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//===--- ByteCodeExprGen.cpp - Code generator for expressions ---*- C++ -*-===//
//
// 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
//
//===----------------------------------------------------------------------===//
#include "ByteCodeExprGen.h"
#include "ByteCodeEmitter.h"
#include "ByteCodeGenError.h"
#include "Context.h"
#include "Function.h"
#include "PrimType.h"
#include "Program.h"
#include "State.h"
using namespace clang;
using namespace clang::interp;
using APSInt = llvm::APSInt;
template <typename T> using Expected = llvm::Expected<T>;
template <typename T> using Optional = llvm::Optional<T>;
namespace clang {
namespace interp {
/// Scope used to handle temporaries in toplevel variable declarations.
template <class Emitter> class DeclScope final : public LocalScope<Emitter> {
public:
DeclScope(ByteCodeExprGen<Emitter> *Ctx, const VarDecl *VD)
: LocalScope<Emitter>(Ctx), Scope(Ctx->P, VD) {}
void addExtended(const Scope::Local &Local) override {
return this->addLocal(Local);
}
private:
Program::DeclScope Scope;
};
/// Scope used to handle initialization methods.
template <class Emitter> class OptionScope {
public:
using InitFnRef = typename ByteCodeExprGen<Emitter>::InitFnRef;
using ChainedInitFnRef = std::function<bool(InitFnRef)>;
/// Root constructor, compiling or discarding primitives.
OptionScope(ByteCodeExprGen<Emitter> *Ctx, bool NewDiscardResult)
: Ctx(Ctx), OldDiscardResult(Ctx->DiscardResult),
OldInitFn(std::move(Ctx->InitFn)) {
Ctx->DiscardResult = NewDiscardResult;
Ctx->InitFn = llvm::Optional<InitFnRef>{};
}
/// Root constructor, setting up compilation state.
OptionScope(ByteCodeExprGen<Emitter> *Ctx, InitFnRef NewInitFn)
: Ctx(Ctx), OldDiscardResult(Ctx->DiscardResult),
OldInitFn(std::move(Ctx->InitFn)) {
Ctx->DiscardResult = true;
Ctx->InitFn = NewInitFn;
}
/// Extends the chain of initialisation pointers.
OptionScope(ByteCodeExprGen<Emitter> *Ctx, ChainedInitFnRef NewInitFn)
: Ctx(Ctx), OldDiscardResult(Ctx->DiscardResult),
OldInitFn(std::move(Ctx->InitFn)) {
assert(OldInitFn && "missing initializer");
Ctx->InitFn = [this, NewInitFn] { return NewInitFn(*OldInitFn); };
}
~OptionScope() {
Ctx->DiscardResult = OldDiscardResult;
Ctx->InitFn = std::move(OldInitFn);
}
private:
/// Parent context.
ByteCodeExprGen<Emitter> *Ctx;
/// Old discard flag to restore.
bool OldDiscardResult;
/// Old pointer emitter to restore.
llvm::Optional<InitFnRef> OldInitFn;
};
} // namespace interp
} // namespace clang
template <class Emitter>
bool ByteCodeExprGen<Emitter>::VisitCastExpr(const CastExpr *CE) {
auto *SubExpr = CE->getSubExpr();
switch (CE->getCastKind()) {
case CK_LValueToRValue: {
return dereference(
CE->getSubExpr(), DerefKind::Read,
[](PrimType) {
// Value loaded - nothing to do here.
return true;
},
[this, CE](PrimType T) {
// Pointer on stack - dereference it.
if (!this->emitLoadPop(T, CE))
return false;
return DiscardResult ? this->emitPop(T, CE) : true;
});
}
case CK_ArrayToPointerDecay:
case CK_AtomicToNonAtomic:
case CK_ConstructorConversion:
case CK_FunctionToPointerDecay:
case CK_NonAtomicToAtomic:
case CK_NoOp:
case CK_UserDefinedConversion:
return this->Visit(SubExpr);
case CK_ToVoid:
return discard(SubExpr);
default: {
// TODO: implement other casts.
return this->bail(CE);
}
}
}
template <class Emitter>
bool ByteCodeExprGen<Emitter>::VisitIntegerLiteral(const IntegerLiteral *LE) {
if (DiscardResult)
return true;
auto Val = LE->getValue();
QualType LitTy = LE->getType();
if (Optional<PrimType> T = classify(LitTy))
return emitConst(*T, getIntWidth(LitTy), LE->getValue(), LE);
return this->bail(LE);
}
template <class Emitter>
bool ByteCodeExprGen<Emitter>::VisitParenExpr(const ParenExpr *PE) {
return this->Visit(PE->getSubExpr());
}
template <class Emitter>
bool ByteCodeExprGen<Emitter>::VisitBinaryOperator(const BinaryOperator *BO) {
const Expr *LHS = BO->getLHS();
const Expr *RHS = BO->getRHS();
// Deal with operations which have composite or void types.
switch (BO->getOpcode()) {
case BO_Comma:
if (!discard(LHS))
return false;
if (!this->Visit(RHS))
return false;
return true;
default:
break;
}
// Typecheck the args.
Optional<PrimType> LT = classify(LHS->getType());
Optional<PrimType> RT = classify(RHS->getType());
if (!LT || !RT) {
return this->bail(BO);
}
if (Optional<PrimType> T = classify(BO->getType())) {
if (!visit(LHS))
return false;
if (!visit(RHS))
return false;
auto Discard = [this, T, BO](bool Result) {
if (!Result)
return false;
return DiscardResult ? this->emitPop(*T, BO) : true;
};
switch (BO->getOpcode()) {
case BO_EQ:
return Discard(this->emitEQ(*LT, BO));
case BO_NE:
return Discard(this->emitNE(*LT, BO));
case BO_LT:
return Discard(this->emitLT(*LT, BO));
case BO_LE:
return Discard(this->emitLE(*LT, BO));
case BO_GT:
return Discard(this->emitGT(*LT, BO));
case BO_GE:
return Discard(this->emitGE(*LT, BO));
case BO_Sub:
return Discard(this->emitSub(*T, BO));
case BO_Add:
return Discard(this->emitAdd(*T, BO));
case BO_Mul:
return Discard(this->emitMul(*T, BO));
default:
return this->bail(BO);
}
}
return this->bail(BO);
}
template <class Emitter>
bool ByteCodeExprGen<Emitter>::discard(const Expr *E) {
OptionScope<Emitter> Scope(this, /*NewDiscardResult=*/true);
return this->Visit(E);
}
template <class Emitter>
bool ByteCodeExprGen<Emitter>::visit(const Expr *E) {
OptionScope<Emitter> Scope(this, /*NewDiscardResult=*/false);
return this->Visit(E);
}
template <class Emitter>
bool ByteCodeExprGen<Emitter>::visitBool(const Expr *E) {
if (Optional<PrimType> T = classify(E->getType())) {
return visit(E);
} else {
return this->bail(E);
}
}
template <class Emitter>
bool ByteCodeExprGen<Emitter>::visitZeroInitializer(PrimType T, const Expr *E) {
switch (T) {
case PT_Bool:
return this->emitZeroBool(E);
case PT_Sint8:
return this->emitZeroSint8(E);
case PT_Uint8:
return this->emitZeroUint8(E);
case PT_Sint16:
return this->emitZeroSint16(E);
case PT_Uint16:
return this->emitZeroUint16(E);
case PT_Sint32:
return this->emitZeroSint32(E);
case PT_Uint32:
return this->emitZeroUint32(E);
case PT_Sint64:
return this->emitZeroSint64(E);
case PT_Uint64:
return this->emitZeroUint64(E);
case PT_Ptr:
return this->emitNullPtr(E);
}
llvm_unreachable("unknown primitive type");
}
template <class Emitter>
bool ByteCodeExprGen<Emitter>::dereference(
const Expr *LV, DerefKind AK, llvm::function_ref<bool(PrimType)> Direct,
llvm::function_ref<bool(PrimType)> Indirect) {
if (Optional<PrimType> T = classify(LV->getType())) {
if (!LV->refersToBitField()) {
// Only primitive, non bit-field types can be dereferenced directly.
if (auto *DE = dyn_cast<DeclRefExpr>(LV)) {
if (!DE->getDecl()->getType()->isReferenceType()) {
if (auto *PD = dyn_cast<ParmVarDecl>(DE->getDecl()))
return dereferenceParam(LV, *T, PD, AK, Direct, Indirect);
if (auto *VD = dyn_cast<VarDecl>(DE->getDecl()))
return dereferenceVar(LV, *T, VD, AK, Direct, Indirect);
}
}
}
if (!visit(LV))
return false;
return Indirect(*T);
}
return false;
}
template <class Emitter>
bool ByteCodeExprGen<Emitter>::dereferenceParam(
const Expr *LV, PrimType T, const ParmVarDecl *PD, DerefKind AK,
llvm::function_ref<bool(PrimType)> Direct,
llvm::function_ref<bool(PrimType)> Indirect) {
auto It = this->Params.find(PD);
if (It != this->Params.end()) {
unsigned Idx = It->second;
switch (AK) {
case DerefKind::Read:
return DiscardResult ? true : this->emitGetParam(T, Idx, LV);
case DerefKind::Write:
if (!Direct(T))
return false;
if (!this->emitSetParam(T, Idx, LV))
return false;
return DiscardResult ? true : this->emitGetPtrParam(Idx, LV);
case DerefKind::ReadWrite:
if (!this->emitGetParam(T, Idx, LV))
return false;
if (!Direct(T))
return false;
if (!this->emitSetParam(T, Idx, LV))
return false;
return DiscardResult ? true : this->emitGetPtrParam(Idx, LV);
}
return true;
}
// If the param is a pointer, we can dereference a dummy value.
if (!DiscardResult && T == PT_Ptr && AK == DerefKind::Read) {
if (auto Idx = P.getOrCreateDummy(PD))
return this->emitGetPtrGlobal(*Idx, PD);
return false;
}
// Value cannot be produced - try to emit pointer and do stuff with it.
return visit(LV) && Indirect(T);
}
template <class Emitter>
bool ByteCodeExprGen<Emitter>::dereferenceVar(
const Expr *LV, PrimType T, const VarDecl *VD, DerefKind AK,
llvm::function_ref<bool(PrimType)> Direct,
llvm::function_ref<bool(PrimType)> Indirect) {
auto It = Locals.find(VD);
if (It != Locals.end()) {
const auto &L = It->second;
switch (AK) {
case DerefKind::Read:
if (!this->emitGetLocal(T, L.Offset, LV))
return false;
return DiscardResult ? this->emitPop(T, LV) : true;
case DerefKind::Write:
if (!Direct(T))
return false;
if (!this->emitSetLocal(T, L.Offset, LV))
return false;
return DiscardResult ? true : this->emitGetPtrLocal(L.Offset, LV);
case DerefKind::ReadWrite:
if (!this->emitGetLocal(T, L.Offset, LV))
return false;
if (!Direct(T))
return false;
if (!this->emitSetLocal(T, L.Offset, LV))
return false;
return DiscardResult ? true : this->emitGetPtrLocal(L.Offset, LV);
}
} else if (auto Idx = getGlobalIdx(VD)) {
switch (AK) {
case DerefKind::Read:
if (!this->emitGetGlobal(T, *Idx, LV))
return false;
return DiscardResult ? this->emitPop(T, LV) : true;
case DerefKind::Write:
if (!Direct(T))
return false;
if (!this->emitSetGlobal(T, *Idx, LV))
return false;
return DiscardResult ? true : this->emitGetPtrGlobal(*Idx, LV);
case DerefKind::ReadWrite:
if (!this->emitGetGlobal(T, *Idx, LV))
return false;
if (!Direct(T))
return false;
if (!this->emitSetGlobal(T, *Idx, LV))
return false;
return DiscardResult ? true : this->emitGetPtrGlobal(*Idx, LV);
}
}
// If the declaration is a constant value, emit it here even
// though the declaration was not evaluated in the current scope.
// The access mode can only be read in this case.
if (!DiscardResult && AK == DerefKind::Read) {
if (VD->hasLocalStorage() && VD->hasInit() && !VD->isConstexpr()) {
QualType VT = VD->getType();
if (VT.isConstQualified() && VT->isFundamentalType())
return this->Visit(VD->getInit());
}
}
// Value cannot be produced - try to emit pointer.
return visit(LV) && Indirect(T);
}
template <class Emitter>
bool ByteCodeExprGen<Emitter>::emitConst(PrimType T, unsigned NumBits,
const APInt &Value, const Expr *E) {
switch (T) {
case PT_Sint8:
return this->emitConstSint8(Value.getSExtValue(), E);
case PT_Uint8:
return this->emitConstUint8(Value.getZExtValue(), E);
case PT_Sint16:
return this->emitConstSint16(Value.getSExtValue(), E);
case PT_Uint16:
return this->emitConstUint16(Value.getZExtValue(), E);
case PT_Sint32:
return this->emitConstSint32(Value.getSExtValue(), E);
case PT_Uint32:
return this->emitConstUint32(Value.getZExtValue(), E);
case PT_Sint64:
return this->emitConstSint64(Value.getSExtValue(), E);
case PT_Uint64:
return this->emitConstUint64(Value.getZExtValue(), E);
case PT_Bool:
return this->emitConstBool(Value.getBoolValue(), E);
case PT_Ptr:
llvm_unreachable("Invalid integral type");
break;
}
llvm_unreachable("unknown primitive type");
}
template <class Emitter>
unsigned ByteCodeExprGen<Emitter>::allocateLocalPrimitive(DeclTy &&Src,
PrimType Ty,
bool IsConst,
bool IsExtended) {
Descriptor *D = P.createDescriptor(Src, Ty, IsConst, Src.is<const Expr *>());
Scope::Local Local = this->createLocal(D);
if (auto *VD = dyn_cast_or_null<ValueDecl>(Src.dyn_cast<const Decl *>()))
Locals.insert({VD, Local});
VarScope->add(Local, IsExtended);
return Local.Offset;
}
template <class Emitter>
llvm::Optional<unsigned>
ByteCodeExprGen<Emitter>::allocateLocal(DeclTy &&Src, bool IsExtended) {
QualType Ty;
const ValueDecl *Key = nullptr;
bool IsTemporary = false;
if (auto *VD = dyn_cast_or_null<ValueDecl>(Src.dyn_cast<const Decl *>())) {
Key = VD;
Ty = VD->getType();
}
if (auto *E = Src.dyn_cast<const Expr *>()) {
IsTemporary = true;
Ty = E->getType();
}
Descriptor *D = P.createDescriptor(Src, Ty.getTypePtr(),
Ty.isConstQualified(), IsTemporary);
if (!D)
return {};
Scope::Local Local = this->createLocal(D);
if (Key)
Locals.insert({Key, Local});
VarScope->add(Local, IsExtended);
return Local.Offset;
}
template <class Emitter>
bool ByteCodeExprGen<Emitter>::visitInitializer(
const Expr *Init, InitFnRef InitFn) {
OptionScope<Emitter> Scope(this, InitFn);
return this->Visit(Init);
}
template <class Emitter>
bool ByteCodeExprGen<Emitter>::getPtrVarDecl(const VarDecl *VD, const Expr *E) {
// Generate a pointer to the local, loading refs.
if (Optional<unsigned> Idx = getGlobalIdx(VD)) {
if (VD->getType()->isReferenceType())
return this->emitGetGlobalPtr(*Idx, E);
else
return this->emitGetPtrGlobal(*Idx, E);
}
return this->bail(VD);
}
template <class Emitter>
llvm::Optional<unsigned>
ByteCodeExprGen<Emitter>::getGlobalIdx(const VarDecl *VD) {
if (VD->isConstexpr()) {
// Constexpr decl - it must have already been defined.
return P.getGlobal(VD);
}
if (!VD->hasLocalStorage()) {
// Not constexpr, but a global var - can have pointer taken.
Program::DeclScope Scope(P, VD);
return P.getOrCreateGlobal(VD);
}
return {};
}
template <class Emitter>
const RecordType *ByteCodeExprGen<Emitter>::getRecordTy(QualType Ty) {
if (auto *PT = dyn_cast<PointerType>(Ty))
return PT->getPointeeType()->getAs<RecordType>();
else
return Ty->getAs<RecordType>();
}
template <class Emitter>
Record *ByteCodeExprGen<Emitter>::getRecord(QualType Ty) {
if (auto *RecordTy = getRecordTy(Ty)) {
return getRecord(RecordTy->getDecl());
}
return nullptr;
}
template <class Emitter>
Record *ByteCodeExprGen<Emitter>::getRecord(const RecordDecl *RD) {
return P.getOrCreateRecord(RD);
}
template <class Emitter>
bool ByteCodeExprGen<Emitter>::visitExpr(const Expr *Exp) {
ExprScope<Emitter> RootScope(this);
if (!visit(Exp))
return false;
if (Optional<PrimType> T = classify(Exp))
return this->emitRet(*T, Exp);
else
return this->emitRetValue(Exp);
}
template <class Emitter>
bool ByteCodeExprGen<Emitter>::visitDecl(const VarDecl *VD) {
const Expr *Init = VD->getInit();
if (Optional<unsigned> I = P.createGlobal(VD)) {
if (Optional<PrimType> T = classify(VD->getType())) {
{
// Primitive declarations - compute the value and set it.
DeclScope<Emitter> LocalScope(this, VD);
if (!visit(Init))
return false;
}
// If the declaration is global, save the value for later use.
if (!this->emitDup(*T, VD))
return false;
if (!this->emitInitGlobal(*T, *I, VD))
return false;
return this->emitRet(*T, VD);
} else {
{
// Composite declarations - allocate storage and initialize it.
DeclScope<Emitter> LocalScope(this, VD);
if (!visitGlobalInitializer(Init, *I))
return false;
}
// Return a pointer to the global.
if (!this->emitGetPtrGlobal(*I, VD))
return false;
return this->emitRetValue(VD);
}
}
return this->bail(VD);
}
template <class Emitter>
void ByteCodeExprGen<Emitter>::emitCleanup() {
for (VariableScope<Emitter> *C = VarScope; C; C = C->getParent())
C->emitDestruction();
}
namespace clang {
namespace interp {
template class ByteCodeExprGen<ByteCodeEmitter>;
template class ByteCodeExprGen<EvalEmitter>;
} // namespace interp
} // namespace clang
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