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fuchsia / third_party / swift / refs/heads/upstream/upstream/vfs_glibc / . / lib / IRGen / ProtocolInfo.h
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//===--- ProtocolInfo.h - Abstract protocol witness layout ------*- 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 defines types for representing the abstract layout of a
// protocol.
//
//===----------------------------------------------------------------------===//
#ifndef SWIFT_IRGEN_PROTOCOLINFO_H
#define SWIFT_IRGEN_PROTOCOLINFO_H
#include "swift/AST/Decl.h"
#include "swift/AST/ProtocolAssociations.h"
#include "swift/IRGen/ValueWitness.h"
#include "WitnessIndex.h"
#include "llvm/ADT/DenseMap.h"
#include "llvm/ADT/ArrayRef.h"
#include "llvm/Support/TrailingObjects.h"
namespace swift {
class CanType;
class Decl;
class ProtocolConformance;
class ProtocolDecl;
namespace irgen {
class ConformanceInfo; // private to GenProto.cpp
class IRGenModule;
class TypeInfo;
/// A witness to a specific element of a protocol. Every
/// ProtocolTypeInfo stores one of these for each requirement
/// introduced by the protocol.
class WitnessTableEntry {
public:
void *MemberOrAssociatedType;
ProtocolDecl *Protocol;
WitnessTableEntry(void *member, ProtocolDecl *protocol)
: MemberOrAssociatedType(member), Protocol(protocol) {}
public:
WitnessTableEntry() = default;
static WitnessTableEntry forOutOfLineBase(ProtocolDecl *proto) {
assert(proto != nullptr);
return WitnessTableEntry(nullptr, proto);
}
/// Is this a base-protocol entry?
bool isBase() const { return MemberOrAssociatedType == nullptr; }
bool matchesBase(ProtocolDecl *proto) const {
assert(proto != nullptr);
return MemberOrAssociatedType == nullptr && Protocol == proto;
}
/// Given that this is a base-protocol entry, is the table
/// "out of line"?
bool isOutOfLineBase() const {
assert(isBase());
return true;
}
ProtocolDecl *getBase() const {
assert(isBase());
return Protocol;
}
static WitnessTableEntry forFunction(AbstractFunctionDecl *func) {
assert(func != nullptr);
return WitnessTableEntry(func, nullptr);
}
bool isFunction() const {
return Protocol == nullptr &&
isa<AbstractFunctionDecl>(
static_cast<Decl*>(MemberOrAssociatedType));
}
bool matchesFunction(AbstractFunctionDecl *func) const {
assert(func != nullptr);
return MemberOrAssociatedType == func && Protocol == nullptr;
}
AbstractFunctionDecl *getFunction() const {
assert(isFunction());
return static_cast<AbstractFunctionDecl*>(MemberOrAssociatedType);
}
static WitnessTableEntry forAssociatedType(AssociatedType ty) {
return WitnessTableEntry(ty.getAssociation(), nullptr);
}
bool isAssociatedType() const {
return Protocol == nullptr &&
isa<AssociatedTypeDecl>(
static_cast<Decl*>(MemberOrAssociatedType));
}
bool matchesAssociatedType(AssociatedType assocType) const {
return MemberOrAssociatedType == assocType.getAssociation() &&
Protocol == nullptr;
}
AssociatedTypeDecl *getAssociatedType() const {
assert(isAssociatedType());
return static_cast<AssociatedTypeDecl*>(MemberOrAssociatedType);
}
static WitnessTableEntry forAssociatedConformance(AssociatedConformance conf){
return WitnessTableEntry(conf.getAssociation().getPointer(),
conf.getAssociatedRequirement());
}
bool isAssociatedConformance() const {
return Protocol != nullptr && MemberOrAssociatedType != nullptr;
}
bool matchesAssociatedConformance(const AssociatedConformance &conf) const {
return MemberOrAssociatedType == conf.getAssociation().getPointer() &&
Protocol == conf.getAssociatedRequirement();
}
CanType getAssociatedConformancePath() const {
assert(isAssociatedConformance());
return CanType(static_cast<TypeBase *>(MemberOrAssociatedType));
}
ProtocolDecl *getAssociatedConformanceRequirement() const {
assert(isAssociatedConformance());
return Protocol;
}
};
/// An abstract description of a protocol.
class ProtocolInfo final :
private llvm::TrailingObjects<ProtocolInfo, WitnessTableEntry> {
friend TrailingObjects;
/// A singly-linked-list of all the protocols that have been laid out.
const ProtocolInfo *NextConverted;
friend class TypeConverter;
/// The number of table entries in this protocol layout.
unsigned NumTableEntries;
/// A table of all the conformances we've needed so far for this
/// protocol. We expect this to be quite small for most protocols.
mutable llvm::SmallDenseMap<const ProtocolConformance*, ConformanceInfo*, 2>
Conformances;
ProtocolInfo(ArrayRef<WitnessTableEntry> table)
: NumTableEntries(table.size()) {
std::uninitialized_copy(table.begin(), table.end(),
getTrailingObjects<WitnessTableEntry>());
}
static ProtocolInfo *create(ArrayRef<WitnessTableEntry> table);
public:
const ConformanceInfo &getConformance(IRGenModule &IGM,
ProtocolDecl *protocol,
const ProtocolConformance *conf) const;
/// The number of witness slots in a conformance to this protocol;
/// in other words, the size of the table in words.
unsigned getNumWitnesses() const {
return NumTableEntries;
}
/// Return all of the entries in this protocol witness table.
///
/// The addresses of the entries in this array can be passed to
/// getBaseWitnessIndex/getNonBaseWitnessIndex, below.
ArrayRef<WitnessTableEntry> getWitnessEntries() const {
return {getTrailingObjects<WitnessTableEntry>(), NumTableEntries};
}
/// Given the address of a witness entry from this PI for a base protocol
/// conformance, return its witness index.
WitnessIndex getBaseWitnessIndex(const WitnessTableEntry *witness) const {
assert(witness && witness->isBase());
auto entries = getWitnessEntries();
assert(entries.begin() <= witness && witness < entries.end() &&
"argument witness entry does not belong to this ProtocolInfo");
if (witness->isOutOfLineBase()) {
return WitnessIndex(witness - entries.begin(), false);
} else {
return WitnessIndex(0, true);
}
}
/// Given the address of a witness entry from this PI for a non-base
/// witness, return its witness index.
WitnessIndex getNonBaseWitnessIndex(const WitnessTableEntry *witness) const {
assert(witness && !witness->isBase());
auto entries = getWitnessEntries();
assert(entries.begin() <= witness && witness < entries.end());
return WitnessIndex(witness - entries.begin(), false);
}
/// Return the witness index for the protocol conformance pointer
/// for the given base protocol requirement.
WitnessIndex getBaseIndex(ProtocolDecl *protocol) const {
for (auto &witness : getWitnessEntries()) {
if (witness.matchesBase(protocol))
return getBaseWitnessIndex(&witness);
}
llvm_unreachable("didn't find entry for base");
}
/// Return the witness index for the witness function for the given
/// function requirement.
WitnessIndex getFunctionIndex(AbstractFunctionDecl *function) const {
for (auto &witness : getWitnessEntries()) {
if (witness.matchesFunction(function))
return getNonBaseWitnessIndex(&witness);
}
llvm_unreachable("didn't find entry for function");
}
/// Return the witness index for the type metadata access function
/// for the given associated type.
WitnessIndex getAssociatedTypeIndex(AssociatedType assocType) const {
for (auto &witness : getWitnessEntries()) {
if (witness.matchesAssociatedType(assocType))
return getNonBaseWitnessIndex(&witness);
}
llvm_unreachable("didn't find entry for associated type");
}
/// Return the witness index for the protocol witness table access
/// function for the given associated protocol conformance.
WitnessIndex
getAssociatedConformanceIndex(const AssociatedConformance &conf) const {
for (auto &witness : getWitnessEntries()) {
if (witness.matchesAssociatedConformance(conf))
return getNonBaseWitnessIndex(&witness);
}
llvm_unreachable("didn't find entry for associated conformance");
}
~ProtocolInfo();
};
} // end namespace irgen
} // end namespace swift
#endif