void plPXPhysical::SetSyncState(hsPoint3* pos, hsQuat* rot, hsVector3* linV, hsVector3* angV)
{
bool isLoading = plNetClientApp::GetInstance()->IsLoadingInitialAgeState();
bool isFirstIn = plNetClientApp::GetInstance()->GetJoinOrder() == 0;
bool initialSync = isLoading && isFirstIn;
// If the physical has fallen out of the sim, and this is initial age state, and we're
// the first person in, reset it to the original position. (ie, prop the default state
// we've got right now)
if (pos && pos->fZ < kMaxNegativeZPos && initialSync)
{
SimLog("Physical %s loaded out of range state. Forcing initial state to server.", GetKeyName().c_str());
DirtySynchState(kSDLPhysical, plSynchedObject::kBCastToClients);
return;
}
if (pos)
ISetPositionSim(*pos);
if (rot)
ISetRotationSim(*rot);
if (linV)
SetLinearVelocitySim(*linV);
if (angV)
SetAngularVelocitySim(*angV);
// If we're loading the age, then we should ensure the objects
// stay asleep if they're supposed to be asleep.
if (isLoading && GetProperty(plSimulationInterface::kStartInactive) && !fActor->readBodyFlag(NX_BF_KINEMATIC))
fActor->putToSleep();
SendNewLocation(false, true);
}
void plResponderModifier::IFastForward(bool python)
{
ResponderLog(ILog(plStatusLog::kGreen, "Fast Forward"));
fCurCommand = 0;
plResponderState& state = fStates[fCurState];
while (fCurCommand < state.fCmds.Count())
{
plMessage *msg = state.fCmds[fCurCommand].fMsg;
msg = IGetFastForwardMsg(msg, python);
if (msg)
plgDispatch::MsgSend(msg);
fCurCommand++;
}
ResponderLog(ILog(plStatusLog::kGreen, "Reset"));
fCurCommand = -1;
ISetResponderState(state.fSwitchToState);
plSynchEnabler enable(true);
DirtySynchState(kSDLResponder, 0);
}
void plResponderModifier::Trigger(plNotifyMsg *msg)
{
#if 0
plNetClientApp::GetInstance()->DebugMsg("RM: Responder {} is triggering, num cmds={}, enabled={}, curCmd={}, t={f}\n",
GetKeyName(), fStates[fCurState].fCmds.GetCount(),
fEnabled, fCurCommand, hsTimer::GetSysSeconds());
#endif
// If we're not in the middle of sending, reset and start sending commands
if (fCurCommand == int8_t(-1) && fEnabled)
{
ResponderLog(ILog(plStatusLog::kGreen, "Trigger"));
fNotifyMsgFlags = msg->GetAllBCastFlags();
fTriggerer = msg->GetSender();
fPlayerKey = msg->GetAvatarKey();
ISetResponderStateFromNotify(msg);
proCollisionEventData *cEvent = (proCollisionEventData *)msg->FindEventRecord(proEventData::kCollision);
fEnter = (cEvent ? cEvent->fEnter : false);
fCompletedEvents.Reset();
fCurCommand = 0;
DirtySynchState(kSDLResponder, 0);
IContinueSending();
}
else
{
ResponderLog(ILog(plStatusLog::kRed, "Rejected Trigger, %s", !fEnabled ? "responder disabled" : "responder is running"));
}
}
// Called after the simulation has run....sends new positions to the various scene objects
// *** want to do this in response to an update message....
void plPXPhysical::SendNewLocation(bool synchTransform, bool isSynchUpdate)
{
// we only send if:
// - the body is active or forceUpdate is on
// - the mass is non-zero
// - the physical is not passive
bool bodyActive = !fActor->isSleeping();
bool dynamic = fActor->isDynamic();
if ((bodyActive || isSynchUpdate) && dynamic)// && fInitialTransform)
{
plProfile_Inc(MaySendLocation);
if (!GetProperty(plSimulationInterface::kPassive))
{
hsMatrix44 curl2w = fCachedLocal2World;
// we're going to cache the transform before sending so we can recognize if it comes back
IGetTransformGlobal(fCachedLocal2World);
if (!CompareMatrices(curl2w, fCachedLocal2World, .0001f))
{
plProfile_Inc(LocationsSent);
plProfile_BeginLap(PhysicsUpdates, GetKeyName().c_str());
// quick peek at the translation...last time it was corrupted because we applied a non-unit quaternion
// hsAssert(real_finite(fCachedLocal2World.fMap[0][3]) &&
// real_finite(fCachedLocal2World.fMap[1][3]) &&
// real_finite(fCachedLocal2World.fMap[2][3]), "Bad transform outgoing");
if (fCachedLocal2World.GetTranslate().fZ < kMaxNegativeZPos)
{
SimLog("Physical %s fell to %.1f (%.1f is the max). Suppressing.", GetKeyName().c_str(), fCachedLocal2World.GetTranslate().fZ, kMaxNegativeZPos);
// Since this has probably been falling for a while, and thus not getting any syncs,
// make sure to save it's current pos so we'll know to reset it later
DirtySynchState(kSDLPhysical, plSynchedObject::kBCastToClients);
IEnable(false);
}
hsMatrix44 w2l;
fCachedLocal2World.GetInverse(&w2l);
plCorrectionMsg *pCorrMsg = new plCorrectionMsg(GetObjectKey(), fCachedLocal2World, w2l, synchTransform);
pCorrMsg->Send();
if (fProxyGen)
fProxyGen->SetTransform(fCachedLocal2World, w2l);
plProfile_EndLap(PhysicsUpdates, GetKeyName().c_str());
}
}
}
}
bool plLayerAnimation::MsgReceive(plMessage* msg)
{
// pass sdl msg to sdlMod
plSDLModifierMsg* sdlMsg = plSDLModifierMsg::ConvertNoRef(msg);
if (sdlMsg && fLayerSDLMod)
{
if (fLayerSDLMod->MsgReceive(sdlMsg))
return true; // msg handled
}
bool retVal = false;
plAnimCmdMsg* cmdMsg = plAnimCmdMsg::ConvertNoRef(msg);
if( cmdMsg )
{
// Evaluate first, so we'll be transitioning from our
// real current state, whether we've been evaluated (in view)
// lately or not.
TopOfStack()->Eval(hsTimer::GetSysSeconds(), 0, 0);
retVal = fTimeConvert.HandleCmd(cmdMsg);
DirtySynchState(kSDLLayer, 0);
}
if( retVal )
{
if( !fTimeConvert.IsStopped() || fTimeConvert.GetFlag(plAnimTimeConvert::kForcedMove) )
{
ClaimChannels(fOwnedChannels);
fCurrentTime = -1.f; // force an eval
}
}
else
{
retVal = plLayerAnimationBase::MsgReceive(msg);
}
return retVal;
}
bool plResponderModifier::IContinueSending()
{
// If we haven't been started, exit
if (fCurCommand == int8_t(-1))
return false;
plResponderState& state = fStates[fCurState];
while (fCurCommand < state.fCmds.Count())
{
plMessage *msg = state.fCmds[fCurCommand].fMsg;
if (msg)
{
// If this command needs to wait, and it's condition hasn't been met yet, exit
int8_t wait = state.fCmds[fCurCommand].fWaitOn;
if (wait != -1 && !fCompletedEvents.IsBitSet(wait))
{
ResponderLog(ILog(plStatusLog::kWhite, "Command %d is waiting for command %d(id:%d)", int8_t(fCurCommand)+1, ICmdFromWait(wait)+1, wait));
return false;
}
if (!(fNotifyMsgFlags & plMessage::kNetNonLocal)|| !IIsLocalOnlyCmd(msg))
{
// make sure outgoing msgs inherit net flags as part of cascade
uint32_t msgFlags = msg->GetAllBCastFlags();
plNetClientApp::InheritNetMsgFlags(fNotifyMsgFlags, &msgFlags, true);
msg->SetAllBCastFlags(msgFlags);
// If this is a responder message, let it know which player triggered this
if (plResponderMsg* responderMsg = plResponderMsg::ConvertNoRef(msg))
{
responderMsg->fPlayerKey = fPlayerKey;
}
else if (plNotifyMsg* notifyMsg = plNotifyMsg::ConvertNoRef(msg))
{
bool foundCollision = false;
// If we find a collision event, this message is meant to trigger a multistage
for (int i = 0; i < notifyMsg->GetEventCount(); i++)
{
proEventData* event = notifyMsg->GetEventRecord(i);
if (event->fEventType == proEventData::kCollision)
{
proCollisionEventData* collisionEvent = (proCollisionEventData*)event;
collisionEvent->fHitter = fPlayerKey;
foundCollision = true;
}
}
// No collision event, this message is for notifying the triggerer
if (!foundCollision)
{
notifyMsg->ClearReceivers();
notifyMsg->AddReceiver(fTriggerer);
}
notifyMsg->SetSender(GetKey());
}
else if (plLinkToAgeMsg* linkMsg = plLinkToAgeMsg::ConvertNoRef(msg))
{
if (linkMsg->GetNumReceivers() == 0)
{
plUoid netUoid(kNetClientMgr_KEY);
plKey netKey = hsgResMgr::ResMgr()->FindKey(netUoid);
hsAssert(netKey,"NetClientMgr not found");
linkMsg->AddReceiver(netKey);
}
}
else if (plArmatureEffectStateMsg* stateMsg = plArmatureEffectStateMsg::ConvertNoRef(msg))
{
stateMsg->ClearReceivers();
stateMsg->AddReceiver(fPlayerKey);
stateMsg->fAddSurface = fEnter;
}
else if (plSubWorldMsg* swMsg = plSubWorldMsg::ConvertNoRef(msg))
{
plArmatureMod *avatar = plAvatarMgr::GetInstance()->GetLocalAvatar();
if(avatar)
{
swMsg->AddReceiver(avatar->GetKey());
}
}
// If we're in anim debug mode, check if this is an anim play
// message so we can put up the cue
if (fDebugAnimBox)
{
plAnimCmdMsg* animMsg = plAnimCmdMsg::ConvertNoRef(msg);
if (animMsg && animMsg->Cmd(plAnimCmdMsg::kContinue))
IDebugPlayMsg(animMsg);
}
if (plTimerCallbackMsg *timerMsg = plTimerCallbackMsg::ConvertNoRef(msg))
{
hsRefCnt_SafeRef(timerMsg);
plgTimerCallbackMgr::NewTimer(timerMsg->fTime, timerMsg);
}
else
{
hsRefCnt_SafeRef(msg);
plgDispatch::MsgSend(msg);
}
}
}
fCurCommand++;
DirtySynchState(kSDLResponder, 0);
}
// Make sure all callbacks we need to wait on are done before allowing a state switch or restart
for (int i = 0; i < state.fNumCallbacks; i++)
{
if (!fCompletedEvents.IsBitSet(i))
{
ResponderLog(ILog(plStatusLog::kWhite, "Can't reset, waiting for command %d(id:%d)", ICmdFromWait(i)+1, i));
return false;
}
}
ResponderLog(ILog(plStatusLog::kGreen, "Reset"));
fCurCommand = -1;
ISetResponderState(state.fSwitchToState);
DirtySynchState(kSDLResponder, 0);
return true;
}
bool plResponderModifier::MsgReceive(plMessage* msg)
{
plNotifyMsg* pNMsg = plNotifyMsg::ConvertNoRef(msg);
if (pNMsg)
{
if (pNMsg->fType == plNotifyMsg::kResponderFF)
{
ISetResponderStateFromNotify(pNMsg);
IFastForward(true);
}
else if (pNMsg->fType == plNotifyMsg::kResponderChangeState)
{
ISetResponderStateFromNotify(pNMsg);
DirtySynchState(kSDLResponder, 0);
}
else
{
// assumes state of 0 means untriggered and state of 1 is triggered
if ((pNMsg->fState != 0 && (fFlags & kDetectTrigger)) ||
(pNMsg->fState == 0 && (fFlags & kDetectUnTrigger)))
{
Trigger(pNMsg);
DirtySynchState(kSDLResponder, 0);
}
}
return true;
}
plResponderEnableMsg *pEnableMsg = plResponderEnableMsg::ConvertNoRef(msg);
if (pEnableMsg)
{
fEnabled = pEnableMsg->fEnable;
DirtySynchState(kSDLResponder, 0);
return true;
}
plEventCallbackMsg *pEventMsg = plEventCallbackMsg::ConvertNoRef(msg);
plTimerCallbackMsg *timerMsg = plTimerCallbackMsg::ConvertNoRef(msg);
if (pEventMsg || timerMsg)
{
uint32_t waitID = pEventMsg ? pEventMsg->fUser : timerMsg->fID;
if (waitID != -1)
{
// Flag that this callback completed and try sending in case any commands were waiting on this
fCompletedEvents.SetBit(waitID);
ResponderLog(ILog(plStatusLog::kWhite, "Got callback from command %d(id:%d)", ICmdFromWait((int8_t)waitID)+1, waitID));
IContinueSending();
DirtySynchState(kSDLResponder, 0);
}
// The is one of the stop callbacks we generated for debug mode
else if (fDebugAnimBox)
IDebugAnimBox(false);
return true;
}
// pass sdl msg to sdlMod
plSDLModifierMsg* sdlMsg = plSDLModifierMsg::ConvertNoRef(msg);
if (sdlMsg && fResponderSDLMod)
{
if (fResponderSDLMod->MsgReceive(sdlMsg))
return true; // msg handled
}
return plSingleModifier::MsgReceive(msg);
}
