void CRagdollProp::InitRagdoll( const Vector &forceVector, int forceBone, const Vector &forcePos, matrix3x4_t *pPrevBones, matrix3x4_t *pBoneToWorld, float dt, int collisionGroup, bool activateRagdoll )
{
SetCollisionGroup( collisionGroup );
if ( collisionGroup == COLLISION_GROUP_INTERACTIVE_DEBRIS )
{
SetThink( &CRagdollProp::SetDebrisThink );
SetNextThink( gpGlobals->curtime + 5 );
}
SetMoveType( MOVETYPE_VPHYSICS );
SetSolid( SOLID_VPHYSICS );
AddSolidFlags( FSOLID_CUSTOMRAYTEST | FSOLID_CUSTOMBOXTEST );
m_takedamage = DAMAGE_EVENTS_ONLY;
ragdollparams_t params;
params.pGameData = static_cast<void *>( static_cast<CBaseEntity *>(this) );
params.pCollide = modelinfo->GetVCollide( GetModelIndex() );
params.pStudioHdr = GetModelPtr();
params.forceVector = forceVector;
params.forceBoneIndex = forceBone;
params.forcePosition = forcePos;
params.pPrevBones = pPrevBones;
params.pCurrentBones = pBoneToWorld;
params.boneDt = dt;
params.jointFrictionScale = 1.0;
RagdollCreate( m_ragdoll, params, physcollision, physenv, physprops );
if ( activateRagdoll )
{
RagdollActivate( m_ragdoll );
}
for ( int i = 0; i < m_ragdoll.listCount; i++ )
{
UpdateNetworkDataFromVPhysics( m_ragdoll.list[i].pObject, i );
}
VPhysicsSetObject( m_ragdoll.list[0].pObject );
CalcRagdollSize();
}
void CRagdollProp::InitRagdoll( const Vector &forceVector, int forceBone, const Vector &forcePos, matrix3x4_t *pPrevBones, matrix3x4_t *pBoneToWorld, float dt, int collisionGroup, bool activateRagdoll )
{
SetCollisionGroup( collisionGroup );
// Make sure it's interactive debris for at most 5 seconds
if ( collisionGroup == COLLISION_GROUP_INTERACTIVE_DEBRIS )
{
SetContextThink( &CRagdollProp::SetDebrisThink, gpGlobals->curtime + 5, s_pDebrisContext );
}
SetMoveType( MOVETYPE_VPHYSICS );
SetSolid( SOLID_VPHYSICS );
AddSolidFlags( FSOLID_CUSTOMRAYTEST | FSOLID_CUSTOMBOXTEST );
m_takedamage = DAMAGE_EVENTS_ONLY;
ragdollparams_t params;
params.pGameData = static_cast<void *>( static_cast<CBaseEntity *>(this) );
params.modelIndex = GetModelIndex();
params.pCollide = modelinfo->GetVCollide( params.modelIndex );
params.pStudioHdr = GetModelPtr();
params.forceVector = forceVector;
params.forceBoneIndex = forceBone;
params.forcePosition = forcePos;
params.pPrevBones = pPrevBones;
params.pCurrentBones = pBoneToWorld;
params.boneDt = dt;
params.jointFrictionScale = 1.0;
RagdollCreate( m_ragdoll, params, physenv );
if ( m_anglesOverrideString != NULL_STRING && Q_strlen(m_anglesOverrideString.ToCStr()) > 0 )
{
char szToken[2048];
const char *pStr = nexttoken(szToken, STRING(m_anglesOverrideString), ',');
// anglesOverride is index,angles,index,angles (e.g. "1, 22.5 123.0 0.0, 2, 0 0 0, 3, 0 0 180.0")
while ( szToken[0] != 0 )
{
int objectIndex = atoi(szToken);
// sanity check to make sure this token is an integer
Assert( atof(szToken) == ((float)objectIndex) );
pStr = nexttoken(szToken, pStr, ',');
Assert( szToken[0] );
if ( objectIndex >= m_ragdoll.listCount )
{
Warning("Bad ragdoll pose in entity %s, model (%s) at %s, model changed?\n", GetDebugName(), GetModelName().ToCStr(), VecToString(GetAbsOrigin()) );
}
else if ( szToken[0] != 0 )
{
QAngle angles;
Assert( objectIndex >= 0 && objectIndex < RAGDOLL_MAX_ELEMENTS );
UTIL_StringToVector( angles.Base(), szToken );
int boneIndex = m_ragdoll.boneIndex[objectIndex];
AngleMatrix( angles, pBoneToWorld[boneIndex] );
const ragdollelement_t &element = m_ragdoll.list[objectIndex];
Vector out;
if ( element.parentIndex >= 0 )
{
int parentBoneIndex = m_ragdoll.boneIndex[element.parentIndex];
VectorTransform( element.originParentSpace, pBoneToWorld[parentBoneIndex], out );
}
else
{
out = GetAbsOrigin();
}
MatrixSetColumn( out, 3, pBoneToWorld[boneIndex] );
element.pObject->SetPositionMatrix( pBoneToWorld[boneIndex], true );
}
pStr = nexttoken(szToken, pStr, ',');
}
}
if ( activateRagdoll )
{
MEM_ALLOC_CREDIT();
RagdollActivate( m_ragdoll, params.pCollide, GetModelIndex() );
}
for ( int i = 0; i < m_ragdoll.listCount; i++ )
{
UpdateNetworkDataFromVPhysics( m_ragdoll.list[i].pObject, i );
g_pPhysSaveRestoreManager->AssociateModel( m_ragdoll.list[i].pObject, GetModelIndex() );
physcollision->CollideGetAABB( m_ragdollMins[i], m_ragdollMaxs[i], m_ragdoll.list[i].pObject->GetCollide(), vec3_origin, vec3_angle );
}
VPhysicsSetObject( m_ragdoll.list[0].pObject );
CalcRagdollSize();
}
