// Since the modelviewmatrix is updated in the update, and flowgraph is updated in the preupdate, we need this postupdate
virtual void OnPostUpdate(float fDeltaTime)
{
int invMouseY = gEnv->pRenderer->GetHeight() - m_mouseY;
Vec3 vPos0(0,0,0);
gEnv->pRenderer->UnProjectFromScreen((float)m_mouseX, (float)invMouseY, 0, &vPos0.x, &vPos0.y, &vPos0.z);
Vec3 vPos1(0,0,0);
gEnv->pRenderer->UnProjectFromScreen((float)m_mouseX, (float)invMouseY, 1, &vPos1.x, &vPos1.y, &vPos1.z);
Vec3 vDir = vPos1 - vPos0;
vDir.Normalize();
ray_hit hit;
const unsigned int flags = rwi_stop_at_pierceable|rwi_colltype_any;
IPhysicalEntity** pSkipEnts = NULL;
int numSkipped = 0;
int containerId = GetPortInt(&m_actInfo, EIP_EntitiesToIgnore);
if(containerId != 0)
{
IFlowSystemContainerPtr container = gEnv->pFlowSystem->GetContainer(containerId);
numSkipped = container->GetItemCount();
pSkipEnts = new IPhysicalEntity*[numSkipped];
for (int i = 0; i < numSkipped; i++)
{
EntityId id;
container->GetItem(i).GetValueWithConversion(id);
pSkipEnts[i] = gEnv->pEntitySystem->GetEntity(id)->GetPhysics();
}
}
if (gEnv->pPhysicalWorld && gEnv->pPhysicalWorld->RayWorldIntersection(vPos0, vDir * gEnv->p3DEngine->GetMaxViewDistance(), m_rayTypeFilter, flags, &hit, 1, pSkipEnts, numSkipped))
{
ActivateOutput(&m_actInfo, EOP_HitPos, hit.pt);
ActivateOutput(&m_actInfo, EOP_HitNormal, hit.n);
if(hit.pCollider)
{
if(IEntity *pEntity = gEnv->pEntitySystem->GetEntityFromPhysics(hit.pCollider))
{
ActivateOutput(&m_actInfo, EOP_EntityId, pEntity->GetId());
}
}
}
if(pSkipEnts)
delete [] pSkipEnts;
}
virtual void ProcessEvent( EFlowEvent event, SActivationInfo* pActInfo )
{
switch(event)
{
case eFE_Activate:
{
if(IsPortActive(pActInfo, EIP_Start))
{
m_currentIdx = 0;
m_containerId = GetPortInt(pActInfo, EIP_Id);
pActInfo->pGraph->SetRegularlyUpdated(pActInfo->myID, true);
}
}
break;
case eFE_Update:
{
IFlowSystemContainerPtr pContainer = gEnv->pFlowSystem->GetContainer(m_containerId);
if(pContainer)
{
if(m_currentIdx < pContainer->GetItemCount())
{
ActivateOutput(pActInfo, EOP_Out, pContainer->GetItem(m_currentIdx));
m_currentIdx++;
}
else
{
ActivateOutput(pActInfo, EOP_Done, 1);
pActInfo->pGraph->SetRegularlyUpdated(pActInfo->myID, false);
}
}
else
{
ActivateOutput(pActInfo, EOP_Error, 1);
pActInfo->pGraph->SetRegularlyUpdated(pActInfo->myID, false);
}
}
break;
}
}
virtual void OnPostUpdate(float fDeltaTime)
{
// Get it once, then unregister to prevent unnescessary updates
if(!m_get)
{
gEnv->pGame->GetIGameFramework()->UnregisterListener(this);
return;
}
m_get = false;
// Grab the container, and make sure its valid (user has to create it for us and pass the valid ID)
IFlowSystemContainerPtr pContainer = gEnv->pFlowSystem->GetContainer(GetPortInt(&m_actInfo, EIP_ContainerId));
if(!pContainer)
return;
IEntityItPtr pIt = gEnv->pEntitySystem->GetEntityIterator();
while (!pIt->IsEnd())
{
if (IEntity *pEntity = pIt->Next())
{
//skip Local player
if (IPhysicalEntity *physEnt = pEntity->GetPhysics())
{
IActor *pClientActor = gEnv->pGame->GetIGameFramework()->GetClientActor();
if (!pClientActor)
return;
//skip the client actor entity
if (physEnt == pClientActor->GetEntity()->GetPhysics())
continue;
AABB worldBounds;
pEntity->GetWorldBounds(worldBounds);
//skip further calculations if the entity is not visible at all...
if (gEnv->pSystem->GetViewCamera().IsAABBVisible_F(worldBounds) == CULL_EXCLUSION)
continue;
Vec3 wpos = pEntity->GetWorldPos();
Quat rot = pEntity->GetWorldRotation();
AABB localBounds;
pEntity->GetLocalBounds(localBounds);
//get min and max values of the entity bounding box (local positions)
Vec3 points[2];
points[0] = wpos + rot * localBounds.min;
points[1] = wpos + rot * localBounds.max;
Vec3 pointsProjected[2];
//project the bounding box min max values to screen positions
for (int i=0; i<2; ++i)
{
gEnv->pRenderer->ProjectToScreen(points[i].x, points[i].y, points[i].z, &pointsProjected[i].x, &pointsProjected[i].y, &pointsProjected[i].z);
const float fWidth = (float)gEnv->pRenderer->GetWidth();
const float fHeight = (float)gEnv->pRenderer->GetHeight();
//scale projected values to the actual screen resolution
pointsProjected[i].x *= 0.01f * fWidth;
pointsProjected[i].y *= 0.01f * fHeight;
}
//check if the projected bounding box min max values are fully or partly inside the screen selection
if ((m_screenX <= pointsProjected[0].x && pointsProjected[0].x <= m_screenX2) ||
(m_screenX >= pointsProjected[0].x && m_screenX2 <= pointsProjected[1].x) ||
(m_screenX <= pointsProjected[1].x && m_screenX2 >= pointsProjected[1].x) ||
(m_screenX <= pointsProjected[0].x && m_screenX2 >= pointsProjected[1].x))
{
if ((m_screenY <= pointsProjected[0].y && m_screenY2 >= pointsProjected[0].y) ||
(m_screenY <= pointsProjected[1].y && m_screenY2 >= pointsProjected[0].y) ||
(m_screenY <= pointsProjected[1].y && m_screenY2 >= pointsProjected[1].y))
{
// Add entity to container
pContainer->AddItem(TFlowInputData(pEntity->GetId()));
}
}
}
}
}
}
