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171 lines
6.2 KiB
171 lines
6.2 KiB
/*
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* Copyright 2012 Google Inc.
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*
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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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*/
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#ifndef SkWeakRefCnt_DEFINED
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#define SkWeakRefCnt_DEFINED
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#include "SkRefCnt.h"
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#include <atomic>
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/** \class SkWeakRefCnt
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SkWeakRefCnt is the base class for objects that may be shared by multiple
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objects. When an existing strong owner wants to share a reference, it calls
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ref(). When a strong owner wants to release its reference, it calls
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unref(). When the shared object's strong reference count goes to zero as
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the result of an unref() call, its (virtual) weak_dispose method is called.
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It is an error for the destructor to be called explicitly (or via the
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object going out of scope on the stack or calling delete) if
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getRefCnt() > 1.
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In addition to strong ownership, an owner may instead obtain a weak
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reference by calling weak_ref(). A call to weak_ref() must be balanced by a
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call to weak_unref(). To obtain a strong reference from a weak reference,
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call try_ref(). If try_ref() returns true, the owner's pointer is now also
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a strong reference on which unref() must be called. Note that this does not
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affect the original weak reference, weak_unref() must still be called. When
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the weak reference count goes to zero, the object is deleted. While the
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weak reference count is positive and the strong reference count is zero the
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object still exists, but will be in the disposed state. It is up to the
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object to define what this means.
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Note that a strong reference implicitly implies a weak reference. As a
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result, it is allowable for the owner of a strong ref to call try_ref().
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This will have the same effect as calling ref(), but may be more expensive.
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Example:
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SkWeakRefCnt myRef = strongRef.weak_ref();
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... // strongRef.unref() may or may not be called
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if (myRef.try_ref()) {
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... // use myRef
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myRef.unref();
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} else {
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// myRef is in the disposed state
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}
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myRef.weak_unref();
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*/
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class SK_API SkWeakRefCnt : public SkRefCnt {
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public:
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/** Default construct, initializing the reference counts to 1.
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The strong references collectively hold one weak reference. When the
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strong reference count goes to zero, the collectively held weak
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reference is released.
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*/
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SkWeakRefCnt() : SkRefCnt(), fWeakCnt(1) {}
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/** Destruct, asserting that the weak reference count is 1.
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*/
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~SkWeakRefCnt() override {
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#ifdef SK_DEBUG
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SkASSERT(getWeakCnt() == 1);
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fWeakCnt.store(0, std::memory_order_relaxed);
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#endif
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}
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#ifdef SK_DEBUG
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/** Return the weak reference count. */
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int32_t getWeakCnt() const {
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return fWeakCnt.load(std::memory_order_relaxed);
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}
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#endif
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private:
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/** If fRefCnt is 0, returns 0.
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* Otherwise increments fRefCnt, acquires, and returns the old value.
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*/
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int32_t atomic_conditional_acquire_strong_ref() const {
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int32_t prev = fRefCnt.load(std::memory_order_relaxed);
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do {
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if (0 == prev) {
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break;
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}
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} while(!fRefCnt.compare_exchange_weak(prev, prev+1, std::memory_order_acquire,
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std::memory_order_relaxed));
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return prev;
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}
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public:
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/** Creates a strong reference from a weak reference, if possible. The
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caller must already be an owner. If try_ref() returns true the owner
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is in posession of an additional strong reference. Both the original
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reference and new reference must be properly unreferenced. If try_ref()
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returns false, no strong reference could be created and the owner's
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reference is in the same state as before the call.
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*/
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bool SK_WARN_UNUSED_RESULT try_ref() const {
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if (atomic_conditional_acquire_strong_ref() != 0) {
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// Acquire barrier (L/SL), if not provided above.
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// Prevents subsequent code from happening before the increment.
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return true;
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}
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return false;
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}
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/** Increment the weak reference count. Must be balanced by a call to
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weak_unref().
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*/
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void weak_ref() const {
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SkASSERT(getRefCnt() > 0);
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SkASSERT(getWeakCnt() > 0);
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// No barrier required.
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(void)fWeakCnt.fetch_add(+1, std::memory_order_relaxed);
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}
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/** Decrement the weak reference count. If the weak reference count is 1
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before the decrement, then call delete on the object. Note that if this
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is the case, then the object needs to have been allocated via new, and
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not on the stack.
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*/
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void weak_unref() const {
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SkASSERT(getWeakCnt() > 0);
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// A release here acts in place of all releases we "should" have been doing in ref().
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if (1 == fWeakCnt.fetch_add(-1, std::memory_order_acq_rel)) {
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// Like try_ref(), the acquire is only needed on success, to make sure
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// code in internal_dispose() doesn't happen before the decrement.
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#ifdef SK_DEBUG
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// so our destructor won't complain
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fWeakCnt.store(1, std::memory_order_relaxed);
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#endif
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this->INHERITED::internal_dispose();
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}
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}
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/** Returns true if there are no strong references to the object. When this
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is the case all future calls to try_ref() will return false.
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*/
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bool weak_expired() const {
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return fRefCnt.load(std::memory_order_relaxed) == 0;
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}
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protected:
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/** Called when the strong reference count goes to zero. This allows the
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object to free any resources it may be holding. Weak references may
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still exist and their level of allowed access to the object is defined
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by the object's class.
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*/
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virtual void weak_dispose() const {
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}
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private:
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/** Called when the strong reference count goes to zero. Calls weak_dispose
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on the object and releases the implicit weak reference held
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collectively by the strong references.
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*/
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void internal_dispose() const override {
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weak_dispose();
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weak_unref();
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}
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/* Invariant: fWeakCnt = #weak + (fRefCnt > 0 ? 1 : 0) */
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mutable std::atomic<int32_t> fWeakCnt;
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typedef SkRefCnt INHERITED;
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};
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#endif
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