Modified source engine (2017) developed by valve and leaked in 2020. Not for commercial purporses
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//========= Copyright Valve Corporation, All rights reserved. ============//
//
// Purpose:
//
// $NoKeywords: $
//===========================================================================//
#include "cbase.h"
#include "mathlib/vmatrix.h"
#include "ragdoll_shared.h"
#include "bone_setup.h"
#include "materialsystem/imesh.h"
#include "engine/ivmodelinfo.h"
#include "iviewrender.h"
#include "tier0/vprof.h"
#include "view.h"
#include "physics_saverestore.h"
#include "vphysics/constraints.h"
// memdbgon must be the last include file in a .cpp file!!!
#include "tier0/memdbgon.h"
#ifdef _DEBUG
extern ConVar r_FadeProps;
#endif
CRagdoll::CRagdoll()
{
m_ragdoll.listCount = 0;
m_vecLastOrigin.Init();
m_flLastOriginChangeTime = - 1.0f;
m_lastUpdate = -FLT_MAX;
}
#define DEFINE_RAGDOLL_ELEMENT( i ) \
DEFINE_FIELD( m_ragdoll.list[i].originParentSpace, FIELD_VECTOR ), \
DEFINE_PHYSPTR( m_ragdoll.list[i].pObject ), \
DEFINE_PHYSPTR( m_ragdoll.list[i].pConstraint ), \
DEFINE_FIELD( m_ragdoll.list[i].parentIndex, FIELD_INTEGER )
BEGIN_SIMPLE_DATADESC( CRagdoll )
DEFINE_AUTO_ARRAY( m_ragdoll.boneIndex, FIELD_INTEGER ),
DEFINE_FIELD( m_ragdoll.listCount, FIELD_INTEGER ),
DEFINE_FIELD( m_ragdoll.allowStretch, FIELD_BOOLEAN ),
DEFINE_PHYSPTR( m_ragdoll.pGroup ),
DEFINE_RAGDOLL_ELEMENT( 0 ),
DEFINE_RAGDOLL_ELEMENT( 1 ),
DEFINE_RAGDOLL_ELEMENT( 2 ),
DEFINE_RAGDOLL_ELEMENT( 3 ),
DEFINE_RAGDOLL_ELEMENT( 4 ),
DEFINE_RAGDOLL_ELEMENT( 5 ),
DEFINE_RAGDOLL_ELEMENT( 6 ),
DEFINE_RAGDOLL_ELEMENT( 7 ),
DEFINE_RAGDOLL_ELEMENT( 8 ),
DEFINE_RAGDOLL_ELEMENT( 9 ),
DEFINE_RAGDOLL_ELEMENT( 10 ),
DEFINE_RAGDOLL_ELEMENT( 11 ),
DEFINE_RAGDOLL_ELEMENT( 12 ),
DEFINE_RAGDOLL_ELEMENT( 13 ),
DEFINE_RAGDOLL_ELEMENT( 14 ),
DEFINE_RAGDOLL_ELEMENT( 15 ),
DEFINE_RAGDOLL_ELEMENT( 16 ),
DEFINE_RAGDOLL_ELEMENT( 17 ),
DEFINE_RAGDOLL_ELEMENT( 18 ),
DEFINE_RAGDOLL_ELEMENT( 19 ),
DEFINE_RAGDOLL_ELEMENT( 20 ),
DEFINE_RAGDOLL_ELEMENT( 21 ),
DEFINE_RAGDOLL_ELEMENT( 22 ),
DEFINE_RAGDOLL_ELEMENT( 23 ),
END_DATADESC()
IPhysicsObject *CRagdoll::GetElement( int elementNum )
{
return m_ragdoll.list[elementNum].pObject;
}
void CRagdoll::BuildRagdollBounds( C_BaseEntity *ent )
{
Vector mins, maxs, size;
modelinfo->GetModelBounds( ent->GetModel(), mins, maxs );
size = (maxs - mins) * 0.5;
m_radius = size.Length();
m_mins.Init(-m_radius,-m_radius,-m_radius);
m_maxs.Init(m_radius,m_radius,m_radius);
}
void CRagdoll::Init(
C_BaseEntity *ent,
CStudioHdr *pstudiohdr,
const Vector &forceVector,
int forceBone,
const matrix3x4_t *pDeltaBones0,
const matrix3x4_t *pDeltaBones1,
const matrix3x4_t *pCurrentBonePosition,
float dt,
bool bFixedConstraints )
{
ragdollparams_t params;
params.pGameData = static_cast<void *>( ent );
params.modelIndex = ent->GetModelIndex();
params.pCollide = modelinfo->GetVCollide( params.modelIndex );
params.pStudioHdr = pstudiohdr;
params.forceVector = forceVector;
params.forceBoneIndex = forceBone;
params.forcePosition.Init();
params.pCurrentBones = pCurrentBonePosition;
params.jointFrictionScale = 1.0;
params.allowStretch = false;
params.fixedConstraints = bFixedConstraints;
RagdollCreate( m_ragdoll, params, physenv );
ent->VPhysicsSetObject( NULL );
ent->VPhysicsSetObject( m_ragdoll.list[0].pObject );
// Mark the ragdoll as debris.
ent->SetCollisionGroup( COLLISION_GROUP_DEBRIS );
RagdollApplyAnimationAsVelocity( m_ragdoll, pDeltaBones0, pDeltaBones1, dt );
RagdollActivate( m_ragdoll, params.pCollide, ent->GetModelIndex() );
// It's moving now...
m_flLastOriginChangeTime = gpGlobals->curtime;
// So traces hit it.
ent->AddEFlags( EFL_USE_PARTITION_WHEN_NOT_SOLID );
if ( !m_ragdoll.listCount )
return;
BuildRagdollBounds( ent );
for ( int i = 0; i < m_ragdoll.listCount; i++ )
{
g_pPhysSaveRestoreManager->AssociateModel( m_ragdoll.list[i].pObject, ent->GetModelIndex() );
}
#if RAGDOLL_VISUALIZE
memcpy( m_savedBone1, &pDeltaBones0[0], sizeof(matrix3x4_t) * pstudiohdr->numbones() );
memcpy( m_savedBone2, &pDeltaBones1[0], sizeof(matrix3x4_t) * pstudiohdr->numbones() );
memcpy( m_savedBone3, &pCurrentBonePosition[0], sizeof(matrix3x4_t) * pstudiohdr->numbones() );
#endif
}
CRagdoll::~CRagdoll( void )
{
for ( int i = 0; i < m_ragdoll.listCount; i++ )
{
IPhysicsObject *pObject = m_ragdoll.list[i].pObject;
if ( pObject )
{
g_pPhysSaveRestoreManager->ForgetModel( m_ragdoll.list[i].pObject );
// Disable collision on all ragdoll parts before calling RagdollDestroy
// (which might cause touch callbacks on the ragdoll otherwise, which is
// very bad for a half deleted ragdoll).
pObject->EnableCollisions( false );
}
}
RagdollDestroy( m_ragdoll );
}
void CRagdoll::RagdollBone( C_BaseEntity *ent, mstudiobone_t *pbones, int boneCount, bool *boneSimulated, CBoneAccessor &pBoneToWorld )
{
for ( int i = 0; i < m_ragdoll.listCount; i++ )
{
if ( RagdollGetBoneMatrix( m_ragdoll, pBoneToWorld, i ) )
{
boneSimulated[m_ragdoll.boneIndex[i]] = true;
}
}
}
const Vector& CRagdoll::GetRagdollOrigin( )
{
m_ragdoll.list[0].pObject->GetPosition( &m_origin, 0 );
return m_origin;
}
void CRagdoll::GetRagdollBounds( Vector &theMins, Vector &theMaxs )
{
theMins = m_mins;
theMaxs = m_maxs;
}
void CRagdoll::VPhysicsUpdate( IPhysicsObject *pPhysics )
{
if ( m_lastUpdate == gpGlobals->curtime )
return;
m_lastUpdate = gpGlobals->curtime;
m_allAsleep = RagdollIsAsleep( m_ragdoll );
if ( m_allAsleep )
{
// NOTE: This is the bbox of the ragdoll's physics
// It's not always correct to use for culling, but it sure beats
// using the radius box!
Vector origin = GetRagdollOrigin();
RagdollComputeExactBbox( m_ragdoll, origin, m_mins, m_maxs );
m_mins -= origin;
m_maxs -= origin;
}
else
{
m_mins.Init(-m_radius,-m_radius,-m_radius);
m_maxs.Init(m_radius,m_radius,m_radius);
if ( m_ragdoll.pGroup->IsInErrorState() )
{
C_BaseEntity *pEntity = static_cast<C_BaseEntity *>(m_ragdoll.list[0].pObject->GetGameData());
RagdollSolveSeparation( m_ragdoll, pEntity );
}
}
// See if we should go to sleep...
CheckSettleStationaryRagdoll();
}
//=============================================================================
// HPE_BEGIN:
// [menglish] Transforms a vector from the given bone's space to world space
//=============================================================================
bool CRagdoll::TransformVectorToWorld(int iBoneIndex, const Vector *vPosition, Vector *vOut)
{
int listIndex = -1;
if( iBoneIndex >= 0 && iBoneIndex < m_ragdoll.listCount)
{
for ( int i = 0; i < m_ragdoll.listCount; ++i )
{
if(m_ragdoll.boneIndex[i] == iBoneIndex)
listIndex = i;
}
if(listIndex != -1)
{
m_ragdoll.list[listIndex].pObject->LocalToWorld(vOut, *vPosition);
return true;
}
}
return false;
}
//=============================================================================
// HPE_END
//=============================================================================
//-----------------------------------------------------------------------------
// Purpose:
// Input : -
//-----------------------------------------------------------------------------
void CRagdoll::PhysForceRagdollToSleep()
{
for ( int i = 0; i < m_ragdoll.listCount; i++ )
{
if ( m_ragdoll.list[i].pObject )
{
PhysForceClearVelocity( m_ragdoll.list[i].pObject );
m_ragdoll.list[i].pObject->Sleep();
}
}
}
#define RAGDOLL_SLEEP_TOLERANCE 1.0f
static ConVar ragdoll_sleepaftertime( "ragdoll_sleepaftertime", "5.0f", 0, "After this many seconds of being basically stationary, the ragdoll will go to sleep." );
void CRagdoll::CheckSettleStationaryRagdoll()
{
Vector delta = GetRagdollOrigin() - m_vecLastOrigin;
m_vecLastOrigin = GetRagdollOrigin();
for ( int i = 0; i < 3; ++i )
{
// It's still moving...
if ( fabs( delta[ i ] ) > RAGDOLL_SLEEP_TOLERANCE )
{
m_flLastOriginChangeTime = gpGlobals->curtime;
// Msg( "%d [%p] Still moving\n", gpGlobals->tickcount, this );
return;
}
}
// It's totally asleep, don't worry about forcing it to settle
if ( m_allAsleep )
return;
// Msg( "%d [%p] Settling\n", gpGlobals->tickcount, this );
// It has stopped moving, see if it
float dt = gpGlobals->curtime - m_flLastOriginChangeTime;
if ( dt < ragdoll_sleepaftertime.GetFloat() )
return;
// Msg( "%d [%p] FORCE SLEEP\n",gpGlobals->tickcount, this );
// Force it to go to sleep
PhysForceRagdollToSleep();
}
void CRagdoll::ResetRagdollSleepAfterTime( void )
{
m_flLastOriginChangeTime = gpGlobals->curtime;
}
void CRagdoll::DrawWireframe()
{
IMaterial *pWireframe = materials->FindMaterial("shadertest/wireframevertexcolor", TEXTURE_GROUP_OTHER);
int i;
matrix3x4_t matrix;
for ( i = 0; i < m_ragdoll.listCount; i++ )
{
static color32 debugColor = {0,255,255,0};
// draw the actual physics positions, not the cleaned up animation position
m_ragdoll.list[i].pObject->GetPositionMatrix( &matrix );
const CPhysCollide *pCollide = m_ragdoll.list[i].pObject->GetCollide();
engine->DebugDrawPhysCollide( pCollide, pWireframe, matrix, debugColor );
}
#if RAGDOLL_VISUALIZE
for ( i = 0; i < m_ragdoll.listCount; i++ )
{
static color32 debugColor = {255,0,0,0};
const CPhysCollide *pCollide = m_ragdoll.list[i].pObject->GetCollide();
engine->DebugDrawPhysCollide( pCollide, pWireframe, m_savedBone1[m_ragdoll.boneIndex[i]], debugColor );
}
for ( i = 0; i < m_ragdoll.listCount; i++ )
{
static color32 debugColor = {0,255,0,0};
const CPhysCollide *pCollide = m_ragdoll.list[i].pObject->GetCollide();
engine->DebugDrawPhysCollide( pCollide, pWireframe, m_savedBone2[m_ragdoll.boneIndex[i]], debugColor );
}
for ( i = 0; i < m_ragdoll.listCount; i++ )
{
static color32 debugColor = {0,0,255,0};
const CPhysCollide *pCollide = m_ragdoll.list[i].pObject->GetCollide();
engine->DebugDrawPhysCollide( pCollide, pWireframe, m_savedBone3[m_ragdoll.boneIndex[i]], debugColor );
}
#endif
}
CRagdoll *CreateRagdoll(
C_BaseEntity *ent,
CStudioHdr *pstudiohdr,
const Vector &forceVector,
int forceBone,
const matrix3x4_t *pDeltaBones0,
const matrix3x4_t *pDeltaBones1,
const matrix3x4_t *pCurrentBonePosition,
float dt,
bool bFixedConstraints )
{
CRagdoll *pRagdoll = new CRagdoll;
pRagdoll->Init( ent, pstudiohdr, forceVector, forceBone, pDeltaBones0, pDeltaBones1, pCurrentBonePosition, dt, bFixedConstraints );
if ( !pRagdoll->IsValid() )
{
Msg("Bad ragdoll for %s\n", pstudiohdr->pszName() );
delete pRagdoll;
pRagdoll = NULL;
}
return pRagdoll;
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
class C_ServerRagdoll : public C_BaseAnimating
{
public:
DECLARE_CLASS( C_ServerRagdoll, C_BaseAnimating );
DECLARE_CLIENTCLASS();
DECLARE_INTERPOLATION();
C_ServerRagdoll( void );
virtual void PostDataUpdate( DataUpdateType_t updateType );
virtual int InternalDrawModel( int flags );
virtual CStudioHdr *OnNewModel( void );
virtual unsigned char GetClientSideFade();
virtual void SetupWeights( const matrix3x4_t *pBoneToWorld, int nFlexWeightCount, float *pFlexWeights, float *pFlexDelayedWeights );
void GetRenderBounds( Vector& theMins, Vector& theMaxs );
virtual void AddEntity( void );
virtual void AccumulateLayers( IBoneSetup &boneSetup, Vector pos[], Quaternion q[], float currentTime );
virtual void BuildTransformations( CStudioHdr *pStudioHdr, Vector *pos, Quaternion q[], const matrix3x4_t &cameraTransform, int boneMask, CBoneBitList &boneComputed );
IPhysicsObject *GetElement( int elementNum );
virtual void UpdateOnRemove();
virtual float LastBoneChangedTime();
// Incoming from network
Vector m_ragPos[RAGDOLL_MAX_ELEMENTS];
QAngle m_ragAngles[RAGDOLL_MAX_ELEMENTS];
CInterpolatedVarArray< Vector, RAGDOLL_MAX_ELEMENTS > m_iv_ragPos;
CInterpolatedVarArray< QAngle, RAGDOLL_MAX_ELEMENTS > m_iv_ragAngles;
int m_elementCount;
int m_boneIndex[RAGDOLL_MAX_ELEMENTS];
private:
C_ServerRagdoll( const C_ServerRagdoll &src );
typedef CHandle<C_BaseAnimating> CBaseAnimatingHandle;
CNetworkVar( CBaseAnimatingHandle, m_hUnragdoll );
CNetworkVar( float, m_flBlendWeight );
float m_flBlendWeightCurrent;
CNetworkVar( int, m_nOverlaySequence );
float m_flLastBoneChangeTime;
};
EXTERN_RECV_TABLE(DT_Ragdoll);
IMPLEMENT_CLIENTCLASS_DT(C_ServerRagdoll, DT_Ragdoll, CRagdollProp)
RecvPropArray(RecvPropQAngles(RECVINFO(m_ragAngles[0])), m_ragAngles),
RecvPropArray(RecvPropVector(RECVINFO(m_ragPos[0])), m_ragPos),
RecvPropEHandle(RECVINFO(m_hUnragdoll)),
RecvPropFloat(RECVINFO(m_flBlendWeight)),
RecvPropInt(RECVINFO(m_nOverlaySequence)),
END_RECV_TABLE()
C_ServerRagdoll::C_ServerRagdoll( void ) :
m_iv_ragPos("C_ServerRagdoll::m_iv_ragPos"),
m_iv_ragAngles("C_ServerRagdoll::m_iv_ragAngles")
{
m_elementCount = 0;
m_flLastBoneChangeTime = -FLT_MAX;
AddVar( m_ragPos, &m_iv_ragPos, LATCH_SIMULATION_VAR );
AddVar( m_ragAngles, &m_iv_ragAngles, LATCH_SIMULATION_VAR );
m_flBlendWeight = 0.0f;
m_flBlendWeightCurrent = 0.0f;
m_nOverlaySequence = -1;
m_flFadeScale = 1;
}
void C_ServerRagdoll::PostDataUpdate( DataUpdateType_t updateType )
{
BaseClass::PostDataUpdate( updateType );
m_iv_ragPos.NoteChanged( gpGlobals->curtime, true );
m_iv_ragAngles.NoteChanged( gpGlobals->curtime, true );
// this is the local client time at which this update becomes stale
m_flLastBoneChangeTime = gpGlobals->curtime + GetInterpolationAmount(m_iv_ragPos.GetType());
}
float C_ServerRagdoll::LastBoneChangedTime()
{
return m_flLastBoneChangeTime;
}
int C_ServerRagdoll::InternalDrawModel( int flags )
{
int ret = BaseClass::InternalDrawModel( flags );
if ( vcollide_wireframe.GetBool() )
{
vcollide_t *pCollide = modelinfo->GetVCollide( GetModelIndex() );
IMaterial *pWireframe = materials->FindMaterial("shadertest/wireframevertexcolor", TEXTURE_GROUP_OTHER);
matrix3x4_t matrix;
for ( int i = 0; i < m_elementCount; i++ )
{
static color32 debugColor = {0,255,255,0};
AngleMatrix( m_ragAngles[i], m_ragPos[i], matrix );
engine->DebugDrawPhysCollide( pCollide->solids[i], pWireframe, matrix, debugColor );
}
}
return ret;
}
CStudioHdr *C_ServerRagdoll::OnNewModel( void )
{
CStudioHdr *hdr = BaseClass::OnNewModel();
if ( !m_elementCount )
{
vcollide_t *pCollide = modelinfo->GetVCollide( GetModelIndex() );
if ( !pCollide )
{
const char *pszName = modelinfo->GetModelName( modelinfo->GetModel( GetModelIndex() ) );
Msg( "*** ERROR: C_ServerRagdoll::InitModel: %s missing vcollide data ***\n", (pszName) ? pszName : "<null>" );
m_elementCount = 0;
}
else
{
m_elementCount = RagdollExtractBoneIndices( m_boneIndex, hdr, pCollide );
}
m_iv_ragPos.SetMaxCount( m_elementCount );
m_iv_ragAngles.SetMaxCount( m_elementCount );
}
return hdr;
}
//-----------------------------------------------------------------------------
// Purpose: clear out any face/eye values stored in the material system
//-----------------------------------------------------------------------------
void C_ServerRagdoll::SetupWeights( const matrix3x4_t *pBoneToWorld, int nFlexWeightCount, float *pFlexWeights, float *pFlexDelayedWeights )
{
BaseClass::SetupWeights( pBoneToWorld, nFlexWeightCount, pFlexWeights, pFlexDelayedWeights );
CStudioHdr *hdr = GetModelPtr();
if ( !hdr )
return;
int nFlexDescCount = hdr->numflexdesc();
if ( nFlexDescCount )
{
Assert( !pFlexDelayedWeights );
memset( pFlexWeights, 0, nFlexWeightCount * sizeof(float) );
}
if ( m_iEyeAttachment > 0 )
{
matrix3x4_t attToWorld;
if (GetAttachment( m_iEyeAttachment, attToWorld ))
{
Vector local, tmp;
local.Init( 1000.0f, 0.0f, 0.0f );
VectorTransform( local, attToWorld, tmp );
modelrender->SetViewTarget( GetModelPtr(), GetBody(), tmp );
}
}
}
void C_ServerRagdoll::GetRenderBounds( Vector& theMins, Vector& theMaxs )
{
if( !CollisionProp()->IsBoundsDefinedInEntitySpace() )
{
IRotateAABB( EntityToWorldTransform(), CollisionProp()->OBBMins(), CollisionProp()->OBBMaxs(), theMins, theMaxs );
}
else
{
theMins = CollisionProp()->OBBMins();
theMaxs = CollisionProp()->OBBMaxs();
}
}
void C_ServerRagdoll::AddEntity( void )
{
BaseClass::AddEntity();
// Move blend weight toward target over 0.2 seconds
m_flBlendWeightCurrent = Approach( m_flBlendWeight, m_flBlendWeightCurrent, gpGlobals->frametime * 5.0f );
}
void C_ServerRagdoll::AccumulateLayers( IBoneSetup &boneSetup, Vector pos[], Quaternion q[], float currentTime )
{
BaseClass::AccumulateLayers( boneSetup, pos, q, currentTime );
if ( m_nOverlaySequence >= 0 && m_nOverlaySequence < boneSetup.GetStudioHdr()->GetNumSeq() )
{
boneSetup.AccumulatePose( pos, q, m_nOverlaySequence, GetCycle(), m_flBlendWeightCurrent, currentTime, m_pIk );
}
}
void C_ServerRagdoll::BuildTransformations( CStudioHdr *hdr, Vector *pos, Quaternion q[], const matrix3x4_t &cameraTransform, int boneMask, CBoneBitList &boneComputed )
{
if ( !hdr )
return;
matrix3x4_t bonematrix;
bool boneSimulated[MAXSTUDIOBONES];
// no bones have been simulated
memset( boneSimulated, 0, sizeof(boneSimulated) );
mstudiobone_t *pbones = hdr->pBone( 0 );
mstudioseqdesc_t *pSeqDesc = NULL;
if ( m_nOverlaySequence >= 0 && m_nOverlaySequence < hdr->GetNumSeq() )
{
pSeqDesc = &hdr->pSeqdesc( m_nOverlaySequence );
}
int i;
for ( i = 0; i < m_elementCount; i++ )
{
int iBone = m_boneIndex[i];
if ( iBone >= 0 )
{
if ( hdr->boneFlags( iBone ) & boneMask )
{
boneSimulated[iBone] = true;
matrix3x4_t &matrix = GetBoneForWrite( iBone );
if ( m_flBlendWeightCurrent != 0.0f && pSeqDesc &&
// FIXME: this bone access is illegal
pSeqDesc->weight( iBone ) != 0.0f )
{
// Use the animated bone position instead
boneSimulated[iBone] = false;
}
else
{
AngleMatrix( m_ragAngles[i], m_ragPos[i], matrix );
}
}
}
}
for ( i = 0; i < hdr->numbones(); i++ )
{
if ( !( hdr->boneFlags( i ) & boneMask ) )
continue;
// BUGBUG: Merge this code with the code in c_baseanimating somehow!!!
// animate all non-simulated bones
if ( boneSimulated[i] ||
CalcProceduralBone( hdr, i, m_BoneAccessor ) )
{
continue;
}
else
{
QuaternionMatrix( q[i], pos[i], bonematrix );
if (pbones[i].parent == -1)
{
ConcatTransforms( cameraTransform, bonematrix, GetBoneForWrite( i ) );
}
else
{
ConcatTransforms( GetBone( pbones[i].parent ), bonematrix, GetBoneForWrite( i ) );
}
}
if ( pbones[i].parent == -1 )
{
// Apply client-side effects to the transformation matrix
// ApplyBoneMatrixTransform( GetBoneForWrite( i ) );
}
}
}
IPhysicsObject *C_ServerRagdoll::GetElement( int elementNum )
{
return NULL;
}
//-----------------------------------------------------------------------------
// Purpose:
// Output : virtual void
//-----------------------------------------------------------------------------
void C_ServerRagdoll::UpdateOnRemove()
{
C_BaseAnimating *anim = m_hUnragdoll.Get();
if ( NULL != anim &&
anim->GetModel() &&
( anim->GetModel() == GetModel() ) )
{
// Need to tell C_BaseAnimating to blend out of the ragdoll data that we received last
C_BaseAnimating::AutoAllowBoneAccess boneaccess( true, false );
anim->CreateUnragdollInfo( this );
}
// Do last to mimic destrictor order
BaseClass::UpdateOnRemove();
}
//-----------------------------------------------------------------------------
// Fade out
//-----------------------------------------------------------------------------
unsigned char C_ServerRagdoll::GetClientSideFade()
{
return UTIL_ComputeEntityFade( this, m_fadeMinDist, m_fadeMaxDist, m_flFadeScale );
}
static int GetHighestBit( int flags )
{
for ( int i = 31; i >= 0; --i )
{
if ( flags & (1<<i) )
return (1<<i);
}
return 0;
}
#define ATTACH_INTERP_TIME 0.2
class C_ServerRagdollAttached : public C_ServerRagdoll
{
DECLARE_CLASS( C_ServerRagdollAttached, C_ServerRagdoll );
public:
C_ServerRagdollAttached( void )
{
m_bHasParent = false;
m_vecOffset.Init();
}
DECLARE_CLIENTCLASS();
bool SetupBones( matrix3x4_t *pBoneToWorldOut, int nMaxBones, int boneMask, float currentTime )
{
if ( GetMoveParent() )
{
// HACKHACK: Force the attached bone to be set up
int iBone = m_boneIndex[m_ragdollAttachedObjectIndex];
int boneFlags = GetModelPtr()->boneFlags( iBone );
if ( !(boneFlags & boneMask) )
{
// BUGBUG: The attached bone is required and this call is going to skip it, so force it
// HACKHACK: Assume the highest bit numbered bone flag is the minimum bone set
boneMask |= GetHighestBit( boneFlags );
}
}
return BaseClass::SetupBones( pBoneToWorldOut, nMaxBones, boneMask, currentTime );
}
virtual void BuildTransformations( CStudioHdr *hdr, Vector *pos, Quaternion q[], const matrix3x4_t& cameraTransform, int boneMask, CBoneBitList &boneComputed )
{
VPROF_BUDGET( "C_ServerRagdollAttached::SetupBones", VPROF_BUDGETGROUP_CLIENT_ANIMATION );
if ( !hdr )
return;
float frac = RemapVal( gpGlobals->curtime, m_parentTime, m_parentTime+ATTACH_INTERP_TIME, 0, 1 );
frac = clamp( frac, 0.f, 1.f );
// interpolate offset over some time
Vector offset = m_vecOffset * (1-frac);
C_BaseAnimating *parent = assert_cast< C_BaseAnimating* >( GetMoveParent() );
Vector worldOrigin;
worldOrigin.Init();
if ( parent )
{
Assert( parent != this );
parent->SetupBones( NULL, -1, BONE_USED_BY_ANYTHING, gpGlobals->curtime );
matrix3x4_t boneToWorld;
parent->GetCachedBoneMatrix( m_boneIndexAttached, boneToWorld );
VectorTransform( m_attachmentPointBoneSpace, boneToWorld, worldOrigin );
}
BaseClass::BuildTransformations( hdr, pos, q, cameraTransform, boneMask, boneComputed );
if ( parent )
{
int iBone = m_boneIndex[m_ragdollAttachedObjectIndex];
const matrix3x4_t &matrix = GetBone( iBone );
Vector ragOrigin;
VectorTransform( m_attachmentPointRagdollSpace, matrix, ragOrigin );
offset = worldOrigin - ragOrigin;
// fixes culling
SetAbsOrigin( worldOrigin );
m_vecOffset = offset;
}
for ( int i = 0; i < hdr->numbones(); i++ )
{
if ( !( hdr->boneFlags( i ) & boneMask ) )
continue;
Vector vPos;
matrix3x4_t &matrix = GetBoneForWrite( i );
MatrixGetColumn( matrix, 3, vPos );
vPos += offset;
MatrixSetColumn( vPos, 3, matrix );
}
}
void OnDataChanged( DataUpdateType_t updateType );
virtual float LastBoneChangedTime() { return FLT_MAX; }
Vector m_attachmentPointBoneSpace;
Vector m_vecOffset;
Vector m_attachmentPointRagdollSpace;
int m_ragdollAttachedObjectIndex;
int m_boneIndexAttached;
float m_parentTime;
bool m_bHasParent;
private:
C_ServerRagdollAttached( const C_ServerRagdollAttached & );
};
EXTERN_RECV_TABLE(DT_Ragdoll_Attached);
IMPLEMENT_CLIENTCLASS_DT(C_ServerRagdollAttached, DT_Ragdoll_Attached, CRagdollPropAttached)
RecvPropInt( RECVINFO( m_boneIndexAttached ) ),
RecvPropInt( RECVINFO( m_ragdollAttachedObjectIndex ) ),
RecvPropVector(RECVINFO(m_attachmentPointBoneSpace) ),
RecvPropVector(RECVINFO(m_attachmentPointRagdollSpace) ),
END_RECV_TABLE()
void C_ServerRagdollAttached::OnDataChanged( DataUpdateType_t updateType )
{
BaseClass::OnDataChanged( updateType );
bool bParentNow = GetMoveParent() ? true : false;
if ( m_bHasParent != bParentNow )
{
if ( m_bHasParent )
{
m_parentTime = gpGlobals->curtime;
}
m_bHasParent = bParentNow;
}
}
struct ragdoll_remember_t
{
C_BaseEntity *ragdoll;
int tickCount;
};
struct ragdoll_memory_list_t
{
CUtlVector<ragdoll_remember_t> list;
int tickCount;
void Update()
{
if ( tickCount > gpGlobals->tickcount )
{
list.RemoveAll();
return;
}
for ( int i = list.Count()-1; i >= 0; --i )
{
if ( list[i].tickCount != gpGlobals->tickcount )
{
list.FastRemove(i);
}
}
}
bool IsInList( C_BaseEntity *pRagdoll )
{
for ( int i = list.Count()-1; i >= 0; --i )
{
if ( list[i].ragdoll == pRagdoll )
return true;
}
return false;
}
void AddToList( C_BaseEntity *pRagdoll )
{
Update();
int index = list.AddToTail();
list[index].ragdoll = pRagdoll;
list[index].tickCount = gpGlobals->tickcount;
}
};
static ragdoll_memory_list_t gRagdolls;
void NoteRagdollCreationTick( C_BaseEntity *pRagdoll )
{
gRagdolls.AddToList( pRagdoll );
}
// returns true if the ragdoll was created on this tick
bool WasRagdollCreatedOnCurrentTick( C_BaseEntity *pRagdoll )
{
gRagdolls.Update();
return gRagdolls.IsInList( pRagdoll );
}