Fix -Wunused warnings in libstdc++ headers
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1 <chapter xmlns="http://docbook.org/ns/docbook" version="5.0" 
2          xml:id="manual.ext.parallel_mode" xreflabel="Parallel Mode">
3 <?dbhtml filename="parallel_mode.html"?>
5 <info><title>Parallel Mode</title>
6   <keywordset>
7     <keyword>C++</keyword>
8     <keyword>library</keyword>
9     <keyword>parallel</keyword>
10   </keywordset>
11 </info>
15 <para> The libstdc++ parallel mode is an experimental parallel
16 implementation of many algorithms the C++ Standard Library.
17 </para>
19 <para>
20 Several of the standard algorithms, for instance
21 <function>std::sort</function>, are made parallel using OpenMP
22 annotations. These parallel mode constructs and can be invoked by
23 explicit source declaration or by compiling existing sources with a
24 specific compiler flag.
25 </para>
28 <section xml:id="manual.ext.parallel_mode.intro" xreflabel="Intro"><info><title>Intro</title></info>
29   
31 <para>The following library components in the include
32 <filename class="headerfile">numeric</filename> are included in the parallel mode:</para>
33 <itemizedlist>
34   <listitem><para><function>std::accumulate</function></para></listitem>
35   <listitem><para><function>std::adjacent_difference</function></para></listitem>
36   <listitem><para><function>std::inner_product</function></para></listitem>
37   <listitem><para><function>std::partial_sum</function></para></listitem>
38 </itemizedlist>
40 <para>The following library components in the include
41 <filename class="headerfile">algorithm</filename> are included in the parallel mode:</para>
42 <itemizedlist>
43   <listitem><para><function>std::adjacent_find</function></para></listitem>
44   <listitem><para><function>std::count</function></para></listitem>
45   <listitem><para><function>std::count_if</function></para></listitem>
46   <listitem><para><function>std::equal</function></para></listitem>
47   <listitem><para><function>std::find</function></para></listitem>
48   <listitem><para><function>std::find_if</function></para></listitem>
49   <listitem><para><function>std::find_first_of</function></para></listitem>
50   <listitem><para><function>std::for_each</function></para></listitem>
51   <listitem><para><function>std::generate</function></para></listitem>
52   <listitem><para><function>std::generate_n</function></para></listitem>
53   <listitem><para><function>std::lexicographical_compare</function></para></listitem>
54   <listitem><para><function>std::mismatch</function></para></listitem>
55   <listitem><para><function>std::search</function></para></listitem>
56   <listitem><para><function>std::search_n</function></para></listitem>
57   <listitem><para><function>std::transform</function></para></listitem>
58   <listitem><para><function>std::replace</function></para></listitem>
59   <listitem><para><function>std::replace_if</function></para></listitem>
60   <listitem><para><function>std::max_element</function></para></listitem>
61   <listitem><para><function>std::merge</function></para></listitem>
62   <listitem><para><function>std::min_element</function></para></listitem>
63   <listitem><para><function>std::nth_element</function></para></listitem>
64   <listitem><para><function>std::partial_sort</function></para></listitem>
65   <listitem><para><function>std::partition</function></para></listitem>
66   <listitem><para><function>std::random_shuffle</function></para></listitem>
67   <listitem><para><function>std::set_union</function></para></listitem>
68   <listitem><para><function>std::set_intersection</function></para></listitem>
69   <listitem><para><function>std::set_symmetric_difference</function></para></listitem>
70   <listitem><para><function>std::set_difference</function></para></listitem>
71   <listitem><para><function>std::sort</function></para></listitem>
72   <listitem><para><function>std::stable_sort</function></para></listitem>
73   <listitem><para><function>std::unique_copy</function></para></listitem>
74 </itemizedlist>
76 </section>
78 <section xml:id="manual.ext.parallel_mode.semantics" xreflabel="Semantics"><info><title>Semantics</title></info>
79 <?dbhtml filename="parallel_mode_semantics.html"?>
80   
82 <para> The parallel mode STL algorithms are currently not exception-safe,
83 i.e. user-defined functors must not throw exceptions.
84 Also, the order of execution is not guaranteed for some functions, of course.
85 Therefore, user-defined functors should not have any concurrent side effects.
86 </para>
88 <para> Since the current GCC OpenMP implementation does not support
89 OpenMP parallel regions in concurrent threads,
90 it is not possible to call parallel STL algorithm in
91 concurrent threads, either.
92 It might work with other compilers, though.</para>
94 </section>
96 <section xml:id="manual.ext.parallel_mode.using" xreflabel="Using"><info><title>Using</title></info>
97 <?dbhtml filename="parallel_mode_using.html"?>
98   
100 <section xml:id="parallel_mode.using.prereq_flags"><info><title>Prerequisite Compiler Flags</title></info>
101   
103 <para>
104   Any use of parallel functionality requires additional compiler
105   and runtime support, in particular support for OpenMP. Adding this support is
106   not difficult: just compile your application with the compiler
107   flag <literal>-fopenmp</literal>. This will link
108   in <code>libgomp</code>, the
109   <link xmlns:xlink="http://www.w3.org/1999/xlink"
110     xlink:href="http://gcc.gnu.org/onlinedocs/libgomp/">GNU Offloading and
111     Multi Processing Runtime Library</link>,
112   whose presence is mandatory.
113 </para>
115 <para>
116 In addition, hardware that supports atomic operations and a compiler
117   capable of producing atomic operations is mandatory: GCC defaults to no
118   support for atomic operations on some common hardware
119   architectures. Activating atomic operations may require explicit
120   compiler flags on some targets (like sparc and x86), such
121   as <literal>-march=i686</literal>,
122   <literal>-march=native</literal> or <literal>-mcpu=v9</literal>. See
123   the GCC manual for more information.
124 </para>
126 </section>
128 <section xml:id="parallel_mode.using.parallel_mode"><info><title>Using Parallel Mode</title></info>
129   
131 <para>
132   To use the libstdc++ parallel mode, compile your application with
133   the prerequisite flags as detailed above, and in addition
134   add <constant>-D_GLIBCXX_PARALLEL</constant>. This will convert all
135   use of the standard (sequential) algorithms to the appropriate parallel
136   equivalents. Please note that this doesn't necessarily mean that
137   everything will end up being executed in a parallel manner, but
138   rather that the heuristics and settings coded into the parallel
139   versions will be used to determine if all, some, or no algorithms
140   will be executed using parallel variants.
141 </para>
143 <para>Note that the <constant>_GLIBCXX_PARALLEL</constant> define may change the
144   sizes and behavior of standard class templates such as
145   <function>std::search</function>, and therefore one can only link code
146   compiled with parallel mode and code compiled without parallel mode
147   if no instantiation of a container is passed between the two
148   translation units. Parallel mode functionality has distinct linkage,
149   and cannot be confused with normal mode symbols.
150 </para>
151 </section>
153 <section xml:id="parallel_mode.using.specific"><info><title>Using Specific Parallel Components</title></info>
154   
156 <para>When it is not feasible to recompile your entire application, or
157   only specific algorithms need to be parallel-aware, individual
158   parallel algorithms can be made available explicitly. These
159   parallel algorithms are functionally equivalent to the standard
160   drop-in algorithms used in parallel mode, but they are available in
161   a separate namespace as GNU extensions and may be used in programs
162   compiled with either release mode or with parallel mode.
163 </para>
166 <para>An example of using a parallel version
167 of <function>std::sort</function>, but no other parallel algorithms, is:
168 </para>
170 <programlisting>
171 #include &lt;vector&gt;
172 #include &lt;parallel/algorithm&gt;
174 int main()
176   std::vector&lt;int&gt; v(100);
178   // ...
180   // Explicitly force a call to parallel sort.
181   __gnu_parallel::sort(v.begin(), v.end());
182   return 0;
184 </programlisting>
186 <para>
187 Then compile this code with the prerequisite compiler flags
188 (<literal>-fopenmp</literal> and any necessary architecture-specific
189 flags for atomic operations.)
190 </para>
192 <para> The following table provides the names and headers of all the
193   parallel algorithms that can be used in a similar manner:
194 </para>
196 <table frame="all" xml:id="table.parallel_algos">
197 <title>Parallel Algorithms</title>
199 <tgroup cols="4" align="left" colsep="1" rowsep="1">
200 <colspec colname="c1"/>
201 <colspec colname="c2"/>
202 <colspec colname="c3"/>
203 <colspec colname="c4"/>
205 <thead>
206   <row>
207     <entry>Algorithm</entry>
208     <entry>Header</entry>
209     <entry>Parallel algorithm</entry>
210     <entry>Parallel header</entry>
211   </row>
212 </thead>
214 <tbody>
215   <row>
216     <entry><function>std::accumulate</function></entry>
217     <entry><filename class="headerfile">numeric</filename></entry>
218     <entry><function>__gnu_parallel::accumulate</function></entry>
219     <entry><filename class="headerfile">parallel/numeric</filename></entry>
220   </row>
221   <row>
222     <entry><function>std::adjacent_difference</function></entry>
223     <entry><filename class="headerfile">numeric</filename></entry>
224     <entry><function>__gnu_parallel::adjacent_difference</function></entry>
225     <entry><filename class="headerfile">parallel/numeric</filename></entry>
226   </row>
227   <row>
228     <entry><function>std::inner_product</function></entry>
229     <entry><filename class="headerfile">numeric</filename></entry>
230     <entry><function>__gnu_parallel::inner_product</function></entry>
231     <entry><filename class="headerfile">parallel/numeric</filename></entry>
232   </row>
233   <row>
234     <entry><function>std::partial_sum</function></entry>
235     <entry><filename class="headerfile">numeric</filename></entry>
236     <entry><function>__gnu_parallel::partial_sum</function></entry>
237     <entry><filename class="headerfile">parallel/numeric</filename></entry>
238   </row>
239   <row>
240     <entry><function>std::adjacent_find</function></entry>
241     <entry><filename class="headerfile">algorithm</filename></entry>
242     <entry><function>__gnu_parallel::adjacent_find</function></entry>
243     <entry><filename class="headerfile">parallel/algorithm</filename></entry>
244   </row>
246   <row>
247     <entry><function>std::count</function></entry>
248     <entry><filename class="headerfile">algorithm</filename></entry>
249     <entry><function>__gnu_parallel::count</function></entry>
250     <entry><filename class="headerfile">parallel/algorithm</filename></entry>
251   </row>
253   <row>
254     <entry><function>std::count_if</function></entry>
255     <entry><filename class="headerfile">algorithm</filename></entry>
256     <entry><function>__gnu_parallel::count_if</function></entry>
257     <entry><filename class="headerfile">parallel/algorithm</filename></entry>
258   </row>
260   <row>
261     <entry><function>std::equal</function></entry>
262     <entry><filename class="headerfile">algorithm</filename></entry>
263     <entry><function>__gnu_parallel::equal</function></entry>
264     <entry><filename class="headerfile">parallel/algorithm</filename></entry>
265   </row>
267   <row>
268     <entry><function>std::find</function></entry>
269     <entry><filename class="headerfile">algorithm</filename></entry>
270     <entry><function>__gnu_parallel::find</function></entry>
271     <entry><filename class="headerfile">parallel/algorithm</filename></entry>
272   </row>
274   <row>
275     <entry><function>std::find_if</function></entry>
276     <entry><filename class="headerfile">algorithm</filename></entry>
277     <entry><function>__gnu_parallel::find_if</function></entry>
278     <entry><filename class="headerfile">parallel/algorithm</filename></entry>
279   </row>
281   <row>
282     <entry><function>std::find_first_of</function></entry>
283     <entry><filename class="headerfile">algorithm</filename></entry>
284     <entry><function>__gnu_parallel::find_first_of</function></entry>
285     <entry><filename class="headerfile">parallel/algorithm</filename></entry>
286   </row>
288   <row>
289     <entry><function>std::for_each</function></entry>
290     <entry><filename class="headerfile">algorithm</filename></entry>
291     <entry><function>__gnu_parallel::for_each</function></entry>
292     <entry><filename class="headerfile">parallel/algorithm</filename></entry>
293   </row>
295   <row>
296     <entry><function>std::generate</function></entry>
297     <entry><filename class="headerfile">algorithm</filename></entry>
298     <entry><function>__gnu_parallel::generate</function></entry>
299     <entry><filename class="headerfile">parallel/algorithm</filename></entry>
300   </row>
302   <row>
303     <entry><function>std::generate_n</function></entry>
304     <entry><filename class="headerfile">algorithm</filename></entry>
305     <entry><function>__gnu_parallel::generate_n</function></entry>
306     <entry><filename class="headerfile">parallel/algorithm</filename></entry>
307   </row>
309   <row>
310     <entry><function>std::lexicographical_compare</function></entry>
311     <entry><filename class="headerfile">algorithm</filename></entry>
312     <entry><function>__gnu_parallel::lexicographical_compare</function></entry>
313     <entry><filename class="headerfile">parallel/algorithm</filename></entry>
314   </row>
316   <row>
317     <entry><function>std::mismatch</function></entry>
318     <entry><filename class="headerfile">algorithm</filename></entry>
319     <entry><function>__gnu_parallel::mismatch</function></entry>
320     <entry><filename class="headerfile">parallel/algorithm</filename></entry>
321   </row>
323   <row>
324     <entry><function>std::search</function></entry>
325     <entry><filename class="headerfile">algorithm</filename></entry>
326     <entry><function>__gnu_parallel::search</function></entry>
327     <entry><filename class="headerfile">parallel/algorithm</filename></entry>
328   </row>
330   <row>
331     <entry><function>std::search_n</function></entry>
332     <entry><filename class="headerfile">algorithm</filename></entry>
333     <entry><function>__gnu_parallel::search_n</function></entry>
334     <entry><filename class="headerfile">parallel/algorithm</filename></entry>
335   </row>
337   <row>
338     <entry><function>std::transform</function></entry>
339     <entry><filename class="headerfile">algorithm</filename></entry>
340     <entry><function>__gnu_parallel::transform</function></entry>
341     <entry><filename class="headerfile">parallel/algorithm</filename></entry>
342   </row>
344   <row>
345     <entry><function>std::replace</function></entry>
346     <entry><filename class="headerfile">algorithm</filename></entry>
347     <entry><function>__gnu_parallel::replace</function></entry>
348     <entry><filename class="headerfile">parallel/algorithm</filename></entry>
349   </row>
351   <row>
352     <entry><function>std::replace_if</function></entry>
353     <entry><filename class="headerfile">algorithm</filename></entry>
354     <entry><function>__gnu_parallel::replace_if</function></entry>
355     <entry><filename class="headerfile">parallel/algorithm</filename></entry>
356   </row>
358   <row>
359     <entry><function>std::max_element</function></entry>
360     <entry><filename class="headerfile">algorithm</filename></entry>
361     <entry><function>__gnu_parallel::max_element</function></entry>
362     <entry><filename class="headerfile">parallel/algorithm</filename></entry>
363   </row>
365   <row>
366     <entry><function>std::merge</function></entry>
367     <entry><filename class="headerfile">algorithm</filename></entry>
368     <entry><function>__gnu_parallel::merge</function></entry>
369     <entry><filename class="headerfile">parallel/algorithm</filename></entry>
370   </row>
372   <row>
373     <entry><function>std::min_element</function></entry>
374     <entry><filename class="headerfile">algorithm</filename></entry>
375     <entry><function>__gnu_parallel::min_element</function></entry>
376     <entry><filename class="headerfile">parallel/algorithm</filename></entry>
377   </row>
379   <row>
380     <entry><function>std::nth_element</function></entry>
381     <entry><filename class="headerfile">algorithm</filename></entry>
382     <entry><function>__gnu_parallel::nth_element</function></entry>
383     <entry><filename class="headerfile">parallel/algorithm</filename></entry>
384   </row>
386   <row>
387     <entry><function>std::partial_sort</function></entry>
388     <entry><filename class="headerfile">algorithm</filename></entry>
389     <entry><function>__gnu_parallel::partial_sort</function></entry>
390     <entry><filename class="headerfile">parallel/algorithm</filename></entry>
391   </row>
393   <row>
394     <entry><function>std::partition</function></entry>
395     <entry><filename class="headerfile">algorithm</filename></entry>
396     <entry><function>__gnu_parallel::partition</function></entry>
397     <entry><filename class="headerfile">parallel/algorithm</filename></entry>
398   </row>
400   <row>
401     <entry><function>std::random_shuffle</function></entry>
402     <entry><filename class="headerfile">algorithm</filename></entry>
403     <entry><function>__gnu_parallel::random_shuffle</function></entry>
404     <entry><filename class="headerfile">parallel/algorithm</filename></entry>
405   </row>
407   <row>
408     <entry><function>std::set_union</function></entry>
409     <entry><filename class="headerfile">algorithm</filename></entry>
410     <entry><function>__gnu_parallel::set_union</function></entry>
411     <entry><filename class="headerfile">parallel/algorithm</filename></entry>
412   </row>
414   <row>
415     <entry><function>std::set_intersection</function></entry>
416     <entry><filename class="headerfile">algorithm</filename></entry>
417     <entry><function>__gnu_parallel::set_intersection</function></entry>
418     <entry><filename class="headerfile">parallel/algorithm</filename></entry>
419   </row>
421   <row>
422     <entry><function>std::set_symmetric_difference</function></entry>
423     <entry><filename class="headerfile">algorithm</filename></entry>
424     <entry><function>__gnu_parallel::set_symmetric_difference</function></entry>
425     <entry><filename class="headerfile">parallel/algorithm</filename></entry>
426   </row>
428   <row>
429     <entry><function>std::set_difference</function></entry>
430     <entry><filename class="headerfile">algorithm</filename></entry>
431     <entry><function>__gnu_parallel::set_difference</function></entry>
432     <entry><filename class="headerfile">parallel/algorithm</filename></entry>
433   </row>
435   <row>
436     <entry><function>std::sort</function></entry>
437     <entry><filename class="headerfile">algorithm</filename></entry>
438     <entry><function>__gnu_parallel::sort</function></entry>
439     <entry><filename class="headerfile">parallel/algorithm</filename></entry>
440   </row>
442   <row>
443     <entry><function>std::stable_sort</function></entry>
444     <entry><filename class="headerfile">algorithm</filename></entry>
445     <entry><function>__gnu_parallel::stable_sort</function></entry>
446     <entry><filename class="headerfile">parallel/algorithm</filename></entry>
447   </row>
449   <row>
450     <entry><function>std::unique_copy</function></entry>
451     <entry><filename class="headerfile">algorithm</filename></entry>
452     <entry><function>__gnu_parallel::unique_copy</function></entry>
453     <entry><filename class="headerfile">parallel/algorithm</filename></entry>
454   </row>
455 </tbody>
456 </tgroup>
457 </table>
459 </section>
461 </section>
463 <section xml:id="manual.ext.parallel_mode.design" xreflabel="Design"><info><title>Design</title></info>
464 <?dbhtml filename="parallel_mode_design.html"?>
465   
466   <para>
467   </para>
468 <section xml:id="parallel_mode.design.intro" xreflabel="Intro"><info><title>Interface Basics</title></info>
469   
471 <para>
472 All parallel algorithms are intended to have signatures that are
473 equivalent to the ISO C++ algorithms replaced. For instance, the
474 <function>std::adjacent_find</function> function is declared as:
475 </para>
476 <programlisting>
477 namespace std
479   template&lt;typename _FIter&gt;
480     _FIter
481     adjacent_find(_FIter, _FIter);
483 </programlisting>
485 <para>
486 Which means that there should be something equivalent for the parallel
487 version. Indeed, this is the case:
488 </para>
490 <programlisting>
491 namespace std
493   namespace __parallel
494   {
495     template&lt;typename _FIter&gt;
496       _FIter
497       adjacent_find(_FIter, _FIter);
499     ...
500   }
502 </programlisting>
504 <para>But.... why the ellipses?
505 </para>
507 <para> The ellipses in the example above represent additional overloads
508 required for the parallel version of the function. These additional
509 overloads are used to dispatch calls from the ISO C++ function
510 signature to the appropriate parallel function (or sequential
511 function, if no parallel functions are deemed worthy), based on either
512 compile-time or run-time conditions.
513 </para>
515 <para> The available signature options are specific for the different
516 algorithms/algorithm classes.</para>
518 <para> The general view of overloads for the parallel algorithms look like this:
519 </para>
520 <itemizedlist>
521    <listitem><para>ISO C++ signature</para></listitem>
522    <listitem><para>ISO C++ signature + sequential_tag argument</para></listitem>
523    <listitem><para>ISO C++ signature + algorithm-specific tag type
524     (several signatures)</para></listitem>
525 </itemizedlist>
527 <para> Please note that the implementation may use additional functions
528 (designated with the <code>_switch</code> suffix) to dispatch from the
529 ISO C++ signature to the correct parallel version. Also, some of the
530 algorithms do not have support for run-time conditions, so the last
531 overload is therefore missing.
532 </para>
535 </section>
537 <section xml:id="parallel_mode.design.tuning" xreflabel="Tuning"><info><title>Configuration and Tuning</title></info>
538   
541 <section xml:id="parallel_mode.design.tuning.omp" xreflabel="OpenMP Environment"><info><title>Setting up the OpenMP Environment</title></info>
542   
544 <para>
545 Several aspects of the overall runtime environment can be manipulated
546 by standard OpenMP function calls.
547 </para>
549 <para>
550 To specify the number of threads to be used for the algorithms globally,
551 use the function <function>omp_set_num_threads</function>. An example:
552 </para>
554 <programlisting>
555 #include &lt;stdlib.h&gt;
556 #include &lt;omp.h&gt;
558 int main()
560   // Explicitly set number of threads.
561   const int threads_wanted = 20;
562   omp_set_dynamic(false);
563   omp_set_num_threads(threads_wanted);
565   // Call parallel mode algorithms.
567   return 0;
569 </programlisting>
571 <para>
572  Some algorithms allow the number of threads being set for a particular call,
573  by augmenting the algorithm variant.
574  See the next section for further information.
575 </para>
577 <para>
578 Other parts of the runtime environment able to be manipulated include
579 nested parallelism (<function>omp_set_nested</function>), schedule kind
580 (<function>omp_set_schedule</function>), and others. See the OpenMP
581 documentation for more information.
582 </para>
584 </section>
586 <section xml:id="parallel_mode.design.tuning.compile" xreflabel="Compile Switches"><info><title>Compile Time Switches</title></info>
587   
589 <para>
590 To force an algorithm to execute sequentially, even though parallelism
591 is switched on in general via the macro <constant>_GLIBCXX_PARALLEL</constant>,
592 add <classname>__gnu_parallel::sequential_tag()</classname> to the end
593 of the algorithm's argument list.
594 </para>
596 <para>
597 Like so:
598 </para>
600 <programlisting>
601 std::sort(v.begin(), v.end(), __gnu_parallel::sequential_tag());
602 </programlisting>
604 <para>
605 Some parallel algorithm variants can be excluded from compilation by
606 preprocessor defines. See the doxygen documentation on
607 <code>compiletime_settings.h</code> and <code>features.h</code> for details.
608 </para>
610 <para>
611 For some algorithms, the desired variant can be chosen at compile-time by
612 appending a tag object. The available options are specific to the particular
613 algorithm (class).
614 </para>
616 <para>
617 For the "embarrassingly parallel" algorithms, there is only one "tag object
618 type", the enum _Parallelism.
619 It takes one of the following values,
620 <code>__gnu_parallel::parallel_tag</code>,
621 <code>__gnu_parallel::balanced_tag</code>,
622 <code>__gnu_parallel::unbalanced_tag</code>,
623 <code>__gnu_parallel::omp_loop_tag</code>,
624 <code>__gnu_parallel::omp_loop_static_tag</code>.
625 This means that the actual parallelization strategy is chosen at run-time.
626 (Choosing the variants at compile-time will come soon.)
627 </para>
629 <para>
630 For the following algorithms in general, we have
631 <code>__gnu_parallel::parallel_tag</code> and
632 <code>__gnu_parallel::default_parallel_tag</code>, in addition to
633 <code>__gnu_parallel::sequential_tag</code>.
634 <code>__gnu_parallel::default_parallel_tag</code> chooses the default
635 algorithm at compiletime, as does omitting the tag.
636 <code>__gnu_parallel::parallel_tag</code> postpones the decision to runtime
637 (see next section).
638 For all tags, the number of threads desired for this call can optionally be
639 passed to the respective tag's constructor.
640 </para>
642 <para>
643 The <code>multiway_merge</code> algorithm comes with the additional choices,
644 <code>__gnu_parallel::exact_tag</code> and
645 <code>__gnu_parallel::sampling_tag</code>.
646 Exact and sampling are the two available splitting strategies.
647 </para>
649 <para>
650 For the <code>sort</code> and <code>stable_sort</code> algorithms, there are
651 several additional choices, namely
652 <code>__gnu_parallel::multiway_mergesort_tag</code>,
653 <code>__gnu_parallel::multiway_mergesort_exact_tag</code>,
654 <code>__gnu_parallel::multiway_mergesort_sampling_tag</code>,
655 <code>__gnu_parallel::quicksort_tag</code>, and
656 <code>__gnu_parallel::balanced_quicksort_tag</code>.
657 Multiway mergesort comes with the two splitting strategies for multi-way
658 merging. The quicksort options cannot be used for <code>stable_sort</code>.
659 </para>
661 </section>
663 <section xml:id="parallel_mode.design.tuning.settings" xreflabel="_Settings"><info><title>Run Time Settings and Defaults</title></info>
664   
666 <para>
667 The default parallelization strategy, the choice of specific algorithm
668 strategy, the minimum threshold limits for individual parallel
669 algorithms, and aspects of the underlying hardware can be specified as
670 desired via manipulation
671 of <classname>__gnu_parallel::_Settings</classname> member data.
672 </para>
674 <para>
675 First off, the choice of parallelization strategy: serial, parallel,
676 or heuristically deduced. This corresponds
677 to <code>__gnu_parallel::_Settings::algorithm_strategy</code> and is a
678 value of enum <type>__gnu_parallel::_AlgorithmStrategy</type>
679 type. Choices
680 include: <type>heuristic</type>, <type>force_sequential</type>,
681 and <type>force_parallel</type>. The default is <type>heuristic</type>.
682 </para>
685 <para>
686 Next, the sub-choices for algorithm variant, if not fixed at compile-time.
687 Specific algorithms like <function>find</function> or <function>sort</function>
688 can be implemented in multiple ways: when this is the case,
689 a <classname>__gnu_parallel::_Settings</classname> member exists to
690 pick the default strategy. For
691 example, <code>__gnu_parallel::_Settings::sort_algorithm</code> can
692 have any values of
693 enum <type>__gnu_parallel::_SortAlgorithm</type>: <type>MWMS</type>, <type>QS</type>,
694 or <type>QS_BALANCED</type>.
695 </para>
697 <para>
698 Likewise for setting the minimal threshold for algorithm
699 parallelization.  Parallelism always incurs some overhead. Thus, it is
700 not helpful to parallelize operations on very small sets of
701 data. Because of this, measures are taken to avoid parallelizing below
702 a certain, pre-determined threshold. For each algorithm, a minimum
703 problem size is encoded as a variable in the
704 active <classname>__gnu_parallel::_Settings</classname> object.  This
705 threshold variable follows the following naming scheme:
706 <code>__gnu_parallel::_Settings::[algorithm]_minimal_n</code>.  So,
707 for <function>fill</function>, the threshold variable
708 is <code>__gnu_parallel::_Settings::fill_minimal_n</code>,
709 </para>
711 <para>
712 Finally, hardware details like L1/L2 cache size can be hardwired
713 via <code>__gnu_parallel::_Settings::L1_cache_size</code> and friends.
714 </para>
716 <para>
717 </para>
719 <para>
720 All these configuration variables can be changed by the user, if
721 desired.
722 There exists one global instance of the class <classname>_Settings</classname>,
723 i. e. it is a singleton. It can be read and written by calling
724 <code>__gnu_parallel::_Settings::get</code> and
725 <code>__gnu_parallel::_Settings::set</code>, respectively.
726 Please note that the first call return a const object, so direct manipulation
727 is forbidden.
728 See <link xmlns:xlink="http://www.w3.org/1999/xlink" xlink:href="http://gcc.gnu.org/onlinedocs/libstdc++/latest-doxygen/a01005.html">
729   <filename class="headerfile">settings.h</filename></link>
730 for complete details.
731 </para>
733 <para>
734 A small example of tuning the default:
735 </para>
737 <programlisting>
738 #include &lt;parallel/algorithm&gt;
739 #include &lt;parallel/settings.h&gt;
741 int main()
743   __gnu_parallel::_Settings s;
744   s.algorithm_strategy = __gnu_parallel::force_parallel;
745   __gnu_parallel::_Settings::set(s);
747   // Do work... all algorithms will be parallelized, always.
749   return 0;
751 </programlisting>
753 </section>
755 </section>
757 <section xml:id="parallel_mode.design.impl" xreflabel="Impl"><info><title>Implementation Namespaces</title></info>
758   
760 <para> One namespace contain versions of code that are always
761 explicitly sequential:
762 <code>__gnu_serial</code>.
763 </para>
765 <para> Two namespaces contain the parallel mode:
766 <code>std::__parallel</code> and <code>__gnu_parallel</code>.
767 </para>
769 <para> Parallel implementations of standard components, including
770 template helpers to select parallelism, are defined in <code>namespace
771 std::__parallel</code>. For instance, <function>std::transform</function> from <filename class="headerfile">algorithm</filename> has a parallel counterpart in
772 <function>std::__parallel::transform</function> from <filename class="headerfile">parallel/algorithm</filename>. In addition, these parallel
773 implementations are injected into <code>namespace
774 __gnu_parallel</code> with using declarations.
775 </para>
777 <para> Support and general infrastructure is in <code>namespace
778 __gnu_parallel</code>.
779 </para>
781 <para> More information, and an organized index of types and functions
782 related to the parallel mode on a per-namespace basis, can be found in
783 the generated source documentation.
784 </para>
786 </section>
788 </section>
790 <section xml:id="manual.ext.parallel_mode.test" xreflabel="Testing"><info><title>Testing</title></info>
791 <?dbhtml filename="parallel_mode_test.html"?>
792   
794   <para>
795     Both the normal conformance and regression tests and the
796     supplemental performance tests work.
797   </para>
799   <para>
800     To run the conformance and regression tests with the parallel mode
801     active,
802   </para>
804   <screen>
805   <userinput>make check-parallel</userinput>
806   </screen>
808   <para>
809     The log and summary files for conformance testing are in the
810     <filename class="directory">testsuite/parallel</filename> directory.
811   </para>
813   <para>
814     To run the performance tests with the parallel mode active,
815   </para>
817   <screen>
818   <userinput>make check-performance-parallel</userinput>
819   </screen>
821   <para>
822     The result file for performance testing are in the
823     <filename class="directory">testsuite</filename> directory, in the file
824     <filename>libstdc++_performance.sum</filename>. In addition, the
825     policy-based containers have their own visualizations, which have
826     additional software dependencies than the usual bare-boned text
827     file, and can be generated by using the <code>make
828     doc-performance</code> rule in the testsuite's Makefile.
829 </para>
830 </section>
832 <bibliography xml:id="parallel_mode.biblio"><info><title>Bibliography</title></info>
835   <biblioentry>
836     <citetitle>
837       Parallelization of Bulk Operations for STL Dictionaries
838     </citetitle>
840     <author><personname><firstname>Johannes</firstname><surname>Singler</surname></personname></author>
841     <author><personname><firstname>Leonor</firstname><surname>Frias</surname></personname></author>
843     <copyright>
844       <year>2007</year>
845       <holder/>
846     </copyright>
848     <publisher>
849       <publishername>
850         Workshop on Highly Parallel Processing on a Chip (HPPC) 2007. (LNCS)
851       </publishername>
852     </publisher>
853   </biblioentry>
855   <biblioentry>
856     <citetitle>
857       The Multi-Core Standard Template Library
858     </citetitle>
860     <author><personname><firstname>Johannes</firstname><surname>Singler</surname></personname></author>
861     <author><personname><firstname>Peter</firstname><surname>Sanders</surname></personname></author>
862     <author><personname><firstname>Felix</firstname><surname>Putze</surname></personname></author>
864     <copyright>
865       <year>2007</year>
866       <holder/>
867     </copyright>
869     <publisher>
870       <publishername>
871          Euro-Par 2007: Parallel Processing. (LNCS 4641)
872       </publishername>
873     </publisher>
874   </biblioentry>
876 </bibliography>
878 </chapter>