#ifndef ACTOR_H #define ACTOR_H #include "RageTypes.h" #include "RageUtil_AutoPtr.h" #include "LuaReference.h" #include "EnumHelper.h" #include "PlayerNumber.h" #include class XNode; struct lua_State; class LuaClass; #include "MessageManager.h" #include "Tween.h" typedef AutoPtrCopyOnWrite apActorCommands; /** @brief The background layer. */ #define DRAW_ORDER_BEFORE_EVERYTHING -200 /** @brief The underlay layer. */ #define DRAW_ORDER_UNDERLAY -100 /** @brief The decorations layer. */ #define DRAW_ORDER_DECORATIONS 0 /** @brief The overlay layer. * * Normal screen elements go here. */ #define DRAW_ORDER_OVERLAY +100 /** @brief The transitions layer. */ #define DRAW_ORDER_TRANSITIONS +200 /** @brief The over everything layer. */ #define DRAW_ORDER_AFTER_EVERYTHING +300 /** @brief The different horizontal alignments. */ enum HorizAlign { HorizAlign_Left, /**< Align to the left. */ HorizAlign_Center, /**< Align to the center. */ HorizAlign_Right, /**< Align to the right. */ NUM_HorizAlign, /**< The number of horizontal alignments. */ HorizAlign_Invalid }; LuaDeclareType( HorizAlign ); /** @brief The different vertical alignments. */ enum VertAlign { VertAlign_Top, /**< Align to the top. */ VertAlign_Middle, /**< Align to the middle. */ VertAlign_Bottom, /**< Align to the bottom. */ NUM_VertAlign, /**< The number of vertical alignments. */ VertAlign_Invalid }; LuaDeclareType( VertAlign ); /** @brief The left horizontal alignment constant. */ #define align_left 0.0f /** @brief The center horizontal alignment constant. */ #define align_center 0.5f /** @brief The right horizontal alignment constant. */ #define align_right 1.0f /** @brief The top vertical alignment constant. */ #define align_top 0.0f /** @brief The middle vertical alignment constant. */ #define align_middle 0.5f /** @brief The bottom vertical alignment constant. */ #define align_bottom 1.0f // ssc futures: /* enum EffectAction { EffectAction_None, // no_effect // [Diffuse] EffectAction_DiffuseBlink, // diffuse_blink EffectAction_DiffuseShift, // diffuse_shift EffectAction_DiffuseRamp, // diffuse_ramp EffectAction_Rainbow, // rainbow // [Glow] EffectAction_GlowBlink, // glow_blink EffectAction_GlowShift, // glow_shift EffectAction_GlowRamp, // glow_ramp // [Translate] EffectAction_Bob, EffectAction_Bounce, EffectAction_Vibrate, // [Rotate] EffectAction_Spin, EffectAction_Wag, // [Zoom] EffectAction_Pulse, NUM_EffectAction, EffectAction_Invalid }; LuaDeclareType( EffectAction ); */ /** @brief Base class for all objects that appear on the screen. */ class Actor : public MessageSubscriber { public: /** @brief Set up the Actor with its initial settings. */ Actor(); /** * @brief Copy a new Actor to the old one. * @param cpy the new Actor to use in place of this one. */ Actor( const Actor &cpy ); virtual ~Actor(); virtual Actor *Copy() const; virtual void InitState(); virtual void LoadFromNode( const XNode* pNode ); static void SetBGMTime( float fTime, float fBeat, float fTimeNoOffset, float fBeatNoOffset ); static void SetPlayerBGMBeat( PlayerNumber pn, float fBeat, float fBeatNoOffset ); static void SetBGMLight( int iLightNumber, float fCabinetLights ); /** * @brief The list of the different effects. * * todo: split out into diffuse effects and translation effects, or * create an effect stack instead. -aj */ enum Effect { no_effect, diffuse_blink, diffuse_shift, diffuse_ramp, glow_blink, glow_shift, glow_ramp, rainbow, wag, bounce, bob, pulse, spin, vibrate }; /** @brief Various values an Actor's effect can be tied to. */ enum EffectClock { CLOCK_TIMER, CLOCK_TIMER_GLOBAL, CLOCK_BGM_TIME, CLOCK_BGM_BEAT, CLOCK_BGM_TIME_NO_OFFSET, CLOCK_BGM_BEAT_NO_OFFSET, CLOCK_BGM_BEAT_PLAYER1, CLOCK_BGM_BEAT_PLAYER2, CLOCK_LIGHT_1 = 1000, CLOCK_LIGHT_LAST = 1100, NUM_CLOCKS }; /* * @brief What type of Effect this is. * * This is an internal enum for checking if an effect can be run; * You can't have more than one of most EffectTypes in the Effect list. (You * might be able to have mutliple EffectType_Translates; not sure yet.) -aj */ /* enum EffectType { EffectType_Diffuse, EffectType_Glow, EffectType_Translate, EffectType_Rotate, EffectType_Zoom, NUM_EffectType, EffectType_Invalid }; */ // todo: use this instead of the Effect enum -aj /* // This is similar to Attributes in BitmapText as far as implementation. struct Effect { Effect() : m_Action(EffectAction_None), m_Type(EffectType_Invalid), m_fSecsIntoEffect(0), m_fEffectDelta(0), m_fEffectRampUp(0.5f), m_fEffectHoldAtHalf(0), m_fEffectRampDown(0.5f), m_fEffectHoldAtZero(0), m_fEffectOffset(0), m_EffectClock(CLOCK_TIMER), m_vEffectMagnitude(RageVector3(0,0,10)), m_effectColor1(RageColor(1,1,1,1)), m_effectColor2(RageColor(1,1,1,1)) { } RString m_sName; // friendly name EffectAction m_Action; // replaces the old Effect enum EffectType m_Type; // determined by EffectAction float m_fSecsIntoEffect; float m_fEffectDelta; RageColor m_EffectColor1; RageColor m_EffectColor2; RageVector3 m_vEffectMagnitude; EffectClock m_EffectClock; // units depend on m_EffectClock float m_fEffectRampUp; float m_fEffectHoldAtHalf; float m_fEffectRampDown; float m_fEffectHoldAtZero; float m_fEffectOffset; }; */ /** * @brief The present state for the Tween. */ struct TweenState { void Init(); static void MakeWeightedAverage( TweenState& average_out, const TweenState& ts1, const TweenState& ts2, float fPercentBetween ); bool operator==( const TweenState &other ) const; bool operator!=( const TweenState &other ) const { return !operator==(other); } // start and end position for tweening RageVector3 pos; RageVector3 rotation; RageVector4 quat; RageVector3 scale; float fSkewX, fSkewY; /** * @brief The amount of cropping involved. * * If 0, there is no cropping. If 1, it's fully cropped. */ RectF crop; /** * @brief The amount of fading involved. * * If 0, there is no fade. If 1, it's fully faded. */ RectF fade; /** * @brief Four values making up the diffuse in this TweenState. * * 0 = UpperLeft, 1 = UpperRight, 2 = LowerLeft, 3 = LowerRight */ RageColor diffuse[4]; /** @brief The glow color for this TweenState. */ RageColor glow; /** @brief A magical value that nobody really knows the use for. ;) */ float aux; }; /** * @brief Calls multiple functions for drawing the Actors. * * It calls the following in order: * -# EarlyAbortDraw * -# BeginDraw * -# DrawPrimitives * -# EndDraw */ void Draw(); /** * @brief Allow the Actor to be aborted early. * * Subclasses may wish to overwrite this to allow for * aborted actors. * @return false, as by default Actors shouldn't be aborted on drawing. */ virtual bool EarlyAbortDraw() const { return false; } /** @brief Start the drawing and push the transform on the world matrix stack. */ virtual void BeginDraw(); /** * @brief Set the global rendering states of this Actor. * * This should be called at the beginning of an Actor's DrawPrimitives() call. */ virtual void SetGlobalRenderStates(); /** * @brief Set the texture rendering states of this Actor. * * This should be called after setting a texture for the Actor. */ virtual void SetTextureRenderStates(); /** * @brief Draw the primitives of the Actor. * * Derivative classes should override this function. */ virtual void DrawPrimitives() {}; /** @brief Pop the transform from the world matrix stack. */ virtual void EndDraw(); // TODO: make Update non virtual and change all classes to override UpdateInternal // instead. bool IsFirstUpdate() const; virtual void Update( float fDeltaTime ); // this can short circuit UpdateInternal virtual void UpdateInternal( float fDeltaTime ); // override this void UpdateTweening( float fDeltaTime ); /** * @brief Retrieve the Actor's name. * @return the Actor's name. */ const RString &GetName() const { return m_sName; } /** * @brief Set the Actor's name to a new one. * @param sName the new name for the Actor. */ virtual void SetName( const RString &sName ) { m_sName = sName; } /** * @brief Give this Actor a new parent. * @param pParent the new parent Actor. */ void SetParent( Actor *pParent ); /** * @brief Retrieve the Actor's parent. * @return the Actor's parent. */ Actor *GetParent() { return m_pParent; } /** * @brief Retrieve the Actor's lineage. * @return the Actor's lineage. */ RString GetLineage() const; /** * @brief Retrieve the Actor's x position. * @return the Actor's x position. */ float GetX() const { return m_current.pos.x; }; /** * @brief Retrieve the Actor's y position. * @return the Actor's y position. */ float GetY() const { return m_current.pos.y; }; /** * @brief Retrieve the Actor's z position. * @return the Actor's z position. */ float GetZ() const { return m_current.pos.z; }; float GetDestX() const { return DestTweenState().pos.x; }; float GetDestY() const { return DestTweenState().pos.y; }; float GetDestZ() const { return DestTweenState().pos.z; }; void SetX( float x ) { DestTweenState().pos.x = x; }; void SetY( float y ) { DestTweenState().pos.y = y; }; void SetZ( float z ) { DestTweenState().pos.z = z; }; void SetXY( float x, float y ) { DestTweenState().pos.x = x; DestTweenState().pos.y = y; }; /** * @brief Add to the x position of this Actor. * @param x the amount to add to the Actor's x position. */ void AddX( float x ) { SetX( GetDestX()+x ); } /** * @brief Add to the y position of this Actor. * @param y the amount to add to the Actor's y position. */ void AddY( float y ) { SetY( GetDestY()+y ); } /** * @brief Add to the z position of this Actor. * @param z the amount to add to the Actor's z position. */ void AddZ( float z ) { SetZ( GetDestZ()+z ); } // height and width vary depending on zoom float GetUnzoomedWidth() const { return m_size.x; } float GetUnzoomedHeight() const { return m_size.y; } float GetZoomedWidth() const { return m_size.x * m_baseScale.x * DestTweenState().scale.x; } float GetZoomedHeight() const { return m_size.y * m_baseScale.y * DestTweenState().scale.y; } void SetWidth( float width ) { m_size.x = width; } void SetHeight( float height ) { m_size.y = height; } // Base values float GetBaseZoomX() const { return m_baseScale.x; } void SetBaseZoomX( float zoom ) { m_baseScale.x = zoom; } float GetBaseZoomY() const { return m_baseScale.y; } void SetBaseZoomY( float zoom ) { m_baseScale.y = zoom; } float GetBaseZoomZ() const { return m_baseScale.z; } void SetBaseZoomZ( float zoom ) { m_baseScale.z = zoom; } void SetBaseZoom( float zoom ) { m_baseScale = RageVector3(zoom,zoom,zoom); } void SetBaseRotationX( float rot ) { m_baseRotation.x = rot; } void SetBaseRotationY( float rot ) { m_baseRotation.y = rot; } void SetBaseRotationZ( float rot ) { m_baseRotation.z = rot; } void SetBaseRotation( const RageVector3 &rot ) { m_baseRotation = rot; } virtual void SetBaseAlpha( float fAlpha ) { m_fBaseAlpha = fAlpha; } /** * @brief Retrieve the general zoom factor, using the x coordinate of the Actor. * * Note that this is not accurate in some cases. * @return the zoom factor for the x coordinate of the Actor. */ float GetZoom() const { return DestTweenState().scale.x; } /** * @brief Retrieve the zoom factor for the x coordinate of the Actor. * @return the zoom factor for the x coordinate of the Actor. */ float GetZoomX() const { return DestTweenState().scale.x; } /** * @brief Retrieve the zoom factor for the y coordinate of the Actor. * @return the zoom factor for the y coordinate of the Actor. */ float GetZoomY() const { return DestTweenState().scale.y; } /** * @brief Retrieve the zoom factor for the z coordinate of the Actor. * @return the zoom factor for the z coordinate of the Actor. */ float GetZoomZ() const { return DestTweenState().scale.z; } /** * @brief Set the zoom factor for all dimensions of the Actor. * @param zoom the zoom factor for all dimensions. */ void SetZoom( float zoom ) { DestTweenState().scale.x = zoom; DestTweenState().scale.y = zoom; DestTweenState().scale.z = zoom; } /** * @brief Set the zoom factor for the x dimension of the Actor. * @param zoom the zoom factor for the x dimension. */ void SetZoomX( float zoom ) { DestTweenState().scale.x = zoom; } /** * @brief Set the zoom factor for the y dimension of the Actor. * @param zoom the zoom factor for the y dimension. */ void SetZoomY( float zoom ) { DestTweenState().scale.y = zoom; } /** * @brief Set the zoom factor for the z dimension of the Actor. * @param zoom the zoom factor for the z dimension. */ void SetZoomZ( float zoom ) { DestTweenState().scale.z = zoom; } void ZoomTo( float fX, float fY ) { ZoomToWidth(fX); ZoomToHeight(fY); } void ZoomToWidth( float zoom ) { SetZoomX( zoom / GetUnzoomedWidth() ); } void ZoomToHeight( float zoom ) { SetZoomY( zoom / GetUnzoomedHeight() ); } float GetRotationX() const { return DestTweenState().rotation.x; } float GetRotationY() const { return DestTweenState().rotation.y; } float GetRotationZ() const { return DestTweenState().rotation.z; } void SetRotationX( float rot ) { DestTweenState().rotation.x = rot; } void SetRotationY( float rot ) { DestTweenState().rotation.y = rot; } void SetRotationZ( float rot ) { DestTweenState().rotation.z = rot; } // added in StepNXA, now available in sm-ssc: void AddRotationX( float rot ) { DestTweenState().rotation.x += rot; }; void AddRotationY( float rot ) { DestTweenState().rotation.y += rot; }; void AddRotationZ( float rot ) { DestTweenState().rotation.z += rot; }; // and these were normally in SM: void AddRotationH( float rot ); void AddRotationP( float rot ); void AddRotationR( float rot ); void SetSkewX( float fAmount ) { DestTweenState().fSkewX = fAmount; } float GetSkewX( float fAmount ) const { return DestTweenState().fSkewX; } void SetSkewY( float fAmount ) { DestTweenState().fSkewY = fAmount; } float GetSkewY( float fAmount ) const { return DestTweenState().fSkewY; } float GetCropLeft() const { return DestTweenState().crop.left; } float GetCropTop() const { return DestTweenState().crop.top; } float GetCropRight() const { return DestTweenState().crop.right; } float GetCropBottom() const { return DestTweenState().crop.bottom; } void SetCropLeft( float percent ) { DestTweenState().crop.left = percent; } void SetCropTop( float percent ) { DestTweenState().crop.top = percent; } void SetCropRight( float percent ) { DestTweenState().crop.right = percent; } void SetCropBottom( float percent ) { DestTweenState().crop.bottom = percent; } void SetFadeLeft( float percent ) { DestTweenState().fade.left = percent; } void SetFadeTop( float percent ) { DestTweenState().fade.top = percent; } void SetFadeRight( float percent ) { DestTweenState().fade.right = percent; } void SetFadeBottom( float percent ) { DestTweenState().fade.bottom = percent; } void SetGlobalDiffuseColor( RageColor c ); virtual void SetDiffuse( RageColor c ) { for(int i=0; i<4; i++) DestTweenState().diffuse[i] = c; }; virtual void SetDiffuseAlpha( float f ) { for(int i = 0; i < 4; ++i) { RageColor c = GetDiffuses( i ); c.a = f; SetDiffuses( i, c ); } } float GetCurrentDiffuseAlpha() const { return m_current.diffuse[0].a; } void SetDiffuseColor( RageColor c ); void SetDiffuses( int i, RageColor c ) { DestTweenState().diffuse[i] = c; }; void SetDiffuseUpperLeft( RageColor c ) { DestTweenState().diffuse[0] = c; }; void SetDiffuseUpperRight( RageColor c ) { DestTweenState().diffuse[1] = c; }; void SetDiffuseLowerLeft( RageColor c ) { DestTweenState().diffuse[2] = c; }; void SetDiffuseLowerRight( RageColor c ) { DestTweenState().diffuse[3] = c; }; void SetDiffuseTopEdge( RageColor c ) { DestTweenState().diffuse[0] = DestTweenState().diffuse[1] = c; }; void SetDiffuseRightEdge( RageColor c ) { DestTweenState().diffuse[1] = DestTweenState().diffuse[3] = c; }; void SetDiffuseBottomEdge( RageColor c ) { DestTweenState().diffuse[2] = DestTweenState().diffuse[3] = c; }; void SetDiffuseLeftEdge( RageColor c ) { DestTweenState().diffuse[0] = DestTweenState().diffuse[2] = c; }; RageColor GetDiffuse() const { return DestTweenState().diffuse[0]; }; RageColor GetDiffuses( int i ) const { return DestTweenState().diffuse[i]; }; float GetDiffuseAlpha() const { return DestTweenState().diffuse[0].a; }; void SetGlow( RageColor c ) { DestTweenState().glow = c; }; RageColor GetGlow() const { return DestTweenState().glow; }; void SetAux( float f ) { DestTweenState().aux = f; } float GetAux() const { return m_current.aux; } void BeginTweening( float time, ITween *pInterp ); void BeginTweening( float time, TweenType tt = TWEEN_LINEAR ); void StopTweening(); void Sleep( float time ); void QueueCommand( const RString& sCommandName ); void QueueMessage( const RString& sMessageName ); virtual void FinishTweening(); virtual void HurryTweening( float factor ); // Let ActorFrame and BGAnimation override virtual float GetTweenTimeLeft() const; // Amount of time until all tweens have stopped TweenState& DestTweenState() // where Actor will end when its tween finish { if( m_Tweens.empty() ) // not tweening return m_current; else return m_Tweens.back()->state; } const TweenState& DestTweenState() const { return const_cast(this)->DestTweenState(); } /** @brief How do we handle stretching the Actor? */ enum StretchType { fit_inside, /**< Have the Actor fit inside its parent, using the smaller zoom. */ cover /**< Have the Actor cover its parent, using the larger zoom. */ }; void ScaleToCover( const RectF &rect ) { ScaleTo( rect, cover ); } void ScaleToFitInside( const RectF &rect ) { ScaleTo( rect, fit_inside); }; void ScaleTo( const RectF &rect, StretchType st ); void StretchTo( const RectF &rect ); // Alignment settings. These need to be virtual for BitmapText virtual void SetHorizAlign( float f ) { m_fHorizAlign = f; } virtual void SetVertAlign( float f ) { m_fVertAlign = f; } void SetHorizAlign( HorizAlign ha ) { SetHorizAlign( (ha == HorizAlign_Left)? 0.0f: (ha == HorizAlign_Center)? 0.5f: +1.0f ); } void SetVertAlign( VertAlign va ) { SetVertAlign( (va == VertAlign_Top)? 0.0f: (va == VertAlign_Middle)? 0.5f: +1.0f ); } virtual float GetHorizAlign() { return m_fHorizAlign; } virtual float GetVertAlign() { return m_fVertAlign; } // effects #if defined(SSC_FUTURES) void StopEffects(); Effect GetEffect( int i ) const { return m_Effects[i]; } #else void StopEffect() { m_Effect = no_effect; } Effect GetEffect() const { return m_Effect; } #endif float GetSecsIntoEffect() const { return m_fSecsIntoEffect; } float GetEffectDelta() const { return m_fEffectDelta; } // todo: account for SSC_FUTURES by adding an effect as an arg to each one -aj void SetEffectColor1( RageColor c ) { m_effectColor1 = c; } void SetEffectColor2( RageColor c ) { m_effectColor2 = c; } void SetEffectPeriod( float fTime ); float GetEffectPeriod() const; void SetEffectTiming( float fRampUp, float fAtHalf, float fRampDown, float fAtZero ); void SetEffectOffset( float fTime ) { m_fEffectOffset = fTime; } void SetEffectClock( EffectClock c ) { m_EffectClock = c; } void SetEffectClockString( const RString &s ); // convenience void SetEffectMagnitude( RageVector3 vec ) { m_vEffectMagnitude = vec; } RageVector3 GetEffectMagnitude() const { return m_vEffectMagnitude; } void SetEffectDiffuseBlink( float fEffectPeriodSeconds = 1.0f, RageColor c1 = RageColor(0.5f,0.5f,0.5f,1), RageColor c2 = RageColor(1,1,1,1) ); void SetEffectDiffuseShift( float fEffectPeriodSeconds = 1.f, RageColor c1 = RageColor(0,0,0,1), RageColor c2 = RageColor(1,1,1,1) ); void SetEffectDiffuseRamp( float fEffectPeriodSeconds = 1.f, RageColor c1 = RageColor(0,0,0,1), RageColor c2 = RageColor(1,1,1,1) ); void SetEffectGlowBlink( float fEffectPeriodSeconds = 1.f, RageColor c1 = RageColor(1,1,1,0.2f), RageColor c2 = RageColor(1,1,1,0.8f) ); void SetEffectGlowShift( float fEffectPeriodSeconds = 1.0f, RageColor c1 = RageColor(1,1,1,0.2f), RageColor c2 = RageColor(1,1,1,0.8f) ); void SetEffectGlowRamp( float fEffectPeriodSeconds = 1.0f, RageColor c1 = RageColor(1,1,1,0.2f), RageColor c2 = RageColor(1,1,1,0.8f) ); void SetEffectRainbow( float fEffectPeriodSeconds = 2.0f ); void SetEffectWag( float fPeriod = 2.f, RageVector3 vect = RageVector3(0,0,20) ); void SetEffectBounce( float fPeriod = 2.f, RageVector3 vect = RageVector3(0,20,0) ); void SetEffectBob( float fPeriod = 2.f, RageVector3 vect = RageVector3(0,20,0) ); void SetEffectPulse( float fPeriod = 2.f, float fMinZoom = 0.5f, float fMaxZoom = 1.f ); void SetEffectSpin( RageVector3 vect = RageVector3(0,0,180) ); void SetEffectVibrate( RageVector3 vect = RageVector3(10,10,10) ); // other properties /** * @brief Determine if the Actor is visible at this time. * @return true if it's visible, false otherwise. */ bool GetVisible() const { return m_bVisible; } void SetVisible( bool b ) { m_bVisible = b; } void SetShadowLength( float fLength ) { m_fShadowLengthX = fLength; m_fShadowLengthY = fLength; } void SetShadowLengthX( float fLengthX ) { m_fShadowLengthX = fLengthX; } void SetShadowLengthY( float fLengthY ) { m_fShadowLengthY = fLengthY; } void SetShadowColor( RageColor c ) { m_ShadowColor = c; } // TODO: Implement hibernate as a tween type? void SetHibernate( float fSecs ) { m_fHibernateSecondsLeft = fSecs; } void SetDrawOrder( int iOrder ) { m_iDrawOrder = iOrder; } int GetDrawOrder() const { return m_iDrawOrder; } virtual void EnableAnimation( bool b ) { m_bIsAnimating = b; } // Sprite needs to overload this void StartAnimating() { this->EnableAnimation(true); } void StopAnimating() { this->EnableAnimation(false); } // render states void SetBlendMode( BlendMode mode ) { m_BlendMode = mode; } void SetTextureWrapping( bool b ) { m_bTextureWrapping = b; } void SetTextureFiltering( bool b ) { m_bTextureFiltering = b; } void SetClearZBuffer( bool b ) { m_bClearZBuffer = b; } void SetUseZBuffer( bool b ) { SetZTestMode(b?ZTEST_WRITE_ON_PASS:ZTEST_OFF); SetZWrite(b); } virtual void SetZTestMode( ZTestMode mode ) { m_ZTestMode = mode; } virtual void SetZWrite( bool b ) { m_bZWrite = b; } void SetZBias( float f ) { m_fZBias = f; } virtual void SetCullMode( CullMode mode ) { m_CullMode = mode; } // Lua virtual void PushSelf( lua_State *L ); virtual void PushContext( lua_State *L ); // Named commands void AddCommand( const RString &sCmdName, apActorCommands apac ); bool HasCommand( const RString &sCmdName ) const; const apActorCommands *GetCommand( const RString &sCommandName ) const; void PlayCommand( const RString &sCommandName ) { HandleMessage( Message(sCommandName) ); } // convenience void PlayCommandNoRecurse( const Message &msg ); // Commands by reference virtual void RunCommands( const LuaReference& cmds, const LuaReference *pParamTable = NULL ); void RunCommands( const apActorCommands& cmds, const LuaReference *pParamTable = NULL ) { this->RunCommands( *cmds, pParamTable ); } // convenience virtual void RunCommandsRecursively( const LuaReference& cmds, const LuaReference *pParamTable = NULL ) { RunCommands(cmds, pParamTable); } // If we're a leaf, then execute this command. virtual void RunCommandsOnLeaves( const LuaReference& cmds, const LuaReference *pParamTable = NULL ) { RunCommands(cmds, pParamTable); } // Messages virtual void HandleMessage( const Message &msg ); // Animation virtual int GetNumStates() const { return 1; } virtual void SetState( int iNewState ) {} virtual float GetAnimationLengthSeconds() const { return 0; } virtual void SetSecondsIntoAnimation( float fSeconds ) {} virtual void SetUpdateRate( float fRate ) {} HiddenPtr m_pLuaInstance; protected: /** @brief the name of the Actor. */ RString m_sName; /** @brief the current parent of this Actor if it exists. */ Actor *m_pParent; /** @brief Some general information about the Tween. */ struct TweenInfo { // counters for tweening TweenInfo(); ~TweenInfo(); TweenInfo( const TweenInfo &cpy ); TweenInfo &operator=( const TweenInfo &rhs ); ITween *m_pTween; /** @brief How far into the tween are we? */ float m_fTimeLeftInTween; /** @brief The number of seconds between Start and End positions/zooms. */ float m_fTweenTime; /** @brief The command to execute when this TweenState goes into effect. */ RString m_sCommandName; }; RageVector3 m_baseRotation; RageVector3 m_baseScale; float m_fBaseAlpha; RageVector2 m_size; TweenState m_current; TweenState m_start; struct TweenStateAndInfo { TweenState state; TweenInfo info; }; vector m_Tweens; /** @brief Temporary variables that are filled just before drawing */ TweenState *m_pTempState; bool m_bFirstUpdate; // Stuff for alignment /** @brief The particular horizontal alignment. * * Use the defined constant values for best effect. */ float m_fHorizAlign; /** @brief The particular vertical alignment. * * Use the defined constant values for best effect. */ float m_fVertAlign; // Stuff for effects #if defined(SSC_FUTURES) // be able to stack effects vector m_Effects; #else // compatibility Effect m_Effect; #endif float m_fSecsIntoEffect; float m_fEffectDelta; // units depend on m_EffectClock float m_fEffectRampUp; float m_fEffectHoldAtHalf; float m_fEffectRampDown; float m_fEffectHoldAtZero; float m_fEffectOffset; EffectClock m_EffectClock; /* This can be used in lieu of the fDeltaTime parameter to Update() to * follow the effect clock. Actor::Update must be called first. */ float GetEffectDeltaTime() const { return m_fEffectDelta; } // todo: account for SSC_FUTURES by having these be vectors too -aj RageColor m_effectColor1; RageColor m_effectColor2; RageVector3 m_vEffectMagnitude; // other properties bool m_bVisible; bool m_bIsAnimating; float m_fHibernateSecondsLeft; float m_fShadowLengthX; float m_fShadowLengthY; RageColor m_ShadowColor; /** @brief The draw order priority. * * The lower this number is, the sooner it is drawn. */ int m_iDrawOrder; // render states BlendMode m_BlendMode; ZTestMode m_ZTestMode; CullMode m_CullMode; bool m_bTextureWrapping; bool m_bTextureFiltering; bool m_bClearZBuffer; bool m_bZWrite; /** * @brief The amount of bias. * * If 0, there is no bias. If 1, there is a full bias. */ float m_fZBias; // global state static float g_fCurrentBGMTime, g_fCurrentBGMBeat; static float g_fCurrentBGMTimeNoOffset, g_fCurrentBGMBeatNoOffset; static vector g_vfCurrentBGMBeatPlayer, g_vfCurrentBGMBeatPlayerNoOffset; private: // commands map m_mapNameToCommands; }; #endif /** * @file * @author Chris Danford (c) 2001-2004 * @section LICENSE * All rights reserved. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the * "Software"), to deal in the Software without restriction, including * without limitation the rights to use, copy, modify, merge, publish, * distribute, and/or sell copies of the Software, and to permit persons to * whom the Software is furnished to do so, provided that the above * copyright notice(s) and this permission notice appear in all copies of * the Software and that both the above copyright notice(s) and this * permission notice appear in supporting documentation. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT OF * THIRD PARTY RIGHTS. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR HOLDERS * INCLUDED IN THIS NOTICE BE LIABLE FOR ANY CLAIM, OR ANY SPECIAL INDIRECT * OR CONSEQUENTIAL DAMAGES, OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS * OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR * OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR * PERFORMANCE OF THIS SOFTWARE. */