rtt: TimeService.cpp Source File

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00001 /***************************************************************************
00002  tag: Peter Soetens  Wed Apr 17 16:01:31 CEST 2002  TimeService.cpp
00003 
00004                        TimeService.cpp -  description
00005                           -------------------
00006    begin                : Wed April 17 2002
00007    copyright            : (C) 2002 Peter Soetens
00008    email                : peter.soetens@mech.kuleuven.ac.be
00009 
00010 ***************************************************************************
00011 *                                                                         *
00012 *   This program is free software; you can redistribute it and/or modify  *
00013 *   it under the terms of the GNU General Public License as published by  *
00014 *   the Free Software Foundation; either version 2 of the License, or     *
00015 *   (at your option) any later version.                                   *
00016 *                                                                         *
00017 ***************************************************************************/
00018 
00019 #include "os/fosi.h"
00020 #include "TimeService.hpp"
00021 
00022 namespace RTT {
00023     using namespace os;
00024 
00025     TimeService* TimeService::_instance = 0;
00026 
00027     const TimeService::ticks TimeService::InfiniteTicks = ::InfiniteTicks;
00028     const TimeService::nsecs TimeService::InfiniteNSecs = ::InfiniteNSecs;
00029     const TimeService::Seconds TimeService::InfiniteSeconds  = ::InfiniteSeconds;
00030 
00031     TimeService::ticks TimeService::nsecs2ticks( const nsecs m )
00032     {
00033         return nano2ticks( m );
00034     }
00035 
00036     TimeService::nsecs TimeService::ticks2nsecs( const ticks t )
00037     {
00038         return ticks2nano( t );
00039     }
00040 
00041     TimeService* TimeService::Instance()
00042     {
00043         if ( _instance == 0 )
00044         {
00045             _instance = new TimeService();
00046         }
00047 
00048         return _instance;
00049     }
00050 
00051 
00052     bool TimeService::Release()
00053     {
00054         if ( _instance != 0 )
00055         {
00056             delete _instance;
00057             _instance = 0;
00058             return true;
00059         }
00060 
00061         return false;
00062     }
00063 
00064 
00065     TimeService::TimeService()
00066         : offset(0), use_clock(true)
00067     {
00068         //os::cout << "HeartBeat Created\n";
00069     }
00070 
00071     TimeService::~TimeService()
00072     {
00073         //os::cout << "HB DESTRUCTOR\n";
00074     }
00075 
00076     void TimeService::enableSystemClock( bool yes_no )
00077     {
00078         // guarantee monotonous time increase :
00079         if ( yes_no == use_clock )
00080             return;
00081         // we switched from one time domain to the other
00082         use_clock=yes_no;
00083         if ( use_clock == true )
00084             {
00085                 // if offset is X, then start counting from X.
00086                 offset = offset - rtos_get_time_ticks();
00087             }
00088         else
00089             {
00090                 // start counting from _now_ + old offset
00091                 offset = offset + rtos_get_time_ticks();
00092             }
00093     }
00094 
00095     bool TimeService::systemClockEnabled() const
00096     {
00097       return use_clock;
00098     }
00099 
00100     TimeService::ticks
00101     TimeService::getTicks() const
00102     {
00103         return use_clock ? rtos_get_time_ticks() + offset : 0 + offset;
00104     }
00105 
00106     TimeService::ticks
00107     TimeService::getTicks( TimeService::ticks &relativeTime ) const
00108     {
00109         if ( relativeTime == 0 )
00110         {
00111             relativeTime = getTicks();
00112             return 0;
00113         }
00114         return ( getTicks() - relativeTime );
00115     }
00116 
00117     TimeService::ticks
00118     TimeService::ticksSince( TimeService::ticks relativeTime ) const
00119     {
00120         return ( getTicks() - relativeTime );
00121     }
00122 
00123 
00124     TimeService::Seconds
00125     TimeService::getSeconds( TimeService::ticks &relativeTime ) const
00126     {
00127         return nsecs_to_Seconds( ticks2nsecs( getTicks( relativeTime ) ) ) ;
00128     }
00129 
00130     TimeService::Seconds
00131     TimeService::secondsSince( TimeService::ticks relativeTime ) const
00132     {
00133         return nsecs_to_Seconds( ticks2nsecs( ticksSince( relativeTime ) ) ) ;
00134     }
00135 
00136     TimeService::Seconds
00137     TimeService::secondsChange( TimeService::Seconds delta )
00138     {
00139         offset += nsecs2ticks( Seconds_to_nsecs( delta ) );
00140         return nsecs_to_Seconds( ticks2nsecs( ticksSince( 0 ) ) ) ;
00141     }
00142 
00143     TimeService::ticks
00144     TimeService::ticksChange( TimeService::ticks delta )
00145     {
00146         offset += delta;
00147         return ticksSince( 0 );
00148     }
00149 
00150     TimeService::nsecs
00151     TimeService::getNSecs() const
00152     {
00153       return rtos_get_time_ns();
00154     }
00155 
00156     TimeService::nsecs
00157     TimeService::getNSecs( TimeService::nsecs &relativeTime ) const
00158     {
00159         if ( relativeTime == 0 )
00160         {
00161             relativeTime = getNSecs();
00162             return 0;
00163         }
00164         return ( getNSecs() - relativeTime );
00165     }
00166 }