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swift-mirror/lib/IRGen/GenMeta.h
Slava Pestov dbd116119e IRGen: Only mark field offset globals as constant if they won't be updated at runtime 
Even if we have a constant value, we might be emitting a legacy layout
that can be updated in place by newer runtimes. In this case, clients
cannot assume the field offsets are constant, and the globals cannot
be constant either.

Part of <rdar://problem/17528739>.
2018-10-31 20:45:18 -04:00

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//===--- GenMeta.h - Swift IR generation for metadata -----------*- C++ -*-===//
//
// 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
//
//===----------------------------------------------------------------------===//
//
// This file provides the private interface to the metadata emission code.
//
//===----------------------------------------------------------------------===//
#ifndef SWIFT_IRGEN_GENMETA_H
#define SWIFT_IRGEN_GENMETA_H
#include <utility>
namespace llvm {
template <class T> class ArrayRef;
class Constant;
class Function;
class GlobalVariable;
class Value;
}
namespace swift {
class AbstractFunctionDecl;
class FileUnit;
class FuncDecl;
enum class ResilienceExpansion : unsigned;
class SILType;
class VarDecl;
enum class SpecialProtocol : uint8_t;
namespace irgen {
class ConstantStructBuilder;
class FieldTypeInfo;
class GenericTypeRequirements;
class IRGenFunction;
class IRGenModule;
enum RequireMetadata_t : bool;
class Size;
class StructLayout;
class ClassLayout;
bool requiresForeignTypeMetadata(CanType type);
bool requiresForeignTypeMetadata(NominalTypeDecl *decl);
/// Emit the metadata associated with the given class declaration.
void emitClassMetadata(IRGenModule &IGM, ClassDecl *theClass,
const ClassLayout &fragileLayout,
const ClassLayout &resilientLayout);
/// Emit the constant initializer of the type metadata candidate for
/// the given foreign class declaration.
llvm::Constant *emitForeignTypeMetadataInitializer(IRGenModule &IGM,
CanType type,
Size &addressPointOffset);
/// Emit a type context descriptor that was demanded by a reference from
/// other generated definitions.
void emitLazyTypeContextDescriptor(IRGenModule &IGM,
NominalTypeDecl *type,
RequireMetadata_t requireMetadata);
/// Emit type metadata that was demanded by a reference from other
/// generated definitions.
void emitLazyTypeMetadata(IRGenModule &IGM, NominalTypeDecl *type);
/// Emit the metadata associated with the given struct declaration.
void emitStructMetadata(IRGenModule &IGM, StructDecl *theStruct);
/// Emit the metadata associated with the given enum declaration.
void emitEnumMetadata(IRGenModule &IGM, EnumDecl *theEnum);
/// Get what will be the index into the generic type argument array at the end
/// of a nominal type's metadata.
int32_t getIndexOfGenericArgument(IRGenModule &IGM,
NominalTypeDecl *decl,
ArchetypeType *archetype);
/// Given a reference to nominal type metadata of the given type,
/// derive a reference to the type metadata stored in the nth
/// requirement slot. The type must have generic arguments.
llvm::Value *emitArgumentMetadataRef(IRGenFunction &IGF,
NominalTypeDecl *theDecl,
const GenericTypeRequirements &reqts,
unsigned reqtIndex,
llvm::Value *metadata);
/// Given a reference to nominal type metadata of the given type,
/// derive a reference to a protocol witness table stored in the nth
/// requirement slot. The type must have generic arguments.
llvm::Value *emitArgumentWitnessTableRef(IRGenFunction &IGF,
NominalTypeDecl *theDecl,
const GenericTypeRequirements &reqts,
unsigned reqtIndex,
llvm::Value *metadata);
/// Given a metatype value, read its instance type.
llvm::Value *emitMetatypeInstanceType(IRGenFunction &IGF,
llvm::Value *metatypeMetadata);
/// Emit the field type accessor for a nominal type's metadata. This function
/// lazily generates the metadata for the types of all of the nominal type's
/// fields for reflection purposes.
void emitFieldTypeAccessor(IRGenModule &IGM,
NominalTypeDecl *type,
llvm::Function *fn,
ArrayRef<FieldTypeInfo> fieldTypes);
/// Adjustment indices for the address points of various metadata.
/// Size is in words.
namespace MetadataAdjustmentIndex {
enum : unsigned {
// Class metadata has two words of head-allocated data: the destructor
// and the value witness table.
Class = 2,
// Struct and enum metadata have one word of head-allocated data:
// the value witness table.
ValueType = 1,
// Other metadata objects have no head allocation.
None = 0,
};
}
/// Get the runtime identifier for a special protocol, if any.
SpecialProtocol getSpecialProtocolID(ProtocolDecl *P);
/// Use the argument as the 'self' type metadata.
void getArgAsLocalSelfTypeMetadata(IRGenFunction &IGF, llvm::Value *arg,
CanType abstractType);
/// Description of the metadata emitted by adding generic requirements.
struct GenericRequirementsMetadata {
unsigned NumRequirements = 0;
unsigned NumGenericKeyArguments = 0;
unsigned NumGenericExtraArguments = 0;
};
/// Add generic requirements to the given constant struct builder.
///
/// \param sig The generic signature against which the requirements are
/// described.
///
/// \param requirements The requirements to add.
GenericRequirementsMetadata addGenericRequirements(
IRGenModule &IGM,
ConstantStructBuilder &B,
GenericSignature *sig,
ArrayRef<Requirement> requirements);
} // end namespace irgen
} // end namespace swift
#endif
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