9adc2d48ac
* doc/xml/manual/concurrency_extensions.xml: Update documentation on atomics. * doc/xml/manual/using.xml: Likewise. Improve markup. * doc/html/*: Regenerate. From-SVN: r222230
352 lines
10 KiB
XML
352 lines
10 KiB
XML
<chapter xmlns="http://docbook.org/ns/docbook" version="5.0"
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xml:id="manual.ext.concurrency" xreflabel="Concurrency Extensions">
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<?dbhtml filename="ext_concurrency.html"?>
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<info><title>Concurrency</title>
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<keywordset>
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<keyword>ISO C++</keyword>
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<keyword>library</keyword>
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</keywordset>
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</info>
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<section xml:id="manual.ext.concurrency.design" xreflabel="Design"><info><title>Design</title></info>
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<section xml:id="manual.ext.concurrency.design.threads" xreflabel="Threads API"><info><title>Interface to Locks and Mutexes</title></info>
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<para>The file <filename class="headerfile"><ext/concurrence.h></filename>
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contains all the higher-level
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constructs for playing with threads. In contrast to the atomics layer,
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the concurrence layer consists largely of types. All types are defined within <code>namespace __gnu_cxx</code>.
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</para>
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<para>
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These types can be used in a portable manner, regardless of the
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specific environment. They are carefully designed to provide optimum
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efficiency and speed, abstracting out underlying thread calls and
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accesses when compiling for single-threaded situations (even on hosts
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that support multiple threads.)
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</para>
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<para>The enumerated type <code>_Lock_policy</code> details the set of
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available locking
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policies: <code>_S_single</code>, <code>_S_mutex</code>,
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and <code>_S_atomic</code>.
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</para>
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<itemizedlist>
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<listitem><para><code>_S_single</code></para>
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<para>Indicates single-threaded code that does not need locking.
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</para>
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</listitem>
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<listitem><para><code>_S_mutex</code></para>
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<para>Indicates multi-threaded code using thread-layer abstractions.
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</para>
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</listitem>
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<listitem><para><code>_S_atomic</code></para>
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<para>Indicates multi-threaded code using atomic operations.
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</para>
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</listitem>
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</itemizedlist>
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<para>The compile-time constant <code>__default_lock_policy</code> is set
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to one of the three values above, depending on characteristics of the
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host environment and the current compilation flags.
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</para>
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<para>Two more datatypes make up the rest of the
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interface: <code>__mutex</code>, and <code>__scoped_lock</code>.
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</para>
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<para>The scoped lock idiom is well-discussed within the C++
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community. This version takes a <code>__mutex</code> reference, and
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locks it during construction of <code>__scoped_lock</code> and
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unlocks it during destruction. This is an efficient way of locking
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critical sections, while retaining exception-safety.
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These types have been superseded in the ISO C++ 2011 standard by the
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mutex and lock types defined in the header
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<filename class="headerfile"><mutex></filename>.
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</para>
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</section>
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<section xml:id="manual.ext.concurrency.design.atomics" xreflabel="Atomic API"><info><title>Interface to Atomic Functions</title></info>
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<para>
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Two functions and one type form the base of atomic support.
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</para>
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<para>The type <code>_Atomic_word</code> is a signed integral type
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supporting atomic operations.
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</para>
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<para>
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The two functions functions are:
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</para>
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<programlisting>
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_Atomic_word
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__exchange_and_add_dispatch(volatile _Atomic_word*, int);
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void
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__atomic_add_dispatch(volatile _Atomic_word*, int);
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</programlisting>
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<para>Both of these functions are declared in the header file
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<ext/atomicity.h>, and are in <code>namespace __gnu_cxx</code>.
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</para>
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<itemizedlist>
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<listitem><para>
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<code>
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__exchange_and_add_dispatch
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</code>
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</para>
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<para>Adds the second argument's value to the first argument. Returns the old value.
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</para>
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</listitem>
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<listitem><para>
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<code>
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__atomic_add_dispatch
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</code>
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</para>
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<para>Adds the second argument's value to the first argument. Has no return value.
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</para>
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</listitem>
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</itemizedlist>
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<para>
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These functions forward to one of several specialized helper
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functions, depending on the circumstances. For instance,
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</para>
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<para>
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<code>
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__exchange_and_add_dispatch
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</code>
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</para>
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<para>
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Calls through to either of:
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</para>
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<itemizedlist>
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<listitem><para><code>__exchange_and_add</code>
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</para>
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<para>Multi-thread version. Inlined if compiler-generated builtin atomics
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can be used, otherwise resolved at link time to a non-builtin code
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sequence.
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</para>
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</listitem>
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<listitem><para><code>__exchange_and_add_single</code>
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</para>
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<para>Single threaded version. Inlined.</para>
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</listitem>
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</itemizedlist>
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<para>However, only <code>__exchange_and_add_dispatch</code>
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and <code>__atomic_add_dispatch</code> should be used. These functions
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can be used in a portable manner, regardless of the specific
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environment. They are carefully designed to provide optimum efficiency
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and speed, abstracting out atomic accesses when they are not required
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(even on hosts that support compiler intrinsics for atomic
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operations.)
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</para>
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<para>
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In addition, there are two macros
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</para>
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<para>
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<code>
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_GLIBCXX_READ_MEM_BARRIER
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</code>
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</para>
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<para>
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<code>
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_GLIBCXX_WRITE_MEM_BARRIER
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</code>
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</para>
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<para>
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Which expand to the appropriate write and read barrier required by the
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host hardware and operating system.
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</para>
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</section>
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</section>
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<section xml:id="manual.ext.concurrency.impl" xreflabel="Implementation"><info><title>Implementation</title></info>
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<?dbhtml filename="ext_concurrency_impl.html"?>
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<section xml:id="manual.ext.concurrency.impl.atomic_fallbacks" xreflabel="Atomic F"><info><title>Using Built-in Atomic Functions</title></info>
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<para>The functions for atomic operations described above are either
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implemented via compiler intrinsics (if the underlying host is
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capable) or by library fallbacks.</para>
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<para>Compiler intrinsics (builtins) are always preferred. However, as
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the compiler builtins for atomics are not universally implemented,
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using them directly is problematic, and can result in undefined
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function calls.
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</para>
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<para>Prior to GCC 4.7 the older <code>__sync</code> intrinsics were used.
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An example of an undefined symbol from the use
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of <code>__sync_fetch_and_add</code> on an unsupported host is a
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missing reference to <code>__sync_fetch_and_add_4</code>.
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</para>
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<para>Current releases use the newer <code>__atomic</code> intrinsics,
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which are implemented by library calls if the hardware doesn't support them.
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Undefined references to functions like
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<code>__atomic_is_lock_free</code> should be resolved by linking to
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<filename class="libraryfile">libatomic</filename>, which is usually
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installed alongside libstdc++.
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</para>
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<para>In addition, on some hosts the compiler intrinsics are enabled
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conditionally, via the <code>-march</code> command line flag. This makes
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usage vary depending on the target hardware and the flags used during
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compile.
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</para>
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<para>
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<remark>
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Incomplete/inconsistent. This is only C++11.
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</remark>
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</para>
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<para>
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If builtins are possible for bool-sized integral types,
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<code>ATOMIC_BOOL_LOCK_FREE</code> will be defined.
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If builtins are possible for int-sized integral types,
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<code>ATOMIC_INT_LOCK_FREE</code> will be defined.
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</para>
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<para>For the following hosts, intrinsics are enabled by default.
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</para>
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<itemizedlist>
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<listitem><para>alpha</para></listitem>
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<listitem><para>ia64</para></listitem>
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<listitem><para>powerpc</para></listitem>
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<listitem><para>s390</para></listitem>
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</itemizedlist>
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<para>For others, some form of <code>-march</code> may work. On
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non-ancient x86 hardware, <code>-march=native</code> usually does the
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trick.</para>
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<para> For hosts without compiler intrinsics, but with capable
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hardware, hand-crafted assembly is selected. This is the case for the following hosts:
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</para>
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<itemizedlist>
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<listitem><para>cris</para></listitem>
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<listitem><para>hppa</para></listitem>
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<listitem><para>i386</para></listitem>
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<listitem><para>i486</para></listitem>
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<listitem><para>m48k</para></listitem>
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<listitem><para>mips</para></listitem>
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<listitem><para>sparc</para></listitem>
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</itemizedlist>
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<para>And for the rest, a simulated atomic lock via pthreads.
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</para>
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<para> Detailed information about compiler intrinsics for atomic operations can be found in the GCC <link xmlns:xlink="http://www.w3.org/1999/xlink" xlink:href="http://gcc.gnu.org/onlinedocs/gcc/_005f_005fatomic-Builtins.html"> documentation</link>.
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</para>
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<para> More details on the library fallbacks from the porting <link linkend="internals.thread_safety">section</link>.
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</para>
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</section>
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<section xml:id="manual.ext.concurrency.impl.thread" xreflabel="Pthread"><info><title>Thread Abstraction</title></info>
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<para>A thin layer above IEEE 1003.1 (i.e. pthreads) is used to abstract
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the thread interface for GCC. This layer is called "gthread," and is
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comprised of one header file that wraps the host's default thread layer with
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a POSIX-like interface.
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</para>
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<para> The file <gthr-default.h> points to the deduced wrapper for
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the current host. In libstdc++ implementation files,
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<bits/gthr.h> is used to select the proper gthreads file.
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</para>
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<para>Within libstdc++ sources, all calls to underlying thread functionality
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use this layer. More detail as to the specific interface can be found in the source <link xmlns:xlink="http://www.w3.org/1999/xlink" xlink:href="http://gcc.gnu.org/onlinedocs/libstdc++/latest-doxygen/a00883_source.html">documentation</link>.
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</para>
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<para>By design, the gthread layer is interoperable with the types,
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functions, and usage found in the usual <pthread.h> file,
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including <code>pthread_t</code>, <code>pthread_once_t</code>, <code>pthread_create</code>,
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etc.
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</para>
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</section>
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</section>
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<section xml:id="manual.ext.concurrency.use" xreflabel="Use"><info><title>Use</title></info>
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<?dbhtml filename="ext_concurrency_use.html"?>
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<para>Typical usage of the last two constructs is demonstrated as follows:
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</para>
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<programlisting>
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#include <ext/concurrence.h>
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namespace
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{
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__gnu_cxx::__mutex safe_base_mutex;
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} // anonymous namespace
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namespace other
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{
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void
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foo()
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{
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__gnu_cxx::__scoped_lock sentry(safe_base_mutex);
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for (int i = 0; i < max; ++i)
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{
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_Safe_iterator_base* __old = __iter;
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__iter = __iter-<_M_next;
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__old-<_M_detach_single();
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}
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}
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</programlisting>
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<para>In this sample code, an anonymous namespace is used to keep
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the <code>__mutex</code> private to the compilation unit,
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and <code>__scoped_lock</code> is used to guard access to the critical
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section within the for loop, locking the mutex on creation and freeing
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the mutex as control moves out of this block.
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</para>
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<para>Several exception classes are used to keep track of
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concurrence-related errors. These classes
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are: <code>__concurrence_lock_error</code>, <code>__concurrence_unlock_error</code>, <code>__concurrence_wait_error</code>,
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and <code>__concurrence_broadcast_error</code>.
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</para>
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</section>
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</chapter>
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