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core.atomic

The atomic module provides basic support for lock-free concurrent programming.
License:
Boost License 1.0
Authors:
Sean Kelly, Alex Rønne Petersen, Manu Evans

Source core/atomic.d

enum MemoryOrder: int;
Specifies the memory ordering semantics of an atomic operation.
See Also:
en.cppreference.com/w/cpp/atomic/memory_order
raw
Not sequenced. Corresponds to LLVM AtomicOrdering.Monotonic and C++11/C11 memory_order_relaxed.
acq
Hoist-load + hoist-store barrier. Corresponds to LLVM AtomicOrdering.Acquire and C++11/C11 memory_order_acquire.
rel
Sink-load + sink-store barrier. Corresponds to LLVM AtomicOrdering.Release and C++11/C11 memory_order_release.
acq_rel
Acquire + release barrier. Corresponds to LLVM AtomicOrdering.AcquireRelease and C++11/C11 memory_order_acq_rel.
seq
Fully sequenced (acquire + release). Corresponds to LLVM AtomicOrdering.SequentiallyConsistent and C++11/C11 memory_order_seq_cst.
pure nothrow @nogc @trusted T atomicLoad(MemoryOrder ms = MemoryOrder.seq, T)(ref const T val)
if (!is(T == shared(U), U) && !is(T == shared(inout(U)), U) && !is(T == shared(const(U)), U));

pure nothrow @nogc @trusted T atomicLoad(MemoryOrder ms = MemoryOrder.seq, T)(ref const shared T val)
if (!hasUnsharedIndirections!T);

pure nothrow @nogc @trusted TailShared!T atomicLoad(MemoryOrder ms = MemoryOrder.seq, T)(ref const shared T val)
if (hasUnsharedIndirections!T);
Loads 'val' from memory and returns it. The memory barrier specified by 'ms' is applied to the operation, which is fully sequenced by default. Valid memory orders are MemoryOrder.raw, MemoryOrder.acq, and MemoryOrder.seq.
Parameters:
T val The target variable.
Returns:
The value of 'val'.
pure nothrow @nogc @trusted void atomicStore(MemoryOrder ms = MemoryOrder.seq, T, V)(ref T val, V newval)
if (!is(T == shared) && !is(V == shared));

pure nothrow @nogc @trusted void atomicStore(MemoryOrder ms = MemoryOrder.seq, T, V)(ref shared T val, V newval)
if (!is(T == class));

pure nothrow @nogc @trusted void atomicStore(MemoryOrder ms = MemoryOrder.seq, T, V)(ref shared T val, shared V newval)
if (is(T == class));
Writes 'newval' into 'val'. The memory barrier specified by 'ms' is applied to the operation, which is fully sequenced by default. Valid memory orders are MemoryOrder.raw, MemoryOrder.rel, and MemoryOrder.seq.
Parameters:
T val The target variable.
V newval The value to store.
pure nothrow @nogc @trusted T atomicFetchAdd(MemoryOrder ms = MemoryOrder.seq, T)(ref T val, size_t mod)
if ((__traits(isIntegral, T) || is(T == U*, U)) && !is(T == shared));

pure nothrow @nogc @trusted T atomicFetchAdd(MemoryOrder ms = MemoryOrder.seq, T)(ref shared T val, size_t mod)
if (__traits(isIntegral, T) || is(T == U*, U));
Atomically adds mod to the value referenced by val and returns the value val held previously. This operation is both lock-free and atomic.
Parameters:
T val Reference to the value to modify.
size_t mod The value to add.
Returns:
The value held previously by val.
pure nothrow @nogc @trusted T atomicFetchSub(MemoryOrder ms = MemoryOrder.seq, T)(ref T val, size_t mod)
if ((__traits(isIntegral, T) || is(T == U*, U)) && !is(T == shared));

pure nothrow @nogc @trusted T atomicFetchSub(MemoryOrder ms = MemoryOrder.seq, T)(ref shared T val, size_t mod)
if (__traits(isIntegral, T) || is(T == U*, U));
Atomically subtracts mod from the value referenced by val and returns the value val held previously. This operation is both lock-free and atomic.
Parameters:
T val Reference to the value to modify.
size_t mod The value to subtract.
Returns:
The value held previously by val.
pure nothrow @nogc @trusted T atomicExchange(MemoryOrder ms = MemoryOrder.seq, T, V)(T* here, V exchangeWith)
if (!is(T == shared) && !is(V == shared));

pure nothrow @nogc @trusted TailShared!T atomicExchange(MemoryOrder ms = MemoryOrder.seq, T, V)(shared(T)* here, V exchangeWith)
if (!is(T == class));

pure nothrow @nogc @trusted shared(T) atomicExchange(MemoryOrder ms = MemoryOrder.seq, T, V)(shared(T)* here, shared(V) exchangeWith)
if (is(T == class));
Exchange exchangeWith with the memory referenced by here. This operation is both lock-free and atomic.
Parameters:
T* here The address of the destination variable.
V exchangeWith The value to exchange.
Returns:
The value held previously by here.
pure nothrow @nogc @trusted bool cas(MemoryOrder succ = MemoryOrder.seq, MemoryOrder fail = MemoryOrder.seq, T, V1, V2)(T* here, V1 ifThis, V2 writeThis)
if (!is(T == shared) && is(T : V1));

pure nothrow @nogc @trusted bool cas(MemoryOrder succ = MemoryOrder.seq, MemoryOrder fail = MemoryOrder.seq, T, V1, V2)(shared(T)* here, V1 ifThis, V2 writeThis)
if (!is(T == class) && (is(T : V1) || is(shared(T) : V1)));

pure nothrow @nogc @trusted bool cas(MemoryOrder succ = MemoryOrder.seq, MemoryOrder fail = MemoryOrder.seq, T, V1, V2)(shared(T)* here, shared(V1) ifThis, shared(V2) writeThis)
if (is(T == class));
Stores 'writeThis' to the memory referenced by 'here' if the value referenced by 'here' is equal to 'ifThis'. This operation is both lock-free and atomic.
Parameters:
T* here The address of the destination variable.
V2 writeThis The value to store.
V1 ifThis The comparison value.
Returns:
true if the store occurred, false if not.
pure nothrow @nogc @trusted bool cas(MemoryOrder succ = MemoryOrder.seq, MemoryOrder fail = MemoryOrder.seq, T, V)(T* here, T* ifThis, V writeThis)
if (!is(T == shared) && !is(V == shared));

pure nothrow @nogc @trusted bool cas(MemoryOrder succ = MemoryOrder.seq, MemoryOrder fail = MemoryOrder.seq, T, V1, V2)(shared(T)* here, V1* ifThis, V2 writeThis)
if (!is(T == class) && (is(T : V1) || is(shared(T) : V1)));

pure nothrow @nogc @trusted bool cas(MemoryOrder succ = MemoryOrder.seq, MemoryOrder fail = MemoryOrder.seq, T, V)(shared(T)* here, shared(T)* ifThis, shared(V) writeThis)
if (is(T == class));
Stores 'writeThis' to the memory referenced by 'here' if the value referenced by 'here' is equal to the value referenced by 'ifThis'. The prior value referenced by 'here' is written to ifThis and returned to the user. This operation is both lock-free and atomic.
Parameters:
T* here The address of the destination variable.
V writeThis The value to store.
T* ifThis The address of the value to compare, and receives the prior value of here as output.
Returns:
true if the store occurred, false if not.
pure nothrow @nogc @trusted bool casWeak(MemoryOrder succ = MemoryOrder.seq, MemoryOrder fail = MemoryOrder.seq, T, V1, V2)(T* here, V1 ifThis, V2 writeThis)
if (!is(T == shared) && is(T : V1));

pure nothrow @nogc @trusted bool casWeak(MemoryOrder succ = MemoryOrder.seq, MemoryOrder fail = MemoryOrder.seq, T, V1, V2)(shared(T)* here, V1 ifThis, V2 writeThis)
if (!is(T == class) && (is(T : V1) || is(shared(T) : V1)));

pure nothrow @nogc @trusted bool casWeak(MemoryOrder succ = MemoryOrder.seq, MemoryOrder fail = MemoryOrder.seq, T, V1, V2)(shared(T)* here, shared(V1) ifThis, shared(V2) writeThis)
if (is(T == class));
Stores 'writeThis' to the memory referenced by 'here' if the value referenced by 'here' is equal to 'ifThis'. The 'weak' version of cas may spuriously fail. It is recommended to use casWeak only when cas would be used in a loop. This operation is both lock-free and atomic.
Parameters:
T* here The address of the destination variable.
V2 writeThis The value to store.
V1 ifThis The comparison value.
Returns:
true if the store occurred, false if not.
pure nothrow @nogc @trusted bool casWeak(MemoryOrder succ = MemoryOrder.seq, MemoryOrder fail = MemoryOrder.seq, T, V)(T* here, T* ifThis, V writeThis)
if (!is(T == shared(S), S) && !is(V == shared(U), U));

pure nothrow @nogc @trusted bool casWeak(MemoryOrder succ = MemoryOrder.seq, MemoryOrder fail = MemoryOrder.seq, T, V1, V2)(shared(T)* here, V1* ifThis, V2 writeThis)
if (!is(T == class) && (is(T : V1) || is(shared(T) : V1)));

pure nothrow @nogc @trusted bool casWeak(MemoryOrder succ = MemoryOrder.seq, MemoryOrder fail = MemoryOrder.seq, T, V)(shared(T)* here, shared(T)* ifThis, shared(V) writeThis)
if (is(T == class));
Stores 'writeThis' to the memory referenced by 'here' if the value referenced by 'here' is equal to the value referenced by 'ifThis'. The prior value referenced by 'here' is written to ifThis and returned to the user. The 'weak' version of cas may spuriously fail. It is recommended to use casWeak only when cas would be used in a loop. This operation is both lock-free and atomic.
Parameters:
T* here The address of the destination variable.
V writeThis The value to store.
T* ifThis The address of the value to compare, and receives the prior value of here as output.
Returns:
true if the store occurred, false if not.
pure nothrow @nogc @safe void atomicFence(MemoryOrder order = MemoryOrder.seq)();
Inserts a full load/store memory fence (on platforms that need it). This ensures that all loads and stores before a call to this function are executed before any loads and stores after the call.
pure nothrow @nogc @safe void pause();
Gives a hint to the processor that the calling thread is in a 'spin-wait' loop, allowing to more efficiently allocate resources.
pure nothrow @nogc @safe TailShared!T atomicOp(string op, T, V1)(ref shared T val, V1 mod)
if (__traits(compiles, mixin("*cast(T*)&val" ~ op ~ "mod")));
Performs the binary operation 'op' on val using 'mod' as the modifier.
Parameters:
T val The target variable.
V1 mod The modifier to apply.
Returns:
The result of the operation.