//========= Copyright Valve Corporation, All rights reserved. ============// // // Purpose: Base class for all animating characters and objects. // //=============================================================================// #include "cbase.h" #include "baseanimating.h" #include "animation.h" #include "activitylist.h" #include "studio.h" #include "bone_setup.h" #include "mathlib/mathlib.h" #include "model_types.h" #include "datacache/imdlcache.h" #include "physics.h" #include "ndebugoverlay.h" #include "tier1/strtools.h" #include "npcevent.h" #include "isaverestore.h" #include "KeyValues.h" #include "tier0/vprof.h" #include "EntityFlame.h" #include "EntityDissolve.h" #include "ai_basenpc.h" #include "physics_prop_ragdoll.h" #include "datacache/idatacache.h" #include "smoke_trail.h" #include "props.h" // memdbgon must be the last include file in a .cpp file!!! #include "tier0/memdbgon.h" ConVar ai_sequence_debug( "ai_sequence_debug", "0" ); class CIKSaveRestoreOps : public CClassPtrSaveRestoreOps { // save data type interface void Save( const SaveRestoreFieldInfo_t &fieldInfo, ISave *pSave ) { Assert( fieldInfo.pTypeDesc->fieldSize == 1 ); CIKContext **pIK = (CIKContext **)fieldInfo.pField; bool bHasIK = (*pIK) != 0; pSave->WriteBool( &bHasIK ); } void Restore( const SaveRestoreFieldInfo_t &fieldInfo, IRestore *pRestore ) { Assert( fieldInfo.pTypeDesc->fieldSize == 1 ); CIKContext **pIK = (CIKContext **)fieldInfo.pField; bool bHasIK; pRestore->ReadBool( &bHasIK ); *pIK = (bHasIK) ? new CIKContext : NULL; } }; //----------------------------------------------------------------------------- // Relative lighting entity //----------------------------------------------------------------------------- class CInfoLightingRelative : public CBaseEntity { public: DECLARE_CLASS( CInfoLightingRelative, CBaseEntity ); DECLARE_DATADESC(); DECLARE_SERVERCLASS(); virtual void Activate(); virtual void SetTransmit( CCheckTransmitInfo *pInfo, bool bAlways ); virtual int UpdateTransmitState( void ); private: CNetworkHandle( CBaseEntity, m_hLightingLandmark ); string_t m_strLightingLandmark; }; LINK_ENTITY_TO_CLASS( info_lighting_relative, CInfoLightingRelative ); BEGIN_DATADESC( CInfoLightingRelative ) DEFINE_KEYFIELD( m_strLightingLandmark, FIELD_STRING, "LightingLandmark" ), DEFINE_FIELD( m_hLightingLandmark, FIELD_EHANDLE ), END_DATADESC() IMPLEMENT_SERVERCLASS_ST(CInfoLightingRelative, DT_InfoLightingRelative) SendPropEHandle( SENDINFO( m_hLightingLandmark ) ), END_SEND_TABLE() //----------------------------------------------------------------------------- // Activate! //----------------------------------------------------------------------------- void CInfoLightingRelative::Activate() { BaseClass::Activate(); if ( m_strLightingLandmark == NULL_STRING ) { m_hLightingLandmark = NULL; } else { m_hLightingLandmark = gEntList.FindEntityByName( NULL, m_strLightingLandmark ); if ( !m_hLightingLandmark ) { DevWarning( "%s: Could not find lighting landmark '%s'!\n", GetClassname(), STRING( m_strLightingLandmark ) ); } else { // Set a force transmit because we do not have a model. m_hLightingLandmark->AddEFlags( EFL_FORCE_CHECK_TRANSMIT ); } } } //----------------------------------------------------------------------------- // Force our lighting landmark to be transmitted //----------------------------------------------------------------------------- void CInfoLightingRelative::SetTransmit( CCheckTransmitInfo *pInfo, bool bAlways ) { // Are we already marked for transmission? if ( pInfo->m_pTransmitEdict->Get( entindex() ) ) return; BaseClass::SetTransmit( pInfo, bAlways ); // Force our constraint entity to be sent too. if ( m_hLightingLandmark ) { if ( m_hLightingLandmark->GetMoveParent() ) { // Set a full check because we have a move parent. m_hLightingLandmark->SetTransmitState( FL_EDICT_FULLCHECK ); } else { m_hLightingLandmark->SetTransmitState( FL_EDICT_ALWAYS ); } m_hLightingLandmark->SetTransmit( pInfo, bAlways ); } } //----------------------------------------------------------------------------- // Purpose Force our lighting landmark to be transmitted //----------------------------------------------------------------------------- int CInfoLightingRelative::UpdateTransmitState( void ) { return SetTransmitState( FL_EDICT_ALWAYS ); } static CIKSaveRestoreOps s_IKSaveRestoreOp; BEGIN_DATADESC( CBaseAnimating ) DEFINE_FIELD( m_flGroundSpeed, FIELD_FLOAT ), DEFINE_FIELD( m_flLastEventCheck, FIELD_TIME ), DEFINE_FIELD( m_bSequenceFinished, FIELD_BOOLEAN ), DEFINE_FIELD( m_bSequenceLoops, FIELD_BOOLEAN ), // DEFINE_FIELD( m_nForceBone, FIELD_INTEGER ), // DEFINE_FIELD( m_vecForce, FIELD_VECTOR ), DEFINE_INPUT( m_nSkin, FIELD_INTEGER, "skin" ), DEFINE_KEYFIELD( m_nBody, FIELD_INTEGER, "body" ), DEFINE_INPUT( m_nBody, FIELD_INTEGER, "SetBodyGroup" ), DEFINE_KEYFIELD( m_nHitboxSet, FIELD_INTEGER, "hitboxset" ), DEFINE_KEYFIELD( m_nSequence, FIELD_INTEGER, "sequence" ), DEFINE_ARRAY( m_flPoseParameter, FIELD_FLOAT, CBaseAnimating::NUM_POSEPAREMETERS ), DEFINE_ARRAY( m_flEncodedController, FIELD_FLOAT, CBaseAnimating::NUM_BONECTRLS ), DEFINE_KEYFIELD( m_flPlaybackRate, FIELD_FLOAT, "playbackrate" ), DEFINE_KEYFIELD( m_flCycle, FIELD_FLOAT, "cycle" ), // DEFINE_FIELD( m_flIKGroundContactTime, FIELD_TIME ), // DEFINE_FIELD( m_flIKGroundMinHeight, FIELD_FLOAT ), // DEFINE_FIELD( m_flIKGroundMaxHeight, FIELD_FLOAT ), // DEFINE_FIELD( m_flEstIkFloor, FIELD_FLOAT ), // DEFINE_FIELD( m_flEstIkOffset, FIELD_FLOAT ), // DEFINE_FIELD( m_pStudioHdr, CStudioHdr ), // DEFINE_FIELD( m_StudioHdrInitLock, CThreadFastMutex ), // DEFINE_FIELD( m_BoneSetupMutex, CThreadFastMutex ), DEFINE_CUSTOM_FIELD( m_pIk, &s_IKSaveRestoreOp ), DEFINE_FIELD( m_iIKCounter, FIELD_INTEGER ), DEFINE_FIELD( m_bClientSideAnimation, FIELD_BOOLEAN ), DEFINE_FIELD( m_bClientSideFrameReset, FIELD_BOOLEAN ), DEFINE_FIELD( m_nNewSequenceParity, FIELD_INTEGER ), DEFINE_FIELD( m_nResetEventsParity, FIELD_INTEGER ), DEFINE_FIELD( m_nMuzzleFlashParity, FIELD_CHARACTER ), DEFINE_KEYFIELD( m_iszLightingOriginRelative, FIELD_STRING, "LightingOriginHack" ), DEFINE_KEYFIELD( m_iszLightingOrigin, FIELD_STRING, "LightingOrigin" ), DEFINE_FIELD( m_hLightingOrigin, FIELD_EHANDLE ), DEFINE_FIELD( m_hLightingOriginRelative, FIELD_EHANDLE ), DEFINE_FIELD( m_flModelScale, FIELD_FLOAT ), DEFINE_FIELD( m_flDissolveStartTime, FIELD_TIME ), // DEFINE_FIELD( m_boneCacheHandle, memhandle_t ), DEFINE_INPUTFUNC( FIELD_VOID, "Ignite", InputIgnite ), DEFINE_INPUTFUNC( FIELD_FLOAT, "IgniteLifetime", InputIgniteLifetime ), DEFINE_INPUTFUNC( FIELD_INTEGER, "IgniteNumHitboxFires", InputIgniteNumHitboxFires ), DEFINE_INPUTFUNC( FIELD_FLOAT, "IgniteHitboxFireScale", InputIgniteHitboxFireScale ), DEFINE_INPUTFUNC( FIELD_VOID, "BecomeRagdoll", InputBecomeRagdoll ), DEFINE_INPUTFUNC( FIELD_STRING, "SetLightingOriginHack", InputSetLightingOriginRelative ), DEFINE_INPUTFUNC( FIELD_STRING, "SetLightingOrigin", InputSetLightingOrigin ), DEFINE_OUTPUT( m_OnIgnite, "OnIgnite" ), DEFINE_INPUT( m_fadeMinDist, FIELD_FLOAT, "fademindist" ), DEFINE_INPUT( m_fadeMaxDist, FIELD_FLOAT, "fademaxdist" ), DEFINE_KEYFIELD( m_flFadeScale, FIELD_FLOAT, "fadescale" ), DEFINE_KEYFIELD( m_flModelScale, FIELD_FLOAT, "modelscale" ), DEFINE_INPUTFUNC( FIELD_VECTOR, "SetModelScale", InputSetModelScale ), DEFINE_FIELD( m_fBoneCacheFlags, FIELD_SHORT ), END_DATADESC() // Sendtable for fields we don't want to send to clientside animating entities BEGIN_SEND_TABLE_NOBASE( CBaseAnimating, DT_ServerAnimationData ) // ANIMATION_CYCLE_BITS is defined in shareddefs.h SendPropFloat (SENDINFO(m_flCycle), ANIMATION_CYCLE_BITS, SPROP_CHANGES_OFTEN|SPROP_ROUNDDOWN, 0.0f, 1.0f) END_SEND_TABLE() void *SendProxy_ClientSideAnimation( const SendProp *pProp, const void *pStruct, const void *pVarData, CSendProxyRecipients *pRecipients, int objectID ); // SendTable stuff. IMPLEMENT_SERVERCLASS_ST(CBaseAnimating, DT_BaseAnimating) SendPropInt ( SENDINFO(m_nForceBone), 8, 0 ), SendPropVector ( SENDINFO(m_vecForce), -1, SPROP_NOSCALE ), SendPropInt ( SENDINFO(m_nSkin), ANIMATION_SKIN_BITS), SendPropInt ( SENDINFO(m_nBody), ANIMATION_BODY_BITS), SendPropInt ( SENDINFO(m_nHitboxSet),ANIMATION_HITBOXSET_BITS, SPROP_UNSIGNED ), SendPropFloat ( SENDINFO(m_flModelScale) ), SendPropArray3 ( SENDINFO_ARRAY3(m_flPoseParameter), SendPropFloat(SENDINFO_ARRAY(m_flPoseParameter), ANIMATION_POSEPARAMETER_BITS, 0, 0.0f, 1.0f ) ), SendPropInt ( SENDINFO(m_nSequence), ANIMATION_SEQUENCE_BITS, SPROP_UNSIGNED ), SendPropFloat ( SENDINFO(m_flPlaybackRate), ANIMATION_PLAYBACKRATE_BITS, SPROP_ROUNDUP, -4.0, 12.0f ), // NOTE: if this isn't a power of 2 than "1.0" can't be encoded correctly SendPropArray3 (SENDINFO_ARRAY3(m_flEncodedController), SendPropFloat(SENDINFO_ARRAY(m_flEncodedController), 11, SPROP_ROUNDDOWN, 0.0f, 1.0f ) ), SendPropInt( SENDINFO( m_bClientSideAnimation ), 1, SPROP_UNSIGNED ), SendPropInt( SENDINFO( m_bClientSideFrameReset ), 1, SPROP_UNSIGNED ), SendPropInt( SENDINFO( m_nNewSequenceParity ), EF_PARITY_BITS, SPROP_UNSIGNED ), SendPropInt( SENDINFO( m_nResetEventsParity ), EF_PARITY_BITS, SPROP_UNSIGNED ), SendPropInt( SENDINFO( m_nMuzzleFlashParity ), EF_MUZZLEFLASH_BITS, SPROP_UNSIGNED ), SendPropEHandle( SENDINFO( m_hLightingOrigin ) ), SendPropEHandle( SENDINFO( m_hLightingOriginRelative ) ), SendPropDataTable( "serveranimdata", 0, &REFERENCE_SEND_TABLE( DT_ServerAnimationData ), SendProxy_ClientSideAnimation ), // Fading SendPropFloat( SENDINFO( m_fadeMinDist ), 0, SPROP_NOSCALE ), SendPropFloat( SENDINFO( m_fadeMaxDist ), 0, SPROP_NOSCALE ), SendPropFloat( SENDINFO( m_flFadeScale ), 0, SPROP_NOSCALE ), END_SEND_TABLE() CBaseAnimating::CBaseAnimating() { m_vecForce.GetForModify().Init(); m_nForceBone = 0; m_bResetSequenceInfoOnLoad = false; m_bClientSideAnimation = false; m_pIk = NULL; m_iIKCounter = 0; InitStepHeightAdjust(); m_flModelScale = 1.0f; // initialize anim clock m_flAnimTime = gpGlobals->curtime; m_flPrevAnimTime = gpGlobals->curtime; m_nNewSequenceParity = 0; m_nResetEventsParity = 0; m_boneCacheHandle = 0; m_pStudioHdr = NULL; m_fadeMinDist = 0; m_fadeMaxDist = 0; m_flFadeScale = 0.0f; m_fBoneCacheFlags = 0; } CBaseAnimating::~CBaseAnimating() { Studio_DestroyBoneCache( m_boneCacheHandle ); delete m_pIk; UnlockStudioHdr(); delete m_pStudioHdr; } void CBaseAnimating::Precache() { #if !defined( TF_DLL ) // Anything derived from this class can potentially burn - true, but do we want it to! PrecacheParticleSystem( "burning_character" ); #endif BaseClass::Precache(); } //----------------------------------------------------------------------------- // Activate! //----------------------------------------------------------------------------- void CBaseAnimating::Activate() { BaseClass::Activate(); SetLightingOrigin( m_iszLightingOrigin ); SetLightingOriginRelative( m_iszLightingOriginRelative ); // Scaled physics objects (re)create their physics here if ( m_flModelScale != 1.0f && VPhysicsGetObject() ) { // sanity check to make sure 'm_flModelScale' is in sync with the Assert( m_flModelScale > 0.0f ); UTIL_CreateScaledPhysObject( this, m_flModelScale ); } } //----------------------------------------------------------------------------- // Force our lighting origin to be trasmitted //----------------------------------------------------------------------------- void CBaseAnimating::SetTransmit( CCheckTransmitInfo *pInfo, bool bAlways ) { // Are we already marked for transmission? if ( pInfo->m_pTransmitEdict->Get( entindex() ) ) return; BaseClass::SetTransmit( pInfo, bAlways ); // Force our lighting entities to be sent too. if ( m_hLightingOrigin ) { m_hLightingOrigin->SetTransmit( pInfo, bAlways ); } if ( m_hLightingOriginRelative ) { m_hLightingOriginRelative->SetTransmit( pInfo, bAlways ); } } //----------------------------------------------------------------------------- //----------------------------------------------------------------------------- int CBaseAnimating::Restore( IRestore &restore ) { int result = BaseClass::Restore( restore ); if ( m_flModelScale <= 0.0f ) m_flModelScale = 1.0f; LockStudioHdr(); return result; } //----------------------------------------------------------------------------- //----------------------------------------------------------------------------- void CBaseAnimating::OnRestore() { BaseClass::OnRestore(); if ( m_nSequence != -1 && GetModelPtr() && !IsValidSequence( m_nSequence ) ) m_nSequence = 0; m_flEstIkFloor = GetLocalOrigin().z; PopulatePoseParameters(); } //----------------------------------------------------------------------------- //----------------------------------------------------------------------------- void CBaseAnimating::Spawn() { BaseClass::Spawn(); } //----------------------------------------------------------------------------- //----------------------------------------------------------------------------- void CBaseAnimating::UseClientSideAnimation() { m_bClientSideAnimation = true; } #define MAX_ANIMTIME_INTERVAL 0.2f //----------------------------------------------------------------------------- // Purpose: // Output : float //----------------------------------------------------------------------------- float CBaseAnimating::GetAnimTimeInterval( void ) const { float flInterval; if (m_flAnimTime < gpGlobals->curtime) { // estimate what it'll be this frame flInterval = clamp( gpGlobals->curtime - m_flAnimTime, 0.f, MAX_ANIMTIME_INTERVAL ); } else { // report actual flInterval = clamp( m_flAnimTime - m_flPrevAnimTime, 0.f, MAX_ANIMTIME_INTERVAL ); } return flInterval; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void CBaseAnimating::StudioFrameAdvanceInternal( CStudioHdr *pStudioHdr, float flCycleDelta ) { float flNewCycle = GetCycle() + flCycleDelta; if (flNewCycle < 0.0 || flNewCycle >= 1.0) { if (m_bSequenceLoops) { flNewCycle -= (int)(flNewCycle); } else { flNewCycle = (flNewCycle < 0.0f) ? 0.0f : 1.0f; } m_bSequenceFinished = true; // just in case it wasn't caught in GetEvents } else if (flNewCycle > GetLastVisibleCycle( pStudioHdr, GetSequence() )) { m_bSequenceFinished = true; } SetCycle( flNewCycle ); /* if (!IsPlayer()) Msg("%s %6.3f : %6.3f %6.3f (%.3f) %.3f\n", GetClassname(), gpGlobals->curtime, m_flAnimTime.Get(), m_flPrevAnimTime, flInterval, GetCycle() ); */ m_flGroundSpeed = GetSequenceGroundSpeed( pStudioHdr, GetSequence() ) * GetModelScale(); // Msg("%s : %s : %5.1f\n", GetClassname(), GetSequenceName( GetSequence() ), GetCycle() ); InvalidatePhysicsRecursive( ANIMATION_CHANGED ); InvalidateBoneCacheIfOlderThan( 0 ); } void CBaseAnimating::InvalidateBoneCacheIfOlderThan( float deltaTime ) { CBoneCache *pcache = Studio_GetBoneCache( m_boneCacheHandle ); if ( !pcache || !pcache->IsValid( gpGlobals->curtime, deltaTime ) ) { InvalidateBoneCache(); } } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void CBaseAnimating::StudioFrameAdvanceManual( float flInterval ) { CStudioHdr *pStudioHdr = GetModelPtr(); if ( !pStudioHdr ) return; m_flAnimTime = gpGlobals->curtime; m_flPrevAnimTime = m_flAnimTime - flInterval; float flCycleRate = GetSequenceCycleRate( pStudioHdr, GetSequence() ) * m_flPlaybackRate; StudioFrameAdvanceInternal( GetModelPtr(), flInterval * flCycleRate ); } //========================================================= // StudioFrameAdvance - advance the animation frame up some interval (default 0.1) into the future //========================================================= void CBaseAnimating::StudioFrameAdvance() { CStudioHdr *pStudioHdr = GetModelPtr(); if ( !pStudioHdr || !pStudioHdr->SequencesAvailable() ) { return; } if ( !m_flPrevAnimTime ) { m_flPrevAnimTime = m_flAnimTime; } // Time since last animation float flInterval = gpGlobals->curtime - m_flAnimTime; flInterval = clamp( flInterval, 0.f, MAX_ANIMTIME_INTERVAL ); //Msg( "%i %s interval %f\n", entindex(), GetClassname(), flInterval ); if (flInterval <= 0.001f) { // Msg("%s : %s : %5.3f (skip)\n", GetClassname(), GetSequenceName( GetSequence() ), GetCycle() ); return; } // Latch prev m_flPrevAnimTime = m_flAnimTime; // Set current m_flAnimTime = gpGlobals->curtime; // Drive cycle float flCycleRate = GetSequenceCycleRate( pStudioHdr, GetSequence() ) * m_flPlaybackRate; StudioFrameAdvanceInternal( pStudioHdr, flInterval * flCycleRate ); if (ai_sequence_debug.GetBool() == true && m_debugOverlays & OVERLAY_NPC_SELECTED_BIT) { Msg("%5.2f : %s : %s : %5.3f\n", gpGlobals->curtime, GetClassname(), GetSequenceName( GetSequence() ), GetCycle() ); } } //----------------------------------------------------------------------------- // Set the relative lighting origin //----------------------------------------------------------------------------- void CBaseAnimating::SetLightingOriginRelative( string_t strLightingOriginRelative ) { if ( strLightingOriginRelative == NULL_STRING ) { SetLightingOriginRelative( NULL ); } else { CBaseEntity *pLightingOrigin = gEntList.FindEntityByName( NULL, strLightingOriginRelative ); if ( !pLightingOrigin ) { DevWarning( "%s: Could not find info_lighting_relative '%s'!\n", GetClassname(), STRING( strLightingOriginRelative ) ); return; } else if ( !dynamic_cast(pLightingOrigin) ) { if( !pLightingOrigin ) { DevWarning( "%s: Cannot find Lighting Origin named: %s\n", GetEntityName().ToCStr(), STRING(strLightingOriginRelative) ); } else { DevWarning( "%s: Specified entity '%s' must be a info_lighting_relative!\n", pLightingOrigin->GetClassname(), pLightingOrigin->GetEntityName().ToCStr() ); } return; } SetLightingOriginRelative( pLightingOrigin ); } // Save the name so that save/load will correctly restore it in Activate() m_iszLightingOriginRelative = strLightingOriginRelative; } //----------------------------------------------------------------------------- // Set the lighting origin //----------------------------------------------------------------------------- void CBaseAnimating::SetLightingOrigin( string_t strLightingOrigin ) { if ( strLightingOrigin == NULL_STRING ) { SetLightingOrigin( NULL ); } else { CBaseEntity *pLightingOrigin = gEntList.FindEntityByName( NULL, strLightingOrigin ); if ( !pLightingOrigin ) { DevWarning( "%s: Could not find lighting origin entity named '%s'!\n", GetClassname(), STRING( strLightingOrigin ) ); return; } else { SetLightingOrigin( pLightingOrigin ); } } // Save the name so that save/load will correctly restore it in Activate() m_iszLightingOrigin = strLightingOrigin; } //----------------------------------------------------------------------------- // Purpose: // Input : &inputdata - //----------------------------------------------------------------------------- void CBaseAnimating::InputSetLightingOriginRelative( inputdata_t &inputdata ) { // Find our specified target string_t strLightingOriginRelative = MAKE_STRING( inputdata.value.String() ); SetLightingOriginRelative( strLightingOriginRelative ); } //----------------------------------------------------------------------------- // Purpose: // Input : &inputdata - //----------------------------------------------------------------------------- void CBaseAnimating::InputSetLightingOrigin( inputdata_t &inputdata ) { // Find our specified target string_t strLightingOrigin = MAKE_STRING( inputdata.value.String() ); SetLightingOrigin( strLightingOrigin ); } //----------------------------------------------------------------------------- // Purpose: SetModelScale input handler //----------------------------------------------------------------------------- void CBaseAnimating::InputSetModelScale( inputdata_t &inputdata ) { Vector vecScale; inputdata.value.Vector3D( vecScale ); SetModelScale( vecScale.x, vecScale.y ); } //========================================================= // SelectWeightedSequence //========================================================= int CBaseAnimating::SelectWeightedSequence ( Activity activity ) { Assert( activity != ACT_INVALID ); AssertMsg( GetModelPtr(), "GetModelPtr NULL. %s", STRING(GetEntityName()) ? STRING(GetEntityName()) : "" ); return ::SelectWeightedSequence( GetModelPtr(), activity, GetSequence() ); } int CBaseAnimating::SelectWeightedSequence ( Activity activity, int curSequence ) { Assert( activity != ACT_INVALID ); AssertMsg( GetModelPtr(), "GetModelPtr NULL. %s", STRING(GetEntityName()) ? STRING(GetEntityName()) : "" ); return ::SelectWeightedSequence( GetModelPtr(), activity, curSequence ); } int CBaseAnimating::SelectWeightedSequenceFromModifiers( Activity activity, CUtlSymbol *pActivityModifiers, int iModifierCount ) { Assert( activity != ACT_INVALID ); AssertMsg( GetModelPtr(), "GetModelPtr NULL. %s", STRING(GetEntityName()) ? STRING(GetEntityName()) : "" ); return GetModelPtr()->SelectWeightedSequenceFromModifiers( activity, pActivityModifiers, iModifierCount ); } //========================================================= // ResetActivityIndexes //========================================================= void CBaseAnimating::ResetActivityIndexes ( void ) { AssertMsg( GetModelPtr(), "GetModelPtr NULL. %s", STRING(GetEntityName()) ? STRING(GetEntityName()) : "" ); ::ResetActivityIndexes( GetModelPtr() ); } //========================================================= // ResetEventIndexes //========================================================= void CBaseAnimating::ResetEventIndexes ( void ) { AssertMsg( GetModelPtr(), "GetModelPtr NULL. %s", STRING(GetEntityName()) ? STRING(GetEntityName()) : "" ); ::ResetEventIndexes( GetModelPtr() ); } //========================================================= // LookupHeaviestSequence // // Get sequence with highest 'weight' for this activity // //========================================================= int CBaseAnimating::SelectHeaviestSequence ( Activity activity ) { AssertMsg( GetModelPtr(), "GetModelPtr NULL. %s", STRING(GetEntityName()) ? STRING(GetEntityName()) : "" ); return ::SelectHeaviestSequence( GetModelPtr(), activity ); } //----------------------------------------------------------------------------- // Purpose: Looks up an activity by name. // Input : label - Name of the activity, ie "ACT_IDLE". // Output : Returns the activity ID or ACT_INVALID. //----------------------------------------------------------------------------- int CBaseAnimating::LookupActivity( const char *label ) { AssertMsg( GetModelPtr(), "GetModelPtr NULL. %s", STRING(GetEntityName()) ? STRING(GetEntityName()) : "" ); return ::LookupActivity( GetModelPtr(), label ); } //========================================================= //========================================================= int CBaseAnimating::LookupSequence( const char *label ) { AssertMsg( GetModelPtr(), "GetModelPtr NULL. %s", STRING(GetEntityName()) ? STRING(GetEntityName()) : "" ); return ::LookupSequence( GetModelPtr(), label ); } //----------------------------------------------------------------------------- // Purpose: // Input : // Output : //----------------------------------------------------------------------------- KeyValues *CBaseAnimating::GetSequenceKeyValues( int iSequence ) { const char *szText = Studio_GetKeyValueText( GetModelPtr(), iSequence ); if (szText) { KeyValues *seqKeyValues = new KeyValues(""); if ( seqKeyValues->LoadFromBuffer( modelinfo->GetModelName( GetModel() ), szText ) ) { return seqKeyValues; } seqKeyValues->deleteThis(); } return NULL; } //----------------------------------------------------------------------------- // Purpose: // // Input : iSequence - // // Output : float - //----------------------------------------------------------------------------- float CBaseAnimating::GetSequenceMoveYaw( int iSequence ) { Vector vecReturn; AssertMsg( GetModelPtr(), "GetModelPtr NULL. %s", STRING(GetEntityName()) ? STRING(GetEntityName()) : "" ); ::GetSequenceLinearMotion( GetModelPtr(), iSequence, GetPoseParameterArray(), &vecReturn ); if (vecReturn.Length() > 0) { return UTIL_VecToYaw( vecReturn ); } return NOMOTION; } //----------------------------------------------------------------------------- // Purpose: // // Input : iSequence - // // Output : float //----------------------------------------------------------------------------- float CBaseAnimating::GetSequenceMoveDist( CStudioHdr *pStudioHdr, int iSequence ) { Vector vecReturn; ::GetSequenceLinearMotion( pStudioHdr, iSequence, GetPoseParameterArray(), &vecReturn ); return vecReturn.Length(); } //----------------------------------------------------------------------------- // Purpose: // // Input : iSequence - // *pVec - // //----------------------------------------------------------------------------- void CBaseAnimating::GetSequenceLinearMotion( int iSequence, Vector *pVec ) { AssertMsg( GetModelPtr(), "GetModelPtr NULL. %s", STRING(GetEntityName()) ? STRING(GetEntityName()) : "" ); ::GetSequenceLinearMotion( GetModelPtr(), iSequence, GetPoseParameterArray(), pVec ); } //----------------------------------------------------------------------------- // Purpose: // // Input : iSequence - // // Output : char //----------------------------------------------------------------------------- const char *CBaseAnimating::GetSequenceName( int iSequence ) { if( iSequence == -1 ) { return "Not Found!"; } if ( !GetModelPtr() ) return "No model!"; return ::GetSequenceName( GetModelPtr(), iSequence ); } //----------------------------------------------------------------------------- // Purpose: // // Input : iSequence - // // Output : char //----------------------------------------------------------------------------- const char *CBaseAnimating::GetSequenceActivityName( int iSequence ) { if( iSequence == -1 ) { return "Not Found!"; } if ( !GetModelPtr() ) return "No model!"; return ::GetSequenceActivityName( GetModelPtr(), iSequence ); } //----------------------------------------------------------------------------- // Purpose: Make this a client-side simulated entity // Input : force - vector of force to be exerted in the physics simulation // forceBone - bone to exert force upon // Output : Returns true on success, false on failure. //----------------------------------------------------------------------------- bool CBaseAnimating::BecomeRagdollOnClient( const Vector &force ) { // If this character has a ragdoll animation, turn it over to the physics system if ( CanBecomeRagdoll() ) { VPhysicsDestroyObject(); AddSolidFlags( FSOLID_NOT_SOLID ); m_nRenderFX = kRenderFxRagdoll; // Have to do this dance because m_vecForce is a network vector // and can't be sent to ClampRagdollForce as a Vector * Vector vecClampedForce; ClampRagdollForce( force, &vecClampedForce ); m_vecForce = vecClampedForce; SetParent( NULL ); AddFlag( FL_TRANSRAGDOLL ); SetMoveType( MOVETYPE_NONE ); //UTIL_SetSize( this, vec3_origin, vec3_origin ); SetThink( NULL ); SetNextThink( gpGlobals->curtime + 2.0f ); //If we're here, then we can vanish safely SetThink( &CBaseEntity::SUB_Remove ); // Remove our flame entity if it's attached to us CEntityFlame *pFireChild = dynamic_cast( GetEffectEntity() ); if ( pFireChild ) { pFireChild->SetThink( &CBaseEntity::SUB_Remove ); pFireChild->SetNextThink( gpGlobals->curtime + 0.1f ); } return true; } return false; } bool CBaseAnimating::IsRagdoll() { return ( m_nRenderFX == kRenderFxRagdoll ) ? true : false; } bool CBaseAnimating::CanBecomeRagdoll( void ) { MDLCACHE_CRITICAL_SECTION(); int ragdollSequence = SelectWeightedSequence( ACT_DIERAGDOLL ); //Can't cause we don't have a ragdoll sequence. if ( ragdollSequence == ACTIVITY_NOT_AVAILABLE ) return false; if ( GetFlags() & FL_TRANSRAGDOLL ) return false; return true; } //========================================================= //========================================================= void CBaseAnimating::ResetSequenceInfo ( ) { if (GetSequence() == -1) { // This shouldn't happen. Setting m_nSequence blindly is a horrible coding practice. SetSequence( 0 ); } if ( IsDynamicModelLoading() ) { m_bResetSequenceInfoOnLoad = true; return; } CStudioHdr *pStudioHdr = GetModelPtr(); m_flGroundSpeed = GetSequenceGroundSpeed( pStudioHdr, GetSequence() ) * GetModelScale(); m_bSequenceLoops = ((GetSequenceFlags( pStudioHdr, GetSequence() ) & STUDIO_LOOPING) != 0); // m_flAnimTime = gpGlobals->time; m_flPlaybackRate = 1.0; m_bSequenceFinished = false; m_flLastEventCheck = 0; m_nNewSequenceParity = ( m_nNewSequenceParity+1 ) & EF_PARITY_MASK; m_nResetEventsParity = ( m_nResetEventsParity+1 ) & EF_PARITY_MASK; // FIXME: why is this called here? Nothing should have changed to make this nessesary if ( pStudioHdr ) { SetEventIndexForSequence( pStudioHdr->pSeqdesc( GetSequence() ) ); } } //========================================================= //========================================================= bool CBaseAnimating::IsValidSequence( int iSequence ) { AssertMsg( GetModelPtr(), "GetModelPtr NULL. %s", STRING(GetEntityName()) ? STRING(GetEntityName()) : "" ); CStudioHdr* pstudiohdr = GetModelPtr( ); if (iSequence < 0 || iSequence >= pstudiohdr->GetNumSeq()) { return false; } return true; } //========================================================= //========================================================= void CBaseAnimating::SetSequence( int nSequence ) { Assert( nSequence == 0 || IsDynamicModelLoading() || ( GetModelPtr( ) && ( nSequence < GetModelPtr( )->GetNumSeq() ) && ( GetModelPtr( )->GetNumSeq() < (1 << ANIMATION_SEQUENCE_BITS) ) ) ); m_nSequence = nSequence; } //========================================================= //========================================================= float CBaseAnimating::SequenceDuration( CStudioHdr *pStudioHdr, int iSequence ) { if ( !pStudioHdr ) { DevWarning( 2, "CBaseAnimating::SequenceDuration( %d ) NULL pstudiohdr on %s!\n", iSequence, GetClassname() ); return 0.1; } if ( !pStudioHdr->SequencesAvailable() ) { return 0.1; } if (iSequence >= pStudioHdr->GetNumSeq() || iSequence < 0 ) { DevWarning( 2, "CBaseAnimating::SequenceDuration( %d ) out of range\n", iSequence ); return 0.1; } return Studio_Duration( pStudioHdr, iSequence, GetPoseParameterArray() ); } float CBaseAnimating::GetSequenceCycleRate( CStudioHdr *pStudioHdr, int iSequence ) { float t = SequenceDuration( pStudioHdr, iSequence ); if ( t != 0.0f ) { return 1.0f / t; } return t; } float CBaseAnimating::GetLastVisibleCycle( CStudioHdr *pStudioHdr, int iSequence ) { if ( !pStudioHdr ) { DevWarning( 2, "CBaseAnimating::LastVisibleCycle( %d ) NULL pstudiohdr on %s!\n", iSequence, GetClassname() ); return 1.0; } if (!(GetSequenceFlags( pStudioHdr, iSequence ) & STUDIO_LOOPING)) { return 1.0f - (pStudioHdr->pSeqdesc( iSequence ).fadeouttime) * GetSequenceCycleRate( iSequence ) * m_flPlaybackRate; } else { return 1.0; } } float CBaseAnimating::GetSequenceGroundSpeed( CStudioHdr *pStudioHdr, int iSequence ) { float t = SequenceDuration( pStudioHdr, iSequence ); if (t > 0) { return ( GetSequenceMoveDist( pStudioHdr, iSequence ) / t ); } else { return 0; } } float CBaseAnimating::GetIdealSpeed( ) const { return m_flGroundSpeed; } float CBaseAnimating::GetIdealAccel( ) const { // return ideal max velocity change over 1 second. // tuned for run-walk range of humans return GetIdealSpeed() + 50; } //----------------------------------------------------------------------------- // Purpose: Returns true if the given sequence has the anim event, false if not. // Input : nSequence - sequence number to check // nEvent - anim event number to look for //----------------------------------------------------------------------------- bool CBaseAnimating::HasAnimEvent( int nSequence, int nEvent ) { CStudioHdr *pstudiohdr = GetModelPtr(); if ( !pstudiohdr ) { return false; } animevent_t event; int index = 0; while ( ( index = GetAnimationEvent( pstudiohdr, nSequence, &event, 0.0f, 1.0f, index ) ) != 0 ) { if ( event.event == nEvent ) { return true; } } return false; } //========================================================= // DispatchAnimEvents //========================================================= void CBaseAnimating::DispatchAnimEvents ( CBaseAnimating *eventHandler ) { // don't fire events if the framerate is 0 if (m_flPlaybackRate == 0.0) return; animevent_t event; CStudioHdr *pstudiohdr = GetModelPtr( ); if ( !pstudiohdr ) { Assert(!"CBaseAnimating::DispatchAnimEvents: model missing"); return; } if ( !pstudiohdr->SequencesAvailable() ) { return; } // skip this altogether if there are no events if (pstudiohdr->pSeqdesc( GetSequence() ).numevents == 0) { return; } // look from when it last checked to some short time in the future float flCycleRate = GetSequenceCycleRate( GetSequence() ) * m_flPlaybackRate; float flStart = m_flLastEventCheck; float flEnd = GetCycle(); if (!m_bSequenceLoops && m_bSequenceFinished) { flEnd = 1.01f; } m_flLastEventCheck = flEnd; /* if (m_debugOverlays & OVERLAY_NPC_SELECTED_BIT) { Msg( "%s:%s : checking %.2f %.2f (%d)\n", STRING(GetModelName()), pstudiohdr->pSeqdesc( GetSequence() ).pszLabel(), flStart, flEnd, m_bSequenceFinished ); } */ // FIXME: does not handle negative framerates! int index = 0; while ( (index = GetAnimationEvent( pstudiohdr, GetSequence(), &event, flStart, flEnd, index ) ) != 0 ) { event.pSource = this; // calc when this event should happen if (flCycleRate > 0.0) { float flCycle = event.cycle; if (flCycle > GetCycle()) { flCycle = flCycle - 1.0; } event.eventtime = m_flAnimTime + (flCycle - GetCycle()) / flCycleRate + GetAnimTimeInterval(); } /* if (m_debugOverlays & OVERLAY_NPC_SELECTED_BIT) { Msg( "dispatch %i (%i) cycle %f event cycle %f cyclerate %f\n", (int)(index - 1), (int)event.event, (float)GetCycle(), (float)event.cycle, (float)flCycleRate ); } */ eventHandler->HandleAnimEvent( &event ); // FAILSAFE: // If HandleAnimEvent has somehow reset my internal pointer // to CStudioHdr to something other than it was when we entered // this function, we will crash on the next call to GetAnimationEvent // because pstudiohdr no longer points at something valid. // So, catch this case, complain vigorously, and bail out of // the loop. CStudioHdr *pNowStudioHdr = GetModelPtr(); if ( pNowStudioHdr != pstudiohdr ) { AssertMsg2(false, "%s has changed its model while processing AnimEvents on sequence %d. Aborting dispatch.\n", GetDebugName(), GetSequence() ); Warning( "%s has changed its model while processing AnimEvents on sequence %d. Aborting dispatch.\n", GetDebugName(), GetSequence() ); break; } } } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void CBaseAnimating::HandleAnimEvent( animevent_t *pEvent ) { if ((pEvent->type & AE_TYPE_NEWEVENTSYSTEM) && (pEvent->type & AE_TYPE_SERVER)) { if ( pEvent->event == AE_SV_PLAYSOUND ) { EmitSound( pEvent->options ); return; } else if ( pEvent->event == AE_RAGDOLL ) { // Convert to ragdoll immediately BecomeRagdollOnClient( vec3_origin ); return; } #ifdef HL2_EPISODIC else if ( pEvent->event == AE_SV_DUSTTRAIL ) { char szAttachment[128]; float flDuration; float flSize; if (sscanf( pEvent->options, "%s %f %f", szAttachment, &flDuration, &flSize ) == 3) { CHandle hDustTrail; hDustTrail = DustTrail::CreateDustTrail(); if( hDustTrail ) { hDustTrail->m_SpawnRate = 4; // Particles per second hDustTrail->m_ParticleLifetime = 1.5; // Lifetime of each particle, In seconds hDustTrail->m_Color.Init(0.5f, 0.46f, 0.44f); hDustTrail->m_StartSize = flSize; hDustTrail->m_EndSize = hDustTrail->m_StartSize * 8; hDustTrail->m_SpawnRadius = 3; // Each particle randomly offset from the center up to this many units hDustTrail->m_MinSpeed = 4; // u/sec hDustTrail->m_MaxSpeed = 10; // u/sec hDustTrail->m_Opacity = 0.5f; hDustTrail->SetLifetime(flDuration); // Lifetime of the spawner, in seconds hDustTrail->m_StopEmitTime = gpGlobals->curtime + flDuration; hDustTrail->SetParent( this, LookupAttachment( szAttachment ) ); hDustTrail->SetLocalOrigin( vec3_origin ); } } else { DevWarning( 1, "%s unable to parse AE_SV_DUSTTRAIL event \"%s\"\n", STRING( GetModelName() ), pEvent->options ); } return; } #endif } // Failed to find a handler const char *pName = EventList_NameForIndex( pEvent->event ); if ( pName) { DevWarning( 1, "Unhandled animation event %s for %s\n", pName, GetClassname() ); } else { DevWarning( 1, "Unhandled animation event %d for %s\n", pEvent->event, GetClassname() ); } } // SetPoseParamater() //========================================================= //========================================================= float CBaseAnimating::SetPoseParameter( CStudioHdr *pStudioHdr, const char *szName, float flValue ) { int poseParam = LookupPoseParameter( pStudioHdr, szName ); AssertMsg2(poseParam >= 0, "SetPoseParameter called with invalid argument %s by %s", szName, GetDebugName()); return SetPoseParameter( pStudioHdr, poseParam, flValue ); } float CBaseAnimating::SetPoseParameter( CStudioHdr *pStudioHdr, int iParameter, float flValue ) { if ( !pStudioHdr ) { return flValue; } if (iParameter >= 0) { float flNewValue; flValue = Studio_SetPoseParameter( pStudioHdr, iParameter, flValue, flNewValue ); m_flPoseParameter.Set( iParameter, flNewValue ); } return flValue; } //========================================================= //========================================================= float CBaseAnimating::GetPoseParameter( const char *szName ) { return GetPoseParameter( LookupPoseParameter( szName ) ); } float CBaseAnimating::GetPoseParameter( int iParameter ) { CStudioHdr *pstudiohdr = GetModelPtr( ); if ( !pstudiohdr ) { Assert(!"CBaseAnimating::GetPoseParameter: model missing"); return 0.0; } if ( !pstudiohdr->SequencesAvailable() ) { return 0; } if (iParameter >= 0) { return Studio_GetPoseParameter( pstudiohdr, iParameter, m_flPoseParameter[ iParameter ] ); } return 0.0; } bool CBaseAnimating::GetPoseParameterRange( int index, float &minValue, float &maxValue ) { CStudioHdr *pStudioHdr = GetModelPtr(); if (pStudioHdr) { if (index >= 0 && index < pStudioHdr->GetNumPoseParameters()) { const mstudioposeparamdesc_t &pose = pStudioHdr->pPoseParameter( index ); minValue = pose.start; maxValue = pose.end; return true; } } minValue = 0.0f; maxValue = 1.0f; return false; } //========================================================= //========================================================= int CBaseAnimating::LookupPoseParameter( CStudioHdr *pStudioHdr, const char *szName ) { if ( !pStudioHdr ) return 0; if ( !pStudioHdr->SequencesAvailable() ) { return 0; } for (int i = 0; i < pStudioHdr->GetNumPoseParameters(); i++) { if (Q_stricmp( pStudioHdr->pPoseParameter( i ).pszName(), szName ) == 0) { return i; } } // AssertMsg( 0, UTIL_VarArgs( "poseparameter %s couldn't be mapped!!!\n", szName ) ); return -1; // Error } //========================================================= //========================================================= bool CBaseAnimating::HasPoseParameter( int iSequence, const char *szName ) { int iParameter = LookupPoseParameter( szName ); if (iParameter == -1) { return false; } return HasPoseParameter( iSequence, iParameter ); } //========================================================= //========================================================= bool CBaseAnimating::HasPoseParameter( int iSequence, int iParameter ) { CStudioHdr *pstudiohdr = GetModelPtr( ); if ( !pstudiohdr ) { return false; } if ( !pstudiohdr->SequencesAvailable() ) { return false; } if (iSequence < 0 || iSequence >= pstudiohdr->GetNumSeq()) { return false; } mstudioseqdesc_t &seqdesc = pstudiohdr->pSeqdesc( iSequence ); if (pstudiohdr->GetSharedPoseParameter( iSequence, seqdesc.paramindex[0] ) == iParameter || pstudiohdr->GetSharedPoseParameter( iSequence, seqdesc.paramindex[1] ) == iParameter) { return true; } return false; } //========================================================= // Each class that wants to use pose parameters should populate // static variables in this entry point, rather than calling // GetPoseParameter(const char*) every time you want to adjust // an animation. // // Make sure to call BaseClass::PopulatePoseParameters() at // the *bottom* of your function. //========================================================= void CBaseAnimating::PopulatePoseParameters( void ) { } //========================================================= // Purpose: from input of 75% to 200% of maximum range, rescale smoothly from 75% to 100% //========================================================= float CBaseAnimating::EdgeLimitPoseParameter( int iParameter, float flValue, float flBase ) { CStudioHdr *pstudiohdr = GetModelPtr( ); if ( !pstudiohdr ) { return flValue; } if (iParameter < 0 || iParameter >= pstudiohdr->GetNumPoseParameters()) { return flValue; } const mstudioposeparamdesc_t &Pose = pstudiohdr->pPoseParameter( iParameter ); if (Pose.loop || Pose.start == Pose.end) { return flValue; } return RangeCompressor( flValue, Pose.start, Pose.end, flBase ); } //----------------------------------------------------------------------------- // Purpose: Returns index number of a given named bone // Input : name of a bone // Output : Bone index number or -1 if bone not found //----------------------------------------------------------------------------- int CBaseAnimating::LookupBone( const char *szName ) { const CStudioHdr *pStudioHdr = GetModelPtr(); Assert( pStudioHdr ); if ( !pStudioHdr ) return -1; return Studio_BoneIndexByName( pStudioHdr, szName ); } //========================================================= //========================================================= void CBaseAnimating::GetBonePosition ( int iBone, Vector &origin, QAngle &angles ) { CStudioHdr *pStudioHdr = GetModelPtr( ); if (!pStudioHdr) { Assert(!"CBaseAnimating::GetBonePosition: model missing"); return; } if (iBone < 0 || iBone >= pStudioHdr->numbones()) { Assert(!"CBaseAnimating::GetBonePosition: invalid bone index"); return; } matrix3x4_t bonetoworld; GetBoneTransform( iBone, bonetoworld ); MatrixAngles( bonetoworld, angles, origin ); } //========================================================= //========================================================= void CBaseAnimating::GetBoneTransform( int iBone, matrix3x4_t &pBoneToWorld ) { CStudioHdr *pStudioHdr = GetModelPtr( ); if (!pStudioHdr) { Assert(!"CBaseAnimating::GetBoneTransform: model missing"); return; } if (iBone < 0 || iBone >= pStudioHdr->numbones()) { Assert(!"CBaseAnimating::GetBoneTransform: invalid bone index"); return; } CBoneCache *pcache = GetBoneCache( ); matrix3x4_t *pmatrix = pcache->GetCachedBone( iBone ); if ( !pmatrix ) { MatrixCopy( EntityToWorldTransform(), pBoneToWorld ); return; } Assert( pmatrix ); // FIXME MatrixCopy( *pmatrix, pBoneToWorld ); } class CTraceFilterSkipNPCs : public CTraceFilterSimple { public: CTraceFilterSkipNPCs( const IHandleEntity *passentity, int collisionGroup ) : CTraceFilterSimple( passentity, collisionGroup ) { } virtual bool ShouldHitEntity( IHandleEntity *pServerEntity, int contentsMask ) { if ( CTraceFilterSimple::ShouldHitEntity(pServerEntity, contentsMask) ) { CBaseEntity *pEntity = EntityFromEntityHandle( pServerEntity ); if ( pEntity->IsNPC() ) return false; return true; } return false; } }; //----------------------------------------------------------------------------- // Purpose: Receives the clients IK floor position //----------------------------------------------------------------------------- void CBaseAnimating::SetIKGroundContactInfo( float minHeight, float maxHeight ) { m_flIKGroundContactTime = gpGlobals->curtime; m_flIKGroundMinHeight = minHeight; m_flIKGroundMaxHeight = maxHeight; } //----------------------------------------------------------------------------- // Purpose: Initializes IK floor position //----------------------------------------------------------------------------- void CBaseAnimating::InitStepHeightAdjust( void ) { m_flIKGroundContactTime = 0; m_flIKGroundMinHeight = 0; m_flIKGroundMaxHeight = 0; // FIXME: not safe to call GetAbsOrigin here. Hierarchy might not be set up! m_flEstIkFloor = GetAbsOrigin().z; m_flEstIkOffset = 0; } //----------------------------------------------------------------------------- // Purpose: Interpolates client IK floor position and drops entity down so that the feet will reach //----------------------------------------------------------------------------- ConVar npc_height_adjust( "npc_height_adjust", "1", FCVAR_ARCHIVE, "Enable test mode for ik height adjustment" ); void CBaseAnimating::UpdateStepOrigin() { if (!npc_height_adjust.GetBool()) { m_flEstIkOffset = 0; m_flEstIkFloor = GetLocalOrigin().z; return; } /* if (m_debugOverlays & OVERLAY_NPC_SELECTED_BIT) { Msg("%x : %x\n", GetMoveParent(), GetGroundEntity() ); } */ if (m_flIKGroundContactTime > 0.2 && m_flIKGroundContactTime > gpGlobals->curtime - 0.2) { if ((GetFlags() & (FL_FLY | FL_SWIM)) == 0 && GetMoveParent() == NULL && GetGroundEntity() != NULL && !GetGroundEntity()->IsMoving()) { Vector toAbs = GetAbsOrigin() - GetLocalOrigin(); if (toAbs.z == 0.0) { CAI_BaseNPC *pNPC = MyNPCPointer(); // FIXME: There needs to be a default step height somewhere float height = 18.0f; if (pNPC) { height = pNPC->StepHeight(); } // debounce floor location m_flEstIkFloor = m_flEstIkFloor * 0.2 + m_flIKGroundMinHeight * 0.8; // don't let heigth difference between min and max exceed step height float bias = clamp( (m_flIKGroundMaxHeight - m_flIKGroundMinHeight) - height, 0.f, height ); // save off reasonable offset m_flEstIkOffset = clamp( m_flEstIkFloor - GetAbsOrigin().z, -height + bias, 0.0f ); return; } } } // don't use floor offset, decay the value m_flEstIkOffset *= 0.5; m_flEstIkFloor = GetLocalOrigin().z; } //----------------------------------------------------------------------------- // Purpose: Returns the origin to use for model rendering //----------------------------------------------------------------------------- Vector CBaseAnimating::GetStepOrigin( void ) const { Vector tmp = GetLocalOrigin(); tmp.z += m_flEstIkOffset; return tmp; } //----------------------------------------------------------------------------- // Purpose: Returns the origin to use for model rendering //----------------------------------------------------------------------------- QAngle CBaseAnimating::GetStepAngles( void ) const { // TODO: Add in body lean return GetLocalAngles(); } //----------------------------------------------------------------------------- // Purpose: Find IK collisions with world // Input : // Output : fills out m_pIk targets, calcs floor offset for rendering //----------------------------------------------------------------------------- void CBaseAnimating::CalculateIKLocks( float currentTime ) { if ( m_pIk ) { Ray_t ray; CTraceFilterSkipNPCs traceFilter( this, GetCollisionGroup() ); Vector up; GetVectors( NULL, NULL, &up ); // FIXME: check number of slots? for (int i = 0; i < m_pIk->m_target.Count(); i++) { trace_t trace; CIKTarget *pTarget = &m_pIk->m_target[i]; if (!pTarget->IsActive()) continue; switch( pTarget->type ) { case IK_GROUND: { Vector estGround; estGround = (pTarget->est.pos - GetAbsOrigin()); estGround = estGround - (estGround * up) * up; estGround = GetAbsOrigin() + estGround + pTarget->est.floor * up; Vector p1, p2; VectorMA( estGround, pTarget->est.height, up, p1 ); VectorMA( estGround, -pTarget->est.height, up, p2 ); float r = MAX(pTarget->est.radius,1); // don't IK to other characters ray.Init( p1, p2, Vector(-r,-r,0), Vector(r,r,1) ); enginetrace->TraceRay( ray, MASK_SOLID, &traceFilter, &trace ); /* if ( debugoverlay ) { debugoverlay->AddBoxOverlay( p1, Vector(-r,-r,0), Vector(r,r,1), QAngle( 0, 0, 0 ), 255, 0, 0, 0, 1.0f ); debugoverlay->AddBoxOverlay( trace.endpos, Vector(-r,-r,0), Vector(r,r,1), QAngle( 0, 0, 0 ), 255, 0, 0, 0, 1.0f ); debugoverlay->AddLineOverlay( p1, trace.endpos, 255, 0, 0, 0, 1.0f ); } */ if (trace.startsolid) { ray.Init( pTarget->trace.hip, pTarget->est.pos, Vector(-r,-r,0), Vector(r,r,1) ); enginetrace->TraceRay( ray, MASK_SOLID, &traceFilter, &trace ); p1 = trace.endpos; VectorMA( p1, - pTarget->est.height, up, p2 ); ray.Init( p1, p2, Vector(-r,-r,0), Vector(r,r,1) ); enginetrace->TraceRay( ray, MASK_SOLID, &traceFilter, &trace ); } if (!trace.startsolid) { if (trace.DidHitWorld()) { pTarget->SetPosWithNormalOffset( trace.endpos, trace.plane.normal ); pTarget->SetNormal( trace.plane.normal ); } else { pTarget->SetPos( trace.endpos ); pTarget->SetAngles( GetAbsAngles() ); } } } break; case IK_ATTACHMENT: { // anything on the server? } break; } } } } //----------------------------------------------------------------------------- // Purpose: Clear out animation states that are invalidated with Teleport //----------------------------------------------------------------------------- void CBaseAnimating::Teleport( const Vector *newPosition, const QAngle *newAngles, const Vector *newVelocity ) { BaseClass::Teleport( newPosition, newAngles, newVelocity ); if (m_pIk) { m_pIk->ClearTargets( ); } InitStepHeightAdjust(); } //----------------------------------------------------------------------------- // Purpose: build matrices first from the parent, then from the passed in arrays if the bone doesn't exist on the parent //----------------------------------------------------------------------------- void CBaseAnimating::BuildMatricesWithBoneMerge( const CStudioHdr *pStudioHdr, const QAngle& angles, const Vector& origin, const Vector pos[MAXSTUDIOBONES], const Quaternion q[MAXSTUDIOBONES], matrix3x4_t bonetoworld[MAXSTUDIOBONES], CBaseAnimating *pParent, CBoneCache *pParentCache ) { CStudioHdr *fhdr = pParent->GetModelPtr(); mstudiobone_t *pbones = pStudioHdr->pBone( 0 ); matrix3x4_t rotationmatrix; // model to world transformation AngleMatrix( angles, origin, rotationmatrix); for ( int i=0; i < pStudioHdr->numbones(); i++ ) { // Now find the bone in the parent entity. bool merged = false; int parentBoneIndex = Studio_BoneIndexByName( fhdr, pbones[i].pszName() ); if ( parentBoneIndex >= 0 ) { matrix3x4_t *pMat = pParentCache->GetCachedBone( parentBoneIndex ); if ( pMat ) { MatrixCopy( *pMat, bonetoworld[ i ] ); merged = true; } } if ( !merged ) { // If we get down here, then the bone wasn't merged. matrix3x4_t bonematrix; QuaternionMatrix( q[i], pos[i], bonematrix ); if (pbones[i].parent == -1) { ConcatTransforms (rotationmatrix, bonematrix, bonetoworld[i]); } else { ConcatTransforms (bonetoworld[pbones[i].parent], bonematrix, bonetoworld[i]); } } } } ConVar sv_pvsskipanimation( "sv_pvsskipanimation", "1", FCVAR_ARCHIVE, "Skips SetupBones when npc's are outside the PVS" ); ConVar ai_setupbones_debug( "ai_setupbones_debug", "0", 0, "Shows that bones that are setup every think" ); inline bool CBaseAnimating::CanSkipAnimation( void ) { if ( !sv_pvsskipanimation.GetBool() ) return false; CAI_BaseNPC *pNPC = MyNPCPointer(); if ( pNPC && !pNPC->HasCondition( COND_IN_PVS ) && ( m_fBoneCacheFlags & (BCF_NO_ANIMATION_SKIP | BCF_IS_IN_SPAWN) ) == false ) { // If we have a player as a child, then we better setup our bones. If we don't, // the PVS will be screwy. return !DoesHavePlayerChild(); } else { return false; } } void CBaseAnimating::SetupBones( matrix3x4_t *pBoneToWorld, int boneMask ) { AUTO_LOCK( m_BoneSetupMutex ); VPROF_BUDGET( "CBaseAnimating::SetupBones", VPROF_BUDGETGROUP_SERVER_ANIM ); MDLCACHE_CRITICAL_SECTION(); AssertMsg( GetModelPtr(), "GetModelPtr NULL. %s", STRING(GetEntityName()) ? STRING(GetEntityName()) : "" ); CStudioHdr *pStudioHdr = GetModelPtr( ); if(!pStudioHdr) { Assert(!"CBaseAnimating::GetSkeleton() without a model"); return; } Assert( !IsEFlagSet( EFL_SETTING_UP_BONES ) ); AddEFlags( EFL_SETTING_UP_BONES ); Vector pos[MAXSTUDIOBONES]; Quaternion q[MAXSTUDIOBONES]; // adjust hit boxes based on IK driven offset Vector adjOrigin = GetAbsOrigin() + Vector( 0, 0, m_flEstIkOffset ); if ( CanSkipAnimation() ) { IBoneSetup boneSetup( pStudioHdr, boneMask, GetPoseParameterArray() ); boneSetup.InitPose( pos, q ); // Msg( "%.03f : %s:%s not in pvs\n", gpGlobals->curtime, GetClassname(), GetEntityName().ToCStr() ); } else { if ( m_pIk ) { // FIXME: pass this into Studio_BuildMatrices to skip transforms CBoneBitList boneComputed; m_iIKCounter++; m_pIk->Init( pStudioHdr, GetAbsAngles(), adjOrigin, gpGlobals->curtime, m_iIKCounter, boneMask ); GetSkeleton( pStudioHdr, pos, q, boneMask ); m_pIk->UpdateTargets( pos, q, pBoneToWorld, boneComputed ); CalculateIKLocks( gpGlobals->curtime ); m_pIk->SolveDependencies( pos, q, pBoneToWorld, boneComputed ); } else { // Msg( "%.03f : %s:%s\n", gpGlobals->curtime, GetClassname(), GetEntityName().ToCStr() ); GetSkeleton( pStudioHdr, pos, q, boneMask ); } } CBaseAnimating *pParent = dynamic_cast< CBaseAnimating* >( GetMoveParent() ); if ( pParent ) { // We're doing bone merging, so do special stuff here. CBoneCache *pParentCache = pParent->GetBoneCache(); if ( pParentCache ) { BuildMatricesWithBoneMerge( pStudioHdr, GetAbsAngles(), adjOrigin, pos, q, pBoneToWorld, pParent, pParentCache ); RemoveEFlags( EFL_SETTING_UP_BONES ); if (ai_setupbones_debug.GetBool()) { DrawRawSkeleton( pBoneToWorld, boneMask, true, 0.11 ); } return; } } Studio_BuildMatrices( pStudioHdr, GetAbsAngles(), adjOrigin, pos, q, -1, GetModelScale(), // Scaling pBoneToWorld, boneMask ); if (ai_setupbones_debug.GetBool()) { // Msg("%s:%s:%s (%x)\n", GetClassname(), GetDebugName(), STRING(GetModelName()), boneMask ); DrawRawSkeleton( pBoneToWorld, boneMask, true, 0.11 ); } RemoveEFlags( EFL_SETTING_UP_BONES ); } //========================================================= //========================================================= int CBaseAnimating::GetNumBones ( void ) { CStudioHdr *pStudioHdr = GetModelPtr( ); if(pStudioHdr) { return pStudioHdr->numbones(); } else { Assert(!"CBaseAnimating::GetNumBones: model missing"); return 0; } } //========================================================= //========================================================= //----------------------------------------------------------------------------- // Purpose: Returns index number of a given named attachment // Input : name of attachment // Output : attachment index number or -1 if attachment not found //----------------------------------------------------------------------------- int CBaseAnimating::LookupAttachment( const char *szName ) { CStudioHdr *pStudioHdr = GetModelPtr( ); if (!pStudioHdr) { Assert(!"CBaseAnimating::LookupAttachment: model missing"); return 0; } // The +1 is to make attachment indices be 1-based (namely 0 == invalid or unused attachment) return Studio_FindAttachment( pStudioHdr, szName ) + 1; } //----------------------------------------------------------------------------- // Purpose: Returns the world location and world angles of an attachment // Input : attachment name // Output : location and angles //----------------------------------------------------------------------------- bool CBaseAnimating::GetAttachment( const char *szName, Vector &absOrigin, QAngle &absAngles ) { return GetAttachment( LookupAttachment( szName ), absOrigin, absAngles ); } //----------------------------------------------------------------------------- // Purpose: Returns the world location and world angles of an attachment // Input : attachment index // Output : location and angles //----------------------------------------------------------------------------- bool CBaseAnimating::GetAttachment ( int iAttachment, Vector &absOrigin, QAngle &absAngles ) { matrix3x4_t attachmentToWorld; bool bRet = GetAttachment( iAttachment, attachmentToWorld ); MatrixAngles( attachmentToWorld, absAngles, absOrigin ); return bRet; } //----------------------------------------------------------------------------- // Purpose: Returns the world location and world angles of an attachment // Input : attachment index // Output : location and angles //----------------------------------------------------------------------------- bool CBaseAnimating::GetAttachment( int iAttachment, matrix3x4_t &attachmentToWorld ) { CStudioHdr *pStudioHdr = GetModelPtr( ); if (!pStudioHdr) { MatrixCopy(EntityToWorldTransform(), attachmentToWorld); AssertOnce(!"CBaseAnimating::GetAttachment: model missing"); return false; } if (iAttachment < 1 || iAttachment > pStudioHdr->GetNumAttachments()) { MatrixCopy(EntityToWorldTransform(), attachmentToWorld); // Assert(!"CBaseAnimating::GetAttachment: invalid attachment index"); return false; } const mstudioattachment_t &pattachment = pStudioHdr->pAttachment( iAttachment-1 ); int iBone = pStudioHdr->GetAttachmentBone( iAttachment-1 ); matrix3x4_t bonetoworld; GetBoneTransform( iBone, bonetoworld ); if ( (pattachment.flags & ATTACHMENT_FLAG_WORLD_ALIGN) == 0 ) { ConcatTransforms( bonetoworld, pattachment.local, attachmentToWorld ); } else { Vector vecLocalBonePos, vecWorldBonePos; MatrixGetColumn( pattachment.local, 3, vecLocalBonePos ); VectorTransform( vecLocalBonePos, bonetoworld, vecWorldBonePos ); SetIdentityMatrix( attachmentToWorld ); MatrixSetColumn( vecWorldBonePos, 3, attachmentToWorld ); } return true; } // gets the bone for an attachment int CBaseAnimating::GetAttachmentBone( int iAttachment ) { CStudioHdr *pStudioHdr = GetModelPtr( ); if (!pStudioHdr || iAttachment < 1 || iAttachment > pStudioHdr->GetNumAttachments() ) { AssertOnce(pStudioHdr && "CBaseAnimating::GetAttachment: model missing"); return 0; } return pStudioHdr->GetAttachmentBone( iAttachment-1 ); } //----------------------------------------------------------------------------- // Purpose: Returns the world location of an attachment // Input : attachment index // Output : location and angles //----------------------------------------------------------------------------- bool CBaseAnimating::GetAttachment( const char *szName, Vector &absOrigin, Vector *forward, Vector *right, Vector *up ) { return GetAttachment( LookupAttachment( szName ), absOrigin, forward, right, up ); } bool CBaseAnimating::GetAttachment( int iAttachment, Vector &absOrigin, Vector *forward, Vector *right, Vector *up ) { matrix3x4_t attachmentToWorld; bool bRet = GetAttachment( iAttachment, attachmentToWorld ); MatrixPosition( attachmentToWorld, absOrigin ); if (forward) { MatrixGetColumn( attachmentToWorld, 0, forward ); } if (right) { MatrixGetColumn( attachmentToWorld, 1, right ); } if (up) { MatrixGetColumn( attachmentToWorld, 2, up ); } return bRet; } //----------------------------------------------------------------------------- // Returns the attachment in local space //----------------------------------------------------------------------------- bool CBaseAnimating::GetAttachmentLocal( const char *szName, Vector &origin, QAngle &angles ) { return GetAttachmentLocal( LookupAttachment( szName ), origin, angles ); } bool CBaseAnimating::GetAttachmentLocal( int iAttachment, Vector &origin, QAngle &angles ) { matrix3x4_t attachmentToEntity; bool bRet = GetAttachmentLocal( iAttachment, attachmentToEntity ); MatrixAngles( attachmentToEntity, angles, origin ); return bRet; } bool CBaseAnimating::GetAttachmentLocal( int iAttachment, matrix3x4_t &attachmentToLocal ) { matrix3x4_t attachmentToWorld; bool bRet = GetAttachment(iAttachment, attachmentToWorld); matrix3x4_t worldToEntity; MatrixInvert( EntityToWorldTransform(), worldToEntity ); ConcatTransforms( worldToEntity, attachmentToWorld, attachmentToLocal ); return bRet; } //========================================================= //========================================================= void CBaseAnimating::GetEyeballs( Vector &origin, QAngle &angles ) { CStudioHdr *pStudioHdr = GetModelPtr( ); if (!pStudioHdr) { Assert(!"CBaseAnimating::GetAttachment: model missing"); return; } for (int iBodypart = 0; iBodypart < pStudioHdr->numbodyparts(); iBodypart++) { mstudiobodyparts_t *pBodypart = pStudioHdr->pBodypart( iBodypart ); for (int iModel = 0; iModel < pBodypart->nummodels; iModel++) { mstudiomodel_t *pModel = pBodypart->pModel( iModel ); for (int iEyeball = 0; iEyeball < pModel->numeyeballs; iEyeball++) { mstudioeyeball_t *pEyeball = pModel->pEyeball( iEyeball ); matrix3x4_t bonetoworld; GetBoneTransform( pEyeball->bone, bonetoworld ); VectorTransform( pEyeball->org, bonetoworld, origin ); MatrixAngles( bonetoworld, angles ); // ??? } } } } //========================================================= //========================================================= int CBaseAnimating::FindTransitionSequence( int iCurrentSequence, int iGoalSequence, int *piDir ) { AssertMsg( GetModelPtr(), "GetModelPtr NULL. %s", STRING(GetEntityName()) ? STRING(GetEntityName()) : "" ); if (piDir == NULL) { int iDir = 1; int sequence = ::FindTransitionSequence( GetModelPtr(), iCurrentSequence, iGoalSequence, &iDir ); if (iDir != 1) return -1; else return sequence; } return ::FindTransitionSequence( GetModelPtr(), iCurrentSequence, iGoalSequence, piDir ); } bool CBaseAnimating::GotoSequence( int iCurrentSequence, float flCurrentCycle, float flCurrentRate, int iGoalSequence, int &nNextSequence, float &flNextCycle, int &iNextDir ) { return ::GotoSequence( GetModelPtr(), iCurrentSequence, flCurrentCycle, flCurrentRate, iGoalSequence, nNextSequence, flNextCycle, iNextDir ); } int CBaseAnimating::GetEntryNode( int iSequence ) { CStudioHdr *pstudiohdr = GetModelPtr(); if (! pstudiohdr) return 0; return pstudiohdr->EntryNode( iSequence ); } int CBaseAnimating::GetExitNode( int iSequence ) { CStudioHdr *pstudiohdr = GetModelPtr(); if (! pstudiohdr) return 0; return pstudiohdr->ExitNode( iSequence ); } //========================================================= //========================================================= void CBaseAnimating::SetBodygroup( int iGroup, int iValue ) { // SetBodygroup is not supported on pending dynamic models. Wait for it to load! // XXX TODO we could buffer up the group and value if we really needed to. -henryg AssertMsg( GetModelPtr(), "GetModelPtr NULL. %s", STRING(GetEntityName()) ? STRING(GetEntityName()) : "" ); int newBody = m_nBody; ::SetBodygroup( GetModelPtr( ), newBody, iGroup, iValue ); m_nBody = newBody; } int CBaseAnimating::GetBodygroup( int iGroup ) { Assert( IsDynamicModelLoading() || GetModelPtr() ); return IsDynamicModelLoading() ? 0 : ::GetBodygroup( GetModelPtr( ), m_nBody, iGroup ); } const char *CBaseAnimating::GetBodygroupName( int iGroup ) { Assert( IsDynamicModelLoading() || GetModelPtr() ); return IsDynamicModelLoading() ? "" : ::GetBodygroupName( GetModelPtr( ), iGroup ); } int CBaseAnimating::FindBodygroupByName( const char *name ) { Assert( IsDynamicModelLoading() || GetModelPtr() ); return IsDynamicModelLoading() ? -1 : ::FindBodygroupByName( GetModelPtr( ), name ); } int CBaseAnimating::GetBodygroupCount( int iGroup ) { Assert( IsDynamicModelLoading() || GetModelPtr() ); return IsDynamicModelLoading() ? 0 : ::GetBodygroupCount( GetModelPtr( ), iGroup ); } int CBaseAnimating::GetNumBodyGroups( void ) { Assert( IsDynamicModelLoading() || GetModelPtr() ); return IsDynamicModelLoading() ? 0 : ::GetNumBodyGroups( GetModelPtr( ) ); } int CBaseAnimating::ExtractBbox( int sequence, Vector& mins, Vector& maxs ) { Assert( IsDynamicModelLoading() || GetModelPtr() ); return IsDynamicModelLoading() ? 0 : ::ExtractBbox( GetModelPtr( ), sequence, mins, maxs ); } //========================================================= //========================================================= void CBaseAnimating::SetSequenceBox( void ) { Vector mins, maxs; // Get sequence bbox if ( ExtractBbox( GetSequence(), mins, maxs ) ) { // expand box for rotation // find min / max for rotations float yaw = GetLocalAngles().y * (M_PI / 180.0); Vector xvector, yvector; xvector.x = cos(yaw); xvector.y = sin(yaw); yvector.x = -sin(yaw); yvector.y = cos(yaw); Vector bounds[2]; bounds[0] = mins; bounds[1] = maxs; Vector rmin( 9999, 9999, 9999 ); Vector rmax( -9999, -9999, -9999 ); Vector base, transformed; for (int i = 0; i <= 1; i++ ) { base.x = bounds[i].x; for ( int j = 0; j <= 1; j++ ) { base.y = bounds[j].y; for ( int k = 0; k <= 1; k++ ) { base.z = bounds[k].z; // transform the point transformed.x = xvector.x*base.x + yvector.x*base.y; transformed.y = xvector.y*base.x + yvector.y*base.y; transformed.z = base.z; for ( int l = 0; l < 3; l++ ) { if (transformed[l] < rmin[l]) rmin[l] = transformed[l]; if (transformed[l] > rmax[l]) rmax[l] = transformed[l]; } } } } rmin.z = 0; rmax.z = rmin.z + 1; UTIL_SetSize( this, rmin, rmax ); } } //========================================================= //========================================================= int CBaseAnimating::RegisterPrivateActivity( const char *pszActivityName ) { return ActivityList_RegisterPrivateActivity( pszActivityName ); } //----------------------------------------------------------------------------- // Purpose: Notifies the console that this entity could not retrieve an // animation sequence for the specified activity. This probably means // there's a typo in the model QC file, or the sequence is missing // entirely. // // // Input : iActivity - The activity that failed to resolve to a sequence. // // // NOTE : IMPORTANT - Something needs to be done so that private activities // (which are allowed to collide in the activity list) remember each // entity that registered an activity there, and the activity name // each character registered. //----------------------------------------------------------------------------- void CBaseAnimating::ReportMissingActivity( int iActivity ) { Msg( "%s has no sequence for act:%s\n", GetClassname(), ActivityList_NameForIndex(iActivity) ); } LocalFlexController_t CBaseAnimating::GetNumFlexControllers( void ) { CStudioHdr *pstudiohdr = GetModelPtr( ); if (! pstudiohdr) return LocalFlexController_t(0); return pstudiohdr->numflexcontrollers(); } const char *CBaseAnimating::GetFlexDescFacs( int iFlexDesc ) { CStudioHdr *pstudiohdr = GetModelPtr( ); if (! pstudiohdr) return 0; mstudioflexdesc_t *pflexdesc = pstudiohdr->pFlexdesc( iFlexDesc ); return pflexdesc->pszFACS( ); } const char *CBaseAnimating::GetFlexControllerName( LocalFlexController_t iFlexController ) { CStudioHdr *pstudiohdr = GetModelPtr( ); if (! pstudiohdr) return 0; mstudioflexcontroller_t *pflexcontroller = pstudiohdr->pFlexcontroller( iFlexController ); return pflexcontroller->pszName( ); } const char *CBaseAnimating::GetFlexControllerType( LocalFlexController_t iFlexController ) { CStudioHdr *pstudiohdr = GetModelPtr( ); if (! pstudiohdr) return 0; mstudioflexcontroller_t *pflexcontroller = pstudiohdr->pFlexcontroller( iFlexController ); return pflexcontroller->pszType( ); } //----------------------------------------------------------------------------- // Purpose: Converts the ground speed of the animating entity into a true velocity // Output : Vector - velocity of the character at its current m_flGroundSpeed //----------------------------------------------------------------------------- Vector CBaseAnimating::GetGroundSpeedVelocity( void ) { CStudioHdr *pstudiohdr = GetModelPtr(); if (!pstudiohdr) return vec3_origin; QAngle vecAngles; Vector vecVelocity; vecAngles.y = GetSequenceMoveYaw( GetSequence() ); vecAngles.x = 0; vecAngles.z = 0; vecAngles.y += GetLocalAngles().y; AngleVectors( vecAngles, &vecVelocity ); vecVelocity = vecVelocity * m_flGroundSpeed; return vecVelocity; } //----------------------------------------------------------------------------- // Purpose: // Output : //----------------------------------------------------------------------------- float CBaseAnimating::GetInstantaneousVelocity( float flInterval ) { CStudioHdr *pstudiohdr = GetModelPtr( ); if (! pstudiohdr) return 0; // FIXME: someone needs to check for last frame, etc. float flNextCycle = GetCycle() + flInterval * GetSequenceCycleRate( GetSequence() ) * m_flPlaybackRate; Vector vecVelocity; Studio_SeqVelocity( pstudiohdr, GetSequence(), flNextCycle, GetPoseParameterArray(), vecVelocity ); vecVelocity *= m_flPlaybackRate; return vecVelocity.Length(); } //----------------------------------------------------------------------------- // Purpose: // Output : //----------------------------------------------------------------------------- float CBaseAnimating::GetEntryVelocity( int iSequence ) { CStudioHdr *pstudiohdr = GetModelPtr( ); if (! pstudiohdr) return 0; Vector vecVelocity; Studio_SeqVelocity( pstudiohdr, iSequence, 0.0, GetPoseParameterArray(), vecVelocity ); return vecVelocity.Length(); } float CBaseAnimating::GetExitVelocity( int iSequence ) { CStudioHdr *pstudiohdr = GetModelPtr( ); if (! pstudiohdr) return 0; Vector vecVelocity; Studio_SeqVelocity( pstudiohdr, iSequence, 1.0, GetPoseParameterArray(), vecVelocity ); return vecVelocity.Length(); } //----------------------------------------------------------------------------- // Purpose: // Output : //----------------------------------------------------------------------------- bool CBaseAnimating::GetIntervalMovement( float flIntervalUsed, bool &bMoveSeqFinished, Vector &newPosition, QAngle &newAngles ) { CStudioHdr *pstudiohdr = GetModelPtr( ); if (! pstudiohdr || !pstudiohdr->SequencesAvailable()) return false; float flComputedCycleRate = GetSequenceCycleRate( GetSequence() ); float flNextCycle = GetCycle() + flIntervalUsed * flComputedCycleRate * m_flPlaybackRate; if ((!m_bSequenceLoops) && flNextCycle > 1.0) { flIntervalUsed = GetCycle() / (flComputedCycleRate * m_flPlaybackRate); flNextCycle = 1.0; bMoveSeqFinished = true; } else { bMoveSeqFinished = false; } Vector deltaPos; QAngle deltaAngles; if (Studio_SeqMovement( pstudiohdr, GetSequence(), GetCycle(), flNextCycle, GetPoseParameterArray(), deltaPos, deltaAngles )) { VectorYawRotate( deltaPos, GetLocalAngles().y, deltaPos ); newPosition = GetLocalOrigin() + deltaPos; newAngles.Init(); newAngles.y = GetLocalAngles().y + deltaAngles.y; return true; } else { newPosition = GetLocalOrigin(); newAngles = GetLocalAngles(); return false; } } //----------------------------------------------------------------------------- // Purpose: // Output : //----------------------------------------------------------------------------- bool CBaseAnimating::GetSequenceMovement( int nSequence, float fromCycle, float toCycle, Vector &deltaPosition, QAngle &deltaAngles ) { CStudioHdr *pstudiohdr = GetModelPtr( ); if (! pstudiohdr) return false; return Studio_SeqMovement( pstudiohdr, nSequence, fromCycle, toCycle, GetPoseParameterArray(), deltaPosition, deltaAngles ); } //----------------------------------------------------------------------------- // Purpose: find frame where they animation has moved a given distance. // Output : //----------------------------------------------------------------------------- float CBaseAnimating::GetMovementFrame( float flDist ) { CStudioHdr *pstudiohdr = GetModelPtr( ); if (! pstudiohdr) return 0; float t = Studio_FindSeqDistance( pstudiohdr, GetSequence(), GetPoseParameterArray(), flDist ); return t; } //----------------------------------------------------------------------------- // Purpose: does a specific sequence have movement? // Output : //----------------------------------------------------------------------------- bool CBaseAnimating::HasMovement( int iSequence ) { CStudioHdr *pstudiohdr = GetModelPtr( ); if (! pstudiohdr) return false; // FIXME: this needs to check to see if there are keys, and the object is walking Vector deltaPos; QAngle deltaAngles; if (Studio_SeqMovement( pstudiohdr, iSequence, 0.0f, 1.0f, GetPoseParameterArray(), deltaPos, deltaAngles )) { return true; } return false; } //----------------------------------------------------------------------------- // Purpose: // Input : *szModelName - //----------------------------------------------------------------------------- void CBaseAnimating::SetModel( const char *szModelName ) { MDLCACHE_CRITICAL_SECTION(); // delete exiting studio model container UnlockStudioHdr(); delete m_pStudioHdr; m_pStudioHdr = NULL; if ( szModelName[0] ) { int modelIndex = modelinfo->GetModelIndex( szModelName ); const model_t *model = modelinfo->GetModel( modelIndex ); if ( model && ( modelinfo->GetModelType( model ) != mod_studio ) ) { Msg( "Setting CBaseAnimating to non-studio model %s (type:%i)\n", szModelName, modelinfo->GetModelType( model ) ); } } if ( m_boneCacheHandle ) { Studio_DestroyBoneCache( m_boneCacheHandle ); m_boneCacheHandle = 0; } UTIL_SetModel( this, szModelName ); InitBoneControllers( ); SetSequence( 0 ); PopulatePoseParameters(); } //----------------------------------------------------------------------------- // Purpose: // Input : //----------------------------------------------------------------------------- void CBaseAnimating::LockStudioHdr() { AUTO_LOCK( m_StudioHdrInitLock ); const model_t *mdl = GetModel(); if (mdl) { MDLHandle_t hStudioHdr = modelinfo->GetCacheHandle( mdl ); if ( hStudioHdr != MDLHANDLE_INVALID ) { const studiohdr_t *pStudioHdr = mdlcache->LockStudioHdr( hStudioHdr ); CStudioHdr *pStudioHdrContainer = NULL; if ( !m_pStudioHdr ) { if ( pStudioHdr ) { pStudioHdrContainer = new CStudioHdr; pStudioHdrContainer->Init( pStudioHdr, mdlcache ); } } else { pStudioHdrContainer = m_pStudioHdr; } Assert( ( pStudioHdr == NULL && pStudioHdrContainer == NULL ) || pStudioHdrContainer->GetRenderHdr() == pStudioHdr ); if ( pStudioHdrContainer && pStudioHdrContainer->GetVirtualModel() ) { MDLHandle_t hVirtualModel = (MDLHandle_t)(int)(pStudioHdrContainer->GetRenderHdr()->virtualModel)&0xffff; mdlcache->LockStudioHdr( hVirtualModel ); } m_pStudioHdr = pStudioHdrContainer; // must be last to ensure virtual model correctly set up } } } void CBaseAnimating::UnlockStudioHdr() { if ( m_pStudioHdr ) { const model_t *mdl = GetModel(); if (mdl) { mdlcache->UnlockStudioHdr( modelinfo->GetCacheHandle( mdl ) ); if ( m_pStudioHdr->GetVirtualModel() ) { MDLHandle_t hVirtualModel = (MDLHandle_t)(int)(m_pStudioHdr->GetRenderHdr()->virtualModel)&0xffff; mdlcache->UnlockStudioHdr( hVirtualModel ); } } } } //----------------------------------------------------------------------------- // Purpose: return the index to the shared bone cache // Output : //----------------------------------------------------------------------------- CBoneCache *CBaseAnimating::GetBoneCache( void ) { CStudioHdr *pStudioHdr = GetModelPtr( ); Assert(pStudioHdr); CBoneCache *pcache = Studio_GetBoneCache( m_boneCacheHandle ); int boneMask = BONE_USED_BY_HITBOX | BONE_USED_BY_ATTACHMENT; // TF queries these bones to position weapons when players are killed #if defined( TF_DLL ) boneMask |= BONE_USED_BY_BONE_MERGE; #endif if ( pcache ) { if ( pcache->IsValid( gpGlobals->curtime ) && (pcache->m_boneMask & boneMask) == boneMask && pcache->m_timeValid <= gpGlobals->curtime) { // Msg("%s:%s:%s (%x:%x:%8.4f) cache\n", GetClassname(), GetDebugName(), STRING(GetModelName()), boneMask, pcache->m_boneMask, pcache->m_timeValid ); // in memory and still valid, use it! return pcache; } // in memory, but missing some of the bone masks if ( (pcache->m_boneMask & boneMask) != boneMask ) { Studio_DestroyBoneCache( m_boneCacheHandle ); m_boneCacheHandle = 0; pcache = NULL; } } matrix3x4_t bonetoworld[MAXSTUDIOBONES]; SetupBones( bonetoworld, boneMask ); if ( pcache ) { // still in memory but out of date, refresh the bones. pcache->UpdateBones( bonetoworld, pStudioHdr->numbones(), gpGlobals->curtime ); } else { bonecacheparams_t params; params.pStudioHdr = pStudioHdr; params.pBoneToWorld = bonetoworld; params.curtime = gpGlobals->curtime; params.boneMask = boneMask; m_boneCacheHandle = Studio_CreateBoneCache( params ); pcache = Studio_GetBoneCache( m_boneCacheHandle ); } Assert(pcache); return pcache; } void CBaseAnimating::InvalidateBoneCache( void ) { Studio_InvalidateBoneCache( m_boneCacheHandle ); } bool CBaseAnimating::TestCollision( const Ray_t &ray, unsigned int fContentsMask, trace_t& tr ) { // Return a special case for scaled physics objects if ( GetModelScale() != 1.0f ) { IPhysicsObject *pPhysObject = VPhysicsGetObject(); Vector vecPosition; QAngle vecAngles; pPhysObject->GetPosition( &vecPosition, &vecAngles ); const CPhysCollide *pScaledCollide = pPhysObject->GetCollide(); physcollision->TraceBox( ray, pScaledCollide, vecPosition, vecAngles, &tr ); return tr.DidHit(); } if ( IsSolidFlagSet( FSOLID_CUSTOMRAYTEST )) { if (!TestHitboxes( ray, fContentsMask, tr )) return true; return tr.DidHit(); } // We shouldn't get here. Assert(0); return false; } bool CBaseAnimating::TestHitboxes( const Ray_t &ray, unsigned int fContentsMask, trace_t& tr ) { CStudioHdr *pStudioHdr = GetModelPtr( ); if (!pStudioHdr) { Assert(!"CBaseAnimating::GetBonePosition: model missing"); return false; } mstudiohitboxset_t *set = pStudioHdr->pHitboxSet( m_nHitboxSet ); if ( !set || !set->numhitboxes ) return false; CBoneCache *pcache = GetBoneCache( ); matrix3x4_t *hitboxbones[MAXSTUDIOBONES]; pcache->ReadCachedBonePointers( hitboxbones, pStudioHdr->numbones() ); if ( TraceToStudio( physprops, ray, pStudioHdr, set, hitboxbones, fContentsMask, GetAbsOrigin(), GetModelScale(), tr ) ) { mstudiobbox_t *pbox = set->pHitbox( tr.hitbox ); mstudiobone_t *pBone = pStudioHdr->pBone(pbox->bone); tr.surface.name = "**studio**"; tr.surface.flags = SURF_HITBOX; tr.surface.surfaceProps = physprops->GetSurfaceIndex( pBone->pszSurfaceProp() ); } return true; } void CBaseAnimating::InitBoneControllers ( void ) // FIXME: rename { int i; CStudioHdr *pStudioHdr = GetModelPtr( ); if (!pStudioHdr) return; int nBoneControllerCount = pStudioHdr->numbonecontrollers(); if ( nBoneControllerCount > NUM_BONECTRLS ) { nBoneControllerCount = NUM_BONECTRLS; #ifdef _DEBUG Warning( "Model %s has too many bone controllers! (Max %d allowed)\n", pStudioHdr->pszName(), NUM_BONECTRLS ); #endif } for (i = 0; i < nBoneControllerCount; i++) { SetBoneController( i, 0.0 ); } Assert( pStudioHdr->SequencesAvailable() ); if ( pStudioHdr->SequencesAvailable() ) { for (i = 0; i < pStudioHdr->GetNumPoseParameters(); i++) { SetPoseParameter( i, 0.0 ); } } } //========================================================= //========================================================= float CBaseAnimating::SetBoneController ( int iController, float flValue ) { AssertMsg( GetModelPtr(), "GetModelPtr NULL. %s", STRING(GetEntityName()) ? STRING(GetEntityName()) : "" ); CStudioHdr *pmodel = (CStudioHdr*)GetModelPtr(); Assert(iController >= 0 && iController < NUM_BONECTRLS); float newValue; float retVal = Studio_SetController( pmodel, iController, flValue, newValue ); m_flEncodedController.Set( iController, newValue ); return retVal; } //========================================================= //========================================================= float CBaseAnimating::GetBoneController ( int iController ) { AssertMsg( GetModelPtr(), "GetModelPtr NULL. %s", STRING(GetEntityName()) ? STRING(GetEntityName()) : "" ); CStudioHdr *pmodel = (CStudioHdr*)GetModelPtr(); return Studio_GetController( pmodel, iController, m_flEncodedController[iController] ); } //------------------------------------------------------------------------------ // Purpose : Returns velcocity of the NPC from it's animation. // If physically simulated gets velocity from physics object // Input : // Output : //------------------------------------------------------------------------------ void CBaseAnimating::GetVelocity(Vector *vVelocity, AngularImpulse *vAngVelocity) { if ( GetMoveType() == MOVETYPE_VPHYSICS ) { BaseClass::GetVelocity(vVelocity,vAngVelocity); } else if ( !(GetFlags() & FL_ONGROUND) ) { BaseClass::GetVelocity(vVelocity,vAngVelocity); } else { if (vVelocity != NULL) { Vector vRawVel; GetSequenceLinearMotion( GetSequence(), &vRawVel ); // Build a rotation matrix from NPC orientation matrix3x4_t fRotateMatrix; AngleMatrix(GetLocalAngles(), fRotateMatrix); VectorRotate( vRawVel, fRotateMatrix, *vVelocity); } if (vAngVelocity != NULL) { QAngle tmp = GetLocalAngularVelocity(); QAngleToAngularImpulse( tmp, *vAngVelocity ); } } } //========================================================= //========================================================= void CBaseAnimating::GetSkeleton( CStudioHdr *pStudioHdr, Vector pos[], Quaternion q[], int boneMask ) { if(!pStudioHdr) { Assert(!"CBaseAnimating::GetSkeleton() without a model"); return; } IBoneSetup boneSetup( pStudioHdr, boneMask, GetPoseParameterArray() ); boneSetup.InitPose( pos, q ); boneSetup.AccumulatePose( pos, q, GetSequence(), GetCycle(), 1.0, gpGlobals->curtime, m_pIk ); if ( m_pIk ) { CIKContext auto_ik; auto_ik.Init( pStudioHdr, GetAbsAngles(), GetAbsOrigin(), gpGlobals->curtime, 0, boneMask ); boneSetup.CalcAutoplaySequences( pos, q, gpGlobals->curtime, &auto_ik ); } else { boneSetup.CalcAutoplaySequences( pos, q, gpGlobals->curtime, NULL ); } boneSetup.CalcBoneAdj( pos, q, GetEncodedControllerArray() ); } int CBaseAnimating::DrawDebugTextOverlays(void) { int text_offset = BaseClass::DrawDebugTextOverlays(); if (m_debugOverlays & OVERLAY_TEXT_BIT) { // ---------------- // Print Look time // ---------------- char tempstr[1024]; Q_snprintf(tempstr, sizeof(tempstr), "Sequence: (%3d) %s",GetSequence(), GetSequenceName( GetSequence() ) ); EntityText(text_offset,tempstr,0); text_offset++; const char *pActname = GetSequenceActivityName(GetSequence()); if ( pActname && strlen(pActname) ) { Q_snprintf(tempstr, sizeof(tempstr), "Activity %s", pActname ); EntityText(text_offset,tempstr,0); text_offset++; } Q_snprintf(tempstr, sizeof(tempstr), "Cycle: %.5f (%.5f)", (float)GetCycle(), m_flAnimTime.Get() ); EntityText(text_offset,tempstr,0); text_offset++; } // Visualize attachment points if ( m_debugOverlays & OVERLAY_ATTACHMENTS_BIT ) { CStudioHdr *pStudioHdr = GetModelPtr(); if ( pStudioHdr ) { Vector vecPos, vecForward, vecRight, vecUp; char tempstr[256]; // Iterate all the stored attachments for ( int i = 1; i <= pStudioHdr->GetNumAttachments(); i++ ) { GetAttachment( i, vecPos, &vecForward, &vecRight, &vecUp ); // Red - forward, green - right, blue - up NDebugOverlay::Line( vecPos, vecPos + ( vecForward * 4.0f ), 255, 0, 0, true, 0.05f ); NDebugOverlay::Line( vecPos, vecPos + ( vecRight * 4.0f ), 0, 255, 0, true, 0.05f ); NDebugOverlay::Line( vecPos, vecPos + ( vecUp * 4.0f ), 0, 0, 255, true, 0.05f ); Q_snprintf( tempstr, sizeof(tempstr), " < %s (%d)", pStudioHdr->pAttachment(i-1).pszName(), i ); NDebugOverlay::Text( vecPos, tempstr, true, 0.05f ); } } } return text_offset; } //----------------------------------------------------------------------------- // Purpose: Force a clientside-animating entity to reset it's frame //----------------------------------------------------------------------------- void CBaseAnimating::ResetClientsideFrame( void ) { // TODO: Once we can chain MSG_ENTITY messages, use one of them m_bClientSideFrameReset = !(bool)m_bClientSideFrameReset; } //----------------------------------------------------------------------------- // Purpose: Returns the origin at which to play an inputted dispatcheffect //----------------------------------------------------------------------------- void CBaseAnimating::GetInputDispatchEffectPosition( const char *sInputString, Vector &pOrigin, QAngle &pAngles ) { // See if there's a specified attachment point int iAttachment; if ( GetModelPtr() && sscanf( sInputString, "%d", &iAttachment ) ) { if ( !GetAttachment( iAttachment, pOrigin, pAngles ) ) { Msg( "ERROR: Mapmaker tried to spawn DispatchEffect %s, but %s has no attachment %d\n", sInputString, STRING(GetModelName()), iAttachment ); } return; } BaseClass::GetInputDispatchEffectPosition( sInputString, pOrigin, pAngles ); } //----------------------------------------------------------------------------- // Purpose: // Input : setnum - //----------------------------------------------------------------------------- void CBaseAnimating::SetHitboxSet( int setnum ) { #ifdef _DEBUG CStudioHdr *pStudioHdr = GetModelPtr(); if ( !pStudioHdr ) return; if (setnum > pStudioHdr->numhitboxsets()) { // Warn if an bogus hitbox set is being used.... static bool s_bWarned = false; if (!s_bWarned) { Warning("Using bogus hitbox set in entity %s!\n", GetClassname() ); s_bWarned = true; } setnum = 0; } #endif m_nHitboxSet = setnum; } //----------------------------------------------------------------------------- // Purpose: // Input : *setname - //----------------------------------------------------------------------------- void CBaseAnimating::SetHitboxSetByName( const char *setname ) { AssertMsg( GetModelPtr(), "GetModelPtr NULL. %s", STRING(GetEntityName()) ? STRING(GetEntityName()) : "" ); m_nHitboxSet = FindHitboxSetByName( GetModelPtr(), setname ); } //----------------------------------------------------------------------------- // Purpose: // Output : int //----------------------------------------------------------------------------- int CBaseAnimating::GetHitboxSet( void ) { return m_nHitboxSet; } //----------------------------------------------------------------------------- // Purpose: // Output : char const //----------------------------------------------------------------------------- const char *CBaseAnimating::GetHitboxSetName( void ) { AssertMsg( GetModelPtr(), "GetModelPtr NULL. %s", STRING(GetEntityName()) ? STRING(GetEntityName()) : "" ); return ::GetHitboxSetName( GetModelPtr(), m_nHitboxSet ); } //----------------------------------------------------------------------------- // Purpose: // Output : int //----------------------------------------------------------------------------- int CBaseAnimating::GetHitboxSetCount( void ) { AssertMsg( GetModelPtr(), "GetModelPtr NULL. %s", STRING(GetEntityName()) ? STRING(GetEntityName()) : "" ); return ::GetHitboxSetCount( GetModelPtr() ); } static Vector hullcolor[8] = { Vector( 1.0, 1.0, 1.0 ), Vector( 1.0, 0.5, 0.5 ), Vector( 0.5, 1.0, 0.5 ), Vector( 1.0, 1.0, 0.5 ), Vector( 0.5, 0.5, 1.0 ), Vector( 1.0, 0.5, 1.0 ), Vector( 0.5, 1.0, 1.0 ), Vector( 1.0, 1.0, 1.0 ) }; //----------------------------------------------------------------------------- // Purpose: Send the current hitboxes for this model to the client ( to compare with // r_drawentities 3 client side boxes ). // WARNING: This uses a ton of bandwidth, only use on a listen server //----------------------------------------------------------------------------- void CBaseAnimating::DrawServerHitboxes( float duration /*= 0.0f*/, bool monocolor /*= false*/ ) { CStudioHdr *pStudioHdr = GetModelPtr(); if ( !pStudioHdr ) return; mstudiohitboxset_t *set =pStudioHdr->pHitboxSet( m_nHitboxSet ); if ( !set ) return; Vector position; QAngle angles; int r = 0; int g = 0; int b = 255; for ( int i = 0; i < set->numhitboxes; i++ ) { mstudiobbox_t *pbox = set->pHitbox( i ); GetBonePosition( pbox->bone, position, angles ); if ( !monocolor ) { int j = (pbox->group % 8); r = ( int ) ( 255.0f * hullcolor[j][0] ); g = ( int ) ( 255.0f * hullcolor[j][1] ); b = ( int ) ( 255.0f * hullcolor[j][2] ); } NDebugOverlay::BoxAngles( position, pbox->bbmin * GetModelScale(), pbox->bbmax * GetModelScale(), angles, r, g, b, 0 ,duration ); } } void CBaseAnimating::DrawRawSkeleton( matrix3x4_t boneToWorld[], int boneMask, bool noDepthTest, float duration, bool monocolor ) { CStudioHdr *pStudioHdr = GetModelPtr(); if ( !pStudioHdr ) return; int i; int r = 255; int g = 255; int b = monocolor ? 255 : 0; for (i = 0; i < pStudioHdr->numbones(); i++) { if (pStudioHdr->pBone( i )->flags & boneMask) { Vector p1; MatrixPosition( boneToWorld[i], p1 ); if ( pStudioHdr->pBone( i )->parent != -1 ) { Vector p2; MatrixPosition( boneToWorld[pStudioHdr->pBone( i )->parent], p2 ); NDebugOverlay::Line( p1, p2, r, g, b, noDepthTest, duration ); } } } } int CBaseAnimating::GetHitboxBone( int hitboxIndex ) { CStudioHdr *pStudioHdr = GetModelPtr(); if ( pStudioHdr ) { mstudiohitboxset_t *set =pStudioHdr->pHitboxSet( m_nHitboxSet ); if ( set && hitboxIndex < set->numhitboxes ) { return set->pHitbox( hitboxIndex )->bone; } } return 0; } //----------------------------------------------------------------------------- // Computes a box that surrounds all hitboxes //----------------------------------------------------------------------------- bool CBaseAnimating::ComputeHitboxSurroundingBox( Vector *pVecWorldMins, Vector *pVecWorldMaxs ) { // Note that this currently should not be called during Relink because of IK. // The code below recomputes bones so as to get at the hitboxes, // which causes IK to trigger, which causes raycasts against the other entities to occur, // which is illegal to do while in the Relink phase. CStudioHdr *pStudioHdr = GetModelPtr(); if (!pStudioHdr) return false; mstudiohitboxset_t *set = pStudioHdr->pHitboxSet( m_nHitboxSet ); if ( !set || !set->numhitboxes ) return false; CBoneCache *pCache = GetBoneCache(); // Compute a box in world space that surrounds this entity pVecWorldMins->Init( FLT_MAX, FLT_MAX, FLT_MAX ); pVecWorldMaxs->Init( -FLT_MAX, -FLT_MAX, -FLT_MAX ); Vector vecBoxAbsMins, vecBoxAbsMaxs; for ( int i = 0; i < set->numhitboxes; i++ ) { mstudiobbox_t *pbox = set->pHitbox(i); matrix3x4_t *pMatrix = pCache->GetCachedBone(pbox->bone); if ( pMatrix ) { TransformAABB( *pMatrix, pbox->bbmin * GetModelScale(), pbox->bbmax * GetModelScale(), vecBoxAbsMins, vecBoxAbsMaxs ); VectorMin( *pVecWorldMins, vecBoxAbsMins, *pVecWorldMins ); VectorMax( *pVecWorldMaxs, vecBoxAbsMaxs, *pVecWorldMaxs ); } } return true; } //----------------------------------------------------------------------------- // Computes a box that surrounds all hitboxes, in entity space //----------------------------------------------------------------------------- bool CBaseAnimating::ComputeEntitySpaceHitboxSurroundingBox( Vector *pVecWorldMins, Vector *pVecWorldMaxs ) { // Note that this currently should not be called during position recomputation because of IK. // The code below recomputes bones so as to get at the hitboxes, // which causes IK to trigger, which causes raycasts against the other entities to occur, // which is illegal to do while in the computeabsposition phase. CStudioHdr *pStudioHdr = GetModelPtr(); if (!pStudioHdr) return false; mstudiohitboxset_t *set = pStudioHdr->pHitboxSet( m_nHitboxSet ); if ( !set || !set->numhitboxes ) return false; CBoneCache *pCache = GetBoneCache(); matrix3x4_t *hitboxbones[MAXSTUDIOBONES]; pCache->ReadCachedBonePointers( hitboxbones, pStudioHdr->numbones() ); // Compute a box in world space that surrounds this entity pVecWorldMins->Init( FLT_MAX, FLT_MAX, FLT_MAX ); pVecWorldMaxs->Init( -FLT_MAX, -FLT_MAX, -FLT_MAX ); matrix3x4_t worldToEntity, boneToEntity; MatrixInvert( EntityToWorldTransform(), worldToEntity ); Vector vecBoxAbsMins, vecBoxAbsMaxs; for ( int i = 0; i < set->numhitboxes; i++ ) { mstudiobbox_t *pbox = set->pHitbox(i); ConcatTransforms( worldToEntity, *hitboxbones[pbox->bone], boneToEntity ); TransformAABB( boneToEntity, pbox->bbmin, pbox->bbmax, vecBoxAbsMins, vecBoxAbsMaxs ); VectorMin( *pVecWorldMins, vecBoxAbsMins, *pVecWorldMins ); VectorMax( *pVecWorldMaxs, vecBoxAbsMaxs, *pVecWorldMaxs ); } return true; } int CBaseAnimating::GetPhysicsBone( int boneIndex ) { CStudioHdr *pStudioHdr = GetModelPtr(); if ( pStudioHdr ) { if ( boneIndex >= 0 && boneIndex < pStudioHdr->numbones() ) return pStudioHdr->pBone( boneIndex )->physicsbone; } return 0; } bool CBaseAnimating::LookupHitbox( const char *szName, int& outSet, int& outBox ) { CStudioHdr* pHdr = GetModelPtr(); outSet = -1; outBox = -1; if( !pHdr ) return false; for( int set=0; set < pHdr->numhitboxsets(); set++ ) { for( int i = 0; i < pHdr->iHitboxCount(set); i++ ) { mstudiobbox_t* pBox = pHdr->pHitbox( i, set ); if( !pBox ) continue; const char* szBoxName = pBox->pszHitboxName(); if( Q_stricmp( szBoxName, szName ) == 0 ) { outSet = set; outBox = i; return true; } } } return false; } void CBaseAnimating::CopyAnimationDataFrom( CBaseAnimating *pSource ) { this->SetModelName( pSource->GetModelName() ); this->SetModelIndex( pSource->GetModelIndex() ); this->SetCycle( pSource->GetCycle() ); this->SetEffects( pSource->GetEffects() ); this->IncrementInterpolationFrame(); this->SetSequence( pSource->GetSequence() ); this->m_flAnimTime = pSource->m_flAnimTime; this->m_nBody = pSource->m_nBody; this->m_nSkin = pSource->m_nSkin; this->LockStudioHdr(); } int CBaseAnimating::GetHitboxesFrontside( int *boxList, int boxMax, const Vector &normal, float dist ) { int count = 0; CStudioHdr *pStudioHdr = GetModelPtr(); if ( pStudioHdr ) { mstudiohitboxset_t *set = pStudioHdr->pHitboxSet( m_nHitboxSet ); if ( set ) { matrix3x4_t matrix; for ( int b = 0; b < set->numhitboxes; b++ ) { mstudiobbox_t *pbox = set->pHitbox( b ); GetBoneTransform( pbox->bone, matrix ); Vector center = (pbox->bbmax + pbox->bbmin) * 0.5; Vector centerWs; VectorTransform( center, matrix, centerWs ); if ( DotProduct( centerWs, normal ) >= dist ) { if ( count < boxMax ) { boxList[count] = b; count++; } } } } } return count; } void CBaseAnimating::EnableServerIK() { if (!m_pIk) { m_pIk = new CIKContext; m_iIKCounter = 0; } } void CBaseAnimating::DisableServerIK() { delete m_pIk; m_pIk = NULL; } Activity CBaseAnimating::GetSequenceActivity( int iSequence ) { if( iSequence == -1 ) { return ACT_INVALID; } if ( !GetModelPtr() ) return ACT_INVALID; return (Activity)::GetSequenceActivity( GetModelPtr(), iSequence ); } void CBaseAnimating::ModifyOrAppendCriteria( AI_CriteriaSet& set ) { BaseClass::ModifyOrAppendCriteria( set ); // TODO // Append any animation state parameters here } void CBaseAnimating::DoMuzzleFlash() { m_nMuzzleFlashParity = (m_nMuzzleFlashParity+1) & ((1 << EF_MUZZLEFLASH_BITS) - 1); } //----------------------------------------------------------------------------- // Purpose: // Input : scale - //----------------------------------------------------------------------------- void CBaseAnimating::SetModelScale( float scale, float change_duration /*= 0.0f*/ ) { if ( change_duration > 0.0f ) { ModelScale *mvs = ( ModelScale * )CreateDataObject( MODELSCALE ); mvs->m_flModelScaleStart = m_flModelScale; mvs->m_flModelScaleGoal = scale; mvs->m_flModelScaleStartTime = gpGlobals->curtime; mvs->m_flModelScaleFinishTime = mvs->m_flModelScaleStartTime + change_duration; SetContextThink( &CBaseAnimating::UpdateModelScale, gpGlobals->curtime, "UpdateModelScaleThink" ); } else { m_flModelScale = scale; RefreshCollisionBounds(); if ( HasDataObjectType( MODELSCALE ) ) { DestroyDataObject( MODELSCALE ); } } } void CBaseAnimating::UpdateModelScale() { ModelScale *mvs = ( ModelScale * )GetDataObject( MODELSCALE ); if ( !mvs ) { return; } float dt = mvs->m_flModelScaleFinishTime - mvs->m_flModelScaleStartTime; Assert( dt > 0.0f ); float frac = ( gpGlobals->curtime - mvs->m_flModelScaleStartTime ) / dt; frac = clamp( frac, 0.0f, 1.0f ); if ( gpGlobals->curtime >= mvs->m_flModelScaleFinishTime ) { m_flModelScale = mvs->m_flModelScaleGoal; DestroyDataObject( MODELSCALE ); } else { m_flModelScale = Lerp( frac, mvs->m_flModelScaleStart, mvs->m_flModelScaleGoal ); } RefreshCollisionBounds(); if ( frac < 1.f ) { SetContextThink( &CBaseAnimating::UpdateModelScale, gpGlobals->curtime, "UpdateModelScaleThink" ); } } void CBaseAnimating::RefreshCollisionBounds( void ) { CollisionProp()->RefreshScaledCollisionBounds(); } //----------------------------------------------------------------------------- //----------------------------------------------------------------------------- void CBaseAnimating::Ignite( float flFlameLifetime, bool bNPCOnly, float flSize, bool bCalledByLevelDesigner ) { if( IsOnFire() ) return; bool bIsNPC = IsNPC(); // Right now this prevents stuff we don't want to catch on fire from catching on fire. if( bNPCOnly && bIsNPC == false ) { return; } if( bIsNPC == true && bCalledByLevelDesigner == false ) { CAI_BaseNPC *pNPC = MyNPCPointer(); if ( pNPC && pNPC->AllowedToIgnite() == false ) return; } CEntityFlame *pFlame = CEntityFlame::Create( this ); if (pFlame) { pFlame->SetLifetime( flFlameLifetime ); AddFlag( FL_ONFIRE ); SetEffectEntity( pFlame ); if ( flSize > 0.0f ) { pFlame->SetSize( flSize ); } } m_OnIgnite.FireOutput( this, this ); } void CBaseAnimating::IgniteLifetime( float flFlameLifetime ) { if( !IsOnFire() ) Ignite( 30, false, 0.0f, true ); CEntityFlame *pFlame = dynamic_cast( GetEffectEntity() ); if ( !pFlame ) return; pFlame->SetLifetime( flFlameLifetime ); } void CBaseAnimating::IgniteNumHitboxFires( int iNumHitBoxFires ) { if( !IsOnFire() ) Ignite( 30, false, 0.0f, true ); CEntityFlame *pFlame = dynamic_cast( GetEffectEntity() ); if ( !pFlame ) return; pFlame->SetNumHitboxFires( iNumHitBoxFires ); } void CBaseAnimating::IgniteHitboxFireScale( float flHitboxFireScale ) { if( !IsOnFire() ) Ignite( 30, false, 0.0f, true ); CEntityFlame *pFlame = dynamic_cast( GetEffectEntity() ); if ( !pFlame ) return; pFlame->SetHitboxFireScale( flHitboxFireScale ); } //----------------------------------------------------------------------------- // Fades out! //----------------------------------------------------------------------------- bool CBaseAnimating::Dissolve( const char *pMaterialName, float flStartTime, bool bNPCOnly, int nDissolveType, Vector vDissolverOrigin, int iMagnitude ) { // Right now this prevents stuff we don't want to catch on fire from catching on fire. if( bNPCOnly && !(GetFlags() & FL_NPC) ) return false; // Can't dissolve twice if ( IsDissolving() ) return false; bool bRagdollCreated = false; CEntityDissolve *pDissolve = CEntityDissolve::Create( this, pMaterialName, flStartTime, nDissolveType, &bRagdollCreated ); if (pDissolve) { SetEffectEntity( pDissolve ); AddFlag( FL_DISSOLVING ); m_flDissolveStartTime = flStartTime; pDissolve->SetDissolverOrigin( vDissolverOrigin ); pDissolve->SetMagnitude( iMagnitude ); } // if this is a ragdoll dissolving, fire an event if ( ( CLASS_NONE == Classify() ) && ( ClassMatches( "prop_ragdoll" ) ) ) { IGameEvent *event = gameeventmanager->CreateEvent( "ragdoll_dissolved" ); if ( event ) { event->SetInt( "entindex", entindex() ); gameeventmanager->FireEvent( event ); } } return bRagdollCreated; } //----------------------------------------------------------------------------- // Make a model look as though it's burning. //----------------------------------------------------------------------------- void CBaseAnimating::Scorch( int rate, int floor ) { color32 color = GetRenderColor(); if( color.r > floor ) color.r -= rate; if( color.g > floor ) color.g -= rate; if( color.b > floor ) color.b -= rate; SetRenderColor( color.r, color.g, color.b ); } void CBaseAnimating::ResetSequence(int nSequence) { if (ai_sequence_debug.GetBool() == true && (m_debugOverlays & OVERLAY_NPC_SELECTED_BIT)) { DevMsg("ResetSequence : %s: %s -> %s\n", GetClassname(), GetSequenceName(GetSequence()), GetSequenceName(nSequence)); } if ( !SequenceLoops() ) { SetCycle( 0 ); } // Tracker 17868: If the sequence number didn't actually change, but you call resetsequence info, it changes // the newsequenceparity bit which causes the client to call m_flCycle.Reset() which causes a very slight // discontinuity in looping animations as they reset around to cycle 0.0. This was causing the parentattached // helmet on barney to hitch every time barney's idle cycled back around to its start. bool changed = nSequence != GetSequence() ? true : false; SetSequence( nSequence ); if ( changed || !SequenceLoops() ) { ResetSequenceInfo(); } } //----------------------------------------------------------------------------- //----------------------------------------------------------------------------- void CBaseAnimating::InputIgnite( inputdata_t &inputdata ) { Ignite( 30, false, 0.0f, true ); } void CBaseAnimating::InputIgniteLifetime( inputdata_t &inputdata ) { IgniteLifetime( inputdata.value.Float() ); } void CBaseAnimating::InputIgniteNumHitboxFires( inputdata_t &inputdata ) { IgniteNumHitboxFires( inputdata.value.Int() ); } void CBaseAnimating::InputIgniteHitboxFireScale( inputdata_t &inputdata ) { IgniteHitboxFireScale( inputdata.value.Float() ); } void CBaseAnimating::InputBecomeRagdoll( inputdata_t &inputdata ) { BecomeRagdollOnClient( vec3_origin ); } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void CBaseAnimating::SetFadeDistance( float minFadeDist, float maxFadeDist ) { m_fadeMinDist = minFadeDist; m_fadeMaxDist = maxFadeDist; } //----------------------------------------------------------------------------- // Purpose: Async prefetches all anim data used by a particular sequence. Returns true if all of the required data is memory resident // Input : iSequence - // Output : Returns true on success, false on failure. //----------------------------------------------------------------------------- bool CBaseAnimating::PrefetchSequence( int iSequence ) { CStudioHdr *pStudioHdr = GetModelPtr(); if ( !pStudioHdr ) return true; return Studio_PrefetchSequence( pStudioHdr, iSequence ); } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- bool CBaseAnimating::IsSequenceLooping( CStudioHdr *pStudioHdr, int iSequence ) { return (::GetSequenceFlags( pStudioHdr, iSequence ) & STUDIO_LOOPING) != 0; } //----------------------------------------------------------------------------- // Purpose: model-change notification. Fires on dynamic load completion as well //----------------------------------------------------------------------------- CStudioHdr *CBaseAnimating::OnNewModel() { (void) BaseClass::OnNewModel(); // TODO: if dynamic, validate m_Sequence and apply queued body group settings? if ( IsDynamicModelLoading() ) { // Called while dynamic model still loading -> new model, clear deferred state m_bResetSequenceInfoOnLoad = false; return NULL; } CStudioHdr *hdr = GetModelPtr(); if ( m_bResetSequenceInfoOnLoad ) { m_bResetSequenceInfoOnLoad = false; ResetSequenceInfo(); } return hdr; }