/usr/include/kj/arena.h is in libcapnp-dev 0.5.3-2ubuntu1.1.
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// Licensed under the MIT License:
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
#ifndef KJ_ARENA_H_
#define KJ_ARENA_H_
#if defined(__GNUC__) && !KJ_HEADER_WARNINGS
#pragma GCC system_header
#endif
#include "memory.h"
#include "array.h"
#include "string.h"
namespace kj {
class Arena {
// A class which allows several objects to be allocated in contiguous chunks of memory, then
// frees them all at once.
//
// Allocating from the same Arena in multiple threads concurrently is NOT safe, because making
// it safe would require atomic operations that would slow down allocation even when
// single-threaded. If you need to use arena allocation in a multithreaded context, consider
// allocating thread-local arenas.
public:
explicit Arena(size_t chunkSizeHint = 1024);
// Create an Arena. `chunkSizeHint` hints at where to start when allocating chunks, but is only
// a hint -- the Arena will, for example, allocate progressively larger chunks as time goes on,
// in order to reduce overall allocation overhead.
explicit Arena(ArrayPtr<byte> scratch);
// Allocates from the given scratch space first, only resorting to the heap when it runs out.
KJ_DISALLOW_COPY(Arena);
~Arena() noexcept(false);
template <typename T, typename... Params>
T& allocate(Params&&... params);
template <typename T>
ArrayPtr<T> allocateArray(size_t size);
// Allocate an object or array of type T. If T has a non-trivial destructor, that destructor
// will be run during the Arena's destructor. Such destructors are run in opposite order of
// allocation. Note that these methods must maintain a list of destructors to call, which has
// overhead, but this overhead only applies if T has a non-trivial destructor.
template <typename T, typename... Params>
Own<T> allocateOwn(Params&&... params);
template <typename T>
Array<T> allocateOwnArray(size_t size);
template <typename T>
ArrayBuilder<T> allocateOwnArrayBuilder(size_t capacity);
// Allocate an object or array of type T. Destructors are executed when the returned Own<T>
// or Array<T> goes out-of-scope, which must happen before the Arena is destroyed. This variant
// is useful when you need to control when the destructor is called. This variant also avoids
// the need for the Arena itself to keep track of destructors to call later, which may make it
// slightly more efficient.
template <typename T>
inline T& copy(T&& value) { return allocate<Decay<T>>(kj::fwd<T>(value)); }
// Allocate a copy of the given value in the arena. This is just a shortcut for calling the
// type's copy (or move) constructor.
StringPtr copyString(StringPtr content);
// Make a copy of the given string inside the arena, and return a pointer to the copy.
private:
struct ChunkHeader {
ChunkHeader* next;
byte* pos; // first unallocated byte in this chunk
byte* end; // end of this chunk
};
struct ObjectHeader {
void (*destructor)(void*);
ObjectHeader* next;
};
size_t nextChunkSize;
ChunkHeader* chunkList = nullptr;
ObjectHeader* objectList = nullptr;
ChunkHeader* currentChunk = nullptr;
void cleanup();
// Run all destructors, leaving the above pointers null. If a destructor throws, the State is
// left in a consistent state, such that if cleanup() is called again, it will pick up where
// it left off.
void* allocateBytes(size_t amount, uint alignment, bool hasDisposer);
// Allocate the given number of bytes. `hasDisposer` must be true if `setDisposer()` may be
// called on this pointer later.
void* allocateBytesInternal(size_t amount, uint alignment);
// Try to allocate the given number of bytes without taking a lock. Fails if and only if there
// is no space left in the current chunk.
void setDestructor(void* ptr, void (*destructor)(void*));
// Schedule the given destructor to be executed when the Arena is destroyed. `ptr` must be a
// pointer previously returned by an `allocateBytes()` call for which `hasDisposer` was true.
template <typename T>
static void destroyArray(void* pointer) {
size_t elementCount = *reinterpret_cast<size_t*>(pointer);
constexpr size_t prefixSize = kj::max(alignof(T), sizeof(size_t));
DestructorOnlyArrayDisposer::instance.disposeImpl(
reinterpret_cast<byte*>(pointer) + prefixSize,
sizeof(T), elementCount, elementCount, &destroyObject<T>);
}
template <typename T>
static void destroyObject(void* pointer) {
dtor(*reinterpret_cast<T*>(pointer));
}
};
// =======================================================================================
// Inline implementation details
template <typename T, typename... Params>
T& Arena::allocate(Params&&... params) {
T& result = *reinterpret_cast<T*>(allocateBytes(
sizeof(T), alignof(T), !__has_trivial_destructor(T)));
if (!__has_trivial_constructor(T) || sizeof...(Params) > 0) {
ctor(result, kj::fwd<Params>(params)...);
}
if (!__has_trivial_destructor(T)) {
setDestructor(&result, &destroyObject<T>);
}
return result;
}
template <typename T>
ArrayPtr<T> Arena::allocateArray(size_t size) {
if (__has_trivial_destructor(T)) {
ArrayPtr<T> result =
arrayPtr(reinterpret_cast<T*>(allocateBytes(
sizeof(T) * size, alignof(T), false)), size);
if (!__has_trivial_constructor(T)) {
for (size_t i = 0; i < size; i++) {
ctor(result[i]);
}
}
return result;
} else {
// Allocate with a 64-bit prefix in which we store the array size.
constexpr size_t prefixSize = kj::max(alignof(T), sizeof(size_t));
void* base = allocateBytes(sizeof(T) * size + prefixSize, alignof(T), true);
size_t& tag = *reinterpret_cast<size_t*>(base);
ArrayPtr<T> result =
arrayPtr(reinterpret_cast<T*>(reinterpret_cast<byte*>(base) + prefixSize), size);
setDestructor(base, &destroyArray<T>);
if (__has_trivial_constructor(T)) {
tag = size;
} else {
// In case of constructor exceptions, we need the tag to end up storing the number of objects
// that were successfully constructed, so that they'll be properly destroyed.
tag = 0;
for (size_t i = 0; i < size; i++) {
ctor(result[i]);
tag = i + 1;
}
}
return result;
}
}
template <typename T, typename... Params>
Own<T> Arena::allocateOwn(Params&&... params) {
T& result = *reinterpret_cast<T*>(allocateBytes(sizeof(T), alignof(T), false));
if (!__has_trivial_constructor(T) || sizeof...(Params) > 0) {
ctor(result, kj::fwd<Params>(params)...);
}
return Own<T>(&result, DestructorOnlyDisposer<T>::instance);
}
template <typename T>
Array<T> Arena::allocateOwnArray(size_t size) {
ArrayBuilder<T> result = allocateOwnArrayBuilder<T>(size);
for (size_t i = 0; i < size; i++) {
result.add();
}
return result.finish();
}
template <typename T>
ArrayBuilder<T> Arena::allocateOwnArrayBuilder(size_t capacity) {
return ArrayBuilder<T>(
reinterpret_cast<T*>(allocateBytes(sizeof(T) * capacity, alignof(T), false)),
capacity, DestructorOnlyArrayDisposer::instance);
}
} // namespace kj
#endif // KJ_ARENA_H_
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