// -*- C++ -*-
//
// Copyright (C) 2009, 2010 Free Software Foundation, Inc.
//
// This file is part of the GNU ISO C++ Library.  This library is free
// software; you can redistribute it and/or modify it under the terms
// of the GNU General Public License as published by the Free Software
// Foundation; either version 2, or (at your option) any later
// version.

// This library is distributed in the hope that it will be useful, but
// WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
// General Public License for more details.

// You should have received a copy of the GNU General Public License
// along with this library; see the file COPYING.  If not, write to
// the Free Software Foundation, 59 Temple Place - Suite 330, Boston,
// MA 02111-1307, USA.

// As a special exception, you may use this file as part of a free
// software library without restriction.  Specifically, if other files
// instantiate templates or use macros or inline functions from this
// file, or you compile this file and link it with other files to
// produce an executable, this file does not by itself cause the
// resulting executable to be covered by the GNU General Public
// License.  This exception does not however invalidate any other
// reasons why the executable file might be covered by the GNU General
// Public License.

/** @file profile/impl/profiler_trace.h
 *  @brief Diagnostics for container sizes.
 */

// Written by Lixia Liu and Silvius Rus.

#ifndef _GLIBCXX_PROFILE_PROFILER_CONTAINER_SIZE_H
#define _GLIBCXX_PROFILE_PROFILER_CONTAINER_SIZE_H 1

#ifdef __GXX_EXPERIMENTAL_CXX0X__
#include <cstdlib>
#include <cstdio>
#include <cstring>
#else
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#endif

#include <sstream>

#include "profile/impl/profiler.h"
#include "profile/impl/profiler_node.h"
#include "profile/impl/profiler_trace.h"

namespace __gnu_profile
{

/** @brief A container size instrumentation line in the object table.  */
class __container_size_info: public __object_info_base 
{
 public:
  __container_size_info();
  __container_size_info(const __container_size_info& __o);
  __container_size_info(__stack_t __stack, size_t __num);
  virtual ~__container_size_info() {}

  void __write(FILE* f) const;
  float __magnitude() const { return static_cast<float>(_M_cost); }
  const char* __advice() const;

  void __merge(const __container_size_info& __o);
  // Call if a container is destructed or cleaned.
  void __destruct(size_t __num, size_t __inum);
  // Estimate the cost of resize/rehash. 
  float __resize_cost(size_t __from, size_t __to) { return __from; }
  // Call if container is resized.
  void __resize(size_t __from, size_t __to);

 private:
  size_t _M_init;
  size_t _M_max;  // range of # buckets
  size_t _M_min;
  size_t _M_total;
  size_t _M_item_min;  // range of # items
  size_t _M_item_max;
  size_t _M_item_total;
  size_t _M_count;
  size_t _M_resize;
  size_t _M_cost;
};

inline const char* __container_size_info::__advice() const
{
  std::stringstream __message;
  if (_M_init < _M_item_max)
    __message << "change initial container size from " << _M_init
              << " to " << _M_item_max;

  return strdup(__message.str().c_str());
}

inline void __container_size_info::__destruct(size_t __num, size_t __inum) 
{
  _M_max = std::max(_M_max, __num);
  _M_item_max = std::max(_M_item_max, __inum);
  if (_M_min == 0) {
    _M_min = __num; 
    _M_item_min = __inum;
  } else {
    _M_min = std::min(_M_min, __num);
    _M_item_min = std::min(_M_item_min, __inum);
  }
  _M_total += __num;
  _M_item_total += __inum;
  _M_count += 1;
}

inline void __container_size_info::__resize(size_t __from, size_t __to) 
{
  _M_cost += this->__resize_cost(__from, __to);
  _M_resize += 1;
  _M_max = std::max(_M_max, __to);
}

inline __container_size_info::__container_size_info(__stack_t __stack, 
                                                    size_t __num)
    : __object_info_base(__stack), _M_init(0), _M_max(0), _M_item_max(0), 
      _M_min(0), _M_item_min(0), _M_total(0), _M_item_total(0), _M_cost(0), 
      _M_count(0), _M_resize(0)
{
  _M_init = _M_max = __num;
  _M_item_min = _M_item_max = _M_item_total = _M_total = 0;
  _M_min = 0;
  _M_count = 0;
  _M_resize = 0;
}

inline void __container_size_info::__merge(const __container_size_info& __o)
{
  _M_init        = std::max(_M_init, __o._M_init);
  _M_max         = std::max(_M_max, __o._M_max);
  _M_item_max    = std::max(_M_item_max, __o._M_item_max);
  _M_min         = std::min(_M_min, __o._M_min);
  _M_item_min    = std::min(_M_item_min, __o._M_item_min);
  _M_total      += __o._M_total;
  _M_item_total += __o._M_item_total;
  _M_count      += __o._M_count;
  _M_cost       += __o._M_cost;
  _M_resize     += __o._M_resize;
}

inline __container_size_info::__container_size_info()
    : _M_init(0), _M_max(0), _M_item_max(0), _M_min(0), _M_item_min(0),
      _M_total(0), _M_item_total(0), _M_cost(0), _M_count(0), _M_resize(0)
{
}

inline __container_size_info::__container_size_info(
    const __container_size_info& __o)
    : __object_info_base(__o)
{
  _M_init        = __o._M_init;
  _M_max         = __o._M_max;
  _M_item_max    = __o._M_item_max;
  _M_min         = __o._M_min;
  _M_item_min    = __o._M_item_min;
  _M_total       = __o._M_total;
  _M_item_total  = __o._M_item_total;
  _M_cost        = __o._M_cost;
  _M_count       = __o._M_count;
  _M_resize      = __o._M_resize;
}

/** @brief A container size instrumentation line in the stack table.  */
class __container_size_stack_info: public __container_size_info
{
 public:
  __container_size_stack_info(const __container_size_info& __o)
      : __container_size_info(__o) {}
};

/** @brief Container size instrumentation trace producer.  */
class __trace_container_size
    : public __trace_base<__container_size_info, __container_size_stack_info> 
{
 public:
  ~__trace_container_size() {}
  __trace_container_size()
      : __trace_base<__container_size_info, __container_size_stack_info>() {};

  // Insert a new node at construct with object, callstack and initial size. 
  void __insert(const __object_t __obj, __stack_t __stack, size_t __num);
  // Call at destruction/clean to set container final size.
  void __destruct(const void* __obj, size_t __num, size_t __inum);
  void __construct(const void* __obj, size_t __inum);
  // Call at resize to set resize/cost information.
  void __resize(const void* __obj, int __from, int __to);
};

inline void __trace_container_size::__insert(const __object_t __obj,
                                             __stack_t __stack, size_t __num)
{
  __add_object(__obj, __container_size_info(__stack, __num));
}

inline void __container_size_info::__write(FILE* __f) const
{
  fprintf(__f, "%Zu %Zu %Zu %Zu %Zu %Zu %Zu %Zu %Zu %Zu\n", 
          _M_init, _M_count, _M_cost, _M_resize, _M_min, _M_max, _M_total,
          _M_item_min, _M_item_max, _M_item_total);
}

inline void __trace_container_size::__destruct(const void* __obj, 
                                               size_t __num, size_t __inum)
{
  if (!__is_on()) return;

  __object_t __obj_handle = static_cast<__object_t>(__obj);

  __container_size_info* __object_info = __get_object_info(__obj_handle);
  if (!__object_info)
    return;

  __object_info->__destruct(__num, __inum);
  __retire_object(__obj_handle);
}

inline void __trace_container_size::__resize(const void* __obj, int __from, 
                                             int __to)
{
  if (!__is_on()) return;

  __container_size_info* __object_info = __get_object_info(__obj);
  if (!__object_info)
    return;

  __object_info->__resize(__from, __to);
}

} // namespace __gnu_profile
#endif /* _GLIBCXX_PROFILE_PROFILER_CONTAINER_SIZE_H */