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swift-mirror/lib/Serialization/ModuleFormat.h
Nate Chandler 2a5d07522d [SIL] Add extend_lifetime instruction. 
It indicates that the value's lifetime continues to at least this point.
The boundary formed by all consuming uses together with these
instructions will encompass all uses of the value.
2024-06-05 16:28:26 -07:00

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//===--- ModuleFormat.h - The internals of serialized modules ---*- C++ -*-===//
//
// This source file is part of the Swift.org open source project
//
// Copyright (c) 2014 - 2020 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
//
//===----------------------------------------------------------------------===//
///
/// \file
/// Contains various constants and helper types to deal with serialized
/// modules.
///
//===----------------------------------------------------------------------===//
#ifndef SWIFT_SERIALIZATION_MODULEFORMAT_H
#define SWIFT_SERIALIZATION_MODULEFORMAT_H
#include "swift/AST/Decl.h"
#include "swift/AST/FineGrainedDependencyFormat.h"
#include "swift/AST/Types.h"
#include "llvm/ADT/PointerEmbeddedInt.h"
#include "llvm/Bitcode/BitcodeConvenience.h"
#include "llvm/Bitstream/BitCodes.h"
namespace swift {
class ModuleFile;
class TypeDeserializer;
namespace serialization {
using llvm::PointerEmbeddedInt;
using llvm::BCArray;
using llvm::BCBlob;
using llvm::BCFixed;
using llvm::BCGenericRecordLayout;
using llvm::BCRecordLayout;
using llvm::BCVBR;
/// Magic number for serialized module files.
const unsigned char SWIFTMODULE_SIGNATURE[] = { 0xE2, 0x9C, 0xA8, 0x0E };
/// Alignment of each serialized modules inside a .swift_ast section.
const unsigned char SWIFTMODULE_ALIGNMENT = 4;
/// Serialized module format major version number.
///
/// Always 0 for Swift 1.x - 4.x.
const uint16_t SWIFTMODULE_VERSION_MAJOR = 0;
/// Serialized module format minor version number.
///
/// When the format changes IN ANY WAY, this number should be incremented.
/// To ensure that two separate changes don't silently get merged into one
/// in source control, you should also update the comment to briefly
/// describe what change you made. The content of this comment isn't important;
/// it just ensures a conflict if two people change the module format.
/// Don't worry about adhering to the 80-column limit for this line.
const uint16_t SWIFTMODULE_VERSION_MINOR = 877; // extend_lifetime instruction
/// A standard hash seed used for all string hashes in a serialized module.
///
/// This is the same as the default used by llvm::djbHash, just provided
/// explicitly here to note that it's part of the format.
const uint32_t SWIFTMODULE_HASH_SEED = 5381;
using DeclIDField = BCFixed<31>;
// TypeID must be the same as DeclID because it is stored in the same way.
using TypeID = DeclID;
using TypeIDField = DeclIDField;
using TypeIDWithBitField = BCFixed<32>;
// ClangTypeID must be the same as DeclID because it is stored in the same way.
using ClangTypeID = TypeID;
using ClangTypeIDField = TypeIDField;
// IdentifierID must be the same as DeclID because it is stored in the same way.
using IdentifierID = DeclID;
using IdentifierIDField = DeclIDField;
// LocalDeclContextID must be the same as DeclID because it is stored in the
// same way.
using LocalDeclContextID = DeclID;
using LocalDeclContextIDField = DeclIDField;
/// Stores either a DeclID or a LocalDeclContextID, using 32 bits.
class DeclContextID {
int32_t rawValue;
explicit DeclContextID(int32_t rawValue) : rawValue(rawValue) {}
public:
DeclContextID() : DeclContextID(0) {}
static DeclContextID forDecl(DeclID value) {
assert(value && "should encode null using DeclContextID()");
assert(llvm::isUInt<31>(value) && "too many DeclIDs");
return DeclContextID(static_cast<int32_t>(value));
}
static DeclContextID forLocalDeclContext(LocalDeclContextID value) {
assert(value && "should encode null using DeclContextID()");
assert(llvm::isUInt<31>(value) && "too many LocalDeclContextIDs");
return DeclContextID(-static_cast<int32_t>(value));
}
explicit operator bool() const {
return rawValue != 0;
}
std::optional<DeclID> getAsDeclID() const {
if (rawValue > 0)
return DeclID(rawValue);
return std::nullopt;
}
std::optional<LocalDeclContextID> getAsLocalDeclContextID() const {
if (rawValue < 0)
return LocalDeclContextID(-rawValue);
return std::nullopt;
}
static DeclContextID getFromOpaqueValue(uint32_t opaqueValue) {
return DeclContextID(opaqueValue);
}
uint32_t getOpaqueValue() const { return rawValue; }
};
class DeclContextIDField : public BCFixed<32> {
public:
static DeclContextID convert(uint64_t rawValue) {
assert(llvm::isUInt<32>(rawValue));
return DeclContextID::getFromOpaqueValue(rawValue);
}
};
// ProtocolConformanceID must be the same as DeclID because it is stored
// in the same way.
using ProtocolConformanceID = DeclID;
using ProtocolConformanceIDField = DeclIDField;
// The low two bits of the ProtocolConformanceID determine the kind:
// 00 -- abstract conformance
// 01 -- concrete conformance
// 10 -- pack conformance
struct SerializedProtocolConformanceKind {
enum {
Abstract = 0,
Concrete = 1,
Pack = 2,
Shift = 2,
Mask = 3
};
};
// GenericSignatureID must be the same as DeclID because it is stored in the
// same way.
using GenericSignatureID = DeclID;
using GenericSignatureIDField = DeclIDField;
using GenericEnvironmentID = unsigned;
using GenericEnvironmentIDField = BCFixed<32>;
// SubstitutionMapID must be the same as DeclID because it is stored in the
// same way.
using SubstitutionMapID = DeclID;
using SubstitutionMapIDField = DeclIDField;
// ModuleID must be the same as IdentifierID because it is stored the same way.
using ModuleID = IdentifierID;
using ModuleIDField = IdentifierIDField;
// SILLayoutID must be the same as DeclID because it is stored in the same way.
using SILLayoutID = DeclID;
using SILLayoutIDField = DeclIDField;
using BitOffset = PointerEmbeddedInt<unsigned, 31>;
using BitOffsetField = BCFixed<31>;
// CharOffset must be the same as BitOffset because it is stored in the
// same way.
using CharOffset = BitOffset;
using CharOffsetField = BitOffsetField;
using FileSizeField = BCVBR<16>;
using FileModTimeOrContentHashField = BCVBR<16>;
using FileHashField = BCVBR<16>;
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum class OpaqueReadOwnership : uint8_t {
Owned,
Borrowed,
OwnedOrBorrowed,
};
using OpaqueReadOwnershipField = BCFixed<2>;
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum class ReadImplKind : uint8_t {
Stored = 0,
Get,
Inherited,
Address,
Read,
};
using ReadImplKindField = BCFixed<3>;
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum class WriteImplKind : uint8_t {
Immutable = 0,
Stored,
StoredWithObservers,
InheritedWithObservers,
Set,
MutableAddress,
Modify,
};
using WriteImplKindField = BCFixed<3>;
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum class ReadWriteImplKind : uint8_t {
Immutable = 0,
Stored,
MutableAddress,
MaterializeToTemporary,
Modify,
StoredWithDidSet,
InheritedWithDidSet,
};
using ReadWriteImplKindField = BCFixed<3>;
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum class StaticSpellingKind : uint8_t {
None = 0,
KeywordStatic,
KeywordClass,
};
using StaticSpellingKindField = BCFixed<2>;
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum class FunctionTypeRepresentation : uint8_t {
Swift = 0,
Block,
Thin,
CFunctionPointer,
};
using FunctionTypeRepresentationField = BCFixed<4>;
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum class DifferentiabilityKind : uint8_t {
NonDifferentiable = 0,
Forward,
Reverse,
Normal,
Linear,
};
using DifferentiabilityKindField = BCFixed<3>;
// These IDs must \em not be renumbered or reordered without incrementing the
// module version.
enum class AutoDiffDerivativeFunctionKind : uint8_t {
JVP = 0,
VJP
};
using AutoDiffDerivativeFunctionKindField = BCFixed<1>;
enum class ForeignErrorConventionKind : uint8_t {
ZeroResult,
NonZeroResult,
ZeroPreservedResult,
NilResult,
NonNilError,
};
using ForeignErrorConventionKindField = BCFixed<3>;
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum class SILFunctionTypeRepresentation : uint8_t {
Thick = 0,
Block,
Thin,
CFunctionPointer,
FirstSIL = 8,
Method = FirstSIL,
ObjCMethod,
WitnessMethod,
Closure,
CXXMethod,
KeyPathAccessorGetter,
KeyPathAccessorSetter,
KeyPathAccessorEquals,
KeyPathAccessorHash,
};
using SILFunctionTypeRepresentationField = BCFixed<5>;
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum class SILCoroutineKind : uint8_t {
None = 0,
YieldOnce = 1,
YieldMany = 2,
};
using SILCoroutineKindField = BCFixed<2>;
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum OperatorKind : uint8_t {
Infix = 0,
Prefix,
Postfix,
PrecedenceGroup, // only for cross references
};
// This is currently required to have the same width as AccessorKindField.
using OperatorKindField = BCFixed<4>;
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum AccessorKind : uint8_t {
Get = 0,
Set,
WillSet,
DidSet,
Address,
MutableAddress,
Read,
Modify,
Init,
DistributedGet,
};
using AccessorKindField = BCFixed<4>;
using AccessorCountField = BCFixed<3>;
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum CtorInitializerKind : uint8_t {
Designated = 0,
Convenience = 1,
Factory = 2,
ConvenienceFactory = 3,
};
using CtorInitializerKindField = BCFixed<2>;
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum class ParamDeclSpecifier : uint8_t {
Default = 0,
InOut = 1,
Borrowing = 2,
Consuming = 3,
LegacyShared = 4,
LegacyOwned = 5,
ImplicitlyCopyableConsuming = 6,
};
using ParamDeclSpecifierField = BCFixed<3>;
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum class VarDeclIntroducer : uint8_t {
Let = 0,
Var = 1,
InOut = 2,
Borrowing = 3,
};
using VarDeclIntroducerField = BCFixed<2>;
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum class ParameterConvention : uint8_t {
Indirect_In,
Indirect_Inout,
Indirect_InoutAliasable,
Direct_Owned,
Direct_Unowned,
Direct_Guaranteed,
Indirect_In_Guaranteed,
Indirect_In_Constant,
Pack_Owned,
Pack_Inout,
Pack_Guaranteed,
};
using ParameterConventionField = BCFixed<4>;
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum class SILParameterDifferentiability : uint8_t {
DifferentiableOrNotApplicable = 0,
NotDifferentiable,
};
/// These IDs must \em not be renumbered or reordered without incrementing the
/// module version.
enum class SILParameterInfoFlags : uint8_t {
NotDifferentiable = 0x1,
Isolated = 0x2,
Sending = 0x4,
};
using SILParameterInfoOptions = OptionSet<SILParameterInfoFlags>;
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum class ResultConvention : uint8_t {
Indirect,
Owned,
Unowned,
UnownedInnerPointer,
Autoreleased,
Pack,
};
using ResultConventionField = BCFixed<3>;
/// These IDs must \em not be renumbered or reordered without incrementing the
/// module version.
enum class SILResultInfoFlags : uint8_t {
NotDifferentiable = 0x1,
IsSending = 0x2,
};
using SILResultInfoOptions = OptionSet<SILResultInfoFlags>;
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum MetatypeRepresentation : uint8_t {
MR_None, MR_Thin, MR_Thick, MR_ObjC
};
using MetatypeRepresentationField = BCFixed<2>;
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum class SelfAccessKind : uint8_t {
NonMutating = 0,
Mutating,
LegacyConsuming,
Consuming,
Borrowing,
};
using SelfAccessKindField = BCFixed<3>;
/// Translates an operator decl fixity to a Serialization fixity, whose values
/// are guaranteed to be stable.
static inline OperatorKind getStableFixity(OperatorFixity fixity) {
switch (fixity) {
case OperatorFixity::Prefix:
return Prefix;
case OperatorFixity::Postfix:
return Postfix;
case OperatorFixity::Infix:
return Infix;
}
llvm_unreachable("Unhandled case in switch");
}
/// Translates a stable Serialization fixity back to an AST operator fixity.
static inline OperatorFixity getASTOperatorFixity(OperatorKind fixity) {
switch (fixity) {
case Prefix:
return OperatorFixity::Prefix;
case Postfix:
return OperatorFixity::Postfix;
case Infix:
return OperatorFixity::Infix;
case PrecedenceGroup:
llvm_unreachable("Not an operator kind");
}
llvm_unreachable("Unhandled case in switch");
}
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum GenericRequirementKind : uint8_t {
SameShape = 0,
Conformance = 1,
SameType = 2,
Superclass = 3,
Layout = 4,
};
using GenericRequirementKindField = BCFixed<3>;
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum LayoutRequirementKind : uint8_t {
UnknownLayout = 0,
TrivialOfExactSize = 1,
TrivialOfAtMostSize = 2,
Trivial = 3,
RefCountedObject = 4,
NativeRefCountedObject = 5,
Class = 6,
NativeClass = 7,
BridgeObject = 8,
TrivialStride = 9,
};
using LayoutRequirementKindField = BCFixed<4>;
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum Associativity : uint8_t {
NonAssociative = 0,
LeftAssociative,
RightAssociative
};
using AssociativityField = BCFixed<2>;
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum ReferenceOwnership : uint8_t {
Strong = 0,
Weak,
Unowned,
Unmanaged,
};
using ReferenceOwnershipField = BCFixed<2>;
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum class DefaultArgumentKind : uint8_t {
None = 0,
Normal,
FileID,
FileIDSpelledAsFile,
FilePath,
FilePathSpelledAsFile,
Line,
Column,
Function,
Inherited,
DSOHandle,
NilLiteral,
EmptyArray,
EmptyDictionary,
StoredProperty,
ExpressionMacro,
};
using DefaultArgumentField = BCFixed<4>;
/// These IDs must \em not be renumbered or reordered without incrementing
/// the module version.
enum class ActorIsolation : uint8_t {
Unspecified = 0,
ActorInstance,
Nonisolated,
NonisolatedUnsafe,
GlobalActor,
GlobalActorUnsafe,
Erased,
};
using ActorIsolationField = BCFixed<3>;
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum LibraryKind : uint8_t {
Library = 0,
Framework
};
using LibraryKindField = BCFixed<1>;
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum class AccessLevel : uint8_t {
Private = 0,
FilePrivate,
Internal,
Package,
Public,
Open,
};
using AccessLevelField = BCFixed<3>;
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum class DeclNameKind: uint8_t {
Normal,
Subscript,
Constructor,
Destructor
};
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum SpecialIdentifierID : uint8_t {
/// Special IdentifierID value for the Builtin module.
BUILTIN_MODULE_ID = 0,
/// Special IdentifierID value for the current module.
CURRENT_MODULE_ID,
/// Special value for the module for imported Objective-C headers.
OBJC_HEADER_MODULE_ID,
/// Special value for the special subscript name
SUBSCRIPT_ID,
/// Special value for the special constructor name
CONSTRUCTOR_ID,
/// Special value for the special destructor name
DESTRUCTOR_ID,
/// The number of special Identifier IDs. This value should never be encoded;
/// it should only be used to count the number of names above. As such, it
/// is correct and necessary to add new values above this one.
NUM_SPECIAL_IDS
};
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum class EnumElementRawValueKind : uint8_t {
/// No raw value serialized.
None = 0,
/// Integer literal.
IntegerLiteral,
/// TODO: Float, string, char, etc.
};
using EnumElementRawValueKindField = BCFixed<4>;
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum class ResilienceExpansion : uint8_t {
Minimal = 0,
Maximal,
};
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum class ImportControl : uint8_t {
/// `import FooKit`
Normal = 0,
/// `@_exported import FooKit`
Exported,
/// `@_implementationOnly import FooKit`
ImplementationOnly,
/// `internal import FooKit` or more restrictive.
InternalOrBelow,
/// `package import FooKit`
PackageOnly,
};
using ImportControlField = BCFixed<3>;
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum class ClangDeclPathComponentKind : uint8_t {
Record = 0,
Enum,
Namespace,
Typedef,
TypedefAnonDecl,
ObjCInterface,
ObjCProtocol,
};
enum class GenericEnvironmentKind : uint8_t {
OpenedExistential,
OpenedElement
};
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum class MacroRole : uint8_t {
#define MACRO_ROLE(Name, Description) Name,
#include "swift/Basic/MacroRoles.def"
};
using MacroRoleField = BCFixed<4>;
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum class MacroIntroducedDeclNameKind : uint8_t {
Named = 0,
Overloaded,
Accessors,
Prefixed,
Suffixed,
Arbitrary,
};
using MacroIntroducedDeclNameKindField = BCFixed<4>;
// These IDs must \em not be renumbered or reordered without incrementing
// the module version.
enum class PluginSearchOptionKind : uint8_t {
PluginPath,
ExternalPluginPath,
LoadPluginLibrary,
LoadPluginExecutable,
};
using PluginSearchOptionKindField = BCFixed<3>;
enum class FunctionTypeIsolation : uint8_t {
NonIsolated,
Parameter,
Erased,
GlobalActorOffset, // Add this to the global actor type ID
};
using FunctionTypeIsolationField = TypeIDField;
// Encodes a VersionTuple:
//
// Major
// Minor
// Subminor
// HasMinor
// HasSubminor
#define BC_AVAIL_TUPLE\
BCVBR<5>,\
BCVBR<5>,\
BCVBR<4>,\
BCFixed<1>,\
BCFixed<1>
#define LIST_VER_TUPLE_PIECES(X)\
X##_Major, X##_Minor, X##_Subminor, X##_HasMinor, X##_HasSubminor
#define DEF_VER_TUPLE_PIECES(X) unsigned LIST_VER_TUPLE_PIECES(X)
#define DECODE_VER_TUPLE(X)\
if (X##_HasMinor) {\
if (X##_HasSubminor)\
X = llvm::VersionTuple(X##_Major, X##_Minor, X##_Subminor);\
else\
X = llvm::VersionTuple(X##_Major, X##_Minor);\
}\
else X = llvm::VersionTuple(X##_Major);
#define ENCODE_VER_TUPLE(X, X_Expr)\
unsigned X##_Major = 0, X##_Minor = 0, X##_Subminor = 0,\
X##_HasMinor = 0, X##_HasSubminor = 0;\
const auto &X##_Val = X_Expr;\
if (X##_Val.has_value()) {\
const auto &Y = X##_Val.value();\
X##_Major = Y.getMajor();\
X##_Minor = Y.getMinor().value_or(0);\
X##_Subminor = Y.getSubminor().value_or(0);\
X##_HasMinor = Y.getMinor().has_value();\
X##_HasSubminor = Y.getSubminor().has_value();\
}
/// The various types of blocks that can occur within a serialized Swift
/// module.
///
/// Some of these are shared with the swiftdoc format, which is a stable format.
/// Be very very careful when renumbering them.
enum BlockID {
/// The module block, which contains all of the other blocks (and in theory
/// allows a single file to contain multiple modules).
MODULE_BLOCK_ID = llvm::bitc::FIRST_APPLICATION_BLOCKID,
/// The control block, which contains all of the information that needs to
/// be validated prior to committing to loading the serialized module.
///
/// This is part of a stable format and must not be renumbered!
///
/// \sa control_block
CONTROL_BLOCK_ID,
/// The input block, which contains all the files this module depends on.
///
/// \sa input_block
INPUT_BLOCK_ID,
/// The "decls-and-types" block, which contains all of the declarations that
/// come from this module.
///
/// Types are also stored here, so that types that just wrap a Decl don't need
/// a separate entry in the file.
///
/// \sa decls_block
DECLS_AND_TYPES_BLOCK_ID,
/// The identifier block, which contains all of the strings used in
/// identifiers in the module.
///
/// Unlike other blocks in the file, all data within this block is completely
/// opaque. Offsets into this block should point directly into the blob at a
/// null-terminated UTF-8 string.
IDENTIFIER_DATA_BLOCK_ID,
/// The index block, which contains cross-referencing information for the
/// module.
///
/// \sa index_block
INDEX_BLOCK_ID,
/// The block for SIL functions.
///
/// \sa sil_block
SIL_BLOCK_ID,
/// The index block for SIL functions.
///
/// \sa sil_index_block
SIL_INDEX_BLOCK_ID,
/// A sub-block of the control block that contains configuration options
/// needed to successfully load this module.
///
/// \sa options_block
OPTIONS_BLOCK_ID,
/// The declaration member-tables index block, a sub-block of the index block.
///
/// \sa decl_member_tables_block
DECL_MEMBER_TABLES_BLOCK_ID,
/// The module documentation container block, which contains all other
/// documentation blocks.
///
/// This is part of a stable format and must not be renumbered!
MODULE_DOC_BLOCK_ID = 96,
/// The comment block, which contains documentation comments.
///
/// This is part of a stable format and must not be renumbered!
///
/// \sa comment_block
COMMENT_BLOCK_ID,
/// The module source location container block, which contains all other
/// source location blocks.
///
/// This is part of a stable format and should not be renumbered.
///
/// Though we strive to keep the format stable, breaking the format of
/// .swiftsourceinfo doesn't have consequences as serious as breaking the
/// format of .swiftdoc because .swiftsourceinfo file is for local development
/// use only.
MODULE_SOURCEINFO_BLOCK_ID = 192,
/// The source location block, which contains decl locations.
///
/// This is part of a stable format and should not be renumbered.
///
/// Though we strive to keep the format stable, breaking the format of
/// .swiftsourceinfo doesn't have consequences as serious as breaking the
/// format
/// of .swiftdoc because .swiftsourceinfo file is for local development use
/// only.
///
/// \sa decl_locs_block
DECL_LOCS_BLOCK_ID,
/// The incremental dependency information block.
///
/// This is part of a stable format and should not be renumbered.
INCREMENTAL_INFORMATION_BLOCK_ID =
fine_grained_dependencies::INCREMENTAL_INFORMATION_BLOCK_ID,
};
/// The record types within the control block.
///
/// Be VERY VERY careful when changing this block; it is also used by the
/// swiftdoc format, which \e must \e remain \e stable. Adding new records is
/// okay---they will be ignored---but modifying existing ones must be done
/// carefully. You may need to update the swiftdoc version in DocFormat.h.
///
/// \sa CONTROL_BLOCK_ID
namespace control_block {
enum {
METADATA = 1,
MODULE_NAME,
TARGET,
SDK_NAME,
REVISION,
IS_OSSA,
ALLOWABLE_CLIENT_NAME,
CHANNEL,
SDK_VERSION,
};
using MetadataLayout = BCRecordLayout<
METADATA, // ID
BCFixed<16>, // Module format major version
BCFixed<16>, // Module format minor version
BCVBR<8>, // length of "short version string" in the blob
BCVBR<8>, // length of "short compatibility version string" in the blob
BCVBR<17>, // User module format major version
BCVBR<17>, // User module format minor version
BCVBR<17>, // User module format sub-minor version
BCVBR<17>, // User module format build version
BCBlob // misc. version information
>;
using ModuleNameLayout = BCRecordLayout<
MODULE_NAME,
BCBlob
>;
using TargetLayout = BCRecordLayout<
TARGET,
BCBlob // LLVM triple
>;
using SDKNameLayout = BCRecordLayout<
SDK_NAME,
BCBlob
>;
using RevisionLayout = BCRecordLayout<
REVISION,
BCBlob
>;
using IsOSSALayout = BCRecordLayout<
IS_OSSA,
BCFixed<1>
>;
using AllowableClientLayout = BCRecordLayout<
ALLOWABLE_CLIENT_NAME,
BCBlob
>;
using ChannelLayout = BCRecordLayout<
CHANNEL,
BCBlob
>;
using SDKVersionLayout = BCRecordLayout<
SDK_VERSION,
BCBlob
>;
}
/// The record types within the options block (a sub-block of the control
/// block).
///
/// \sa OPTIONS_BLOCK_ID
namespace options_block {
enum {
SDK_PATH = 1,
XCC,
IS_SIB,
IS_STATIC_LIBRARY,
HAS_HERMETIC_SEAL_AT_LINK,
IS_EMBEDDED_SWIFT_MODULE,
IS_TESTABLE,
RESILIENCE_STRATEGY,
ARE_PRIVATE_IMPORTS_ENABLED,
IS_IMPLICIT_DYNAMIC_ENABLED,
IS_BUILT_FROM_INTERFACE,
IS_ALLOW_MODULE_WITH_COMPILER_ERRORS_ENABLED,
MODULE_ABI_NAME,
IS_CONCURRENCY_CHECKED,
MODULE_PACKAGE_NAME,
MODULE_EXPORT_AS_NAME,
PLUGIN_SEARCH_OPTION,
HAS_CXX_INTEROPERABILITY_ENABLED,
ALLOW_NON_RESILIENT_ACCESS,
SERIALIZE_PACKAGE_ENABLED,
};
using SDKPathLayout = BCRecordLayout<
SDK_PATH,
BCBlob // path
>;
using XCCLayout = BCRecordLayout<
XCC,
BCBlob // -Xcc flag, as string
>;
using PluginSearchOptionLayout = BCRecordLayout<
PLUGIN_SEARCH_OPTION,
PluginSearchOptionKindField, // kind
BCBlob // option value string
>;
using IsSIBLayout = BCRecordLayout<
IS_SIB,
BCFixed<1> // Is this an intermediate file?
>;
using IsStaticLibraryLayout = BCRecordLayout<
IS_STATIC_LIBRARY
>;
using HasHermeticSealAtLinkLayout = BCRecordLayout<
HAS_HERMETIC_SEAL_AT_LINK
>;
using IsEmbeddedSwiftModuleLayout = BCRecordLayout<
IS_EMBEDDED_SWIFT_MODULE
>;
using IsTestableLayout = BCRecordLayout<
IS_TESTABLE
>;
using ArePrivateImportsEnabledLayout = BCRecordLayout<
ARE_PRIVATE_IMPORTS_ENABLED
>;
using IsImplicitDynamicEnabledLayout = BCRecordLayout<
IS_IMPLICIT_DYNAMIC_ENABLED
>;
using ResilienceStrategyLayout = BCRecordLayout<
RESILIENCE_STRATEGY,
BCFixed<2>
>;
using IsBuiltFromInterfaceLayout = BCRecordLayout<
IS_BUILT_FROM_INTERFACE
>;
using IsAllowModuleWithCompilerErrorsEnabledLayout = BCRecordLayout<
IS_ALLOW_MODULE_WITH_COMPILER_ERRORS_ENABLED
>;
using ModuleABINameLayout = BCRecordLayout<
MODULE_ABI_NAME,
BCBlob
>;
using IsConcurrencyCheckedLayout = BCRecordLayout<
IS_CONCURRENCY_CHECKED
>;
using ModulePackageNameLayout = BCRecordLayout<
MODULE_PACKAGE_NAME,
BCBlob
>;
using ModuleExportAsNameLayout = BCRecordLayout<
MODULE_EXPORT_AS_NAME,
BCBlob
>;
using HasCxxInteroperabilityEnabledLayout = BCRecordLayout<
HAS_CXX_INTEROPERABILITY_ENABLED
>;
using AllowNonResilientAccess = BCRecordLayout<
ALLOW_NON_RESILIENT_ACCESS
>;
using SerializePackageEnabled = BCRecordLayout<
SERIALIZE_PACKAGE_ENABLED
>;
}
/// The record types within the input block.
///
/// \sa INPUT_BLOCK_ID
namespace input_block {
enum {
IMPORTED_MODULE = 1,
LINK_LIBRARY,
IMPORTED_HEADER,
IMPORTED_HEADER_CONTENTS,
MODULE_FLAGS, // [unused]
SEARCH_PATH,
FILE_DEPENDENCY,
DEPENDENCY_DIRECTORY,
MODULE_INTERFACE_PATH,
IMPORTED_MODULE_SPIS,
};
using ImportedModuleLayout = BCRecordLayout<
IMPORTED_MODULE,
ImportControlField, // import kind
BCFixed<1>, // scoped?
BCFixed<1>, // has spis?
BCBlob // module name, with submodule path pieces separated by \0s.
// If the 'scoped' flag is set, the final path piece is an access
// path within the module.
>;
using ImportedModuleLayoutSPI = BCRecordLayout<
IMPORTED_MODULE_SPIS,
BCBlob // SPI names, separated by \0s
>;
using LinkLibraryLayout = BCRecordLayout<
LINK_LIBRARY,
LibraryKindField, // kind
BCFixed<1>, // forced?
BCBlob // library name
>;
using ImportedHeaderLayout = BCRecordLayout<
IMPORTED_HEADER,
BCFixed<1>, // exported?
FileSizeField, // file size (for validation)
FileHashField, // file hash (for validation)
BCBlob // file path
>;
using ImportedHeaderContentsLayout = BCRecordLayout<
IMPORTED_HEADER_CONTENTS,
BCBlob
>;
using SearchPathLayout = BCRecordLayout<
SEARCH_PATH,
BCFixed<1>, // framework?
BCFixed<1>, // system?
BCBlob // path
>;
using FileDependencyLayout = BCRecordLayout<
FILE_DEPENDENCY,
FileSizeField, // file size (for validation)
FileModTimeOrContentHashField, // mtime or content hash (for validation)
BCFixed<1>, // are we reading mtime (0) or hash (1)?
BCFixed<1>, // SDK-relative?
BCVBR<8>, // subpath-relative index (0=none)
BCBlob // path
>;
using DependencyDirectoryLayout = BCRecordLayout<
DEPENDENCY_DIRECTORY,
BCBlob
>;
using ModuleInterfaceLayout = BCRecordLayout<
MODULE_INTERFACE_PATH,
BCBlob // file path
>;
}
/// The record types within the "decls-and-types" block.
///
/// \sa DECLS_AND_TYPES_BLOCK_ID
namespace decls_block {
enum RecordKind : uint16_t {
#define RECORD(Id) Id,
#define RECORD_VAL(Id, Value) Id = Value,
#include "DeclTypeRecordNodes.def"
};
namespace detail {
enum TypeRecords : uint16_t {
#define TYPE(Id) Id##_TYPE = decls_block::RecordKind::Id##_TYPE,
#include "DeclTypeRecordNodes.def"
};
template <TypeRecords Record>
class TypeRecordDispatch {};
template <TypeRecords RecordCode, typename ...Ts>
struct code { public: constexpr static TypeRecords value = RecordCode; };
struct function_deserializer {
static llvm::Expected<Type>
deserialize(ModuleFile &MF, SmallVectorImpl<uint64_t> &scratch,
StringRef blobData, bool isGeneric);
};
#define TYPE_LAYOUT_IMPL(LAYOUT, ...) \
using LAYOUT = BCRecordLayout<__VA_ARGS__>; \
template <> \
class detail::TypeRecordDispatch< \
detail::code<detail::TypeRecords::__VA_ARGS__>::value> { \
friend class swift::ModuleFile; \
static llvm::Expected<Type> \
deserialize(ModuleFile &MF, \
llvm::SmallVectorImpl<uint64_t> &scratch, \
StringRef blobData); \
}
} // namespace detail
/// This \c TYPE_LAYOUT(...) macro replaces the usual \c BCRecordLayout coding
/// structures below by enforcing structural checks for the definition of
/// deserialization members. If you forget to define a \c TYPE_LAYOUT(...) for a
/// \c TYPE(...) there will be a gnarly SFINAE error pointing at it in
/// DeclTypeRecordNodes.def.
///
/// This macro pairs with \c DESERIALIZE_TYPE(...) in Deserialization.cpp such
/// that if you forget \c DESERIALIZE_TYPE(...) you will come up
/// with a linker error.
#define TYPE_LAYOUT(LAYOUT, ...) TYPE_LAYOUT_IMPL(LAYOUT, __VA_ARGS__)
using ClangTypeLayout = BCRecordLayout<
CLANG_TYPE,
BCArray<BCVBR<6>>
>;
/// A flag to mark a decl as being invalid
using ErrorFlagLayout = BCRecordLayout<
ERROR_FLAG
>;
/// A placeholder for invalid types
TYPE_LAYOUT(ErrorTypeLayout,
ERROR_TYPE,
TypeIDField // original type (if any)
);
TYPE_LAYOUT(BuiltinAliasTypeLayout,
BUILTIN_ALIAS_TYPE,
DeclIDField, // typealias decl
TypeIDField // canonical type (a fallback)
);
TYPE_LAYOUT(TypeAliasTypeLayout,
NAME_ALIAS_TYPE,
DeclIDField, // typealias decl
TypeIDField, // parent type
TypeIDField, // underlying type
TypeIDField, // substituted type
SubstitutionMapIDField // substitution map
);
TYPE_LAYOUT(GenericTypeParamTypeLayout,
GENERIC_TYPE_PARAM_TYPE,
BCFixed<1>, // parameter pack?
DeclIDField, // generic type parameter decl or depth
BCVBR<4> // index + 1, or zero if we have a generic type
// parameter decl
);
TYPE_LAYOUT(DependentMemberTypeLayout,
DEPENDENT_MEMBER_TYPE,
TypeIDField, // base type
DeclIDField // associated type decl
);
TYPE_LAYOUT(NominalTypeLayout,
NOMINAL_TYPE,
DeclIDField, // decl
TypeIDField // parent
);
TYPE_LAYOUT(ParenTypeLayout,
PAREN_TYPE,
TypeIDField // inner type
);
TYPE_LAYOUT(TupleTypeLayout,
TUPLE_TYPE
);
using TupleTypeEltLayout = BCRecordLayout<
TUPLE_TYPE_ELT,
IdentifierIDField, // name
TypeIDField // type
>;
TYPE_LAYOUT(FunctionTypeLayout,
FUNCTION_TYPE,
TypeIDField, // output
FunctionTypeRepresentationField, // representation
ClangTypeIDField, // type
BCFixed<1>, // noescape?
BCFixed<1>, // concurrent?
BCFixed<1>, // async?
BCFixed<1>, // throws?
TypeIDField, // thrown error
DifferentiabilityKindField, // differentiability kind
FunctionTypeIsolationField, // isolation
BCFixed<1> // has transferring result
// trailed by parameters
// Optionally lifetime dependence info
);
using FunctionParamLayout =
BCRecordLayout<FUNCTION_PARAM,
IdentifierIDField, // name
IdentifierIDField, // internal label
TypeIDField, // type
BCFixed<1>, // vararg?
BCFixed<1>, // autoclosure?
BCFixed<1>, // non-ephemeral?
ParamDeclSpecifierField, // inout, shared or owned?
BCFixed<1>, // isolated
BCFixed<1>, // noDerivative?
BCFixed<1>, // compileTimeConst
BCFixed<1>, // _resultDependsOn
BCFixed<1> // transferring
>;
TYPE_LAYOUT(MetatypeTypeLayout,
METATYPE_TYPE,
TypeIDField, // instance type
MetatypeRepresentationField // representation
);
TYPE_LAYOUT(ExistentialMetatypeTypeLayout,
EXISTENTIAL_METATYPE_TYPE,
TypeIDField, // instance type
MetatypeRepresentationField // representation
);
TYPE_LAYOUT(PrimaryArchetypeTypeLayout,
PRIMARY_ARCHETYPE_TYPE,
GenericSignatureIDField, // generic environment
TypeIDField // interface type
);
TYPE_LAYOUT(OpenedArchetypeTypeLayout,
OPENED_ARCHETYPE_TYPE,
TypeIDField, // the interface type
GenericEnvironmentIDField // generic environment ID
);
TYPE_LAYOUT(OpaqueArchetypeTypeLayout,
OPAQUE_ARCHETYPE_TYPE,
DeclIDField, // the opaque type decl
TypeIDField, // the interface type
SubstitutionMapIDField // the arguments
);
TYPE_LAYOUT(PackArchetypeTypeLayout,
PACK_ARCHETYPE_TYPE,
GenericSignatureIDField, // generic environment
TypeIDField // interface type
);
TYPE_LAYOUT(ElementArchetypeTypeLayout,
ELEMENT_ARCHETYPE_TYPE,
TypeIDField, // the interface type
GenericEnvironmentIDField // generic environment ID
);
TYPE_LAYOUT(DynamicSelfTypeLayout,
DYNAMIC_SELF_TYPE,
TypeIDField // self type
);
TYPE_LAYOUT(ProtocolCompositionTypeLayout,
PROTOCOL_COMPOSITION_TYPE,
BCFixed<1>, // has AnyObject constraint
BCFixed<1>, // has ~Copyable constraint
BCFixed<1>, // has ~Escapable constraint
BCArray<TypeIDField> // protocols
);
TYPE_LAYOUT(ParameterizedProtocolTypeLayout,
PARAMETERIZED_PROTOCOL_TYPE,
TypeIDField, // base
BCArray<TypeIDField> // arguments
);
TYPE_LAYOUT(BoundGenericTypeLayout,
BOUND_GENERIC_TYPE,
DeclIDField, // generic decl
TypeIDField, // parent
BCArray<TypeIDField> // generic arguments
);
TYPE_LAYOUT(GenericFunctionTypeLayout,
GENERIC_FUNCTION_TYPE,
TypeIDField, // output
FunctionTypeRepresentationField, // representation
BCFixed<1>, // concurrent?
BCFixed<1>, // async?
BCFixed<1>, // throws?
TypeIDField, // thrown error
DifferentiabilityKindField, // differentiability kind
FunctionTypeIsolationField, // isolation
BCFixed<1>, // has transferring result
GenericSignatureIDField // generic signature
// trailed by parameters
// Optionally lifetime dependence info
);
TYPE_LAYOUT(SILFunctionTypeLayout,
SIL_FUNCTION_TYPE,
BCFixed<1>, // concurrent?
BCFixed<1>, // async?
SILCoroutineKindField, // coroutine kind
ParameterConventionField, // callee convention
SILFunctionTypeRepresentationField, // representation
BCFixed<1>, // pseudogeneric?
BCFixed<1>, // noescape?
BCFixed<1>, // unimplementable?
BCFixed<1>, // erased isolation?
DifferentiabilityKindField, // differentiability kind
BCFixed<1>, // error result?
BCVBR<6>, // number of parameters
BCVBR<5>, // number of yields
BCVBR<5>, // number of results
GenericSignatureIDField, // invocation generic signature
SubstitutionMapIDField, // invocation substitutions
SubstitutionMapIDField, // pattern substitutions
ClangTypeIDField, // clang function type, for foreign conventions
BCArray<TypeIDField> // parameter types/conventions, alternating
// followed by result types/conventions, alternating
// followed by error result type/convention
// Optionally a protocol conformance (for witness_methods)
// Optionally a substitution map (for substituted function types)
// Optionally lifetime dependence info
);
TYPE_LAYOUT(SILBlockStorageTypeLayout,
SIL_BLOCK_STORAGE_TYPE,
TypeIDField // capture type
);
TYPE_LAYOUT(SILMoveOnlyWrappedTypeLayout,
SIL_MOVE_ONLY_TYPE,
TypeIDField // inner type
);
using SILLayoutLayout = BCRecordLayout<
SIL_LAYOUT,
GenericSignatureIDField, // generic signature
BCFixed<1>, // captures generic env
BCVBR<8>, // number of fields
BCArray<TypeIDWithBitField> // field types with mutability
>;
TYPE_LAYOUT(SILBoxTypeLayout,
SIL_BOX_TYPE,
SILLayoutIDField, // layout
SubstitutionMapIDField // substitutions
);
#define SYNTAX_SUGAR_TYPE_LAYOUT(LAYOUT, CODE) \
TYPE_LAYOUT(LAYOUT, CODE, TypeIDField)
SYNTAX_SUGAR_TYPE_LAYOUT(ArraySliceTypeLayout, ARRAY_SLICE_TYPE);
SYNTAX_SUGAR_TYPE_LAYOUT(OptionalTypeLayout, OPTIONAL_TYPE);
SYNTAX_SUGAR_TYPE_LAYOUT(VariadicSequenceTypeLayout, VARIADIC_SEQUENCE_TYPE);
SYNTAX_SUGAR_TYPE_LAYOUT(ExistentialTypeLayout, EXISTENTIAL_TYPE);
TYPE_LAYOUT(DictionaryTypeLayout,
DICTIONARY_TYPE,
TypeIDField, // key type
TypeIDField // value type
);
TYPE_LAYOUT(ReferenceStorageTypeLayout,
REFERENCE_STORAGE_TYPE,
ReferenceOwnershipField, // ownership
TypeIDField // implementation type
);
TYPE_LAYOUT(UnboundGenericTypeLayout,
UNBOUND_GENERIC_TYPE,
DeclIDField, // generic decl
TypeIDField // parent
);
TYPE_LAYOUT(PackExpansionTypeLayout,
PACK_EXPANSION_TYPE,
TypeIDField, // pattern type
TypeIDField // count type
);
TYPE_LAYOUT(PackElementTypeLayout,
PACK_ELEMENT_TYPE,
TypeIDField, // pack type
BCFixed<32> // level
);
TYPE_LAYOUT(PackTypeLayout,
PACK_TYPE,
BCArray<TypeIDField> // component types
);
TYPE_LAYOUT(SILPackTypeLayout,
SIL_PACK_TYPE,
BCFixed<1>, // is address
BCArray<TypeIDField>// component types
);
using TypeAliasLayout = BCRecordLayout<
TYPE_ALIAS_DECL,
IdentifierIDField, // name
DeclContextIDField,// context decl
TypeIDField, // underlying type
TypeIDField, // interface type (no longer used)
BCFixed<1>, // implicit flag
GenericSignatureIDField, // generic environment
AccessLevelField, // access level
BCArray<TypeIDField> // dependency types
// Trailed by generic parameters (if any).
>;
using GenericTypeParamDeclLayout = BCRecordLayout<GENERIC_TYPE_PARAM_DECL,
IdentifierIDField, // name
BCFixed<1>, // implicit flag
BCFixed<1>, // parameter pack?
BCVBR<4>, // depth
BCVBR<4>, // index
BCFixed<1> // opaque type?
>;
using AssociatedTypeDeclLayout = BCRecordLayout<
ASSOCIATED_TYPE_DECL,
IdentifierIDField, // name
DeclContextIDField, // context decl
TypeIDField, // default definition
BCFixed<1>, // implicit flag
BCArray<DeclIDField> // overridden associated types
>;
using StructLayout = BCRecordLayout<
STRUCT_DECL,
IdentifierIDField, // name
DeclContextIDField, // context decl
BCFixed<1>, // implicit flag
BCFixed<1>, // isObjC
GenericSignatureIDField, // generic environment
AccessLevelField, // access level
BCVBR<4>, // number of conformances
BCVBR<4>, // number of inherited types
BCArray<TypeIDField> // inherited types, followed by dependency types
// Trailed by the generic parameters (if any), the members record, and
// finally conformance info (if any).
>;
using EnumLayout = BCRecordLayout<
ENUM_DECL,
IdentifierIDField, // name
DeclContextIDField, // context decl
BCFixed<1>, // implicit flag
BCFixed<1>, // isObjC
GenericSignatureIDField, // generic environment
TypeIDField, // raw type
AccessLevelField, // access level
BCVBR<4>, // number of conformances
BCVBR<4>, // number of inherited types
BCArray<TypeIDField> // inherited types, followed by dependency types
// Trailed by the generic parameters (if any), the members record, and
// finally conformance info (if any).
>;
using ClassLayout = BCRecordLayout<
CLASS_DECL,
IdentifierIDField, // name
DeclContextIDField, // context decl
BCFixed<1>, // implicit?
BCFixed<1>, // explicitly objc?
BCFixed<1>, // Explicitly actor?
BCFixed<1>, // inherits convenience initializers from its superclass?
BCFixed<1>, // has missing designated initializers?
GenericSignatureIDField, // generic environment
TypeIDField, // superclass
AccessLevelField, // access level
BCVBR<4>, // number of conformances
BCVBR<4>, // number of inherited types
BCArray<TypeIDField> // inherited types, followed by dependency types
// Trailed by the generic parameters (if any), the members record, and
// finally conformance info (if any).
>;
using ProtocolLayout = BCRecordLayout<
PROTOCOL_DECL,
IdentifierIDField, // name
DeclContextIDField, // context decl
BCFixed<1>, // implicit flag
BCFixed<1>, // class-bounded?
BCFixed<1>, // objc?
BCFixed<1>, // existential-type-supported?
DeclIDField, // superclass decl
AccessLevelField, // access level
BCArray<TypeIDField> // dependency types
// Trailed by the inherited protocols, the generic parameters (if any),
// the generic signature, the members record, and the default witness table record
>;
/// A default witness table for a protocol.
using InheritedProtocolsLayout = BCRecordLayout<
INHERITED_PROTOCOLS,
BCArray<DeclIDField>
// An array of inherited protocol declarations
>;
/// A default witness table for a protocol.
using DefaultWitnessTableLayout = BCRecordLayout<
DEFAULT_WITNESS_TABLE,
BCArray<DeclIDField>
// An array of requirement / witness pairs
>;
using ConstructorLayout = BCRecordLayout<
CONSTRUCTOR_DECL,
DeclContextIDField, // context decl
BCFixed<1>, // failable?
BCFixed<1>, // IUO result?
BCFixed<1>, // implicit?
BCFixed<1>, // objc?
BCFixed<1>, // stub implementation?
BCFixed<1>, // async?
BCFixed<1>, // throws?
TypeIDField, // thrown error
CtorInitializerKindField, // initializer kind
GenericSignatureIDField, // generic environment
DeclIDField, // overridden decl
BCFixed<1>, // whether the overridden decl affects ABI
AccessLevelField, // access level
BCFixed<1>, // requires a new vtable/witness table slot
BCFixed<1>, // 'required' but overridden is not (used for recovery)
BCVBR<5>, // number of parameter name components
BCArray<IdentifierIDField> // name components,
// followed by TypeID dependencies
// This record is trailed by:
// - its generic parameters, if any
// - its parameter patterns,
// - the foreign error convention, if any
// - inlinable body text, if any
>;
using VarLayout = BCRecordLayout<
VAR_DECL,
IdentifierIDField, // name
DeclContextIDField, // context decl
BCFixed<1>, // implicit?
BCFixed<1>, // explicitly objc?
BCFixed<1>, // static?
VarDeclIntroducerField, // introducer
BCFixed<1>, // is getter mutating?
BCFixed<1>, // is setter mutating?
BCFixed<1>, // is this the backing storage for a lazy property?
BCFixed<1>, // top level global?
DeclIDField, // if this is a lazy property, this is the backing storage
OpaqueReadOwnershipField, // opaque read ownership
ReadImplKindField, // read implementation
WriteImplKindField, // write implementation
ReadWriteImplKindField, // read-write implementation
AccessorCountField, // number of accessors
TypeIDField, // interface type
BCFixed<1>, // IUO value?
DeclIDField, // overridden decl
AccessLevelField, // access level
AccessLevelField, // setter access, if applicable
DeclIDField, // opaque return type decl
BCFixed<2>, // # of property wrapper backing properties
BCVBR<4>, // total number of vtable/witness table entries introduced by all accessors
BCArray<TypeIDField> // accessors, backing properties, and dependencies
>;
using ParamLayout = BCRecordLayout<
PARAM_DECL,
IdentifierIDField, // argument name
IdentifierIDField, // parameter name
DeclContextIDField, // context decl
ParamDeclSpecifierField, // specifier
TypeIDField, // interface type
BCFixed<1>, // isIUO?
BCFixed<1>, // isVariadic?
BCFixed<1>, // isAutoClosure?
BCFixed<1>, // isIsolated?
BCFixed<1>, // isCompileTimeConst?
BCFixed<1>, // isSending?
DefaultArgumentField, // default argument kind
TypeIDField, // default argument type
ActorIsolationField, // default argument isolation
TypeIDField, // global actor isolation
BCBlob // default argument text
>;
using FuncLayout = BCRecordLayout<
FUNC_DECL,
DeclContextIDField, // context decl
BCFixed<1>, // implicit?
BCFixed<1>, // is 'static' or 'class'?
StaticSpellingKindField, // spelling of 'static' or 'class'
BCFixed<1>, // isObjC?
SelfAccessKindField, // self access kind
BCFixed<1>, // has forced static dispatch?
BCFixed<1>, // async?
BCFixed<1>, // throws?
TypeIDField, // thrown error
GenericSignatureIDField, // generic environment
TypeIDField, // result interface type
BCFixed<1>, // IUO result?
DeclIDField, // operator decl
DeclIDField, // overridden function
BCFixed<1>, // whether the overridden decl affects ABI
BCVBR<5>, // 0 for a simple name, otherwise the number of parameter name
// components plus one
AccessLevelField, // access level
BCFixed<1>, // requires a new vtable/witness table slot
DeclIDField, // opaque result type decl
BCFixed<1>, // isUserAccessible?
BCFixed<1>, // is distributed thunk
BCFixed<1>, // has transferring result
BCArray<IdentifierIDField> // name components,
// followed by TypeID dependencies
// The record is trailed by:
// - its _silgen_name, if any
// - its generic parameters, if any
// - body parameter patterns
// - the foreign error convention, if any
// - inlinable body text, if any
>;
using ConditionalSubstitutionConditionLayout = BCRecordLayout<
CONDITIONAL_SUBSTITUTION_COND,
BCFixed<1>, // is unavailable?
BC_AVAIL_TUPLE // the OS version triple.
>;
using ConditionalSubstitutionLayout = BCRecordLayout<
CONDITIONAL_SUBSTITUTION,
SubstitutionMapIDField
// Trailed by N conditions that include a version and
// unavailability indicator.
>;
using OpaqueTypeLayout = BCRecordLayout<
OPAQUE_TYPE_DECL,
DeclContextIDField, // decl context
DeclIDField, // naming decl
GenericSignatureIDField, // interface generic signature
TypeIDField, // interface type for opaque type
GenericSignatureIDField, // generic environment
SubstitutionMapIDField, // optional substitution map for underlying type
AccessLevelField, // access level
BCFixed<1> // export underlying type details
// trailed by generic parameters
// trailed by conditional substitutions
>;
// TODO: remove the unnecessary FuncDecl components here
using AccessorLayout = BCRecordLayout<
ACCESSOR_DECL,
DeclContextIDField, // context decl
BCFixed<1>, // implicit?
BCFixed<1>, // is 'static' or 'class'?
StaticSpellingKindField, // spelling of 'static' or 'class'
BCFixed<1>, // isObjC?
SelfAccessKindField, // self access kind
BCFixed<1>, // has forced static dispatch?
BCFixed<1>, // async?
BCFixed<1>, // throws?
TypeIDField, // thrown error
GenericSignatureIDField, // generic environment
TypeIDField, // result interface type
BCFixed<1>, // IUO result?
DeclIDField, // overridden function
BCFixed<1>, // whether the overridden decl affects ABI
DeclIDField, // AccessorStorageDecl
AccessorKindField, // accessor kind
AccessLevelField, // access level
BCFixed<1>, // requires a new vtable/witness table slot
BCFixed<1>, // is transparent
BCFixed<1>, // is distributed thunk
BCArray<IdentifierIDField> // name components,
// followed by TypeID dependencies
// The record is trailed by:
// - its _silgen_name, if any
// - its generic parameters, if any
// - body parameter patterns
// - the foreign error convention, if any
// - inlinable body text, if any
>;
using PatternBindingLayout = BCRecordLayout<
PATTERN_BINDING_DECL,
DeclContextIDField, // context decl
BCFixed<1>, // implicit flag
BCFixed<1>, // static?
StaticSpellingKindField, // spelling of 'static' or 'class'
BCVBR<3>, // numpatterns
BCArray<DeclContextIDField> // init contexts
// The patterns trail the record.
>;
template <unsigned Code>
using UnaryOperatorLayout = BCRecordLayout<
Code, // ID field
IdentifierIDField, // name
DeclContextIDField // context decl
>;
using PrefixOperatorLayout = UnaryOperatorLayout<PREFIX_OPERATOR_DECL>;
using PostfixOperatorLayout = UnaryOperatorLayout<POSTFIX_OPERATOR_DECL>;
using InfixOperatorLayout = BCRecordLayout<
INFIX_OPERATOR_DECL,
IdentifierIDField, // name
DeclContextIDField,// context decl
DeclIDField // precedence group
>;
using PrecedenceGroupLayout = BCRecordLayout<
PRECEDENCE_GROUP_DECL,
IdentifierIDField, // name
DeclContextIDField,// context decl
AssociativityField,// associativity
BCFixed<1>, // assignment
BCVBR<2>, // numHigherThan
BCArray<DeclIDField> // higherThan, followed by lowerThan
>;
using EnumElementLayout = BCRecordLayout<
ENUM_ELEMENT_DECL,
DeclContextIDField,// context decl
BCFixed<1>, // implicit?
BCFixed<1>, // has payload?
EnumElementRawValueKindField, // raw value kind
BCFixed<1>, // implicit raw value?
BCFixed<1>, // negative raw value?
IdentifierIDField, // raw value
BCVBR<5>, // number of parameter name components
BCArray<IdentifierIDField> // name components,
// The record is trailed by:
// - its argument parameters, if any
>;
using SubscriptLayout = BCRecordLayout<
SUBSCRIPT_DECL,
DeclContextIDField, // context decl
BCFixed<1>, // implicit?
BCFixed<1>, // objc?
BCFixed<1>, // is getter mutating?
BCFixed<1>, // is setter mutating?
OpaqueReadOwnershipField, // opaque read ownership
ReadImplKindField, // read implementation
WriteImplKindField, // write implementation
ReadWriteImplKindField, // read-write implementation
AccessorCountField, // number of accessors
GenericSignatureIDField, // generic environment
TypeIDField, // element interface type
BCFixed<1>, // IUO element?
DeclIDField, // overridden decl
AccessLevelField, // access level
AccessLevelField, // setter access, if applicable
StaticSpellingKindField, // is subscript static?
BCVBR<5>, // number of parameter name components
DeclIDField, // opaque return type decl
BCVBR<4>, // total number of vtable/witness table entries introduced by all accessors
BCArray<IdentifierIDField> // name components,
// followed by DeclID accessors,
// followed by TypeID dependencies
// Trailed by:
// - generic parameters, if any
// - the indices pattern
>;
using ExtensionLayout = BCRecordLayout<
EXTENSION_DECL,
TypeIDField, // extended type
DeclIDField, // extended nominal
DeclContextIDField, // context decl
BCFixed<1>, // implicit flag
GenericSignatureIDField, // generic environment
BCVBR<4>, // # of protocol conformances
BCVBR<4>, // number of inherited types
BCArray<TypeIDField> // inherited types, followed by TypeID dependencies
// Trailed by the generic parameter lists, members record, and then
// conformance info (if any).
>;
using DestructorLayout = BCRecordLayout<
DESTRUCTOR_DECL,
DeclContextIDField, // context decl
BCFixed<1>, // implicit?
BCFixed<1>, // objc?
GenericSignatureIDField // generic environment
// This record is trailed by its inlinable body text
>;
using MacroLayout = BCRecordLayout<
MACRO_DECL,
DeclContextIDField, // context decl
BCFixed<1>, // implicit?
GenericSignatureIDField, // generic environment
BCFixed<1>, // whether there is a parameter list
TypeIDField, // result interface type
AccessLevelField, // access level
BCVBR<5>, // number of parameter name components
BCVBR<3>, // builtin macro definition ID
BCFixed<1>, // whether it has an expanded macro definition
IdentifierIDField, // external module name, for external macros
IdentifierIDField, // external type name, for external macros
BCArray<IdentifierIDField> // name components,
// followed by TypeID dependencies
// The record is trailed by:
// - its generic parameters, if any
// - parameter list, if present
// - expanded macro definition, if needed.
>;
/// The expanded macro definition text.
using ExpandedMacroDefinitionLayout = BCRecordLayout<
EXPANDED_MACRO_DEFINITION,
BCFixed<1>, // whether it has replacements
BCBlob // expansion text
// potentially trailed by the expanded macro replacements
>;
/// The replacements to be performed for an expanded macro definition.
using ExpandedMacroReplacementsLayout = BCRecordLayout<
EXPANDED_MACRO_REPLACEMENTS,
BCArray<BCVBR<6>> // a set of replacement triples (start offset,
// end offset, parameter index)
>;
using InlinableBodyTextLayout = BCRecordLayout<
INLINABLE_BODY_TEXT,
BCBlob // body text
>;
using ParameterListLayout = BCRecordLayout<
PARAMETERLIST,
BCArray<DeclIDField> // params
>;
using ParenPatternLayout = BCRecordLayout<
PAREN_PATTERN
// The sub-pattern trails the record.
>;
using TuplePatternLayout = BCRecordLayout<
TUPLE_PATTERN,
TypeIDField, // type
BCVBR<5> // arity
// The elements trail the record.
>;
using TuplePatternEltLayout = BCRecordLayout<
TUPLE_PATTERN_ELT,
IdentifierIDField // label
// The element pattern trails the record.
>;
using NamedPatternLayout = BCRecordLayout<
NAMED_PATTERN,
DeclIDField, // associated VarDecl
TypeIDField // type
>;
using AnyPatternLayout = BCRecordLayout<
ANY_PATTERN,
TypeIDField, // type
BCFixed<1> // isAsyncLet
// FIXME: is the type necessary?
>;
using TypedPatternLayout = BCRecordLayout<
TYPED_PATTERN,
TypeIDField // associated type
// The sub-pattern trails the record.
>;
using BindingPatternLayout = BCRecordLayout<
VAR_PATTERN,
BCFixed<2> // introducer (var, let, etc.)
// The sub-pattern trails the record.
>;
using GenericParamListLayout = BCRecordLayout<
GENERIC_PARAM_LIST,
BCArray<DeclIDField> // the GenericTypeParamDecls
>;
using GenericSignatureLayout = BCRecordLayout<
GENERIC_SIGNATURE,
BCArray<TypeIDField> // generic parameter types
>;
using GenericEnvironmentLayout = BCRecordLayout<
GENERIC_ENVIRONMENT,
BCFixed<1>, // GenericEnvironmentKind
TypeIDField, // existential type or shape class
GenericSignatureIDField, // parent signature
SubstitutionMapIDField // substitution map
>;
using SubstitutionMapLayout = BCRecordLayout<
SUBSTITUTION_MAP,
GenericSignatureIDField, // generic signature
BCVBR<5>, // # of replacement types
BCArray<TypeIDField> // replacement types and conformances
>;
using SILGenericSignatureLayout = BCRecordLayout<
SIL_GENERIC_SIGNATURE,
BCArray<TypeIDField> // (generic parameter name, sugared interface
// type) pairs
>;
using RequirementSignatureLayout = BCRecordLayout<
REQUIREMENT_SIGNATURE,
BCArray<BCVBR<6>> // requirements and protocol type aliases
>;
using AssociatedTypeLayout = BCRecordLayout<
ASSOCIATED_TYPE,
DeclIDField // associated type decl
>;
using PrimaryAssociatedTypeLayout = BCRecordLayout<
PRIMARY_ASSOCIATED_TYPE,
DeclIDField // associated type decl
>;
/// Specifies the private discriminator string for a private declaration. This
/// identifies the declaration's original source file in some opaque way.
using PrivateDiscriminatorLayout = BCRecordLayout<
PRIVATE_DISCRIMINATOR,
IdentifierIDField // discriminator string, as an identifier
>;
using LocalDiscriminatorLayout = BCRecordLayout<
LOCAL_DISCRIMINATOR,
BCVBR<2> // context-scoped discriminator counter
>;
using FilenameForPrivateLayout = BCRecordLayout<
FILENAME_FOR_PRIVATE,
IdentifierIDField // the file name, as an identifier
>;
using DeserializationSafetyLayout = BCRecordLayout<
DESERIALIZATION_SAFETY,
IdentifierIDField // name to debug access to unsafe decl
>;
using NormalProtocolConformanceLayout = BCRecordLayout<
NORMAL_PROTOCOL_CONFORMANCE,
DeclIDField, // the protocol
DeclContextIDField, // the decl that provided this conformance
BCVBR<5>, // type mapping count
BCVBR<5>, // value mapping count
BCVBR<5>, // requirement signature conformance count
BCFixed<1>, // unchecked
BCFixed<1>, // preconcurrency
BCArray<DeclIDField>
// The array contains requirement signature conformances, then
// type witnesses, then value witnesses.
>;
using SelfProtocolConformanceLayout = BCRecordLayout<
SELF_PROTOCOL_CONFORMANCE,
DeclIDField // the protocol
>;
using SpecializedProtocolConformanceLayout = BCRecordLayout<
SPECIALIZED_PROTOCOL_CONFORMANCE,
ProtocolConformanceIDField, // underlying conformance
TypeIDField, // conforming type
SubstitutionMapIDField // substitution map
>;
using InheritedProtocolConformanceLayout = BCRecordLayout<
INHERITED_PROTOCOL_CONFORMANCE,
ProtocolConformanceIDField, // underlying conformance
TypeIDField // the conforming type
>;
using BuiltinProtocolConformanceLayout = BCRecordLayout<
BUILTIN_PROTOCOL_CONFORMANCE,
TypeIDField, // the conforming type
DeclIDField, // the protocol
BCFixed<2> // the builtin conformance kind
>;
using PackConformanceLayout = BCRecordLayout<
PACK_CONFORMANCE,
TypeIDField, // pattern type
DeclIDField, // the protocol
BCArray<ProtocolConformanceIDField> // pattern conformances
>;
using ProtocolConformanceXrefLayout = BCRecordLayout<
PROTOCOL_CONFORMANCE_XREF,
DeclIDField, // the protocol being conformed to
DeclIDField, // the nominal type of the conformance
ModuleIDField // the module in which the conformance can be found
>;
using MembersLayout = BCRecordLayout<
MEMBERS,
BCArray<DeclIDField>
>;
using XRefLayout = BCRecordLayout<
XREF,
ModuleIDField, // base module ID
BCVBR<4> // xref path length (cannot be 0)
>;
using XRefTypePathPieceLayout = BCRecordLayout<
XREF_TYPE_PATH_PIECE,
IdentifierIDField, // name
IdentifierIDField, // private discriminator
BCFixed<1>, // restrict to protocol extension
BCFixed<1> // imported from Clang?
>;
using XRefOpaqueReturnTypePathPieceLayout = BCRecordLayout<
XREF_OPAQUE_RETURN_TYPE_PATH_PIECE,
IdentifierIDField // mangled name of defining decl
>;
using XRefValuePathPieceLayout = BCRecordLayout<
XREF_VALUE_PATH_PIECE,
TypeIDField, // type
IdentifierIDField, // name
BCFixed<1>, // restrict to protocol extension
BCFixed<1>, // imported from Clang?
BCFixed<1> // static?
>;
using XRefInitializerPathPieceLayout = BCRecordLayout<
XREF_INITIALIZER_PATH_PIECE,
TypeIDField, // type
BCFixed<1>, // restrict to protocol extension
BCFixed<1>, // imported from Clang?
CtorInitializerKindField // initializer kind
>;
using XRefExtensionPathPieceLayout = BCRecordLayout<
XREF_EXTENSION_PATH_PIECE,
ModuleIDField, // module ID
GenericSignatureIDField // for a constrained extension,
// the generic signature
>;
using XRefOperatorOrAccessorPathPieceLayout = BCRecordLayout<
XREF_OPERATOR_OR_ACCESSOR_PATH_PIECE,
IdentifierIDField, // name
AccessorKindField // accessor kind OR operator fixity
>;
static_assert(std::is_same<AccessorKindField, OperatorKindField>::value,
"accessor kinds and operator kinds are not compatible");
using XRefGenericParamPathPieceLayout = BCRecordLayout<
XREF_GENERIC_PARAM_PATH_PIECE,
BCVBR<5>, // depth
BCVBR<5> // index
>;
using SILGenNameDeclAttrLayout = BCRecordLayout<
SILGenName_DECL_ATTR,
BCFixed<1>, // implicit flag
BCBlob // _silgen_name
>;
using SectionDeclAttrLayout = BCRecordLayout<
Section_DECL_ATTR,
BCFixed<1>, // implicit flag
BCBlob // _section
>;
using CDeclDeclAttrLayout = BCRecordLayout<
CDecl_DECL_ATTR,
BCFixed<1>, // implicit flag
BCBlob // _silgen_name
>;
using ImplementsDeclAttrLayout = BCRecordLayout<
Implements_DECL_ATTR,
BCFixed<1>, // implicit flag
DeclContextIDField,// context decl
DeclIDField, // protocol
BCVBR<5>, // 0 for a simple name, otherwise the number of parameter name
// components plus one
BCArray<IdentifierIDField> // name components
>;
using SPIAccessControlDeclAttrLayout = BCRecordLayout<
SPIAccessControl_DECL_ATTR,
BCArray<IdentifierIDField> // SPI names
>;
using AlignmentDeclAttrLayout = BCRecordLayout<
Alignment_DECL_ATTR,
BCFixed<1>, // implicit flag
BCVBR<8> // alignment
>;
using RawLayoutDeclAttrLayout = BCRecordLayout<
RawLayout_DECL_ATTR,
BCFixed<1>, // implicit
TypeIDField, // like type
BCVBR<32>, // size
BCVBR<8>, // alignment
BCFixed<1> // movesAsLike
>;
using SwiftNativeObjCRuntimeBaseDeclAttrLayout = BCRecordLayout<
SwiftNativeObjCRuntimeBase_DECL_ATTR,
BCFixed<1>, // implicit flag
IdentifierIDField // name
>;
using MainTypeDeclAttrLayout = BCRecordLayout<
MainType_DECL_ATTR,
BCFixed<1> // implicit flag
>;
using SemanticsDeclAttrLayout = BCRecordLayout<
Semantics_DECL_ATTR,
BCFixed<1>, // implicit flag
BCBlob // semantics value
>;
using EffectsDeclAttrLayout = BCRecordLayout<
Effects_DECL_ATTR,
BCFixed<3>, // EffectKind
DeclIDField // Custom effect string or 0.
>;
using ForeignErrorConventionLayout = BCRecordLayout<
FOREIGN_ERROR_CONVENTION,
ForeignErrorConventionKindField, // kind
BCFixed<1>, // owned
BCFixed<1>, // replaced
BCVBR<4>, // error parameter index
TypeIDField, // error parameter type
TypeIDField // result type
>;
using ForeignAsyncConventionLayout = BCRecordLayout<
FOREIGN_ASYNC_CONVENTION,
TypeIDField, // completion handler type
BCVBR<4>, // completion handler parameter index
BCVBR<4>, // completion handler error parameter index (+1)
BCVBR<4>, // completion handler error flag parameter index (+1)
BCFixed<1> // completion handler error flag polarity
>;
using LifetimeDependenceLayout =
BCRecordLayout<LIFETIME_DEPENDENCE,
BCFixed<1>, // hasInheritLifetimeParamIndices
BCFixed<1>, // hasScopeLifetimeParamIndices
BCArray<BCFixed<1>> // concatenated param indices
>;
using AbstractClosureExprLayout = BCRecordLayout<
ABSTRACT_CLOSURE_EXPR_CONTEXT,
TypeIDField, // type
BCFixed<1>, // implicit
BCVBR<4>, // discriminator
DeclContextIDField // parent context decl
>;
using TopLevelCodeDeclContextLayout = BCRecordLayout<
TOP_LEVEL_CODE_DECL_CONTEXT,
DeclContextIDField // parent context decl
>;
using PatternBindingInitializerLayout = BCRecordLayout<
PATTERN_BINDING_INITIALIZER_CONTEXT,
DeclIDField, // parent pattern binding decl
BCVBR<3>, // binding index in the pattern binding decl
BCBlob // initializer text, if present
>;
using DefaultArgumentInitializerLayout = BCRecordLayout<
DEFAULT_ARGUMENT_INITIALIZER_CONTEXT,
DeclContextIDField, // parent context decl
BCVBR<3> // parameter index
>;
// Stub layouts, unused.
using ReferenceOwnershipDeclAttrLayout
= BCRecordLayout<ReferenceOwnership_DECL_ATTR>;
using RawDocCommentDeclAttrLayout = BCRecordLayout<RawDocComment_DECL_ATTR>;
using AccessControlDeclAttrLayout = BCRecordLayout<AccessControl_DECL_ATTR>;
using SetterAccessDeclAttrLayout = BCRecordLayout<SetterAccess_DECL_ATTR>;
using ObjCBridgedDeclAttrLayout = BCRecordLayout<ObjCBridged_DECL_ATTR>;
using SynthesizedProtocolDeclAttrLayout
= BCRecordLayout<SynthesizedProtocol_DECL_ATTR>;
using ObjCRuntimeNameDeclAttrLayout
= BCRecordLayout<ObjCRuntimeName_DECL_ATTR>;
using RestatedObjCConformanceDeclAttrLayout
= BCRecordLayout<RestatedObjCConformance_DECL_ATTR>;
using ClangImporterSynthesizedTypeDeclAttrLayout
= BCRecordLayout<ClangImporterSynthesizedType_DECL_ATTR>;
using PrivateImportDeclAttrLayout = BCRecordLayout<PrivateImport_DECL_ATTR>;
using AllowFeatureSuppressionDeclAttrLayout =
BCRecordLayout<AllowFeatureSuppression_DECL_ATTR>;
using ProjectedValuePropertyDeclAttrLayout = BCRecordLayout<
ProjectedValueProperty_DECL_ATTR,
BCFixed<1>, // isImplicit
IdentifierIDField // name
>;
using InlineDeclAttrLayout = BCRecordLayout<
Inline_DECL_ATTR,
BCFixed<2> // inline value
>;
using NonSendableDeclAttrLayout = BCRecordLayout<
NonSendable_DECL_ATTR,
BCFixed<1> // non-sendable kind
>;
using OptimizeDeclAttrLayout = BCRecordLayout<
Optimize_DECL_ATTR,
BCFixed<2> // optimize value
>;
using ExclusivityDeclAttrLayout = BCRecordLayout<
Optimize_DECL_ATTR,
BCFixed<2> // exclusivity mode
>;
using AvailableDeclAttrLayout = BCRecordLayout<
Available_DECL_ATTR,
BCFixed<1>, // implicit flag
BCFixed<1>, // is unconditionally unavailable?
BCFixed<1>, // is unconditionally deprecated?
BCFixed<1>, // is unavailable from async?
BCFixed<1>, // is this PackageDescription version-specific kind?
BCFixed<1>, // is SPI?
BC_AVAIL_TUPLE, // Introduced
BC_AVAIL_TUPLE, // Deprecated
BC_AVAIL_TUPLE, // Obsoleted
BCVBR<5>, // platform
DeclIDField, // rename declaration (if any)
BCVBR<5>, // number of bytes in message string
BCVBR<5>, // number of bytes in rename string
BCBlob // message, followed by rename
>;
using OriginallyDefinedInDeclAttrLayout = BCRecordLayout<
OriginallyDefinedIn_DECL_ATTR,
BCFixed<1>, // implicit flag
BC_AVAIL_TUPLE, // moved OS version
BCVBR<5>, // platform
BCBlob // original module name
>;
using ObjCDeclAttrLayout = BCRecordLayout<
ObjC_DECL_ATTR,
BCFixed<1>, // implicit flag
BCFixed<1>, // implicit name flag
BCVBR<4>, // # of arguments (+1) or zero if no name
BCArray<IdentifierIDField>
>;
using ObjCImplementationDeclAttrLayout = BCRecordLayout<
ObjCImplementation_DECL_ATTR,
BCFixed<1>, // implicit flag
BCFixed<1>, // category name invalid
BCFixed<1>, // is early adopter
IdentifierIDField // category name
>;
using SpecializeDeclAttrLayout = BCRecordLayout<
Specialize_DECL_ATTR,
BCFixed<1>, // exported flag
BCFixed<1>, // specialization kind
GenericSignatureIDField, // specialized signature
DeclIDField, // target function
BCVBR<4>, // # of arguments (+1) or 1 if simple decl name, 0 if no target
BCVBR<4>, // # of SPI groups
BCVBR<4>, // # of availability attributes
BCVBR<4>, // # of type erased parameters
BCArray<IdentifierIDField> // target function pieces, spi groups, type erased params
>;
using StorageRestrictionsDeclAttrLayout = BCRecordLayout<
StorageRestrictions_DECL_ATTR,
BCVBR<16>, // num "initializes" properties
BCArray<IdentifierIDField> // properties
>;
using DifferentiableDeclAttrLayout = BCRecordLayout<
Differentiable_DECL_ATTR,
BCFixed<1>, // Implicit flag.
DifferentiabilityKindField, // Differentiability kind.
GenericSignatureIDField, // Derivative generic signature.
BCArray<BCFixed<1>> // Differentiation parameter indices' bitvector.
>;
using DerivativeDeclAttrLayout = BCRecordLayout<
Derivative_DECL_ATTR,
BCFixed<1>, // Implicit flag.
IdentifierIDField, // Original name.
BCFixed<1>, // Has original accessor kind?
AccessorKindField, // Original accessor kind.
DeclIDField, // Original function declaration.
AutoDiffDerivativeFunctionKindField, // Derivative function kind.
BCArray<BCFixed<1>> // Differentiation parameter indices' bitvector.
>;
using TransposeDeclAttrLayout = BCRecordLayout<
Transpose_DECL_ATTR,
BCFixed<1>, // Implicit flag.
IdentifierIDField, // Original name.
DeclIDField, // Original function declaration.
BCArray<BCFixed<1>> // Transposed parameter indices' bitvector.
>;
#define SIMPLE_DECL_ATTR(X, CLASS, ...) \
using CLASS##DeclAttrLayout = BCRecordLayout< \
CLASS##_DECL_ATTR, \
BCFixed<1> /* implicit flag */ \
>;
#include "swift/AST/DeclAttr.def"
using DynamicReplacementDeclAttrLayout = BCRecordLayout<
DynamicReplacement_DECL_ATTR,
BCFixed<1>, // implicit flag
DeclIDField, // replaced function
BCVBR<4>, // # of arguments (+1) or zero if no name
BCArray<IdentifierIDField>
>;
using TypeEraserDeclAttrLayout = BCRecordLayout<
TypeEraser_DECL_ATTR,
BCFixed<1>, // implicit flag
TypeIDField // type eraser type
>;
using CustomDeclAttrLayout = BCRecordLayout<
Custom_DECL_ATTR,
BCFixed<1>, // implicit flag
TypeIDField, // type referenced by this custom attribute
BCFixed<1> // is the argument (unsafe)
>;
using UnavailableFromAsyncDeclAttrLayout = BCRecordLayout<
UnavailableFromAsync_DECL_ATTR,
BCFixed<1>, // Implicit flag
BCBlob // Message
>;
using BackDeployedDeclAttrLayout = BCRecordLayout<
BackDeployed_DECL_ATTR,
BCFixed<1>, // implicit flag
BC_AVAIL_TUPLE, // OS version
BCVBR<5> // platform
>;
using ExposeDeclAttrLayout = BCRecordLayout<Expose_DECL_ATTR,
BCFixed<1>, // exposure kind
BCFixed<1>, // implicit flag
BCBlob // declaration name
>;
using ExternDeclAttrLayout = BCRecordLayout<Extern_DECL_ATTR,
BCFixed<1>, // implicit flag
BCFixed<1>, // extern kind
BCVBR<4>, // number of bytes in module name
BCVBR<4>, // number of bytes in name
BCBlob // module name and declaration name
>;
using DocumentationDeclAttrLayout = BCRecordLayout<
Documentation_DECL_ATTR,
BCFixed<1>, // implicit flag
IdentifierIDField, // metadata text
BCFixed<1>, // has visibility
AccessLevelField // visibility
>;
using NonisolatedDeclAttrLayout =
BCRecordLayout<Nonisolated_DECL_ATTR,
BCFixed<1>, // is the argument (unsafe)
BCFixed<1> // implicit flag
>;
using MacroRoleDeclAttrLayout = BCRecordLayout<
MacroRole_DECL_ATTR,
BCFixed<1>, // implicit flag
BCFixed<1>, // macro syntax
MacroRoleField, // macro role
BCVBR<5>, // number of names
BCVBR<5>, // number of conformances
BCArray<IdentifierIDField> // introduced names, where each is encoded as
// - introduced kind
// - base name
// - # of argument labels + 1 (or 0 if none)
// - argument labels
// trialed by introduced conformances
>;
#undef SYNTAX_SUGAR_TYPE_LAYOUT
#undef TYPE_LAYOUT
#undef TYPE_LAYOUT_IMPL
}
/// Returns the encoding kind for the given decl.
///
/// Note that this does not work for all encodable decls, only those designed
/// to be stored in a hash table.
static inline decls_block::RecordKind getKindForTable(const Decl *D) {
using namespace decls_block;
switch (D->getKind()) {
case DeclKind::TypeAlias:
return decls_block::TYPE_ALIAS_DECL;
case DeclKind::Enum:
return decls_block::ENUM_DECL;
case DeclKind::Struct:
return decls_block::STRUCT_DECL;
case DeclKind::Class:
return decls_block::CLASS_DECL;
case DeclKind::Protocol:
return decls_block::PROTOCOL_DECL;
case DeclKind::Func:
return decls_block::FUNC_DECL;
case DeclKind::Var:
return decls_block::VAR_DECL;
case DeclKind::Param:
return decls_block::PARAM_DECL;
case DeclKind::Subscript:
return decls_block::SUBSCRIPT_DECL;
case DeclKind::Constructor:
return decls_block::CONSTRUCTOR_DECL;
case DeclKind::Destructor:
return decls_block::DESTRUCTOR_DECL;
case DeclKind::Macro:
return decls_block::MACRO_DECL;
default:
llvm_unreachable("cannot store this kind of decl in a hash table");
}
}
/// The record types within the identifier block.
///
/// \sa IDENTIFIER_BLOCK_ID
namespace identifier_block {
enum {
IDENTIFIER_DATA = 1
};
using IdentifierDataLayout = BCRecordLayout<IDENTIFIER_DATA, BCBlob>;
}
/// The record types within the index block.
///
/// \sa INDEX_BLOCK_ID
namespace index_block {
enum RecordKind {
TYPE_OFFSETS = 1,
DECL_OFFSETS,
IDENTIFIER_OFFSETS,
TOP_LEVEL_DECLS,
OPERATORS,
EXTENSIONS,
CLASS_MEMBERS_FOR_DYNAMIC_LOOKUP,
OPERATOR_METHODS,
/// The Objective-C method index, which contains a mapping from
/// Objective-C selectors to the methods/initializers/properties/etc. that
/// produce Objective-C methods.
OBJC_METHODS,
/// The derivative function configuration table, which maps original
/// function declaration names to derivative function configurations.
DERIVATIVE_FUNCTION_CONFIGURATIONS,
ENTRY_POINT,
LOCAL_DECL_CONTEXT_OFFSETS,
LOCAL_TYPE_DECLS,
OPAQUE_RETURN_TYPE_DECLS,
GENERIC_SIGNATURE_OFFSETS,
GENERIC_ENVIRONMENT_OFFSETS,
PROTOCOL_CONFORMANCE_OFFSETS,
PACK_CONFORMANCE_OFFSETS,
SIL_LAYOUT_OFFSETS,
PRECEDENCE_GROUPS,
NESTED_TYPE_DECLS,
DECL_MEMBER_NAMES,
DECL_FINGERPRINTS,
ORDERED_TOP_LEVEL_DECLS,
SUBSTITUTION_MAP_OFFSETS,
CLANG_TYPE_OFFSETS,
EXPORTED_PRESPECIALIZATION_DECLS,
LastRecordKind = EXPORTED_PRESPECIALIZATION_DECLS,
};
constexpr const unsigned RecordIDFieldWidth = 5;
static_assert(LastRecordKind < (1 << RecordIDFieldWidth),
"not enough bits for all record kinds");
using RecordIDField = BCFixed<RecordIDFieldWidth>;
using OffsetsLayout = BCGenericRecordLayout<
RecordIDField, // record ID
BCArray<BitOffsetField>
>;
using DeclListLayout = BCGenericRecordLayout<
RecordIDField, // record ID
BCVBR<16>, // table offset within the blob (see below)
BCBlob // map from identifier strings to decl kinds / decl IDs
>;
using GroupNamesLayout = BCGenericRecordLayout<
RecordIDField, // record ID
BCBlob // actual names
>;
using ExtensionTableLayout = BCRecordLayout<
EXTENSIONS, // record ID
BCVBR<16>, // table offset within the blob (see below)
BCBlob // map from identifier strings to decl kinds / decl IDs
>;
using ObjCMethodTableLayout = BCRecordLayout<
OBJC_METHODS, // record ID
BCVBR<16>, // table offset within the blob (see below)
BCBlob // map from Objective-C selectors to methods with that selector
>;
using NestedTypeDeclsLayout = BCRecordLayout<
NESTED_TYPE_DECLS, // record ID
BCVBR<16>, // table offset within the blob (see below)
BCBlob // map from identifier strings to decl kinds / decl IDs
>;
using DeclMemberNamesLayout = BCRecordLayout<
DECL_MEMBER_NAMES, // record ID
BCVBR<16>, // table offset within the blob (see below)
BCBlob // map from member DeclBaseNames to offsets of DECL_MEMBERS records
>;
using DerivativeFunctionConfigTableLayout = BCRecordLayout<
DERIVATIVE_FUNCTION_CONFIGURATIONS, // record ID
BCVBR<16>, // table offset within the blob (see below)
BCBlob // map from original declaration names to derivative configs
>;
using EntryPointLayout = BCRecordLayout<
ENTRY_POINT,
DeclIDField // the ID of the main class; 0 if there was a main source file
>;
using OrderedDeclsLayout = BCGenericRecordLayout<
RecordIDField, // record ID
BCArray<DeclIDField> // list of decls by ID
>;
using DeclFingerprintsLayout = BCRecordLayout<
DECL_FINGERPRINTS, // record ID
BCVBR<16>, // table offset within the blob (see below)
BCBlob // map from member DeclIDs to strings
>;
}
/// \sa DECL_MEMBER_TABLES_BLOCK_ID
namespace decl_member_tables_block {
enum RecordKind {
DECL_MEMBERS = 1,
};
using DeclMembersLayout = BCRecordLayout<
DECL_MEMBERS, // record ID
BCVBR<16>, // table offset within the blob (see below)
BCBlob // maps from DeclIDs to DeclID vectors
>;
}
} // end namespace serialization
} // end namespace swift
#endif
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