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380 lines
14 KiB
C++
380 lines
14 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_exception_H
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#define __TBB_exception_H
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#include "tbb_stddef.h"
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#if !TBB_USE_EXCEPTIONS && _MSC_VER
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// Suppress "C++ exception handler used, but unwind semantics are not enabled" warning in STL headers
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#pragma warning (push)
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#pragma warning (disable: 4530)
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#endif
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#include <exception>
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#include <new> //required for bad_alloc definition, operators new
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#include <string> // required to construct std exception classes
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#if !TBB_USE_EXCEPTIONS && _MSC_VER
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#pragma warning (pop)
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#endif
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namespace tbb {
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//! Exception for concurrent containers
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class bad_last_alloc : public std::bad_alloc {
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public:
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/*override*/ const char* what() const throw();
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#if __TBB_DEFAULT_DTOR_THROW_SPEC_BROKEN
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/*override*/ ~bad_last_alloc() throw() {}
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#endif
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};
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//! Exception for PPL locks
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class improper_lock : public std::exception {
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public:
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/*override*/ const char* what() const throw();
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};
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//! Exception for user-initiated abort
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class user_abort : public std::exception {
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public:
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/*override*/ const char* what() const throw();
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};
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//! Exception for missing wait on structured_task_group
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class missing_wait : public std::exception {
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public:
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/*override*/ const char* what() const throw();
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};
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//! Exception for repeated scheduling of the same task_handle
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class invalid_multiple_scheduling : public std::exception {
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public:
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/*override*/ const char* what() const throw();
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};
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namespace internal {
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//! Obsolete
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void __TBB_EXPORTED_FUNC throw_bad_last_alloc_exception_v4();
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enum exception_id {
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eid_bad_alloc = 1,
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eid_bad_last_alloc,
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eid_nonpositive_step,
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eid_out_of_range,
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eid_segment_range_error,
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eid_index_range_error,
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eid_missing_wait,
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eid_invalid_multiple_scheduling,
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eid_improper_lock,
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eid_possible_deadlock,
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eid_operation_not_permitted,
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eid_condvar_wait_failed,
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eid_invalid_load_factor,
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eid_reserved, // free slot for backward compatibility, can be reused.
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eid_invalid_swap,
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eid_reservation_length_error,
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eid_invalid_key,
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eid_user_abort,
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eid_reserved1,
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#if __TBB_SUPPORTS_WORKERS_WAITING_IN_TERMINATE
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// This id is used only inside library and only for support of CPF functionality.
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// So, if we drop the functionality, eid_reserved1 can be safely renamed and reused.
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eid_blocking_sch_init = eid_reserved1,
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#endif
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eid_bad_tagged_msg_cast,
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//! The last enumerator tracks the number of defined IDs. It must remain the last one.
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/** When adding new IDs, place them immediately _before_ this comment (that is
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_after_ all the existing IDs. NEVER insert new IDs between the existing ones. **/
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eid_max
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};
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//! Gathers all throw operators in one place.
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/** Its purpose is to minimize code bloat that can be caused by throw operators
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scattered in multiple places, especially in templates. **/
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void __TBB_EXPORTED_FUNC throw_exception_v4 ( exception_id );
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//! Versionless convenience wrapper for throw_exception_v4()
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inline void throw_exception ( exception_id eid ) { throw_exception_v4(eid); }
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} // namespace internal
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} // namespace tbb
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#if __TBB_TASK_GROUP_CONTEXT
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#include "tbb_allocator.h"
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#include <typeinfo> //for typeid
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namespace tbb {
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//! Interface to be implemented by all exceptions TBB recognizes and propagates across the threads.
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/** If an unhandled exception of the type derived from tbb::tbb_exception is intercepted
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by the TBB scheduler in one of the worker threads, it is delivered to and re-thrown in
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the root thread. The root thread is the thread that has started the outermost algorithm
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or root task sharing the same task_group_context with the guilty algorithm/task (the one
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that threw the exception first).
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Note: when documentation mentions workers with respect to exception handling,
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masters are implied as well, because they are completely equivalent in this context.
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Consequently a root thread can be master or worker thread.
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NOTE: In case of nested algorithms or complex task hierarchies when the nested
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levels share (explicitly or by means of implicit inheritance) the task group
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context of the outermost level, the exception may be (re-)thrown multiple times
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(ultimately - in each worker on each nesting level) before reaching the root
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thread at the outermost level. IMPORTANT: if you intercept an exception derived
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from this class on a nested level, you must re-throw it in the catch block by means
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of the "throw;" operator.
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TBB provides two implementations of this interface: tbb::captured_exception and
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template class tbb::movable_exception. See their declarations for more info. **/
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class tbb_exception : public std::exception
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{
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/** No operator new is provided because the TBB usage model assumes dynamic
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creation of the TBB exception objects only by means of applying move()
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operation on an exception thrown out of TBB scheduler. **/
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void* operator new ( size_t );
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public:
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#if __clang__
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// At -O3 or even -O2 optimization level, Clang may fully throw away an empty destructor
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// of tbb_exception from destructors of derived classes. As a result, it does not create
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// vtable for tbb_exception, which is a required part of TBB binary interface.
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// Making the destructor non-empty (with just a semicolon) prevents that optimization.
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~tbb_exception() throw() { /* keep the semicolon! */ ; }
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#endif
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//! Creates and returns pointer to the deep copy of this exception object.
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/** Move semantics is allowed. **/
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virtual tbb_exception* move () throw() = 0;
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//! Destroys objects created by the move() method.
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/** Frees memory and calls destructor for this exception object.
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Can and must be used only on objects created by the move method. **/
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virtual void destroy () throw() = 0;
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//! Throws this exception object.
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/** Make sure that if you have several levels of derivation from this interface
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you implement or override this method on the most derived level. The implementation
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is as simple as "throw *this;". Failure to do this will result in exception
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of a base class type being thrown. **/
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virtual void throw_self () = 0;
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//! Returns RTTI name of the originally intercepted exception
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virtual const char* name() const throw() = 0;
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//! Returns the result of originally intercepted exception's what() method.
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virtual const char* what() const throw() = 0;
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/** Operator delete is provided only to allow using existing smart pointers
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with TBB exception objects obtained as the result of applying move()
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operation on an exception thrown out of TBB scheduler.
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When overriding method move() make sure to override operator delete as well
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if memory is allocated not by TBB's scalable allocator. **/
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void operator delete ( void* p ) {
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internal::deallocate_via_handler_v3(p);
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}
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};
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//! This class is used by TBB to propagate information about unhandled exceptions into the root thread.
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/** Exception of this type is thrown by TBB in the root thread (thread that started a parallel
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algorithm ) if an unhandled exception was intercepted during the algorithm execution in one
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of the workers.
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\sa tbb::tbb_exception **/
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class captured_exception : public tbb_exception
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{
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public:
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captured_exception ( const captured_exception& src )
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: tbb_exception(src), my_dynamic(false)
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{
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set(src.my_exception_name, src.my_exception_info);
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}
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captured_exception ( const char* name_, const char* info )
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: my_dynamic(false)
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{
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set(name_, info);
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}
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__TBB_EXPORTED_METHOD ~captured_exception () throw();
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captured_exception& operator= ( const captured_exception& src ) {
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if ( this != &src ) {
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clear();
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set(src.my_exception_name, src.my_exception_info);
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}
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return *this;
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}
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/*override*/
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captured_exception* __TBB_EXPORTED_METHOD move () throw();
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/*override*/
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void __TBB_EXPORTED_METHOD destroy () throw();
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/*override*/
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void throw_self () { __TBB_THROW(*this); }
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/*override*/
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const char* __TBB_EXPORTED_METHOD name() const throw();
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/*override*/
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const char* __TBB_EXPORTED_METHOD what() const throw();
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void __TBB_EXPORTED_METHOD set ( const char* name, const char* info ) throw();
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void __TBB_EXPORTED_METHOD clear () throw();
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private:
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//! Used only by method clone().
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captured_exception() {}
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//! Functionally equivalent to {captured_exception e(name,info); return e.clone();}
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static captured_exception* allocate ( const char* name, const char* info );
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bool my_dynamic;
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const char* my_exception_name;
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const char* my_exception_info;
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};
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//! Template that can be used to implement exception that transfers arbitrary ExceptionData to the root thread
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/** Code using TBB can instantiate this template with an arbitrary ExceptionData type
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and throw this exception object. Such exceptions are intercepted by the TBB scheduler
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and delivered to the root thread ().
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\sa tbb::tbb_exception **/
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template<typename ExceptionData>
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class movable_exception : public tbb_exception
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{
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typedef movable_exception<ExceptionData> self_type;
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public:
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movable_exception ( const ExceptionData& data_ )
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: my_exception_data(data_)
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, my_dynamic(false)
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, my_exception_name(
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#if TBB_USE_EXCEPTIONS
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typeid(self_type).name()
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#else /* !TBB_USE_EXCEPTIONS */
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"movable_exception"
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#endif /* !TBB_USE_EXCEPTIONS */
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)
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{}
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movable_exception ( const movable_exception& src ) throw ()
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: tbb_exception(src)
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, my_exception_data(src.my_exception_data)
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, my_dynamic(false)
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, my_exception_name(src.my_exception_name)
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{}
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~movable_exception () throw() {}
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const movable_exception& operator= ( const movable_exception& src ) {
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if ( this != &src ) {
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my_exception_data = src.my_exception_data;
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my_exception_name = src.my_exception_name;
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}
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return *this;
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}
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ExceptionData& data () throw() { return my_exception_data; }
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const ExceptionData& data () const throw() { return my_exception_data; }
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/*override*/ const char* name () const throw() { return my_exception_name; }
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/*override*/ const char* what () const throw() { return "tbb::movable_exception"; }
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/*override*/
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movable_exception* move () throw() {
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void* e = internal::allocate_via_handler_v3(sizeof(movable_exception));
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if ( e ) {
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::new (e) movable_exception(*this);
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((movable_exception*)e)->my_dynamic = true;
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}
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return (movable_exception*)e;
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}
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/*override*/
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void destroy () throw() {
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__TBB_ASSERT ( my_dynamic, "Method destroy can be called only on dynamically allocated movable_exceptions" );
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if ( my_dynamic ) {
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this->~movable_exception();
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internal::deallocate_via_handler_v3(this);
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}
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}
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/*override*/
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void throw_self () { __TBB_THROW( *this ); }
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protected:
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//! User data
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ExceptionData my_exception_data;
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private:
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//! Flag specifying whether this object has been dynamically allocated (by the move method)
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bool my_dynamic;
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//! RTTI name of this class
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/** We rely on the fact that RTTI names are static string constants. **/
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const char* my_exception_name;
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};
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#if !TBB_USE_CAPTURED_EXCEPTION
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namespace internal {
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//! Exception container that preserves the exact copy of the original exception
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/** This class can be used only when the appropriate runtime support (mandated
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by C++0x) is present **/
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class tbb_exception_ptr {
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std::exception_ptr my_ptr;
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public:
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static tbb_exception_ptr* allocate ();
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static tbb_exception_ptr* allocate ( const tbb_exception& tag );
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//! This overload uses move semantics (i.e. it empties src)
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static tbb_exception_ptr* allocate ( captured_exception& src );
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//! Destroys this objects
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/** Note that objects of this type can be created only by the allocate() method. **/
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void destroy () throw();
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//! Throws the contained exception .
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void throw_self () { std::rethrow_exception(my_ptr); }
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private:
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tbb_exception_ptr ( const std::exception_ptr& src ) : my_ptr(src) {}
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tbb_exception_ptr ( const captured_exception& src ) :
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#if __TBB_MAKE_EXCEPTION_PTR_PRESENT
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my_ptr(std::make_exception_ptr(src)) // the final function name in C++11
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#else
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my_ptr(std::copy_exception(src)) // early C++0x drafts name
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#endif
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{}
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}; // class tbb::internal::tbb_exception_ptr
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} // namespace internal
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#endif /* !TBB_USE_CAPTURED_EXCEPTION */
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} // namespace tbb
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#endif /* __TBB_TASK_GROUP_CONTEXT */
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#endif /* __TBB_exception_H */
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