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backout f607ac59de19 (Bug 888548 part 2) for B2G build bustage
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123
mfbt/Atomics.h
123
mfbt/Atomics.h
@ -830,11 +830,6 @@ namespace detail {
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template<typename T, MemoryOrdering Order>
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class AtomicBase
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{
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// We only support 32-bit types on 32-bit Windows, which constrains our
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// implementation elsewhere. But we support pointer-sized types everywhere.
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static_assert(sizeof(T) == 4 || (sizeof(uintptr_t) == 8 && sizeof(T) == 8),
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"mozilla/Atomics.h only supports 32-bit and pointer-sized types");
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protected:
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typedef typename detail::AtomicIntrinsics<T, Order> Intrinsics;
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typename Intrinsics::ValueType mValue;
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@ -843,12 +838,12 @@ class AtomicBase
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AtomicBase() : mValue() {}
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AtomicBase(T aInit) { Intrinsics::store(mValue, aInit); }
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operator T() const { return Intrinsics::load(mValue); }
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T operator++(int) { return Intrinsics::inc(mValue); }
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T operator--(int) { return Intrinsics::dec(mValue); }
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T operator++() { return Intrinsics::inc(mValue) + 1; }
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T operator--() { return Intrinsics::dec(mValue) - 1; }
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T operator=(T aValue) {
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Intrinsics::store(mValue, aValue);
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return aValue;
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}
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operator T() const { return Intrinsics::load(mValue); }
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/**
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* Performs an atomic swap operation. aValue is stored and the previous
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@ -857,7 +852,6 @@ class AtomicBase
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T exchange(T aValue) {
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return Intrinsics::exchange(mValue, aValue);
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}
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/**
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* Performs an atomic compare-and-swap operation and returns true if it
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* succeeded. This is equivalent to atomically doing
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@ -878,35 +872,16 @@ class AtomicBase
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AtomicBase(const AtomicBase<T, AnyOrder>& aCopy) MOZ_DELETE;
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};
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template<typename T, MemoryOrdering Order>
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class AtomicBaseIncDec : public AtomicBase<T, Order>
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{
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typedef typename detail::AtomicBase<T, Order> Base;
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public:
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AtomicBaseIncDec() : Base() {}
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AtomicBaseIncDec(T aInit) : Base(aInit) {}
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using Base::operator=;
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T operator++(int) { return Base::Intrinsics::inc(Base::mValue); }
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T operator--(int) { return Base::Intrinsics::dec(Base::mValue); }
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T operator++() { return Base::Intrinsics::inc(Base::mValue) + 1; }
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T operator--() { return Base::Intrinsics::dec(Base::mValue) - 1; }
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private:
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template<MemoryOrdering AnyOrder>
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AtomicBaseIncDec(const AtomicBaseIncDec<T, AnyOrder>& aCopy) MOZ_DELETE;
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};
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} // namespace detail
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/**
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* A wrapper for a type that enforces that all memory accesses are atomic.
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*
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* In general, where a variable |T foo| exists, |Atomic<T> foo| can be used in
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* its place. Implementations for integral and pointer types are provided
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* below.
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* In general, where a variable |T foo| exists, |Atomic<T> foo| can be
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* used in its place. In addition to atomic store and load operations,
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* compound assignment and increment/decrement operators are implemented
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* which perform the corresponding read-modify-write operation
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* atomically. Finally, an atomic swap method is provided.
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*
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* Atomic accesses are sequentially consistent by default. You should
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* use the default unless you are tall enough to ride the
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@ -918,30 +893,21 @@ class AtomicBaseIncDec : public AtomicBase<T, Order>
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* deliberate design choice that enables static atomic variables to be declared
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* without introducing extra static constructors.
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*/
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template<typename T,
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MemoryOrdering Order = SequentiallyConsistent,
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typename Enable = void>
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class Atomic;
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/**
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* Atomic<T> implementation for integral types.
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*
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* In addition to atomic store and load operations, compound assignment and
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* increment/decrement operators are implemented which perform the
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* corresponding read-modify-write operation atomically. Finally, an atomic
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* swap method is provided.
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*/
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template<typename T, MemoryOrdering Order>
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class Atomic<T, Order, typename EnableIf<IsIntegral<T>::value>::Type>
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: public detail::AtomicBaseIncDec<T, Order>
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template<typename T, MemoryOrdering Order = SequentiallyConsistent>
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class Atomic : public detail::AtomicBase<T, Order>
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{
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typedef typename detail::AtomicBaseIncDec<T, Order> Base;
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// We only support 32-bit types on 32-bit Windows, which constrains our
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// implementation elsewhere. But we support pointer-sized types everywhere.
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static_assert(sizeof(T) == 4 || (sizeof(uintptr_t) == 8 && sizeof(T) == 8),
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"mozilla/Atomics.h only supports 32-bit and pointer-sized types");
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// Regardless of the OS, we only support integral types here.
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static_assert(IsIntegral<T>::value, "can only have integral atomic variables");
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typedef typename detail::AtomicBase<T, Order> Base;
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public:
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Atomic() : Base() {}
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Atomic(T aInit) : Base(aInit) {}
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using Base::operator=;
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Atomic() : detail::AtomicBase<T, Order>() {}
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Atomic(T aInit) : detail::AtomicBase<T, Order>(aInit) {}
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T operator+=(T delta) { return Base::Intrinsics::add(Base::mValue, delta) + delta; }
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T operator-=(T delta) { return Base::Intrinsics::sub(Base::mValue, delta) - delta; }
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@ -949,36 +915,55 @@ class Atomic<T, Order, typename EnableIf<IsIntegral<T>::value>::Type>
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T operator^=(T val) { return Base::Intrinsics::xor_(Base::mValue, val) ^ val; }
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T operator&=(T val) { return Base::Intrinsics::and_(Base::mValue, val) & val; }
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T operator=(T aValue) {
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Base::Intrinsics::store(Base::mValue, aValue);
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return aValue;
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}
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private:
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Atomic(Atomic<T, Order>& aOther) MOZ_DELETE;
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};
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/**
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* Atomic<T> implementation for pointer types.
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* A partial specialization of Atomic for pointer variables.
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*
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* An atomic compare-and-swap primitive for pointer variables is provided, as
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* are atomic increment and decement operators. Also provided are the compound
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* assignment operators for addition and subtraction. Atomic swap (via
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* exchange()) is included as well.
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* Like Atomic<T>, Atomic<T*> is equivalent in most respects to a regular T*
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* variable. An atomic compare-and-swap primitive for pointer variables is
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* provided, as are atomic increment and decement operators. Also provided
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* are the compound assignment operators for addition and subtraction.
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* Atomic swap (via exchange()) is included as well.
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*
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* Atomic accesses are sequentially consistent by default. You should
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* use the default unless you are tall enough to ride the
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* memory-ordering roller coaster (if you're not sure, you aren't) and
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* you have a compelling reason to do otherwise.
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*
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* There is one exception to the case of atomic memory accesses: providing an
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* initial value of the atomic value is not guaranteed to be atomic. This is a
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* deliberate design choice that enables static atomic variables to be declared
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* without introducing extra static constructors.
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*/
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template<typename T, MemoryOrdering Order>
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class Atomic<T*, Order> : public detail::AtomicBaseIncDec<T*, Order>
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class Atomic<T*, Order> : public detail::AtomicBase<T*, Order>
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{
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typedef typename detail::AtomicBaseIncDec<T*, Order> Base;
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typedef typename detail::AtomicBase<T*, Order> Base;
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public:
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Atomic() : Base() {}
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Atomic(T* aInit) : Base(aInit) {}
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Atomic() : detail::AtomicBase<T*, Order>() {}
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Atomic(T* aInit) : detail::AtomicBase<T*, Order>(aInit) {}
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using Base::operator=;
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T* operator+=(ptrdiff_t delta) {
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T* operator +=(ptrdiff_t delta) {
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return Base::Intrinsics::add(Base::mValue, delta) + delta;
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}
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T* operator-=(ptrdiff_t delta) {
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T* operator -=(ptrdiff_t delta) {
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return Base::Intrinsics::sub(Base::mValue, delta) - delta;
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}
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T* operator=(T* aValue) {
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Base::Intrinsics::store(Base::mValue, aValue);
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return aValue;
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}
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private:
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Atomic(Atomic<T*, Order>& aOther) MOZ_DELETE;
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};
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