionPointer");
return mlir::Attribute();
case VTableComponent::CK_VCallOffset:
return builder.getConstPtrAttr(builder.getUInt8PtrTy(),
component.getVCallOffset().getQuantity());
case VTableComponent::CK_VBaseOffset:
return builder.getConstPtrAttr(builder.getUInt8PtrTy(),
component.getVBaseOffset().getQuantity());
case VTableComponent::CK_OffsetToTop:
return builder.getConstPtrAttr(builder.getUInt8PtrTy(),
component.getOffsetToTop().getQuantity());
case VTableComponent::CK_RTTI:
assert((mlir::isa<cir::GlobalViewAttr>(rtti) ||
mlir::isa<cir::ConstPtrAttr>(rtti)) &&
"expected GlobalViewAttr or ConstPtrAttr");
return rtti;
case VTableComponent::CK_FunctionPointer: {
GlobalDecl gd = component.getGlobalDecl();
assert(!cir::MissingFeatures::cudaSupport());
cir::FuncOp fnPtr;
if (cast<CXXMethodDecl>(gd.getDecl())->isPureVirtual()) {
cgm.errorNYI("getVTableComponent: CK_FunctionPointer: pure virtual");
return mlir::Attribute();
} else if (cast<CXXMethodDecl>(gd.getDecl())->isDeleted()) {
cgm.errorNYI("getVTableComponent: CK_FunctionPointer: deleted virtual");
return mlir::Attribute();
} else if (nextVTableThunkIndex < layout.vtable_thunks().size() &&
layout.vtable_thunks()[nextVTableThunkIndex].first ==
componentIndex) {
cgm.errorNYI("getVTableComponent: CK_FunctionPointer: thunk");
return mlir::Attribute();
} else {
// Otherwise we can use the method definition directly.
cir::FuncType fnTy = cgm.getTypes().getFunctionTypeForVTable(gd);
fnPtr = cgm.getAddrOfFunction(gd, fnTy, /*ForVTable=*/true);
}
return cir::GlobalViewAttr::get(
builder.getUInt8PtrTy(),
mlir::FlatSymbolRefAttr::get(fnPtr.getSymNameAttr()));
}
}
llvm_unreachable("Unexpected vtable component kind");
}
void CIRGenVTables::createVTableInitializer(cir::GlobalOp &vtableOp,
const clang::VTableLayout &layout,
mlir::Attribute rtti,
bool vtableHasLocalLinkage) {
mlir::Type componentType = getVTableComponentType();
const llvm::SmallVectorImpl<unsigned> &addressPoints =
layout.getAddressPointIndices();
unsigned nextVTableThunkIndex = 0;
mlir::MLIRContext *mlirContext = &cgm.getMLIRContext();
SmallVector<mlir::Attribute> vtables;
for (auto [vtableIndex, addressPoint] : llvm::enumerate(addressPoints)) {
// Build a ConstArrayAttr of the vtable components.
size_t vtableStart = layout.getVTableOffset(vtableIndex);
size_t vtableEnd = vtableStart + layout.getVTableSize(vtableIndex);
llvm::SmallVector<mlir::Attribute> components;
components.reserve(vtableEnd - vtableStart);
for (size_t componentIndex : llvm::seq(vtableStart, vtableEnd))
components.push_back(
getVTableComponent(layout, componentIndex, rtti, nextVTableThunkIndex,
addressPoint, vtableHasLocalLinkage));
// Create a ConstArrayAttr to hold the components.
auto arr = cir::ConstArrayAttr::get(
cir::ArrayType::get(componentType, components.size()),
mlir::ArrayAttr::get(mlirContext, components));
vtables.push_back(arr);
}
// Create a ConstRecordAttr to hold the component array.
const auto members = mlir::ArrayAttr::get(mlirContext, vtables);
cir::ConstRecordAttr record = cgm.getBuilder().getAnonConstRecord(members);
// Create a VTableAttr
auto vtableAttr = cir::VTableAttr::get(record.getType(), record.getMembers());
// Add the vtable initializer to the vtable global op.
cgm.setInitializer(vtableOp, vtableAttr);
}
cir::GlobalOp CIRGenVTables::generateConstructionVTable(
const CXXRecordDecl *rd, const BaseSubobject &base, bool baseIsVirtual,
cir::GlobalLinkageKind linkage, VTableAddressPointsMapTy &addressPoints) {
assert(!cir::MissingFeatures::generateDebugInfo());
std::unique_ptr<VTableLayout> vtLayout(
getItaniumVTableContext().createConstructionVTableLayout(
base.getBase(), base.getBaseOffset(), baseIsVirtual, rd));
// Add the address points.
addressPoints = vtLayout->getAddressPoints();
// Get the mangled construction vtable name.
SmallString<256> outName;
llvm::raw_svector_ostream out(outName);
cast<ItaniumMangleContext>(cgm.getCXXABI().getMangleContext())
.mangleCXXCtorVTable(rd, base.getBaseOffset().getQuantity(),
base.getBase(), out);
SmallString<256> name(outName);
assert(!cir::MissingFeatures::vtableRelativeLayout());
cir::RecordType vtType = getVTableType(*vtLayout);
// Construction vtable symbols are not part of the Itanium ABI, so we cannot
// guarantee that they actually will be available externally. Instead, when
// emitting an available_externally VTT, we provide references to an internal
// linkage construction vtable. The ABI only requires complete-object vtables
// to be the same for all instances of a type, not construction vtables.
if (linkage == cir::GlobalLinkageKind::AvailableExternallyLinkage)
linkage = cir::GlobalLinkageKind::InternalLinkage;
llvm::Align align = cgm.getDataLayout().getABITypeAlign(vtType);
mlir::Location loc = cgm.getLoc(rd->getSourceRange());
// Create the variable that will hold the construction vtable.
cir::GlobalOp vtable = cgm.createOrReplaceCXXRuntimeVariable(
loc, name, vtType, linkage, CharUnits::fromQuantity(align));
// V-tables are always unnamed_addr.
assert(!cir::MissingFeatures::opGlobalUnnamedAddr());
mlir::Attribute rtti = cgm.getAddrOfRTTIDescriptor(
loc, cgm.getASTContext().getCanonicalTagType(base.getBase()));
// Create and set the initializer.
createVTableInitializer(vtable, *vtLayout, rtti,
cir::isLocalLinkage(vtable.getLinkage()));
// Set properties only after the initializer has been set to ensure that the
// GV is treated as definition and not declaration.
assert(!vtable.isDeclaration() && "Shouldn't set properties on declaration");
cgm.setGVProperties(vtable, rd);
assert(!cir::MissingFeatures::vtableEmitMetadata());
assert(!cir::MissingFeatures::vtableRelativeLayout());
return vtable;
}
/// Compute the required linkage of the vtable for the given class.
///
/// Note that we only call this at the end of the translation unit.
cir::GlobalLinkageKind CIRGenModule::getVTableLinkage(const CXXRecordDecl *rd) {
if (!rd->isExternallyVisible())
return cir::GlobalLinkageKind::InternalLinkage;
// We're at the end of the translation unit, so the current key
// function is fully correct.
const CXXMethodDecl *keyFunction = astContext.getCurrentKeyFunction(rd);
if (keyFunction && !rd->hasAttr<DLLImportAttr>()) {
// If this class has a key function, use that to determine the
// linkage of the vtable.
const FunctionDecl *def = nullptr;
if (keyFunction->hasBody(def))
keyFunction = cast<CXXMethodDecl>(def);
// All of the cases below do something different with AppleKext enabled.
assert(!cir::MissingFeatures::appleKext());
switch (keyFunction->getTemplateSpecializationKind()) {
case TSK_Undeclared:
case TSK_ExplicitSpecialization:
assert(
(def || codeGenOpts.OptimizationLevel > 0 ||
codeGenOpts.getDebugInfo() != llvm::codegenoptions::NoDebugInfo) &&
"Shouldn't query vtable linkage without key function, "
"optimizations, or debug info");
if (!def && codeGenOpts.OptimizationLevel > 0)
return cir::GlobalLinkageKind::AvailableExternallyLinkage;
if (keyFunction->isInlined())
return !astContext.getLangOpts().AppleKext
? cir::GlobalLinkageKind::LinkOnceODRLinkage
: cir::GlobalLinkageKind::InternalLinkage;
return cir::GlobalLinkageKind::ExternalLinkage;
case TSK_ImplicitInstantiation:
return cir::GlobalLinkageKind::LinkOnceODRLinkage;
case TSK_ExplicitInstantiationDefinition:
return cir::GlobalLinkageKind::WeakODRLinkage;
case TSK_ExplicitInstantiationDeclaration:
llvm_unreachable("Should not have been asked to emit this");
}
}
errorNYI(rd->getSourceRange(), "getVTableLinkage: no key function");
return cir::GlobalLinkageKind::ExternalLinkage;
}
cir::GlobalOp CIRGenVTables::getAddrOfVTT(const CXXRecordDecl *rd) {
assert(rd->getNumVBases() && "Only classes with virtual bases need a VTT");
SmallString<256> outName;
llvm::raw_svector_ostream out(outName);
cast<ItaniumMangleContext>(cgm.getCXXABI().getMangleContext())
.mangleCXXVTT(rd, out);
StringRef name = outName.str();
// This will also defer the definition of the VTT.
(void)cgm.getCXXABI().getAddrOfVTable(rd, CharUnits());
VTTBuilder builder(cgm.getASTContext(), rd, /*GenerateDefinition=*/false);
auto arrayType = cir::ArrayType::get(cgm.getBuilder().getUInt8PtrTy(),
builder.getVTTComponents().size());
llvm::Align align =
cgm.getDataLayout().getABITypeAlign(cgm.getBuilder().getUInt8PtrTy());
cir::GlobalOp vtt = cgm.createOrReplaceCXXRuntimeVariable(
cgm.getLoc(rd->getSourceRange()), name, arrayType,
cir::GlobalLinkageKind::ExternalLinkage, CharUnits::fromQuantity(align));
cgm.setGVProperties(vtt, rd);
return vtt;
}
static cir::GlobalOp
getAddrOfVTTVTable(CIRGenVTables &cgvt, CIRGenModule &cgm,
const CXXRecordDecl *mostDerivedClass,
const VTTVTable &vtable, cir::GlobalLinkageKind linkage,
VTableLayout::AddressPointsMapTy &addressPoints) {
if (vtable.getBase() == mostDerivedClass) {
assert(vtable.getBaseOffset().isZero() &&
"Most derived class vtable must have a zero offset!");
// This is a regular vtable.
return cgm.getCXXABI().getAddrOfVTable(mostDerivedClass, CharUnits());
}
return cgvt.generateConstructionVTable(
mostDerivedClass, vtable.getBaseSubobject(), vtable.isVirtual(), linkage,
addressPoints);
}
/// Emit the definition of the given vtable.
void CIRGenVTables::emitVTTDefinition(cir::GlobalOp vttOp,
cir::GlobalLinkageKind linkage,
const CXXRecordDecl *rd) {
VTTBuilder builder(cgm.getASTContext(), rd, /*GenerateDefinition=*/true);
mlir::MLIRContext *mlirContext = &cgm.getMLIRContext();
auto arrayType = cir::ArrayType::get(cgm.getBuilder().getUInt8PtrTy(),
builder.getVTTComponents().size());
SmallVector<cir::GlobalOp> vtables;
SmallVector<VTableAddressPointsMapTy> vtableAddressPoints;
for (const VTTVTable &vtt : builder.getVTTVTables()) {
vtableAddressPoints.push_back(VTableAddressPointsMapTy());
vtables.push_back(getAddrOfVTTVTable(*this, cgm, rd, vtt, linkage,
vtableAddressPoints.back()));
}
SmallVector<mlir::Attribute> vttComponents;
for (const VTTComponent &vttComponent : builder.getVTTComponents()) {
const VTTVTable &vttVT = builder.getVTTVTables()[vttComponent.VTableIndex];
cir::GlobalOp vtable = vtables[vttComponent.VTableIndex];
VTableLayout::AddressPointLocation addressPoint;
if (vttVT.getBase() == rd) {
// Just get the address point for the regular vtable.
addressPoint =
getItaniumVTableContext().getVTableLayout(rd).getAddressPoint(
vttComponent.VTableBase);
} else {
addressPoint = vtableAddressPoints[vttComponent.VTableIndex].lookup(
vttComponent.VTableBase);
assert(addressPoint.AddressPointIndex != 0 &&
"Did not find ctor vtable address point!");
}
mlir::Attribute indices[2] = {
cgm.getBuilder().getI32IntegerAttr(addressPoint.VTableIndex),
cgm.getBuilder().getI32IntegerAttr(addressPoint.AddressPointIndex),
};
auto indicesAttr = mlir::ArrayAttr::get(mlirContext, indices);
cir::GlobalViewAttr init = cgm.getBuilder().getGlobalViewAttr(
cgm.getBuilder().getUInt8PtrTy(), vtable, indicesAttr);
vttComponents.push_back(init);
}
auto init = cir::ConstArrayAttr::get(
arrayType, mlir::ArrayAttr::get(mlirContext, vttComponents));
vttOp.setInitialValueAttr(init);
// Set the correct linkage.
vttOp.setLinkage(linkage);
mlir::SymbolTable::setSymbolVisibility(
vttOp, CIRGenModule::getMLIRVisibility(vttOp));
if (cgm.supportsCOMDAT() && vttOp.isWeakForLinker())
vttOp.setComdat(true);
}
uint64_t CIRGenVTables::getSubVTTIndex(const CXXRecordDecl *rd,
BaseSubobject base) {
BaseSubobjectPairTy classSubobjectPair(rd, base);
SubVTTIndiciesMapTy::iterator it = subVTTIndicies.find(classSubobjectPair);
if (it != subVTTIndicies.end())
return it->second;
VTTBuilder builder(cgm.getASTContext(), rd, /*GenerateDefinition=*/false);
for (const auto &entry : builder.getSubVTTIndices()) {
// Insert all indices.
BaseSubobjectPairTy subclassSubobjectPair(rd, entry.first);
subVTTIndicies.insert(std::make_pair(subclassSubobjectPair, entry.second));
}
it = subVTTIndicies.find(classSubobjectPair);
assert(it != subVTTIndicies.end() && "Did not find index!");
return it->second;
}
uint64_t CIRGenVTables::getSecondaryVirtualPointerIndex(const CXXRecordDecl *rd,
BaseSubobject base) {
auto it = secondaryVirtualPointerIndices.find(std::make_pair(rd, base));
if (it != secondaryVirtualPointerIndices.end())
return it->second;
VTTBuilder builder(cgm.getASTContext(), rd, /*GenerateDefinition=*/false);
// Insert all secondary vpointer indices.
for (const auto &entry : builder.getSecondaryVirtualPointerIndices()) {
std::pair<const CXXRecordDecl *, BaseSubobject> pair =
std::make_pair(rd, entry.first);
secondaryVirtualPointerIndices.insert(std::make_pair(pair, entry.second));
}
it = secondaryVirtualPointerIndices.find(std::make_pair(rd, base));
assert(it != secondaryVirtualPointerIndices.end() && "Did not find index!");
return it->second;
}
void CIRGenVTables::emitThunks(GlobalDecl gd) {
const CXXMethodDecl *md =
cast<CXXMethodDecl>(gd.getDecl())->getCanonicalDecl();
// We don't need to generate thunks for the base destructor.
if (isa<CXXDestructorDecl>(md) && gd.getDtorType() == Dtor_Base)
return;
const VTableContextBase::ThunkInfoVectorTy *thunkInfoVector =
vtContext->getThunkInfo(gd);
if (!thunkInfoVector)
return;
cgm.errorNYI(md->getSourceRange(), "emitThunks");
}
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