зеркало из https://github.com/mozilla/gecko-dev.git
393 строки
12 KiB
C++
393 строки
12 KiB
C++
/* 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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// Diagnostic class template that helps finding dangling pointers.
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#ifndef mozilla_CheckedUnsafePtr_h
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#define mozilla_CheckedUnsafePtr_h
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#include "mozilla/DataMutex.h"
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#include "nsTArray.h"
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#include <cstddef>
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#include <type_traits>
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#include <utility>
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namespace mozilla {
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enum class CheckingSupport {
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Disabled,
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Enabled,
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};
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template <typename T>
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class CheckedUnsafePtr;
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namespace detail {
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class CheckedUnsafePtrBaseCheckingEnabled;
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struct CheckedUnsafePtrCheckData {
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using Data = nsTArray<CheckedUnsafePtrBaseCheckingEnabled*>;
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DataMutex<Data> mPtrs{"mozilla::SupportsCheckedUnsafePtr"};
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};
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class CheckedUnsafePtrBaseCheckingEnabled {
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friend class CheckedUnsafePtrBaseAccess;
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protected:
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constexpr CheckedUnsafePtrBaseCheckingEnabled() = default;
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CheckedUnsafePtrBaseCheckingEnabled(
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const CheckedUnsafePtrBaseCheckingEnabled& aOther) = default;
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// When copying an CheckedUnsafePtr, its mIsDangling member must be copied as
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// well; otherwise the new copy might try to dereference a dangling pointer
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// when destructed.
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void CopyDanglingFlagIfAvailableFrom(
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const CheckedUnsafePtrBaseCheckingEnabled& aOther) {
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mIsDangling = aOther.mIsDangling;
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}
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template <typename Ptr>
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using DisableForCheckedUnsafePtr = std::enable_if_t<
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!std::is_base_of<CheckedUnsafePtrBaseCheckingEnabled, Ptr>::value>;
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// When constructing an CheckedUnsafePtr from a different kind of pointer it's
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// not possible to determine whether it's dangling; therefore it's undefined
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// behavior to construct one from a dangling pointer, and we assume that any
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// CheckedUnsafePtr thus constructed is not dangling.
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template <typename Ptr>
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DisableForCheckedUnsafePtr<Ptr> CopyDanglingFlagIfAvailableFrom(const Ptr&) {}
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template <typename F>
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void WithCheckedUnsafePtrsImpl(CheckedUnsafePtrCheckData* const aRawPtr,
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F&& aClosure) {
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if (!mIsDangling && aRawPtr) {
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const auto CheckedUnsafePtrs = aRawPtr->mPtrs.Lock();
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aClosure(this, *CheckedUnsafePtrs);
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}
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}
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private:
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bool mIsDangling = false;
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};
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class CheckedUnsafePtrBaseAccess {
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protected:
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static void SetDanglingFlag(CheckedUnsafePtrBaseCheckingEnabled& aBase) {
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aBase.mIsDangling = true;
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}
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};
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template <typename T, CheckingSupport = T::SupportsChecking::value>
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class CheckedUnsafePtrBase;
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template <typename T, typename U, typename S = std::nullptr_t>
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using EnableIfCompatible =
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std::enable_if_t<std::is_base_of<T, std::remove_reference_t<decltype(
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*std::declval<U>())>>::value,
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S>;
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template <typename T>
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class CheckedUnsafePtrBase<T, CheckingSupport::Enabled>
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: detail::CheckedUnsafePtrBaseCheckingEnabled {
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public:
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MOZ_IMPLICIT constexpr CheckedUnsafePtrBase(const std::nullptr_t = nullptr)
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: mRawPtr(nullptr) {}
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template <typename U, typename = EnableIfCompatible<T, U>>
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MOZ_IMPLICIT CheckedUnsafePtrBase(const U& aPtr) {
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Set(aPtr);
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}
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CheckedUnsafePtrBase(const CheckedUnsafePtrBase& aOther) {
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Set(aOther.Downcast());
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}
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~CheckedUnsafePtrBase() { Reset(); }
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CheckedUnsafePtr<T>& operator=(const std::nullptr_t) {
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Reset();
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return Downcast();
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}
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template <typename U>
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EnableIfCompatible<T, U, CheckedUnsafePtr<T>&> operator=(const U& aPtr) {
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Replace(aPtr);
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return Downcast();
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}
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CheckedUnsafePtrBase& operator=(const CheckedUnsafePtrBase& aOther) {
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if (&aOther != this) {
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Replace(aOther.Downcast());
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}
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return Downcast();
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}
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constexpr T* get() const { return mRawPtr; }
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private:
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template <typename U, CheckingSupport>
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friend class CheckedUnsafePtrBase;
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CheckedUnsafePtr<T>& Downcast() {
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return static_cast<CheckedUnsafePtr<T>&>(*this);
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}
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const CheckedUnsafePtr<T>& Downcast() const {
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return static_cast<const CheckedUnsafePtr<T>&>(*this);
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}
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using Base = detail::CheckedUnsafePtrBaseCheckingEnabled;
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template <typename U>
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void Replace(const U& aPtr) {
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Reset();
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Set(aPtr);
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}
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void Reset() {
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WithCheckedUnsafePtrs(
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[](Base* const aSelf,
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detail::CheckedUnsafePtrCheckData::Data& aCheckedUnsafePtrs) {
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const auto index = aCheckedUnsafePtrs.IndexOf(aSelf);
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aCheckedUnsafePtrs.UnorderedRemoveElementAt(index);
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});
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mRawPtr = nullptr;
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}
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template <typename U>
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void Set(const U& aPtr) {
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this->CopyDanglingFlagIfAvailableFrom(aPtr);
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mRawPtr = &*aPtr;
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WithCheckedUnsafePtrs(
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[](Base* const aSelf,
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detail::CheckedUnsafePtrCheckData::Data& aCheckedUnsafePtrs) {
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aCheckedUnsafePtrs.AppendElement(aSelf);
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});
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}
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template <typename F>
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void WithCheckedUnsafePtrs(F&& aClosure) {
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this->WithCheckedUnsafePtrsImpl(mRawPtr, std::forward<F>(aClosure));
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}
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T* mRawPtr;
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};
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template <typename T>
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class CheckedUnsafePtrBase<T, CheckingSupport::Disabled> {
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public:
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MOZ_IMPLICIT constexpr CheckedUnsafePtrBase(const std::nullptr_t = nullptr)
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: mRawPtr(nullptr) {}
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template <typename U, typename = EnableIfCompatible<T, U>>
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MOZ_IMPLICIT constexpr CheckedUnsafePtrBase(const U& aPtr) : mRawPtr(aPtr) {}
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constexpr CheckedUnsafePtr<T>& operator=(const std::nullptr_t) {
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mRawPtr = nullptr;
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return Downcast();
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}
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template <typename U>
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constexpr EnableIfCompatible<T, U, CheckedUnsafePtr<T>&> operator=(
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const U& aPtr) {
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mRawPtr = aPtr;
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return Downcast();
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}
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constexpr T* get() const { return mRawPtr; }
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private:
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constexpr CheckedUnsafePtr<T>& Downcast() {
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return static_cast<CheckedUnsafePtr<T>&>(*this);
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}
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T* mRawPtr;
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};
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} // namespace detail
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class CheckingPolicyAccess {
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protected:
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template <typename CheckingPolicy>
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static void NotifyCheckFailure(CheckingPolicy& aPolicy) {
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aPolicy.NotifyCheckFailure();
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}
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};
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template <typename Derived>
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class CheckCheckedUnsafePtrs : private CheckingPolicyAccess,
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private detail::CheckedUnsafePtrBaseAccess {
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public:
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using SupportsChecking =
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std::integral_constant<CheckingSupport, CheckingSupport::Enabled>;
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protected:
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static constexpr bool ShouldCheck() {
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static_assert(
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std::is_base_of<CheckCheckedUnsafePtrs, Derived>::value,
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"cannot instantiate with a type that's not a subclass of this class");
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return true;
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}
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void Check(detail::CheckedUnsafePtrCheckData::Data& aCheckedUnsafePtrs) {
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if (!aCheckedUnsafePtrs.IsEmpty()) {
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for (auto* const aCheckedUnsafePtrBase : aCheckedUnsafePtrs) {
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SetDanglingFlag(*aCheckedUnsafePtrBase);
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}
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NotifyCheckFailure(*static_cast<Derived*>(this));
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}
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}
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};
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class CrashOnDanglingCheckedUnsafePtr
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: public CheckCheckedUnsafePtrs<CrashOnDanglingCheckedUnsafePtr> {
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friend class mozilla::CheckingPolicyAccess;
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void NotifyCheckFailure() { MOZ_CRASH("Found dangling CheckedUnsafePtr"); }
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};
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struct DoNotCheckCheckedUnsafePtrs {
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using SupportsChecking =
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std::integral_constant<CheckingSupport, CheckingSupport::Disabled>;
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};
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namespace detail {
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// Template parameter CheckingSupport controls the inclusion of
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// CheckedUnsafePtrCheckData as a subobject of instantiations of
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// SupportsCheckedUnsafePtr, ensuring that choosing a policy without checking
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// support incurs no size overhead.
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template <typename CheckingPolicy,
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CheckingSupport = CheckingPolicy::SupportsChecking::value>
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class SupportCheckedUnsafePtrImpl;
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template <typename CheckingPolicy>
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class SupportCheckedUnsafePtrImpl<CheckingPolicy, CheckingSupport::Disabled>
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: public CheckingPolicy {
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protected:
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template <typename... Args>
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explicit SupportCheckedUnsafePtrImpl(Args&&... aArgs)
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: CheckingPolicy(std::forward<Args>(aArgs)...) {}
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};
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template <typename CheckingPolicy>
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class SupportCheckedUnsafePtrImpl<CheckingPolicy, CheckingSupport::Enabled>
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: public CheckedUnsafePtrCheckData, public CheckingPolicy {
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template <typename T>
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friend class CheckedUnsafePtr;
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protected:
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template <typename... Args>
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explicit SupportCheckedUnsafePtrImpl(Args&&... aArgs)
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: CheckingPolicy(std::forward<Args>(aArgs)...) {}
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~SupportCheckedUnsafePtrImpl() {
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if (this->ShouldCheck()) {
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const auto ptrs = mPtrs.Lock();
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this->Check(*ptrs);
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}
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}
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};
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struct SupportsCheckedUnsafePtrTag {};
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} // namespace detail
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template <typename Condition,
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typename CheckingPolicy = CrashOnDanglingCheckedUnsafePtr>
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using CheckIf = std::conditional_t<Condition::value, CheckingPolicy,
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DoNotCheckCheckedUnsafePtrs>;
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using DiagnosticAssertEnabled = std::integral_constant<bool,
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#ifdef MOZ_DIAGNOSTIC_ASSERT_ENABLED
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true
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#else
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false
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#endif
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>;
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// A T class that publicly inherits from an instantiation of
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// SupportsCheckedUnsafePtr and its subclasses can be pointed to by smart
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// pointers of type CheckedUnsafePtr<T>. Whenever such a smart pointer is
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// created, its existence is tracked by the pointee according to its
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// CheckingPolicy. When the pointee goes out of scope it then uses the its
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// CheckingPolicy to verify that no CheckedUnsafePtr pointers are left pointing
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// to it.
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//
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// The CheckingPolicy type is used to control the kind of verification that
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// happen at the end of the object's lifetime. By default, debug builds always
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// check for dangling CheckedUnsafePtr pointers and assert that none are found,
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// while release builds forgo all checks. (Release builds incur no size or
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// runtime penalties compared to bare pointers.)
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template <typename CheckingPolicy>
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class SupportsCheckedUnsafePtr
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: public detail::SupportCheckedUnsafePtrImpl<CheckingPolicy>,
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public detail::SupportsCheckedUnsafePtrTag {
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public:
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template <typename... Args>
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explicit SupportsCheckedUnsafePtr(Args&&... aArgs)
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: detail::SupportCheckedUnsafePtrImpl<CheckingPolicy>(
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std::forward<Args>(aArgs)...) {}
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};
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// CheckedUnsafePtr<T> is a smart pointer class that helps detect dangling
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// pointers in cases where such pointers are not allowed. In order to use it,
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// the pointee T must publicly inherit from an instantiation of
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// SupportsCheckedUnsafePtr. An CheckedUnsafePtr<T> can be used anywhere a T*
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// can be used, has the same size, and imposes no additional thread-safety
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// restrictions.
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template <typename T>
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class CheckedUnsafePtr : public detail::CheckedUnsafePtrBase<T> {
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static_assert(
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std::is_base_of<detail::SupportsCheckedUnsafePtrTag, T>::value,
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"type T must be derived from instantiation of SupportsCheckedUnsafePtr");
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public:
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using detail::CheckedUnsafePtrBase<T>::CheckedUnsafePtrBase;
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using detail::CheckedUnsafePtrBase<T>::get;
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constexpr T* operator->() const { return get(); }
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constexpr T& operator*() const { return *get(); }
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MOZ_IMPLICIT constexpr operator T*() const { return get(); }
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template <typename U>
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constexpr bool operator==(
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detail::EnableIfCompatible<T, U, const U&> aRhs) const {
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return get() == aRhs.get();
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}
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template <typename U>
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friend constexpr bool operator==(
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detail::EnableIfCompatible<T, U, const U&> aLhs,
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const CheckedUnsafePtr& aRhs) {
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return aRhs == aLhs;
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}
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template <typename U>
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constexpr bool operator!=(
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detail::EnableIfCompatible<T, U, const U&> aRhs) const {
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return !(*this == aRhs);
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}
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template <typename U>
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friend constexpr bool operator!=(
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detail::EnableIfCompatible<T, U, const U&> aLhs,
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const CheckedUnsafePtr& aRhs) {
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return aRhs != aLhs;
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}
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};
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} // namespace mozilla
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// nsTArray<T> requires by default that T can be safely moved with std::memmove.
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// Since CheckedUnsafePtr<T> has a non-trivial copy constructor, it has to opt
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// into nsTArray<T> using them.
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template <typename T>
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struct nsTArray_RelocationStrategy<mozilla::CheckedUnsafePtr<T>> {
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using Type = std::conditional_t<
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T::SupportsChecking::value == mozilla::CheckingSupport::Enabled,
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nsTArray_RelocateUsingMoveConstructor<mozilla::CheckedUnsafePtr<T>>,
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nsTArray_RelocateUsingMemutils>;
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};
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#endif // mozilla_CheckedUnsafePtr_h
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