3D agent used in navigation for collision avoidance.
</brief_description>
<description>
3D agent that is used in navigation to reach a location while avoiding static and dynamic obstacles. The dynamic obstacles are avoided using RVO (Reciprocal Velocity Obstacles) collision avoidance. The agent needs navigation data to work correctly. This can be done by having the agent as a child of a [Navigation] node, or using [method set_navigation]. [NavigationAgent] is physics safe.
Returns the distance to the target location, using the agent's global position. The user must set the target location with [method set_target_location] in order for this to be accurate.
</description>
</method>
<methodname="get_final_location">
<returntype="Vector3"/>
<description>
Returns the reachable final location in global coordinates. This can change if the navigation path is altered in any way. Because of this, it would be best to check this each frame.
</description>
</method>
<methodname="get_nav_path"qualifiers="const">
<returntype="PoolVector3Array"/>
<description>
Returns the path from start to finish in global coordinates.
Returns which index the agent is currently on in the navigation path's [PoolVector3Array].
</description>
</method>
<methodname="get_navigation"qualifiers="const">
<returntype="Node"/>
<description>
Returns the [Navigation] node that the agent is using for its navigation system.
</description>
</method>
<methodname="get_next_location">
<returntype="Vector3"/>
<description>
Returns a [Vector3] in global coordinates, that can be moved to, making sure that there are no static objects in the way. If the agent does not have a navigation path, it will return the origin of the agent's parent.
Returns [code]true[/code] if the target location is reached. The target location is set using [method set_target_location]. It may not always be possible to reach the target location. It should always be possible to reach the final location though. See [method get_final_location].
</description>
</method>
<methodname="set_navigation">
<returntype="void"/>
<argumentindex="0"name="navigation"type="Node"/>
<description>
Sets the [Navigation] node used by the agent. Useful when you don't want to make the agent a child of a [Navigation] node.
</description>
</method>
<methodname="set_target_location">
<returntype="void"/>
<argumentindex="0"name="location"type="Vector3"/>
<description>
Sets the user desired final location. This will clear the current navigation path.
Sends the passed in velocity to the collision avoidance algorithm. It will adjust the velocity to avoid collisions. Once the adjustment to the velocity is complete, it will emit the [signal velocity_computed] signal.
The NavigationAgent height offset is subtracted from the y-axis value of any vector path position for this NavigationAgent. The NavigationAgent height offset does not change or influence the navigation mesh or pathfinding query result. Additional navigation maps that use regions with navigation meshes that the developer baked with appropriate agent radius or height values are required to support different-sized agents.
If [code]true[/code] the agent is registered for an RVO avoidance callback on the [NavigationServer]. When [method set_velocity] is used and the processing is completed a [code]safe_velocity[/code] Vector3 is received with a signal connection to [signal velocity_computed]. Avoidance processing with many registered agents has a significant performance cost and should only be enabled on agents that currently require it.
The maximum distance the agent is allowed away from the ideal path to the final location. This can happen due to trying to avoid collisions. When the maximum distance is exceeded, it recalculates the ideal path.
The distance threshold before a target is considered to be reached. This will allow an agent to not have to hit a point on the path exactly, but in the area.
The minimal amount of time for which this agent's velocities, that are computed with the collision avoidance algorithm, are safe with respect to other agents. The larger the number, the sooner the agent will respond to other agents, but the less freedom in choosing its velocities. Must be positive.