func fireParticles() *effects.ParticleSystem {
img, _ := assets.ImportImageCached("TestAssets/Fire.png")
fire := effects.CreateParticleSystem(effects.ParticleSettings{
MaxParticles: 12,
ParticleEmitRate: 3,
BaseGeometry: renderer.CreateBox(float32(1), float32(1)),
TotalFrames: 36,
FramesX: 6,
FramesY: 6,
MaxLife: 0.8,
MinLife: 1.5,
StartColor: color.NRGBA{255, 180, 80, 255},
EndColor: color.NRGBA{255, 60, 20, 255},
StartSize: mgl32.Vec3{1, 1, 1}.Mul(0.16),
EndSize: mgl32.Vec3{1, 1, 1}.Mul(0.23),
MinTranslation: mgl32.Vec3{1, 1, 1}.Mul(-0.01),
MaxTranslation: mgl32.Vec3{1, 1, 1}.Mul(0.01),
MinStartVelocity: mgl32.Vec3{-0.02, 0, -0.02},
MaxStartVelocity: mgl32.Vec3{0.02, 0.08, 0.02},
MinRotation: 3.0,
MaxRotation: 3.6,
})
fire.Node.Material = renderer.NewMaterial(renderer.NewTexture("diffuseMap", img, false))
return fire
}
//imports an obj from a filePath and return a Geometry
func ImportObj(filePath string) (geometry *renderer.Geometry, material *renderer.Material, err error) {
obj := &objData{Indicies: make([]uint32, 0, 0), Vertices: make([]float32, 0, 0)}
vertexList := make([]float32, 0, 0)
uvList := make([]float32, 0, 0)
normalList := make([]float32, 0, 0)
//split the file name from the file path
filePathTokens := strings.Split(strings.Replace(filePath, "\\", "/", -1), "/")
fileName := filePathTokens[len(filePathTokens)-1]
path := strings.TrimRight(filePath, fileName)
//open the file and read all lines
file, err := os.Open(filePath)
if err != nil {
fmt.Printf("Error opening geometry file: %v\n", err)
return
}
defer file.Close()
var mtlErr error
scanner := bufio.NewScanner(file)
for scanner.Scan() {
line := scanner.Text()
tokens := strings.Fields(line)
if len(tokens) > 0 {
dataType := tokens[0]
if dataType == "o" { //sub mesh
obj.Name = tokens[1]
} else if dataType == "v" { //xyz vertex
vertexList = append(vertexList, stf(tokens[1]), stf(tokens[2]), stf(tokens[3]))
} else if dataType == "vt" { //uv coord
uvList = append(uvList, stf(tokens[1]), stf(tokens[2]))
} else if dataType == "vn" { //xyz vertex normal
normalList = append(normalList, stf(tokens[1]), stf(tokens[2]), stf(tokens[3]))
} else if dataType == "f" { // v/t/n face
obj.processFace(line, vertexList, uvList, normalList)
} else if dataType == "mtllib" {
obj.Mtl, mtlErr = importMTL(path, tokens[1])
} else if dataType == "usemtl" { //mtl material
//TODO: multiple mtls
}
}
}
geometry = renderer.CreateGeometry(obj.Indicies, obj.Vertices)
if mtlErr == nil && obj.Mtl != nil {
textures := []*renderer.Texture{}
for key, img := range obj.Mtl.maps {
textures = append(textures, renderer.NewTexture(key, img, true))
}
material = renderer.NewMaterial(textures...)
}
if err = scanner.Err(); err != nil {
fmt.Printf("Error loading geometry: %v\n", err)
return
}
return
}
func sparkParticles() *effects.ParticleSystem {
img, _ := assets.ImportImageCached("TestAssets/Spark.png")
smoke := effects.CreateParticleSystem(effects.ParticleSettings{
MaxParticles: 7,
ParticleEmitRate: 7,
BaseGeometry: renderer.CreateBox(float32(1), float32(1)),
TotalFrames: 1,
FramesX: 1,
FramesY: 1,
MaxLife: 1.0,
MinLife: 0.7,
StartColor: color.NRGBA{255, 220, 180, 255},
EndColor: color.NRGBA{255, 155, 55, 255},
StartSize: mgl32.Vec3{1, 1, 1}.Mul(0.008),
EndSize: mgl32.Vec3{1, 1, 1}.Mul(0.005),
MinTranslation: mgl32.Vec3{1, 1, 1}.Mul(-0.04),
MaxTranslation: mgl32.Vec3{1, 1, 1}.Mul(0.04),
MinStartVelocity: mgl32.Vec3{-0.5, 0.0, -0.5},
MaxStartVelocity: mgl32.Vec3{0.5, 1.0, 0.5},
Acceleration: mgl32.Vec3{0.0, -1.0, 0.0},
OnParticleUpdate: func(p *effects.Particle) {
p.Scale[0] = p.Scale[0] * (1 + p.Velocity.Len()*3.5)
p.Orientation = mgl32.QuatBetweenVectors(mgl32.Vec3{1, 0, 0}, p.Velocity)
},
})
smoke.Node.Material = renderer.NewMaterial(renderer.NewTexture("diffuseMap", img, false))
return smoke
}
func majicParticles() *effects.ParticleGroup {
img, _ := assets.ImportImageCached("resources/majic.png")
material := renderer.NewMaterial(renderer.NewTexture("diffuseMap", img, false))
particleSystem := effects.CreateParticleSystem(effects.ParticleSettings{
MaxParticles: 300,
ParticleEmitRate: 700,
BaseGeometry: renderer.CreateBox(float32(1), float32(1)),
TotalFrames: 9,
FramesX: 3,
FramesY: 3,
MaxLife: 1.3,
MinLife: 0.7,
StartColor: color.NRGBA{254, 254, 254, 254},
EndColor: color.NRGBA{254, 254, 254, 254},
StartSize: mgl32.Vec2{10, 10}.Vec3(0),
EndSize: mgl32.Vec2{10, 10}.Vec3(0),
MinTranslation: mgl32.Vec2{-1, -1}.Vec3(0),
MaxTranslation: mgl32.Vec2{1, 1}.Vec3(0),
MinStartVelocity: mgl32.Vec2{-170, -170}.Vec3(0),
MaxStartVelocity: mgl32.Vec2{170, 170}.Vec3(0),
MaxRotation: -3.14,
MinRotation: 3.14,
})
particleSystem.FaceCamera = false
particleGroup := effects.NewParticleGroup(nil, particleSystem)
particleGroup.Node.Material = material
return particleGroup
}
func sparkParticles() *effects.ParticleGroup {
img, _ := assets.ImportImageCached("resources/spark.png")
material := renderer.NewMaterial(renderer.NewTexture("diffuseMap", img, false))
particleSystem := effects.CreateParticleSystem(effects.ParticleSettings{
MaxParticles: 80,
ParticleEmitRate: 400,
BaseGeometry: renderer.CreateBox(float32(1), float32(1)),
TotalFrames: 1,
FramesX: 1,
FramesY: 1,
MaxLife: 3.3,
MinLife: 1.7,
StartColor: color.NRGBA{254, 160, 90, 254},
EndColor: color.NRGBA{254, 160, 90, 254},
StartSize: mgl32.Vec2{2, 2}.Vec3(0),
EndSize: mgl32.Vec2{2, 2}.Vec3(0),
MinTranslation: mgl32.Vec2{-5, -5}.Vec3(0),
MaxTranslation: mgl32.Vec2{5, 5}.Vec3(0),
MinStartVelocity: mgl32.Vec2{-100, -100}.Vec3(0),
MaxStartVelocity: mgl32.Vec2{100, 100}.Vec3(0),
Acceleration: mgl32.Vec2{0, 400}.Vec3(0),
OnParticleUpdate: func(p *effects.Particle) {
p.Scale[0] = p.Scale[0] * (1 + p.Velocity.Len()*0.05)
p.Orientation = mgl32.QuatBetweenVectors(mgl32.Vec3{1, 0, 0}, p.Velocity)
},
})
particleSystem.FaceCamera = false
particleGroup := effects.NewParticleGroup(nil, particleSystem)
particleGroup.Node.Material = material
return particleGroup
}
func dustParticles() *effects.ParticleGroup {
img, _ := assets.ImportImageCached("resources/smoke.png")
material := renderer.NewMaterial(renderer.NewTexture("diffuseMap", img, false))
particleSystem := effects.CreateParticleSystem(effects.ParticleSettings{
MaxParticles: 5,
ParticleEmitRate: 20,
BaseGeometry: renderer.CreateBox(float32(1), float32(1)),
TotalFrames: 64,
FramesX: 8,
FramesY: 8,
MaxLife: 3.3,
MinLife: 2.7,
StartColor: color.NRGBA{254, 254, 254, 120},
EndColor: color.NRGBA{254, 254, 254, 0},
StartSize: mgl32.Vec2{40, 40}.Vec3(0),
EndSize: mgl32.Vec2{180, 180}.Vec3(0),
MinTranslation: mgl32.Vec2{-2, -2}.Vec3(0),
MaxTranslation: mgl32.Vec2{2, 2}.Vec3(0),
MinStartVelocity: mgl32.Vec2{-5.0, -5.0}.Vec3(0),
MaxStartVelocity: mgl32.Vec2{5.0, 5.0}.Vec3(0),
MaxRotation: -3.14,
MinRotation: 3.14,
})
particleSystem.FaceCamera = false
particleGroup := effects.NewParticleGroup(nil, particleSystem)
particleGroup.Node.Material = material
return particleGroup
}
func (e *Editor) initSelectSprite() {
img, _ := assets.DecodeImage(bytes.NewBuffer(util.Base64ToBytes(GeometryIconData)))
mat := renderer.NewMaterial(renderer.NewTexture("diffuseMap", img, false))
selectSprite := effects.CreateSprite(1, 1, 1, mat)
spriteNode := renderer.NewNode()
spriteNode.RendererParams = &renderer.RendererParams{Unlit: true}
spriteNode.Add(selectSprite)
e.selectSprite = selectSprite
e.gameEngine.AddSpatialTransparent(spriteNode)
}
func NewCharacter() *Character {
characterImg, _ := assets.ImportImageCached("resources/stickman.png")
characterMat := renderer.NewMaterial(renderer.NewTexture("diffuseMap", characterImg, false))
sprite := effects.CreateSprite(4, 4, 1, characterMat)
sprite.FaceCamera = false
sprite.SetScale(mgl32.Vec2{characterSize, characterSize}.Vec3(0))
sprite.SetTranslation(mgl32.Vec2{400, 400}.Vec3(0))
body := chipmunkPhysics.NewChipmunkBody(1, 1)
circle := chipmunk.NewCircle(vect.Vector_Zero, float32(characterSize*0.5))
body.Body.AddShape(circle)
return &Character{
body: body,
sprite: sprite,
}
}
func (ie *ImageElement) SetImage(img image.Image) {
mat := renderer.NewMaterial(renderer.NewTexture("diffuseMap", img, false))
ie.node.Material = mat
ie.img = img
}
func setupScene(gameEngine engine.Engine, shader *renderer.Shader) {
camera := gameEngine.Camera()
transparentNode := renderer.NewNode()
gameEngine.AddSpatialTransparent(transparentNode)
transparentNode.RendererParams = &renderer.RendererParams{
DepthTest: true,
Unlit: true,
Transparency: renderer.EMISSIVE,
}
// Sky cubemap
skyImg, err := assets.ImportImage("TestAssets/cloudSky.jpg")
if err == nil {
skyImg = imaging.AdjustBrightness(skyImg, -30)
skyImg = imaging.AdjustContrast(skyImg, 30)
geom := renderer.CreateSkyBox()
geom.Transform(mgl32.Scale3D(10000, 10000, 10000))
skyNode := renderer.NewNode()
skyNode.SetOrientation(mgl32.QuatRotate(1.57, mgl32.Vec3{0, 1, 0}))
skyNode.Material = renderer.NewMaterial(renderer.NewTexture("diffuseMap", skyImg, false))
skyNode.RendererParams = renderer.NewRendererParams()
skyNode.RendererParams.CullBackface = false
skyNode.RendererParams.Unlit = true
skyNode.Add(geom)
gameEngine.AddSpatial(skyNode)
// create an environmentMap using the skybox texture
envCubeMap := renderer.NewCubemap("environmentMap", skyImg, true)
gameEngine.DefaultCubeMap(envCubeMap)
}
// load scene objs
objs := []string{
"TestAssets/wellScene/floor.obj",
"TestAssets/wellScene/frame1.obj",
"TestAssets/wellScene/frame2.obj",
"TestAssets/wellScene/well.obj",
"TestAssets/wellScene/torches.obj",
}
for _, objFile := range objs {
if geom, mat, err := assets.ImportObjCached(objFile); err == nil {
sceneNode := renderer.NewNode()
sceneNode.Add(geom)
sceneNode.Material = mat
sceneNode.RendererParams = renderer.NewRendererParams()
sceneNode.RendererParams.CullBackface = false
gameEngine.AddSpatial(sceneNode)
}
}
for i := 0; i < 2; i++ {
torchLocation := mgl32.Vec3{0.86, 1.76, 1.05}
if i == 1 {
torchLocation = mgl32.Vec3{0.86, 1.76, -1.05}
}
fire := fireParticles()
spark := sparkParticles()
torchParticles := effects.NewParticleGroup(camera, fire, spark)
torchParticles.SetTranslation(torchLocation)
transparentNode.Add(torchParticles)
gameEngine.AddUpdatable(torchParticles)
light := renderer.NewLight(renderer.POINT)
light.SetTranslation(torchLocation.Add(mgl32.Vec3{0, 0.05, 0}))
gameEngine.AddLight(light)
var x float64
gameEngine.AddUpdatable(engine.UpdatableFunc(func(dt float64) {
x += dt
mag := float32(math.Abs(0.6*math.Sin(3*x)+0.3*math.Sin(4*x)+0.15*math.Sin(7*x)+0.1*math.Sin(15*x))) + 0.5
mag *= 0.05
light.Color = [3]float32{1 * mag, 0.6 * mag, 0.4 * mag}
}))
}
}
func (c *Container) SetBackgroundImage(img image.Image) {
mat := renderer.NewMaterial(renderer.NewTexture("diffuseMap", img, false))
c.background.Material = mat
}
func (e *Editor) Start() {
glRenderer := opengl.NewOpenglRenderer("GoEngine Editor", 1800, 900, false)
e.renderer = glRenderer
e.gameEngine = engine.NewEngine(e.renderer)
e.gameEngine.Start(func() {
shader, err := assets.ImportShader(
filepath.Join(e.assetDir, "shaders/build/pbr.vert"),
filepath.Join(e.assetDir, "shaders/build/pbr.frag"),
)
if err != nil {
panic("error importing shader")
}
e.gameEngine.DefaultShader(shader)
// Sky cubemap
skyImg, err := assets.ImportImage(filepath.Join(e.assetDir, "resources/cubemap.png"))
if err == nil {
geom := renderer.CreateSkyBox()
geom.Transform(mgl32.Scale3D(10000, 10000, 10000))
skyNode := renderer.NewNode()
skyNode.SetOrientation(mgl32.QuatRotate(1.57, mgl32.Vec3{0, 1, 0}))
skyNode.Material = renderer.NewMaterial(renderer.NewTexture("diffuseMap", skyImg, false))
skyNode.RendererParams = renderer.NewRendererParams()
skyNode.RendererParams.CullBackface = false
skyNode.RendererParams.Unlit = true
skyNode.Add(geom)
e.gameEngine.AddSpatial(skyNode)
// create an environmentMap using the skybox texture
envCubeMap := renderer.NewCubemap("environmentMap", skyImg, true)
e.gameEngine.DefaultCubeMap(envCubeMap)
}
l := renderer.NewLight(renderer.DIRECTIONAL)
l.Color = [3]float32{0.7, 0.7, 0.8}
e.gameEngine.AddLight(l)
//root node
e.gameEngine.AddSpatial(e.rootMapNode)
//input/controller manager
e.controllerManager = glfwController.NewControllerManager(glRenderer.Window)
//camera + player
camera := e.gameEngine.Camera()
freeMoveActor := actor.NewFreeMoveActor(camera)
freeMoveActor.MoveSpeed = 20.0
freeMoveActor.LookSpeed = 0.002
mainController := controller.NewBasicMovementController(freeMoveActor, true)
e.controllerManager.AddController(mainController.(glfwController.Controller))
e.gameEngine.AddUpdatable(freeMoveActor)
e.initSelectSprite()
e.gameEngine.AddUpdatable(engine.UpdatableFunc(e.updateSelectSprite))
//editor controller
e.controllerManager.AddController(NewEditorController(e).(glfwController.Controller))
//custom controller
e.customController = controller.CreateController()
e.controllerManager.AddController(e.customController.(glfwController.Controller))
e.setupUI()
})
}
func main() {
glRenderer := opengl.NewOpenglRenderer("Simple", 800, 800, false)
gameEngine := engine.NewEngine(glRenderer)
gameEngine.InitFpsDial()
gameEngine.Start(func() {
if shader, err := assets.ImportShader("shaders/build/basic.vert", "shaders/build/basic.frag"); err == nil {
gameEngine.DefaultShader(shader)
}
// sky cube
skyImg, err := assets.ImportImage("resources/cubemap.png")
if err == nil {
geom := renderer.CreateSkyBox()
geom.Transform(mgl32.Scale3D(10000, 10000, 10000))
skyNode := renderer.NewNode()
skyNode.SetOrientation(mgl32.QuatRotate(1.57, mgl32.Vec3{0, 1, 0}))
skyNode.Material = renderer.NewMaterial(renderer.NewTexture("diffuseMap", skyImg, false))
skyNode.RendererParams = renderer.NewRendererParams()
skyNode.RendererParams.CullBackface = false
skyNode.RendererParams.Unlit = true
skyNode.Add(geom)
gameEngine.AddSpatial(skyNode)
}
// Add some light to the scene
ambientLight := renderer.NewLight(renderer.AMBIENT)
ambientLight.Color = [3]float32{0.3, 0.3, 0.3}
gameEngine.AddLight(ambientLight)
// Create a red box geometry, attach to a node, add the node to the scenegraph
boxGeometry := renderer.CreateBox(10, 10)
boxGeometry.SetColor(color.NRGBA{254, 0, 0, 254})
boxNode := renderer.NewNode()
boxNode.RendererParams = renderer.NewRendererParams()
boxNode.RendererParams.CullBackface = false
boxNode.Material = renderer.NewMaterial()
boxNode.SetTranslation(mgl32.Vec3{30, 0})
boxNode.Add(boxGeometry)
gameEngine.AddSpatial(boxNode)
// make the box spin
var angle float64
gameEngine.AddUpdatable(engine.UpdatableFunc(func(dt float64) {
angle += dt
q := mgl32.QuatRotate(float32(angle), mgl32.Vec3{0, 1, 0})
boxNode.SetOrientation(q)
}))
// input/controller manager
controllerManager := glfwController.NewControllerManager(glRenderer.Window)
// camera + wasd controls
camera := gameEngine.Camera()
freeMoveActor := actor.NewFreeMoveActor(camera)
freeMoveActor.Location = mgl32.Vec3{}
mainController := controller.NewBasicMovementController(freeMoveActor, false)
controllerManager.AddController(mainController.(glfwController.Controller))
gameEngine.AddUpdatable(freeMoveActor)
//lock the cursor
glRenderer.LockCursor(true)
// custom key bindings
customController := controller.CreateController()
controllerManager.AddController(customController.(glfwController.Controller))
// close window and exit on escape
customController.BindKeyAction(func() {
glRenderer.Window.SetShouldClose(true)
}, controller.KeyEscape, controller.Press)
})
}