Пример #1
0
func TestDetectCollisions(t *testing.T) {
	cm := NewCollisionManager()

	physics := make(map[uint64]*Physics, 0)
	physics[0] = NewPhysics(structs.NewSetData(0, 0, 0, 0))
	physics[1] = NewPhysics(structs.NewSetData(10, 0, 0, 0))

	grid := structs.NewGrid(1000.0, 1000.0, 20.0)
	cm.DetectCollisions(physics, grid)
}
Пример #2
0
func NewEntityManager() *EntityManager {
	return &EntityManager{
		entities:         make(map[uint64]*Entity),
		controllers:      make(map[uint64]Controller),
		physics:          make(map[uint64]*Physics),
		boundingBoxes:    make(map[uint64]*tree.Rectangle),
		updated:          make(map[uint64]bool),
		forceRegistry:    &PhysicsForceRegistry{},
		collisionManager: NewCollisionManager(),
		grid:             structs.NewGrid(1000.0, 1000.0, 20.0),
	}
}
Пример #3
0
func TestDetectNoCollisionsOutsideOfGrid(t *testing.T) {
	cm := NewCollisionManager()
	physics := make(map[uint64]*Physics, 0)
	// this entity is partially outside the grid and should not be checked
	physics[0] = NewPhysics(structs.NewSetData(9, 9, 20, 20))
	physics[1] = NewPhysics(structs.NewSetData(10, 10, 20, 20))
	grid := structs.NewGrid(1000.0, 1000.0, 20.0)
	collisions := cm.DetectCollisions(physics, grid)

	numCollisions := len(collisions)
	expectedCollisions := 0
	if numCollisions != expectedCollisions {
		t.Errorf("Expected that there would be %d collision(s), not %d", expectedCollisions, numCollisions)
	}
}
Пример #4
0
// ~50000
// ~28567
// ~13765
// ~26708
func BenchmarkDetectCollisions(bench *testing.B) {
	cm := NewCollisionManager()

	// standing still
	a := NewPhysics(structs.NewSetData(10, 10, 0, 0))
	a.Data.Velocity = &vector.Vec2{0, 0}

	// moving towards a
	b := NewPhysics(structs.NewSetData(20, 10, 0, 0))
	b.Data.Velocity = &vector.Vec2{-1, 0}

	physics := make(map[uint64]*Physics, 0)
	physics[0] = a
	physics[1] = b

	grid := structs.NewGrid(1000.0, 1000.0, 20.0)
	bench.ResetTimer()
	for n := 0; n < bench.N; n++ {
		grid.Clear()
		cm.DetectCollisions(physics, grid)
	}
}
Пример #5
0
func TestCMDetectCollisions(t *testing.T) {
	cm := NewCollisionManager()

	a := NewPhysics(structs.NewSetData(10, 10, 20, 20))
	// standing still
	a.Data.Velocity = &vector.Vec2{0, 0}
	b := NewPhysics(structs.NewSetData(20, 10, 20, 20))
	// moving towards a
	b.Data.Velocity = &vector.Vec2{-1, 0}

	physics := make(map[uint64]*Physics, 0)
	physics[0] = a
	physics[1] = b

	grid := structs.NewGrid(1000.0, 1000.0, 20.0)

	collisions := cm.DetectCollisions(physics, grid)

	numCollisions := len(collisions)
	expectedCollisions := 1
	if numCollisions != expectedCollisions {
		t.Errorf("Expected that there would be %d collision(s), not %d", expectedCollisions, numCollisions)
		return
	}

	contact := collisions[0]
	expectedPenetration := 10.0
	if contact.penetration != expectedPenetration {
		t.Errorf("Expected that the collision would have a penetration of %f, not %f", expectedPenetration, contact.penetration)
	}

	contact.resolveInterpenetration()

	expectedPenetration = 0
	if contact.penetration != expectedPenetration {
		t.Errorf("Expected that the collision would have a penetration of %f, not %f", expectedPenetration, contact.penetration)
	}

	sepVel := contact.separatingVelocity()
	expectedSepVel := -1.0
	if sepVel != expectedSepVel {
		t.Errorf("The separating velocity should be %f, not %f", expectedSepVel, sepVel)
	}

	// full bounce
	contact.restitution = 1
	contact.resolveVelocity(1.0)

	sepVel = contact.separatingVelocity()
	expectedSepVel = 1.0
	if sepVel != expectedSepVel {
		t.Errorf("The separating velocity should be %f, not %f", expectedSepVel, sepVel)
	}

	aExpectedPosition := &vector.Vec2{5, 10}
	if !a.Data.Position.Equals(aExpectedPosition) {
		t.Errorf("a.Position should be %V, not %V", aExpectedPosition, a.Data.Position)
	}

	bExpectedPosition := &vector.Vec2{25, 10}
	if !b.Data.Position.Equals(bExpectedPosition) {
		t.Errorf("b.Position should be %V, not %V", bExpectedPosition, b.Data.Position)
	}

	// since a was standing still it should take all the energy
	aExpectedVelocity := &vector.Vec2{-1, 0}
	if !a.Data.Velocity.Equals(aExpectedVelocity) {
		t.Errorf("b.Velocity should be {%f, %f}, not {%f, %f}", aExpectedVelocity.X, aExpectedVelocity.Y, a.Data.Velocity.X, a.Data.Velocity.Y)
	}

	// since a was standing still it should take all the energy and b will stop
	bExpectedVelocity := &vector.Vec2{0, 0}
	if !b.Data.Velocity.Equals(bExpectedVelocity) {
		t.Errorf("b.Velocity should be {%f, %f}, not {%f, %f}", bExpectedVelocity.X, bExpectedVelocity.Y, b.Data.Velocity.X, b.Data.Velocity.Y)
	}
}