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#include <jobgroup.h>
Reference to a group (JobGroupInterface).
Public Member Functions | |
| MAXON_DEFAULT_REFERENCE_CONSTRUCTORS (JobGroupRef, Ptr) | |
| const JobGroupRef & | Enqueue (JobQueueInterface *queue=JOBQUEUE_CURRENT) const |
| Result< void > | EnqueueAndWait (JobQueueInterface *queue=JOBQUEUE_CURRENT) const |
| Bool | Wait (TimeValue timeout=TIMEVALUE_INFINITE, WAITMODE mode=WAITMODE::DEFAULT) const |
| Result< void > | GetResult (TimeValue timeout=TIMEVALUE_INFINITE, WAITMODE mode=WAITMODE::DEFAULT) const |
| template<typename... ARGS> | |
| Result< void > | Add (ARGS &&... args) const |
| template<JOBCANCELLATION B, typename T > | |
| Result< void > | Add (T &&obj, JOBGROUPADDFLAGS flags=JOBGROUPADDFLAGS::DEFAULT) const |
| ObservableFinishedBase< JobGroupInterface > | ObservableFinished () const |
| void | Cancel () const |
| void | CancelAndWait (WAITMODE mode=WAITMODE::DEFAULT) const |
| String | ToString (const FormatStatement *formatStatement=nullptr) const |
 Public Member Functions inherited from BaseRef< T, HANDLER > | |
| T * | GetPointer () |
| ConstReferencedType * | GetPointer () const |
| T * | operator-> () |
| ConstReferencedType * | operator-> () const |
| std::conditional< std::is_void< T >::value, DeleteReturnType01, T >::type & | operator* () |
| std::conditional< std::is_void< ConstReferencedType >::value, DeleteReturnType01, T >::type & | operator* () const |
| operator T* () | |
| operator ConstReferencedType * () const | |
| operator Bool () const | |
| operator Bool () | |
| const std::conditional< std::is_void< T >::value, DeleteReturnType01, T >::type & | operator[] (Int) const =delete |
| ResultRef< typename std::remove_const< T >::type > | MakeWritable (Bool resetOnError=true) |
| ResultRef< typename std::remove_const< T >::type > | MakeWritableDontCopy () |
| Bool | HasMultipleReferences () const |
| std::conditional< std::is_void< T >::value, DeleteReturnType01, T >::type & | GetOrDefault () const |
| BaseRef () | |
| MAXON_IMPLICIT | BaseRef (std::nullptr_t)=delete |
| MAXON_IMPLICIT | BaseRef (T *o) |
| template<typename PTR > | |
| BaseRef (ForwardResultPtr< PTR > o) | |
| BaseRef (ResultPtr< T > o, Int) | |
| BaseRef (const BaseRef &src) | |
| template<typename REF , typename = typename std::enable_if<!STD_IS_REPLACEMENT(base_of, BaseRef, REF) && maxon::HasErasedBase<typename REF::ReferencedType, ReferencedType>::value>::type> | |
| MAXON_IMPLICIT | BaseRef (const REF &src) |
| template<typename REF , typename = typename std::enable_if<!STD_IS_REPLACEMENT(base_of, BaseRef, REF) && maxon::HasErasedBase<typename REF::ReferencedType, ReferencedType>::value>::type> | |
| MAXON_IMPLICIT | BaseRef (REF &src) |
| BaseRef & | operator= (T *src) |
| BaseRef & | operator= (std::nullptr_t src) |
| BaseRef & | operator= (const BaseRef &src) |
| template<typename REF , typename = typename std::enable_if<!STD_IS_REPLACEMENT(base_of, BaseRef, REF) && maxon::HasErasedBase<typename REF::ReferencedType, ReferencedType>::value>::type> | |
| BaseRef & | operator= (const REF &src) |
| template<typename REF , typename = typename std::enable_if<!STD_IS_REPLACEMENT(base_of, BaseRef, REF) && maxon::HasErasedBase<typename REF::ReferencedType, ReferencedType>::value>::type> | |
| BaseRef & | operator= (REF &src) |
| BaseRef (BaseRef &&src) | |
| template<typename REF , typename = typename std::enable_if<!STD_IS_REPLACEMENT(const, REF) && !STD_IS_REPLACEMENT(base_of, BaseRef, REF) && maxon::HasErasedBase<typename REF::ReferencedType, ReferencedType>::value>::type> | |
| MAXON_IMPLICIT | BaseRef (REF &&src) |
| BaseRef & | operator= (BaseRef &&src) |
| template<typename REF , typename = typename std::enable_if<!STD_IS_REPLACEMENT(const, REF) && !STD_IS_REPLACEMENT(base_of, BaseRef, REF) && maxon::HasErasedBase<typename REF::ReferencedType, ReferencedType>::value>::type> | |
| BaseRef & | operator= (REF &&src) |
| ~BaseRef () | |
| Bool | operator== (const BaseRef &b) const |
| Bool | operator!= (const BaseRef &b) const |
| Bool | operator< (const BaseRef &b) const |
| MAXON_OPERATOR_INEQUALITY (BaseRef) | |
| Bool | operator== (const T *b) const |
| Bool | operator!= (const T *b) const |
| Bool | operator== (typename std::remove_const< T >::type *b) const |
| Bool | operator!= (typename std::remove_const< T >::type *b) const |
| Bool | operator== (std::nullptr_t) const |
| Bool | operator!= (std::nullptr_t) const |
| HashInt | GetHashCode () const |
| UniqueHash | GetUniqueHashCode () const |
| std::conditional< Bool(HANDLER::KIND &VALUEKIND::COW_MASK), typename std::remove_const< T >::type, T >::type * | Disconnect () |
| void | PrivateSetTarget (ResultPtr< T > src) |
| void | PrivateSetPointer (T *ptr) |
Static Public Member Functions | |
| static ResultMemT< JobGroupRef > | Create (JOBGROUPFLAGS flags=JOBGROUPFLAGS::DEFAULT) |
| static MAXON_ATTRIBUTE_FORCE_INLINE const JobGroupRef & | DefaultValue () |
| Static Public Member Functions inherited from BaseRef< T, HANDLER > | |
| static void | PrivateLookupFn () |
| static std::false_type | GenericVarianceCheck (const void *) |
| template<typename... ARGS> | |
| static MAXON_ATTRIBUTE_FORCE_INLINE ResultMemT< BaseRef > | Create (ARGS &&... args) |
| static const BaseRef & | DefaultValueRef () |
| static std::conditional< Bool(HANDLER::KIND &VALUEKIND::UNIQUE_REFERENCE), BaseRef, const BaseRef & >::type | DefaultValue () |
Private Types | |
| using | Ptr = StrongRef< JobGroupInterface > |
Additional Inherited Members | |
| Public Types inherited from BaseRef< T, HANDLER > | |
| using | ReferencedType = T |
| using | ConstReferencedType = typename ConstIf< T, Bool(HANDLER::KIND &VALUEKIND::DEEP_CONSTNESS)>::type |
| using | DirectlyReferencedType = T |
| using | SelfType = BaseRef< T, HANDLER > |
| template<typename D > | |
| using | IsGenericBaseOf = std::true_type |
| using | Handler = HANDLER |
| using | RefCompareType = RefCompare< MAXON_IS_COW_KIND(HANDLER::KIND), IsInterfaceType< T >::value > |
| Static Public Attributes inherited from BaseRef< T, HANDLER > | |
| static constexpr Bool | DIRECT_REF |
| Protected Attributes inherited from BaseRef< T, HANDLER > | |
| union { | |
| T * _object | |
| const void * _impl | |
| }; | |
|
private |
| MAXON_DEFAULT_REFERENCE_CONSTRUCTORS | ( | JobGroupRef | , |
| Ptr | |||
| ) |
|
static |
Creates a JobGroup.
| [in] | flags | Can be used to create an auto-enqueue group. |
| const JobGroupRef& Enqueue | ( | JobQueueInterface * | queue = JOBQUEUE_CURRENT | ) | const |
Enqueues all jobs of the group including subgroups (will add a reference and remove it when the object is no longer needed). Please note that a group (like a job) can only be enqueued once. THREADSAFE.
| [in] | queue | The queue, use JOBQUEUE_CURRENT for the current queue. |
| Result<void> EnqueueAndWait | ( | JobQueueInterface * | queue = JOBQUEUE_CURRENT | ) | const |
Enqueues all jobs of the group including subgroups and waits for them. This implicitely indicates to the system that the current job cannot continue until the group has finished. THREADSAFE.
| [in] | queue | The queue, use JOBQUEUE_CURRENT for the current queue. |
| Bool Wait | ( | TimeValue | timeout = TIMEVALUE_INFINITE, |
| WAITMODE | mode = WAITMODE::DEFAULT |
||
| ) | const |
Waits until all jobs of the group have been executed.
Wait() might execute other jobs in the current queue until the group you are waiting for has finished or is timed out. Therefore you may never lock a shared resource another job might use as well and then wait. For one this could dead-lock and conceptually this would result in single-threaded performance.
If you try to call Wait() from a job which did not enqueue the group it will immediately return false because this would lead to a deadlock.
Instead of waiting for some group to start some action after it has finished you can subscribe to ObservableFinished(). This cannot dead-lock, is more efficient and can even be used to run the observer in a different queue. For example you can run a job and register an observer for it that will run on the main thread's queue and updates the UI. THREADSAFE.
| [in] | timeout | Maximum wait interval (or TIMEVALUE_INFINITE for no time-out). |
| [in] | mode | WAITMODE::DEFAULT by default. WAITMODE::RETURN_ON_CANCEL means that Wait() will return if the caller has been cancelled even if the condition has not been set yet. |
| Result<void> GetResult | ( | TimeValue | timeout = TIMEVALUE_INFINITE, |
| WAITMODE | mode = WAITMODE::DEFAULT |
||
| ) | const |
Waits until the group has been executed and returns OK on success or any errors returned by its jobs. If there are errors this might return an AggregatedError. THREADSAFE.
| [in] | timeout | Maximum wait interval (or TIMEVALUE_INFINITE for no time-out). |
| [in] | mode | WAITMODE::DEFAULT by default. WAITMODE::RETURN_ON_CANCEL means that Wait() will return if the caller has been cancelled even if the condition has not been set yet. |
| Result<void> Add | ( | ARGS &&... | args | ) | const |
Adds a job, a lambda, a BaseArray of jobs or a whole subgroup. The group takes exclusive ownership of whatever is added.
If you add a job it will be deleted after it has been executed, when the group will be deleted or when adding the job fails. The job must have been created using the DefaultAllocator, e.g. with Create() or NewObj(). If you had created a job on the stack or used a custom allocator this would lead to a crash.
If you add a BaseArray with multiple jobs of the same type to the group (this is faster than single Add()s) the jobs and the memory for the array will be freed after they have been executed. If adding the jobs failed they and the memory will be deleted automatically. The array must use the DefaultAllocator for memory allocations. Do not use a custom allocator because this would lead to a crash.
If you add a subgroup this will add a reference to the group and remove it when the group is not accessed anymore. If adding a subgroup fails its reference will be removed and its jobs will be stopped.
As long as the group is not enqueued you can add jobs from any thread. As soon as it is enqueued only jobs belonging to the group are allowed to add further jobs. THREADSAFE.
| [in] | args | A job, lambda, BaseArray of jobs or a subgroup. |
| Result<void> Add | ( | T && | obj, |
| JOBGROUPADDFLAGS | flags = JOBGROUPADDFLAGS::DEFAULT |
||
| ) | const |
The same as above but with the ability to specify the behaviour on early cancellation.
| ObservableFinishedBase<JobGroupInterface> ObservableFinished | ( | ) | const |
ObservableFinished is an observable that is triggered after this group has been executed. THREADSAFE.
| void Cancel | ( | ) | const |
Asks the group to cancel execution of all jobs that are enqueued. Currently running jobs are not affected unless they call IsCancelled(). If this is a subgroup the parent group will be cancelled too. The call will not wait for the group to cancel and it can be called from any thread or job. THREADSAFE.
| void CancelAndWait | ( | WAITMODE | mode = WAITMODE::DEFAULT | ) | const |
Asks the group to cancel execution and waits until it has finished. THREADSAFE.
| [in] | mode | WAITMODE::DEFAULT by default. |
|
static |
Returns a default value of the JobGroupRef (see defaultvalue.h for more details).
| String ToString | ( | const FormatStatement * | formatStatement = nullptr | ) | const |
Returns a readable string of the content.
| [in] | formatStatement | Nullptr or additional formatting instruction. Currently no additional formatting instructions are supported. |