diff --git a/clang/lib/CIR/CodeGen/CIRGenBuilder.h b/clang/lib/CIR/CodeGen/CIRGenBuilder.h index 517465112240..a52ad79a500e 100644 --- a/clang/lib/CIR/CodeGen/CIRGenBuilder.h +++ b/clang/lib/CIR/CodeGen/CIRGenBuilder.h @@ -460,11 +460,6 @@ class CIRGenBuilderTy : public mlir::OpBuilder { return getConstInt( loc, t, isSigned ? intVal.getSExtValue() : intVal.getZExtValue()); } - mlir::Value getConstAPInt(mlir::Location loc, mlir::Type typ, - const llvm::APInt &val) { - return create(loc, typ, - getAttr(typ, val)); - } mlir::cir::ConstantOp getBool(bool state, mlir::Location loc) { return create(loc, getBoolTy(), getCIRBoolAttr(state)); @@ -682,65 +677,6 @@ class CIRGenBuilderTy : public mlir::OpBuilder { mlir::cir::UnaryOpKind::Not, value); } - mlir::Value createBinop(mlir::Value lhs, mlir::cir::BinOpKind kind, - const llvm::APInt &rhs) { - return create( - lhs.getLoc(), lhs.getType(), kind, lhs, - getConstAPInt(lhs.getLoc(), lhs.getType(), rhs)); - } - - mlir::Value createBinop(mlir::Value lhs, mlir::cir::BinOpKind kind, - mlir::Value rhs) { - return create(lhs.getLoc(), lhs.getType(), kind, lhs, - rhs); - } - - mlir::Value createShift(mlir::Value lhs, const llvm::APInt &rhs, - bool isShiftLeft) { - return create( - lhs.getLoc(), lhs.getType(), lhs, - getConstAPInt(lhs.getLoc(), lhs.getType(), rhs), isShiftLeft); - } - - mlir::Value createShift(mlir::Value lhs, unsigned bits, bool isShiftLeft) { - auto width = lhs.getType().dyn_cast().getWidth(); - auto shift = llvm::APInt(width, bits); - return createShift(lhs, shift, isShiftLeft); - } - - mlir::Value createShiftLeft(mlir::Value lhs, unsigned bits) { - return createShift(lhs, bits, true); - } - - mlir::Value createShiftRight(mlir::Value lhs, unsigned bits) { - return createShift(lhs, bits, false); - } - - mlir::Value createLowBitsSet(mlir::Location loc, unsigned size, - unsigned bits) { - auto val = llvm::APInt::getLowBitsSet(size, bits); - auto typ = mlir::cir::IntType::get(getContext(), size, false); - return getConstAPInt(loc, typ, val); - } - - mlir::Value createAnd(mlir::Value lhs, llvm::APInt rhs) { - auto val = getConstAPInt(lhs.getLoc(), lhs.getType(), rhs); - return createBinop(lhs, mlir::cir::BinOpKind::And, val); - } - - mlir::Value createAnd(mlir::Value lhs, mlir::Value rhs) { - return createBinop(lhs, mlir::cir::BinOpKind::And, rhs); - } - - mlir::Value createOr(mlir::Value lhs, llvm::APInt rhs) { - auto val = getConstAPInt(lhs.getLoc(), lhs.getType(), rhs); - return createBinop(lhs, mlir::cir::BinOpKind::Or, val); - } - - mlir::Value createOr(mlir::Value lhs, mlir::Value rhs) { - return createBinop(lhs, mlir::cir::BinOpKind::Or, rhs); - } - //===--------------------------------------------------------------------===// // Cast/Conversion Operators //===--------------------------------------------------------------------===// @@ -791,5 +727,6 @@ class CIRGenBuilderTy : public mlir::OpBuilder { return createCast(mlir::cir::CastKind::bitcast, src, newTy); } }; + } // namespace cir #endif diff --git a/clang/lib/CIR/CodeGen/CIRGenExpr.cpp b/clang/lib/CIR/CodeGen/CIRGenExpr.cpp index b99f46d6ece9..749f32292e25 100644 --- a/clang/lib/CIR/CodeGen/CIRGenExpr.cpp +++ b/clang/lib/CIR/CodeGen/CIRGenExpr.cpp @@ -21,7 +21,6 @@ #include "clang/AST/GlobalDecl.h" #include "clang/Basic/Builtins.h" #include "clang/CIR/Dialect/IR/CIRDialect.h" -#include "clang/CIR/Dialect/IR/CIROpsEnums.h" #include "clang/CIR/Dialect/IR/CIRTypes.h" #include "llvm/Support/Casting.h" #include "llvm/Support/ErrorHandling.h" @@ -127,7 +126,6 @@ static Address buildPointerWithAlignment(const Expr *E, if (PtrTy->getPointeeType()->isVoidType()) break; assert(!UnimplementedFeature::tbaa()); - LValueBaseInfo InnerBaseInfo; Address Addr = CGF.buildPointerWithAlignment( CE->getSubExpr(), &InnerBaseInfo, IsKnownNonNull); @@ -211,78 +209,13 @@ static Address buildPointerWithAlignment(const Expr *E, return Address(CGF.buildScalarExpr(E), Align); } -/// Helper method to check if the underlying ABI is AAPCS -static bool isAAPCS(const TargetInfo &TargetInfo) { - return TargetInfo.getABI().startswith("aapcs"); -} - -Address CIRGenFunction::getAddrOfField(LValue base, const FieldDecl *field, - unsigned index) { - if (index == 0) - return base.getAddress(); - - auto loc = getLoc(field->getLocation()); - auto fieldType = convertType(field->getType()); - auto fieldPtr = - mlir::cir::PointerType::get(getBuilder().getContext(), fieldType); - auto sea = getBuilder().createGetMember( - loc, fieldPtr, base.getPointer(), field->getName(), index); - - return Address(sea, CharUnits::One()); -} - -static bool useVolatileForBitField(const CIRGenModule &cgm, LValue base, - const CIRGenBitFieldInfo &info, - const FieldDecl *field) { - return isAAPCS(cgm.getTarget()) && cgm.getCodeGenOpts().AAPCSBitfieldWidth && - info.VolatileStorageSize != 0 && - field->getType() - .withCVRQualifiers(base.getVRQualifiers()) - .isVolatileQualified(); -} - -LValue CIRGenFunction::buildLValueForBitField(LValue base, - const FieldDecl *field) { - - LValueBaseInfo BaseInfo = base.getBaseInfo(); - const RecordDecl *rec = field->getParent(); - auto &layout = CGM.getTypes().getCIRGenRecordLayout(field->getParent()); - auto &info = layout.getBitFieldInfo(field); - auto useVolatile = useVolatileForBitField(CGM, base, info, field); - unsigned Idx = layout.getCIRFieldNo(field); - - if (useVolatile || - (IsInPreservedAIRegion || - (getDebugInfo() && rec->hasAttr()))) { - llvm_unreachable("NYI"); - } - - Address Addr = getAddrOfField(base, field, Idx); - - const unsigned SS = useVolatile ? info.VolatileStorageSize : info.StorageSize; - - // Get the access type. - mlir::Type FieldIntTy = builder.getUIntNTy(SS); - - auto loc = getLoc(field->getLocation()); - if (Addr.getElementType() != FieldIntTy) - Addr = builder.createElementBitCast(loc, Addr, FieldIntTy); - - QualType fieldType = - field->getType().withCVRQualifiers(base.getVRQualifiers()); - - assert(!UnimplementedFeature::tbaa() && "NYI TBAA for bit fields"); - LValueBaseInfo FieldBaseInfo(BaseInfo.getAlignmentSource()); - return LValue::MakeBitfield(Addr, info, fieldType, FieldBaseInfo); -} - LValue CIRGenFunction::buildLValueForField(LValue base, const FieldDecl *field) { - LValueBaseInfo BaseInfo = base.getBaseInfo(); - if (field->isBitField()) - return buildLValueForBitField(base, field); + if (field->isBitField()) { + llvm_unreachable("NYI"); + } // Fields of may-alias structures are may-alais themselves. // FIXME: this hould get propagated down through anonymous structs and unions. @@ -585,55 +518,12 @@ void CIRGenFunction::buildStoreOfScalar(mlir::Value value, LValue lvalue, /// method emits the address of the lvalue, then loads the result as an rvalue, /// returning the rvalue. RValue CIRGenFunction::buildLoadOfLValue(LValue LV, SourceLocation Loc) { + assert(LV.isSimple() && "not implemented"); assert(!LV.getType()->isFunctionType()); assert(!(LV.getType()->isConstantMatrixType()) && "not implemented"); - if (LV.isBitField()) - return buildLoadOfBitfieldLValue(LV, Loc); - - if (LV.isSimple()) - return RValue::get(buildLoadOfScalar(LV, Loc)); - llvm_unreachable("NYI"); -} - -RValue CIRGenFunction::buildLoadOfBitfieldLValue(LValue LV, - SourceLocation Loc) { - const CIRGenBitFieldInfo &Info = LV.getBitFieldInfo(); - - // Get the output type. - mlir::Type ResLTy = convertType(LV.getType()); - Address Ptr = LV.getBitFieldAddress(); - mlir::Value Val = builder.createLoad(getLoc(Loc), Ptr); - auto ValWidth = Val.getType().cast().getWidth(); - - bool UseVolatile = LV.isVolatileQualified() && - Info.VolatileStorageSize != 0 && isAAPCS(CGM.getTarget()); - const unsigned Offset = UseVolatile ? Info.VolatileOffset : Info.Offset; - const unsigned StorageSize = - UseVolatile ? Info.VolatileStorageSize : Info.StorageSize; - - if (Info.IsSigned) { - assert(static_cast(Offset + Info.Size) <= StorageSize); - - mlir::Type typ = builder.getSIntNTy(ValWidth); - Val = builder.createIntCast(Val, typ); - - unsigned HighBits = StorageSize - Offset - Info.Size; - if (HighBits) - Val = builder.createShiftLeft(Val, HighBits); - if (Offset + HighBits) - Val = builder.createShiftRight(Val, Offset + HighBits); - } else { - if (Offset) - Val = builder.createShiftRight(Val, Offset); - - if (static_cast(Offset) + Info.Size < StorageSize) - Val = builder.createAnd(Val, - llvm::APInt::getLowBitsSet(ValWidth, Info.Size)); - } - Val = builder.createIntCast(Val, ResLTy); - assert(!UnimplementedFeature::emitScalarRangeCheck() && "NYI"); - return RValue::get(Val); + // Everything needs a load. + return RValue::get(buildLoadOfScalar(LV, Loc)); } void CIRGenFunction::buildStoreThroughLValue(RValue Src, LValue Dst) { @@ -656,81 +546,6 @@ void CIRGenFunction::buildStoreThroughLValue(RValue Src, LValue Dst) { buildStoreOfScalar(Src.getScalarVal(), Dst); } -void CIRGenFunction::buildStoreThroughBitfieldLValue(RValue Src, LValue Dst, - mlir::Value &Result) { - const CIRGenBitFieldInfo &Info = Dst.getBitFieldInfo(); - mlir::Type ResLTy = getTypes().convertTypeForMem(Dst.getType()); - Address Ptr = Dst.getBitFieldAddress(); - - // Get the source value, truncated to the width of the bit-field. - mlir::Value SrcVal = Src.getScalarVal(); - - // Cast the source to the storage type and shift it into place. - SrcVal = builder.createIntCast(SrcVal, Ptr.getElementType()); - auto SrcWidth = SrcVal.getType().cast().getWidth(); - mlir::Value MaskedVal = SrcVal; - - const bool UseVolatile = - CGM.getCodeGenOpts().AAPCSBitfieldWidth && Dst.isVolatileQualified() && - Info.VolatileStorageSize != 0 && isAAPCS(CGM.getTarget()); - const unsigned StorageSize = - UseVolatile ? Info.VolatileStorageSize : Info.StorageSize; - const unsigned Offset = UseVolatile ? Info.VolatileOffset : Info.Offset; - // See if there are other bits in the bitfield's storage we'll need to load - // and mask together with source before storing. - if (StorageSize != Info.Size) { - assert(StorageSize > Info.Size && "Invalid bitfield size."); - - mlir::Value Val = buildLoadOfScalar(Dst, Dst.getPointer().getLoc()); - - // Mask the source value as needed. - if (!hasBooleanRepresentation(Dst.getType())) - SrcVal = builder.createAnd( - SrcVal, llvm::APInt::getLowBitsSet(SrcWidth, Info.Size)); - - MaskedVal = SrcVal; - if (Offset) - SrcVal = builder.createShiftLeft(SrcVal, Offset); - - // Mask out the original value. - Val = builder.createAnd( - Val, ~llvm::APInt::getBitsSet(SrcWidth, Offset, Offset + Info.Size)); - - // Or together the unchanged values and the source value. - SrcVal = builder.createOr(Val, SrcVal); - - } else { - // According to the AACPS: - // When a volatile bit-field is written, and its container does not overlap - // with any non-bit-field member, its container must be read exactly once - // and written exactly once using the access width appropriate to the type - // of the container. The two accesses are not atomic. - llvm_unreachable("volatile bit-field is not implemented for the AACPS"); - } - - // Write the new value back out. - // TODO: constant matrix type, volatile, no init, non temporal, TBAA - buildStoreOfScalar(SrcVal, Ptr, Dst.isVolatileQualified(), Dst.getType(), - Dst.getBaseInfo(), false, false); - - // Return the new value of the bit-field. - mlir::Value ResultVal = MaskedVal; - ResultVal = builder.createIntCast(ResultVal, ResLTy); - - // Sign extend the value if needed. - if (Info.IsSigned) { - assert(Info.Size <= StorageSize); - unsigned HighBits = StorageSize - Info.Size; - - if (HighBits) { - ResultVal = builder.createShiftLeft(ResultVal, HighBits); - ResultVal = builder.createShiftRight(ResultVal, HighBits); - } - } - - Result = buildFromMemory(ResultVal, Dst.getType()); -} - static LValue buildGlobalVarDeclLValue(CIRGenFunction &CGF, const Expr *E, const VarDecl *VD) { QualType T = E->getType(); @@ -954,13 +769,7 @@ LValue CIRGenFunction::buildBinaryOperatorLValue(const BinaryOperator *E) { LValue LV = buildLValue(E->getLHS()); SourceLocRAIIObject Loc{*this, getLoc(E->getSourceRange())}; - if (LV.isBitField()) { - mlir::Value result; - buildStoreThroughBitfieldLValue(RV, LV, result); - } else { - buildStoreThroughLValue(RV, LV); - } - + buildStoreThroughLValue(RV, LV); assert(!getContext().getLangOpts().OpenMP && "last priv cond not implemented"); return LV; @@ -2394,13 +2203,6 @@ mlir::Value CIRGenFunction::buildAlloca(StringRef name, QualType ty, mlir::Value CIRGenFunction::buildLoadOfScalar(LValue lvalue, SourceLocation Loc) { - return buildLoadOfScalar(lvalue.getAddress(), lvalue.isVolatile(), - lvalue.getType(), getLoc(Loc), lvalue.getBaseInfo(), - lvalue.isNontemporal()); -} - -mlir::Value CIRGenFunction::buildLoadOfScalar(LValue lvalue, - mlir::Location Loc) { return buildLoadOfScalar(lvalue.getAddress(), lvalue.isVolatile(), lvalue.getType(), Loc, lvalue.getBaseInfo(), lvalue.isNontemporal()); @@ -2418,14 +2220,6 @@ mlir::Value CIRGenFunction::buildLoadOfScalar(Address Addr, bool Volatile, QualType Ty, SourceLocation Loc, LValueBaseInfo BaseInfo, bool isNontemporal) { - return buildLoadOfScalar(Addr, Volatile, Ty, getLoc(Loc), BaseInfo, - isNontemporal); -} - -mlir::Value CIRGenFunction::buildLoadOfScalar(Address Addr, bool Volatile, - QualType Ty, mlir::Location Loc, - LValueBaseInfo BaseInfo, - bool isNontemporal) { if (!CGM.getCodeGenOpts().PreserveVec3Type) { if (Ty->isVectorType()) { llvm_unreachable("NYI"); @@ -2439,14 +2233,15 @@ mlir::Value CIRGenFunction::buildLoadOfScalar(Address Addr, bool Volatile, } mlir::cir::LoadOp Load = builder.create( - Loc, Addr.getElementType(), Addr.getPointer()); + getLoc(Loc), Addr.getElementType(), Addr.getPointer()); if (isNontemporal) { llvm_unreachable("NYI"); } - - assert(!UnimplementedFeature::tbaa() && "NYI"); - assert(!UnimplementedFeature::emitScalarRangeCheck() && "NYI"); + + // TODO: TBAA + + // TODO: buildScalarRangeCheck return buildFromMemory(Load, Ty); } diff --git a/clang/lib/CIR/CodeGen/CIRGenExprScalar.cpp b/clang/lib/CIR/CodeGen/CIRGenExprScalar.cpp index fbd0e5a6a27a..5d251c3d41ea 100644 --- a/clang/lib/CIR/CodeGen/CIRGenExprScalar.cpp +++ b/clang/lib/CIR/CodeGen/CIRGenExprScalar.cpp @@ -1060,7 +1060,9 @@ static mlir::Value buildPointerArithmetic(CIRGenFunction &CGF, std::swap(pointerOperand, indexOperand); } - bool isSigned = indexOperand->getType()->isSignedIntegerOrEnumerationType(); + bool isSigned = indexOperand->getType()->isSignedIntegerOrEnumerationType(); + + auto &DL = CGF.CGM.getDataLayout(); // Some versions of glibc and gcc use idioms (particularly in their malloc // routines) that add a pointer-sized integer (known to be a pointer value) @@ -1861,7 +1863,7 @@ mlir::Value ScalarExprEmitter::VisitBinAssign(const BinaryOperator *E) { // 'An assignment expression has the value of the left operand after the // assignment...'. if (LHS.isBitField()) { - CGF.buildStoreThroughBitfieldLValue(RValue::get(RHS), LHS, RHS); + llvm_unreachable("NYI"); } else { CGF.buildNullabilityCheck(LHS, RHS, E->getExprLoc()); CIRGenFunction::SourceLocRAIIObject loc{CGF, @@ -1962,27 +1964,25 @@ mlir::Value ScalarExprEmitter::VisitAbstractConditionalOperator( auto condV = CGF.evaluateExprAsBool(condExpr); assert(!UnimplementedFeature::incrementProfileCounter()); - return builder - .create( - loc, condV, /*thenBuilder=*/ - [&](mlir::OpBuilder &b, mlir::Location loc) { - auto lhs = Visit(lhsExpr); - if (!lhs) { - lhs = builder.getNullValue(CGF.VoidTy, loc); - lhsIsVoid = true; - } - builder.create(loc, lhs); - }, - /*elseBuilder=*/ - [&](mlir::OpBuilder &b, mlir::Location loc) { - auto rhs = Visit(rhsExpr); - if (lhsIsVoid) { - assert(!rhs && "lhs and rhs types must match"); - rhs = builder.getNullValue(CGF.VoidTy, loc); - } - builder.create(loc, rhs); - }) - .getResult(); + return builder.create( + loc, condV, /*thenBuilder=*/ + [&](mlir::OpBuilder &b, mlir::Location loc) { + auto lhs = Visit(lhsExpr); + if (!lhs) { + lhs = builder.getNullValue(CGF.VoidTy, loc); + lhsIsVoid = true; + } + builder.create(loc, lhs); + }, + /*elseBuilder=*/ + [&](mlir::OpBuilder &b, mlir::Location loc) { + auto rhs = Visit(rhsExpr); + if (lhsIsVoid) { + assert(!rhs && "lhs and rhs types must match"); + rhs = builder.getNullValue(CGF.VoidTy, loc); + } + builder.create(loc, rhs); + }).getResult(); } mlir::Value condV = CGF.buildOpOnBoolExpr(condExpr, loc, lhsExpr, rhsExpr); @@ -2012,53 +2012,51 @@ mlir::Value ScalarExprEmitter::VisitAbstractConditionalOperator( } }; - return builder - .create( - loc, condV, /*trueBuilder=*/ - [&](mlir::OpBuilder &b, mlir::Location loc) { - CIRGenFunction::LexicalScopeContext lexScope{loc, - b.getInsertionBlock()}; - CIRGenFunction::LexicalScopeGuard lexThenGuard{CGF, &lexScope}; - CGF.currLexScope->setAsTernary(); - - assert(!UnimplementedFeature::incrementProfileCounter()); - eval.begin(CGF); - auto lhs = Visit(lhsExpr); - eval.end(CGF); - - if (lhs) { - yieldTy = lhs.getType(); - b.create(loc, lhs); - return; - } - // If LHS or RHS is a throw or void expression we need to patch arms - // as to properly match yield types. - insertPoints.push_back(b.saveInsertionPoint()); - }, - /*falseBuilder=*/ - [&](mlir::OpBuilder &b, mlir::Location loc) { - CIRGenFunction::LexicalScopeContext lexScope{loc, - b.getInsertionBlock()}; - CIRGenFunction::LexicalScopeGuard lexElseGuard{CGF, &lexScope}; - CGF.currLexScope->setAsTernary(); - - assert(!UnimplementedFeature::incrementProfileCounter()); - eval.begin(CGF); - auto rhs = Visit(rhsExpr); - eval.end(CGF); - - if (rhs) { - yieldTy = rhs.getType(); - b.create(loc, rhs); - } else { - // If LHS or RHS is a throw or void expression we need to patch - // arms as to properly match yield types. - insertPoints.push_back(b.saveInsertionPoint()); - } - - patchVoidOrThrowSites(); - }) - .getResult(); + return builder.create( + loc, condV, /*trueBuilder=*/ + [&](mlir::OpBuilder &b, mlir::Location loc) { + CIRGenFunction::LexicalScopeContext lexScope{loc, + b.getInsertionBlock()}; + CIRGenFunction::LexicalScopeGuard lexThenGuard{CGF, &lexScope}; + CGF.currLexScope->setAsTernary(); + + assert(!UnimplementedFeature::incrementProfileCounter()); + eval.begin(CGF); + auto lhs = Visit(lhsExpr); + eval.end(CGF); + + if (lhs) { + yieldTy = lhs.getType(); + b.create(loc, lhs); + return; + } + // If LHS or RHS is a throw or void expression we need to patch arms + // as to properly match yield types. + insertPoints.push_back(b.saveInsertionPoint()); + }, + /*falseBuilder=*/ + [&](mlir::OpBuilder &b, mlir::Location loc) { + CIRGenFunction::LexicalScopeContext lexScope{loc, + b.getInsertionBlock()}; + CIRGenFunction::LexicalScopeGuard lexElseGuard{CGF, &lexScope}; + CGF.currLexScope->setAsTernary(); + + assert(!UnimplementedFeature::incrementProfileCounter()); + eval.begin(CGF); + auto rhs = Visit(rhsExpr); + eval.end(CGF); + + if (rhs) { + yieldTy = rhs.getType(); + b.create(loc, rhs); + } else { + // If LHS or RHS is a throw or void expression we need to patch arms + // as to properly match yield types. + insertPoints.push_back(b.saveInsertionPoint()); + } + + patchVoidOrThrowSites(); + }).getResult(); } mlir::Value CIRGenFunction::buildScalarPrePostIncDec(const UnaryOperator *E, diff --git a/clang/lib/CIR/CodeGen/CIRGenFunction.h b/clang/lib/CIR/CodeGen/CIRGenFunction.h index ea5bf59d92c8..819a99f81ec7 100644 --- a/clang/lib/CIR/CodeGen/CIRGenFunction.h +++ b/clang/lib/CIR/CodeGen/CIRGenFunction.h @@ -869,12 +869,6 @@ class CIRGenFunction : public CIRGenTypeCache { clang::SourceLocation Loc, LValueBaseInfo BaseInfo, bool isNontemporal = false); - mlir::Value buildLoadOfScalar(Address Addr, bool Volatile, clang::QualType Ty, - mlir::Location Loc, LValueBaseInfo BaseInfo, - bool isNontemporal = false); - - RValue buildLoadOfBitfieldLValue(LValue LV, SourceLocation Loc); - /// Load a scalar value from an address, taking care to appropriately convert /// from the memory representation to CIR value representation. mlir::Value buildLoadOfScalar(Address Addr, bool Volatile, clang::QualType Ty, @@ -889,7 +883,6 @@ class CIRGenFunction : public CIRGenTypeCache { /// form the memory representation to the CIR value representation. The /// l-value must be a simple l-value. mlir::Value buildLoadOfScalar(LValue lvalue, clang::SourceLocation Loc); - mlir::Value buildLoadOfScalar(LValue lvalue, mlir::Location Loc); Address buildLoadOfReference(LValue RefLVal, mlir::Location Loc, LValueBaseInfo *PointeeBaseInfo = nullptr); @@ -1244,9 +1237,6 @@ class CIRGenFunction : public CIRGenTypeCache { /// is 'Ty'. void buildStoreThroughLValue(RValue Src, LValue Dst); - void buildStoreThroughBitfieldLValue(RValue Src, LValue Dst, - mlir::Value &Result); - mlir::cir::BrOp buildBranchThroughCleanup(mlir::Location Loc, JumpDest Dest); /// Given an assignment `*LHS = RHS`, emit a test that checks if \p RHS is @@ -1524,8 +1514,7 @@ class CIRGenFunction : public CIRGenTypeCache { AggValueSlot::Overlap_t getOverlapForFieldInit(const FieldDecl *FD); LValue buildLValueForField(LValue Base, const clang::FieldDecl *Field); - LValue buildLValueForBitField(LValue base, const FieldDecl *field); - + /// Like buildLValueForField, excpet that if the Field is a reference, this /// will return the address of the reference and not the address of the value /// stored in the reference. @@ -1554,8 +1543,6 @@ class CIRGenFunction : public CIRGenTypeCache { return it->second; } - Address getAddrOfField(LValue base, const clang::FieldDecl *field, unsigned index); - /// Given an opaque value expression, return its LValue mapping if it exists, /// otherwise create one. LValue getOrCreateOpaqueLValueMapping(const OpaqueValueExpr *e); diff --git a/clang/lib/CIR/CodeGen/CIRGenRecordLayout.h b/clang/lib/CIR/CodeGen/CIRGenRecordLayout.h index 0a686181db61..b1ded0017d59 100644 --- a/clang/lib/CIR/CodeGen/CIRGenRecordLayout.h +++ b/clang/lib/CIR/CodeGen/CIRGenRecordLayout.h @@ -187,16 +187,6 @@ class CIRGenRecordLayout { /// Check whether this struct can be C++ zero-initialized with a /// zeroinitializer. bool isZeroInitializable() const { return IsZeroInitializable; } - - /// Return the BitFieldInfo that corresponds to the field FD. - const CIRGenBitFieldInfo &getBitFieldInfo(const clang::FieldDecl *FD) const { - FD = FD->getCanonicalDecl(); - assert(FD->isBitField() && "Invalid call for non-bit-field decl!"); - llvm::DenseMap::const_iterator - it = BitFields.find(FD); - assert(it != BitFields.end() && "Unable to find bitfield info"); - return it->second; - } }; } // namespace cir diff --git a/clang/lib/CIR/CodeGen/CIRGenValue.h b/clang/lib/CIR/CodeGen/CIRGenValue.h index c6edeb4d4fe4..f84c20c4b136 100644 --- a/clang/lib/CIR/CodeGen/CIRGenValue.h +++ b/clang/lib/CIR/CodeGen/CIRGenValue.h @@ -15,7 +15,6 @@ #define LLVM_CLANG_LIB_CIR_CIRGENVALUE_H #include "Address.h" -#include "CIRGenRecordLayout.h" #include "clang/AST/ASTContext.h" #include "clang/AST/CharUnits.h" @@ -208,7 +207,6 @@ class LValue { mlir::Value V; mlir::Type ElementType; LValueBaseInfo BaseInfo; - const CIRGenBitFieldInfo *BitFieldInfo{0}; public: bool isSimple() const { return LVType == Simple; } @@ -300,38 +298,6 @@ class LValue { const clang::Qualifiers &getQuals() const { return Quals; } clang::Qualifiers &getQuals() { return Quals; } - - // bitfield lvalue - Address getBitFieldAddress() const { - return Address(getBitFieldPointer(), ElementType, getAlignment()); - } - - mlir::Value getBitFieldPointer() const { - assert(isBitField()); - return V; - } - - const CIRGenBitFieldInfo &getBitFieldInfo() const { - assert(isBitField()); - return *BitFieldInfo; - } - - /// Create a new object to represent a bit-field access. - /// - /// \param Addr - The base address of the bit-field sequence this - /// bit-field refers to. - /// \param Info - The information describing how to perform the bit-field - /// access. - static LValue MakeBitfield(Address Addr, const CIRGenBitFieldInfo &Info, - clang::QualType type, LValueBaseInfo BaseInfo) { - LValue R; - R.LVType = BitField; - R.V = Addr.getPointer(); - R.ElementType = Addr.getElementType(); - R.BitFieldInfo = &Info; - R.Initialize(type, type.getQualifiers(), Addr.getAlignment(), BaseInfo); - return R; - } }; /// An aggregate value slot. diff --git a/clang/lib/CIR/CodeGen/CIRRecordLayoutBuilder.cpp b/clang/lib/CIR/CodeGen/CIRRecordLayoutBuilder.cpp index 6031113950ed..f91e4b6a1af6 100644 --- a/clang/lib/CIR/CodeGen/CIRRecordLayoutBuilder.cpp +++ b/clang/lib/CIR/CodeGen/CIRRecordLayoutBuilder.cpp @@ -136,7 +136,7 @@ struct CIRRecordLowering final { /// Wraps mlir::cir::IntType with some implicit arguments. mlir::Type getUIntNType(uint64_t NumBits) { - unsigned AlignedBits = llvm::PowerOf2Ceil(NumBits); + unsigned AlignedBits = llvm::alignTo(NumBits, astContext.getCharWidth()); return mlir::cir::IntType::get(&cirGenTypes.getMLIRContext(), AlignedBits, /*isSigned=*/false); } @@ -214,8 +214,8 @@ CIRRecordLowering::CIRRecordLowering(CIRGenTypes &cirGenTypes, cxxRecordDecl{llvm::dyn_cast(recordDecl)}, astRecordLayout{cirGenTypes.getContext().getASTRecordLayout(recordDecl)}, dataLayout{cirGenTypes.getModule().getModule()}, - IsZeroInitializable(true), - IsZeroInitializableAsBase(true), isPacked{isPacked} {} + IsZeroInitializable(true), IsZeroInitializableAsBase(true), + isPacked{isPacked} {} void CIRRecordLowering::setBitFieldInfo(const FieldDecl *FD, CharUnits StartOffset, @@ -499,8 +499,6 @@ void CIRRecordLowering::accumulateBitFields( // with lower cost. auto IsBetterAsSingleFieldRun = [&](uint64_t OffsetInRecord, uint64_t StartBitOffset) { - if (OffsetInRecord >= 64) // See IntType::verify - return true; if (!cirGenTypes.getModule().getCodeGenOpts().FineGrainedBitfieldAccesses) return false; llvm_unreachable("NYI"); diff --git a/clang/lib/CIR/CodeGen/UnimplementedFeatureGuarding.h b/clang/lib/CIR/CodeGen/UnimplementedFeatureGuarding.h index 5a857a2db39f..d39bb3c1b48d 100644 --- a/clang/lib/CIR/CodeGen/UnimplementedFeatureGuarding.h +++ b/clang/lib/CIR/CodeGen/UnimplementedFeatureGuarding.h @@ -138,7 +138,6 @@ struct UnimplementedFeature { static bool exceptions() { return false; } static bool metaDataNode() { return false; } static bool isSEHTryScope() { return false; } - static bool emitScalarRangeCheck() { return false; } }; } // namespace cir diff --git a/clang/test/CIR/CodeGen/bitfields.c b/clang/test/CIR/CodeGen/bitfields.c deleted file mode 100644 index b4c26f8ae05d..000000000000 --- a/clang/test/CIR/CodeGen/bitfields.c +++ /dev/null @@ -1,82 +0,0 @@ -// RUN: %clang_cc1 -triple x86_64-unknown-linux-gnu -fclangir-enable -emit-cir %s -o %t.cir -// RUN: FileCheck --input-file=%t.cir %s - -struct __long { - struct __attribute__((__packed__)) { - unsigned __is_long_ : 1; - unsigned __cap_ : sizeof(unsigned) * 8 - 1; - }; - unsigned __size_; - unsigned *__data_; -}; - -void m() { - struct __long l; -} - -// CHECK: !ty_22anon22 = !cir.struct -// CHECK: !ty_22__long22 = !cir.struct}> - -typedef struct { - int a : 4; - int b : 27; - int c : 17; - int d : 2; - int e : 15; -} S; // 65 bits in total, i.e. more than 64 - -// CHECK: cir.func {{.*@store_field}} -// CHECK: [[TMP0:%.*]] = cir.alloca !ty_22S22, cir.ptr , -// CHECK: [[TMP1:%.*]] = cir.const(#cir.int<3> : !s32i) : !s32i -// CHECK: [[TMP2:%.*]] = cir.cast(bitcast, [[TMP0]] : !cir.ptr), !cir.ptr -// CHECK: [[TMP3:%.*]] = cir.cast(integral, [[TMP1]] : !s32i), !u32i -// CHECK: [[TMP4:%.*]] = cir.load [[TMP2]] : cir.ptr , !u32i -// CHECK: [[TMP5:%.*]] = cir.const(#cir.int<15> : !u32i) : !u32i -// CHECK: [[TMP6:%.*]] = cir.binop(and, [[TMP3]], [[TMP5]]) : !u32i -// CHECK: [[TMP7:%.*]] = cir.const(#cir.int<4294967280> : !u32i) : !u32i -// CHECK: [[TMP8:%.*]] = cir.binop(and, [[TMP4]], [[TMP7]]) : !u32i -// CHECK: [[TMP9:%.*]] = cir.binop(or, [[TMP8]], [[TMP6]]) : !u32i -// CHECK: cir.store [[TMP9]], [[TMP2]] : !u32i, cir.ptr -void store_field() { - S s; - s.a = 3; -} - -// CHECK: cir.func {{.*@store_neg_field}} -// CHECK: [[TMP0:%.*]] = cir.alloca !ty_22S22, cir.ptr , -// CHECK: [[TMP1:%.*]] = cir.const(#cir.int<1> : !s32i) : !s32i -// CHECK: [[TMP2:%.*]] = cir.unary(minus, [[TMP1]]) : !s32i, !s32i -// CHECK: [[TMP3:%.*]] = cir.get_member [[TMP0]][1] {name = "d"} : !cir.ptr -> !cir.ptr -// CHECK: [[TMP4:%.*]] = cir.cast(bitcast, [[TMP3]] : !cir.ptr), !cir.ptr -// CHECK: [[TMP5:%.*]] = cir.cast(integral, [[TMP2]] : !s32i), !u32i -// CHECK: [[TMP6:%.*]] = cir.load [[TMP4]] : cir.ptr , !u32i -// CHECK: [[TMP7:%.*]] = cir.const(#cir.int<3> : !u32i) : !u32i -// CHECK: [[TMP8:%.*]] = cir.binop(and, [[TMP5]], [[TMP7]]) : !u32i -// CHECK: [[TMP9:%.*]] = cir.const(#cir.int<17> : !u32i) : !u32i -// CHECK: [[TMP10:%.*]] = cir.shift(left, [[TMP8]] : !u32i, [[TMP9]] : !u32i) -> !u32i -// CHECK: [[TMP11:%.*]] = cir.const(#cir.int<4294574079> : !u32i) : !u32i -// CHECK: [[TMP12:%.*]] = cir.binop(and, [[TMP6]], [[TMP11]]) : !u32i -// CHECK: [[TMP13:%.*]] = cir.binop(or, [[TMP12]], [[TMP10]]) : !u32i -// CHECK: cir.store [[TMP13]], [[TMP4]] : !u32i, cir.ptr -void store_neg_field() { - S s; - s.d = -1; -} - -// CHECK: cir.func {{.*@load_field}} -// CHECK: [[TMP0:%.*]] = cir.alloca !cir.ptr, cir.ptr > -// CHECK: [[TMP2:%.*]] = cir.load [[TMP0]] : cir.ptr >, !cir.ptr -// CHECK: [[TMP3:%.*]] = cir.get_member [[TMP2]][1] {name = "d"} : !cir.ptr -> !cir.ptr -// CHECK: [[TMP4:%.*]] = cir.cast(bitcast, [[TMP3]] : !cir.ptr), !cir.ptr -// CHECK: [[TMP5:%.*]] = cir.load [[TMP4]] : cir.ptr , !u32i -// CHECK: [[TMP6:%.*]] = cir.cast(integral, [[TMP5]] : !u32i), !s32i -// CHECK: [[TMP7:%.*]] = cir.const(#cir.int<13> : !s32i) : !s32i -// CHECK: [[TMP8:%.*]] = cir.shift(left, [[TMP6]] : !s32i, [[TMP7]] : !s32i) -> !s32i -// CHECK: [[TMP9:%.*]] = cir.const(#cir.int<30> : !s32i) : !s32i -// CHECK: [[TMP10:%.*]] = cir.shift( right, [[TMP8]] : !s32i, [[TMP9]] : !s32i) -> !s32i -// CHECK: [[TMP11:%.*]] = cir.cast(integral, [[TMP10]] : !s32i), !s32i -// CHECK: cir.store [[TMP11]], [[TMP1]] : !s32i, cir.ptr -// CHECK: [[TMP12:%.*]] = cir.load [[TMP1]] : cir.ptr , !s32i -int load_field(S* s) { - return s->d; -} diff --git a/clang/test/CIR/CodeGen/bitfields.cpp b/clang/test/CIR/CodeGen/bitfields.cpp index bcaa3bc3008a..c1f801af1e7c 100644 --- a/clang/test/CIR/CodeGen/bitfields.cpp +++ b/clang/test/CIR/CodeGen/bitfields.cpp @@ -16,67 +16,3 @@ void m() { // CHECK: !ty_22anon22 = !cir.struct // CHECK: !ty_22__long22 = !cir.struct}> - -struct S { - int a : 4; - int b : 27; - int c : 17; - int d : 2; - int e : 15; -}; // 65 bits in total, i.e. more than 64 - -// CHECK: cir.func @_Z11store_field -// CHECK: [[TMP0:%.*]] = cir.alloca !ty_22S22, cir.ptr -// CHECK: [[TMP1:%.*]] = cir.const(#cir.int<3> : !s32i) : !s32i -// CHECK: [[TMP2:%.*]] = cir.cast(bitcast, [[TMP0]] : !cir.ptr), !cir.ptr -// CHECK: [[TMP3:%.*]] = cir.cast(integral, [[TMP1]] : !s32i), !u32i -// CHECK: [[TMP4:%.*]] = cir.load [[TMP2]] : cir.ptr , !u32i -// CHECK: [[TMP5:%.*]] = cir.const(#cir.int<15> : !u32i) : !u32i -// CHECK: [[TMP6:%.*]] = cir.binop(and, [[TMP3]], [[TMP5]]) : !u32i -// CHECK: [[TMP7:%.*]] = cir.const(#cir.int<4294967280> : !u32i) : !u32i -// CHECK: [[TMP8:%.*]] = cir.binop(and, [[TMP4]], [[TMP7]]) : !u32i -// CHECK: [[TMP9:%.*]] = cir.binop(or, [[TMP8]], [[TMP6]]) : !u32i -// CHECK: cir.store [[TMP9]], [[TMP2]] : !u32i, cir.ptr -void store_field() { - S s; - s.a = 3; -} - -// CHECK: cir.func @_Z15store_neg_field -// CHECK: [[TMP0:%.*]] = cir.alloca !ty_22S22, cir.ptr -// CHECK: [[TMP1:%.*]] = cir.const(#cir.int<1> : !s32i) : !s32i -// CHECK: [[TMP2:%.*]] = cir.unary(minus, [[TMP1]]) : !s32i, !s32i -// CHECK: [[TMP3:%.*]] = cir.get_member [[TMP0]][1] {name = "d"} : !cir.ptr -> !cir.ptr -// CHECK: [[TMP4:%.*]] = cir.cast(bitcast, [[TMP3]] : !cir.ptr), !cir.ptr -// CHECK: [[TMP5:%.*]] = cir.cast(integral, [[TMP2]] : !s32i), !u32i -// CHECK: [[TMP6:%.*]] = cir.load [[TMP4]] : cir.ptr , !u32i -// CHECK: [[TMP7:%.*]] = cir.const(#cir.int<3> : !u32i) : !u32i -// CHECK: [[TMP8:%.*]] = cir.binop(and, [[TMP5]], [[TMP7]]) : !u32i -// CHECK: [[TMP9:%.*]] = cir.const(#cir.int<17> : !u32i) : !u32i -// CHECK: [[TMP10:%.*]] = cir.shift(left, [[TMP8]] : !u32i, [[TMP9]] : !u32i) -> !u32i -// CHECK: [[TMP11:%.*]] = cir.const(#cir.int<4294574079> : !u32i) : !u32i -// CHECK: [[TMP12:%.*]] = cir.binop(and, [[TMP6]], [[TMP11]]) : !u32i -// CHECK: [[TMP13:%.*]] = cir.binop(or, [[TMP12]], [[TMP10]]) : !u32i -// CHECK: cir.store [[TMP13]], [[TMP4]] : !u32i, cir.ptr -void store_neg_field() { - S s; - s.d = -1; -} - -// CHECK: cir.func @_Z10load_field -// CHECK: [[TMP0:%.*]] = cir.alloca !cir.ptr, cir.ptr > -// CHECK: [[TMP2:%.*]] = cir.load [[TMP0]] : cir.ptr >, !cir.ptr -// CHECK: [[TMP3:%.*]] = cir.get_member [[TMP2]][1] {name = "d"} : !cir.ptr -> !cir.ptr -// CHECK: [[TMP4:%.*]] = cir.cast(bitcast, [[TMP3]] : !cir.ptr), !cir.ptr -// CHECK: [[TMP5:%.*]] = cir.load [[TMP4]] : cir.ptr , !u32i -// CHECK: [[TMP6:%.*]] = cir.cast(integral, [[TMP5]] : !u32i), !s32i -// CHECK: [[TMP7:%.*]] = cir.const(#cir.int<13> : !s32i) : !s32i -// CHECK: [[TMP8:%.*]] = cir.shift(left, [[TMP6]] : !s32i, [[TMP7]] : !s32i) -> !s32i -// CHECK: [[TMP9:%.*]] = cir.const(#cir.int<30> : !s32i) : !s32i -// CHECK: [[TMP10:%.*]] = cir.shift( right, [[TMP8]] : !s32i, [[TMP9]] : !s32i) -> !s32i -// CHECK: [[TMP11:%.*]] = cir.cast(integral, [[TMP10]] : !s32i), !s32i -// CHECK: cir.store [[TMP11]], [[TMP1]] : !s32i, cir.ptr -// CHECK: [[TMP12:%.*]] = cir.load [[TMP1]] : cir.ptr , !s32i -int load_field(S& s) { - return s.d; -}