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swift-mirror/stdlib/public/runtime/AnyHashableSupport.cpp
Egor Zhdan 84a1ffcb33 [Shims] Include SwiftShims headers without ../ 
This replaces a number of `#include`-s like this:
```
#include "../../../stdlib/public/SwiftShims/Visibility.h"
```
with this:
```
#include "swift/shims/Visibility.h"
```

This is needed to allow SwiftCompilerSources to use C++ headers which include SwiftShims headers. Currently trying to do that results in errors:
```
swift/swift/include/swift/Demangling/../../../stdlib/public/SwiftShims/module.modulemap:1:8: error: redefinition of module 'SwiftShims'
module SwiftShims {
       ^
Builds.noindex/swift/swift/bootstrapping0/lib/swift/shims/module.modulemap:1:8: note: previously defined here
module SwiftShims {
       ^
```
This happens because the headers in both the source dir and the build dir refer to SwiftShims headers by relative path, and both the source root and the build root contain SwiftShims headers (which are equivalent, but since they are located in different dirs, Clang treats them as different modules).
2022-09-14 11:14:50 +01:00

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//===----------------------------------------------------------------------===//
//
// 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 "Private.h"
#include "SwiftHashableSupport.h"
#include "SwiftValue.h"
#include "swift/Basic/Lazy.h"
#include "swift/Runtime/Casting.h"
#include "swift/Runtime/Concurrent.h"
#include "swift/Runtime/Config.h"
#include "swift/Runtime/Debug.h"
#include "swift/Runtime/HeapObject.h"
#include "swift/shims/Visibility.h"
#include <new>
using namespace swift;
using namespace swift::hashable_support;
namespace {
struct HashableConformanceKey {
/// The lookup key, the metadata of a type that is possibly derived
/// from a type that conforms to `Hashable`.
const Metadata *derivedType;
friend llvm::hash_code hash_value(const HashableConformanceKey &key) {
return llvm::hash_value(key.derivedType);
}
};
struct HashableConformanceEntry {
/// The lookup key, the metadata of a type that is possibly derived
/// from a type that conforms to `Hashable`.
const Metadata *derivedType;
/// The highest (closest to the root) type in the superclass chain
/// that conforms to `Hashable`.
///
/// Always non-NULL. We don't cache negative responses so that we
/// don't have to deal with cache invalidation.
const Metadata *baseTypeThatConformsToHashable;
HashableConformanceEntry(HashableConformanceKey key,
const Metadata *baseTypeThatConformsToHashable)
: derivedType(key.derivedType),
baseTypeThatConformsToHashable(baseTypeThatConformsToHashable) {}
bool matchesKey(const HashableConformanceKey &key) {
return derivedType == key.derivedType;
}
friend llvm::hash_code hash_value(const HashableConformanceEntry &value) {
return hash_value(HashableConformanceKey{value.derivedType});
}
static size_t
getExtraAllocationSize(HashableConformanceKey key,
const Metadata *baseTypeThatConformsToHashable) {
return 0;
}
size_t getExtraAllocationSize() const {
return 0;
}
};
} // end unnamed namespace
// FIXME(performance): consider merging this cache into the regular
// protocol conformance cache.
static ConcurrentReadableHashMap<HashableConformanceEntry> HashableConformances;
template <bool KnownToConformToHashable>
SWIFT_ALWAYS_INLINE static const Metadata *
findHashableBaseTypeImpl(const Metadata *type) {
// Check the cache first.
{
auto snapshot = HashableConformances.snapshot();
if (const HashableConformanceEntry *entry =
snapshot.find(HashableConformanceKey{type})) {
return entry->baseTypeThatConformsToHashable;
}
}
auto witnessTable =
swift_conformsToProtocol(type, &HashableProtocolDescriptor);
if (!KnownToConformToHashable && !witnessTable) {
// Don't cache the negative response because we don't invalidate
// this cache when a new conformance is loaded dynamically.
return nullptr;
}
// By this point, `type` is known to conform to `Hashable`.
const auto *conformance = witnessTable->getDescription();
const Metadata *baseTypeThatConformsToHashable =
findConformingSuperclass(type, conformance);
HashableConformanceKey key{type};
HashableConformances.getOrInsert(key, [&](HashableConformanceEntry *entry,
bool created) {
if (created)
::new (entry) HashableConformanceEntry(key, baseTypeThatConformsToHashable);
return true; // Keep the new entry.
});
return baseTypeThatConformsToHashable;
}
/// Find the base type that introduces the `Hashable` conformance.
/// Because the provided type is known to conform to `Hashable`, this
/// function always returns non-null.
///
/// - Precondition: `type` conforms to `Hashable` (not checked).
const Metadata *swift::hashable_support::findHashableBaseTypeOfHashableType(
const Metadata *type) {
auto result =
findHashableBaseTypeImpl</*KnownToConformToHashable=*/ true>(type);
assert(result && "Known-hashable types should have a `Hashable` conformance.");
return result;
}
/// Find the base type that introduces the `Hashable` conformance.
/// If `type` does not conform to `Hashable`, `nullptr` is returned.
const Metadata *swift::hashable_support::findHashableBaseType(
const Metadata *type) {
return findHashableBaseTypeImpl</*KnownToConformToHashable=*/ false>(type);
}
// internal func _makeAnyHashableUsingDefaultRepresentation<H : Hashable>(
// of value: H,
// storingResultInto result: UnsafeMutablePointer<AnyHashable>)
SWIFT_CC(swift) SWIFT_RUNTIME_STDLIB_INTERNAL
void _swift_makeAnyHashableUsingDefaultRepresentation(
const OpaqueValue *value,
const void *anyHashableResultPointer,
const Metadata *T,
const WitnessTable *hashableWT
);
// public func _makeAnyHashableUpcastingToHashableBaseType<H : Hashable>(
// _ value: H,
// storingResultInto result: UnsafeMutablePointer<AnyHashable>)
SWIFT_CC(swift) SWIFT_RUNTIME_STDLIB_SPI
void _swift_makeAnyHashableUpcastingToHashableBaseType(
OpaqueValue *value,
const void *anyHashableResultPointer,
const Metadata *type,
const WitnessTable *hashableWT
) {
switch (type->getKind()) {
case MetadataKind::Class:
case MetadataKind::ObjCClassWrapper:
case MetadataKind::ForeignClass:
case MetadataKind::ForeignReferenceType: {
#if SWIFT_OBJC_INTEROP
id srcObject;
memcpy(&srcObject, value, sizeof(id));
// Do we have a __SwiftValue?
if (__SwiftValue *srcSwiftValue = getAsSwiftValue(srcObject)) {
// If so, extract the boxed value and try to cast it.
const Metadata *unboxedType;
const OpaqueValue *unboxedValue;
std::tie(unboxedType, unboxedValue) =
getValueFromSwiftValue(srcSwiftValue);
if (auto unboxedHashableWT =
swift_conformsToProtocol(unboxedType, &HashableProtocolDescriptor)) {
_swift_makeAnyHashableUpcastingToHashableBaseType(
const_cast<OpaqueValue *>(unboxedValue), anyHashableResultPointer,
unboxedType, unboxedHashableWT);
return;
}
}
#endif
_swift_makeAnyHashableUsingDefaultRepresentation(
value, anyHashableResultPointer,
findHashableBaseTypeOfHashableType(type),
hashableWT);
return;
}
default:
_swift_makeAnyHashableUsingDefaultRepresentation(
value, anyHashableResultPointer, type, hashableWT);
return;
}
}
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