--- /dev/null
+/*
+ This file is a part of libcds - Concurrent Data Structures library
+
+ (C) Copyright Maxim Khizhinsky (libcds.dev@gmail.com) 2006-2017
+
+ Source code repo: http://github.com/khizmax/libcds/
+ Download: http://sourceforge.net/projects/libcds/files/
+
+ Redistribution and use in source and binary forms, with or without
+ modification, are permitted provided that the following conditions are met:
+
+ * Redistributions of source code must retain the above copyright notice, this
+ list of conditions and the following disclaimer.
+
+ * Redistributions in binary form must reproduce the above copyright notice,
+ this list of conditions and the following disclaimer in the documentation
+ and/or other materials provided with the distribution.
+
+ THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
+ AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
+ IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
+ DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
+ FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
+ DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
+ SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
+ CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
+ OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
+ OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+*/
+
+#ifndef CDSLIB_INTRUSIVE_DETAILS_ITERABLE_LIST_BASE_H
+#define CDSLIB_INTRUSIVE_DETAILS_ITERABLE_LIST_BASE_H
+
+#include <type_traits>
+#include <cds/intrusive/details/base.h>
+#include <cds/opt/compare.h>
+#include <cds/algo/atomic.h>
+#include <cds/details/marked_ptr.h>
+#include <cds/urcu/options.h>
+
+namespace cds { namespace intrusive {
+
+ /// \p IterableList ordered list related definitions
+ /** @ingroup cds_intrusive_helper
+ */
+ namespace iterable_list {
+
+ /// Node type
+ template <typename T>
+ struct node
+ {
+ typedef T value_type; ///< Value type
+ typedef cds::details::marked_ptr<T, 1> marked_data_ptr; ///< marked pointer to the value
+
+ atomics::atomic< node* > next; ///< pointer to next node in the list
+ atomics::atomic< marked_data_ptr > data; ///< pointer to user data, \p nullptr if the node is free
+
+ //@cond
+ node()
+ {
+ next.store( nullptr, atomics::memory_order_release );
+ data.store( marked_data_ptr(), atomics::memory_order_release );
+ }
+
+ node( value_type * pVal )
+ {
+ next.store( nullptr, atomics::memory_order_release );
+ data.store( marked_data_ptr( pVal ), atomics::memory_order_release );
+ }
+ //@endcond
+ };
+
+ /// \p IterableList internal statistics
+ template <typename EventCounter = cds::atomicity::event_counter>
+ struct stat {
+ typedef EventCounter event_counter; ///< Event counter type
+
+ event_counter m_nInsertSuccess; ///< Number of success \p insert() operations
+ event_counter m_nInsertFailed; ///< Number of failed \p insert() operations
+ event_counter m_nInsertRetry; ///< Number of attempts to insert new item
+ event_counter m_nReuseNode; ///< Number of reusing empty node when inserting/updating
+ event_counter m_nNodeMarkFailed; ///< Number of unsuccessful marking attempts when we try to insert new data
+ event_counter m_nNodeSeqBreak; ///< Number of breaking sequence events of \p prev -> \p next node when we try to insert new data
+ event_counter m_nNullPrevABA; ///< Number of ABA-problem for \p nullptr prev node
+ event_counter m_nNewNodeCreated; ///< Number of new node created when we try to insert new data
+ event_counter m_nUpdateNew; ///< Number of new item inserted for \p update()
+ event_counter m_nUpdateExisting; ///< Number of existing item updates
+ event_counter m_nUpdateFailed; ///< Number of failed \p update() call
+ event_counter m_nUpdateRetry; ///< Number of attempts to update the item
+ event_counter m_nEraseSuccess; ///< Number of successful \p erase(), \p unlink(), \p extract() operations
+ event_counter m_nEraseFailed; ///< Number of failed \p erase(), \p unlink(), \p extract() operations
+ event_counter m_nEraseRetry; ///< Number of attempts to \p erase() an item
+ event_counter m_nFindSuccess; ///< Number of successful \p find() and \p get() operations
+ event_counter m_nFindFailed; ///< Number of failed \p find() and \p get() operations
+
+ event_counter m_nNodeCreated; ///< Number of created internal nodes
+ event_counter m_nNodeRemoved; ///< Number of removed internal nodes
+
+ //@cond
+ void onInsertSuccess() { ++m_nInsertSuccess; }
+ void onInsertFailed() { ++m_nInsertFailed; }
+ void onInsertRetry() { ++m_nInsertRetry; }
+ void onReuseNode() { ++m_nReuseNode; }
+ void onNodeMarkFailed() { ++m_nNodeMarkFailed; }
+ void onNodeSeqBreak() { ++m_nNodeSeqBreak; }
+ void onNullPrevABA() { ++m_nNullPrevABA; }
+ void onNewNodeCreated() { ++m_nNewNodeCreated; }
+ void onUpdateNew() { ++m_nUpdateNew; }
+ void onUpdateExisting() { ++m_nUpdateExisting; }
+ void onUpdateFailed() { ++m_nUpdateFailed; }
+ void onUpdateRetry() { ++m_nUpdateRetry; }
+ void onEraseSuccess() { ++m_nEraseSuccess; }
+ void onEraseFailed() { ++m_nEraseFailed; }
+ void onEraseRetry() { ++m_nEraseRetry; }
+ void onFindSuccess() { ++m_nFindSuccess; }
+ void onFindFailed() { ++m_nFindFailed; }
+
+ void onNodeCreated() { ++m_nNodeCreated; }
+ void onNodeRemoved() { ++m_nNodeRemoved; }
+ //@endcond
+ };
+
+ /// \p IterableList empty internal statistics
+ struct empty_stat {
+ //@cond
+ void onInsertSuccess() const {}
+ void onInsertFailed() const {}
+ void onInsertRetry() const {}
+ void onReuseNode() const {}
+ void onNodeMarkFailed() const {}
+ void onNodeSeqBreak() const {}
+ void onNullPrevABA() const {}
+ void onNewNodeCreated() const {}
+ void onUpdateNew() const {}
+ void onUpdateExisting() const {}
+ void onUpdateFailed() const {}
+ void onUpdateRetry() const {}
+ void onEraseSuccess() const {}
+ void onEraseFailed() const {}
+ void onEraseRetry() const {}
+ void onFindSuccess() const {}
+ void onFindFailed() const {}
+
+ void onNodeCreated() const {}
+ void onNodeRemoved() const {}
+ //@endcond
+ };
+
+ //@cond
+ template <typename Stat = iterable_list::stat<>>
+ struct wrapped_stat {
+ typedef Stat stat_type;
+
+ wrapped_stat( stat_type& st )
+ : m_stat( st )
+ {}
+
+ void onInsertSuccess() { m_stat.onInsertSuccess(); }
+ void onInsertFailed() { m_stat.onInsertFailed(); }
+ void onInsertRetry() { m_stat.onInsertRetry(); }
+ void onReuseNode() { m_stat.onReuseNode(); }
+ void onNodeMarkFailed() { m_stat.onNodeMarkFailed();}
+ void onNodeSeqBreak() { m_stat.onNodeSeqBreak(); }
+ void onNullPrevABA() { m_stat.onNullPrevABA(); }
+ void onNewNodeCreated() { m_stat.onNewNodeCreated();}
+ void onUpdateNew() { m_stat.onUpdateNew(); }
+ void onUpdateExisting() { m_stat.onUpdateExisting();}
+ void onUpdateFailed() { m_stat.onUpdateFailed(); }
+ void onUpdateRetry() { m_stat.onUpdateRetry(); }
+ void onEraseSuccess() { m_stat.onEraseSuccess(); }
+ void onEraseFailed() { m_stat.onEraseFailed(); }
+ void onEraseRetry() { m_stat.onEraseRetry(); }
+ void onFindSuccess() { m_stat.onFindSuccess(); }
+ void onFindFailed() { m_stat.onFindFailed(); }
+
+ void onNodeCreated() { m_stat.onNodeCreated(); }
+ void onNodeRemoved() { m_stat.onNodeRemoved(); }
+
+ stat_type& m_stat;
+ };
+ //@endcond
+
+
+ /// \p IterableList traits
+ struct traits
+ {
+ /// Key comparison functor
+ /**
+ No default functor is provided. If the option is not specified, the \p less is used.
+ */
+ typedef opt::none compare;
+
+ /// Specifies binary predicate used for key compare.
+ /**
+ Default is \p std::less<T>
+ */
+ typedef opt::none less;
+
+ /// Node allocator
+ typedef CDS_DEFAULT_ALLOCATOR node_allocator;
+
+ /// Back-off strategy
+ typedef cds::backoff::Default back_off;
+
+ /// Disposer for removing items
+ typedef opt::v::empty_disposer disposer;
+
+ /// Internal statistics
+ /**
+ By default, internal statistics is disabled (\p iterable_list::empty_stat).
+ Use \p iterable_list::stat to enable it.
+ */
+ typedef empty_stat stat;
+
+ /// Item counting feature; by default, disabled. Use \p cds::atomicity::item_counter or \p atomicity::cache_friendly_item_counter to enable item counting
+ typedef atomicity::empty_item_counter item_counter;
+
+ /// C++ memory ordering model
+ /**
+ Can be \p opt::v::relaxed_ordering (relaxed memory model, the default)
+ or \p opt::v::sequential_consistent (sequentially consisnent memory model).
+ */
+ typedef opt::v::relaxed_ordering memory_model;
+ };
+
+ /// Metafunction converting option list to \p iterable_list::traits
+ /**
+ Supported \p Options are:
+ - \p opt::compare - key comparison functor. No default functor is provided.
+ If the option is not specified, the \p opt::less is used.
+ - \p opt::less - specifies binary predicate used for key comparison. Default is \p std::less<T>.
+ - \p opt::node_allocator - node allocator, default is \p std::allocator.
+ - \p opt::back_off - back-off strategy used. If the option is not specified, the \p cds::backoff::Default is used.
+ - \p opt::disposer - the functor used for disposing removed items. Default is \p opt::v::empty_disposer. Due the nature
+ of GC schema the disposer may be called asynchronously.
+ - \p opt::item_counter - the type of item counting feature. Default is disabled (\p atomicity::empty_item_counter).
+ To enable item counting use \p atomicity::item_counter or \p atomicity::cache_friendly_item_counter
+ - \p opt::stat - internal statistics. By default, it is disabled (\p iterable_list::empty_stat).
+ To enable it use \p iterable_list::stat
+ - \p opt::memory_model - C++ memory ordering model. Can be \p opt::v::relaxed_ordering (relaxed memory model, the default)
+ or \p opt::v::sequential_consistent (sequentially consistent memory model).
+ */
+ template <typename... Options>
+ struct make_traits {
+# ifdef CDS_DOXYGEN_INVOKED
+ typedef implementation_defined type ; ///< Metafunction result
+# else
+ typedef typename cds::opt::make_options<
+ typename cds::opt::find_type_traits< traits, Options... >::type
+ ,Options...
+ >::type type;
+# endif
+ };
+
+
+ //@cond
+ template <typename Stat>
+ struct select_stat_wrapper
+ {
+ typedef Stat stat;
+ typedef iterable_list::wrapped_stat<Stat> wrapped_stat;
+ enum {
+ empty = false
+ };
+ };
+
+ template <>
+ struct select_stat_wrapper< empty_stat >
+ {
+ typedef empty_stat stat;
+ typedef empty_stat wrapped_stat;
+ enum {
+ empty = true
+ };
+ };
+
+ template <typename Stat>
+ struct select_stat_wrapper< iterable_list::wrapped_stat<Stat>>: public select_stat_wrapper<Stat>
+ {};
+ //@endcond
+
+ } // namespace iterable_list
+
+ //@cond
+ // Forward declaration
+ template < class GC, typename T, class Traits = iterable_list::traits >
+ class IterableList;
+ //@endcond
+
+}} // namespace cds::intrusive
+
+#endif // #ifndef CDSLIB_INTRUSIVE_DETAILS_ITERABLE_LIST_BASE_H