#include "../../idlib/precompiled.h" #pragma hdrstop #include "../Game_local.h" CLASS_DECLARATION( idPhysics, idPhysics_StaticMulti ) END_CLASS // RAVEN BEGIN // rjohnson: converted this from a struct to a class idStaticPState defaultState; // RAVEN END /* ================ idPhysics_StaticMulti::idPhysics_StaticMulti ================ */ idPhysics_StaticMulti::idPhysics_StaticMulti( void ) { self = NULL; hasMaster = false; isOrientated = false; defaultState.origin.Zero(); defaultState.axis.Identity(); defaultState.localOrigin.Zero(); defaultState.localAxis.Identity(); current.SetNum( 1 ); current[0] = defaultState; clipModels.SetNum( 1 ); clipModels[0] = NULL; } /* ================ idPhysics_StaticMulti::~idPhysics_StaticMulti ================ */ idPhysics_StaticMulti::~idPhysics_StaticMulti( void ) { if ( self && self->GetPhysics() == this ) { self->SetPhysics( NULL ); } idForce::DeletePhysics( this ); for ( int i = 0; i < clipModels.Num(); i++ ) { delete clipModels[i]; } } /* ================ idPhysics_StaticMulti::Save ================ */ void idPhysics_StaticMulti::Save( idSaveGame *savefile ) const { int i; savefile->WriteObject( self ); savefile->WriteInt(current.Num()); for ( i = 0; i < current.Num(); i++ ) { savefile->WriteVec3( current[i].origin ); savefile->WriteMat3( current[i].axis ); savefile->WriteVec3( current[i].localOrigin ); savefile->WriteMat3( current[i].localAxis ); } savefile->WriteInt( clipModels.Num() ); for ( i = 0; i < clipModels.Num(); i++ ) { savefile->WriteClipModel( clipModels[i] ); } savefile->WriteBool(hasMaster); savefile->WriteBool(isOrientated); } /* ================ idPhysics_StaticMulti::Restore ================ */ void idPhysics_StaticMulti::Restore( idRestoreGame *savefile ) { int i, num; savefile->ReadObject( reinterpret_cast( self ) ); savefile->ReadInt(num); current.AssureSize( num ); for ( i = 0; i < num; i++ ) { savefile->ReadVec3( current[i].origin ); savefile->ReadMat3( current[i].axis ); savefile->ReadVec3( current[i].localOrigin ); savefile->ReadMat3( current[i].localAxis ); } savefile->ReadInt(num); clipModels.SetNum( num ); for ( i = 0; i < num; i++ ) { savefile->ReadClipModel( clipModels[i] ); } savefile->ReadBool(hasMaster); savefile->ReadBool(isOrientated); } /* ================ idPhysics_StaticMulti::SetSelf ================ */ void idPhysics_StaticMulti::SetSelf( idEntity *e ) { assert( e ); self = e; } /* ================ idPhysics_StaticMulti::RemoveIndex ================ */ void idPhysics_StaticMulti::RemoveIndex( int id, bool freeClipModel ) { if ( id < 0 || id >= clipModels.Num() ) { return; } if ( clipModels[id] && freeClipModel ) { delete clipModels[id]; clipModels[id] = NULL; } clipModels.RemoveIndex( id ); current.RemoveIndex( id ); } /* ================ idPhysics_StaticMulti::SetClipModel ================ */ void idPhysics_StaticMulti::SetClipModel( idClipModel *model, float density, int id, bool freeOld ) { int i; assert( self ); if ( id >= clipModels.Num() ) { current.AssureSize( id+1, defaultState ); clipModels.AssureSize( id+1, NULL ); } if ( clipModels[id] && clipModels[id] != model && freeOld ) { delete clipModels[id]; } clipModels[id] = model; if ( clipModels[id] ) { // RAVEN BEGIN // ddynerman: multiple clip worlds clipModels[id]->Link( self, id, current[id].origin, current[id].axis ); // RAVEN END } for ( i = clipModels.Num() - 1; i >= 1; i-- ) { if ( clipModels[i] ) { break; } } current.SetNum( i+1, false ); clipModels.SetNum( i+1, false ); } /* ================ idPhysics_StaticMulti::GetClipModel ================ */ idClipModel *idPhysics_StaticMulti::GetClipModel( int id ) const { if ( id >= 0 && id < clipModels.Num() && clipModels[id] ) { return clipModels[id]; } // RAVEN BEGIN // ddynerman: multiple clip worlds return idClip::DefaultClipModel(); // RAVEN END } /* ================ idPhysics_StaticMulti::GetNumClipModels ================ */ int idPhysics_StaticMulti::GetNumClipModels( void ) const { return clipModels.Num(); } /* ================ idPhysics_StaticMulti::SetMass ================ */ void idPhysics_StaticMulti::SetMass( float mass, int id ) { } /* ================ idPhysics_StaticMulti::GetMass ================ */ float idPhysics_StaticMulti::GetMass( int id ) const { return 0.0f; } // RAVEN BEGIN // bdube: Added center mass call /* ================ idPhysics_StaticMulti::GetCenterMass default center of mass is origin ================ */ idVec3 idPhysics_StaticMulti::GetCenterMass ( int id ) const { return GetOrigin(); } // RAVEN END /* ================ idPhysics_StaticMulti::SetContents ================ */ void idPhysics_StaticMulti::SetContents( int contents, int id ) { int i; if ( id >= 0 && id < clipModels.Num() ) { if ( clipModels[id] ) { clipModels[id]->SetContents( contents ); } } else if ( id == -1 ) { for ( i = 0; i < clipModels.Num(); i++ ) { if ( clipModels[i] ) { clipModels[i]->SetContents( contents ); } } } } /* ================ idPhysics_StaticMulti::GetContents ================ */ int idPhysics_StaticMulti::GetContents( int id ) const { int i, contents = 0; if ( id >= 0 && id < clipModels.Num() ) { if ( clipModels[id] ) { contents = clipModels[id]->GetContents(); } } else if ( id == -1 ) { for ( i = 0; i < clipModels.Num(); i++ ) { if ( clipModels[i] ) { contents |= clipModels[i]->GetContents(); } } } return contents; } /* ================ idPhysics_StaticMulti::SetClipMask ================ */ void idPhysics_StaticMulti::SetClipMask( int mask, int id ) { } /* ================ idPhysics_StaticMulti::GetClipMask ================ */ int idPhysics_StaticMulti::GetClipMask( int id ) const { return 0; } /* ================ idPhysics_StaticMulti::GetBounds ================ */ const idBounds &idPhysics_StaticMulti::GetBounds( int id ) const { int i; static idBounds bounds; if ( id >= 0 && id < clipModels.Num() ) { if ( clipModels[id] ) { return clipModels[id]->GetBounds(); } } if ( id == -1 ) { bounds.Clear(); for ( i = 0; i < clipModels.Num(); i++ ) { if ( clipModels[i] ) { bounds.AddBounds( clipModels[i]->GetAbsBounds() ); } } for ( i = 0; i < clipModels.Num(); i++ ) { if ( clipModels[i] ) { bounds[0] -= clipModels[i]->GetOrigin(); bounds[1] -= clipModels[i]->GetOrigin(); break; } } return bounds; } return bounds_zero; } /* ================ idPhysics_StaticMulti::GetAbsBounds ================ */ const idBounds &idPhysics_StaticMulti::GetAbsBounds( int id ) const { int i; static idBounds absBounds; if ( id >= 0 && id < clipModels.Num() ) { if ( clipModels[id] ) { return clipModels[id]->GetAbsBounds(); } } if ( id == -1 ) { absBounds.Clear(); for ( i = 0; i < clipModels.Num(); i++ ) { if ( clipModels[i] ) { absBounds.AddBounds( clipModels[i]->GetAbsBounds() ); } } return absBounds; } return bounds_zero; } /* ================ idPhysics_StaticMulti::Evaluate ================ */ bool idPhysics_StaticMulti::Evaluate( int timeStepMSec, int endTimeMSec ) { int i; idVec3 masterOrigin; idMat3 masterAxis; if ( hasMaster ) { self->GetMasterPosition( masterOrigin, masterAxis ); for ( i = 0; i < clipModels.Num(); i++ ) { current[i].origin = masterOrigin + current[i].localOrigin * masterAxis; if ( isOrientated ) { current[i].axis = current[i].localAxis * masterAxis; } else { current[i].axis = current[i].localAxis; } if ( clipModels[i] ) { // RAVEN BEGIN // ddynerman: multiple clip worlds clipModels[i]->Link( self, i, current[i].origin, current[i].axis ); // RAVEN END } } // FIXME: return false if master did not move return true; } return false; } /* ================ idPhysics_StaticMulti::UpdateTime ================ */ void idPhysics_StaticMulti::UpdateTime( int endTimeMSec ) { } /* ================ idPhysics_StaticMulti::GetTime ================ */ int idPhysics_StaticMulti::GetTime( void ) const { return 0; } /* ================ idPhysics_StaticMulti::GetImpactInfo ================ */ void idPhysics_StaticMulti::GetImpactInfo( const int id, const idVec3 &point, impactInfo_t *info ) const { memset( info, 0, sizeof( *info ) ); } /* ================ idPhysics_StaticMulti::ApplyImpulse ================ */ void idPhysics_StaticMulti::ApplyImpulse( const int id, const idVec3 &point, const idVec3 &impulse ) { } /* ================ idPhysics_StaticMulti::AddForce ================ */ void idPhysics_StaticMulti::AddForce( const int id, const idVec3 &point, const idVec3 &force ) { } /* ================ idPhysics_StaticMulti::Activate ================ */ void idPhysics_StaticMulti::Activate( void ) { } /* ================ idPhysics_StaticMulti::PutToRest ================ */ void idPhysics_StaticMulti::PutToRest( void ) { } /* ================ idPhysics_StaticMulti::IsAtRest ================ */ bool idPhysics_StaticMulti::IsAtRest( void ) const { return true; } /* ================ idPhysics_StaticMulti::GetRestStartTime ================ */ int idPhysics_StaticMulti::GetRestStartTime( void ) const { return 0; } /* ================ idPhysics_StaticMulti::IsPushable ================ */ bool idPhysics_StaticMulti::IsPushable( void ) const { return false; } // RAVEN BEGIN // bdube: water interraction /* ================ idPhysics_StaticMulti::IsInWater ================ */ bool idPhysics_StaticMulti::IsInWater ( void ) const { return false; } // RAVEN END /* ================ idPhysics_StaticMulti::SaveState ================ */ void idPhysics_StaticMulti::SaveState( void ) { } /* ================ idPhysics_StaticMulti::RestoreState ================ */ void idPhysics_StaticMulti::RestoreState( void ) { } /* ================ idPhysics_StaticMulti::SetOrigin ================ */ void idPhysics_StaticMulti::SetOrigin( const idVec3 &newOrigin, int id ) { idVec3 masterOrigin; idMat3 masterAxis; if ( id >= 0 && id < clipModels.Num() ) { current[id].localOrigin = newOrigin; if ( hasMaster ) { self->GetMasterPosition( masterOrigin, masterAxis ); current[id].origin = masterOrigin + newOrigin * masterAxis; } else { current[id].origin = newOrigin; } if ( clipModels[id] ) { // RAVEN BEGIN // ddynerman: multiple clip worlds clipModels[id]->Link( self, id, current[id].origin, current[id].axis ); // RAVEN END } } else if ( id == -1 ) { if ( hasMaster ) { self->GetMasterPosition( masterOrigin, masterAxis ); Translate( masterOrigin + masterAxis * newOrigin - current[0].origin ); } else { Translate( newOrigin - current[0].origin ); } } } /* ================ idPhysics_StaticMulti::SetAxis ================ */ void idPhysics_StaticMulti::SetAxis( const idMat3 &newAxis, int id ) { idVec3 masterOrigin; idMat3 masterAxis; if ( id >= 0 && id < clipModels.Num() ) { current[id].localAxis = newAxis; if ( hasMaster && isOrientated ) { self->GetMasterPosition( masterOrigin, masterAxis ); current[id].axis = newAxis * masterAxis; } else { current[id].axis = newAxis; } if ( clipModels[id] ) { // RAVEN BEGIN // ddynerman: multiple clip worlds clipModels[id]->Link( self, id, current[id].origin, current[id].axis ); // RAVEN END } } else if ( id == -1 ) { idMat3 axis; idRotation rotation; if ( hasMaster ) { self->GetMasterPosition( masterOrigin, masterAxis ); axis = current[0].axis.Transpose() * ( newAxis * masterAxis ); } else { axis = current[0].axis.Transpose() * newAxis; } rotation = axis.ToRotation(); rotation.SetOrigin( current[0].origin ); Rotate( rotation ); } } /* ================ idPhysics_StaticMulti::Translate ================ */ void idPhysics_StaticMulti::Translate( const idVec3 &translation, int id ) { int i; if ( id >= 0 && id < clipModels.Num() ) { current[id].localOrigin += translation; current[id].origin += translation; if ( clipModels[id] ) { // RAVEN BEGIN // ddynerman: multiple clip worlds clipModels[id]->Link( self, id, current[id].origin, current[id].axis ); // RAVEN END } } else if ( id == -1 ) { for ( i = 0; i < clipModels.Num(); i++ ) { current[i].localOrigin += translation; current[i].origin += translation; if ( clipModels[i] ) { // RAVEN BEGIN // ddynerman: multiple clip worlds clipModels[i]->Link( self, i, current[i].origin, current[i].axis ); // RAVEN END } } } } /* ================ idPhysics_StaticMulti::Rotate ================ */ void idPhysics_StaticMulti::Rotate( const idRotation &rotation, int id ) { int i; idVec3 masterOrigin; idMat3 masterAxis; if ( id >= 0 && id < clipModels.Num() ) { current[id].origin *= rotation; current[id].axis *= rotation.ToMat3(); if ( hasMaster ) { self->GetMasterPosition( masterOrigin, masterAxis ); current[id].localAxis *= rotation.ToMat3(); current[id].localOrigin = ( current[id].origin - masterOrigin ) * masterAxis.Transpose(); } else { current[id].localAxis = current[id].axis; current[id].localOrigin = current[id].origin; } if ( clipModels[id] ) { // RAVEN BEGIN // ddynerman: multiple clip worlds clipModels[id]->Link( self, id, current[id].origin, current[id].axis ); // RAVEN END } } else if ( id == -1 ) { for ( i = 0; i < clipModels.Num(); i++ ) { current[i].origin *= rotation; current[i].axis *= rotation.ToMat3(); if ( hasMaster ) { self->GetMasterPosition( masterOrigin, masterAxis ); current[i].localAxis *= rotation.ToMat3(); current[i].localOrigin = ( current[i].origin - masterOrigin ) * masterAxis.Transpose(); } else { current[i].localAxis = current[i].axis; current[i].localOrigin = current[i].origin; } if ( clipModels[i] ) { // RAVEN BEGIN // ddynerman: multiple clip worlds clipModels[i]->Link( self, i, current[i].origin, current[i].axis ); // RAVEN END } } } } /* ================ idPhysics_StaticMulti::GetOrigin ================ */ const idVec3 &idPhysics_StaticMulti::GetOrigin( int id ) const { if ( id >= 0 && id < clipModels.Num() ) { return current[id].origin; } if ( clipModels.Num() ) { return current[0].origin; } else { return vec3_origin; } } /* ================ idPhysics_StaticMulti::GetAxis ================ */ const idMat3 &idPhysics_StaticMulti::GetAxis( int id ) const { if ( id >= 0 && id < clipModels.Num() ) { return current[id].axis; } if ( clipModels.Num() ) { return current[0].axis; } else { return mat3_identity; } } /* ================ idPhysics_StaticMulti::SetLinearVelocity ================ */ void idPhysics_StaticMulti::SetLinearVelocity( const idVec3 &newLinearVelocity, int id ) { } /* ================ idPhysics_StaticMulti::SetAngularVelocity ================ */ void idPhysics_StaticMulti::SetAngularVelocity( const idVec3 &newAngularVelocity, int id ) { } /* ================ idPhysics_StaticMulti::GetLinearVelocity ================ */ const idVec3 &idPhysics_StaticMulti::GetLinearVelocity( int id ) const { return vec3_origin; } /* ================ idPhysics_StaticMulti::GetAngularVelocity ================ */ const idVec3 &idPhysics_StaticMulti::GetAngularVelocity( int id ) const { return vec3_origin; } /* ================ idPhysics_StaticMulti::SetGravity ================ */ void idPhysics_StaticMulti::SetGravity( const idVec3 &newGravity ) { } /* ================ idPhysics_StaticMulti::GetGravity ================ */ const idVec3 &idPhysics_StaticMulti::GetGravity( void ) const { static idVec3 gravity( 0, 0, -g_gravity.GetFloat() ); if( gameLocal.isMultiplayer ) { gravity = idVec3( 0, 0, -g_mp_gravity.GetFloat() ); } return gravity; } /* ================ idPhysics_StaticMulti::GetGravityNormal ================ */ const idVec3 &idPhysics_StaticMulti::GetGravityNormal( void ) const { static idVec3 gravity( 0, 0, -1 ); return gravity; } /* ================ idPhysics_StaticMulti::ClipTranslation ================ */ void idPhysics_StaticMulti::ClipTranslation( trace_t &results, const idVec3 &translation, const idClipModel *model ) const { memset( &results, 0, sizeof( trace_t ) ); gameLocal.Warning( "idPhysics_StaticMulti::ClipTranslation called" ); } /* ================ idPhysics_StaticMulti::ClipRotation ================ */ void idPhysics_StaticMulti::ClipRotation( trace_t &results, const idRotation &rotation, const idClipModel *model ) const { memset( &results, 0, sizeof( trace_t ) ); gameLocal.Warning( "idPhysics_StaticMulti::ClipRotation called" ); } /* ================ idPhysics_StaticMulti::ClipContents ================ */ int idPhysics_StaticMulti::ClipContents( const idClipModel *model ) const { int i, contents; contents = 0; for ( i = 0; i < clipModels.Num(); i++ ) { if ( clipModels[i] ) { if ( model ) { // RAVEN BEGIN // ddynerman: multiple collision worlds contents |= gameLocal.ContentsModel( self, clipModels[i]->GetOrigin(), clipModels[i], clipModels[i]->GetAxis(), -1, model->GetCollisionModel(), model->GetOrigin(), model->GetAxis() ); } else { contents |= gameLocal.Contents( self, clipModels[i]->GetOrigin(), clipModels[i], clipModels[i]->GetAxis(), -1, NULL ); // RAVEN END } } } return contents; } /* ================ idPhysics_StaticMulti::DisableClip ================ */ void idPhysics_StaticMulti::DisableClip( void ) { int i; for ( i = 0; i < clipModels.Num(); i++ ) { if ( clipModels[i] ) { clipModels[i]->Disable(); } } } /* ================ idPhysics_StaticMulti::EnableClip ================ */ void idPhysics_StaticMulti::EnableClip( void ) { int i; for ( i = 0; i < clipModels.Num(); i++ ) { if ( clipModels[i] ) { clipModels[i]->Enable(); } } } /* ================ idPhysics_StaticMulti::UnlinkClip ================ */ void idPhysics_StaticMulti::UnlinkClip( void ) { int i; for ( i = 0; i < clipModels.Num(); i++ ) { if ( clipModels[i] ) { clipModels[i]->Unlink(); } } } /* ================ idPhysics_StaticMulti::LinkClip ================ */ void idPhysics_StaticMulti::LinkClip( void ) { int i; for ( i = 0; i < clipModels.Num(); i++ ) { if ( clipModels[i] ) { // RAVEN BEGIN // ddynerman: multiple clip worlds clipModels[i]->Link( self, i, current[i].origin, current[i].axis ); // RAVEN END } } } /* ================ idPhysics_StaticMulti::EvaluateContacts ================ */ bool idPhysics_StaticMulti::EvaluateContacts( void ) { return false; } /* ================ idPhysics_StaticMulti::GetNumContacts ================ */ int idPhysics_StaticMulti::GetNumContacts( void ) const { return 0; } /* ================ idPhysics_StaticMulti::GetContact ================ */ const contactInfo_t &idPhysics_StaticMulti::GetContact( int num ) const { static contactInfo_t info; memset( &info, 0, sizeof( info ) ); return info; } /* ================ idPhysics_StaticMulti::ClearContacts ================ */ void idPhysics_StaticMulti::ClearContacts( void ) { } /* ================ idPhysics_StaticMulti::AddContactEntity ================ */ void idPhysics_StaticMulti::AddContactEntity( idEntity *e ) { } /* ================ idPhysics_StaticMulti::RemoveContactEntity ================ */ void idPhysics_StaticMulti::RemoveContactEntity( idEntity *e ) { } /* ================ idPhysics_StaticMulti::HasGroundContacts ================ */ bool idPhysics_StaticMulti::HasGroundContacts( void ) const { return false; } /* ================ idPhysics_StaticMulti::IsGroundEntity ================ */ bool idPhysics_StaticMulti::IsGroundEntity( int entityNum ) const { return false; } /* ================ idPhysics_StaticMulti::IsGroundClipModel ================ */ bool idPhysics_StaticMulti::IsGroundClipModel( int entityNum, int id ) const { return false; } /* ================ idPhysics_StaticMulti::SetPushed ================ */ void idPhysics_StaticMulti::SetPushed( int deltaTime ) { } /* ================ idPhysics_StaticMulti::GetPushedLinearVelocity ================ */ const idVec3 &idPhysics_StaticMulti::GetPushedLinearVelocity( const int id ) const { return vec3_origin; } /* ================ idPhysics_StaticMulti::GetPushedAngularVelocity ================ */ const idVec3 &idPhysics_StaticMulti::GetPushedAngularVelocity( const int id ) const { return vec3_origin; } /* ================ idPhysics_StaticMulti::SetMaster ================ */ void idPhysics_StaticMulti::SetMaster( idEntity *master, const bool orientated ) { int i; idVec3 masterOrigin; idMat3 masterAxis; if ( master ) { if ( !hasMaster ) { // transform from world space to master space self->GetMasterPosition( masterOrigin, masterAxis ); for ( i = 0; i < clipModels.Num(); i++ ) { current[i].localOrigin = ( current[i].origin - masterOrigin ) * masterAxis.Transpose(); if ( orientated ) { current[i].localAxis = current[i].axis * masterAxis.Transpose(); } else { current[i].localAxis = current[i].axis; } } hasMaster = true; isOrientated = orientated; } } else { if ( hasMaster ) { hasMaster = false; } } } /* ================ idPhysics_StaticMulti::GetBlockingInfo ================ */ const trace_t *idPhysics_StaticMulti::GetBlockingInfo( void ) const { return NULL; } /* ================ idPhysics_StaticMulti::GetBlockingEntity ================ */ idEntity *idPhysics_StaticMulti::GetBlockingEntity( void ) const { return NULL; } /* ================ idPhysics_StaticMulti::GetLinearEndTime ================ */ int idPhysics_StaticMulti::GetLinearEndTime( void ) const { return 0; } /* ================ idPhysics_StaticMulti::GetAngularEndTime ================ */ int idPhysics_StaticMulti::GetAngularEndTime( void ) const { return 0; } /* ================ idPhysics_StaticMulti::WriteToSnapshot ================ */ void idPhysics_StaticMulti::WriteToSnapshot( idBitMsgDelta &msg ) const { int i; idCQuat quat, localQuat; // TODO: Check that this conditional write to delta message is OK msg.WriteByte( current.Num() ); for ( i = 0; i < current.Num(); i++ ) { quat = current[i].axis.ToCQuat(); localQuat = current[i].localAxis.ToCQuat(); msg.WriteFloat( current[i].origin[0] ); msg.WriteFloat( current[i].origin[1] ); msg.WriteFloat( current[i].origin[2] ); msg.WriteFloat( quat.x ); msg.WriteFloat( quat.y ); msg.WriteFloat( quat.z ); msg.WriteDeltaFloat( current[i].origin[0], current[i].localOrigin[0] ); msg.WriteDeltaFloat( current[i].origin[1], current[i].localOrigin[1] ); msg.WriteDeltaFloat( current[i].origin[2], current[i].localOrigin[2] ); msg.WriteDeltaFloat( quat.x, localQuat.x ); msg.WriteDeltaFloat( quat.y, localQuat.y ); msg.WriteDeltaFloat( quat.z, localQuat.z ); } } /* ================ idPhysics_StaticMulti::ReadFromSnapshot ================ */ void idPhysics_StaticMulti::ReadFromSnapshot( const idBitMsgDelta &msg ) { int i, num; idCQuat quat, localQuat; num = msg.ReadByte(); assert( num == current.Num() ); for ( i = 0; i < current.Num(); i++ ) { current[i].origin[0] = msg.ReadFloat(); current[i].origin[1] = msg.ReadFloat(); current[i].origin[2] = msg.ReadFloat(); quat.x = msg.ReadFloat(); quat.y = msg.ReadFloat(); quat.z = msg.ReadFloat(); current[i].localOrigin[0] = msg.ReadDeltaFloat( current[i].origin[0] ); current[i].localOrigin[1] = msg.ReadDeltaFloat( current[i].origin[1] ); current[i].localOrigin[2] = msg.ReadDeltaFloat( current[i].origin[2] ); localQuat.x = msg.ReadDeltaFloat( quat.x ); localQuat.y = msg.ReadDeltaFloat( quat.y ); localQuat.z = msg.ReadDeltaFloat( quat.z ); current[i].axis = quat.ToMat3(); current[i].localAxis = localQuat.ToMat3(); } }