| //===--- SILGenBridging.cpp - SILGen for bridging to Clang ASTs -----------===// |
| // |
| // This source file is part of the Swift.org open source project |
| // |
| // Copyright (c) 2014 - 2017 Apple Inc. and the Swift project authors |
| // Licensed under Apache License v2.0 with Runtime Library Exception |
| // |
| // See https://swift.org/LICENSE.txt for license information |
| // See https://swift.org/CONTRIBUTORS.txt for the list of Swift project authors |
| // |
| //===----------------------------------------------------------------------===// |
| |
| #include "ArgumentScope.h" |
| #include "Callee.h" |
| #include "RValue.h" |
| #include "ResultPlan.h" |
| #include "SILGenFunction.h" |
| #include "Scope.h" |
| #include "swift/AST/DiagnosticsSIL.h" |
| #include "swift/AST/ExistentialLayout.h" |
| #include "swift/AST/ForeignErrorConvention.h" |
| #include "swift/AST/GenericEnvironment.h" |
| #include "swift/AST/ParameterList.h" |
| #include "swift/AST/ProtocolConformance.h" |
| #include "swift/SIL/SILArgument.h" |
| #include "swift/SIL/SILUndef.h" |
| #include "swift/SIL/TypeLowering.h" |
| |
| using namespace swift; |
| using namespace Lowering; |
| |
| /// Convert to the given formal type, assuming that the lowered type of |
| /// the source type is the same as its formal type. This is a reasonable |
| /// assumption for a wide variety of types. |
| static ManagedValue emitUnabstractedCast(SILGenFunction &SGF, SILLocation loc, |
| ManagedValue value, |
| CanType sourceFormalType, |
| CanType targetFormalType) { |
| if (value.getType() == SGF.getLoweredType(targetFormalType)) |
| return value; |
| |
| return SGF.emitTransformedValue(loc, value, |
| AbstractionPattern(sourceFormalType), |
| sourceFormalType, |
| AbstractionPattern(targetFormalType), |
| targetFormalType); |
| } |
| |
| static bool shouldBridgeThroughError(SILGenModule &SGM, CanType type, |
| CanType targetType) { |
| // Never use this logic if the target type is AnyObject. |
| if (targetType->isEqual(SGM.getASTContext().getAnyObjectType())) |
| return false; |
| |
| auto errorProtocol = SGM.getASTContext().getErrorDecl(); |
| if (!errorProtocol) return false; |
| |
| // Existential types are convertible to Error if they are, or imply, Error. |
| if (type.isExistentialType()) { |
| auto layout = type->getExistentialLayout(); |
| for (auto proto : layout.getProtocols()) { |
| if (proto->getDecl() == errorProtocol || |
| proto->getDecl()->inheritsFrom(errorProtocol)) { |
| return true; |
| } |
| } |
| |
| // They're also convertible to Error if they have a class bound that |
| // conforms to Error. |
| if (auto cls = layout.superclass) { |
| type = cls->getCanonicalType(); |
| |
| // Otherwise, they are not convertible to Error. |
| } else { |
| return false; |
| } |
| } |
| |
| auto optConf = SGM.SwiftModule->lookupConformance(type, errorProtocol); |
| return optConf.hasValue(); |
| } |
| |
| /// Bridge the given Swift value to its corresponding Objective-C |
| /// object, using the appropriate witness for the |
| /// _ObjectiveCBridgeable._bridgeToObjectiveC requirement. |
| static Optional<ManagedValue> |
| emitBridgeNativeToObjectiveC(SILGenFunction &SGF, |
| SILLocation loc, |
| ManagedValue swiftValue, |
| CanType swiftValueType, |
| CanType bridgedType, |
| ProtocolConformance *conformance) { |
| // Find the _bridgeToObjectiveC requirement. |
| auto requirement = SGF.SGM.getBridgeToObjectiveCRequirement(loc); |
| if (!requirement) return None; |
| |
| // Retrieve the _bridgeToObjectiveC witness. |
| auto witness = conformance->getWitnessDecl(requirement, nullptr); |
| assert(witness); |
| |
| // Determine the type we're bridging to. |
| auto objcTypeReq = SGF.SGM.getBridgedObjectiveCTypeRequirement(loc); |
| if (!objcTypeReq) return None; |
| |
| Type objcType = conformance->getTypeWitness(objcTypeReq, nullptr); |
| assert(objcType); |
| |
| // Create a reference to the witness. |
| SILDeclRef witnessConstant(witness); |
| auto witnessRef = SGF.emitGlobalFunctionRef(loc, witnessConstant); |
| |
| // Determine the substitutions. |
| auto witnessFnTy = witnessRef->getType(); |
| |
| // Compute the substitutions. |
| |
| // FIXME: Figure out the right SubstitutionMap stuff if the witness |
| // has generic parameters of its own. |
| assert(!cast<FuncDecl>(witness)->isGeneric() && |
| "Generic witnesses not supported"); |
| |
| auto *dc = cast<FuncDecl>(witness)->getDeclContext(); |
| auto *genericSig = dc->getGenericSignatureOfContext(); |
| auto typeSubMap = swiftValueType->getContextSubstitutionMap( |
| SGF.SGM.SwiftModule, dc); |
| |
| // Substitute into the witness function type. |
| witnessFnTy = witnessFnTy.substGenericArgs(SGF.SGM.M, typeSubMap); |
| |
| // We might have to re-abstract the 'self' value if it is an |
| // Optional. |
| AbstractionPattern origSelfType(witness->getInterfaceType()); |
| origSelfType = origSelfType.getFunctionInputType(); |
| |
| swiftValue = SGF.emitSubstToOrigValue(loc, swiftValue, |
| origSelfType, |
| swiftValueType, |
| SGFContext()); |
| |
| // The witness may be more abstract than the concrete value we're bridging, |
| // for instance, if the value is a concrete instantiation of a generic type. |
| // |
| // Note that we assume that we don't ever have to reabstract the parameter. |
| // This is safe for now, since only nominal types currently can conform to |
| // protocols. |
| SILFunctionConventions witnessConv(witnessFnTy.castTo<SILFunctionType>(), |
| SGF.SGM.M); |
| if (witnessConv.isSILIndirect(witnessConv.getParameters()[0]) |
| && !swiftValue.getType().isAddress()) { |
| auto tmp = SGF.emitTemporaryAllocation(loc, swiftValue.getType()); |
| SGF.B.createStoreBorrowOrTrivial(loc, swiftValue.borrow(SGF, loc), tmp); |
| swiftValue = ManagedValue::forUnmanaged(tmp); |
| } |
| |
| SmallVector<Substitution, 4> subs; |
| if (genericSig) |
| genericSig->getSubstitutions(typeSubMap, subs); |
| |
| // Call the witness. |
| SILType resultTy = SGF.getLoweredType(objcType); |
| SILValue bridgedValue = |
| SGF.B.createApply(loc, witnessRef, witnessFnTy, resultTy, subs, |
| swiftValue.borrow(SGF, loc).getValue()); |
| |
| auto bridgedMV = SGF.emitManagedRValueWithCleanup(bridgedValue); |
| |
| // The Objective-C value doesn't necessarily match the desired type. |
| bridgedMV = emitUnabstractedCast(SGF, loc, bridgedMV, |
| objcType->getCanonicalType(), bridgedType); |
| |
| return bridgedMV; |
| } |
| |
| /// Bridge the given Objective-C object to its corresponding Swift |
| /// value, using the appropriate witness for the |
| /// _ObjectiveCBridgeable._unconditionallyBridgeFromObjectiveC requirement. |
| static Optional<ManagedValue> |
| emitBridgeObjectiveCToNative(SILGenFunction &SGF, |
| SILLocation loc, |
| ManagedValue objcValue, |
| CanType bridgedType, |
| ProtocolConformance *conformance) { |
| // Find the _unconditionallyBridgeFromObjectiveC requirement. |
| auto requirement = |
| SGF.SGM.getUnconditionallyBridgeFromObjectiveCRequirement(loc); |
| if (!requirement) return None; |
| |
| // Find the _ObjectiveCType requirement. |
| auto objcTypeRequirement = SGF.SGM.getBridgedObjectiveCTypeRequirement(loc); |
| if (!objcTypeRequirement) return None; |
| |
| // Retrieve the _unconditionallyBridgeFromObjectiveC witness. |
| auto witness = conformance->getWitnessDeclRef(requirement, nullptr); |
| assert(witness); |
| |
| // Retrieve the _ObjectiveCType witness. |
| auto objcType = conformance->getTypeWitness(objcTypeRequirement, nullptr); |
| assert(objcType); |
| |
| // Create a reference to the witness. |
| SILDeclRef witnessConstant(witness.getDecl()); |
| auto witnessRef = SGF.emitGlobalFunctionRef(loc, witnessConstant); |
| |
| // Determine the substitutions. |
| auto witnessFnTy = witnessRef->getType().castTo<SILFunctionType>(); |
| |
| CanType swiftValueType = conformance->getType()->getCanonicalType(); |
| auto genericSig = witnessFnTy->getGenericSignature(); |
| SubstitutionMap typeSubMap; |
| if (genericSig) |
| typeSubMap = genericSig->getSubstitutionMap(witness.getSubstitutions()); |
| |
| // Substitute into the witness function type. |
| witnessFnTy = witnessFnTy->substGenericArgs(SGF.SGM.M, typeSubMap); |
| |
| // The witness takes an _ObjectiveCType?, so convert to that type. |
| CanType desiredValueType = OptionalType::get(objcType)->getCanonicalType(); |
| objcValue = emitUnabstractedCast(SGF, loc, objcValue, bridgedType, |
| desiredValueType); |
| |
| // Call the witness. |
| auto metatypeParam = witnessFnTy->getParameters()[1]; |
| assert(isa<MetatypeType>(metatypeParam.getType()) && |
| cast<MetatypeType>(metatypeParam.getType()).getInstanceType() |
| == swiftValueType); |
| SILValue metatypeValue = |
| SGF.B.createMetatype(loc, metatypeParam.getSILStorageType()); |
| |
| auto witnessCI = SGF.getConstantInfo(witnessConstant); |
| CanType formalResultTy = witnessCI.LoweredType.getResult(); |
| |
| auto subs = witness.getSubstitutions(); |
| |
| // Set up the generic signature, since formalResultTy is an interface type. |
| GenericContextScope genericContextScope(SGF.SGM.Types, genericSig); |
| CalleeTypeInfo calleeTypeInfo( |
| witnessFnTy, |
| AbstractionPattern(genericSig, formalResultTy), |
| swiftValueType); |
| SGFContext context; |
| ResultPlanPtr resultPlan = |
| ResultPlanBuilder::computeResultPlan(SGF, calleeTypeInfo, loc, context); |
| ArgumentScope argScope(SGF, loc); |
| PostponedCleanup postpone(SGF); |
| RValue result = |
| SGF.emitApply(std::move(resultPlan), std::move(argScope), loc, |
| ManagedValue::forUnmanaged(witnessRef), subs, |
| {objcValue, ManagedValue::forUnmanaged(metatypeValue)}, |
| calleeTypeInfo, ApplyOptions::None, context, postpone); |
| return std::move(result).getAsSingleValue(SGF, loc); |
| } |
| |
| static ManagedValue emitBridgeBoolToObjCBool(SILGenFunction &SGF, |
| SILLocation loc, |
| ManagedValue swiftBool) { |
| // func _convertBoolToObjCBool(Bool) -> ObjCBool |
| SILValue boolToObjCBoolFn |
| = SGF.emitGlobalFunctionRef(loc, SGF.SGM.getBoolToObjCBoolFn()); |
| |
| SILType resultTy =SGF.getLoweredLoadableType(SGF.SGM.Types.getObjCBoolType()); |
| |
| SILValue result = SGF.B.createApply(loc, boolToObjCBoolFn, |
| boolToObjCBoolFn->getType(), |
| resultTy, {}, swiftBool.forward(SGF)); |
| return SGF.emitManagedRValueWithCleanup(result); |
| } |
| |
| static ManagedValue emitBridgeBoolToDarwinBoolean(SILGenFunction &SGF, |
| SILLocation loc, |
| ManagedValue swiftBool) { |
| // func _convertBoolToDarwinBoolean(Bool) -> DarwinBoolean |
| SILValue boolToDarwinBooleanFn |
| = SGF.emitGlobalFunctionRef(loc, SGF.SGM.getBoolToDarwinBooleanFn()); |
| |
| SILType resultTy = |
| SGF.getLoweredLoadableType(SGF.SGM.Types.getDarwinBooleanType()); |
| |
| SILValue result = SGF.B.createApply(loc, boolToDarwinBooleanFn, |
| boolToDarwinBooleanFn->getType(), |
| resultTy, {}, swiftBool.forward(SGF)); |
| return SGF.emitManagedRValueWithCleanup(result); |
| } |
| |
| static ManagedValue emitBridgeForeignBoolToBool(SILGenFunction &SGF, |
| SILLocation loc, |
| ManagedValue foreignBool, |
| SILDeclRef bridgingFnRef) { |
| // func _convertObjCBoolToBool(ObjCBool) -> Bool |
| SILValue bridgingFn = SGF.emitGlobalFunctionRef(loc, bridgingFnRef); |
| |
| SILType resultTy = SGF.getLoweredLoadableType(SGF.SGM.Types.getBoolType()); |
| |
| SILValue result = SGF.B.createApply(loc, bridgingFn, bridgingFn->getType(), |
| resultTy, {}, foreignBool.forward(SGF)); |
| return SGF.emitManagedRValueWithCleanup(result); |
| } |
| |
| static ManagedValue emitManagedParameter(SILGenFunction &SGF, SILLocation loc, |
| SILParameterInfo param, |
| SILValue value) { |
| const TypeLowering &valueTL = SGF.getTypeLowering(value->getType()); |
| |
| switch (param.getConvention()) { |
| case ParameterConvention::Direct_Owned: |
| // Consume owned parameters at +1. |
| return SGF.emitManagedRValueWithCleanup(value, valueTL); |
| |
| case ParameterConvention::Direct_Guaranteed: |
| // If we have a guaranteed parameter, the object should not need to be |
| // retained or have a cleanup. |
| return ManagedValue::forUnmanaged(value); |
| |
| case ParameterConvention::Direct_Unowned: |
| // We need to independently retain the value. |
| return SGF.emitManagedRetain(loc, value, valueTL); |
| |
| case ParameterConvention::Indirect_Inout: |
| return ManagedValue::forLValue(value); |
| |
| case ParameterConvention::Indirect_In_Guaranteed: |
| if (valueTL.isLoadable()) { |
| return SGF.B.createLoadBorrow(loc, ManagedValue::forUnmanaged(value)); |
| } else { |
| return ManagedValue::forUnmanaged(value); |
| } |
| |
| case ParameterConvention::Indirect_In: |
| if (valueTL.isLoadable()) { |
| return SGF.emitLoad(loc, value, valueTL, SGFContext(), IsTake); |
| } else { |
| return SGF.emitManagedRValueWithCleanup(value, valueTL); |
| } |
| |
| case ParameterConvention::Indirect_In_Constant: |
| case ParameterConvention::Indirect_InoutAliasable: |
| llvm_unreachable("unexpected convention"); |
| } |
| llvm_unreachable("bad convention"); |
| } |
| |
| static void expandTupleTypes(CanType type, SmallVectorImpl<CanType> &results) { |
| if (auto tuple = dyn_cast<TupleType>(type)) { |
| for (auto eltType : tuple.getElementTypes()) |
| expandTupleTypes(eltType, results); |
| } else { |
| results.push_back(type); |
| } |
| } |
| |
| /// Recursively expand all the tuples in the given parameter list. |
| /// Callers assume that the resulting array will line up with the |
| /// SILFunctionType's parameter list, which is true as along as there |
| /// aren't any indirectly-passed tuples; we should be safe from that |
| /// here in the bridging code. |
| static SmallVector<CanType, 8> |
| expandTupleTypes(AnyFunctionType::CanParamArrayRef params) { |
| SmallVector<CanType, 8> results; |
| for (auto param : params) |
| expandTupleTypes(param.getType(), results); |
| return results; |
| } |
| |
| static CanAnyFunctionType getBridgedBlockType(SILGenModule &SGM, |
| CanAnyFunctionType blockType) { |
| return SGM.Types.getBridgedFunctionType(AbstractionPattern(blockType), |
| blockType, blockType->getExtInfo()); |
| } |
| |
| static void buildFuncToBlockInvokeBody(SILGenFunction &SGF, |
| SILLocation loc, |
| CanAnyFunctionType formalFuncType, |
| CanAnyFunctionType formalBlockType, |
| CanSILFunctionType funcTy, |
| CanSILFunctionType blockTy, |
| CanSILBlockStorageType blockStorageTy) { |
| Scope scope(SGF.Cleanups, CleanupLocation::get(loc)); |
| SILBasicBlock *entry = &*SGF.F.begin(); |
| SILFunctionConventions blockConv(blockTy, SGF.SGM.M); |
| SILFunctionConventions funcConv(funcTy, SGF.SGM.M); |
| |
| // Make sure we lower the component types of the formal block type. |
| formalBlockType = getBridgedBlockType(SGF.SGM, formalBlockType); |
| |
| // Set up the indirect result. |
| SILType blockResultTy = blockTy->getAllResultsType(); |
| SILValue indirectResult; |
| if (blockTy->getNumResults() != 0) { |
| auto result = blockTy->getSingleResult(); |
| if (result.getConvention() == ResultConvention::Indirect) { |
| indirectResult = entry->createFunctionArgument(blockResultTy); |
| } |
| } |
| |
| // Get the captured native function value out of the block. |
| auto storageAddrTy = SILType::getPrimitiveAddressType(blockStorageTy); |
| auto storage = entry->createFunctionArgument(storageAddrTy); |
| auto capture = SGF.B.createProjectBlockStorage(loc, storage); |
| auto &funcTL = SGF.getTypeLowering(funcTy); |
| auto fn = SGF.emitLoad(loc, capture, funcTL, SGFContext(), IsNotTake); |
| |
| // Collect the block arguments, which may have nonstandard conventions. |
| assert(blockTy->getParameters().size() == funcTy->getParameters().size() |
| && "block and function types don't match"); |
| |
| auto nativeParamTypes = expandTupleTypes(formalFuncType.getParams()); |
| auto bridgedParamTypes = expandTupleTypes(formalBlockType.getParams()); |
| |
| SmallVector<ManagedValue, 4> args; |
| for (unsigned i : indices(funcTy->getParameters())) { |
| auto ¶m = blockTy->getParameters()[i]; |
| SILType paramTy = blockConv.getSILType(param); |
| SILValue v = entry->createFunctionArgument(paramTy); |
| ManagedValue mv; |
| |
| // If the parameter is a block, we need to copy it to ensure it lives on |
| // the heap. The adapted closure value might outlive the block's original |
| // scope. |
| if (SGF.getSILType(param).isBlockPointerCompatible()) { |
| // We still need to consume the original block if it was owned. |
| switch (param.getConvention()) { |
| case ParameterConvention::Direct_Owned: |
| SGF.emitManagedRValueWithCleanup(v); |
| break; |
| |
| case ParameterConvention::Direct_Guaranteed: |
| case ParameterConvention::Direct_Unowned: |
| break; |
| |
| case ParameterConvention::Indirect_In: |
| case ParameterConvention::Indirect_In_Constant: |
| case ParameterConvention::Indirect_In_Guaranteed: |
| case ParameterConvention::Indirect_Inout: |
| case ParameterConvention::Indirect_InoutAliasable: |
| llvm_unreachable("indirect params to blocks not supported"); |
| } |
| |
| SILValue blockCopy = SGF.B.createCopyBlock(loc, v); |
| mv = SGF.emitManagedRValueWithCleanup(blockCopy); |
| } else { |
| mv = emitManagedParameter(SGF, loc, param, v); |
| } |
| |
| CanType formalBridgedType = bridgedParamTypes[i]; |
| CanType formalNativeType = nativeParamTypes[i]; |
| SILType loweredNativeTy = funcTy->getParameters()[i].getSILStorageType(); |
| |
| args.push_back(SGF.emitBridgedToNativeValue(loc, mv, formalBridgedType, |
| formalNativeType, |
| loweredNativeTy)); |
| } |
| |
| auto init = indirectResult |
| ? SGF.useBufferAsTemporary(indirectResult, |
| SGF.getTypeLowering(indirectResult->getType())) |
| : nullptr; |
| |
| CanType formalNativeResultType = formalFuncType.getResult(); |
| CanType formalBridgedResultType = formalBlockType.getResult(); |
| |
| bool canEmitIntoInit = |
| (indirectResult && |
| indirectResult->getType() |
| == SGF.getLoweredType(formalNativeResultType).getAddressType()); |
| |
| // Call the native function. |
| SGFContext C(canEmitIntoInit ? init.get() : nullptr); |
| ManagedValue result = SGF.emitMonomorphicApply(loc, fn, args, |
| formalNativeResultType, |
| formalNativeResultType, |
| ApplyOptions::None, |
| None, None, C) |
| .getAsSingleValue(SGF, loc); |
| |
| // Bridge the result back to ObjC. |
| if (!canEmitIntoInit) { |
| result = SGF.emitNativeToBridgedValue(loc, result, |
| formalNativeResultType, |
| formalBridgedResultType, |
| blockResultTy, |
| SGFContext(init.get())); |
| } |
| |
| SILValue resultVal; |
| |
| // If we have an indirect result, make sure the result is there. |
| if (indirectResult) { |
| if (!result.isInContext()) { |
| init->copyOrInitValueInto(SGF, loc, result, /*isInit*/ true); |
| init->finishInitialization(SGF); |
| } |
| init->getManagedAddress().forward(SGF); |
| resultVal = SGF.B.createTuple(loc, {}); |
| } else { |
| // Otherwise, return the result at +1. |
| resultVal = result.forward(SGF); |
| } |
| |
| scope.pop(); |
| |
| SGF.B.createReturn(loc, resultVal); |
| } |
| |
| /// Bridge a native function to a block with a thunk. |
| ManagedValue SILGenFunction::emitFuncToBlock(SILLocation loc, |
| ManagedValue fn, |
| CanAnyFunctionType funcType, |
| CanAnyFunctionType blockType, |
| CanSILFunctionType loweredBlockTy){ |
| auto loweredFuncTy = fn.getType().castTo<SILFunctionType>(); |
| |
| // Build the invoke function signature. The block will capture the original |
| // function value. |
| auto fnInterfaceTy = cast<SILFunctionType>( |
| loweredFuncTy->mapTypeOutOfContext()->getCanonicalType()); |
| auto blockInterfaceTy = cast<SILFunctionType>( |
| loweredBlockTy->mapTypeOutOfContext()->getCanonicalType()); |
| |
| assert(!blockInterfaceTy->isCoroutine()); |
| |
| auto storageTy = SILBlockStorageType::get(loweredFuncTy); |
| auto storageInterfaceTy = SILBlockStorageType::get(fnInterfaceTy); |
| |
| // Build the invoke function type. |
| SmallVector<SILParameterInfo, 4> params; |
| params.push_back(SILParameterInfo(storageInterfaceTy, |
| ParameterConvention::Indirect_InoutAliasable)); |
| std::copy(blockInterfaceTy->getParameters().begin(), |
| blockInterfaceTy->getParameters().end(), |
| std::back_inserter(params)); |
| |
| auto extInfo = |
| SILFunctionType::ExtInfo() |
| .withRepresentation(SILFunctionType::Representation::CFunctionPointer); |
| |
| CanGenericSignature genericSig; |
| GenericEnvironment *genericEnv = nullptr; |
| SubstitutionList subs; |
| if (funcType->hasArchetype() || blockType->hasArchetype()) { |
| genericSig = F.getLoweredFunctionType()->getGenericSignature(); |
| genericEnv = F.getGenericEnvironment(); |
| |
| subs = F.getForwardingSubstitutions(); |
| |
| // The block invoke function must be pseudogeneric. This should be OK for now |
| // since a bridgeable function's parameters and returns should all be |
| // trivially representable in ObjC so not need to exercise the type metadata. |
| // |
| // Ultimately we may need to capture generic parameters in block storage, but |
| // that will require a redesign of the interface to support dependent-layout |
| // context. Currently we don't capture anything directly into a block but a |
| // Swift closure, but that's totally dumb. |
| if (genericSig) |
| extInfo = extInfo.withIsPseudogeneric(); |
| } |
| |
| auto invokeTy = SILFunctionType::get( |
| genericSig, extInfo, SILCoroutineKind::None, |
| ParameterConvention::Direct_Unowned, params, |
| /*yields*/ {}, blockInterfaceTy->getResults(), |
| blockInterfaceTy->getOptionalErrorResult(), getASTContext()); |
| |
| // Create the invoke function. Borrow the mangling scheme from reabstraction |
| // thunks, which is what we are in spirit. |
| auto thunk = SGM.getOrCreateReabstractionThunk(invokeTy, |
| loweredFuncTy, |
| loweredBlockTy, |
| F.isSerialized()); |
| |
| // Build it if necessary. |
| if (thunk->empty()) { |
| thunk->setGenericEnvironment(genericEnv); |
| SILGenFunction thunkSGF(SGM, *thunk); |
| auto loc = RegularLocation::getAutoGeneratedLocation(); |
| buildFuncToBlockInvokeBody(thunkSGF, loc, funcType, blockType, |
| loweredFuncTy, loweredBlockTy, storageTy); |
| } |
| |
| // Form the block on the stack. |
| auto storageAddrTy = SILType::getPrimitiveAddressType(storageTy); |
| auto storage = emitTemporaryAllocation(loc, storageAddrTy); |
| auto capture = B.createProjectBlockStorage(loc, storage); |
| B.createStore(loc, fn, capture, StoreOwnershipQualifier::Init); |
| auto invokeFn = B.createFunctionRef(loc, thunk); |
| |
| auto stackBlock = B.createInitBlockStorageHeader(loc, storage, invokeFn, |
| SILType::getPrimitiveObjectType(loweredBlockTy), |
| subs); |
| |
| // Copy the block so we have an independent heap object we can hand off. |
| auto heapBlock = B.createCopyBlock(loc, stackBlock); |
| return emitManagedRValueWithCleanup(heapBlock); |
| } |
| |
| static ManagedValue emitNativeToCBridgedNonoptionalValue(SILGenFunction &SGF, |
| SILLocation loc, |
| ManagedValue v, |
| CanType nativeType, |
| CanType bridgedType, |
| SILType loweredBridgedTy, |
| SGFContext C) { |
| assert(loweredBridgedTy.isObject()); |
| if (v.getType().getObjectType() == loweredBridgedTy) |
| return v; |
| |
| // If the input is a native type with a bridged mapping, convert it. |
| #define BRIDGE_TYPE(BridgedModule,BridgedType, NativeModule,NativeType,Opt) \ |
| if (nativeType == SGF.SGM.Types.get##NativeType##Type() \ |
| && bridgedType == SGF.SGM.Types.get##BridgedType##Type()) { \ |
| return emitBridge##NativeType##To##BridgedType(SGF, loc, v); \ |
| } |
| #include "swift/SIL/BridgedTypes.def" |
| |
| // Bridge thick to Objective-C metatypes. |
| if (auto bridgedMetaTy = dyn_cast<AnyMetatypeType>(bridgedType)) { |
| if (bridgedMetaTy->hasRepresentation() && |
| bridgedMetaTy->getRepresentation() == MetatypeRepresentation::ObjC) { |
| SILValue native = SGF.B.emitThickToObjCMetatype(loc, v.getValue(), |
| loweredBridgedTy); |
| // *NOTE*: ObjCMetatypes are trivial types. They only gain ARC semantics |
| // when they are converted to an object via objc_metatype_to_object. |
| assert(!v.hasCleanup() && |
| "Metatypes are trivial and thus should not have cleanups"); |
| return ManagedValue::forUnmanaged(native); |
| } |
| } |
| |
| // Bridge native functions to blocks. |
| auto bridgedFTy = dyn_cast<AnyFunctionType>(bridgedType); |
| if (bridgedFTy && bridgedFTy->getRepresentation() |
| == AnyFunctionType::Representation::Block) { |
| auto nativeFTy = cast<AnyFunctionType>(nativeType); |
| |
| if (nativeFTy->getRepresentation() |
| != AnyFunctionType::Representation::Block) |
| return SGF.emitFuncToBlock(loc, v, nativeFTy, bridgedFTy, |
| loweredBridgedTy.castTo<SILFunctionType>()); |
| } |
| |
| // If the native type conforms to _ObjectiveCBridgeable, use its |
| // _bridgeToObjectiveC witness. |
| if (auto conformance = |
| SGF.SGM.getConformanceToObjectiveCBridgeable(loc, nativeType)) { |
| if (auto result = emitBridgeNativeToObjectiveC(SGF, loc, v, nativeType, |
| bridgedType, conformance)) |
| return *result; |
| |
| assert(SGF.SGM.getASTContext().Diags.hadAnyError() && |
| "Bridging code should have complained"); |
| return SGF.emitUndef(loc, bridgedType); |
| } |
| |
| // Bridge Error, or types that conform to it, to NSError. |
| if (shouldBridgeThroughError(SGF.SGM, nativeType, bridgedType)) { |
| auto errorTy = SGF.SGM.Types.getNSErrorType(); |
| auto error = SGF.emitNativeToBridgedError(loc, v, nativeType, errorTy); |
| if (errorTy != bridgedType) { |
| error = emitUnabstractedCast(SGF, loc, error, errorTy, bridgedType); |
| } |
| return error; |
| } |
| |
| // Fall back to dynamic Any-to-id bridging. |
| // The destination type should be AnyObject in this case. |
| assert(bridgedType->isEqual(SGF.getASTContext().getAnyObjectType())); |
| |
| // Blocks bridge to id with a cast under ObjCInterop. |
| if (auto nativeFnType = dyn_cast<AnyFunctionType>(nativeType)) { |
| if (nativeFnType->getRepresentation() == |
| FunctionTypeRepresentation::Block && |
| SGF.getASTContext().LangOpts.EnableObjCInterop) { |
| return SGF.B.createBlockToAnyObject(loc, v, loweredBridgedTy); |
| } |
| } |
| |
| // If the input argument is known to be an existential, save the runtime |
| // some work by opening it. |
| if (nativeType->isExistentialType()) { |
| auto openedType = ArchetypeType::getOpened(nativeType); |
| |
| auto openedExistential = SGF.emitOpenExistential( |
| loc, v, openedType, SGF.getLoweredType(openedType), AccessKind::Read); |
| |
| v = SGF.manageOpaqueValue(openedExistential, loc, SGFContext()); |
| nativeType = openedType; |
| } |
| |
| // Call into the stdlib intrinsic. |
| if (auto bridgeAnything = |
| SGF.getASTContext().getBridgeAnythingToObjectiveC(nullptr)) { |
| auto *genericSig = bridgeAnything->getGenericSignature(); |
| auto subMap = genericSig->getSubstitutionMap( |
| [&](SubstitutableType *t) -> Type { |
| return nativeType; |
| }, |
| MakeAbstractConformanceForGenericType()); |
| |
| // The intrinsic takes a T; reabstract to the generic abstraction |
| // pattern. |
| v = SGF.emitSubstToOrigValue(loc, v, AbstractionPattern::getOpaque(), |
| nativeType); |
| |
| // Put the value into memory if necessary. |
| assert(v.getType().isTrivial(SGF.SGM.M) || v.hasCleanup()); |
| SILModuleConventions silConv(SGF.SGM.M); |
| // bridgeAnything always takes an indirect argument as @in. |
| // Since we don't have the SIL type here, check the current SIL stage/mode |
| // to determine the convention. |
| if (v.getType().isObject() && silConv.useLoweredAddresses()) { |
| auto tmp = SGF.emitTemporaryAllocation(loc, v.getType()); |
| v.forwardInto(SGF, loc, tmp); |
| v = SGF.emitManagedBufferWithCleanup(tmp); |
| } |
| return SGF.emitApplyOfLibraryIntrinsic(loc, bridgeAnything, subMap, v, C) |
| .getAsSingleValue(SGF, loc); |
| } |
| |
| // Shouldn't get here unless the standard library is busted. |
| return SGF.emitUndef(loc, loweredBridgedTy); |
| } |
| |
| static ManagedValue emitNativeToCBridgedValue(SILGenFunction &SGF, |
| SILLocation loc, |
| ManagedValue v, |
| CanType nativeType, |
| CanType bridgedType, |
| SILType loweredBridgedTy, |
| SGFContext C = SGFContext()) { |
| SILType loweredNativeTy = v.getType(); |
| if (loweredNativeTy.getObjectType() == loweredBridgedTy.getObjectType()) |
| return v; |
| |
| CanType bridgedObjectType = bridgedType.getOptionalObjectType(); |
| CanType nativeObjectType = nativeType.getOptionalObjectType(); |
| |
| // Check for optional-to-optional conversions. |
| if (bridgedObjectType && nativeObjectType) { |
| auto helper = [&](SILGenFunction &SGF, SILLocation loc, |
| ManagedValue v, SILType loweredBridgedObjectTy, |
| SGFContext C) { |
| return emitNativeToCBridgedValue(SGF, loc, v, nativeObjectType, |
| bridgedObjectType, |
| loweredBridgedObjectTy, C); |
| }; |
| return SGF.emitOptionalToOptional(loc, v, loweredBridgedTy, helper, C); |
| } |
| |
| // Check if we need to wrap the bridged result in an optional. |
| if (bridgedObjectType) { |
| auto helper = [&](SILGenFunction &SGF, SILLocation loc, SGFContext C) { |
| auto loweredBridgedObjectTy = loweredBridgedTy.getOptionalObjectType(); |
| return emitNativeToCBridgedValue(SGF, loc, v, nativeType, |
| bridgedObjectType, |
| loweredBridgedObjectTy, C); |
| }; |
| return SGF.emitOptionalSome(loc, loweredBridgedTy, helper, C); |
| } |
| |
| return emitNativeToCBridgedNonoptionalValue(SGF, loc, v, nativeType, |
| bridgedType, loweredBridgedTy, C); |
| } |
| |
| ManagedValue SILGenFunction::emitNativeToBridgedValue(SILLocation loc, |
| ManagedValue v, |
| CanType nativeTy, |
| CanType bridgedTy, |
| SILType loweredBridgedTy, |
| SGFContext C) { |
| loweredBridgedTy = loweredBridgedTy.getObjectType(); |
| return emitNativeToCBridgedValue(*this, loc, v, nativeTy, bridgedTy, |
| loweredBridgedTy, C); |
| } |
| |
| static void buildBlockToFuncThunkBody(SILGenFunction &SGF, |
| SILLocation loc, |
| CanAnyFunctionType formalBlockTy, |
| CanAnyFunctionType formalFuncTy, |
| CanSILFunctionType blockTy, |
| CanSILFunctionType funcTy) { |
| // Collect the native arguments, which should all be +1. |
| Scope scope(SGF.Cleanups, CleanupLocation::get(loc)); |
| |
| // Make sure we lower the component types of the formal block type. |
| formalBlockTy = getBridgedBlockType(SGF.SGM, formalBlockTy); |
| |
| assert(blockTy->getNumParameters() == funcTy->getNumParameters() |
| && "block and function types don't match"); |
| |
| SmallVector<ManagedValue, 4> args; |
| SILBasicBlock *entry = &*SGF.F.begin(); |
| |
| SILFunctionConventions fnConv(funcTy, SGF.SGM.M); |
| |
| // Set up the indirect result slot. |
| SILValue indirectResult; |
| if (funcTy->getNumResults() != 0) { |
| auto result = funcTy->getSingleResult(); |
| if (result.getConvention() == ResultConvention::Indirect) { |
| SILType resultTy = fnConv.getSILType(result); |
| indirectResult = entry->createFunctionArgument(resultTy); |
| } |
| } |
| |
| auto formalBlockParams = expandTupleTypes(formalBlockTy.getParams()); |
| auto formalFuncParams = expandTupleTypes(formalFuncTy.getParams()); |
| assert(formalBlockParams.size() == blockTy->getNumParameters()); |
| assert(formalFuncParams.size() == funcTy->getNumParameters()); |
| |
| // Create the arguments for the call. |
| for (unsigned i : indices(funcTy->getParameters())) { |
| auto ¶m = funcTy->getParameters()[i]; |
| CanType formalBlockParamTy = formalBlockParams[i]; |
| CanType formalFuncParamTy = formalFuncParams[i]; |
| |
| auto paramTy = fnConv.getSILType(param); |
| SILValue v = entry->createFunctionArgument(paramTy); |
| |
| // First get the managed parameter for this function. |
| auto mv = emitManagedParameter(SGF, loc, param, v); |
| |
| SILType loweredBlockArgTy = blockTy->getParameters()[i].getSILStorageType(); |
| |
| // Then bridge the native value to its bridged variant. |
| mv = SGF.emitNativeToBridgedValue(loc, mv, formalFuncParamTy, |
| formalBlockParamTy, loweredBlockArgTy); |
| |
| // Finally change ownership if we need to. We do not need to care about the |
| // case of a +1 parameter being passed to a +0 function since +1 parameters |
| // can be "instantaneously" borrowed at the call site. |
| if (blockTy->getParameters()[i].isConsumed()) { |
| mv = mv.ensurePlusOne(SGF, loc); |
| } |
| args.push_back(mv); |
| } |
| |
| // Add the block argument. |
| SILValue blockV = |
| entry->createFunctionArgument(SILType::getPrimitiveObjectType(blockTy)); |
| ManagedValue block = ManagedValue::forUnmanaged(blockV); |
| |
| CanType formalResultType = formalFuncTy.getResult(); |
| |
| auto init = indirectResult |
| ? SGF.useBufferAsTemporary(indirectResult, |
| SGF.getTypeLowering(indirectResult->getType())) |
| : nullptr; |
| |
| // Call the block. |
| ManagedValue result = SGF.emitMonomorphicApply(loc, block, args, |
| formalBlockTy.getResult(), |
| formalResultType, |
| ApplyOptions::None, |
| /*override CC*/ SILFunctionTypeRepresentation::Block, |
| /*foreign error*/ None, |
| SGFContext(init.get())) |
| .getAsSingleValue(SGF, loc); |
| |
| SILValue r; |
| |
| // If we have an indirect result, make sure the result is there. |
| if (indirectResult) { |
| if (!result.isInContext()) { |
| init->copyOrInitValueInto(SGF, loc, result, /*isInit*/ true); |
| init->finishInitialization(SGF); |
| } |
| init->getManagedAddress().forward(SGF); |
| r = SGF.B.createTuple(loc, fnConv.getSILResultType(), ArrayRef<SILValue>()); |
| |
| // Otherwise, return the result at +1. |
| } else { |
| r = result.forward(SGF); |
| } |
| |
| scope.pop(); |
| |
| SGF.B.createReturn(loc, r); |
| |
| // Finally, verify the thunk for SIL invariants. |
| SGF.F.verify(); |
| } |
| |
| /// Bridge a native function to a block with a thunk. |
| ManagedValue |
| SILGenFunction::emitBlockToFunc(SILLocation loc, |
| ManagedValue block, |
| CanAnyFunctionType blockType, |
| CanAnyFunctionType funcType, |
| CanSILFunctionType loweredFuncTy) { |
| // Declare the thunk. |
| auto loweredBlockTy = block.getType().castTo<SILFunctionType>(); |
| |
| SubstitutionMap contextSubs, interfaceSubs; |
| GenericEnvironment *genericEnv = nullptr; |
| |
| // These two are not used here -- but really, bridging thunks |
| // should be emitted using the formal AST type, not the lowered |
| // type |
| CanType inputSubstType, outputSubstType; |
| |
| auto loweredFuncTyWithoutNoEscape = adjustFunctionType( |
| loweredFuncTy, loweredFuncTy->getExtInfo().withNoEscape(false), |
| loweredFuncTy->getWitnessMethodConformanceOrNone()); |
| |
| auto thunkTy = buildThunkType(loweredBlockTy, loweredFuncTyWithoutNoEscape, |
| inputSubstType, outputSubstType, |
| genericEnv, interfaceSubs); |
| |
| auto thunk = SGM.getOrCreateReabstractionThunk(thunkTy, |
| loweredBlockTy, |
| loweredFuncTyWithoutNoEscape, |
| F.isSerialized()); |
| |
| // Build it if necessary. |
| if (thunk->empty()) { |
| SILGenFunction thunkSGF(SGM, *thunk); |
| thunk->setGenericEnvironment(genericEnv); |
| auto loc = RegularLocation::getAutoGeneratedLocation(); |
| buildBlockToFuncThunkBody(thunkSGF, loc, blockType, funcType, |
| loweredBlockTy, loweredFuncTyWithoutNoEscape); |
| } |
| |
| CanSILFunctionType substFnTy = thunkTy; |
| |
| SmallVector<Substitution, 4> subs; |
| if (auto genericSig = thunkTy->getGenericSignature()) { |
| genericSig->getSubstitutions(interfaceSubs, subs); |
| substFnTy = thunkTy->substGenericArgs(F.getModule(), |
| interfaceSubs); |
| } |
| |
| // Create it in the current function. |
| auto thunkValue = B.createFunctionRef(loc, thunk); |
| ManagedValue thunkedFn = B.createPartialApply( |
| loc, thunkValue, SILType::getPrimitiveObjectType(substFnTy), subs, |
| block, |
| SILType::getPrimitiveObjectType(loweredFuncTyWithoutNoEscape)); |
| |
| if (!loweredFuncTy->isNoEscape()) { |
| return thunkedFn; |
| } |
| |
| // Handle the escaping to noescape conversion. |
| assert(loweredFuncTy->isNoEscape()); |
| return B.createConvertEscapeToNoEscape(loc, thunkedFn, |
| SILType::getPrimitiveObjectType(loweredFuncTy)); |
| } |
| |
| static ManagedValue emitCBridgedToNativeValue(SILGenFunction &SGF, |
| SILLocation loc, |
| ManagedValue v, |
| CanType bridgedType, |
| CanType nativeType, |
| SILType loweredNativeTy, |
| bool isCallResult, |
| SGFContext C) { |
| assert(loweredNativeTy.isObject()); |
| SILType loweredBridgedTy = v.getType(); |
| if (loweredNativeTy == loweredBridgedTy.getObjectType()) |
| return v; |
| |
| if (auto nativeObjectType = nativeType.getOptionalObjectType()) { |
| auto bridgedObjectType = bridgedType.getOptionalObjectType(); |
| |
| // Optional injection. |
| if (!bridgedObjectType) { |
| auto helper = [&](SILGenFunction &SGF, SILLocation loc, SGFContext C) { |
| auto loweredNativeObjectTy = loweredNativeTy.getOptionalObjectType(); |
| return emitCBridgedToNativeValue(SGF, loc, v, bridgedType, |
| nativeObjectType, |
| loweredNativeObjectTy, |
| isCallResult, C); |
| }; |
| return SGF.emitOptionalSome(loc, loweredNativeTy, helper, C); |
| } |
| |
| // Optional-to-optional. |
| auto helper = |
| [=](SILGenFunction &SGF, SILLocation loc, ManagedValue v, |
| SILType loweredNativeObjectTy, SGFContext C) { |
| return emitCBridgedToNativeValue(SGF, loc, v, bridgedObjectType, |
| nativeObjectType, loweredNativeObjectTy, |
| isCallResult, C); |
| }; |
| return SGF.emitOptionalToOptional(loc, v, loweredNativeTy, helper, C); |
| } |
| |
| // Bridge Bool to ObjCBool or DarwinBoolean when requested. |
| if (nativeType == SGF.SGM.Types.getBoolType()) { |
| if (bridgedType == SGF.SGM.Types.getObjCBoolType()) { |
| return emitBridgeForeignBoolToBool(SGF, loc, v, |
| SGF.SGM.getObjCBoolToBoolFn()); |
| } |
| if (bridgedType == SGF.SGM.Types.getDarwinBooleanType()) { |
| return emitBridgeForeignBoolToBool(SGF, loc, v, |
| SGF.SGM.getDarwinBooleanToBoolFn()); |
| } |
| } |
| |
| // Bridge Objective-C to thick metatypes. |
| if (isa<AnyMetatypeType>(nativeType)) { |
| auto bridgedMetaTy = cast<AnyMetatypeType>(bridgedType); |
| if (bridgedMetaTy->hasRepresentation() && |
| bridgedMetaTy->getRepresentation() == MetatypeRepresentation::ObjC) { |
| SILValue native = |
| SGF.B.emitObjCToThickMetatype(loc, v.getValue(), loweredNativeTy); |
| // *NOTE*: ObjCMetatypes are trivial types. They only gain ARC semantics |
| // when they are converted to an object via objc_metatype_to_object. |
| assert(!v.hasCleanup() && "Metatypes are trivial and should not have " |
| "cleanups"); |
| return ManagedValue::forUnmanaged(native); |
| } |
| } |
| |
| // Bridge blocks back into native function types. |
| if (auto nativeFTy = dyn_cast<AnyFunctionType>(nativeType)) { |
| auto bridgedFTy = cast<AnyFunctionType>(bridgedType); |
| if (bridgedFTy->getRepresentation() |
| == AnyFunctionType::Representation::Block |
| && nativeFTy->getRepresentation() |
| != AnyFunctionType::Representation::Block) { |
| return SGF.emitBlockToFunc(loc, v, bridgedFTy, nativeFTy, |
| loweredNativeTy.castTo<SILFunctionType>()); |
| } |
| } |
| |
| // Bridge via _ObjectiveCBridgeable. |
| if (auto conformance = |
| SGF.SGM.getConformanceToObjectiveCBridgeable(loc, nativeType)) { |
| if (auto result = emitBridgeObjectiveCToNative(SGF, loc, v, bridgedType, |
| conformance)) |
| return *result; |
| |
| assert(SGF.SGM.getASTContext().Diags.hadAnyError() && |
| "Bridging code should have complained"); |
| return SGF.emitUndef(loc, nativeType); |
| } |
| |
| // id-to-Any bridging. |
| if (nativeType->isAny()) { |
| // If this is not a call result, use the normal erasure logic. |
| if (!isCallResult) { |
| return SGF.emitTransformedValue(loc, v, bridgedType, nativeType, C); |
| } |
| |
| // Otherwise, we use more complicated logic that handles results that |
| // were unexpetedly null. |
| |
| assert(bridgedType.isAnyClassReferenceType()); |
| |
| // Convert to AnyObject if necessary. |
| CanType anyObjectTy = |
| SGF.getASTContext().getAnyObjectType()->getCanonicalType(); |
| if (bridgedType != anyObjectTy) { |
| v = SGF.emitTransformedValue(loc, v, bridgedType, anyObjectTy); |
| } |
| |
| // TODO: Ever need to handle +0 values here? |
| assert(v.hasCleanup()); |
| |
| // Use a runtime call to bridge the AnyObject to Any. We do this instead of |
| // a simple AnyObject-to-Any upcast because the ObjC API may have returned |
| // a null object in spite of its annotation. |
| |
| // Bitcast to Optional. This provides a barrier to the optimizer to prevent |
| // it from attempting to eliminate null checks. |
| auto optionalBridgedTy = SILType::getOptionalType(loweredBridgedTy); |
| auto optionalMV = |
| SGF.B.createUncheckedBitCast(loc, v, optionalBridgedTy); |
| return SGF.emitApplyOfLibraryIntrinsic(loc, |
| SGF.getASTContext().getBridgeAnyObjectToAny(nullptr), |
| SubstitutionMap(), optionalMV, C) |
| .getAsSingleValue(SGF, loc); |
| } |
| |
| // Bridge NSError to Error. |
| if (bridgedType == SGF.SGM.Types.getNSErrorType()) |
| return SGF.emitBridgedToNativeError(loc, v); |
| |
| return v; |
| } |
| |
| ManagedValue SILGenFunction::emitBridgedToNativeValue(SILLocation loc, |
| ManagedValue v, |
| CanType bridgedType, |
| CanType nativeType, |
| SILType loweredNativeTy, |
| SGFContext C, |
| bool isCallResult) { |
| loweredNativeTy = loweredNativeTy.getObjectType(); |
| return emitCBridgedToNativeValue(*this, loc, v, bridgedType, nativeType, |
| loweredNativeTy, isCallResult, C); |
| } |
| |
| /// Bridge a possibly-optional foreign error type to Error. |
| ManagedValue SILGenFunction::emitBridgedToNativeError(SILLocation loc, |
| ManagedValue bridgedError) { |
| // If the incoming error is non-optional, just do an existential erasure. |
| CanType bridgedErrorTy = bridgedError.getType().getSwiftRValueType(); |
| if (!bridgedErrorTy.getOptionalObjectType()) { |
| auto nativeErrorTy = SILType::getExceptionType(getASTContext()); |
| |
| auto conformance = SGM.getNSErrorConformanceToError(); |
| if (!conformance) return emitUndef(loc, nativeErrorTy); |
| ProtocolConformanceRef conformanceArray[] = { |
| ProtocolConformanceRef(conformance) |
| }; |
| auto conformances = getASTContext().AllocateCopy(conformanceArray); |
| |
| return B.createInitExistentialRef(loc, nativeErrorTy, bridgedErrorTy, |
| bridgedError, conformances); |
| } |
| |
| // Otherwise, we need to call a runtime function to potential substitute |
| // a standard error for a nil NSError. |
| auto bridgeFn = emitGlobalFunctionRef(loc, SGM.getNSErrorToErrorFn()); |
| auto bridgeFnType = bridgeFn->getType().castTo<SILFunctionType>(); |
| SILFunctionConventions bridgeFnConv(bridgeFnType, SGM.M); |
| assert(bridgeFnType->getNumResults() == 1); |
| assert(bridgeFnType->getResults()[0].getConvention() |
| == ResultConvention::Owned); |
| auto nativeErrorType = bridgeFnConv.getSILType(bridgeFnType->getResults()[0]); |
| |
| SILValue arg; |
| if (SGM.M.getOptions().EnableGuaranteedNormalArguments) { |
| assert(bridgeFnType->getParameters()[0].getConvention() == |
| ParameterConvention::Direct_Guaranteed); |
| arg = bridgedError.getValue(); |
| } else { |
| assert(bridgeFnType->getParameters()[0].getConvention() == |
| ParameterConvention::Direct_Owned); |
| arg = bridgedError.forward(*this); |
| } |
| |
| SILValue nativeError = B.createApply(loc, bridgeFn, bridgeFn->getType(), |
| nativeErrorType, {}, arg); |
| return emitManagedRValueWithCleanup(nativeError); |
| } |
| |
| /// Bridge Error to a foreign error type. |
| ManagedValue SILGenFunction::emitNativeToBridgedError(SILLocation loc, |
| ManagedValue nativeError, |
| CanType nativeType, |
| CanType bridgedErrorType){ |
| // Handle injections into optional. |
| if (auto bridgedObjectType = bridgedErrorType.getOptionalObjectType()) { |
| auto loweredBridgedOptionalTy = |
| SILType::getPrimitiveObjectType(bridgedErrorType); |
| return emitOptionalSome( |
| loc, loweredBridgedOptionalTy, |
| [&](SILGenFunction &SGF, SILLocation loc, SGFContext C) { |
| SILType loweredBridgedObjectTy = |
| loweredBridgedOptionalTy.getOptionalObjectType(); |
| return emitNativeToBridgedValue(loc, nativeError, nativeType, |
| bridgedObjectType, |
| loweredBridgedObjectTy); |
| }); |
| } |
| |
| assert(bridgedErrorType == SGM.Types.getNSErrorType() && |
| "only handling NSError for now"); |
| |
| // The native error might just be a value of a type that conforms to |
| // Error. This should be a subtyping or erasure conversion of the sort |
| // that we can do automatically. |
| // FIXME: maybe we should use a different entrypoint for this case, to |
| // avoid the code size and performance overhead of forming the box? |
| nativeError = emitUnabstractedCast(*this, loc, nativeError, nativeType, |
| getASTContext().getExceptionType()); |
| |
| auto bridgeFn = emitGlobalFunctionRef(loc, SGM.getErrorToNSErrorFn()); |
| auto bridgeFnType = bridgeFn->getType().castTo<SILFunctionType>(); |
| SILFunctionConventions bridgeFnConv(bridgeFnType, SGM.M); |
| assert(bridgeFnType->getNumResults() == 1); |
| assert(bridgeFnType->getResults()[0].getConvention() |
| == ResultConvention::Owned); |
| auto loweredBridgedErrorType = |
| bridgeFnConv.getSILType(bridgeFnType->getResults()[0]); |
| |
| SILValue arg; |
| if (SGM.M.getOptions().EnableGuaranteedNormalArguments) { |
| assert(bridgeFnType->getParameters()[0].getConvention() == |
| ParameterConvention::Direct_Guaranteed); |
| arg = nativeError.getValue(); |
| } else { |
| assert(bridgeFnType->getParameters()[0].getConvention() == |
| ParameterConvention::Direct_Owned); |
| arg = nativeError.forward(*this); |
| } |
| |
| SILValue bridgedError = B.createApply(loc, bridgeFn, bridgeFn->getType(), |
| loweredBridgedErrorType, {}, arg); |
| return emitManagedRValueWithCleanup(bridgedError); |
| } |
| |
| //===----------------------------------------------------------------------===// |
| // ObjC method thunks |
| //===----------------------------------------------------------------------===// |
| |
| static SILValue emitBridgeReturnValue(SILGenFunction &SGF, |
| SILLocation loc, |
| SILValue result, |
| CanType formalNativeTy, |
| CanType formalBridgedTy, |
| SILType loweredBridgedTy) { |
| Scope scope(SGF.Cleanups, CleanupLocation::get(loc)); |
| |
| ManagedValue native = SGF.emitManagedRValueWithCleanup(result); |
| ManagedValue bridged = |
| SGF.emitNativeToBridgedValue(loc, native, formalNativeTy, formalBridgedTy, |
| loweredBridgedTy); |
| return bridged.forward(SGF); |
| } |
| |
| /// Take an argument at +0 and bring it to +1. |
| static SILValue emitObjCUnconsumedArgument(SILGenFunction &SGF, |
| SILLocation loc, |
| SILValue arg) { |
| auto &lowering = SGF.getTypeLowering(arg->getType()); |
| // If address-only, make a +1 copy and operate on that. |
| if (lowering.isAddressOnly()) { |
| auto tmp = SGF.emitTemporaryAllocation(loc, arg->getType().getObjectType()); |
| SGF.B.createCopyAddr(loc, arg, tmp, IsNotTake, IsInitialization); |
| return tmp; |
| } |
| |
| return lowering.emitCopyValue(SGF.B, loc, arg); |
| } |
| |
| static CanAnyFunctionType substGenericArgs(CanAnyFunctionType fnType, |
| const SubstitutionList &subs) { |
| if (auto genericFnType = dyn_cast<GenericFunctionType>(fnType)) { |
| return cast<FunctionType>(genericFnType->substGenericArgs(subs) |
| ->getCanonicalType()); |
| } |
| return fnType; |
| } |
| |
| /// Bridge argument types and adjust retain count conventions for an ObjC thunk. |
| static SILFunctionType *emitObjCThunkArguments(SILGenFunction &SGF, |
| SILLocation loc, |
| SILDeclRef thunk, |
| SmallVectorImpl<SILValue> &args, |
| SILValue &foreignErrorSlot, |
| Optional<ForeignErrorConvention> &foreignError, |
| CanType &nativeFormalResultTy, |
| CanType &bridgedFormalResultTy) { |
| SILDeclRef native = thunk.asForeign(false); |
| |
| auto subs = SGF.F.getForwardingSubstitutions(); |
| |
| auto objcInfo = SGF.SGM.Types.getConstantInfo(thunk); |
| auto objcFnTy = objcInfo.SILFnType->substGenericArgs(SGF.SGM.M, subs); |
| auto objcFormalFnTy = substGenericArgs(objcInfo.LoweredType, subs); |
| |
| auto swiftInfo = SGF.SGM.Types.getConstantInfo(native); |
| auto swiftFnTy = swiftInfo.SILFnType->substGenericArgs(SGF.SGM.M, subs); |
| auto swiftFormalFnTy = substGenericArgs(swiftInfo.LoweredType, subs); |
| SILFunctionConventions swiftConv(swiftFnTy, SGF.SGM.M); |
| |
| // We must have the same context archetypes as the unthunked function. |
| assert(objcInfo.GenericEnv == swiftInfo.GenericEnv); |
| |
| SmallVector<ManagedValue, 8> bridgedArgs; |
| bridgedArgs.reserve(objcFnTy->getParameters().size()); |
| |
| SILFunction *orig = SGF.SGM.getFunction(native, NotForDefinition); |
| |
| // Find the foreign error convention if we have one. |
| if (orig->getLoweredFunctionType()->hasErrorResult()) { |
| auto func = cast<AbstractFunctionDecl>(thunk.getDecl()); |
| foreignError = func->getForeignErrorConvention(); |
| assert(foreignError && "couldn't find foreign error convention!"); |
| } |
| |
| // We don't know what to do with indirect results from the Objective-C side. |
| assert(objcFnTy->getNumIndirectFormalResults() == 0 |
| && "Objective-C methods cannot have indirect results"); |
| |
| auto bridgedFormalTypes = expandTupleTypes(objcFormalFnTy.getParams()); |
| bridgedFormalResultTy = objcFormalFnTy.getResult(); |
| |
| auto nativeFormalTypes = expandTupleTypes(swiftFormalFnTy.getParams()); |
| nativeFormalResultTy = swiftFormalFnTy.getResult(); |
| |
| // Emit the other arguments, taking ownership of arguments if necessary. |
| auto inputs = objcFnTy->getParameters(); |
| auto nativeInputs = swiftFnTy->getParameters(); |
| assert(nativeInputs.size() == bridgedFormalTypes.size()); |
| assert(nativeInputs.size() == nativeFormalTypes.size()); |
| assert(inputs.size() == |
| nativeInputs.size() + unsigned(foreignError.hasValue())); |
| for (unsigned i = 0, e = inputs.size(); i < e; ++i) { |
| SILType argTy = SGF.getSILType(inputs[i]); |
| SILValue arg = SGF.F.begin()->createFunctionArgument(argTy); |
| |
| // If this parameter is the foreign error slot, pull it out. |
| // It does not correspond to a native argument. |
| if (foreignError && i == foreignError->getErrorParameterIndex()) { |
| foreignErrorSlot = arg; |
| continue; |
| } |
| |
| // If the argument is a block, copy it. |
| if (argTy.isBlockPointerCompatible()) { |
| auto copy = SGF.B.createCopyBlock(loc, arg); |
| // If the argument is consumed, we're still responsible for releasing the |
| // original. |
| if (inputs[i].isConsumed()) |
| SGF.emitManagedRValueWithCleanup(arg); |
| arg = copy; |
| } |
| // Convert the argument to +1 if necessary. |
| else if (!inputs[i].isConsumed()) { |
| arg = emitObjCUnconsumedArgument(SGF, loc, arg); |
| } |
| |
| auto managedArg = SGF.emitManagedRValueWithCleanup(arg); |
| |
| bridgedArgs.push_back(managedArg); |
| } |
| |
| assert(bridgedArgs.size() + unsigned(foreignError.hasValue()) |
| == objcFnTy->getParameters().size() && |
| "objc inputs don't match number of arguments?!"); |
| assert(bridgedArgs.size() == swiftFnTy->getParameters().size() && |
| "swift inputs don't match number of arguments?!"); |
| assert((foreignErrorSlot || !foreignError) && |
| "didn't find foreign error slot"); |
| |
| // Bridge the input types. |
| |
| // FIXME: We really want alloc_stacks to outlive this scope, because |
| // bridging id-to-Any requires allocating an Any which gets passed to |
| // the native entry point. |
| |
| // Scope scope(gen.Cleanups, CleanupLocation::get(loc)); |
| |
| assert(bridgedArgs.size() == nativeInputs.size()); |
| for (unsigned i = 0, size = bridgedArgs.size(); i < size; ++i) { |
| // Consider the bridged values to be "call results" since they're coming |
| // from potentially nil-unsound ObjC callers. |
| ManagedValue native = |
| SGF.emitBridgedToNativeValue(loc, |
| bridgedArgs[i], |
| bridgedFormalTypes[i], |
| nativeFormalTypes[i], |
| swiftFnTy->getParameters()[i].getSILStorageType(), |
| SGFContext(), |
| /*isCallResult*/ true); |
| SILValue argValue; |
| |
| if (nativeInputs[i].isConsumed()) { |
| argValue = native.forward(SGF); |
| } else if (nativeInputs[i].isGuaranteed()) { |
| argValue = native.borrow(SGF, loc).getUnmanagedValue(); |
| } else { |
| argValue = native.getValue(); |
| } |
| |
| args.push_back(argValue); |
| } |
| |
| return objcFnTy; |
| } |
| |
| void SILGenFunction::emitNativeToForeignThunk(SILDeclRef thunk) { |
| assert(thunk.isForeign); |
| SILDeclRef native = thunk.asForeign(false); |
| auto nativeInfo = getConstantInfo(native); |
| auto subs = F.getForwardingSubstitutions(); |
| auto substTy = nativeInfo.SILFnType->substGenericArgs(SGM.M, subs); |
| SILType substSILTy = SILType::getPrimitiveObjectType(substTy); |
| SILFunctionConventions substConv(substTy, SGM.M); |
| |
| // Use the same generic environment as the native entry point. |
| F.setGenericEnvironment(nativeInfo.GenericEnv); |
| |
| auto loc = thunk.getAsRegularLocation(); |
| loc.markAutoGenerated(); |
| Scope scope(Cleanups, CleanupLocation::get(loc)); |
| |
| // If we are bridging a Swift method with an Any return value, create a |
| // stack allocation to hold the result, since Any is address-only. |
| SmallVector<SILValue, 4> args; |
| |
| if (substConv.hasIndirectSILResults()) { |
| args.push_back( |
| emitTemporaryAllocation(loc, substConv.getSingleSILResultType())); |
| } |
| |
| // If the '@objc' was inferred due to deprecated rules, |
| // emit a Builtin.swift3ImplicitObjCEntrypoint(). |
| // |
| // However, don't do so for 'dynamic' members, which must use Objective-C |
| // dispatch and therefore create many false positives. |
| if (thunk.hasDecl()) { |
| auto decl = thunk.getDecl(); |
| |
| // For an accessor, look at the storage declaration's attributes. |
| if (auto accessor = dyn_cast<AccessorDecl>(decl)) { |
| decl = accessor->getStorage(); |
| } |
| |
| if (auto attr = decl->getAttrs().getAttribute<ObjCAttr>()) { |
| // If @objc was inferred based on the Swift 3 @objc inference rules, but |
| // we aren't compiling in Swift 3 compatibility mode, emit a call to |
| // Builtin.swift3ImplicitObjCEntrypoint() to enable runtime logging of |
| // the uses of such entrypoints. |
| if (attr->isSwift3Inferred() && |
| !decl->getAttrs().hasAttribute<DynamicAttr>() && |
| !getASTContext().LangOpts.isSwiftVersion3()) { |
| |
| // Get the starting source location of the declaration so we can say |
| // exactly where to stick '@objc'. |
| SourceLoc objcInsertionLoc = |
| decl->getAttributeInsertionLoc(/*modifier*/ false); |
| |
| auto objcInsertionLocArgs |
| = emitSourceLocationArgs(objcInsertionLoc, loc); |
| |
| B.createBuiltin(loc, |
| getASTContext().getIdentifier("swift3ImplicitObjCEntrypoint"), |
| getModule().Types.getEmptyTupleType(), { }, { |
| objcInsertionLocArgs.filenameStartPointer.forward(*this), |
| objcInsertionLocArgs.filenameLength.forward(*this), |
| objcInsertionLocArgs.line.forward(*this), |
| objcInsertionLocArgs.column.forward(*this) |
| }); |
| } |
| } |
| } |
| |
| // Now, enter a cleanup used for bridging the arguments. Note that if we |
| // have an indirect result, it must be outside of this scope, otherwise |
| // we will deallocate it too early. |
| Scope argScope(Cleanups, CleanupLocation::get(loc)); |
| |
| // Bridge the arguments. |
| Optional<ForeignErrorConvention> foreignError; |
| SILValue foreignErrorSlot; |
| CanType nativeFormalResultType, bridgedFormalResultType; |
| auto objcFnTy = emitObjCThunkArguments(*this, loc, thunk, args, |
| foreignErrorSlot, foreignError, |
| nativeFormalResultType, |
| bridgedFormalResultType); |
| SILFunctionConventions objcConv(CanSILFunctionType(objcFnTy), SGM.M); |
| SILFunctionConventions nativeConv(CanSILFunctionType(nativeInfo.SILFnType), |
| SGM.M); |
| auto swiftResultTy = F.mapTypeIntoContext(nativeConv.getSILResultType()); |
| auto objcResultTy = objcConv.getSILResultType(); |
| |
| // Call the native entry point. |
| SILValue nativeFn = emitGlobalFunctionRef(loc, native, nativeInfo); |
| |
| SILValue result; |
| assert(foreignError.hasValue() == substTy->hasErrorResult()); |
| if (!substTy->hasErrorResult()) { |
| // Create the apply. |
| result = B.createApply(loc, nativeFn, substSILTy, |
| swiftResultTy, subs, args); |
| |
| if (substConv.hasIndirectSILResults()) { |
| assert(substTy->getNumResults() == 1); |
| result = args[0]; |
| } |
| |
| // Leave the argument cleanup scope immediately. This isn't really |
| // necessary; it just limits lifetimes a little bit more. |
| argScope.pop(); |
| |
| // Now bridge the return value. |
| result = emitBridgeReturnValue(*this, loc, result, nativeFormalResultType, |
| bridgedFormalResultType, objcResultTy); |
| } else { |
| SILBasicBlock *contBB = createBasicBlock(); |
| SILBasicBlock *errorBB = createBasicBlock(); |
| SILBasicBlock *normalBB = createBasicBlock(); |
| B.createTryApply(loc, nativeFn, substSILTy, subs, args, |
| normalBB, errorBB); |
| |
| // Emit the non-error destination. |
| { |
| B.emitBlock(normalBB); |
| SILValue nativeResult = |
| normalBB->createPHIArgument(swiftResultTy, ValueOwnershipKind::Owned); |
| |
| if (substConv.hasIndirectSILResults()) { |
| assert(substTy->getNumResults() == 1); |
| nativeResult = args[0]; |
| } |
| |
| // In this branch, the eventual return value is mostly created |
| // by bridging the native return value, but we may need to |
| // adjust it slightly. |
| SILValue bridgedResult = |
| emitBridgeReturnValueForForeignError(loc, nativeResult, |
| nativeFormalResultType, |
| bridgedFormalResultType, |
| objcResultTy, |
| foreignErrorSlot, *foreignError); |
| B.createBranch(loc, contBB, bridgedResult); |
| } |
| |
| // Emit the error destination. |
| { |
| B.emitBlock(errorBB); |
| SILValue nativeError = errorBB->createPHIArgument( |
| substConv.getSILErrorType(), ValueOwnershipKind::Owned); |
| |
| // In this branch, the eventual return value is mostly invented. |
| // Store the native error in the appropriate location and return. |
| SILValue bridgedResult = |
| emitBridgeErrorForForeignError(loc, nativeError, objcResultTy, |
| foreignErrorSlot, *foreignError); |
| B.createBranch(loc, contBB, bridgedResult); |
| } |
| |
| // Emit the join block. |
| B.emitBlock(contBB); |
| result = contBB->createPHIArgument(objcResultTy, ValueOwnershipKind::Owned); |
| |
| // Leave the scope now. |
| argScope.pop(); |
| } |
| |
| scope.pop(); |
| B.createReturn(loc, result); |
| } |
| |
| static SILValue |
| getThunkedForeignFunctionRef(SILGenFunction &SGF, |
| SILLocation loc, |
| SILDeclRef foreign, |
| ArrayRef<ManagedValue> args, |
| SubstitutionList subs, |
| const SILConstantInfo &foreignCI) { |
| assert(!foreign.isCurried |
| && "should not thunk calling convention when curried"); |
| assert(foreign.isForeign); |
| |
| // Produce an objc_method when thunking ObjC methods. |
| if (foreignCI.SILFnType->getRepresentation() |
| == SILFunctionTypeRepresentation::ObjCMethod) { |
| SILValue thisArg = args.back().getValue(); |
| |
| return SGF.B.createObjCMethod(loc, thisArg, foreign, |
| foreignCI.getSILType()); |
| } |
| |
| // Otherwise, emit a function_ref. |
| return SGF.emitGlobalFunctionRef(loc, foreign); |
| } |
| |
| /// Generate code to emit a thunk with native conventions that calls a |
| /// function with foreign conventions. |
| void SILGenFunction::emitForeignToNativeThunk(SILDeclRef thunk) { |
| assert(!thunk.isForeign && "foreign-to-native thunks only"); |
| |
| // Wrap the function in its original form. |
| |
| auto fd = cast<AbstractFunctionDecl>(thunk.getDecl()); |
| auto nativeCI = getConstantInfo(thunk); |
| auto nativeFnTy = F.getLoweredFunctionType(); |
| assert(nativeFnTy == nativeCI.SILFnType); |
| |
| // Use the same generic environment as the native entry point. |
| F.setGenericEnvironment(nativeCI.GenericEnv); |
| |
| SILDeclRef foreignDeclRef = thunk.asForeign(true); |
| SILConstantInfo foreignCI = getConstantInfo(foreignDeclRef); |
| auto foreignFnTy = foreignCI.SILFnType; |
| |
| // Find the foreign error convention and 'self' parameter index. |
| Optional<ForeignErrorConvention> foreignError; |
| if (nativeFnTy->hasErrorResult()) { |
| foreignError = fd->getForeignErrorConvention(); |
| assert(foreignError && "couldn't find foreign error convention!"); |
| } |
| ImportAsMemberStatus memberStatus = fd->getImportAsMemberStatus(); |
| |
| // Forward the arguments. |
| auto forwardedParameters = fd->getParameterLists(); |
| |
| // For allocating constructors, 'self' is a metatype, not the 'self' value |
| // formally present in the constructor body. |
| Type allocatorSelfType; |
| if (thunk.kind == SILDeclRef::Kind::Allocator) { |
| allocatorSelfType = forwardedParameters[0] |
| ->getInterfaceType(getASTContext()) |
| ->getWithoutSpecifierType(); |
| if (F.getGenericEnvironment()) |
| allocatorSelfType = F.getGenericEnvironment() |
| ->mapTypeIntoContext(allocatorSelfType); |
| forwardedParameters = forwardedParameters.slice(1); |
| } |
| |
| SmallVector<SILValue, 8> params; |
| |
| // Introduce indirect returns if necessary. |
| // TODO: Handle exploded results? We don't currently need to since the only |
| // bridged indirect type is Any. |
| SILValue indirectResult; |
| SILFunctionConventions nativeConv(nativeFnTy, SGM.M); |
| if (nativeConv.hasIndirectSILResults()) { |
| assert(nativeConv.getNumIndirectSILResults() == 1 |
| && "bridged exploded result?!"); |
| indirectResult = |
| F.begin()->createFunctionArgument(nativeConv.getSingleSILResultType()); |
| } |
| |
| for (auto *paramList : reversed(forwardedParameters)) |
| bindParametersForForwarding(paramList, params); |
| |
| if (allocatorSelfType) { |
| auto selfMetatype = |
| CanMetatypeType::get(allocatorSelfType->getCanonicalType()); |
| auto selfArg = F.begin()->createFunctionArgument( |
| getLoweredLoadableType(selfMetatype), fd->getImplicitSelfDecl()); |
| params.push_back(selfArg); |
| } |
| |
| // Set up the throw destination if necessary. |
| CleanupLocation cleanupLoc(fd); |
| if (foreignError) { |
| prepareRethrowEpilog(cleanupLoc); |
| } |
| |
| SILValue result; |
| { |
| Scope scope(Cleanups, fd); |
| |
| // Bridge all the arguments. |
| SmallVector<ManagedValue, 8> args; |
| unsigned foreignArgIndex = 0; |
| |
| // A helper function to add a function error argument in the |
| // appropriate position. |
| auto maybeAddForeignErrorArg = [&] { |
| if (foreignError && |
| foreignArgIndex == foreignError->getErrorParameterIndex()) { |
| args.push_back(ManagedValue()); |
| foreignArgIndex++; |
| } |
| }; |
| |
| { |
| auto foreignFormalParams = |
| expandTupleTypes(foreignCI.LoweredType.getParams()); |
| auto nativeFormalParams = |
| expandTupleTypes(nativeCI.LoweredType.getParams()); |
| |
| for (unsigned nativeParamIndex : indices(params)) { |
| // Bring the parameter to +1. |
| auto paramValue = params[nativeParamIndex]; |
| auto thunkParam = nativeFnTy->getParameters()[nativeParamIndex]; |
| // TODO: Could avoid a retain if the bridged parameter is also +0 and |
| // doesn't require a bridging conversion. |
| ManagedValue param; |
| switch (thunkParam.getConvention()) { |
| case ParameterConvention::Direct_Owned: |
| param = emitManagedRValueWithCleanup(paramValue); |
| break; |
| case ParameterConvention::Direct_Guaranteed: |
| case ParameterConvention::Direct_Unowned: |
| param = emitManagedRetain(fd, paramValue); |
| break; |
| case ParameterConvention::Indirect_Inout: |
| case ParameterConvention::Indirect_InoutAliasable: |
| param = ManagedValue::forLValue(paramValue); |
| break; |
| case ParameterConvention::Indirect_In: |
| param = emitManagedRValueWithCleanup(paramValue); |
| break; |
| case ParameterConvention::Indirect_In_Guaranteed: { |
| auto tmp = emitTemporaryAllocation(fd, paramValue->getType()); |
| B.createCopyAddr(fd, paramValue, tmp, IsNotTake, IsInitialization); |
| param = emitManagedRValueWithCleanup(tmp); |
| break; |
| } |
| case ParameterConvention::Indirect_In_Constant: |
| llvm_unreachable("unsupported convention"); |
| } |
| |
| maybeAddForeignErrorArg(); |
| |
| bool isSelf = nativeParamIndex == params.size() - 1; |
| |
| if (memberStatus.isInstance()) { |
| // Leave space for `self` to be filled in later. |
| if (foreignArgIndex == memberStatus.getSelfIndex()) { |
| args.push_back({}); |
| foreignArgIndex++; |
| } |
| |
| // Use the `self` space we skipped earlier if it's time. |
| if (isSelf) { |
| foreignArgIndex = memberStatus.getSelfIndex(); |
| } |
| } else if (memberStatus.isStatic() && isSelf) { |
| // Lose a static `self` parameter. |
| break; |
| } |
| |
| CanType nativeFormalType = |
| F.mapTypeIntoContext(nativeFormalParams[nativeParamIndex]) |
| ->getCanonicalType(); |
| CanType foreignFormalType = |
| F.mapTypeIntoContext(foreignFormalParams[nativeParamIndex]) |
| ->getCanonicalType(); |
| |
| auto foreignParam = foreignFnTy->getParameters()[foreignArgIndex++]; |
| SILType foreignLoweredTy = |
| F.mapTypeIntoContext(foreignParam.getSILStorageType()); |
| |
| auto bridged = emitNativeToBridgedValue(fd, param, nativeFormalType, |
| foreignFormalType, |
| foreignLoweredTy); |
| // Handle C pointer arguments imported as indirect `self` arguments. |
| if (foreignParam.getConvention() == ParameterConvention::Indirect_In) { |
| auto temp = emitTemporaryAllocation(fd, bridged.getType()); |
| bridged.forwardInto(*this, fd, temp); |
| bridged = emitManagedBufferWithCleanup(temp); |
| } |
| |
| if (memberStatus.isInstance() && isSelf) { |
| // Fill in the `self` space. |
| args[memberStatus.getSelfIndex()] = bridged; |
| } else { |
| args.push_back(bridged); |
| } |
| } |
| } |
| |
| maybeAddForeignErrorArg(); |
| |
| // Call the original. |
| auto subs = getForwardingSubstitutions(); |
| auto fn = getThunkedForeignFunctionRef(*this, fd, foreignDeclRef, args, subs, |
| foreignCI); |
| |
| auto fnType = fn->getType().castTo<SILFunctionType>(); |
| fnType = fnType->substGenericArgs(SGM.M, subs); |
| |
| CanType nativeFormalResultType = |
| fd->mapTypeIntoContext(nativeCI.LoweredType.getResult()) |
| ->getCanonicalType(); |
| CanType bridgedFormalResultType = |
| fd->mapTypeIntoContext(foreignCI.LoweredType.getResult()) |
| ->getCanonicalType(); |
| CalleeTypeInfo calleeTypeInfo( |
| fnType, AbstractionPattern(nativeFnTy->getGenericSignature(), |
| bridgedFormalResultType), |
| nativeFormalResultType, foreignError, ImportAsMemberStatus()); |
| |
| auto init = indirectResult |
| ? useBufferAsTemporary(indirectResult, |
| getTypeLowering(indirectResult->getType())) |
| : nullptr; |
| |
| SGFContext context(init.get()); |
| ResultPlanPtr resultPlan = ResultPlanBuilder::computeResultPlan( |
| *this, calleeTypeInfo, fd, context); |
| ArgumentScope argScope(*this, fd); |
| PostponedCleanup postpone(*this); |
| ManagedValue resultMV = |
| emitApply(std::move(resultPlan), std::move(argScope), fd, |
| ManagedValue::forUnmanaged(fn), subs, args, calleeTypeInfo, |
| ApplyOptions::None, context, postpone) |
| .getAsSingleValue(*this, fd); |
| |
| if (indirectResult) { |
| if (!resultMV.isInContext()) { |
| init->copyOrInitValueInto(*this, fd, resultMV, /*isInit*/ true); |
| init->finishInitialization(*this); |
| } |
| init->getManagedAddress().forward(*this); |
| result = emitEmptyTuple(fd); |
| } else { |
| result = resultMV.forward(*this); |
| } |
| } |
| B.createReturn(ImplicitReturnLocation::getImplicitReturnLoc(fd), result); |
| // Emit the throw destination. |
| emitRethrowEpilog(fd); |
| } |