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348 lines
12 KiB
C++
348 lines
12 KiB
C++
// Copyright 2014 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#ifndef BASE_SCOPED_GENERIC_H_
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#define BASE_SCOPED_GENERIC_H_
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#include <stdlib.h>
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#include <algorithm>
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#include "base/compiler_specific.h"
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#include "base/logging.h"
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#include "base/macros.h"
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namespace base {
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// This class acts like unique_ptr with a custom deleter (although is slightly
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// less fancy in some of the more escoteric respects) except that it keeps a
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// copy of the object rather than a pointer, and we require that the contained
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// object has some kind of "invalid" value.
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//
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// Defining a scoper based on this class allows you to get a scoper for
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// non-pointer types without having to write custom code for set, reset, and
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// move, etc. and get almost identical semantics that people are used to from
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// unique_ptr.
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//
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// It is intended that you will typedef this class with an appropriate deleter
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// to implement clean up tasks for objects that act like pointers from a
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// resource management standpoint but aren't, such as file descriptors and
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// various types of operating system handles. Using unique_ptr for these
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// things requires that you keep a pointer to the handle valid for the lifetime
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// of the scoper (which is easy to mess up).
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//
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// For an object to be able to be put into a ScopedGeneric, it must support
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// standard copyable semantics and have a specific "invalid" value. The traits
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// must define a free function and also the invalid value to assign for
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// default-constructed and released objects.
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//
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// struct FooScopedTraits {
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// // It's assumed that this is a fast inline function with little-to-no
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// // penalty for duplicate calls. This must be a static function even
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// // for stateful traits.
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// static int InvalidValue() {
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// return 0;
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// }
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//
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// // This free function will not be called if f == InvalidValue()!
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// static void Free(int f) {
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// ::FreeFoo(f);
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// }
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// };
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//
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// typedef ScopedGeneric<int, FooScopedTraits> ScopedFoo;
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//
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// A Traits type may choose to track ownership of objects in parallel with
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// ScopedGeneric. To do so, it must implement the Acquire and Release methods,
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// which will be called by ScopedGeneric during ownership transfers and extend
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// the ScopedGenericOwnershipTracking tag type.
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//
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// struct BarScopedTraits : public ScopedGenericOwnershipTracking {
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// using ScopedGenericType = ScopedGeneric<int, BarScopedTraits>;
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// static int InvalidValue() {
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// return 0;
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// }
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//
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// static void Free(int b) {
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// ::FreeBar(b);
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// }
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//
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// static void Acquire(const ScopedGenericType& owner, int b) {
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// ::TrackAcquisition(b, owner);
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// }
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//
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// static void Release(const ScopedGenericType& owner, int b) {
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// ::TrackRelease(b, owner);
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// }
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// };
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//
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// typedef ScopedGeneric<int, BarScopedTraits> ScopedBar;
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struct ScopedGenericOwnershipTracking {};
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template<typename T, typename Traits>
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class ScopedGeneric {
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private:
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// This must be first since it's used inline below.
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//
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// Use the empty base class optimization to allow us to have a D
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// member, while avoiding any space overhead for it when D is an
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// empty class. See e.g. http://www.cantrip.org/emptyopt.html for a good
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// discussion of this technique.
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struct Data : public Traits {
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explicit Data(const T& in) : generic(in) {}
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Data(const T& in, const Traits& other) : Traits(other), generic(in) {}
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T generic;
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};
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public:
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typedef T element_type;
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typedef Traits traits_type;
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ScopedGeneric() : data_(traits_type::InvalidValue()) {}
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// Constructor. Takes responsibility for freeing the resource associated with
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// the object T.
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explicit ScopedGeneric(const element_type& value) : data_(value) {
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TrackAcquire(data_.generic);
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}
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// Constructor. Allows initialization of a stateful traits object.
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ScopedGeneric(const element_type& value, const traits_type& traits)
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: data_(value, traits) {
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TrackAcquire(data_.generic);
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}
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// Move constructor. Allows initialization from a ScopedGeneric rvalue.
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ScopedGeneric(ScopedGeneric<T, Traits>&& rvalue)
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: data_(rvalue.release(), rvalue.get_traits()) {
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TrackAcquire(data_.generic);
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}
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virtual ~ScopedGeneric() {
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CHECK(!receiving_) << "ScopedGeneric destroyed with active receiver";
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FreeIfNecessary();
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}
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// operator=. Allows assignment from a ScopedGeneric rvalue.
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ScopedGeneric& operator=(ScopedGeneric<T, Traits>&& rvalue) {
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reset(rvalue.release());
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return *this;
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}
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// Frees the currently owned object, if any. Then takes ownership of a new
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// object, if given. Self-resets are not allowd as on unique_ptr. See
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// http://crbug.com/162971
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void reset(const element_type& value = traits_type::InvalidValue()) {
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if (data_.generic != traits_type::InvalidValue() && data_.generic == value)
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abort();
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FreeIfNecessary();
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data_.generic = value;
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TrackAcquire(value);
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}
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void swap(ScopedGeneric& other) {
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if (&other == this) {
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return;
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}
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TrackRelease(data_.generic);
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other.TrackRelease(other.data_.generic);
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// Standard swap idiom: 'using std::swap' ensures that std::swap is
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// present in the overload set, but we call swap unqualified so that
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// any more-specific overloads can be used, if available.
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using std::swap;
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swap(static_cast<Traits&>(data_), static_cast<Traits&>(other.data_));
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swap(data_.generic, other.data_.generic);
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TrackAcquire(data_.generic);
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other.TrackAcquire(other.data_.generic);
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}
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// Release the object. The return value is the current object held by this
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// object. After this operation, this object will hold a null value, and
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// will not own the object any more.
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element_type release() WARN_UNUSED_RESULT {
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element_type old_generic = data_.generic;
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data_.generic = traits_type::InvalidValue();
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TrackRelease(old_generic);
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return old_generic;
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}
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// A helper class that provides a T* that can be used to take ownership of
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// a value returned from a function via out-parameter. When the Receiver is
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// destructed (which should usually be at the end of the statement in which
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// receive is called), ScopedGeneric::reset() will be called with the
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// Receiver's value.
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//
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// In the simple case of a function that assigns the value before it returns,
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// C++'s lifetime extension can be used as follows:
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//
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// ScopedFoo foo;
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// bool result = GetFoo(ScopedFoo::Receiver(foo).get());
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//
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// Note that the lifetime of the Receiver is extended until the semicolon,
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// and ScopedGeneric is assigned the value upon destruction of the Receiver,
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// so the following code would not work:
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//
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// // BROKEN!
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// ScopedFoo foo;
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// UseFoo(&foo, GetFoo(ScopedFoo::Receiver(foo).get()));
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//
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// In more complicated scenarios, you may need to provide an explicit scope
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// for the Receiver, as in the following:
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//
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// std::vector<ScopedFoo> foos(64);
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//
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// {
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// std::vector<ScopedFoo::Receiver> foo_receivers;
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// for (auto foo : foos) {
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// foo_receivers_.emplace_back(foo);
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// }
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// for (auto receiver : foo_receivers) {
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// SubmitGetFooRequest(receiver.get());
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// }
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// WaitForFooRequests();
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// }
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// UseFoos(foos);
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class Receiver {
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public:
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explicit Receiver(ScopedGeneric& parent) : scoped_generic_(&parent) {
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CHECK(!scoped_generic_->receiving_)
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<< "attempted to construct Receiver for ScopedGeneric with existing "
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"Receiver";
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scoped_generic_->receiving_ = true;
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}
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~Receiver() {
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if (scoped_generic_) {
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CHECK(scoped_generic_->receiving_);
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scoped_generic_->reset(value_);
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scoped_generic_->receiving_ = false;
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}
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}
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Receiver(Receiver&& move) {
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CHECK(!used_) << "moving into already-used Receiver";
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CHECK(!move.used_) << "moving from already-used Receiver";
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scoped_generic_ = move.scoped_generic_;
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move.scoped_generic_ = nullptr;
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}
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Receiver& operator=(Receiver&& move) {
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CHECK(!used_) << "moving into already-used Receiver";
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CHECK(!move.used_) << "moving from already-used Receiver";
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scoped_generic_ = move.scoped_generic_;
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move.scoped_generic_ = nullptr;
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}
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// We hand out a pointer to a field in Receiver instead of directly to
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// ScopedGeneric's internal storage in order to make it so that users can't
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// accidentally silently break ScopedGeneric's invariants. This way, an
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// incorrect use-after-scope-exit is more detectable by ASan or static
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// analysis tools, as the pointer is only valid for the lifetime of the
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// Receiver, not the ScopedGeneric.
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T* get() {
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used_ = true;
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return &value_;
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}
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private:
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T value_ = Traits::InvalidValue();
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ScopedGeneric* scoped_generic_;
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bool used_ = false;
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DISALLOW_COPY_AND_ASSIGN(Receiver);
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};
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const element_type& get() const { return data_.generic; }
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// Returns true if this object doesn't hold the special null value for the
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// associated data type.
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bool is_valid() const { return data_.generic != traits_type::InvalidValue(); }
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bool operator==(const element_type& value) const {
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return data_.generic == value;
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}
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bool operator!=(const element_type& value) const {
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return data_.generic != value;
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}
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Traits& get_traits() { return data_; }
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const Traits& get_traits() const { return data_; }
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private:
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void FreeIfNecessary() {
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if (data_.generic != traits_type::InvalidValue()) {
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TrackRelease(data_.generic);
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data_.Free(data_.generic);
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data_.generic = traits_type::InvalidValue();
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}
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}
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template <typename Void = void>
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typename std::enable_if_t<
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std::is_base_of<ScopedGenericOwnershipTracking, Traits>::value,
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Void>
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TrackAcquire(const T& value) {
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if (value != traits_type::InvalidValue()) {
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data_.Acquire(static_cast<const ScopedGeneric&>(*this), value);
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}
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}
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template <typename Void = void>
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typename std::enable_if_t<
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!std::is_base_of<ScopedGenericOwnershipTracking, Traits>::value,
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Void>
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TrackAcquire(const T& value) {}
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template <typename Void = void>
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typename std::enable_if_t<
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std::is_base_of<ScopedGenericOwnershipTracking, Traits>::value,
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Void>
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TrackRelease(const T& value) {
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if (value != traits_type::InvalidValue()) {
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data_.Release(static_cast<const ScopedGeneric&>(*this), value);
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}
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}
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template <typename Void = void>
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typename std::enable_if_t<
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!std::is_base_of<ScopedGenericOwnershipTracking, Traits>::value,
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Void>
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TrackRelease(const T& value) {}
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// Forbid comparison. If U != T, it totally doesn't make sense, and if U ==
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// T, it still doesn't make sense because you should never have the same
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// object owned by two different ScopedGenerics.
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template <typename T2, typename Traits2> bool operator==(
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const ScopedGeneric<T2, Traits2>& p2) const;
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template <typename T2, typename Traits2> bool operator!=(
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const ScopedGeneric<T2, Traits2>& p2) const;
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Data data_;
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bool receiving_ = false;
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DISALLOW_COPY_AND_ASSIGN(ScopedGeneric);
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};
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template<class T, class Traits>
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void swap(const ScopedGeneric<T, Traits>& a,
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const ScopedGeneric<T, Traits>& b) {
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a.swap(b);
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}
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template<class T, class Traits>
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bool operator==(const T& value, const ScopedGeneric<T, Traits>& scoped) {
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return value == scoped.get();
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}
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template<class T, class Traits>
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bool operator!=(const T& value, const ScopedGeneric<T, Traits>& scoped) {
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return value != scoped.get();
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}
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} // namespace base
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#endif // BASE_SCOPED_GENERIC_H_
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