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Warning! This version of documentation is OUTDATED, as it describes an older SDK version! Please switch to the documentation for the latest SDK version.
Warning! This version of documentation describes an old SDK version which is no longer supported! Please upgrade to the latest SDK version.

Creating Routes

Unigine has a built-in pathfinding system that includes navigation areas, obstacles and functions of the PathRoute class that are used to calculate the optimal routes among obstacles within navigation areas.

Warning
This feature is experimental and not recommended for production use.

Via UnigineEditor, you can only add a navigation area (a sector or a mesh) to the scene and place obstacles. The 2D or 3D route that is calculated within the navigation area should be created from the code.

Creating a Route within Navigation Area#

To create a route within a navigation area, in which no obstacles are placed, you can use the following:

Source code (C++)
// create a new route
PathRoutePtr route = PathRoute::create();
// set a radius for the point which will move along the route
route->setRadius(2.0f);

// declare points between which the route should be calculated
Vec3 p0 = Vec3(-60.0f,-60.0f,5.0f);
Vec3 p1 = Vec3( 60.0f, 60.0f,5.0f);

// create a 3D route
route->create3D(p0,p1);

Notice
You can create a 2D route the same way by calling the create2D() function.

To visualize the calculated route, call the renderVisualizer() function of the PathRoute class:

Source code (C++)
route->renderVisualizer(vec4(1.0f));
To visualize the navigation area, call the renderVisualizer() functions of the Node class:
Source code (C++)
sector->renderVisualizer();

Notice
You should enable the engine visualizer by calling Visualizer::setEnabled(1);

You can affect route calculation via UnigineEditor by adjusting parameters of the navigation sector or mesh.

Creating a Route within Navigation Area with Obstacles#

Creating the route within a navigation area with obstacles is similar to creating the route within an empty navigation area. Moreover, the route will be recalculated if the obstacle changes its transformation.

If the obstacle is connected with a dynamically changing node that should be bypassed, this node should be set as a parent node for the obstacle. This will enable simultaneous changing transformation of the node and the obstacle. For example:

Source code (C++)
// AppWorldLogic.h

#include <UnigineLogic.h>
#include <UnigineStreams.h>
#include <UnigineObjects.h>
#include <UniginePathFinding.h>

class AppWorldLogic : public Unigine::WorldLogic {
	
public:
	AppWorldLogic();
	virtual ~AppWorldLogic();
	
	virtual int init();
	
	virtual int update();
	virtual int postUpdate();
	virtual int updatePhysics();
	
	virtual int shutdown();
	virtual int destroyRenderResources();
	
	virtual int save(const Unigine::StreamPtr &stream);
	virtual int restore(const Unigine::StreamPtr &stream);
	
private:
	
	// declare the required variables
	Unigine::ObstacleBoxPtr box;
	Unigine::ObjectMeshStaticPtr mesh;
	Unigine::PathRoutePtr route;
	// declare points between which a route should be calculated
	Unigine::Math::Vec3 p0 = Unigine::Math::Vec3(-60.0f, -60.0f, 5.0f);
	Unigine::Math::Vec3 p1 = Unigine::Math::Vec3(60.0f, 60.0f, 5.0f);

};
Source code (C++)
// AppWorldLogic.cpp

#include <UnigineEditor.h>
#include <UnigineGame.h>
#include <UnigineVisualizer.h>
#include <UnigineLog.h>

using namespace Unigine;
using namespace Math;

int AppWorldLogic::init() {

	// enable the engine visualizer
	Visualizer::setEnabled(1);

	// create a navigation sector within which pathfinding will be performed
	NavigationSectorPtr navigation = NavigationSector::create(vec3(128.0f, 128.0f, 8.0f));
	navigation->setWorldTransform(translate(Vec3(1.0f, 1.0f, 5.0f)));

	// create a mesh by adding a box surface to it
	MeshPtr mesh_0 = Mesh::create();
	mesh_0->addBoxSurface("box_surface", vec3(1.0f));
	// create the ObjectMeshStatic that should be bypassed
	mesh = ObjectMeshStatic::create(mesh_0);

	mesh->setMaterial("mesh_base", "*");
	mesh->setPosition(Vec3(2.0f, 2.2f, 1.5f));
	mesh->setScale(vec3(2.0f, 2.0f, 2.0f));

	// create an obstacle
	box = ObstacleBox::create(vec3(1.2f, 1.2f, 1.2f));

	box->setPosition(Vec3(0.0f, 0.0f, 0.0f));
	// add the obstacle as the child node to the mesh in order to change their transformation simultaneously
	mesh->addChild(box);

	// create a new route
	route = PathRoute::create();
	// set a radius for the point which will move along the route
	route->setRadius(1.2f);

	return 1;
}

// start of the main loop
int AppWorldLogic::update() {
	
	// get the frame duration
	float ifps = Game::getIFps();
	// and define the angle of the object's rotation
	float angle = ifps * 90.0f;

	// change transformation of the mesh
	mesh->setTransform(mesh->getTransform() * Mat4(rotateZ(angle)));
	// render the bounding box of the obstacle
	box->renderVisualizer();

	// recalculate the route in the current frame and render its visualizer
	route->create2D(p0, p1);
	if (route->isReached()) route->renderVisualizer(vec4(1.0f));
	else Log::message("PathRoute failed");

	return 1;
}
Notice
In the example above, the route is recalculated each frame. However, it is non-optimal for application performance. You can calculate the route, for example, once per 10 frames.

In the result, you will have a simple navigation sector, in which the dynamically changing obstacle box is placed.

Here the obstacle is highlighted with red
Last update: 2019-12-25
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