3 #ifndef CDSLIB_INTRUSIVE_MICHAEL_SET_RCU_H
4 #define CDSLIB_INTRUSIVE_MICHAEL_SET_RCU_H
6 #include <cds/intrusive/details/michael_set_base.h>
7 #include <cds/details/allocator.h>
9 namespace cds { namespace intrusive {
11 /// Michael's hash set, \ref cds_urcu_desc "RCU" specialization
12 /** @ingroup cds_intrusive_map
13 \anchor cds_intrusive_MichaelHashSet_rcu
16 - [2002] Maged Michael "High performance dynamic lock-free hash tables and list-based sets"
18 Michael's hash table algorithm is based on lock-free ordered list and it is very simple.
19 The main structure is an array \p T of size \p M. Each element in \p T is basically a pointer
20 to a hash bucket, implemented as a singly linked list. The array of buckets cannot be dynamically expanded.
21 However, each bucket may contain unbounded number of items.
23 Template parameters are:
24 - \p RCU - one of \ref cds_urcu_gc "RCU type"
25 - \p OrderedList - ordered list implementation used as bucket for hash set, for example, MichaelList, LazyList.
26 The intrusive ordered list implementation specifies the type \p T stored in the hash-set, the reclamation
27 schema \p GC used by hash-set, the comparison functor for the type \p T and other features specific for
29 - \p Traits - type traits, default is \p michael_set::traits.
30 Instead of defining \p Traits struct you can use option-based syntax with \p michael_set::make_traits metafunction.
33 Before including <tt><cds/intrusive/michael_set_rcu.h></tt> you should include appropriate RCU header file,
34 see \ref cds_urcu_gc "RCU type" for list of existing RCU class and corresponding header files.
35 For example, for \ref cds_urcu_general_buffered_gc "general-purpose buffered RCU" you should include:
37 #include <cds/urcu/general_buffered.h>
38 #include <cds/intrusive/michael_list_rcu.h>
39 #include <cds/intrusive/michael_set_rcu.h>
42 // Hash functor for struct Foo
44 size_t operator()( Foo const& foo ) const { return ... }
47 // Now, you can declare Michael's list for type Foo and default traits:
48 typedef cds::intrusive::MichaelList<cds::urcu::gc< general_buffered<> >, Foo > rcu_michael_list;
50 // Declare Michael's set with MichaelList as bucket type
51 typedef cds::intrusive::MichaelSet<
52 cds::urcu::gc< general_buffered<> >,
54 cds::intrusive::michael_set::make_traits<
55 cds::opt::::hash< foo_hash >
59 // Declares hash set for 1000000 items with load factor 2
60 rcu_michael_set theSet( 1000000, 2 );
62 // Now you can use theSet object in many threads without any synchronization.
68 #ifdef CDS_DOXYGEN_INVOKED
69 class Traits = michael_set::traits
74 class MichaelHashSet< cds::urcu::gc< RCU >, OrderedList, Traits >
77 typedef cds::urcu::gc< RCU > gc; ///< RCU schema
78 typedef OrderedList bucket_type; ///< type of ordered list used as a bucket implementation
79 typedef Traits traits; ///< Set traits
81 typedef typename bucket_type::value_type value_type ; ///< type of value stored in the list
82 typedef typename bucket_type::key_comparator key_comparator ; ///< key comparing functor
83 typedef typename bucket_type::disposer disposer ; ///< Node disposer functor
85 /// Hash functor for \ref value_type and all its derivatives that you use
86 typedef typename cds::opt::v::hash_selector< typename traits::hash >::type hash;
87 typedef typename traits::item_counter item_counter; ///< Item counter type
89 /// Bucket table allocator
90 typedef cds::details::Allocator< bucket_type, typename traits::allocator > bucket_table_allocator;
92 typedef typename bucket_type::rcu_lock rcu_lock; ///< RCU scoped lock
93 typedef typename bucket_type::exempt_ptr exempt_ptr; ///< pointer to extracted node
94 typedef typename bucket_type::raw_ptr raw_ptr; ///< Return type of \p get() member function and its derivatives
95 /// Group of \p extract_xxx functions require external locking if underlying ordered list requires that
96 static CDS_CONSTEXPR const bool c_bExtractLockExternal = bucket_type::c_bExtractLockExternal;
99 item_counter m_ItemCounter; ///< Item counter
100 hash m_HashFunctor; ///< Hash functor
101 bucket_type * m_Buckets; ///< bucket table
105 const size_t m_nHashBitmask;
110 /// Calculates hash value of \p key
111 template <typename Q>
112 size_t hash_value( Q const& key ) const
114 return m_HashFunctor( key ) & m_nHashBitmask;
117 /// Returns the bucket (ordered list) for \p key
118 template <typename Q>
119 bucket_type& bucket( Q const& key )
121 return m_Buckets[ hash_value( key ) ];
123 template <typename Q>
124 bucket_type const& bucket( Q const& key ) const
126 return m_Buckets[ hash_value( key ) ];
133 The forward iterator for Michael's set is based on \p OrderedList forward iterator and has some features:
134 - it has no post-increment operator
135 - it iterates items in unordered fashion
137 typedef michael_set::details::iterator< bucket_type, false > iterator;
139 /// Const forward iterator
141 For iterator's features and requirements see \ref iterator
143 typedef michael_set::details::iterator< bucket_type, true > const_iterator;
145 /// Returns a forward iterator addressing the first element in a set
147 For empty set \code begin() == end() \endcode
151 return iterator( m_Buckets[0].begin(), m_Buckets, m_Buckets + bucket_count() );
154 /// Returns an iterator that addresses the location succeeding the last element in a set
156 Do not use the value returned by <tt>end</tt> function to access any item.
157 The returned value can be used only to control reaching the end of the set.
158 For empty set \code begin() == end() \endcode
162 return iterator( m_Buckets[bucket_count() - 1].end(), m_Buckets + bucket_count() - 1, m_Buckets + bucket_count() );
165 /// Returns a forward const iterator addressing the first element in a set
167 const_iterator begin() const
171 const_iterator cbegin() const
173 return const_iterator( m_Buckets[0].cbegin(), m_Buckets, m_Buckets + bucket_count() );
177 /// Returns an const iterator that addresses the location succeeding the last element in a set
179 const_iterator end() const
183 const_iterator cend() const
185 return const_iterator( m_Buckets[bucket_count() - 1].cend(), m_Buckets + bucket_count() - 1, m_Buckets + bucket_count() );
190 /// Initialize hash set
192 The Michael's hash set is an unbounded container, but its hash table is non-expandable.
193 At construction time you should pass estimated maximum item count and a load factor.
194 The load factor is average size of one bucket - a small number between 1 and 10.
195 The bucket is an ordered single-linked list, the complexity of searching in the bucket is linear <tt>O(nLoadFactor)</tt>.
196 The constructor defines hash table size as rounding <tt>nMaxItemCount / nLoadFactor</tt> up to nearest power of two.
199 size_t nMaxItemCount, ///< estimation of max item count in the hash set
200 size_t nLoadFactor ///< load factor: average size of the bucket
201 ) : m_nHashBitmask( michael_set::details::init_hash_bitmask( nMaxItemCount, nLoadFactor ))
203 // GC and OrderedList::gc must be the same
204 static_assert( std::is_same<gc, typename bucket_type::gc>::value, "GC and OrderedList::gc must be the same");
206 // atomicity::empty_item_counter is not allowed as a item counter
207 static_assert( !std::is_same<item_counter, atomicity::empty_item_counter>::value,
208 "atomicity::empty_item_counter is not allowed as a item counter");
210 m_Buckets = bucket_table_allocator().NewArray( bucket_count() );
213 /// Clear hash set and destroy it
217 bucket_table_allocator().Delete( m_Buckets, bucket_count() );
222 The function inserts \p val in the set if it does not contain
223 an item with key equal to \p val.
225 Returns \p true if \p val is placed into the set, \p false otherwise.
227 bool insert( value_type& val )
229 bool bRet = bucket( val ).insert( val );
237 This function is intended for derived non-intrusive containers.
239 The function allows to split creating of new item into two part:
240 - create item with key only
241 - insert new item into the set
242 - if inserting is success, calls \p f functor to initialize value-field of \p val.
244 The functor signature is:
246 void func( value_type& val );
248 where \p val is the item inserted.
249 The user-defined functor is called only if the inserting is success.
251 @warning For \ref cds_intrusive_MichaelList_rcu "MichaelList" as the bucket see \ref cds_intrusive_item_creating "insert item troubleshooting".
252 \ref cds_intrusive_LazyList_rcu "LazyList" provides exclusive access to inserted item and does not require any node-level
255 template <typename Func>
256 bool insert( value_type& val, Func f )
258 bool bRet = bucket( val ).insert( val, f );
264 /// Updates the element
266 The operation performs inserting or changing data with lock-free manner.
268 If the item \p val not found in the set, then \p val is inserted iff \p bAllowInsert is \p true.
269 Otherwise, the functor \p func is called with item found.
270 The functor signature is:
273 void operator()( bool bNew, value_type& item, value_type& val );
277 - \p bNew - \p true if the item has been inserted, \p false otherwise
278 - \p item - item of the set
279 - \p val - argument \p val passed into the \p %update() function
280 If new item has been inserted (i.e. \p bNew is \p true) then \p item and \p val arguments
281 refers to the same thing.
283 The functor may change non-key fields of the \p item.
285 Returns <tt> std::pair<bool, bool> </tt> where \p first is \p true if operation is successfull,
286 \p second is \p true if new item has been added or \p false if the item with \p key
287 already is in the set.
289 @warning For \ref cds_intrusive_MichaelList_hp "MichaelList" as the bucket see \ref cds_intrusive_item_creating "insert item troubleshooting".
290 \ref cds_intrusive_LazyList_hp "LazyList" provides exclusive access to inserted item and does not require any node-level
293 template <typename Func>
294 std::pair<bool, bool> update( value_type& val, Func func, bool bAllowInsert = true )
296 std::pair<bool, bool> bRet = bucket( val ).update( val, func, bAllowInsert );
302 template <typename Func>
303 CDS_DEPRECATED("ensure() is deprecated, use update()")
304 std::pair<bool, bool> ensure( value_type& val, Func func )
306 return update( val, func, true );
310 /// Unlinks the item \p val from the set
312 The function searches the item \p val in the set and unlink it from the set
313 if it is found and is equal to \p val.
315 The function returns \p true if success and \p false otherwise.
317 bool unlink( value_type& val )
319 bool bRet = bucket( val ).unlink( val );
325 /// Deletes the item from the set
326 /** \anchor cds_intrusive_MichaelHashSet_rcu_erase
327 The function searches an item with key equal to \p key in the set,
328 unlinks it from the set, and returns \p true.
329 If the item with key equal to \p key is not found the function return \p false.
331 Note the hash functor should accept a parameter of type \p Q that may be not the same as \p value_type.
333 template <typename Q>
334 bool erase( Q const& key )
336 if ( bucket( key ).erase( key )) {
343 /// Deletes the item from the set using \p pred predicate for searching
345 The function is an analog of \ref cds_intrusive_MichaelHashSet_rcu_erase "erase(Q const&)"
346 but \p pred is used for key comparing.
347 \p Less functor has the interface like \p std::less.
348 \p pred must imply the same element order as the comparator used for building the set.
350 template <typename Q, typename Less>
351 bool erase_with( Q const& key, Less pred )
353 if ( bucket( key ).erase_with( key, pred )) {
360 /// Deletes the item from the set
361 /** \anchor cds_intrusive_MichaelHashSet_rcu_erase_func
362 The function searches an item with key equal to \p key in the set,
363 call \p f functor with item found, and unlinks it from the set.
364 The \ref disposer specified in \p OrderedList class template parameter is called
365 by garbage collector \p GC asynchronously.
367 The \p Func interface is
370 void operator()( value_type const& item );
374 If the item with key equal to \p key is not found the function return \p false.
376 Note the hash functor should accept a parameter of type \p Q that can be not the same as \p value_type.
378 template <typename Q, typename Func>
379 bool erase( const Q& key, Func f )
381 if ( bucket( key ).erase( key, f )) {
388 /// Deletes the item from the set using \p pred predicate for searching
390 The function is an analog of \ref cds_intrusive_MichaelHashSet_rcu_erase_func "erase(Q const&)"
391 but \p pred is used for key comparing.
392 \p Less functor has the interface like \p std::less.
393 \p pred must imply the same element order as the comparator used for building the set.
395 template <typename Q, typename Less, typename Func>
396 bool erase_with( const Q& key, Less pred, Func f )
398 if ( bucket( key ).erase_with( key, pred, f )) {
405 /// Extracts an item from the set
406 /** \anchor cds_intrusive_MichaelHashSet_rcu_extract
407 The function searches an item with key equal to \p key in the set,
408 unlinks it from the set, and returns \ref cds::urcu::exempt_ptr "exempt_ptr" pointer to the item found.
409 If the item with the key equal to \p key is not found the function returns an empty \p exempt_ptr.
411 Depends on \p bucket_type you should or should not lock RCU before calling of this function:
412 - for the set based on \ref cds_intrusive_MichaelList_rcu "MichaelList" RCU should not be locked
413 - for the set based on \ref cds_intrusive_LazyList_rcu "LazyList" RCU should be locked
414 See ordered list implementation for details.
417 #include <cds/urcu/general_buffered.h>
418 #include <cds/intrusive/michael_list_rcu.h>
419 #include <cds/intrusive/michael_set_rcu.h>
421 typedef cds::urcu::gc< general_buffered<> > rcu;
422 typedef cds::intrusive::MichaelList< rcu, Foo > rcu_michael_list;
423 typedef cds::intrusive::MichaelHashSet< rcu, rcu_michael_list, foo_traits > rcu_michael_set;
425 rcu_michael_set theSet;
428 typename rcu_michael_set::exempt_ptr p;
430 // For MichaelList we should not lock RCU
432 // Now, you can apply extract function
433 // Note that you must not delete the item found inside the RCU lock
434 p = theSet.extract( 10 )
436 // do something with p
440 // We may safely release p here
441 // release() passes the pointer to RCU reclamation cycle:
442 // it invokes RCU retire_ptr function with the disposer you provided for rcu_michael_list.
446 template <typename Q>
447 exempt_ptr extract( Q const& key )
449 exempt_ptr p( bucket( key ).extract( key ) );
455 /// Extracts an item from the set using \p pred predicate for searching
457 The function is an analog of \p extract(Q const&) but \p pred is used for key comparing.
458 \p Less functor has the interface like \p std::less.
459 \p pred must imply the same element order as the comparator used for building the set.
461 template <typename Q, typename Less>
462 exempt_ptr extract_with( Q const& key, Less pred )
464 exempt_ptr p( bucket( key ).extract_with( key, pred ) );
470 /// Checks whether the set contains \p key
473 The function searches the item with key equal to \p key
474 and returns \p true if the key is found, and \p false otherwise.
476 Note the hash functor specified for class \p Traits template parameter
477 should accept a parameter of type \p Q that can be not the same as \p value_type.
479 template <typename Q>
480 bool contains( Q const& key )
482 return bucket( key ).contains( key );
485 template <typename Q>
486 CDS_DEPRECATED("use contains()")
487 bool find( Q const& key )
489 return contains( key );
493 /// Checks whether the set contains \p key using \p pred predicate for searching
495 The function is an analog of <tt>contains( key )</tt> but \p pred is used for key comparing.
496 \p Less functor has the interface like \p std::less.
497 \p Less must imply the same element order as the comparator used for building the set.
499 template <typename Q, typename Less>
500 bool contains( Q const& key, Less pred )
502 return bucket( key ).contains( key, pred );
505 template <typename Q, typename Less>
506 CDS_DEPRECATED("use contains()")
507 bool find_with( Q const& key, Less pred )
509 return contains( key, pred );
513 /// Find the key \p key
514 /** \anchor cds_intrusive_MichaelHashSet_rcu_find_func
515 The function searches the item with key equal to \p key and calls the functor \p f for item found.
516 The interface of \p Func functor is:
519 void operator()( value_type& item, Q& key );
522 where \p item is the item found, \p key is the <tt>find</tt> function argument.
524 The functor can change non-key fields of \p item.
525 The functor does not serialize simultaneous access to the set \p item. If such access is
526 possible you must provide your own synchronization schema on item level to exclude unsafe item modifications.
528 The \p key argument is non-const since it can be used as \p f functor destination i.e., the functor
529 can modify both arguments.
531 Note the hash functor specified for class \p Traits template parameter
532 should accept a parameter of type \p Q that can be not the same as \p value_type.
534 The function returns \p true if \p key is found, \p false otherwise.
536 template <typename Q, typename Func>
537 bool find( Q& key, Func f )
539 return bucket( key ).find( key, f );
542 template <typename Q, typename Func>
543 bool find( Q const& key, Func f )
545 return bucket( key ).find( key, f );
549 /// Finds the key \p key using \p pred predicate for searching
551 The function is an analog of \ref cds_intrusive_MichaelHashSet_rcu_find_func "find(Q&, Func)"
552 but \p pred is used for key comparing.
553 \p Less functor has the interface like \p std::less.
554 \p pred must imply the same element order as the comparator used for building the set.
556 template <typename Q, typename Less, typename Func>
557 bool find_with( Q& key, Less pred, Func f )
559 return bucket( key ).find_with( key, pred, f );
562 template <typename Q, typename Less, typename Func>
563 bool find_with( Q const& key, Less pred, Func f )
565 return bucket( key ).find_with( key, pred, f );
569 /// Finds the key \p key and return the item found
570 /** \anchor cds_intrusive_MichaelHashSet_rcu_get
571 The function searches the item with key equal to \p key and returns the pointer to item found.
572 If \p key is not found it returns \p nullptr.
573 Note the type of returned value depends on underlying \p bucket_type.
574 For details, see documentation of ordered list you use.
576 Note the compare functor should accept a parameter of type \p Q that can be not the same as \p value_type.
578 RCU should be locked before call of this function.
579 Returned item is valid only while RCU is locked:
581 typedef cds::intrusive::MichaelHashSet< your_template_parameters > hash_set;
584 // Result of get() call
585 typename hash_set::raw_ptr ptr;
588 hash_set::rcu_lock lock;
590 ptr = theSet.get( 5 );
595 // Unlock RCU by rcu_lock destructor
596 // ptr can be reclaimed by disposer at any time after RCU has been unlocked
600 template <typename Q>
601 raw_ptr get( Q const& key )
603 return bucket( key ).get( key );
606 /// Finds the key \p key and return the item found
608 The function is an analog of \ref cds_intrusive_MichaelHashSet_rcu_get "get(Q const&)"
609 but \p pred is used for comparing the keys.
611 \p Less functor has the semantics like \p std::less but should take arguments of type \ref value_type and \p Q
613 \p pred must imply the same element order as the comparator used for building the set.
615 template <typename Q, typename Less>
616 raw_ptr get_with( Q const& key, Less pred )
618 return bucket( key ).get_with( key, pred );
621 /// Clears the set (non-atomic)
623 The function unlink all items from the set.
624 The function is not atomic. It cleans up each bucket and then resets the item counter to zero.
625 If there are a thread that performs insertion while \p clear is working the result is undefined in general case:
626 <tt> empty() </tt> may return \p true but the set may contain item(s).
627 Therefore, \p clear may be used only for debugging purposes.
629 For each item the \p disposer is called after unlinking.
633 for ( size_t i = 0; i < bucket_count(); ++i )
634 m_Buckets[i].clear();
635 m_ItemCounter.reset();
639 /// Checks if the set is empty
641 Emptiness is checked by item counting: if item count is zero then the set is empty.
642 Thus, the correct item counting feature is an important part of Michael's set implementation.
649 /// Returns item count in the set
652 return m_ItemCounter;
655 /// Returns the size of hash table
657 Since %MichaelHashSet cannot dynamically extend the hash table size,
658 the value returned is an constant depending on object initialization parameters;
659 see \ref cds_intrusive_MichaelHashSet_hp "MichaelHashSet" for explanation.
661 size_t bucket_count() const
663 return m_nHashBitmask + 1;
668 }} // namespace cds::intrusive
670 #endif // #ifndef CDSLIB_INTRUSIVE_MICHAEL_SET_NOGC_H