mirror of
https://github.com/mozilla/gecko-dev.git
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7cb8ed130b
Differential Revision: https://phabricator.services.mozilla.com/D197748
316 lines
9.6 KiB
C++
316 lines
9.6 KiB
C++
/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
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/* vim: set ts=8 sts=2 et sw=2 tw=80: */
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/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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/* Useful extensions to UniquePtr. */
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#ifndef mozilla_UniquePtrExtensions_h
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#define mozilla_UniquePtrExtensions_h
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#include <type_traits>
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#include "mozilla/Assertions.h"
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#include "mozilla/Attributes.h"
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#include "mozilla/DebugOnly.h"
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#include "mozilla/fallible.h"
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#include "mozilla/UniquePtr.h"
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#ifdef XP_WIN
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# include <cstdint>
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#endif
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#if defined(XP_DARWIN) && !defined(RUST_BINDGEN)
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# include <mach/mach.h>
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#endif
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namespace mozilla {
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/**
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* MakeUniqueFallible works exactly like MakeUnique, except that the memory
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* allocation performed is done fallibly, i.e. it can return nullptr.
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*/
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template <typename T, typename... Args>
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typename detail::UniqueSelector<T>::SingleObject MakeUniqueFallible(
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Args&&... aArgs) {
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return UniquePtr<T>(new (fallible) T(std::forward<Args>(aArgs)...));
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}
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template <typename T>
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typename detail::UniqueSelector<T>::UnknownBound MakeUniqueFallible(
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decltype(sizeof(int)) aN) {
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using ArrayType = std::remove_extent_t<T>;
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return UniquePtr<T>(new (fallible) ArrayType[aN]());
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}
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template <typename T, typename... Args>
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typename detail::UniqueSelector<T>::KnownBound MakeUniqueFallible(
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Args&&... aArgs) = delete;
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/**
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* MakeUniqueForOverwrite and MakeUniqueFallibleForOverwrite are like MakeUnique
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* and MakeUniqueFallible except they use default-initialization. This is
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* useful, for example, when you have a POD type array that will be overwritten
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* directly after construction and so zero-initialization is a waste.
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*/
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template <typename T, typename... Args>
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typename detail::UniqueSelector<T>::SingleObject MakeUniqueForOverwrite() {
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return UniquePtr<T>(new T);
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}
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template <typename T>
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typename detail::UniqueSelector<T>::UnknownBound MakeUniqueForOverwrite(
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decltype(sizeof(int)) aN) {
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using ArrayType = std::remove_extent_t<T>;
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return UniquePtr<T>(new ArrayType[aN]);
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}
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template <typename T, typename... Args>
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typename detail::UniqueSelector<T>::KnownBound MakeUniqueForOverwrite(
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Args&&... aArgs) = delete;
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template <typename T, typename... Args>
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typename detail::UniqueSelector<T>::SingleObject
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MakeUniqueForOverwriteFallible() {
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return UniquePtr<T>(new (fallible) T);
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}
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template <typename T>
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typename detail::UniqueSelector<T>::UnknownBound MakeUniqueForOverwriteFallible(
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decltype(sizeof(int)) aN) {
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using ArrayType = std::remove_extent_t<T>;
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return UniquePtr<T>(new (fallible) ArrayType[aN]);
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}
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template <typename T, typename... Args>
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typename detail::UniqueSelector<T>::KnownBound MakeUniqueForOverwriteFallible(
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Args&&... aArgs) = delete;
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namespace detail {
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template <typename T>
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struct FreePolicy {
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void operator()(const void* ptr) { free(const_cast<void*>(ptr)); }
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};
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#if defined(XP_WIN)
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// Can't include <windows.h> to get the actual definition of HANDLE
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// because of namespace pollution.
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typedef void* FileHandleType;
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#elif defined(XP_UNIX)
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typedef int FileHandleType;
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#else
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# error "Unsupported OS?"
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#endif
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struct FileHandleHelper {
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MOZ_IMPLICIT FileHandleHelper(FileHandleType aHandle) : mHandle(aHandle) {
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#if defined(XP_UNIX) && (defined(DEBUG) || defined(FUZZING))
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MOZ_RELEASE_ASSERT(aHandle == kInvalidHandle || aHandle > 2);
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#endif
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}
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MOZ_IMPLICIT constexpr FileHandleHelper(std::nullptr_t)
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: mHandle(kInvalidHandle) {}
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bool operator!=(std::nullptr_t) const {
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#ifdef XP_WIN
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// Windows uses both nullptr and INVALID_HANDLE_VALUE (-1 cast to
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// HANDLE) in different situations, but nullptr is more reliably
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// null while -1 is also valid input to some calls that take
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// handles. So class considers both to be null (since neither
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// should be closed) but default-constructs as nullptr.
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if (mHandle == (void*)-1) {
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return false;
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}
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#endif
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return mHandle != kInvalidHandle;
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}
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operator FileHandleType() const { return mHandle; }
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#ifdef XP_WIN
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// NSPR uses an integer type for PROsfd, so this conversion is
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// provided for working with it without needing reinterpret casts
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// everywhere.
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operator std::intptr_t() const {
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return reinterpret_cast<std::intptr_t>(mHandle);
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}
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#endif
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// When there's only one user-defined conversion operator, the
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// compiler will use that to derive equality, but that doesn't work
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// when the conversion is ambiguoug (the XP_WIN case above).
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bool operator==(const FileHandleHelper& aOther) const {
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return mHandle == aOther.mHandle;
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}
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private:
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FileHandleType mHandle;
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#ifdef XP_WIN
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// See above for why this is nullptr. (Also, INVALID_HANDLE_VALUE
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// can't be expressed as a constexpr.)
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static constexpr FileHandleType kInvalidHandle = nullptr;
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#else
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static constexpr FileHandleType kInvalidHandle = -1;
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#endif
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};
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struct FileHandleDeleter {
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using pointer = FileHandleHelper;
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using receiver = FileHandleType;
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MFBT_API void operator()(FileHandleHelper aHelper);
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};
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#if defined(XP_DARWIN) && !defined(RUST_BINDGEN)
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struct MachPortHelper {
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MOZ_IMPLICIT MachPortHelper(mach_port_t aPort) : mPort(aPort) {}
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MOZ_IMPLICIT constexpr MachPortHelper(std::nullptr_t)
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: mPort(MACH_PORT_NULL) {}
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bool operator!=(std::nullptr_t) const { return mPort != MACH_PORT_NULL; }
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operator const mach_port_t&() const { return mPort; }
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operator mach_port_t&() { return mPort; }
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private:
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mach_port_t mPort;
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};
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struct MachSendRightDeleter {
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using pointer = MachPortHelper;
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using receiver = mach_port_t;
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MFBT_API void operator()(MachPortHelper aHelper) {
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DebugOnly<kern_return_t> kr =
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mach_port_deallocate(mach_task_self(), aHelper);
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MOZ_ASSERT(kr == KERN_SUCCESS, "failed to deallocate mach send right");
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}
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};
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struct MachReceiveRightDeleter {
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using pointer = MachPortHelper;
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using receiver = mach_port_t;
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MFBT_API void operator()(MachPortHelper aHelper) {
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DebugOnly<kern_return_t> kr = mach_port_mod_refs(
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mach_task_self(), aHelper, MACH_PORT_RIGHT_RECEIVE, -1);
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MOZ_ASSERT(kr == KERN_SUCCESS, "failed to release mach receive right");
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}
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};
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struct MachPortSetDeleter {
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using pointer = MachPortHelper;
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using receiver = mach_port_t;
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MFBT_API void operator()(MachPortHelper aHelper) {
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DebugOnly<kern_return_t> kr = mach_port_mod_refs(
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mach_task_self(), aHelper, MACH_PORT_RIGHT_PORT_SET, -1);
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MOZ_ASSERT(kr == KERN_SUCCESS, "failed to release mach port set");
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}
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};
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#endif
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} // namespace detail
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template <typename T>
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using UniqueFreePtr = UniquePtr<T, detail::FreePolicy<T>>;
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// A RAII class for the OS construct used for open files and similar
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// objects: a file descriptor on Unix or a handle on Windows.
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using UniqueFileHandle =
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UniquePtr<detail::FileHandleType, detail::FileHandleDeleter>;
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#if defined(XP_DARWIN) && !defined(RUST_BINDGEN)
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// A RAII class for a Mach port that names a send right.
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using UniqueMachSendRight =
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UniquePtr<mach_port_t, detail::MachSendRightDeleter>;
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// A RAII class for a Mach port that names a receive right.
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using UniqueMachReceiveRight =
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UniquePtr<mach_port_t, detail::MachReceiveRightDeleter>;
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// A RAII class for a Mach port set.
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using UniqueMachPortSet = UniquePtr<mach_port_t, detail::MachPortSetDeleter>;
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// Increases the user reference count for MACH_PORT_RIGHT_SEND by 1 and returns
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// a new UniqueMachSendRight to manage the additional right.
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inline UniqueMachSendRight RetainMachSendRight(mach_port_t aPort) {
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kern_return_t kr =
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mach_port_mod_refs(mach_task_self(), aPort, MACH_PORT_RIGHT_SEND, 1);
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if (kr == KERN_SUCCESS) {
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return UniqueMachSendRight(aPort);
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}
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return nullptr;
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}
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#endif
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namespace detail {
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struct HasReceiverTypeHelper {
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template <class U>
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static double Test(...);
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template <class U>
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static char Test(typename U::receiver* = 0);
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};
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template <class T>
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class HasReceiverType
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: public std::integral_constant<bool, sizeof(HasReceiverTypeHelper::Test<T>(
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0)) == 1> {};
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template <class T, class D, bool = HasReceiverType<D>::value>
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struct ReceiverTypeImpl {
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using Type = typename D::receiver;
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};
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template <class T, class D>
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struct ReceiverTypeImpl<T, D, false> {
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using Type = typename PointerType<T, D>::Type;
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};
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template <class T, class D>
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struct ReceiverType {
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using Type = typename ReceiverTypeImpl<T, std::remove_reference_t<D>>::Type;
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};
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template <typename T, typename D>
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class MOZ_TEMPORARY_CLASS UniquePtrGetterTransfers {
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public:
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using Ptr = UniquePtr<T, D>;
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using Receiver = typename detail::ReceiverType<T, D>::Type;
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explicit UniquePtrGetterTransfers(Ptr& p)
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: mPtr(p), mReceiver(typename Ptr::Pointer(nullptr)) {}
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~UniquePtrGetterTransfers() { mPtr.reset(mReceiver); }
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operator Receiver*() { return &mReceiver; }
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Receiver& operator*() { return mReceiver; }
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// operator void** is conditionally enabled if `Receiver` is a pointer.
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template <typename U = Receiver,
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std::enable_if_t<
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std::is_pointer_v<U> && std::is_same_v<U, Receiver>, int> = 0>
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operator void**() {
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return reinterpret_cast<void**>(&mReceiver);
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}
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private:
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Ptr& mPtr;
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Receiver mReceiver;
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};
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} // namespace detail
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// Helper for passing a UniquePtr to an old-style function that uses raw
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// pointers for out params. Example usage:
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//
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// void AllocateFoo(Foo** out) { *out = new Foo(); }
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// UniquePtr<Foo> foo;
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// AllocateFoo(getter_Transfers(foo));
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template <typename T, typename D>
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auto getter_Transfers(UniquePtr<T, D>& up) {
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return detail::UniquePtrGetterTransfers<T, D>(up);
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}
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} // namespace mozilla
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#endif // mozilla_UniquePtrExtensions_h
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