func (self *SpinningCubes) Setup() {
var box *core.Entity
positions := [10]math3d.Vector{
math3d.Vector{0, 0, 0},
math3d.Vector{4, 0, 0},
math3d.Vector{4, 4, 0},
math3d.Vector{4, 4, 4},
math3d.Vector{-4, 0, 0},
math3d.Vector{-4, -4, 0},
math3d.Vector{0, -4, 0},
math3d.Vector{-4, 0, -4},
math3d.Vector{0, 4, 4},
math3d.Vector{0, 0, 4},
}
skybox := factories.SkyBox("stevecube", self.game.Camera)
self.game.RegisterEntity(skybox)
for i := 0; i < 10; i++ {
box = core.NewEntityAt(positions[i])
box.AddComponent(new(components.Visual))
self.boxen = append(self.boxen, *box)
self.game.RegisterEntity(box)
}
}
func Test_TopDownCamera_CanPauseTracking(t *testing.T) {
baseCam := core.NewCamera()
camera := NewTopDownCamera(baseCam)
camera.TrackEntity(core.NewEntityAt(math3d.Vector{10, 10, 10}))
camera.PauseTracking()
camera.UpdatePosition()
assert.Equal(t, math3d.Vector{0, 0, 0}, baseCam.Position())
}
func (self *TopDownTestScene) Setup() {
self.game.RegisterEntity(factories.SkyBox("stevecube", self.game.Camera))
self.levelVolume = &volume.FunctionVolume{
func(x, y, z float32) float32 {
if y > 5 && (x > 3 && x < 47) && (z > 3 && z < 47) {
return -1
} else {
return 1
}
},
}
volumeMesh := volume.MarchingCubes(self.levelVolume, math3d.Vector{50, 10, 50}, 0.5)
volumeMesh.Name = "Level Mesh"
self.levelEntity = core.NewEntity()
self.levelEntity.Name = "Level Geometry"
self.levelEntity.AddComponent(&components.Visual{
Mesh: volumeMesh,
MaterialName: "only_color",
})
self.game.RegisterEntity(self.levelEntity)
self.game.Camera.AddComponent(&components.Input{
Mapping: FPSMapping,
})
// Get the camera facing downwards
cameraTransform := components.GetTransform(self.game.Camera.Entity)
cameraTransform.Position = math3d.Vector{25, 10, 25}
cameraTransform.CurrentPitch = 90
cameraTransform.Speed = math3d.Vector{8, 8, 8}
cameraTransform.MoveRelativeToRotation = false
// Our unit we'll control
self.playerCube = core.NewEntityAt(math3d.Vector{25, 6, 25})
self.playerCube.Name = "The Player"
self.playerCube.AddComponent(&components.Visual{})
playerTransform := components.GetTransform(self.playerCube)
playerTransform.Scale = math3d.Vector{0.25, 0.5, 0.25}
playerTransform.Speed = math3d.Vector{3, 3, 3}
playerTransform.MoveRelativeToRotation = false
self.topDownCamera = NewTopDownCamera(self.game.Camera)
self.topDownCamera.SetTrackingHeight(5)
self.topDownCamera.TrackEntity(self.playerCube)
self.game.RegisterEntity(self.playerCube)
self.game.Keyboard.OnKey(input.KeySpace, func(event events.Event) { self.SwapInput(event) })
// Start by controlling the player unit. Game defaults to controlling the camera
self.SwapInput(events.Event{Pressed: true})
}
func Test_TopDownCamera_ResumesTrackingPositionOverTime(t *testing.T) {
baseCam := core.NewCamera()
camera := NewTopDownCamera(baseCam)
camera.TrackEntity(core.NewEntityAt(math3d.Vector{10, 10, 10}))
camera.SetTrackingHeight(10)
camera.ResumeTracking()
assert.NotNil(t, baseCam.Entity.GetComponent(components.ANIMATION))
}
func Test_TopDownCamera_UpdatePositionCanKeepAHeightFromTheEntity(t *testing.T) {
baseCam := core.NewCamera()
camera := NewTopDownCamera(baseCam)
camera.TrackEntity(core.NewEntityAt(math3d.Vector{10, 10, 10}))
camera.SetTrackingHeight(10)
camera.UpdatePosition()
assert.Equal(t, math3d.Vector{10, 20, 10}, baseCam.Position())
}
