#include #include #include "Util.h" #include "Timer.h" #include "util/usage.hh" namespace Moses { /*** * Return the total wall time that the timer has been in the "running" * state since it was first "started". */ double Timer::get_elapsed_time() const { if (stopped) { return stop_time - start_time; } if (running) { return util::WallTime() - start_time; } return 0; } /*** * Start a timer. If it is already running, let it continue running. * Print an optional message. */ void Timer::start(const char* msg) { // Print an optional message, something like "Starting timer t"; if (msg) TRACE_ERR( msg << std::endl); // Return immediately if the timer is already running if (running && !stopped) return; // If stopped, recompute start time if (stopped) { start_time = util::WallTime() - (stop_time - start_time); stopped = false; } else { start_time = util::WallTime(); running = true; } } /*** * Stop a timer. * Print an optional message. */ void Timer::stop(const char* msg) { // Print an optional message, something like "Stopping timer t"; if (msg) TRACE_ERR( msg << std::endl); // Return immediately if the timer is not running if (stopped || !running) return; // Record stopped time stop_time = util::WallTime(); // Change timer status to running stopped = true; } /*** * Print out an optional message followed by the current timer timing. */ void Timer::check(const char* msg) { // Print an optional message, something like "Checking timer t"; if (msg) TRACE_ERR( msg << " : "); // TRACE_ERR( "[" << std::setiosflags(std::ios::fixed) << std::setprecision(2) << (running ? elapsed_time() : 0) << "] seconds\n"); TRACE_ERR( "[" << (running ? get_elapsed_time() : 0) << "] seconds\n"); } /*** * Allow timers to be printed to ostreams using the syntax 'os << t' * for an ostream 'os' and a timer 't'. For example, "cout << t" will * print out the total amount of time 't' has been "running". */ std::ostream& operator<<(std::ostream& os, Timer& t) { //os << std::setprecision(2) << std::setiosflags(std::ios::fixed) << (t.running ? t.elapsed_time() : 0); os << (t.running ? t.get_elapsed_time() : 0); return os; } }