//===--- SILBuilder.h - Class for creating SIL Constructs -------*- C++ -*-===// // // This source file is part of the Swift.org open source project // // Copyright (c) 2014 - 2016 Apple Inc. and the Swift project authors // Licensed under Apache License v2.0 with Runtime Library Exception // // See http://swift.org/LICENSE.txt for license information // See http://swift.org/CONTRIBUTORS.txt for the list of Swift project authors // //===----------------------------------------------------------------------===// #ifndef SWIFT_SIL_SILBUILDER_H #define SWIFT_SIL_SILBUILDER_H #include "swift/SIL/SILDebugScope.h" #include "swift/SIL/SILFunction.h" #include "swift/SIL/SILModule.h" #include "llvm/ADT/PointerUnion.h" #include "llvm/ADT/StringExtras.h" namespace swift { class SILDebugScope; class SILBuilder { friend class SILBuilderWithScope; SILFunction &F; /// If this is non-null, the instruction is inserted in the specified /// basic block, at the specified InsertPt. If null, created instructions /// are not auto-inserted. SILBasicBlock *BB; SILBasicBlock::iterator InsertPt; const SILDebugScope *CurDebugScope = nullptr; /// If this pointer is non-null, then any inserted instruction is /// recorded in this list. SmallVectorImpl *InsertedInstrs = nullptr; public: SILBuilder(SILFunction &F) : F(F), BB(0) {} SILBuilder(SILFunction &F, SmallVectorImpl *InsertedInstrs) : F(F), BB(0), InsertedInstrs(InsertedInstrs) {} explicit SILBuilder(SILInstruction *I, SmallVectorImpl *InsertedInstrs = 0) : F(*I->getFunction()), InsertedInstrs(InsertedInstrs) { setInsertionPoint(I); } explicit SILBuilder(SILBasicBlock::iterator I, SmallVectorImpl *InsertedInstrs = 0) : SILBuilder(&*I, InsertedInstrs) {} explicit SILBuilder(SILBasicBlock *BB, SmallVectorImpl *InsertedInstrs = 0) : F(*BB->getParent()), InsertedInstrs(InsertedInstrs) { setInsertionPoint(BB); } SILBuilder(SILBasicBlock *BB, SILBasicBlock::iterator InsertPt, SmallVectorImpl *InsertedInstrs = 0) : F(*BB->getParent()), InsertedInstrs(InsertedInstrs) { setInsertionPoint(BB, InsertPt); } SILFunction &getFunction() const { return F; } SILModule &getModule() const { return F.getModule(); } ASTContext &getASTContext() const { return F.getASTContext(); } const Lowering::TypeLowering &getTypeLowering(SILType T) const { return F.getModule().getTypeLowering(T); } void setCurrentDebugScope(const SILDebugScope *DS) { CurDebugScope = DS; } const SILDebugScope *getCurrentDebugScope() const { return CurDebugScope; } /// Convenience function for building a SILDebugLocation. SILDebugLocation getSILDebugLocation(SILLocation Loc) { // FIXME: Audit all uses and enable this assertion. // assert(getCurrentDebugScope() && "no debug scope"); auto Scope = getCurrentDebugScope(); return SILDebugLocation(Loc, Scope ? Scope : getFunction().getDebugScope()); } //===--------------------------------------------------------------------===// // Insertion Point Management //===--------------------------------------------------------------------===// bool hasValidInsertionPoint() const { return BB != nullptr; } SILBasicBlock *getInsertionBB() { return BB; } SILBasicBlock::iterator getInsertionPoint() { return InsertPt; } /// insertingAtEndOfBlock - Return true if the insertion point is at the end /// of the current basic block. False if we're inserting before an existing /// instruction. bool insertingAtEndOfBlock() const { assert(hasValidInsertionPoint() && "Must have insertion point to ask about it"); return InsertPt == BB->end(); } /// clearInsertionPoint - Clear the insertion point: created instructions will /// not be inserted into a block. void clearInsertionPoint() { BB = nullptr; } /// setInsertionPoint - Set the insertion point. void setInsertionPoint(SILBasicBlock *BB, SILBasicBlock::iterator InsertPt) { this->BB = BB; this->InsertPt = InsertPt; } /// setInsertionPoint - Set the insertion point to insert before the specified /// instruction. void setInsertionPoint(SILInstruction *I) { setInsertionPoint(I->getParent(), I->getIterator()); } /// setInsertionPoint - Set the insertion point to insert before the specified /// instruction. void setInsertionPoint(SILBasicBlock::iterator IIIter) { setInsertionPoint(IIIter->getParent(), IIIter); } /// setInsertionPoint - Set the insertion point to insert at the end of the /// specified block. void setInsertionPoint(SILBasicBlock *BB) { setInsertionPoint(BB, BB->end()); } /// setInsertionPoint - Set the insertion point to insert at the end of the /// specified block. void setInsertionPoint(SILFunction::iterator BBIter) { setInsertionPoint(&*BBIter); } SILBasicBlock *getInsertionPoint() const { return BB; } //===--------------------------------------------------------------------===// // Instruction Tracking //===--------------------------------------------------------------------===// /// Clients of SILBuilder who want to know about any newly created /// instructions can install a SmallVector into the builder to collect them. void setTrackingList(SmallVectorImpl *II) { InsertedInstrs = II; } SmallVectorImpl *getTrackingList() { return InsertedInstrs; } //===--------------------------------------------------------------------===// // Type remapping //===--------------------------------------------------------------------===// static SILType getPartialApplyResultType(SILType Ty, unsigned ArgCount, SILModule &M, ArrayRef subs); //===--------------------------------------------------------------------===// // CFG Manipulation //===--------------------------------------------------------------------===// /// moveBlockTo - Move a block to immediately before the given iterator. void moveBlockTo(SILBasicBlock *BB, SILFunction::iterator IP) { assert(SILFunction::iterator(BB) != IP && "moving block before itself?"); SILFunction *F = BB->getParent(); auto &Blocks = F->getBlocks(); Blocks.remove(BB); Blocks.insert(IP, BB); } /// moveBlockTo - Move \p BB to immediately before \p Before. void moveBlockTo(SILBasicBlock *BB, SILBasicBlock *Before) { moveBlockTo(BB, Before->getIterator()); } /// moveBlockToEnd - Reorder a block to the end of its containing function. void moveBlockToEnd(SILBasicBlock *BB) { moveBlockTo(BB, BB->getParent()->end()); } /// \brief Move the insertion point to the end of the given block. /// /// Assumes that no insertion point is currently active. void emitBlock(SILBasicBlock *BB) { assert(!hasValidInsertionPoint()); setInsertionPoint(BB); } /// \brief Branch to the given block if there's an active insertion point, /// then move the insertion point to the end of that block. void emitBlock(SILBasicBlock *BB, SILLocation BranchLoc); /// splitBlockForFallthrough - Prepare for the insertion of a terminator. If /// the builder's insertion point is at the end of the current block (as when /// SILGen is creating the initial code for a function), just create and /// return a new basic block that will be later used for the continue point. /// /// If the insertion point is valid (i.e., pointing to an existing /// instruction) then split the block at that instruction and return the /// continuation block. SILBasicBlock *splitBlockForFallthrough(); //===--------------------------------------------------------------------===// // SILInstruction Creation Methods //===--------------------------------------------------------------------===// AllocStackInst *createAllocStack(SILLocation Loc, SILType elementType, SILDebugVariable Var = SILDebugVariable()) { Loc.markAsPrologue(); return insert(AllocStackInst::create(getSILDebugLocation(Loc), elementType, F, Var)); } AllocRefInst *createAllocRef(SILLocation Loc, SILType elementType, bool objc, bool canAllocOnStack) { // AllocRefInsts expand to function calls and can therefore not be // counted towards the function prologue. assert(!Loc.isInPrologue()); return insert(new (F.getModule()) AllocRefInst( getSILDebugLocation(Loc), elementType, F, objc, canAllocOnStack)); } AllocRefDynamicInst *createAllocRefDynamic(SILLocation Loc, SILValue operand, SILType type, bool objc) { // AllocRefDynamicInsts expand to function calls and can therefore // not be counted towards the function prologue. assert(!Loc.isInPrologue()); return insert(new (F.getModule()) AllocRefDynamicInst( getSILDebugLocation(Loc), operand, type, objc)); } AllocValueBufferInst * createAllocValueBuffer(SILLocation Loc, SILType valueType, SILValue operand) { return insert(new (F.getModule()) AllocValueBufferInst( getSILDebugLocation(Loc), valueType, operand)); } AllocBoxInst *createAllocBox(SILLocation Loc, SILType ElementType, SILDebugVariable Var = SILDebugVariable()) { Loc.markAsPrologue(); return insert( AllocBoxInst::create(getSILDebugLocation(Loc), ElementType, F, Var)); } AllocExistentialBoxInst * createAllocExistentialBox(SILLocation Loc, SILType ExistentialType, CanType ConcreteType, ArrayRef Conformances) { return insert(AllocExistentialBoxInst::create( getSILDebugLocation(Loc), ExistentialType, ConcreteType, Conformances, &F)); } ApplyInst *createApply(SILLocation Loc, SILValue Fn, SILType SubstFnTy, SILType Result, ArrayRef Subs, ArrayRef Args, bool isNonThrowing) { return insert(ApplyInst::create(getSILDebugLocation(Loc), Fn, SubstFnTy, Result, Subs, Args, isNonThrowing, F)); } ApplyInst *createApply(SILLocation Loc, SILValue Fn, ArrayRef Args, bool isNonThrowing) { auto FnTy = Fn->getType(); return createApply(Loc, Fn, FnTy, FnTy.castTo()->getSILResult(), ArrayRef(), Args, isNonThrowing); } TryApplyInst *createTryApply(SILLocation Loc, SILValue fn, SILType substFnTy, ArrayRef subs, ArrayRef args, SILBasicBlock *normalBB, SILBasicBlock *errorBB) { return insertTerminator(TryApplyInst::create(getSILDebugLocation(Loc), fn, substFnTy, subs, args, normalBB, errorBB, F)); } PartialApplyInst *createPartialApply(SILLocation Loc, SILValue Fn, SILType SubstFnTy, ArrayRef Subs, ArrayRef Args, SILType ClosureTy) { return insert(PartialApplyInst::create( getSILDebugLocation(Loc), Fn, SubstFnTy, Subs, Args, ClosureTy, F)); } BuiltinInst *createBuiltin(SILLocation Loc, Identifier Name, SILType ResultTy, ArrayRef Subs, ArrayRef Args) { return insert(BuiltinInst::create(getSILDebugLocation(Loc), Name, ResultTy, Subs, Args, F)); } /// Create a binary function with the signature: OpdTy, OpdTy -> ResultTy. BuiltinInst *createBuiltinBinaryFunction(SILLocation Loc, StringRef Name, SILType OpdTy, SILType ResultTy, ArrayRef Args) { auto &C = getASTContext(); llvm::SmallString<16> NameStr = Name; if (auto BuiltinIntTy = dyn_cast(OpdTy.getSwiftRValueType())) { if (BuiltinIntTy == BuiltinIntegerType::getWordType(getASTContext())) { NameStr += "_Word"; } else { unsigned NumBits = BuiltinIntTy->getWidth().getFixedWidth(); NameStr += "_Int" + llvm::utostr(NumBits); } } else { assert(OpdTy.getSwiftRValueType() == C.TheRawPointerType); NameStr += "_RawPointer"; } auto Ident = C.getIdentifier(NameStr); return insert(BuiltinInst::create(getSILDebugLocation(Loc), Ident, ResultTy, {}, Args, F)); } /// Create a binary function with the signature: /// OpdTy, OpdTy, Int1 -> (OpdTy, Int1) BuiltinInst * createBuiltinBinaryFunctionWithOverflow(SILLocation Loc, StringRef Name, ArrayRef Args) { assert(Args.size() == 3 && "Need three arguments"); assert(Args[0]->getType() == Args[1]->getType() && "Binary operands must match"); assert(Args[2]->getType().is() && Args[2]->getType().getSwiftRValueType()->isBuiltinIntegerType(1) && "Must have a third Int1 operand"); SILType OpdTy = Args[0]->getType(); SILType Int1Ty = Args[2]->getType(); TupleTypeElt ResultElts[] = {OpdTy.getSwiftRValueType(), Int1Ty.getSwiftRValueType()}; Type ResultTy = TupleType::get(ResultElts, getASTContext()); SILType SILResultTy = SILType::getPrimitiveObjectType(ResultTy->getCanonicalType()); return createBuiltinBinaryFunction(Loc, Name, OpdTy, SILResultTy, Args); } FunctionRefInst *createFunctionRef(SILLocation Loc, SILFunction *f) { return insert(new (F.getModule()) FunctionRefInst(getSILDebugLocation(Loc), f)); } AllocGlobalInst *createAllocGlobal(SILLocation Loc, SILGlobalVariable *g) { return insert(new (F.getModule()) AllocGlobalInst(getSILDebugLocation(Loc), g)); } GlobalAddrInst *createGlobalAddr(SILLocation Loc, SILGlobalVariable *g) { return insert(new (F.getModule()) GlobalAddrInst(getSILDebugLocation(Loc), g)); } IntegerLiteralInst *createIntegerLiteral(IntegerLiteralExpr *E) { return insert(IntegerLiteralInst::create(E, getSILDebugLocation(E), F)); } IntegerLiteralInst *createIntegerLiteral(SILLocation Loc, SILType Ty, intmax_t Value) { return insert( IntegerLiteralInst::create(getSILDebugLocation(Loc), Ty, Value, F)); } IntegerLiteralInst *createIntegerLiteral(SILLocation Loc, SILType Ty, const APInt &Value) { return insert( IntegerLiteralInst::create(getSILDebugLocation(Loc), Ty, Value, F)); } FloatLiteralInst *createFloatLiteral(FloatLiteralExpr *E) { return insert(FloatLiteralInst::create(E, getSILDebugLocation(E), F)); } FloatLiteralInst *createFloatLiteral(SILLocation Loc, SILType Ty, const APFloat &Value) { return insert( FloatLiteralInst::create(getSILDebugLocation(Loc), Ty, Value, F)); } StringLiteralInst *createStringLiteral(SILLocation Loc, StringRef text, StringLiteralInst::Encoding encoding) { return insert(StringLiteralInst::create(getSILDebugLocation(Loc), text, encoding, F)); } StringLiteralInst *createStringLiteral(SILLocation Loc, const Twine &text, StringLiteralInst::Encoding encoding) { SmallVector Out; return insert(StringLiteralInst::create( getSILDebugLocation(Loc), text.toStringRef(Out), encoding, F)); } LoadInst *createLoad(SILLocation Loc, SILValue LV) { return insert(new (F.getModule()) LoadInst(getSILDebugLocation(Loc), LV)); } StoreInst *createStore(SILLocation Loc, SILValue Src, SILValue DestAddr) { return insert(new (F.getModule()) StoreInst(getSILDebugLocation(Loc), Src, DestAddr)); } AssignInst *createAssign(SILLocation Loc, SILValue Src, SILValue DestAddr) { return insert(new (F.getModule()) AssignInst(getSILDebugLocation(Loc), Src, DestAddr)); } MarkUninitializedInst * createMarkUninitialized(SILLocation Loc, SILValue src, MarkUninitializedInst::Kind k) { return insert(new (F.getModule()) MarkUninitializedInst( getSILDebugLocation(Loc), src, k)); } MarkUninitializedInst *createMarkUninitializedVar(SILLocation Loc, SILValue src) { return createMarkUninitialized(Loc, src, MarkUninitializedInst::Var); } MarkUninitializedInst *createMarkUninitializedRootSelf(SILLocation Loc, SILValue src) { return createMarkUninitialized(Loc, src, MarkUninitializedInst::RootSelf); } MarkUninitializedBehaviorInst * createMarkUninitializedBehavior(SILLocation Loc, SILValue initStorageFunc, ArrayRef initStorageSubs, SILValue storage, SILValue setterFunc, ArrayRef setterSubs, SILValue self, SILType ty) { return insert(MarkUninitializedBehaviorInst::create(F.getModule(), getSILDebugLocation(Loc), initStorageFunc, initStorageSubs, storage, setterFunc, setterSubs, self, ty)); } MarkFunctionEscapeInst *createMarkFunctionEscape(SILLocation Loc, ArrayRef vars) { return insert( MarkFunctionEscapeInst::create(getSILDebugLocation(Loc), vars, F)); } DebugValueInst *createDebugValue(SILLocation Loc, SILValue src, SILDebugVariable Var = SILDebugVariable()) { return insert(DebugValueInst::create(getSILDebugLocation(Loc), src, F.getModule(), Var)); } DebugValueAddrInst * createDebugValueAddr(SILLocation Loc, SILValue src, SILDebugVariable Var = SILDebugVariable()) { return insert(DebugValueAddrInst::create(getSILDebugLocation(Loc), src, F.getModule(), Var)); } LoadWeakInst *createLoadWeak(SILLocation Loc, SILValue src, IsTake_t isTake) { return insert(new (F.getModule()) LoadWeakInst(getSILDebugLocation(Loc), src, isTake)); } StoreWeakInst *createStoreWeak(SILLocation Loc, SILValue value, SILValue dest, IsInitialization_t isInit) { return insert(new (F.getModule()) StoreWeakInst(getSILDebugLocation(Loc), value, dest, isInit)); } LoadUnownedInst *createLoadUnowned(SILLocation loc, SILValue src, IsTake_t isTake) { return insert(new (F.getModule()) LoadUnownedInst(getSILDebugLocation(loc), src, isTake)); } StoreUnownedInst *createStoreUnowned(SILLocation loc, SILValue value, SILValue dest, IsInitialization_t isInit) { return insert(new (F.getModule()) StoreUnownedInst(getSILDebugLocation(loc), value, dest, isInit)); } CopyAddrInst *createCopyAddr(SILLocation Loc, SILValue srcAddr, SILValue destAddr, IsTake_t isTake, IsInitialization_t isInitialize) { assert(srcAddr->getType() == destAddr->getType()); return insert(new (F.getModule()) CopyAddrInst( getSILDebugLocation(Loc), srcAddr, destAddr, isTake, isInitialize)); } ConvertFunctionInst *createConvertFunction(SILLocation Loc, SILValue Op, SILType Ty) { return insert(new (F.getModule()) ConvertFunctionInst(getSILDebugLocation(Loc), Op, Ty)); } ThinFunctionToPointerInst * createThinFunctionToPointer(SILLocation Loc, SILValue Op, SILType Ty) { return insert(new (F.getModule()) ThinFunctionToPointerInst( getSILDebugLocation(Loc), Op, Ty)); } PointerToThinFunctionInst * createPointerToThinFunction(SILLocation Loc, SILValue Op, SILType Ty) { return insert(new (F.getModule()) PointerToThinFunctionInst( getSILDebugLocation(Loc), Op, Ty)); } UpcastInst *createUpcast(SILLocation Loc, SILValue Op, SILType Ty) { return insert(new (F.getModule()) UpcastInst(getSILDebugLocation(Loc), Op, Ty)); } AddressToPointerInst *createAddressToPointer(SILLocation Loc, SILValue Op, SILType Ty) { return insert(new (F.getModule()) AddressToPointerInst( getSILDebugLocation(Loc), Op, Ty)); } PointerToAddressInst *createPointerToAddress(SILLocation Loc, SILValue Op, SILType Ty) { return insert(new (F.getModule()) PointerToAddressInst( getSILDebugLocation(Loc), Op, Ty)); } UncheckedRefCastInst *createUncheckedRefCast(SILLocation Loc, SILValue Op, SILType Ty) { return insert(new (F.getModule()) UncheckedRefCastInst( getSILDebugLocation(Loc), Op, Ty)); } UncheckedRefCastAddrInst * createUncheckedRefCastAddr(SILLocation Loc, SILValue src, CanType sourceType, SILValue dest, CanType targetType) { return insert(new (F.getModule()) UncheckedRefCastAddrInst( getSILDebugLocation(Loc), src, sourceType, dest, targetType)); } UncheckedAddrCastInst *createUncheckedAddrCast(SILLocation Loc, SILValue Op, SILType Ty) { return insert(new (F.getModule()) UncheckedAddrCastInst( getSILDebugLocation(Loc), Op, Ty)); } UncheckedTrivialBitCastInst * createUncheckedTrivialBitCast(SILLocation Loc, SILValue Op, SILType Ty) { return insert(new (F.getModule()) UncheckedTrivialBitCastInst( getSILDebugLocation(Loc), Op, Ty)); } UncheckedBitwiseCastInst * createUncheckedBitwiseCast(SILLocation Loc, SILValue Op, SILType Ty) { return insert(new (F.getModule()) UncheckedBitwiseCastInst( getSILDebugLocation(Loc), Op, Ty)); } RefToBridgeObjectInst *createRefToBridgeObject(SILLocation Loc, SILValue Ref, SILValue Bits) { auto Ty = SILType::getBridgeObjectType(getASTContext()); return insert(new (F.getModule()) RefToBridgeObjectInst( getSILDebugLocation(Loc), Ref, Bits, Ty)); } BridgeObjectToRefInst *createBridgeObjectToRef(SILLocation Loc, SILValue Op, SILType Ty) { return insert(new (F.getModule()) BridgeObjectToRefInst( getSILDebugLocation(Loc), Op, Ty)); } BridgeObjectToWordInst *createBridgeObjectToWord(SILLocation Loc, SILValue Op) { auto Ty = SILType::getBuiltinWordType(getASTContext()); return createBridgeObjectToWord(Loc, Op, Ty); } BridgeObjectToWordInst *createBridgeObjectToWord(SILLocation Loc, SILValue Op, SILType Ty) { return insert(new (F.getModule()) BridgeObjectToWordInst( getSILDebugLocation(Loc), Op, Ty)); } RefToRawPointerInst *createRefToRawPointer(SILLocation Loc, SILValue Op, SILType Ty) { return insert(new (F.getModule()) RefToRawPointerInst(getSILDebugLocation(Loc), Op, Ty)); } RawPointerToRefInst *createRawPointerToRef(SILLocation Loc, SILValue Op, SILType Ty) { return insert(new (F.getModule()) RawPointerToRefInst(getSILDebugLocation(Loc), Op, Ty)); } ThinToThickFunctionInst *createThinToThickFunction(SILLocation Loc, SILValue Op, SILType Ty) { return insert(new (F.getModule()) ThinToThickFunctionInst( getSILDebugLocation(Loc), Op, Ty)); } ThickToObjCMetatypeInst *createThickToObjCMetatype(SILLocation Loc, SILValue Op, SILType Ty) { return insert(new (F.getModule()) ThickToObjCMetatypeInst( getSILDebugLocation(Loc), Op, Ty)); } ObjCToThickMetatypeInst *createObjCToThickMetatype(SILLocation Loc, SILValue Op, SILType Ty) { return insert(new (F.getModule()) ObjCToThickMetatypeInst( getSILDebugLocation(Loc), Op, Ty)); } ObjCProtocolInst *createObjCProtocol(SILLocation Loc, ProtocolDecl *P, SILType Ty) { return insert(new (F.getModule()) ObjCProtocolInst(getSILDebugLocation(Loc), P, Ty)); } UnownedToRefInst *createUnownedToRef(SILLocation Loc, SILValue op, SILType ty) { return insert(new (F.getModule()) UnownedToRefInst(getSILDebugLocation(Loc), op, ty)); } RefToUnownedInst *createRefToUnowned(SILLocation Loc, SILValue op, SILType ty) { return insert(new (F.getModule()) RefToUnownedInst(getSILDebugLocation(Loc), op, ty)); } UnmanagedToRefInst *createUnmanagedToRef(SILLocation Loc, SILValue op, SILType ty) { return insert(new (F.getModule()) UnmanagedToRefInst(getSILDebugLocation(Loc), op, ty)); } RefToUnmanagedInst *createRefToUnmanaged(SILLocation Loc, SILValue op, SILType ty) { return insert(new (F.getModule()) RefToUnmanagedInst(getSILDebugLocation(Loc), op, ty)); } IsNonnullInst *createIsNonnull(SILLocation Loc, SILValue operand) { return insert(new (F.getModule()) IsNonnullInst( getSILDebugLocation(Loc), operand, SILType::getBuiltinIntegerType(1, getASTContext()))); } UnconditionalCheckedCastInst * createUnconditionalCheckedCast(SILLocation Loc, SILValue op, SILType destTy) { return insert(new (F.getModule()) UnconditionalCheckedCastInst( getSILDebugLocation(Loc), op, destTy)); } UnconditionalCheckedCastAddrInst *createUnconditionalCheckedCastAddr( SILLocation Loc, CastConsumptionKind consumption, SILValue src, CanType sourceType, SILValue dest, CanType targetType) { return insert(new (F.getModule()) UnconditionalCheckedCastAddrInst( getSILDebugLocation(Loc), consumption, src, sourceType, dest, targetType)); } RetainValueInst *createRetainValue(SILLocation Loc, SILValue operand) { return insert(new (F.getModule()) RetainValueInst(getSILDebugLocation(Loc), operand)); } ReleaseValueInst *createReleaseValue(SILLocation Loc, SILValue operand) { return insert(new (F.getModule()) ReleaseValueInst(getSILDebugLocation(Loc), operand)); } AutoreleaseValueInst *createAutoreleaseValue(SILLocation Loc, SILValue operand) { return insert(new (F.getModule()) AutoreleaseValueInst( getSILDebugLocation(Loc), operand)); } StructInst *createStruct(SILLocation Loc, SILType Ty, ArrayRef Elements) { return insert( StructInst::create(getSILDebugLocation(Loc), Ty, Elements, F)); } TupleInst *createTuple(SILLocation Loc, SILType Ty, ArrayRef Elements) { return insert( TupleInst::create(getSILDebugLocation(Loc), Ty, Elements, F)); } TupleInst *createTuple(SILLocation loc, ArrayRef elts); EnumInst *createEnum(SILLocation Loc, SILValue Operand, EnumElementDecl *Element, SILType Ty) { return insert(new (F.getModule()) EnumInst(getSILDebugLocation(Loc), Operand, Element, Ty)); } /// Inject a loadable value into the corresponding optional type. EnumInst *createOptionalSome(SILLocation Loc, SILValue operand, SILType ty) { return createOptionalSome(Loc, operand, ty.getOptionalTypeKind(), ty); } /// Inject a loadable value into the corresponding optional type. EnumInst *createOptionalSome(SILLocation Loc, SILValue operand, OptionalTypeKind optKind, SILType ty) { assert(ty.getOptionalTypeKind() == optKind); auto someDecl = F.getModule().getASTContext().getOptionalSomeDecl(optKind); return createEnum(Loc, operand, someDecl, ty); } /// Create the nil value of a loadable optional type. EnumInst *createOptionalNone(SILLocation Loc, SILType ty) { return createOptionalNone(Loc, ty.getOptionalTypeKind(), ty); } /// Create the nil value of a loadable optional type. EnumInst *createOptionalNone(SILLocation Loc, OptionalTypeKind optKind, SILType ty) { assert(ty.getOptionalTypeKind() == optKind); auto noneDecl = F.getModule().getASTContext().getOptionalNoneDecl(optKind); return createEnum(Loc, nullptr, noneDecl, ty); } InitEnumDataAddrInst *createInitEnumDataAddr(SILLocation Loc, SILValue Operand, EnumElementDecl *Element, SILType Ty) { return insert(new (F.getModule()) InitEnumDataAddrInst( getSILDebugLocation(Loc), Operand, Element, Ty)); } UncheckedEnumDataInst *createUncheckedEnumData(SILLocation Loc, SILValue Operand, EnumElementDecl *Element, SILType Ty) { return insert(new (F.getModule()) UncheckedEnumDataInst( getSILDebugLocation(Loc), Operand, Element, Ty)); } UncheckedEnumDataInst *createUncheckedEnumData(SILLocation Loc, SILValue Operand, EnumElementDecl *Element) { SILType EltType = Operand->getType().getEnumElementType(Element, getModule()); return createUncheckedEnumData(Loc, Operand, Element, EltType); } UncheckedTakeEnumDataAddrInst * createUncheckedTakeEnumDataAddr(SILLocation Loc, SILValue Operand, EnumElementDecl *Element, SILType Ty) { return insert(new (F.getModule()) UncheckedTakeEnumDataAddrInst( getSILDebugLocation(Loc), Operand, Element, Ty)); } UncheckedTakeEnumDataAddrInst * createUncheckedTakeEnumDataAddr(SILLocation Loc, SILValue Operand, EnumElementDecl *Element) { SILType EltType = Operand->getType().getEnumElementType(Element, getModule()); return createUncheckedTakeEnumDataAddr(Loc, Operand, Element, EltType); } InjectEnumAddrInst *createInjectEnumAddr(SILLocation Loc, SILValue Operand, EnumElementDecl *Element) { return insert(new (F.getModule()) InjectEnumAddrInst( getSILDebugLocation(Loc), Operand, Element)); } SelectEnumInst *createSelectEnum( SILLocation Loc, SILValue Operand, SILType Ty, SILValue DefaultValue, ArrayRef> CaseValues) { return insert(SelectEnumInst::create(getSILDebugLocation(Loc), Operand, Ty, DefaultValue, CaseValues, F)); } SelectEnumAddrInst *createSelectEnumAddr( SILLocation Loc, SILValue Operand, SILType Ty, SILValue DefaultValue, ArrayRef> CaseValues) { return insert(SelectEnumAddrInst::create( getSILDebugLocation(Loc), Operand, Ty, DefaultValue, CaseValues, F)); } SelectValueInst *createSelectValue( SILLocation Loc, SILValue Operand, SILType Ty, SILValue DefaultResult, ArrayRef> CaseValuesAndResults) { return insert(SelectValueInst::create(getSILDebugLocation(Loc), Operand, Ty, DefaultResult, CaseValuesAndResults, F)); } TupleExtractInst *createTupleExtract(SILLocation Loc, SILValue Operand, unsigned FieldNo, SILType ResultTy) { return insert(new (F.getModule()) TupleExtractInst( getSILDebugLocation(Loc), Operand, FieldNo, ResultTy)); } TupleExtractInst *createTupleExtract(SILLocation Loc, SILValue Operand, unsigned FieldNo) { auto type = Operand->getType().getTupleElementType(FieldNo); return createTupleExtract(Loc, Operand, FieldNo, type); } TupleElementAddrInst *createTupleElementAddr(SILLocation Loc, SILValue Operand, unsigned FieldNo, SILType ResultTy) { return insert(new (F.getModule()) TupleElementAddrInst( getSILDebugLocation(Loc), Operand, FieldNo, ResultTy)); } TupleElementAddrInst * createTupleElementAddr(SILLocation Loc, SILValue Operand, unsigned FieldNo) { return insert(new (F.getModule()) TupleElementAddrInst( getSILDebugLocation(Loc), Operand, FieldNo, Operand->getType().getTupleElementType(FieldNo))); } StructExtractInst *createStructExtract(SILLocation Loc, SILValue Operand, VarDecl *Field, SILType ResultTy) { return insert(new (F.getModule()) StructExtractInst( getSILDebugLocation(Loc), Operand, Field, ResultTy)); } StructExtractInst *createStructExtract(SILLocation Loc, SILValue Operand, VarDecl *Field) { auto type = Operand->getType().getFieldType(Field, F.getModule()); return createStructExtract(Loc, Operand, Field, type); } StructElementAddrInst *createStructElementAddr(SILLocation Loc, SILValue Operand, VarDecl *Field, SILType ResultTy) { return insert(new (F.getModule()) StructElementAddrInst( getSILDebugLocation(Loc), Operand, Field, ResultTy)); } StructElementAddrInst * createStructElementAddr(SILLocation Loc, SILValue Operand, VarDecl *Field) { auto ResultTy = Operand->getType().getFieldType(Field, F.getModule()); return createStructElementAddr(Loc, Operand, Field, ResultTy); } RefElementAddrInst *createRefElementAddr(SILLocation Loc, SILValue Operand, VarDecl *Field, SILType ResultTy) { return insert(new (F.getModule()) RefElementAddrInst( getSILDebugLocation(Loc), Operand, Field, ResultTy)); } RefElementAddrInst *createRefElementAddr(SILLocation Loc, SILValue Operand, VarDecl *Field) { auto ResultTy = Operand->getType().getFieldType(Field, F.getModule()); return createRefElementAddr(Loc, Operand, Field, ResultTy); } ClassMethodInst *createClassMethod(SILLocation Loc, SILValue Operand, SILDeclRef Member, SILType MethodTy, bool Volatile = false) { return insert(new (F.getModule()) ClassMethodInst( getSILDebugLocation(Loc), Operand, Member, MethodTy, Volatile)); } ClassMethodInst *createClassMethod(SILLocation Loc, SILValue Operand, SILDeclRef Member, bool Volatile = false) { auto MethodTy = getModule().Types.getConstantOverrideType(Member); return createClassMethod(Loc, Operand, Member, SILType::getPrimitiveObjectType(MethodTy), Volatile); } /// Emit a class_method reference to the least derived overridden decl for /// the given method, and upcast the "self" pointer to the matching superclass /// type. std::pair emitClassMethod(SILLocation Loc, SILValue Self, SILDeclRef Member, bool Volatile = false); SuperMethodInst *createSuperMethod(SILLocation Loc, SILValue Operand, SILDeclRef Member, SILType MethodTy, bool Volatile = false) { return insert(new (F.getModule()) SuperMethodInst( getSILDebugLocation(Loc), Operand, Member, MethodTy, Volatile)); } WitnessMethodInst *createWitnessMethod(SILLocation Loc, CanType LookupTy, ProtocolConformanceRef Conformance, SILDeclRef Member, SILType MethodTy, SILValue OptionalOpenedExistential, bool Volatile = false) { return insert(WitnessMethodInst::create( getSILDebugLocation(Loc), LookupTy, Conformance, Member, MethodTy, &F, OptionalOpenedExistential, Volatile)); } DynamicMethodInst *createDynamicMethod(SILLocation Loc, SILValue Operand, SILDeclRef Member, SILType MethodTy, bool Volatile = false) { return insert(new (F.getModule()) DynamicMethodInst( getSILDebugLocation(Loc), Operand, Member, MethodTy, Volatile)); } OpenExistentialAddrInst * createOpenExistentialAddr(SILLocation Loc, SILValue Operand, SILType SelfTy) { return insert(new (F.getModule()) OpenExistentialAddrInst( getSILDebugLocation(Loc), Operand, SelfTy)); } OpenExistentialMetatypeInst *createOpenExistentialMetatype(SILLocation Loc, SILValue operand, SILType selfTy) { return insert(new (F.getModule()) OpenExistentialMetatypeInst( getSILDebugLocation(Loc), operand, selfTy)); } OpenExistentialRefInst * createOpenExistentialRef(SILLocation Loc, SILValue Operand, SILType Ty) { return insert(new (F.getModule()) OpenExistentialRefInst( getSILDebugLocation(Loc), Operand, Ty)); } OpenExistentialBoxInst * createOpenExistentialBox(SILLocation Loc, SILValue Operand, SILType Ty) { return insert(new (F.getModule()) OpenExistentialBoxInst( getSILDebugLocation(Loc), Operand, Ty)); } InitExistentialAddrInst * createInitExistentialAddr(SILLocation Loc, SILValue Existential, CanType FormalConcreteType, SILType LoweredConcreteType, ArrayRef Conformances) { return insert(InitExistentialAddrInst::create( getSILDebugLocation(Loc), Existential, FormalConcreteType, LoweredConcreteType, Conformances, &F)); } InitExistentialMetatypeInst * createInitExistentialMetatype(SILLocation Loc, SILValue metatype, SILType existentialType, ArrayRef conformances) { return insert(InitExistentialMetatypeInst::create( getSILDebugLocation(Loc), existentialType, metatype, conformances, &F)); } InitExistentialRefInst * createInitExistentialRef(SILLocation Loc, SILType ExistentialType, CanType FormalConcreteType, SILValue Concrete, ArrayRef Conformances) { return insert(InitExistentialRefInst::create( getSILDebugLocation(Loc), ExistentialType, FormalConcreteType, Concrete, Conformances, &F)); } DeinitExistentialAddrInst *createDeinitExistentialAddr(SILLocation Loc, SILValue Existential) { return insert(new (F.getModule()) DeinitExistentialAddrInst( getSILDebugLocation(Loc), Existential)); } ProjectBlockStorageInst *createProjectBlockStorage(SILLocation Loc, SILValue Storage) { auto CaptureTy = Storage->getType() .castTo() ->getCaptureAddressType(); return createProjectBlockStorage(Loc, Storage, CaptureTy); } ProjectBlockStorageInst *createProjectBlockStorage(SILLocation Loc, SILValue Storage, SILType CaptureTy) { return insert(new (F.getModule()) ProjectBlockStorageInst( getSILDebugLocation(Loc), Storage, CaptureTy)); } InitBlockStorageHeaderInst * createInitBlockStorageHeader(SILLocation Loc, SILValue BlockStorage, SILValue InvokeFunction, SILType BlockType) { return insert(new (F.getModule()) InitBlockStorageHeaderInst( getSILDebugLocation(Loc), BlockStorage, InvokeFunction, BlockType)); } MetatypeInst *createMetatype(SILLocation Loc, SILType Metatype) { return insert(new (F.getModule()) MetatypeInst(getSILDebugLocation(Loc), Metatype)); } ObjCMetatypeToObjectInst * createObjCMetatypeToObject(SILLocation Loc, SILValue Op, SILType Ty) { return insert(new (F.getModule()) ObjCMetatypeToObjectInst( getSILDebugLocation(Loc), Op, Ty)); } ObjCExistentialMetatypeToObjectInst * createObjCExistentialMetatypeToObject(SILLocation Loc, SILValue Op, SILType Ty) { return insert(new (F.getModule()) ObjCExistentialMetatypeToObjectInst( getSILDebugLocation(Loc), Op, Ty)); } ValueMetatypeInst *createValueMetatype(SILLocation Loc, SILType Metatype, SILValue Base) { return insert(new (F.getModule()) ValueMetatypeInst( getSILDebugLocation(Loc), Metatype, Base)); } ExistentialMetatypeInst * createExistentialMetatype(SILLocation Loc, SILType Metatype, SILValue Base) { return insert(new (F.getModule()) ExistentialMetatypeInst( getSILDebugLocation(Loc), Metatype, Base)); } CopyBlockInst *createCopyBlock(SILLocation Loc, SILValue Operand) { return insert(new (F.getModule()) CopyBlockInst(getSILDebugLocation(Loc), Operand)); } StrongRetainInst *createStrongRetain(SILLocation Loc, SILValue Operand) { return insert(new (F.getModule()) StrongRetainInst(getSILDebugLocation(Loc), Operand)); } StrongReleaseInst *createStrongRelease(SILLocation Loc, SILValue Operand) { return insert(new (F.getModule()) StrongReleaseInst(getSILDebugLocation(Loc), Operand)); } StrongPinInst *createStrongPin(SILLocation Loc, SILValue Operand) { return insert(new (F.getModule()) StrongPinInst(getSILDebugLocation(Loc), Operand)); } StrongUnpinInst *createStrongUnpin(SILLocation Loc, SILValue Operand) { return insert(new (F.getModule()) StrongUnpinInst(getSILDebugLocation(Loc), Operand)); } StrongRetainUnownedInst *createStrongRetainUnowned(SILLocation Loc, SILValue Operand) { return insert(new (F.getModule()) StrongRetainUnownedInst( getSILDebugLocation(Loc), Operand)); } UnownedRetainInst *createUnownedRetain(SILLocation Loc, SILValue Operand) { return insert(new (F.getModule()) UnownedRetainInst(getSILDebugLocation(Loc), Operand)); } UnownedReleaseInst *createUnownedRelease(SILLocation Loc, SILValue Operand) { return insert(new (F.getModule()) UnownedReleaseInst(getSILDebugLocation(Loc), Operand)); } FixLifetimeInst *createFixLifetime(SILLocation Loc, SILValue Operand) { return insert(new (F.getModule()) FixLifetimeInst(getSILDebugLocation(Loc), Operand)); } void emitFixLifetime(SILLocation Loc, SILValue Operand) { if (getTypeLowering(Operand->getType()).isTrivial()) return; createFixLifetime(Loc, Operand); } MarkDependenceInst *createMarkDependence(SILLocation Loc, SILValue value, SILValue base) { return insert(new (F.getModule()) MarkDependenceInst( getSILDebugLocation(Loc), value, base)); } IsUniqueInst *createIsUnique(SILLocation Loc, SILValue operand) { auto Int1Ty = SILType::getBuiltinIntegerType(1, getASTContext()); return insert(new (F.getModule()) IsUniqueInst(getSILDebugLocation(Loc), operand, Int1Ty)); } IsUniqueOrPinnedInst *createIsUniqueOrPinned(SILLocation Loc, SILValue value) { auto Int1Ty = SILType::getBuiltinIntegerType(1, getASTContext()); return insert(new (F.getModule()) IsUniqueOrPinnedInst( getSILDebugLocation(Loc), value, Int1Ty)); } DeallocStackInst *createDeallocStack(SILLocation Loc, SILValue operand) { return insert(new (F.getModule()) DeallocStackInst(getSILDebugLocation(Loc), operand)); } DeallocRefInst *createDeallocRef(SILLocation Loc, SILValue operand, bool canBeOnStack) { return insert(new (F.getModule()) DeallocRefInst( getSILDebugLocation(Loc), operand, canBeOnStack)); } DeallocPartialRefInst *createDeallocPartialRef(SILLocation Loc, SILValue operand, SILValue metatype) { return insert(new (F.getModule()) DeallocPartialRefInst( getSILDebugLocation(Loc), operand, metatype)); } DeallocBoxInst *createDeallocBox(SILLocation Loc, SILType eltType, SILValue operand) { return insert(new (F.getModule()) DeallocBoxInst( getSILDebugLocation(Loc), eltType, operand)); } DeallocBoxInst *createDeallocBox(SILLocation Loc, SILValue operand) { auto eltType = operand->getType().castTo()->getBoxedAddressType(); return insert(new (F.getModule()) DeallocBoxInst( getSILDebugLocation(Loc), eltType, operand)); } DeallocExistentialBoxInst *createDeallocExistentialBox(SILLocation Loc, CanType concreteType, SILValue operand) { return insert(new (F.getModule()) DeallocExistentialBoxInst( getSILDebugLocation(Loc), concreteType, operand)); } DeallocValueBufferInst *createDeallocValueBuffer(SILLocation Loc, SILType valueType, SILValue operand) { return insert(new (F.getModule()) DeallocValueBufferInst( getSILDebugLocation(Loc), valueType, operand)); } DestroyAddrInst *createDestroyAddr(SILLocation Loc, SILValue Operand) { return insert(new (F.getModule()) DestroyAddrInst(getSILDebugLocation(Loc), Operand)); } ProjectValueBufferInst *createProjectValueBuffer(SILLocation Loc, SILType valueType, SILValue operand) { return insert(new (F.getModule()) ProjectValueBufferInst( getSILDebugLocation(Loc), valueType, operand)); } ProjectBoxInst *createProjectBox(SILLocation Loc, SILValue boxOperand) { auto valueTy = boxOperand->getType().castTo()->getBoxedAddressType(); return insert(new (F.getModule()) ProjectBoxInst( getSILDebugLocation(Loc), valueTy, boxOperand)); } ProjectBoxInst *createProjectBox(SILLocation Loc, SILType valueTy, SILValue boxOperand) { return insert(new (F.getModule()) ProjectBoxInst( getSILDebugLocation(Loc), valueTy, boxOperand)); } ProjectExistentialBoxInst *createProjectExistentialBox(SILLocation Loc, SILType valueTy, SILValue boxOperand) { return insert(new (F.getModule()) ProjectExistentialBoxInst( getSILDebugLocation(Loc), valueTy, boxOperand)); } //===--------------------------------------------------------------------===// // Unchecked cast helpers //===--------------------------------------------------------------------===// // Create an UncheckedRefCast if the source and dest types are legal, // otherwise return null. // Unwrap or wrap optional types as needed. SILInstruction *tryCreateUncheckedRefCast(SILLocation Loc, SILValue Op, SILType ResultTy); // Create the appropriate cast instruction based on result type. SILInstruction *createUncheckedBitCast(SILLocation Loc, SILValue Op, SILType Ty); //===--------------------------------------------------------------------===// // Runtime failure //===--------------------------------------------------------------------===// CondFailInst *createCondFail(SILLocation Loc, SILValue Operand) { return insert(new (F.getModule()) CondFailInst(getSILDebugLocation(Loc), Operand)); } BuiltinInst *createBuiltinTrap(SILLocation Loc) { ASTContext &AST = F.getModule().getASTContext(); auto Id_trap = AST.getIdentifier("int_trap"); return createBuiltin(Loc, Id_trap, F.getModule().Types.getEmptyTupleType(), {}, {}); } //===--------------------------------------------------------------------===// // Array indexing instructions //===--------------------------------------------------------------------===// IndexAddrInst *createIndexAddr(SILLocation Loc, SILValue Operand, SILValue Index) { return insert(new (F.getModule()) IndexAddrInst(getSILDebugLocation(Loc), Operand, Index)); } IndexRawPointerInst *createIndexRawPointer(SILLocation Loc, SILValue Operand, SILValue Index) { return insert(new (F.getModule()) IndexRawPointerInst( getSILDebugLocation(Loc), Operand, Index)); } //===--------------------------------------------------------------------===// // Terminator SILInstruction Creation Methods //===--------------------------------------------------------------------===// UnreachableInst *createUnreachable(SILLocation Loc) { return insertTerminator(new (F.getModule()) UnreachableInst(getSILDebugLocation(Loc))); } ReturnInst *createReturn(SILLocation Loc, SILValue ReturnValue) { return insertTerminator(new (F.getModule()) ReturnInst( getSILDebugLocation(Loc), ReturnValue)); } ThrowInst *createThrow(SILLocation Loc, SILValue errorValue) { return insertTerminator( new (F.getModule()) ThrowInst(getSILDebugLocation(Loc), errorValue)); } CondBranchInst *createCondBranch(SILLocation Loc, SILValue Cond, SILBasicBlock *Target1, SILBasicBlock *Target2) { return insertTerminator(CondBranchInst::create(getSILDebugLocation(Loc), Cond, Target1, Target2, F)); } CondBranchInst *createCondBranch(SILLocation Loc, SILValue Cond, SILBasicBlock *Target1, ArrayRef Args1, SILBasicBlock *Target2, ArrayRef Args2) { return insertTerminator(CondBranchInst::create( getSILDebugLocation(Loc), Cond, Target1, Args1, Target2, Args2, F)); } CondBranchInst *createCondBranch(SILLocation Loc, SILValue Cond, SILBasicBlock *Target1, OperandValueArrayRef Args1, SILBasicBlock *Target2, OperandValueArrayRef Args2) { SmallVector ArgsCopy1; SmallVector ArgsCopy2; ArgsCopy1.reserve(Args1.size()); ArgsCopy2.reserve(Args2.size()); for (auto I = Args1.begin(), E = Args1.end(); I != E; ++I) ArgsCopy1.push_back(*I); for (auto I = Args2.begin(), E = Args2.end(); I != E; ++I) ArgsCopy2.push_back(*I); return insertTerminator(CondBranchInst::create(getSILDebugLocation(Loc), Cond, Target1, ArgsCopy1, Target2, ArgsCopy2, F)); } BranchInst *createBranch(SILLocation Loc, SILBasicBlock *TargetBlock) { return insertTerminator( BranchInst::create(getSILDebugLocation(Loc), TargetBlock, F)); } BranchInst *createBranch(SILLocation Loc, SILBasicBlock *TargetBlock, ArrayRef Args) { return insertTerminator( BranchInst::create(getSILDebugLocation(Loc), TargetBlock, Args, F)); } BranchInst *createBranch(SILLocation Loc, SILBasicBlock *TargetBlock, OperandValueArrayRef Args); SwitchValueInst * createSwitchValue(SILLocation Loc, SILValue Operand, SILBasicBlock *DefaultBB, ArrayRef> CaseBBs) { return insertTerminator(SwitchValueInst::create( getSILDebugLocation(Loc), Operand, DefaultBB, CaseBBs, F)); } SwitchEnumInst *createSwitchEnum( SILLocation Loc, SILValue Operand, SILBasicBlock *DefaultBB, ArrayRef> CaseBBs) { return insertTerminator(SwitchEnumInst::create( getSILDebugLocation(Loc), Operand, DefaultBB, CaseBBs, F)); } SwitchEnumAddrInst *createSwitchEnumAddr( SILLocation Loc, SILValue Operand, SILBasicBlock *DefaultBB, ArrayRef> CaseBBs) { return insertTerminator(SwitchEnumAddrInst::create( getSILDebugLocation(Loc), Operand, DefaultBB, CaseBBs, F)); } DynamicMethodBranchInst * createDynamicMethodBranch(SILLocation Loc, SILValue Operand, SILDeclRef Member, SILBasicBlock *HasMethodBB, SILBasicBlock *NoMethodBB) { return insertTerminator( DynamicMethodBranchInst::create(getSILDebugLocation(Loc), Operand, Member, HasMethodBB, NoMethodBB, F)); } CheckedCastBranchInst *createCheckedCastBranch(SILLocation Loc, bool isExact, SILValue op, SILType destTy, SILBasicBlock *successBB, SILBasicBlock *failureBB) { return insertTerminator(new (F.getModule()) CheckedCastBranchInst( getSILDebugLocation(Loc), isExact, op, destTy, successBB, failureBB)); } CheckedCastAddrBranchInst * createCheckedCastAddrBranch(SILLocation Loc, CastConsumptionKind consumption, SILValue src, CanType sourceType, SILValue dest, CanType targetType, SILBasicBlock *successBB, SILBasicBlock *failureBB) { return insertTerminator(new (F.getModule()) CheckedCastAddrBranchInst( getSILDebugLocation(Loc), consumption, src, sourceType, dest, targetType, successBB, failureBB)); } //===--------------------------------------------------------------------===// // Memory management helpers //===--------------------------------------------------------------------===// /// Try to fold a destroy_addr operation into the previous instructions, or /// generate an explicit one if that fails. If this inserts a new /// instruction, it returns it, otherwise it returns null. DestroyAddrInst *emitDestroyAddrAndFold(SILLocation Loc, SILValue Operand) { auto U = emitDestroyAddr(Loc, Operand); if (U.isNull() || !U.is()) return nullptr; return U.get(); } /// Perform a strong_release instruction at the current location, attempting /// to fold it locally into nearby retain instructions or emitting an explicit /// strong release if necessary. If this inserts a new instruction, it /// returns it, otherwise it returns null. StrongReleaseInst *emitStrongReleaseAndFold(SILLocation Loc, SILValue Operand) { auto U = emitStrongRelease(Loc, Operand); if (U.isNull()) return nullptr; if (auto *SRI = U.dyn_cast()) return SRI; U.get()->eraseFromParent(); return nullptr; } /// Emit a release_value instruction at the current location, attempting to /// fold it locally into another nearby retain_value instruction. This /// returns the new instruction if it inserts one, otherwise it returns null. /// /// This instruction doesn't handle strength reduction of release_value into /// a noop / strong_release / unowned_release. For that, use the /// emitReleaseValueOperation method below or use the TypeLowering API. ReleaseValueInst *emitReleaseValueAndFold(SILLocation Loc, SILValue Operand) { auto U = emitReleaseValue(Loc, Operand); if (U.isNull()) return nullptr; if (auto *RVI = U.dyn_cast()) return RVI; U.get()->eraseFromParent(); return nullptr; } /// Emit a release_value instruction at the current location, attempting to /// fold it locally into another nearby retain_value instruction. Returns a /// pointer union initialized with a release value inst if it inserts one, /// otherwise returns the retain. It is expected that the caller will remove /// the retain_value. This allows for the caller to update any state before /// the retain_value is destroyed. PointerUnion emitReleaseValue(SILLocation Loc, SILValue Operand); /// Emit a strong_release instruction at the current location, attempting to /// fold it locally into another nearby strong_retain instruction. Returns a /// pointer union initialized with a strong_release inst if it inserts one, /// otherwise returns the pointer union initialized with the strong_retain. It /// is expected that the caller will remove the returned strong_retain. This /// allows for the caller to update any state before the release value is /// destroyed. PointerUnion emitStrongRelease(SILLocation Loc, SILValue Operand); /// Emit a destroy_addr instruction at \p Loc attempting to fold the /// destroy_addr locally into a copy_addr instruction. Returns a pointer union /// initialized with the folded copy_addr if the destroy_addr was folded into /// a copy_addr. Otherwise, returns the newly inserted destroy_addr. PointerUnion emitDestroyAddr(SILLocation Loc, SILValue Operand); /// Convenience function for calling emitRetain on the type lowering /// for the non-address value. void emitRetainValueOperation(SILLocation Loc, SILValue v) { assert(!v->getType().isAddress()); auto &lowering = getTypeLowering(v->getType()); return lowering.emitRetainValue(*this, Loc, v); } /// Convenience function for calling TypeLowering.emitRelease on the type /// lowering for the non-address value. void emitReleaseValueOperation(SILLocation Loc, SILValue v) { assert(!v->getType().isAddress()); auto &lowering = getTypeLowering(v->getType()); lowering.emitReleaseValue(*this, Loc, v); } SILValue emitTupleExtract(SILLocation Loc, SILValue Operand, unsigned FieldNo, SILType ResultTy) { // Fold tuple_extract(tuple(x,y,z),2) if (auto *TI = dyn_cast(Operand)) return TI->getOperand(FieldNo); return createTupleExtract(Loc, Operand, FieldNo, ResultTy); } SILValue emitTupleExtract(SILLocation Loc, SILValue Operand, unsigned FieldNo) { return emitTupleExtract(Loc, Operand, FieldNo, Operand->getType().getTupleElementType(FieldNo)); } SILValue emitStructExtract(SILLocation Loc, SILValue Operand, VarDecl *Field, SILType ResultTy) { if (auto *SI = dyn_cast(Operand)) return SI->getFieldValue(Field); return createStructExtract(Loc, Operand, Field, ResultTy); } SILValue emitStructExtract(SILLocation Loc, SILValue Operand, VarDecl *Field) { auto type = Operand->getType().getFieldType(Field, F.getModule()); return emitStructExtract(Loc, Operand, Field, type); } SILValue emitThickToObjCMetatype(SILLocation Loc, SILValue Op, SILType Ty); SILValue emitObjCToThickMetatype(SILLocation Loc, SILValue Op, SILType Ty); //===--------------------------------------------------------------------===// // Private Helper Methods //===--------------------------------------------------------------------===// private: /// insert - This is a template to avoid losing type info on the result. template T *insert(T *TheInst) { insertImpl(TheInst); return TheInst; } /// insertTerminator - This is the same as insert, but clears the insertion /// point after doing the insertion. This is used by terminators, since it /// isn't valid to insert something after a terminator. template T *insertTerminator(T *TheInst) { insertImpl(TheInst); clearInsertionPoint(); return TheInst; } void insertImpl(SILInstruction *TheInst) { if (BB == 0) return; // If the SILBuilder client wants to know about new instructions, record // this. if (InsertedInstrs) InsertedInstrs->push_back(TheInst); BB->insert(InsertPt, TheInst); } }; /// An wrapper on top of SILBuilder's constructor that automatically sets the /// current SILDebugScope based on the specified insertion point. This is useful /// for situations where a single SIL instruction is lowered into a sequence of /// SIL instructions. class SILBuilderWithScope : public SILBuilder { void inheritScopeFrom(SILInstruction *I) { assert(I->getDebugScope() && "instruction has no debug scope"); setCurrentDebugScope(I->getDebugScope()); } public: explicit SILBuilderWithScope( SILInstruction *I, SmallVectorImpl *InsertedInstrs = nullptr) : SILBuilder(I, InsertedInstrs) { assert(I->getDebugScope() && "instruction has no debug scope"); setCurrentDebugScope(I->getDebugScope()); } explicit SILBuilderWithScope(SILBasicBlock::iterator I) : SILBuilderWithScope(&*I) {} explicit SILBuilderWithScope(SILInstruction *I, SILInstruction *InheritScopeFrom) : SILBuilderWithScope(I) { inheritScopeFrom(InheritScopeFrom); } explicit SILBuilderWithScope(SILBasicBlock::iterator I, SILInstruction *InheritScopeFrom) : SILBuilderWithScope(&*I) { inheritScopeFrom(InheritScopeFrom); } explicit SILBuilderWithScope(SILBasicBlock *BB, SILInstruction *InheritScopeFrom) : SILBuilder(BB) { inheritScopeFrom(InheritScopeFrom); } }; } // end swift namespace #endif