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// boost cpu_timer.cpp ---------------------------------------------------------------//
// Copyright Beman Dawes 1994-2006, 2011
// Distributed under the Boost Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
// See http://www.boost.org/libs/timer for documentation.
//--------------------------------------------------------------------------------------//
// define BOOST_TIMER_SOURCE so that <boost/timer/config.hpp> knows
// the library is being built (possibly exporting rather than importing code)
#define BOOST_TIMER_SOURCE
#include <boost/timer/timer.hpp>
#include <boost/chrono/chrono.hpp>
#include <boost/io/ios_state.hpp>
#include <boost/throw_exception.hpp>
#include <boost/cerrno.hpp>
#include <cstring>
#include <sstream>
#include <cassert>
# if defined(BOOST_WINDOWS_API)
# include <windows.h>
# elif defined(BOOST_POSIX_API)
# include <unistd.h>
# include <sys/times.h>
# else
# error unknown API
# endif
using boost::timer::nanosecond_type;
using boost::timer::cpu_times;
using boost::system::error_code;
namespace
{
void show_time(const cpu_times& times,
std::ostream& os, const std::string& fmt, short places)
// NOTE WELL: Will truncate least-significant digits to LDBL_DIG, which may
// be as low as 10, although will be 15 for many common platforms.
{
if (places > 9)
places = 9;
else if (places < 0)
places = boost::timer::default_places;
boost::io::ios_flags_saver ifs(os);
boost::io::ios_precision_saver ips(os);
os.setf(std::ios_base::fixed, std::ios_base::floatfield);
os.precision(places);
const double sec = 1000000000.0L;
nanosecond_type total = times.system + times.user;
double wall_sec = static_cast<double>(times.wall) / sec;
double total_sec = static_cast<double>(total) / sec;
for (const char* format = fmt.c_str(); *format; ++format)
{
if (*format != '%' || !*(format+1) || !std::strchr("wustp", *(format+1)))
os << *format; // anything except % followed by a valid format character
// gets sent to the output stream
else
{
++format;
switch (*format)
{
case 'w':
os << wall_sec;
break;
case 'u':
os << static_cast<double>(times.user) / sec;
break;
case 's':
os << static_cast<double>(times.system) / sec;
break;
case 't':
os << total_sec;
break;
case 'p':
os.precision(1);
if (wall_sec > 0.001L && total_sec > 0.001L)
os << (total_sec/wall_sec) * 100.0;
else
os << "n/a";
os.precision(places);
break;
}
}
}
}
# if defined(BOOST_POSIX_API)
boost::int_least64_t tick_factor() // multiplier to convert ticks
// to nanoseconds; -1 if unknown
{
static boost::int_least64_t tick_factor = 0;
if (!tick_factor)
{
if ((tick_factor = ::sysconf(_SC_CLK_TCK)) <= 0)
tick_factor = -1;
else
{
assert(tick_factor <= 1000000000LL); // logic doesn't handle large ticks
tick_factor = 1000000000LL / tick_factor; // compute factor
if (!tick_factor)
tick_factor = -1;
}
}
return tick_factor;
}
# endif
void get_cpu_times(boost::timer::cpu_times& current)
{
boost::chrono::duration<boost::int64_t, boost::nano>
x (boost::chrono::high_resolution_clock::now().time_since_epoch());
current.wall = x.count();
# if defined(BOOST_WINDOWS_API)
FILETIME creation, exit;
if (::GetProcessTimes(::GetCurrentProcess(), &creation, &exit,
(LPFILETIME)¤t.system, (LPFILETIME)¤t.user))
{
current.user *= 100; // Windows uses 100 nanosecond ticks
current.system *= 100;
}
else
{
current.system = current.user = boost::timer::nanosecond_type(-1);
}
# else
tms tm;
clock_t c = ::times(&tm);
if (c == static_cast<clock_t>(-1)) // error
{
current.system = current.user = boost::timer::nanosecond_type(-1);
}
else
{
current.system = boost::timer::nanosecond_type(tm.tms_stime + tm.tms_cstime);
current.user = boost::timer::nanosecond_type(tm.tms_utime + tm.tms_cutime);
boost::int_least64_t factor;
if ((factor = tick_factor()) != -1)
{
current.user *= factor;
current.system *= factor;
}
else
{
current.user = current.system = boost::timer::nanosecond_type(-1);
}
}
# endif
}
// CAUTION: must be identical to same constant in auto_timers_construction.cpp
const std::string default_fmt(" %ws wall, %us user + %ss system = %ts CPU (%p%)\n");
} // unnamed namespace
namespace boost
{
namespace timer
{
// format ------------------------------------------------------------------------//
BOOST_TIMER_DECL
std::string format(const cpu_times& times, short places, const std::string& fmt)
{
std::stringstream ss;
ss.exceptions(std::ios_base::badbit | std::ios_base::failbit);
show_time(times, ss, fmt, places);
return ss.str();
}
BOOST_TIMER_DECL
std::string format(const cpu_times& times, short places)
{
return format(times, places, default_fmt);
}
// cpu_timer ---------------------------------------------------------------------//
void cpu_timer::start() BOOST_NOEXCEPT
{
m_is_stopped = false;
get_cpu_times(m_times);
}
void cpu_timer::stop() BOOST_NOEXCEPT
{
if (is_stopped())
return;
m_is_stopped = true;
cpu_times current;
get_cpu_times(current);
m_times.wall = (current.wall - m_times.wall);
m_times.user = (current.user - m_times.user);
m_times.system = (current.system - m_times.system);
}
cpu_times cpu_timer::elapsed() const BOOST_NOEXCEPT
{
if (is_stopped())
return m_times;
cpu_times current;
get_cpu_times(current);
current.wall -= m_times.wall;
current.user -= m_times.user;
current.system -= m_times.system;
return current;
}
void cpu_timer::resume() BOOST_NOEXCEPT
{
if (is_stopped())
{
cpu_times current (m_times);
start();
m_times.wall -= current.wall;
m_times.user -= current.user;
m_times.system -= current.system;
}
}
// auto_cpu_timer ----------------------------------------------------------------//
auto_cpu_timer::auto_cpu_timer(std::ostream& os, short places) // #5
: m_places(places), m_os(&os), m_format(default_fmt)
{
start();
}
void auto_cpu_timer::report()
{
show_time(elapsed(), ostream(), format_string(), places());
}
auto_cpu_timer::~auto_cpu_timer()
{
if (!is_stopped())
{
stop(); // the sooner we stop(), the better
try
{
report();
}
catch (...) // eat any exceptions
{
}
}
}
} // namespace timer
} // namespace boost
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