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      1 // -*- C++ -*-
      2 
      3 // Copyright (C) 2007, 2008, 2009 Free Software Foundation, Inc.
      4 //
      5 // This file is part of the GNU ISO C++ Library.  This library is free
      6 // software; you can redistribute it and/or modify it under the terms
      7 // of the GNU General Public License as published by the Free Software
      8 // Foundation; either version 3, or (at your option) any later
      9 // version.
     10 
     11 // This library is distributed in the hope that it will be useful, but
     12 // WITHOUT ANY WARRANTY; without even the implied warranty of
     13 // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
     14 // General Public License for more details.
     15 
     16 // Under Section 7 of GPL version 3, you are granted additional
     17 // permissions described in the GCC Runtime Library Exception, version
     18 // 3.1, as published by the Free Software Foundation.
     19 
     20 // You should have received a copy of the GNU General Public License and
     21 // a copy of the GCC Runtime Library Exception along with this program;
     22 // see the files COPYING3 and COPYING.RUNTIME respectively.  If not, see
     23 // <http://www.gnu.org/licenses/>.
     24 
     25 /** @file parallel/base.h
     26  *  @brief Sequential helper functions.
     27  *  This file is a GNU parallel extension to the Standard C++ Library.
     28  */
     29 
     30 // Written by Johannes Singler.
     31 
     32 #ifndef _GLIBCXX_PARALLEL_BASE_H
     33 #define _GLIBCXX_PARALLEL_BASE_H 1
     34 
     35 #include <functional>
     36 #include <omp.h>
     37 #include <parallel/features.h>
     38 #include <parallel/basic_iterator.h>
     39 #include <parallel/parallel.h>
     40 
     41 
     42 // Parallel mode namespaces.
     43 
     44 /**
     45  * @namespace std::__parallel
     46  * @brief GNU parallel code, replaces standard behavior with parallel behavior.
     47  */
     48 namespace std
     49 {
     50   namespace __parallel { }
     51 }
     52 
     53 /**
     54  * @namespace __gnu_parallel
     55  * @brief GNU parallel code for public use.
     56  */
     57 namespace __gnu_parallel
     58 {
     59   // Import all the parallel versions of components in namespace std.
     60   using namespace std::__parallel;
     61 }
     62 
     63 /**
     64  * @namespace __gnu_sequential
     65  * @brief GNU sequential classes for public use.
     66  */
     67 namespace __gnu_sequential
     68 {
     69   // Import whatever is the serial version.
     70 #ifdef _GLIBCXX_PARALLEL
     71   using namespace std::__norm;
     72 #else
     73   using namespace std;
     74 #endif
     75 }
     76 
     77 
     78 namespace __gnu_parallel
     79 {
     80   // NB: Including this file cannot produce (unresolved) symbols from
     81   // the OpenMP runtime unless the parallel mode is actually invoked
     82   // and active, which imples that the OpenMP runtime is actually
     83   // going to be linked in.
     84   inline int
     85   get_max_threads()
     86   {
     87     int __i = omp_get_max_threads();
     88     return __i > 1 ? __i : 1;
     89   }
     90 
     91 
     92   inline bool
     93   is_parallel(const _Parallelism __p) { return __p != sequential; }
     94 
     95 
     96   // XXX remove std::duplicates from here if possible,
     97   // XXX but keep minimal dependencies.
     98 
     99 /** @brief Calculates the rounded-down logarithm of @c n for base 2.
    100   *  @param n Argument.
    101   *  @return Returns 0 for any argument <1.
    102   */
    103 template<typename Size>
    104   inline Size
    105   __log2(Size n)
    106     {
    107       Size k;
    108       for (k = 0; n > 1; n >>= 1)
    109         ++k;
    110       return k;
    111     }
    112 
    113 /** @brief Encode two integers into one __gnu_parallel::lcas_t.
    114   *  @param a First integer, to be encoded in the most-significant @c
    115   *  lcas_t_bits/2 bits.
    116   *  @param b Second integer, to be encoded in the least-significant
    117   *  @c lcas_t_bits/2 bits.
    118   *  @return __gnu_parallel::lcas_t value encoding @c a and @c b.
    119   *  @see decode2
    120   */
    121 inline lcas_t
    122 encode2(int a, int b)	//must all be non-negative, actually
    123 {
    124   return (((lcas_t)a) << (lcas_t_bits / 2)) | (((lcas_t)b) << 0);
    125 }
    126 
    127 /** @brief Decode two integers from one __gnu_parallel::lcas_t.
    128   *  @param x __gnu_parallel::lcas_t to decode integers from.
    129   *  @param a First integer, to be decoded from the most-significant
    130   *  @c lcas_t_bits/2 bits of @c x.
    131   *  @param b Second integer, to be encoded in the least-significant
    132   *  @c lcas_t_bits/2 bits of @c x.
    133   *  @see encode2
    134   */
    135 inline void
    136 decode2(lcas_t x, int& a, int& b)
    137 {
    138   a = (int)((x >> (lcas_t_bits / 2)) & lcas_t_mask);
    139   b = (int)((x >>               0 ) & lcas_t_mask);
    140 }
    141 
    142 /** @brief Equivalent to std::min. */
    143 template<typename T>
    144   const T&
    145   min(const T& a, const T& b)
    146   { return (a < b) ? a : b; }
    147 
    148 /** @brief Equivalent to std::max. */
    149 template<typename T>
    150   const T&
    151   max(const T& a, const T& b)
    152   { return (a > b) ? a : b; }
    153 
    154 /** @brief Constructs predicate for equality from strict weak
    155   *  ordering predicate
    156   */
    157 // XXX comparator at the end, as per others
    158 template<typename Comparator, typename T1, typename T2>
    159   class equal_from_less : public std::binary_function<T1, T2, bool>
    160   {
    161   private:
    162     Comparator& comp;
    163 
    164   public:
    165     equal_from_less(Comparator& _comp) : comp(_comp) { }
    166 
    167     bool operator()(const T1& a, const T2& b)
    168     {
    169       return !comp(a, b) && !comp(b, a);
    170     }
    171   };
    172 
    173 
    174 /** @brief Similar to std::binder1st,
    175   *  but giving the argument types explicitly. */
    176 template<typename _Predicate, typename argument_type>
    177   class unary_negate
    178   : public std::unary_function<argument_type, bool>
    179   {
    180   protected:
    181     _Predicate _M_pred;
    182 
    183   public:
    184     explicit
    185     unary_negate(const _Predicate& __x) : _M_pred(__x) { }
    186 
    187     bool
    188     operator()(const argument_type& __x)
    189     { return !_M_pred(__x); }
    190   };
    191 
    192 /** @brief Similar to std::binder1st,
    193   *  but giving the argument types explicitly. */
    194 template<typename _Operation, typename first_argument_type,
    195 	 typename second_argument_type, typename result_type>
    196   class binder1st
    197   : public std::unary_function<second_argument_type, result_type>
    198   {
    199   protected:
    200     _Operation op;
    201     first_argument_type value;
    202 
    203   public:
    204     binder1st(const _Operation& __x,
    205               const first_argument_type& __y)
    206     : op(__x), value(__y) { }
    207 
    208     result_type
    209     operator()(const second_argument_type& __x)
    210     { return op(value, __x); }
    211 
    212     // _GLIBCXX_RESOLVE_LIB_DEFECTS
    213     // 109.  Missing binders for non-const sequence elements
    214     result_type
    215     operator()(second_argument_type& __x) const
    216     { return op(value, __x); }
    217   };
    218 
    219 /**
    220   *  @brief Similar to std::binder2nd, but giving the argument types
    221   *  explicitly.
    222   */
    223 template<typename _Operation, typename first_argument_type,
    224 	 typename second_argument_type, typename result_type>
    225   class binder2nd
    226   : public std::unary_function<first_argument_type, result_type>
    227   {
    228   protected:
    229     _Operation op;
    230     second_argument_type value;
    231 
    232   public:
    233     binder2nd(const _Operation& __x,
    234               const second_argument_type& __y)
    235     : op(__x), value(__y) { }
    236 
    237     result_type
    238     operator()(const first_argument_type& __x) const
    239     { return op(__x, value); }
    240 
    241     // _GLIBCXX_RESOLVE_LIB_DEFECTS
    242     // 109.  Missing binders for non-const sequence elements
    243     result_type
    244     operator()(first_argument_type& __x)
    245     { return op(__x, value); }
    246   };
    247 
    248 /** @brief Similar to std::equal_to, but allows two different types. */
    249 template<typename T1, typename T2>
    250   struct equal_to : std::binary_function<T1, T2, bool>
    251   {
    252     bool operator()(const T1& t1, const T2& t2) const
    253     { return t1 == t2; }
    254   };
    255 
    256 /** @brief Similar to std::less, but allows two different types. */
    257 template<typename T1, typename T2>
    258   struct less : std::binary_function<T1, T2, bool>
    259   {
    260     bool
    261     operator()(const T1& t1, const T2& t2) const
    262     { return t1 < t2; }
    263 
    264     bool
    265     operator()(const T2& t2, const T1& t1) const
    266     { return t2 < t1; }
    267   };
    268 
    269 // Partial specialization for one type. Same as std::less.
    270 template<typename _Tp>
    271 struct less<_Tp, _Tp> : public std::binary_function<_Tp, _Tp, bool>
    272   {
    273     bool
    274     operator()(const _Tp& __x, const _Tp& __y) const
    275     { return __x < __y; }
    276   };
    277 
    278 
    279   /** @brief Similar to std::plus, but allows two different types. */
    280 template<typename _Tp1, typename _Tp2>
    281   struct plus : public std::binary_function<_Tp1, _Tp2, _Tp1>
    282   {
    283     typedef __typeof__(*static_cast<_Tp1*>(NULL)
    284 		       + *static_cast<_Tp2*>(NULL)) result;
    285 
    286     result
    287     operator()(const _Tp1& __x, const _Tp2& __y) const
    288     { return __x + __y; }
    289   };
    290 
    291 // Partial specialization for one type. Same as std::plus.
    292 template<typename _Tp>
    293   struct plus<_Tp, _Tp> : public std::binary_function<_Tp, _Tp, _Tp>
    294   {
    295     typedef __typeof__(*static_cast<_Tp*>(NULL)
    296 		       + *static_cast<_Tp*>(NULL)) result;
    297 
    298     result
    299     operator()(const _Tp& __x, const _Tp& __y) const
    300     { return __x + __y; }
    301   };
    302 
    303 
    304 /** @brief Similar to std::multiplies, but allows two different types. */
    305 template<typename _Tp1, typename _Tp2>
    306   struct multiplies : public std::binary_function<_Tp1, _Tp2, _Tp1>
    307   {
    308     typedef __typeof__(*static_cast<_Tp1*>(NULL)
    309 		       * *static_cast<_Tp2*>(NULL)) result;
    310 
    311     result
    312     operator()(const _Tp1& __x, const _Tp2& __y) const
    313     { return __x * __y; }
    314   };
    315 
    316 // Partial specialization for one type. Same as std::multiplies.
    317 template<typename _Tp>
    318   struct multiplies<_Tp, _Tp> : public std::binary_function<_Tp, _Tp, _Tp>
    319   {
    320     typedef __typeof__(*static_cast<_Tp*>(NULL)
    321 		       * *static_cast<_Tp*>(NULL)) result;
    322 
    323     result
    324     operator()(const _Tp& __x, const _Tp& __y) const
    325     { return __x * __y; }
    326   };
    327 
    328 
    329 template<typename T, typename _DifferenceTp>
    330   class pseudo_sequence;
    331 
    332 /** @brief Iterator associated with __gnu_parallel::pseudo_sequence.
    333   *  If features the usual random-access iterator functionality.
    334   *  @param T Sequence value type.
    335   *  @param difference_type Sequence difference type.
    336   */
    337 template<typename T, typename _DifferenceTp>
    338   class pseudo_sequence_iterator
    339   {
    340   public:
    341     typedef _DifferenceTp difference_type;
    342 
    343   private:
    344     typedef pseudo_sequence_iterator<T, _DifferenceTp> type;
    345 
    346     const T& val;
    347     difference_type pos;
    348 
    349   public:
    350     pseudo_sequence_iterator(const T& val, difference_type pos)
    351     : val(val), pos(pos) { }
    352 
    353     // Pre-increment operator.
    354     type&
    355     operator++()
    356     {
    357       ++pos;
    358       return *this;
    359     }
    360 
    361     // Post-increment operator.
    362     const type
    363     operator++(int)
    364     { return type(pos++); }
    365 
    366     const T&
    367     operator*() const
    368     { return val; }
    369 
    370     const T&
    371     operator[](difference_type) const
    372     { return val; }
    373 
    374     bool
    375     operator==(const type& i2)
    376     { return pos == i2.pos; }
    377 
    378     difference_type
    379     operator!=(const type& i2)
    380     { return pos != i2.pos; }
    381 
    382     difference_type
    383     operator-(const type& i2)
    384     { return pos - i2.pos; }
    385   };
    386 
    387 /** @brief Sequence that conceptually consists of multiple copies of
    388     the same element.
    389   *  The copies are not stored explicitly, of course.
    390   *  @param T Sequence value type.
    391   *  @param difference_type Sequence difference type.
    392   */
    393 template<typename T, typename _DifferenceTp>
    394   class pseudo_sequence
    395   {
    396     typedef pseudo_sequence<T, _DifferenceTp> type;
    397 
    398   public:
    399     typedef _DifferenceTp difference_type;
    400 
    401     // Better case down to uint64, than up to _DifferenceTp.
    402     typedef pseudo_sequence_iterator<T, uint64> iterator;
    403 
    404     /** @brief Constructor.
    405       *  @param val Element of the sequence.
    406       *  @param count Number of (virtual) copies.
    407       */
    408     pseudo_sequence(const T& val, difference_type count)
    409     : val(val), count(count)  { }
    410 
    411     /** @brief Begin iterator. */
    412     iterator
    413     begin() const
    414     { return iterator(val, 0); }
    415 
    416     /** @brief End iterator. */
    417     iterator
    418     end() const
    419     { return iterator(val, count); }
    420 
    421   private:
    422     const T& val;
    423     difference_type count;
    424   };
    425 
    426 /** @brief Functor that does nothing */
    427 template<typename _ValueTp>
    428   class void_functor
    429   {
    430     inline void
    431     operator()(const _ValueTp& v) const { }
    432   };
    433 
    434 /** @brief Compute the median of three referenced elements,
    435     according to @c comp.
    436   *  @param a First iterator.
    437   *  @param b Second iterator.
    438   *  @param c Third iterator.
    439   *  @param comp Comparator.
    440   */
    441 template<typename RandomAccessIterator, typename Comparator>
    442   RandomAccessIterator
    443   median_of_three_iterators(RandomAccessIterator a, RandomAccessIterator b,
    444                             RandomAccessIterator c, Comparator& comp)
    445   {
    446     if (comp(*a, *b))
    447       if (comp(*b, *c))
    448         return b;
    449       else
    450         if (comp(*a, *c))
    451           return c;
    452         else
    453           return a;
    454     else
    455       {
    456         // Just swap a and b.
    457         if (comp(*a, *c))
    458           return a;
    459         else
    460           if (comp(*b, *c))
    461             return c;
    462           else
    463             return b;
    464       }
    465   }
    466 
    467 #define _GLIBCXX_PARALLEL_ASSERT(_Condition) __glibcxx_assert(_Condition)
    468 
    469 } //namespace __gnu_parallel
    470 
    471 #endif /* _GLIBCXX_PARALLEL_BASE_H */
    472