//========= Copyright © 1996-2005, Valve Corporation, All rights reserved. ============// // // Purpose: // //=============================================================================// #ifndef BASE_PLAYERANIMSTATE_H #define BASE_PLAYERANIMSTATE_H #ifdef _WIN32 #pragma once #endif #include "iplayeranimstate.h" #include "studio.h" #include "sequence_transitioner.h" #ifdef CLIENT_DLL class C_BaseAnimatingOverlay; #define CBaseAnimatingOverlay C_BaseAnimatingOverlay #else class CBaseAnimatingOverlay; #endif // If a guy is moving slower than this, then he's considered to not be moving // (so he goes to his idle animation at full playback rate rather than his walk // animation at low playback rate). #define MOVING_MINIMUM_SPEED 0.5f #define MAIN_IDLE_SEQUENCE_LAYER 0 // For 8-way blended models, this layer blends an idle on top of the run/walk animation to simulate a 9-way blend. // For 9-way blended models, we don't use this layer. #define AIMSEQUENCE_LAYER 1 // Aim sequence uses layers 0 and 1 for the weapon idle animation (needs 2 layers so it can blend). #define NUM_AIMSEQUENCE_LAYERS 4 // Then it uses layers 2 and 3 to blend in the weapon run/walk/crouchwalk animation. // Everyone who derives from CBasePlayerAnimState gets to fill in this info // to drive how the animation state is generated. class CModAnimConfig { public: // This tells how far the upper body can rotate left and right. If he begins to rotate // past this, it'll turn his feet to face his upper body. float m_flMaxBodyYawDegrees; // How do the legs animate? LegAnimType_t m_LegAnimType; // Use aim sequences? (CS hostages don't). bool m_bUseAimSequences; }; // ------------------------------------------------------------------------------------------------ // // CBasePlayerAnimState declaration. // ------------------------------------------------------------------------------------------------ // abstract_class CBasePlayerAnimState : virtual public IPlayerAnimState { public: DECLARE_CLASS_NOBASE( CBasePlayerAnimState ); enum { TURN_NONE = 0, TURN_LEFT, TURN_RIGHT }; CBasePlayerAnimState(); virtual ~CBasePlayerAnimState(); void Init( CBaseAnimatingOverlay *pPlayer, const CModAnimConfig &config ); virtual void Release(); // Update() and DoAnimationEvent() together maintain the entire player's animation state. // // Update() maintains the the lower body animation (the player's m_nSequence) // and the upper body overlay based on the player's velocity and look direction. // // It also modulates these based on events triggered by DoAnimationEvent. virtual void Update( float eyeYaw, float eyePitch ); // This is called by the client when a new player enters the PVS to clear any events // the dormant version of the entity may have been playing. virtual void ClearAnimationState(); // This is called every frame to prepare the animation layers to be filled with data // since we reconstruct them every frame (in case they get stomped by the networking // or anything else). virtual void ClearAnimationLayers(); // The client uses this to figure out what angles to render the entity with (since as the guy turns, // it will change his body_yaw pose parameter before changing his rendered angle). virtual const QAngle& GetRenderAngles(); // Overrideables. public: virtual bool ShouldUpdateAnimState(); // This is called near the start of each frame. // The base class figures out the main sequence and the aim sequence, and derived // classes can overlay whatever other animations they want. virtual void ComputeSequences( CStudioHdr *pStudioHdr ); // This is called to figure out what the main activity is. The mod-specific class // overrides this to handle events like jumping, firing, etc. virtual Activity CalcMainActivity() = 0; // This is called to calculate the aim layer sequence. It usually figures out the // animation prefixes and suffixes and calls CalcSequenceIndex(). virtual int CalcAimLayerSequence( float *flCycle, float *flAimSequenceWeight, bool bForceIdle ) = 0; // This lets server-controlled idle sequences to play unchanged on the client virtual bool ShouldChangeSequences( void ) const; // If this returns true, then it will blend the current aim layer sequence with an idle aim layer // sequence based on how fast the character is moving, so it doesn't play the upper-body run at // full speed if he's moving really slowly. // // We return false on this for animations that don't have blends, like reloads. virtual bool ShouldBlendAimSequenceToIdle(); // For the body left/right rotation, some models use a pose parameter and some use a bone controller. virtual float SetOuterBodyYaw( float flValue ); // Return true if the player is allowed to move. virtual bool CanThePlayerMove(); // This is called every frame to see what the maximum speed the player can move is. // It is used to determine where to put the move_x/move_y pose parameters or to // determine the animation playback rate, based on the player's movement speed. // The return value from here is interpolated so the playback rate or pose params don't move sharply. virtual float GetCurrentMaxGroundSpeed() = 0; // Display Con_NPrint output about the animation state. This is called if // we're on the client and if cl_showanimstate holds the current entity's index. void DebugShowAnimStateFull( int iStartLine ); virtual void DebugShowAnimState( int iStartLine ); void AnimStatePrintf( int iLine, const char *pMsg, ... ); void AnimStateLog( const char *pMsg, ... ); // Calculate the playback rate for movement layer virtual float CalcMovementPlaybackRate( bool *bIsMoving ); // Allow inheriting classes to translate their desired activity, while keeping all // internal ACT comparisons using the base activity virtual Activity TranslateActivity( Activity actDesired ) { return actDesired; } // Allow inheriting classes to override SelectWeightedSequence virtual int SelectWeightedSequence( Activity activity ); public: void GetPoseParameters( CStudioHdr *pStudioHdr, float poseParameter[MAXSTUDIOPOSEPARAM] ); CBaseAnimatingOverlay *GetOuter() const; void RestartMainSequence(); virtual float GetFeetYawRate( void ); // Helpers for the derived classes to use. protected: // Sets up the string you specify, looks for that sequence and returns the index. // Complains in the console and returns 0 if it can't find it. virtual int CalcSequenceIndex( const char *pBaseName, ... ); Activity GetCurrentMainSequenceActivity() const; void GetOuterAbsVelocity( Vector& vel ) const; float GetOuterXYSpeed() const; // How long has it been since we cleared the animation state? float TimeSinceLastAnimationStateClear() const; float GetEyeYaw() const { return m_flEyeYaw; } void SetOuterPoseParameter( int iParam, float flValue ); protected: CModAnimConfig m_AnimConfig; CBaseAnimatingOverlay *m_pOuter; protected: virtual int ConvergeAngles( float goal,float maxrate, float maxgap, float dt, float& current ); virtual void ComputePoseParam_MoveYaw( CStudioHdr *pStudioHdr ); virtual void ComputePoseParam_BodyPitch( CStudioHdr *pStudioHdr ); virtual void ComputePoseParam_BodyYaw(); virtual void ResetGroundSpeed( void ); virtual bool ShouldResetGroundSpeed( Activity oldActivity, Activity idealActivity ); protected: // The player's eye yaw and pitch angles. float m_flEyeYaw; float m_flEyePitch; // The following variables are used for tweaking the yaw of the upper body when standing still and // making sure that it smoothly blends in and out once the player starts moving // Direction feet were facing when we stopped moving float m_flGoalFeetYaw; float m_flCurrentFeetYaw; bool m_bCurrentFeetYawInitialized; float m_flCurrentTorsoYaw; // To check if they are rotating in place float m_flLastYaw; // Time when we stopped moving float m_flLastTurnTime; // One of the above enums int m_nTurningInPlace; QAngle m_angRender; Vector2D m_vLastMovePose; private: // Update the prone state machine. void UpdateProneState(); // Get the string that's appended to animation names for the player's current weapon. const char* GetWeaponSuffix(); Activity BodyYawTranslateActivity( Activity activity ); void EstimateYaw(); virtual bool ShouldResetMainSequence( int iCurrentSequence, int iNewSequence ); void ComputeMainSequence(); void ComputeAimSequence(); void ComputePlaybackRate(); void UpdateInterpolators(); float GetInterpolatedGroundSpeed(); private: float m_flMaxGroundSpeed; float m_flLastAnimationStateClearTime; // If he's using 8-way blending, then we blend to this idle int m_iCurrent8WayIdleSequence; int m_iCurrent8WayCrouchIdleSequence; // Last activity we've used on the lower body. Used to determine if animations should restart. Activity m_eCurrentMainSequenceActivity; float m_flGaitYaw; float m_flStoredCycle; void UpdateAimSequenceLayers( float flCycle, int iFirstLayer, bool bForceIdle, CSequenceTransitioner *pTransitioner, float flWeightScale ); void OptimizeLayerWeights( int iFirstLayer, int nLayers ); // This gives us smooth transitions between aim anim sequences on the client. CSequenceTransitioner m_IdleSequenceTransitioner; CSequenceTransitioner m_SequenceTransitioner; }; extern float g_flLastBodyPitch, g_flLastBodyYaw, m_flLastMoveYaw; inline Activity CBasePlayerAnimState::GetCurrentMainSequenceActivity() const { return m_eCurrentMainSequenceActivity; } #endif // BASE_PLAYERANIMSTATE_H