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serenity/AK/Forward.h
Gunnar Beutner fcaf98361f AK: Turn ByteBuffer into a value type 
Previously ByteBuffer would internally hold a RefPtr to the byte
buffer and would behave like a reference type, i.e. copying a
ByteBuffer would not create a duplicate byte buffer, but rather
two objects which refer to the same internal buffer.

This also changes ByteBuffer so that it has some internal capacity
much like the Vector<T> type. Unlike Vector<T> however a byte
buffer's data may be uninitialized.

With this commit ByteBuffer makes use of the kmalloc_good_size()
API to pick an optimal allocation size for its internal buffer.
2021-05-16 17:49:42 +02:00

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/*
* Copyright (c) 2020, Andreas Kling <kling@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#pragma once
#include <AK/Types.h>
namespace AK {
namespace Detail {
template<size_t inline_capacity>
class ByteBuffer;
}
class Bitmap;
using ByteBuffer = AK::Detail::ByteBuffer<32>;
class IPv4Address;
class JsonArray;
class JsonObject;
class JsonValue;
class StackInfo;
class String;
class StringBuilder;
class StringImpl;
class StringView;
class Time;
class URL;
class FlyString;
class Utf32View;
class Utf8View;
class InputStream;
class InputMemoryStream;
class DuplexMemoryStream;
class OutputStream;
class InputBitStream;
class OutputBitStream;
class OutputMemoryStream;
template<size_t Capacity>
class CircularDuplexStream;
template<typename T>
class Span;
template<typename T, size_t Size>
struct Array;
template<typename Container, typename ValueType>
class SimpleIterator;
using ReadonlyBytes = Span<const u8>;
using Bytes = Span<u8>;
template<typename T, AK::MemoryOrder DefaultMemoryOrder>
class Atomic;
template<typename T>
class SinglyLinkedList;
template<typename T>
class DoublyLinkedList;
template<typename T>
class InlineLinkedList;
template<typename T, size_t capacity>
class CircularQueue;
template<typename T>
struct Traits;
template<typename T, typename = Traits<T>>
class HashTable;
template<typename K, typename V, typename = Traits<K>>
class HashMap;
template<typename T>
class Badge;
template<typename>
class Function;
template<typename Out, typename... In>
class Function<Out(In...)>;
template<typename T>
class NonnullRefPtr;
template<typename T>
class NonnullOwnPtr;
template<typename T, size_t inline_capacity = 0>
class NonnullRefPtrVector;
template<typename T, size_t inline_capacity = 0>
class NonnullOwnPtrVector;
template<typename T>
class Optional;
template<typename T>
struct RefPtrTraits;
template<typename T, typename PtrTraits = RefPtrTraits<T>>
class RefPtr;
template<typename T>
class OwnPtr;
template<typename T>
class WeakPtr;
template<typename T, size_t inline_capacity = 0>
class Vector;
}
using AK::Array;
using AK::Atomic;
using AK::Badge;
using AK::Bitmap;
using AK::ByteBuffer;
using AK::Bytes;
using AK::CircularDuplexStream;
using AK::CircularQueue;
using AK::DoublyLinkedList;
using AK::DuplexMemoryStream;
using AK::FlyString;
using AK::Function;
using AK::HashMap;
using AK::HashTable;
using AK::InlineLinkedList;
using AK::InputBitStream;
using AK::InputMemoryStream;
using AK::InputStream;
using AK::IPv4Address;
using AK::JsonArray;
using AK::JsonObject;
using AK::JsonValue;
using AK::NonnullOwnPtr;
using AK::NonnullOwnPtrVector;
using AK::NonnullRefPtr;
using AK::NonnullRefPtrVector;
using AK::Optional;
using AK::OutputBitStream;
using AK::OutputMemoryStream;
using AK::OutputStream;
using AK::OwnPtr;
using AK::ReadonlyBytes;
using AK::RefPtr;
using AK::SinglyLinkedList;
using AK::Span;
using AK::StackInfo;
using AK::String;
using AK::StringBuilder;
using AK::StringImpl;
using AK::StringView;
using AK::Time;
using AK::Traits;
using AK::URL;
using AK::Utf32View;
using AK::Utf8View;
using AK::Vector;
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