Util::Vector SocialForcesAgent::calcAgentRepulsionForce(float dt)
{
Util::Vector agentRepulsion = Util::Vector(0, 0, 0);
std::set<SteerLib::SpatialDatabaseItemPtr> _neighbors;
gSpatialDatabase->getItemsInRange(_neighbors,
_position.x - (this->_radius + _SocialForcesParams.sf_query_radius),
_position.x + (this->_radius + _SocialForcesParams.sf_query_radius),
_position.z - (this->_radius + _SocialForcesParams.sf_query_radius),
_position.z + (this->_radius + _SocialForcesParams.sf_query_radius),
dynamic_cast<SteerLib::SpatialDatabaseItemPtr>(this));
SteerLib::AgentInterface * tempAgent;
for (std::set<SteerLib::SpatialDatabaseItemPtr>::iterator neighbour = _neighbors.begin(); neighbour != _neighbors.end(); neighbour++)
{
if ((*neighbour)->isAgent())
{
tempAgent = dynamic_cast<SteerLib::AgentInterface *>(*neighbour);
}
else
{
continue;
}
if ((id() != tempAgent->id()) && (tempAgent->computePenetration(this->position(), this->radius()) > 0.000001))
{
agentRepulsion = agentRepulsion + (tempAgent->computePenetration(this->position(), this->radius()) * _SocialForcesParams.sf_agent_body_force * normalize(position() - tempAgent->position()));
}
}
return agentRepulsion;
}
Util::Vector SocialForcesAgent::calcAgentRepulsionForce(float dt)
{
Util::Vector agentRepulsionForce = Util::Vector(0, 0, 0);
std::set<SteerLib::SpatialDatabaseItemPtr> _neighbors;
gSpatialDatabase->getItemsInRange(_neighbors,
_position.x - this->_radius - _SocialForcesParams.sf_query_radius,
_position.x + this->_radius + _SocialForcesParams.sf_query_radius,
_position.z - this->_radius - _SocialForcesParams.sf_query_radius,
_position.z + this->_radius + _SocialForcesParams.sf_query_radius,
dynamic_cast<SteerLib::SpatialDatabaseItemPtr>(this));
SteerLib::AgentInterface *neighborInterface;
std::set<SteerLib::SpatialDatabaseItemPtr>::iterator neighbor = _neighbors.begin();
while (neighbor != _neighbors.end())
{
if ((*neighbor)->isAgent())
{
neighborInterface = dynamic_cast<SteerLib::AgentInterface *>(*neighbor);
float penetration = neighborInterface->computePenetration(this->position(), this->radius());
if (id() != neighborInterface->id())
agentRepulsionForce += penetration * _SocialForcesParams.sf_agent_body_force * dt * normalize(position() - neighborInterface->position());
}
neighbor++;
}
return agentRepulsionForce;
}
Util::Vector SocialForcesAgent::calcAgentRepulsionForce(float dt)
{
Util::Vector agentRepulsionForce = Util::Vector(0,0,0);
std::set<SteerLib::SpatialDatabaseItemPtr> _neighbors;
gSpatialDatabase->getItemsInRange(_neighbors,
position().x - (radius() + _SocialForcesParams.sf_query_radius),
position().x + (radius() + _SocialForcesParams.sf_query_radius),
position().z - (radius() + _SocialForcesParams.sf_query_radius),
position().z + (radius() + _SocialForcesParams.sf_query_radius),
this);
for (std::set<SteerLib::SpatialDatabaseItemPtr>::iterator neighbor = _neighbors.begin();
neighbor != _neighbors.end(); neighbor++) {
if ((*neighbor)->isAgent()) {
SteerLib::AgentInterface *other = dynamic_cast<SteerLib::AgentInterface *>(*neighbor);
if (id() != other->id() && other->computePenetration(position(), radius()) > 0.000001) {
Util::Vector agentNorm = normalize(position() - other->position());
// Repulsion
agentRepulsionForce += _SocialForcesParams.sf_agent_body_force
* other->computePenetration(position(), radius())
* agentNorm;
// Friction
Util::Vector agentTangent = Util::Vector(-agentNorm.z, 0, agentNorm.x);
agentRepulsionForce -= _SocialForcesParams.sf_sliding_friction_force // k
* other->computePenetration(position(), radius()) // g
* ((velocity() - other->velocity()) * agentTangent) // tangential velocity difference
* agentTangent; // tangential direction
}
}
}
return agentRepulsionForce;
}