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swift-mirror/stdlib/public/stubs/GlobalObjects.cpp
Mike Ash fa5888fb3f [Stdlib][Overlays] Rename various classes to avoid conflicting ObjC names. 
Old Swift and new Swift runtimes and overlays need to coexist in the same process. This means there must not be any classes which have the same ObjC runtime name in old and new, because the ObjC runtime doesn't like name collisions.

When possible without breaking source compatibility, classes were renamed in Swift, which results in a different ObjC name.

Public classes were renamed only on the ObjC side using the @_objcRuntimeName attribute.

This is similar to the work done in pull request #19295. That only renamed @objc classes. This renames all of the others, since even pure Swift classes still get an ObjC name.

rdar://problem/46646438
2019-01-15 12:21:20 -05:00

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//===--- GlobalObjects.cpp - Statically-initialized objects ---------------===//
//
// 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
//
//===----------------------------------------------------------------------===//
//
// Objects that are allocated at global scope instead of on the heap,
// and statically initialized to avoid synchronization costs, are
// defined here.
//
//===----------------------------------------------------------------------===//
#include "../SwiftShims/GlobalObjects.h"
#include "../SwiftShims/Random.h"
#include "swift/Runtime/Metadata.h"
#include "swift/Runtime/Debug.h"
#include <stdlib.h>
namespace swift {
// FIXME(ABI)#76 : does this declaration need SWIFT_RUNTIME_STDLIB_API?
// _direct type metadata for Swift.__EmptyArrayStorage
SWIFT_RUNTIME_STDLIB_API
ClassMetadata CLASS_METADATA_SYM(s19__EmptyArrayStorage);
// _direct type metadata for Swift.__EmptyDictionarySingleton
SWIFT_RUNTIME_STDLIB_API
ClassMetadata CLASS_METADATA_SYM(s26__EmptyDictionarySingleton);
// _direct type metadata for Swift.__EmptySetSingleton
SWIFT_RUNTIME_STDLIB_API
ClassMetadata CLASS_METADATA_SYM(s19__EmptySetSingleton);
} // namespace swift
SWIFT_RUNTIME_STDLIB_API
swift::_SwiftEmptyArrayStorage swift::_swiftEmptyArrayStorage = {
// HeapObject header;
{
&swift::CLASS_METADATA_SYM(s19__EmptyArrayStorage), // isa pointer
},
// _SwiftArrayBodyStorage body;
{
0, // int count;
1 // unsigned int _capacityAndFlags; 1 means elementTypeIsBridgedVerbatim
}
};
SWIFT_RUNTIME_STDLIB_API
swift::_SwiftEmptyDictionarySingleton swift::_swiftEmptyDictionarySingleton = {
// HeapObject header;
{
&swift::CLASS_METADATA_SYM(s26__EmptyDictionarySingleton), // isa pointer
},
// _SwiftDictionaryBodyStorage body;
{
// Setting the scale to 0 makes for a bucketCount of 1 -- so that the
// storage consists of a single unoccupied bucket. The capacity is set to
// 0 so that any insertion will lead to real storage being allocated.
0, // int count;
0, // int capacity;
0, // int8 scale;
0, // int8 reservedScale;
0, // int16 extra;
0, // int32 age;
0, // int seed;
(void *)1, // void* keys; (non-null garbage)
(void *)1 // void* values; (non-null garbage)
},
// bucket 0 is unoccupied; other buckets are out-of-bounds
static_cast<__swift_uintptr_t>(~1) // int metadata;
};
SWIFT_RUNTIME_STDLIB_API
swift::_SwiftEmptySetSingleton swift::_swiftEmptySetSingleton = {
// HeapObject header;
{
&swift::CLASS_METADATA_SYM(s19__EmptySetSingleton), // isa pointer
},
// _SwiftSetBodyStorage body;
{
// Setting the scale to 0 makes for a bucketCount of 1 -- so that the
// storage consists of a single unoccupied bucket. The capacity is set to
// 0 so that any insertion will lead to real storage being allocated.
0, // int count;
0, // int capacity;
0, // int8 scale;
0, // int8 reservedScale;
0, // int16 extra;
0, // int32 age;
0, // int seed;
(void *)1, // void *rawElements; (non-null garbage)
},
// bucket 0 is unoccupied; other buckets are out-of-bounds
static_cast<__swift_uintptr_t>(~1) // int metadata;
};
static swift::_SwiftHashingParameters initializeHashingParameters() {
// Setting the environment variable SWIFT_DETERMINISTIC_HASHING to "1"
// disables randomized hash seeding. This is useful in cases we need to ensure
// results are repeatable, e.g., in certain test environments. (Note that
// even if the seed override is enabled, hash values aren't guaranteed to
// remain stable across even minor stdlib releases.)
auto determinism = getenv("SWIFT_DETERMINISTIC_HASHING");
if (determinism && 0 == strcmp(determinism, "1")) {
return { 0, 0, true };
}
__swift_uint64_t seed0 = 0, seed1 = 0;
swift::swift_stdlib_random(&seed0, sizeof(seed0));
swift::swift_stdlib_random(&seed1, sizeof(seed1));
return { seed0, seed1, false };
}
SWIFT_ALLOWED_RUNTIME_GLOBAL_CTOR_BEGIN
swift::_SwiftHashingParameters swift::_swift_stdlib_Hashing_parameters =
initializeHashingParameters();
SWIFT_ALLOWED_RUNTIME_GLOBAL_CTOR_END
SWIFT_RUNTIME_STDLIB_API
void swift::_swift_instantiateInertHeapObject(void *address,
const HeapMetadata *metadata) {
::new (address) HeapObject{metadata};
}
namespace llvm { namespace hashing { namespace detail {
// An extern variable expected by LLVM's hashing templates. We don't link any
// LLVM libs into the runtime, so define it as a weak symbol.
//
// Systems that compile this code into a dynamic library will do so with
// hidden visibility, making this all internal to the dynamic library.
// Systems that statically link the Swift runtime into applications (e.g. on
// Linux) need this to handle the case when the app already uses LLVM.
uint64_t LLVM_ATTRIBUTE_WEAK fixed_seed_override = 0;
} // namespace detail
} // namespace hashing
} // namespace llvm
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