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1008 lines
40 KiB
C++
1008 lines
40 KiB
C++
/*
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Copyright 2005-2014 Intel Corporation. All Rights Reserved.
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This file is part of Threading Building Blocks. Threading Building Blocks is free software;
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you can redistribute it and/or modify it under the terms of the GNU General Public License
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version 2 as published by the Free Software Foundation. Threading Building Blocks is
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distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the
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implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
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See the GNU General Public License for more details. You should have received a copy of
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the GNU General Public License along with Threading Building Blocks; if not, write to the
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Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
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As a special exception, you may use this file as part of a free software library without
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restriction. Specifically, if other files instantiate templates or use macros or inline
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functions from this file, or you compile this file and link it with other files to produce
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an executable, this file does not by itself cause the resulting executable to be covered
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by the GNU General Public License. This exception does not however invalidate any other
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reasons why the executable file might be covered by the GNU General Public License.
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*/
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#ifndef __TBB_task_H
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#define __TBB_task_H
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#include "tbb_stddef.h"
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#include "tbb_machine.h"
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#include <climits>
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typedef struct ___itt_caller *__itt_caller;
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namespace tbb {
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class task;
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class task_list;
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class task_group_context;
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// MSVC does not allow taking the address of a member that was defined
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// privately in task_base and made public in class task via a using declaration.
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#if _MSC_VER || (__GNUC__==3 && __GNUC_MINOR__<3)
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#define __TBB_TASK_BASE_ACCESS public
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#else
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#define __TBB_TASK_BASE_ACCESS private
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#endif
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namespace internal { //< @cond INTERNAL
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class allocate_additional_child_of_proxy: no_assign {
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//! No longer used, but retained for binary layout compatibility. Always NULL.
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task* self;
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task& parent;
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public:
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explicit allocate_additional_child_of_proxy( task& parent_ ) : self(NULL), parent(parent_) {}
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task& __TBB_EXPORTED_METHOD allocate( size_t size ) const;
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void __TBB_EXPORTED_METHOD free( task& ) const;
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};
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struct cpu_ctl_env_space { int space[sizeof(internal::uint64_t)/sizeof(int)]; };
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} //< namespace internal @endcond
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namespace interface5 {
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namespace internal {
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//! Base class for methods that became static in TBB 3.0.
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/** TBB's evolution caused the "this" argument for several methods to become obsolete.
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However, for backwards binary compatibility, the new methods need distinct names,
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otherwise the One Definition Rule would be broken. Hence the new methods are
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defined in this private base class, and then exposed in class task via
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using declarations. */
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class task_base: tbb::internal::no_copy {
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__TBB_TASK_BASE_ACCESS:
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friend class tbb::task;
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//! Schedule task for execution when a worker becomes available.
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static void spawn( task& t );
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//! Spawn multiple tasks and clear list.
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static void spawn( task_list& list );
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//! Like allocate_child, except that task's parent becomes "t", not this.
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/** Typically used in conjunction with schedule_to_reexecute to implement while loops.
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Atomically increments the reference count of t.parent() */
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static tbb::internal::allocate_additional_child_of_proxy allocate_additional_child_of( task& t ) {
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return tbb::internal::allocate_additional_child_of_proxy(t);
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}
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//! Destroy a task.
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/** Usually, calling this method is unnecessary, because a task is
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implicitly deleted after its execute() method runs. However,
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sometimes a task needs to be explicitly deallocated, such as
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when a root task is used as the parent in spawn_and_wait_for_all. */
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static void __TBB_EXPORTED_FUNC destroy( task& victim );
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};
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} // internal
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} // interface5
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//! @cond INTERNAL
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namespace internal {
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class scheduler: no_copy {
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public:
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//! For internal use only
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virtual void spawn( task& first, task*& next ) = 0;
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//! For internal use only
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virtual void wait_for_all( task& parent, task* child ) = 0;
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//! For internal use only
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virtual void spawn_root_and_wait( task& first, task*& next ) = 0;
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//! Pure virtual destructor;
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// Have to have it just to shut up overzealous compilation warnings
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virtual ~scheduler() = 0;
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//! For internal use only
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virtual void enqueue( task& t, void* reserved ) = 0;
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};
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//! A reference count
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/** Should always be non-negative. A signed type is used so that underflow can be detected. */
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typedef intptr_t reference_count;
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//! An id as used for specifying affinity.
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typedef unsigned short affinity_id;
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#if __TBB_TASK_GROUP_CONTEXT
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class generic_scheduler;
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struct context_list_node_t {
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context_list_node_t *my_prev,
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*my_next;
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};
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class allocate_root_with_context_proxy: no_assign {
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task_group_context& my_context;
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public:
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allocate_root_with_context_proxy ( task_group_context& ctx ) : my_context(ctx) {}
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task& __TBB_EXPORTED_METHOD allocate( size_t size ) const;
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void __TBB_EXPORTED_METHOD free( task& ) const;
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};
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#endif /* __TBB_TASK_GROUP_CONTEXT */
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class allocate_root_proxy: no_assign {
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public:
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static task& __TBB_EXPORTED_FUNC allocate( size_t size );
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static void __TBB_EXPORTED_FUNC free( task& );
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};
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class allocate_continuation_proxy: no_assign {
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public:
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task& __TBB_EXPORTED_METHOD allocate( size_t size ) const;
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void __TBB_EXPORTED_METHOD free( task& ) const;
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};
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class allocate_child_proxy: no_assign {
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public:
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task& __TBB_EXPORTED_METHOD allocate( size_t size ) const;
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void __TBB_EXPORTED_METHOD free( task& ) const;
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};
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//! Memory prefix to a task object.
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/** This class is internal to the library.
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Do not reference it directly, except within the library itself.
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Fields are ordered in way that preserves backwards compatibility and yields
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good packing on typical 32-bit and 64-bit platforms.
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In case task prefix size exceeds 32 or 64 bytes on IA32 and Intel64
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architectures correspondingly, consider dynamic setting of task_alignment
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and task_prefix_reservation_size based on the maximal operand size supported
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by the current CPU.
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@ingroup task_scheduling */
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class task_prefix {
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private:
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friend class tbb::task;
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friend class tbb::interface5::internal::task_base;
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friend class tbb::task_list;
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friend class internal::scheduler;
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friend class internal::allocate_root_proxy;
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friend class internal::allocate_child_proxy;
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friend class internal::allocate_continuation_proxy;
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friend class internal::allocate_additional_child_of_proxy;
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#if __TBB_TASK_GROUP_CONTEXT
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//! Shared context that is used to communicate asynchronous state changes
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/** Currently it is used to broadcast cancellation requests generated both
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by users and as the result of unhandled exceptions in the task::execute()
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methods. */
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task_group_context *context;
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#endif /* __TBB_TASK_GROUP_CONTEXT */
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//! The scheduler that allocated the task, or NULL if the task is big.
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/** Small tasks are pooled by the scheduler that allocated the task.
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If a scheduler needs to free a small task allocated by another scheduler,
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it returns the task to that other scheduler. This policy avoids
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memory space blowup issues for memory allocators that allocate from
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thread-specific pools. */
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scheduler* origin;
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#if __TBB_TASK_PRIORITY
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union {
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#endif /* __TBB_TASK_PRIORITY */
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//! Obsolete. The scheduler that owns the task.
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/** Retained only for the sake of backward binary compatibility.
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Still used by inline methods in the task.h header. **/
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scheduler* owner;
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#if __TBB_TASK_PRIORITY
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//! Pointer to the next offloaded lower priority task.
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/** Used to maintain a list of offloaded tasks inside the scheduler. **/
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task* next_offloaded;
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};
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#endif /* __TBB_TASK_PRIORITY */
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//! The task whose reference count includes me.
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/** In the "blocking style" of programming, this field points to the parent task.
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In the "continuation-passing style" of programming, this field points to the
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continuation of the parent. */
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tbb::task* parent;
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//! Reference count used for synchronization.
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/** In the "continuation-passing style" of programming, this field is
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the difference of the number of allocated children minus the
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number of children that have completed.
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In the "blocking style" of programming, this field is one more than the difference. */
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__TBB_atomic reference_count ref_count;
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//! Obsolete. Used to be scheduling depth before TBB 2.2
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/** Retained only for the sake of backward binary compatibility.
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Not used by TBB anymore. **/
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int depth;
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//! A task::state_type, stored as a byte for compactness.
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/** This state is exposed to users via method task::state(). */
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unsigned char state;
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//! Miscellaneous state that is not directly visible to users, stored as a byte for compactness.
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/** 0x0 -> version 1.0 task
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0x1 -> version >=2.1 task
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0x10 -> task was enqueued
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0x20 -> task_proxy
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0x40 -> task has live ref_count
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0x80 -> a stolen task */
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unsigned char extra_state;
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affinity_id affinity;
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//! "next" field for list of task
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tbb::task* next;
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//! The task corresponding to this task_prefix.
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tbb::task& task() {return *reinterpret_cast<tbb::task*>(this+1);}
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};
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} // namespace internal
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//! @endcond
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#if __TBB_TASK_GROUP_CONTEXT
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#if __TBB_TASK_PRIORITY
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namespace internal {
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static const int priority_stride_v4 = INT_MAX / 4;
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}
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enum priority_t {
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priority_normal = internal::priority_stride_v4 * 2,
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priority_low = priority_normal - internal::priority_stride_v4,
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priority_high = priority_normal + internal::priority_stride_v4
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};
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#endif /* __TBB_TASK_PRIORITY */
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#if TBB_USE_CAPTURED_EXCEPTION
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class tbb_exception;
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#else
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namespace internal {
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class tbb_exception_ptr;
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}
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#endif /* !TBB_USE_CAPTURED_EXCEPTION */
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class task_scheduler_init;
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namespace interface7 { class task_arena; }
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//! Used to form groups of tasks
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/** @ingroup task_scheduling
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The context services explicit cancellation requests from user code, and unhandled
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exceptions intercepted during tasks execution. Intercepting an exception results
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in generating internal cancellation requests (which is processed in exactly the
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same way as external ones).
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The context is associated with one or more root tasks and defines the cancellation
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group that includes all the descendants of the corresponding root task(s). Association
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is established when a context object is passed as an argument to the task::allocate_root()
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method. See task_group_context::task_group_context for more details.
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The context can be bound to another one, and other contexts can be bound to it,
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forming a tree-like structure: parent -> this -> children. Arrows here designate
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cancellation propagation direction. If a task in a cancellation group is cancelled
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all the other tasks in this group and groups bound to it (as children) get cancelled too.
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IMPLEMENTATION NOTE:
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When adding new members to task_group_context or changing types of existing ones,
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update the size of both padding buffers (_leading_padding and _trailing_padding)
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appropriately. See also VERSIONING NOTE at the constructor definition below. **/
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class task_group_context : internal::no_copy {
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private:
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friend class internal::generic_scheduler;
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friend class task_scheduler_init;
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friend class interface7::task_arena;
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#if TBB_USE_CAPTURED_EXCEPTION
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typedef tbb_exception exception_container_type;
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#else
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typedef internal::tbb_exception_ptr exception_container_type;
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#endif
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enum version_traits_word_layout {
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traits_offset = 16,
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version_mask = 0xFFFF,
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traits_mask = 0xFFFFul << traits_offset
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};
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public:
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enum kind_type {
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isolated,
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bound
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};
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enum traits_type {
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exact_exception = 0x0001ul << traits_offset,
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#if __TBB_FP_CONTEXT
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fp_settings = 0x0002ul << traits_offset,
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#endif
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concurrent_wait = 0x0004ul << traits_offset,
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#if TBB_USE_CAPTURED_EXCEPTION
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default_traits = 0
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#else
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default_traits = exact_exception
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#endif /* !TBB_USE_CAPTURED_EXCEPTION */
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};
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private:
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enum state {
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may_have_children = 1,
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// the following enumerations must be the last, new 2^x values must go above
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next_state_value, low_unused_state_bit = (next_state_value-1)*2
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};
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union {
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//! Flavor of this context: bound or isolated.
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// TODO: describe asynchronous use, and whether any memory semantics are needed
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__TBB_atomic kind_type my_kind;
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uintptr_t _my_kind_aligner;
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};
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//! Pointer to the context of the parent cancellation group. NULL for isolated contexts.
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task_group_context *my_parent;
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//! Used to form the thread specific list of contexts without additional memory allocation.
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/** A context is included into the list of the current thread when its binding to
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its parent happens. Any context can be present in the list of one thread only. **/
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internal::context_list_node_t my_node;
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//! Used to set and maintain stack stitching point for Intel Performance Tools.
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__itt_caller itt_caller;
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//! Leading padding protecting accesses to frequently used members from false sharing.
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/** Read accesses to the field my_cancellation_requested are on the hot path inside
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the scheduler. This padding ensures that this field never shares the same cache
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line with a local variable that is frequently written to. **/
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char _leading_padding[internal::NFS_MaxLineSize
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- 2 * sizeof(uintptr_t)- sizeof(void*) - sizeof(internal::context_list_node_t)
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- sizeof(__itt_caller)
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#if __TBB_FP_CONTEXT
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- sizeof(internal::cpu_ctl_env_space)
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#endif
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];
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#if __TBB_FP_CONTEXT
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//! Space for platform-specific FPU settings.
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/** Must only be accessed inside TBB binaries, and never directly in user
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code or inline methods. */
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internal::cpu_ctl_env_space my_cpu_ctl_env;
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#endif
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//! Specifies whether cancellation was requested for this task group.
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uintptr_t my_cancellation_requested;
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//! Version for run-time checks and behavioral traits of the context.
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/** Version occupies low 16 bits, and traits (zero or more ORed enumerators
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from the traits_type enumerations) take the next 16 bits.
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Original (zeroth) version of the context did not support any traits. **/
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uintptr_t my_version_and_traits;
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//! Pointer to the container storing exception being propagated across this task group.
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exception_container_type *my_exception;
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//! Scheduler instance that registered this context in its thread specific list.
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internal::generic_scheduler *my_owner;
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//! Internal state (combination of state flags, currently only may_have_children).
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uintptr_t my_state;
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#if __TBB_TASK_PRIORITY
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//! Priority level of the task group (in normalized representation)
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intptr_t my_priority;
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#endif /* __TBB_TASK_PRIORITY */
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//! Trailing padding protecting accesses to frequently used members from false sharing
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/** \sa _leading_padding **/
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char _trailing_padding[internal::NFS_MaxLineSize - 2 * sizeof(uintptr_t) - 2 * sizeof(void*)
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#if __TBB_TASK_PRIORITY
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- sizeof(intptr_t)
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#endif /* __TBB_TASK_PRIORITY */
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];
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public:
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//! Default & binding constructor.
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/** By default a bound context is created. That is this context will be bound
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(as child) to the context of the task calling task::allocate_root(this_context)
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method. Cancellation requests passed to the parent context are propagated
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to all the contexts bound to it. Similarly priority change is propagated
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from the parent context to its children.
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If task_group_context::isolated is used as the argument, then the tasks associated
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with this context will never be affected by events in any other context.
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Creating isolated contexts involve much less overhead, but they have limited
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utility. Normally when an exception occurs in an algorithm that has nested
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ones running, it is desirably to have all the nested algorithms cancelled
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as well. Such a behavior requires nested algorithms to use bound contexts.
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There is one good place where using isolated algorithms is beneficial. It is
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a master thread. That is if a particular algorithm is invoked directly from
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the master thread (not from a TBB task), supplying it with explicitly
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created isolated context will result in a faster algorithm startup.
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VERSIONING NOTE:
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Implementation(s) of task_group_context constructor(s) cannot be made
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entirely out-of-line because the run-time version must be set by the user
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code. This will become critically important for binary compatibility, if
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we ever have to change the size of the context object.
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Boosting the runtime version will also be necessary if new data fields are
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introduced in the currently unused padding areas and these fields are updated
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by inline methods. **/
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task_group_context ( kind_type relation_with_parent = bound,
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uintptr_t traits = default_traits )
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: my_kind(relation_with_parent)
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, my_version_and_traits(2 | traits)
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{
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init();
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}
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// Do not introduce standalone unbind method since it will break state propagation assumptions
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__TBB_EXPORTED_METHOD ~task_group_context ();
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//! Forcefully reinitializes the context after the task tree it was associated with is completed.
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/** Because the method assumes that all the tasks that used to be associated with
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this context have already finished, calling it while the context is still
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in use somewhere in the task hierarchy leads to undefined behavior.
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IMPORTANT: This method is not thread safe!
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The method does not change the context's parent if it is set. **/
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void __TBB_EXPORTED_METHOD reset ();
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//! Initiates cancellation of all tasks in this cancellation group and its subordinate groups.
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/** \return false if cancellation has already been requested, true otherwise.
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Note that canceling never fails. When false is returned, it just means that
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another thread (or this one) has already sent cancellation request to this
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context or to one of its ancestors (if this context is bound). It is guaranteed
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that when this method is concurrently called on the same not yet cancelled
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context, true will be returned by one and only one invocation. **/
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bool __TBB_EXPORTED_METHOD cancel_group_execution ();
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//! Returns true if the context received cancellation request.
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bool __TBB_EXPORTED_METHOD is_group_execution_cancelled () const;
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//! Records the pending exception, and cancels the task group.
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/** May be called only from inside a catch-block. If the context is already
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cancelled, does nothing.
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The method brings the task group associated with this context exactly into
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the state it would be in, if one of its tasks threw the currently pending
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exception during its execution. In other words, it emulates the actions
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of the scheduler's dispatch loop exception handler. **/
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void __TBB_EXPORTED_METHOD register_pending_exception ();
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|
#if __TBB_FP_CONTEXT
|
|
//! Captures the current FPU control settings to the context.
|
|
/** Because the method assumes that all the tasks that used to be associated with
|
|
this context have already finished, calling it while the context is still
|
|
in use somewhere in the task hierarchy leads to undefined behavior.
|
|
|
|
IMPORTANT: This method is not thread safe!
|
|
|
|
The method does not change the FPU control settings of the context's parent. **/
|
|
void __TBB_EXPORTED_METHOD capture_fp_settings ();
|
|
#endif
|
|
|
|
#if __TBB_TASK_PRIORITY
|
|
//! Changes priority of the task group
|
|
void set_priority ( priority_t );
|
|
|
|
//! Retrieves current priority of the current task group
|
|
priority_t priority () const;
|
|
#endif /* __TBB_TASK_PRIORITY */
|
|
|
|
protected:
|
|
//! Out-of-line part of the constructor.
|
|
/** Singled out to ensure backward binary compatibility of the future versions. **/
|
|
void __TBB_EXPORTED_METHOD init ();
|
|
|
|
private:
|
|
friend class task;
|
|
friend class internal::allocate_root_with_context_proxy;
|
|
|
|
static const kind_type binding_required = bound;
|
|
static const kind_type binding_completed = kind_type(bound+1);
|
|
static const kind_type detached = kind_type(binding_completed+1);
|
|
static const kind_type dying = kind_type(detached+1);
|
|
|
|
//! Propagates any state change detected to *this, and as an optimisation possibly also upward along the heritage line.
|
|
template <typename T>
|
|
void propagate_task_group_state ( T task_group_context::*mptr_state, task_group_context& src, T new_state );
|
|
|
|
//! Registers this context with the local scheduler and binds it to its parent context
|
|
void bind_to ( internal::generic_scheduler *local_sched );
|
|
|
|
//! Registers this context with the local scheduler
|
|
void register_with ( internal::generic_scheduler *local_sched );
|
|
|
|
#if __TBB_FP_CONTEXT
|
|
//! Copies FPU control setting from another context
|
|
// TODO: Consider adding #else stub in order to omit #if sections in other code
|
|
void copy_fp_settings( const task_group_context &src );
|
|
#endif /* __TBB_FP_CONTEXT */
|
|
}; // class task_group_context
|
|
|
|
#endif /* __TBB_TASK_GROUP_CONTEXT */
|
|
|
|
//! Base class for user-defined tasks.
|
|
/** @ingroup task_scheduling */
|
|
class task: __TBB_TASK_BASE_ACCESS interface5::internal::task_base {
|
|
|
|
//! Set reference count
|
|
void __TBB_EXPORTED_METHOD internal_set_ref_count( int count );
|
|
|
|
//! Decrement reference count and return its new value.
|
|
internal::reference_count __TBB_EXPORTED_METHOD internal_decrement_ref_count();
|
|
|
|
protected:
|
|
//! Default constructor.
|
|
task() {prefix().extra_state=1;}
|
|
|
|
public:
|
|
//! Destructor.
|
|
virtual ~task() {}
|
|
|
|
//! Should be overridden by derived classes.
|
|
virtual task* execute() = 0;
|
|
|
|
//! Enumeration of task states that the scheduler considers.
|
|
enum state_type {
|
|
//! task is running, and will be destroyed after method execute() completes.
|
|
executing,
|
|
//! task to be rescheduled.
|
|
reexecute,
|
|
//! task is in ready pool, or is going to be put there, or was just taken off.
|
|
ready,
|
|
//! task object is freshly allocated or recycled.
|
|
allocated,
|
|
//! task object is on free list, or is going to be put there, or was just taken off.
|
|
freed,
|
|
//! task to be recycled as continuation
|
|
recycle
|
|
#if __TBB_RECYCLE_TO_ENQUEUE
|
|
//! task to be scheduled for starvation-resistant execution
|
|
,to_enqueue
|
|
#endif
|
|
};
|
|
|
|
//------------------------------------------------------------------------
|
|
// Allocating tasks
|
|
//------------------------------------------------------------------------
|
|
|
|
//! Returns proxy for overloaded new that allocates a root task.
|
|
static internal::allocate_root_proxy allocate_root() {
|
|
return internal::allocate_root_proxy();
|
|
}
|
|
|
|
#if __TBB_TASK_GROUP_CONTEXT
|
|
//! Returns proxy for overloaded new that allocates a root task associated with user supplied context.
|
|
static internal::allocate_root_with_context_proxy allocate_root( task_group_context& ctx ) {
|
|
return internal::allocate_root_with_context_proxy(ctx);
|
|
}
|
|
#endif /* __TBB_TASK_GROUP_CONTEXT */
|
|
|
|
//! Returns proxy for overloaded new that allocates a continuation task of *this.
|
|
/** The continuation's parent becomes the parent of *this. */
|
|
internal::allocate_continuation_proxy& allocate_continuation() {
|
|
return *reinterpret_cast<internal::allocate_continuation_proxy*>(this);
|
|
}
|
|
|
|
//! Returns proxy for overloaded new that allocates a child task of *this.
|
|
internal::allocate_child_proxy& allocate_child() {
|
|
return *reinterpret_cast<internal::allocate_child_proxy*>(this);
|
|
}
|
|
|
|
//! Define recommended static form via import from base class.
|
|
using task_base::allocate_additional_child_of;
|
|
|
|
#if __TBB_DEPRECATED_TASK_INTERFACE
|
|
//! Destroy a task.
|
|
/** Usually, calling this method is unnecessary, because a task is
|
|
implicitly deleted after its execute() method runs. However,
|
|
sometimes a task needs to be explicitly deallocated, such as
|
|
when a root task is used as the parent in spawn_and_wait_for_all. */
|
|
void __TBB_EXPORTED_METHOD destroy( task& t );
|
|
#else /* !__TBB_DEPRECATED_TASK_INTERFACE */
|
|
//! Define recommended static form via import from base class.
|
|
using task_base::destroy;
|
|
#endif /* !__TBB_DEPRECATED_TASK_INTERFACE */
|
|
|
|
//------------------------------------------------------------------------
|
|
// Recycling of tasks
|
|
//------------------------------------------------------------------------
|
|
|
|
//! Change this to be a continuation of its former self.
|
|
/** The caller must guarantee that the task's refcount does not become zero until
|
|
after the method execute() returns. Typically, this is done by having
|
|
method execute() return a pointer to a child of the task. If the guarantee
|
|
cannot be made, use method recycle_as_safe_continuation instead.
|
|
|
|
Because of the hazard, this method may be deprecated in the future. */
|
|
void recycle_as_continuation() {
|
|
__TBB_ASSERT( prefix().state==executing, "execute not running?" );
|
|
prefix().state = allocated;
|
|
}
|
|
|
|
//! Recommended to use, safe variant of recycle_as_continuation
|
|
/** For safety, it requires additional increment of ref_count.
|
|
With no descendants and ref_count of 1, it has the semantics of recycle_to_reexecute. */
|
|
void recycle_as_safe_continuation() {
|
|
__TBB_ASSERT( prefix().state==executing, "execute not running?" );
|
|
prefix().state = recycle;
|
|
}
|
|
|
|
//! Change this to be a child of new_parent.
|
|
void recycle_as_child_of( task& new_parent ) {
|
|
internal::task_prefix& p = prefix();
|
|
__TBB_ASSERT( prefix().state==executing||prefix().state==allocated, "execute not running, or already recycled" );
|
|
__TBB_ASSERT( prefix().ref_count==0, "no child tasks allowed when recycled as a child" );
|
|
__TBB_ASSERT( p.parent==NULL, "parent must be null" );
|
|
__TBB_ASSERT( new_parent.prefix().state<=recycle, "corrupt parent's state" );
|
|
__TBB_ASSERT( new_parent.prefix().state!=freed, "parent already freed" );
|
|
p.state = allocated;
|
|
p.parent = &new_parent;
|
|
#if __TBB_TASK_GROUP_CONTEXT
|
|
p.context = new_parent.prefix().context;
|
|
#endif /* __TBB_TASK_GROUP_CONTEXT */
|
|
}
|
|
|
|
//! Schedule this for reexecution after current execute() returns.
|
|
/** Made obsolete by recycle_as_safe_continuation; may become deprecated. */
|
|
void recycle_to_reexecute() {
|
|
__TBB_ASSERT( prefix().state==executing, "execute not running, or already recycled" );
|
|
__TBB_ASSERT( prefix().ref_count==0, "no child tasks allowed when recycled for reexecution" );
|
|
prefix().state = reexecute;
|
|
}
|
|
|
|
#if __TBB_RECYCLE_TO_ENQUEUE
|
|
//! Schedule this to enqueue after descendant tasks complete.
|
|
/** Save enqueue/spawn difference, it has the semantics of recycle_as_safe_continuation. */
|
|
void recycle_to_enqueue() {
|
|
__TBB_ASSERT( prefix().state==executing, "execute not running, or already recycled" );
|
|
prefix().state = to_enqueue;
|
|
}
|
|
#endif /* __TBB_RECYCLE_TO_ENQUEUE */
|
|
|
|
//------------------------------------------------------------------------
|
|
// Spawning and blocking
|
|
//------------------------------------------------------------------------
|
|
|
|
//! Set reference count
|
|
void set_ref_count( int count ) {
|
|
#if TBB_USE_THREADING_TOOLS||TBB_USE_ASSERT
|
|
internal_set_ref_count(count);
|
|
#else
|
|
prefix().ref_count = count;
|
|
#endif /* TBB_USE_THREADING_TOOLS||TBB_USE_ASSERT */
|
|
}
|
|
|
|
//! Atomically increment reference count and returns its old value.
|
|
/** Has acquire semantics */
|
|
void increment_ref_count() {
|
|
__TBB_FetchAndIncrementWacquire( &prefix().ref_count );
|
|
}
|
|
|
|
//! Atomically decrement reference count and returns its new value.
|
|
/** Has release semantics. */
|
|
int decrement_ref_count() {
|
|
#if TBB_USE_THREADING_TOOLS||TBB_USE_ASSERT
|
|
return int(internal_decrement_ref_count());
|
|
#else
|
|
return int(__TBB_FetchAndDecrementWrelease( &prefix().ref_count ))-1;
|
|
#endif /* TBB_USE_THREADING_TOOLS||TBB_USE_ASSERT */
|
|
}
|
|
|
|
//! Define recommended static forms via import from base class.
|
|
using task_base::spawn;
|
|
|
|
//! Similar to spawn followed by wait_for_all, but more efficient.
|
|
void spawn_and_wait_for_all( task& child ) {
|
|
prefix().owner->wait_for_all( *this, &child );
|
|
}
|
|
|
|
//! Similar to spawn followed by wait_for_all, but more efficient.
|
|
void __TBB_EXPORTED_METHOD spawn_and_wait_for_all( task_list& list );
|
|
|
|
//! Spawn task allocated by allocate_root, wait for it to complete, and deallocate it.
|
|
static void spawn_root_and_wait( task& root ) {
|
|
root.prefix().owner->spawn_root_and_wait( root, root.prefix().next );
|
|
}
|
|
|
|
//! Spawn root tasks on list and wait for all of them to finish.
|
|
/** If there are more tasks than worker threads, the tasks are spawned in
|
|
order of front to back. */
|
|
static void spawn_root_and_wait( task_list& root_list );
|
|
|
|
//! Wait for reference count to become one, and set reference count to zero.
|
|
/** Works on tasks while waiting. */
|
|
void wait_for_all() {
|
|
prefix().owner->wait_for_all( *this, NULL );
|
|
}
|
|
|
|
//! Enqueue task for starvation-resistant execution.
|
|
#if __TBB_TASK_PRIORITY
|
|
/** The task will be enqueued on the normal priority level disregarding the
|
|
priority of its task group.
|
|
|
|
The rationale of such semantics is that priority of an enqueued task is
|
|
statically fixed at the moment of its enqueuing, while task group priority
|
|
is dynamic. Thus automatic priority inheritance would be generally a subject
|
|
to the race, which may result in unexpected behavior.
|
|
|
|
Use enqueue() overload with explicit priority value and task::group_priority()
|
|
method to implement such priority inheritance when it is really necessary. **/
|
|
#endif /* __TBB_TASK_PRIORITY */
|
|
static void enqueue( task& t ) {
|
|
t.prefix().owner->enqueue( t, NULL );
|
|
}
|
|
|
|
#if __TBB_TASK_PRIORITY
|
|
//! Enqueue task for starvation-resistant execution on the specified priority level.
|
|
static void enqueue( task& t, priority_t p ) {
|
|
__TBB_ASSERT( p == priority_low || p == priority_normal || p == priority_high, "Invalid priority level value" );
|
|
t.prefix().owner->enqueue( t, (void*)p );
|
|
}
|
|
#endif /* __TBB_TASK_PRIORITY */
|
|
|
|
//! The innermost task being executed or destroyed by the current thread at the moment.
|
|
static task& __TBB_EXPORTED_FUNC self();
|
|
|
|
//! task on whose behalf this task is working, or NULL if this is a root.
|
|
task* parent() const {return prefix().parent;}
|
|
|
|
//! sets parent task pointer to specified value
|
|
void set_parent(task* p) {
|
|
#if __TBB_TASK_GROUP_CONTEXT
|
|
__TBB_ASSERT(prefix().context == p->prefix().context, "The tasks must be in the same context");
|
|
#endif
|
|
prefix().parent = p;
|
|
}
|
|
|
|
#if __TBB_TASK_GROUP_CONTEXT
|
|
//! This method is deprecated and will be removed in the future.
|
|
/** Use method group() instead. **/
|
|
task_group_context* context() {return prefix().context;}
|
|
|
|
//! Pointer to the task group descriptor.
|
|
task_group_context* group () { return prefix().context; }
|
|
#endif /* __TBB_TASK_GROUP_CONTEXT */
|
|
|
|
//! True if task was stolen from the task pool of another thread.
|
|
bool is_stolen_task() const {
|
|
return (prefix().extra_state & 0x80)!=0;
|
|
}
|
|
|
|
//------------------------------------------------------------------------
|
|
// Debugging
|
|
//------------------------------------------------------------------------
|
|
|
|
//! Current execution state
|
|
state_type state() const {return state_type(prefix().state);}
|
|
|
|
//! The internal reference count.
|
|
int ref_count() const {
|
|
#if TBB_USE_ASSERT
|
|
internal::reference_count ref_count_ = prefix().ref_count;
|
|
__TBB_ASSERT( ref_count_==int(ref_count_), "integer overflow error");
|
|
#endif
|
|
return int(prefix().ref_count);
|
|
}
|
|
|
|
//! Obsolete, and only retained for the sake of backward compatibility. Always returns true.
|
|
bool __TBB_EXPORTED_METHOD is_owned_by_current_thread() const;
|
|
|
|
//------------------------------------------------------------------------
|
|
// Affinity
|
|
//------------------------------------------------------------------------
|
|
|
|
//! An id as used for specifying affinity.
|
|
/** Guaranteed to be integral type. Value of 0 means no affinity. */
|
|
typedef internal::affinity_id affinity_id;
|
|
|
|
//! Set affinity for this task.
|
|
void set_affinity( affinity_id id ) {prefix().affinity = id;}
|
|
|
|
//! Current affinity of this task
|
|
affinity_id affinity() const {return prefix().affinity;}
|
|
|
|
//! Invoked by scheduler to notify task that it ran on unexpected thread.
|
|
/** Invoked before method execute() runs, if task is stolen, or task has
|
|
affinity but will be executed on another thread.
|
|
|
|
The default action does nothing. */
|
|
virtual void __TBB_EXPORTED_METHOD note_affinity( affinity_id id );
|
|
|
|
#if __TBB_TASK_GROUP_CONTEXT
|
|
//! Moves this task from its current group into another one.
|
|
/** Argument ctx specifies the new group.
|
|
|
|
The primary purpose of this method is to associate unique task group context
|
|
with a task allocated for subsequent enqueuing. In contrast to spawned tasks
|
|
enqueued ones normally outlive the scope where they were created. This makes
|
|
traditional usage model where task group context are allocated locally on
|
|
the stack inapplicable. Dynamic allocation of context objects is performance
|
|
inefficient. Method change_group() allows to make task group context object
|
|
a member of the task class, and then associate it with its containing task
|
|
object in the latter's constructor. **/
|
|
void __TBB_EXPORTED_METHOD change_group ( task_group_context& ctx );
|
|
|
|
//! Initiates cancellation of all tasks in this cancellation group and its subordinate groups.
|
|
/** \return false if cancellation has already been requested, true otherwise. **/
|
|
bool cancel_group_execution () { return prefix().context->cancel_group_execution(); }
|
|
|
|
//! Returns true if the context has received cancellation request.
|
|
bool is_cancelled () const { return prefix().context->is_group_execution_cancelled(); }
|
|
#else
|
|
bool is_cancelled () const { return false; }
|
|
#endif /* __TBB_TASK_GROUP_CONTEXT */
|
|
|
|
#if __TBB_TASK_PRIORITY
|
|
//! Changes priority of the task group this task belongs to.
|
|
void set_group_priority ( priority_t p ) { prefix().context->set_priority(p); }
|
|
|
|
//! Retrieves current priority of the task group this task belongs to.
|
|
priority_t group_priority () const { return prefix().context->priority(); }
|
|
|
|
#endif /* __TBB_TASK_PRIORITY */
|
|
|
|
private:
|
|
friend class interface5::internal::task_base;
|
|
friend class task_list;
|
|
friend class internal::scheduler;
|
|
friend class internal::allocate_root_proxy;
|
|
#if __TBB_TASK_GROUP_CONTEXT
|
|
friend class internal::allocate_root_with_context_proxy;
|
|
#endif /* __TBB_TASK_GROUP_CONTEXT */
|
|
friend class internal::allocate_continuation_proxy;
|
|
friend class internal::allocate_child_proxy;
|
|
friend class internal::allocate_additional_child_of_proxy;
|
|
|
|
//! Get reference to corresponding task_prefix.
|
|
/** Version tag prevents loader on Linux from using the wrong symbol in debug builds. **/
|
|
internal::task_prefix& prefix( internal::version_tag* = NULL ) const {
|
|
return reinterpret_cast<internal::task_prefix*>(const_cast<task*>(this))[-1];
|
|
}
|
|
}; // class task
|
|
|
|
//! task that does nothing. Useful for synchronization.
|
|
/** @ingroup task_scheduling */
|
|
class empty_task: public task {
|
|
/*override*/ task* execute() {
|
|
return NULL;
|
|
}
|
|
};
|
|
|
|
//! @cond INTERNAL
|
|
namespace internal {
|
|
template<typename F>
|
|
class function_task : public task {
|
|
F my_func;
|
|
/*override*/ task* execute() {
|
|
my_func();
|
|
return NULL;
|
|
}
|
|
public:
|
|
function_task( const F& f ) : my_func(f) {}
|
|
};
|
|
} // namespace internal
|
|
//! @endcond
|
|
|
|
//! A list of children.
|
|
/** Used for method task::spawn_children
|
|
@ingroup task_scheduling */
|
|
class task_list: internal::no_copy {
|
|
private:
|
|
task* first;
|
|
task** next_ptr;
|
|
friend class task;
|
|
friend class interface5::internal::task_base;
|
|
public:
|
|
//! Construct empty list
|
|
task_list() : first(NULL), next_ptr(&first) {}
|
|
|
|
//! Destroys the list, but does not destroy the task objects.
|
|
~task_list() {}
|
|
|
|
//! True if list if empty; false otherwise.
|
|
bool empty() const {return !first;}
|
|
|
|
//! Push task onto back of list.
|
|
void push_back( task& task ) {
|
|
task.prefix().next = NULL;
|
|
*next_ptr = &task;
|
|
next_ptr = &task.prefix().next;
|
|
}
|
|
|
|
//! Pop the front task from the list.
|
|
task& pop_front() {
|
|
__TBB_ASSERT( !empty(), "attempt to pop item from empty task_list" );
|
|
task* result = first;
|
|
first = result->prefix().next;
|
|
if( !first ) next_ptr = &first;
|
|
return *result;
|
|
}
|
|
|
|
//! Clear the list
|
|
void clear() {
|
|
first=NULL;
|
|
next_ptr=&first;
|
|
}
|
|
};
|
|
|
|
inline void interface5::internal::task_base::spawn( task& t ) {
|
|
t.prefix().owner->spawn( t, t.prefix().next );
|
|
}
|
|
|
|
inline void interface5::internal::task_base::spawn( task_list& list ) {
|
|
if( task* t = list.first ) {
|
|
t->prefix().owner->spawn( *t, *list.next_ptr );
|
|
list.clear();
|
|
}
|
|
}
|
|
|
|
inline void task::spawn_root_and_wait( task_list& root_list ) {
|
|
if( task* t = root_list.first ) {
|
|
t->prefix().owner->spawn_root_and_wait( *t, *root_list.next_ptr );
|
|
root_list.clear();
|
|
}
|
|
}
|
|
|
|
} // namespace tbb
|
|
|
|
inline void *operator new( size_t bytes, const tbb::internal::allocate_root_proxy& ) {
|
|
return &tbb::internal::allocate_root_proxy::allocate(bytes);
|
|
}
|
|
|
|
inline void operator delete( void* task, const tbb::internal::allocate_root_proxy& ) {
|
|
tbb::internal::allocate_root_proxy::free( *static_cast<tbb::task*>(task) );
|
|
}
|
|
|
|
#if __TBB_TASK_GROUP_CONTEXT
|
|
inline void *operator new( size_t bytes, const tbb::internal::allocate_root_with_context_proxy& p ) {
|
|
return &p.allocate(bytes);
|
|
}
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inline void operator delete( void* task, const tbb::internal::allocate_root_with_context_proxy& p ) {
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p.free( *static_cast<tbb::task*>(task) );
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}
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#endif /* __TBB_TASK_GROUP_CONTEXT */
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inline void *operator new( size_t bytes, const tbb::internal::allocate_continuation_proxy& p ) {
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return &p.allocate(bytes);
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|
}
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|
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inline void operator delete( void* task, const tbb::internal::allocate_continuation_proxy& p ) {
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p.free( *static_cast<tbb::task*>(task) );
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|
}
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|
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inline void *operator new( size_t bytes, const tbb::internal::allocate_child_proxy& p ) {
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|
return &p.allocate(bytes);
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|
}
|
|
|
|
inline void operator delete( void* task, const tbb::internal::allocate_child_proxy& p ) {
|
|
p.free( *static_cast<tbb::task*>(task) );
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|
}
|
|
|
|
inline void *operator new( size_t bytes, const tbb::internal::allocate_additional_child_of_proxy& p ) {
|
|
return &p.allocate(bytes);
|
|
}
|
|
|
|
inline void operator delete( void* task, const tbb::internal::allocate_additional_child_of_proxy& p ) {
|
|
p.free( *static_cast<tbb::task*>(task) );
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|
}
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|
|
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#endif /* __TBB_task_H */
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