//========= Copyright © 1996-2005, Valve Corporation, All rights reserved. ============// // // Purpose: // // $NoKeywords: $ //=============================================================================// #ifndef SIMTIMER_H #define SIMTIMER_H #if defined( _WIN32 ) #pragma once #endif #define ST_EPS 0.001 #define DEFINE_SIMTIMER( type, name ) DEFINE_EMBEDDED( type, name ) //----------------------------------------------------------------------------- class CSimpleSimTimer { public: CSimpleSimTimer() : m_next( -1 ) { } void Force() { m_next = -1; } bool Expired() const { return ( gpGlobals->curtime - m_next > -ST_EPS ); } float Delay( float delayTime ) { return (m_next += delayTime); } float GetNext() const { return m_next; } void Set( float interval ) { m_next = gpGlobals->curtime + interval; } void Set( float minInterval, float maxInterval ) { if ( maxInterval > 0.0 ) m_next = gpGlobals->curtime + random->RandomFloat( minInterval, maxInterval ); else m_next = gpGlobals->curtime + minInterval; } float GetRemaining() const { float result = m_next - gpGlobals->curtime; if (result < 0 ) return 0; return result; } DECLARE_SIMPLE_DATADESC(); protected: float m_next; }; //----------------------------------------------------------------------------- class CSimTimer : public CSimpleSimTimer { public: CSimTimer( float interval = 0.0, bool startExpired = true ) { Set( interval, startExpired ); } void Set( float interval, bool startExpired = true ) { m_interval = interval; m_next = (startExpired) ? -1.0 : gpGlobals->curtime + m_interval; } void Reset( float interval = -1.0 ) { if ( interval == -1.0 ) { m_next = gpGlobals->curtime + m_interval; } else { m_next = gpGlobals->curtime + interval; } } float GetInterval() const { return m_interval; } DECLARE_SIMPLE_DATADESC(); private: float m_interval; }; //----------------------------------------------------------------------------- //----------------------------------------------------------------------------- class CRandSimTimer : public CSimpleSimTimer { public: CRandSimTimer( float minInterval = 0.0, float maxInterval = 0.0, bool startExpired = true ) { Set( minInterval, maxInterval, startExpired ); } void Set( float minInterval, float maxInterval = 0.0, bool startExpired = true ) { m_minInterval = minInterval; m_maxInterval = maxInterval; if (startExpired) { m_next = -1; } else { if ( m_maxInterval == 0 ) m_next = gpGlobals->curtime + m_minInterval; else m_next = gpGlobals->curtime + random->RandomFloat( m_minInterval, m_maxInterval ); } } void Reset() { if ( m_maxInterval == 0 ) m_next = gpGlobals->curtime + m_minInterval; else m_next = gpGlobals->curtime + random->RandomFloat( m_minInterval, m_maxInterval ); } float GetMinInterval() const { return m_minInterval; } float GetMaxInterval() const { return m_maxInterval; } DECLARE_SIMPLE_DATADESC(); private: float m_minInterval; float m_maxInterval; }; //----------------------------------------------------------------------------- class CStopwatchBase : public CSimpleSimTimer { public: CStopwatchBase() { m_fIsRunning = false; } bool IsRunning() const { return m_fIsRunning; } void Stop() { m_fIsRunning = false; } bool Expired() const { return ( m_fIsRunning && CSimpleSimTimer::Expired() ); } DECLARE_SIMPLE_DATADESC(); protected: bool m_fIsRunning; }; //------------------------------------- class CSimpleStopwatch : public CStopwatchBase { public: void Start( float minCountdown, float maxCountdown = 0.0 ) { m_fIsRunning = true; CSimpleSimTimer::Set( minCountdown, maxCountdown ); } void Stop() { m_fIsRunning = false; } bool Expired() const { return ( m_fIsRunning && CSimpleSimTimer::Expired() ); } }; //------------------------------------- class CStopwatch : public CStopwatchBase { public: CStopwatch ( float interval = 0.0 ) { Set( interval ); } void Set( float interval ) { m_interval = interval; } void Start( float intervalOverride ) { m_fIsRunning = true; m_next = gpGlobals->curtime + intervalOverride; } void Start() { Start( m_interval ); } float GetInterval() const { return m_interval; } DECLARE_SIMPLE_DATADESC(); private: float m_interval; }; //------------------------------------- class CRandStopwatch : public CStopwatchBase { public: CRandStopwatch( float minInterval = 0.0, float maxInterval = 0.0 ) { Set( minInterval, maxInterval ); } void Set( float minInterval, float maxInterval = 0.0 ) { m_minInterval = minInterval; m_maxInterval = maxInterval; } void Start( float minOverride, float maxOverride = 0.0 ) { m_fIsRunning = true; if ( maxOverride == 0 ) m_next = gpGlobals->curtime + minOverride; else m_next = gpGlobals->curtime + random->RandomFloat( minOverride, maxOverride ); } void Start() { Start( m_minInterval, m_maxInterval ); } float GetInterval() const { return m_minInterval; } float GetMinInterval() const { return m_minInterval; } float GetMaxInterval() const { return m_maxInterval; } DECLARE_SIMPLE_DATADESC(); private: float m_minInterval; float m_maxInterval; }; //----------------------------------------------------------------------------- class CThinkOnceSemaphore { public: CThinkOnceSemaphore() : m_lastTime( -1 ) { } bool EnterThink() { if ( m_lastTime == gpGlobals->curtime ) return false; m_lastTime = gpGlobals->curtime; return true; } bool DidThink() const { return ( gpGlobals->curtime == m_lastTime ); } void SetDidThink() { m_lastTime = gpGlobals->curtime; } private: float m_lastTime; }; //----------------------------------------------------------------------------- #endif // SIMTIMER_H