X-Git-Url: https://git.dogcows.com/gitweb?p=chaz%2Fyoink;a=blobdiff_plain;f=src%2FMoof%2FTimer.cc;h=d17882a9b3e5b13645e75d91650febedb074293f;hp=4eea488ad7f43d29af7280f63ea3371f2380f4b2;hb=a31d65a998121df0651c57bfb68782e2a07d2e2f;hpb=c2321281bf12a7efaedde930422c7ddbc92080d4 diff --git a/src/Moof/Timer.cc b/src/Moof/Timer.cc index 4eea488..d17882a 100644 --- a/src/Moof/Timer.cc +++ b/src/Moof/Timer.cc @@ -28,18 +28,145 @@ #include #include +#include #include +#include "Log.hh" #include "Timer.hh" #if HAVE_CONFIG_H #include "config.h" #endif +#include + namespace Mf { +Scalar Timer::nextFire_ = std::numeric_limits::max(); +std::map Timer::timers_; + + +unsigned Timer::getNewID() +{ + static unsigned id = 1; + return id++; +} + + +void Timer::init(const Function& function, Scalar seconds, Mode mode) +{ + invalidate(); + + mMode = mode; + + if (mMode != INVALID) + { + mFunction = function; + + if (mode == ABSOLUTEE) + { + mAbsolute = seconds; + } + else + { + mAbsolute = seconds - getTicks(); + mInterval = seconds; + } + + mId = getNewID(); + timers_.insert(std::pair(mId, *this)); + + if (mAbsolute < nextFire_) nextFire_ = mAbsolute; + } +} + + +bool Timer::isValid() const +{ + return mMode != INVALID; +} + +void Timer::invalidate() +{ + if (mMode != INVALID) + { + timers_.erase(mId); + mMode = INVALID; + + if (isEqual(mAbsolute, nextFire_)) nextFire_ = findNextFire(); + } +} + + +void Timer::fire() +{ + Scalar t = getTicks(); + + if (mFunction) mFunction(*this, t); + + if (isRepeating()) + { + Scalar absolute = mAbsolute; + + if (isEqual(mAbsolute, t, 1.0)) mAbsolute += mInterval; + else mAbsolute = mInterval + t; + + if (isEqual(absolute, nextFire_)) nextFire_ = findNextFire(); + } + else + { + invalidate(); + } +} + + +Scalar Timer::findNextFire() +{ + std::map::iterator it; + Scalar nextFire = std::numeric_limits::max(); + + for (it = timers_.begin(); it != timers_.end(); ++it) + { + Scalar absolute = (*it).second.mAbsolute; + if (absolute < nextFire) nextFire = absolute; + } + + return nextFire; +} + + +Scalar Timer::getSecondsRemaining() const +{ + return mAbsolute - getTicks(); +} + +bool Timer::isExpired() const +{ + return getSecondsRemaining() < 0.0; +} + +bool Timer::isRepeating() const +{ + return mMode == REPEAT; +} + + +void Timer::fireIfExpired(Scalar t) +{ + std::map::iterator it; + + if (nextFire_ > t) return; + + for (it = timers_.begin(); it != timers_.end(); ++it) + { + Timer& timer = (*it).second; + if (timer.isExpired()) timer.fire(); + } +} + + #if HAVE_CLOCK_GETTIME // Since the monotonic clock will provide us with the timer since the computer @@ -64,7 +191,7 @@ static time_t setReference_() static const time_t reference = setReference_(); -Scalar getTicks() +Scalar Timer::getTicks() { struct timespec ts; @@ -76,6 +203,22 @@ Scalar getTicks() return Scalar(ts.tv_sec - reference) + Scalar(ts.tv_nsec) / 1000000000.0; } +void Timer::sleep(Scalar seconds, bool absolute) +{ + struct timespec ts; + int ret; + + if (absolute) seconds -= getTicks(); + ts.tv_sec = time_t(seconds); + ts.tv_nsec = long((seconds - Scalar(ts.tv_sec)) * 1000000000.0); + + do + { + ret = nanosleep(&ts, &ts); + } + while (ret == -1 && errno == EINTR); +} + #else // ! HAVE_CLOCK_GETTIME @@ -84,34 +227,20 @@ Scalar getTicks() // SDL only promises centisecond accuracy, but that's better than a kick in the // butt. -#include - -Scalar getTicks() +Scalar Timer::getTicks() { Uint32 ms = SDL_GetTicks(); return Scalar(ms / 1000) + Scalar(ms % 1000) / 1000.0; } - -#endif // HAVE_CLOCK_GETTIME - - -void sleep(Scalar seconds, bool absolute) +void Timer::sleep(Scalar seconds, bool absolute) { - struct timespec ts; - int ret; - if (absolute) seconds -= getTicks(); - ts.tv_sec = time_t(seconds); - ts.tv_nsec = long((seconds - Scalar(ts.tv_sec)) * 1000000000.0); - - do - { - ret = nanosleep(&ts, &ts); - } - while (ret == -1 && errno == EINTR); + SDL_Delay(Uint32(cml::clamp(int(seconds * 1000.0), 0, 1000))); } +#endif // HAVE_CLOCK_GETTIME + } // namespace Mf