// Transforms image (resize, rotate, flip, brightness, contrast)
func (c *Convertor) TransformImage(img image.Image) image.Image {
var i image.Image = img
if c.Opts.Width > 0 || c.Opts.Height > 0 {
if c.Opts.Fit {
i = imaging.Fit(i, c.Opts.Width, c.Opts.Height, filters[c.Opts.Filter])
} else {
i = imaging.Resize(i, c.Opts.Width, c.Opts.Height, filters[c.Opts.Filter])
}
}
if c.Opts.Rotate > 0 {
switch c.Opts.Rotate {
case 90:
i = imaging.Rotate90(i)
case 180:
i = imaging.Rotate180(i)
case 270:
i = imaging.Rotate270(i)
}
}
if c.Opts.Flip != "none" {
switch c.Opts.Flip {
case "horizontal":
i = imaging.FlipH(i)
case "vertical":
i = imaging.FlipV(i)
}
}
if c.Opts.Brightness != 0 {
i = imaging.AdjustBrightness(i, c.Opts.Brightness)
}
if c.Opts.Contrast != 0 {
i = imaging.AdjustContrast(i, c.Opts.Contrast)
}
return i
}
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 unsplash(broker *tg.Broker, update tg.APIMessage) {
if isCommand(update, "unsplash") {
text := ""
user := update.User
if update.ReplyTo != nil {
if update.ReplyTo.Text == nil {
broker.SendTextMessage(update.Chat, "Non c'e' niente di 'ispiratore' in questo..", &update.MessageID)
return
}
text = *(update.ReplyTo.Text)
user = update.ReplyTo.User
} else {
if strings.Index(*(update.Text), " ") > 0 {
text = strings.TrimSpace(strings.SplitN(*(update.Text), " ", 2)[1])
}
}
author := user.FirstName
if user.LastName != "" {
author = user.FirstName + " " + user.LastName
}
author += " (" + user.Username + ")"
if strings.TrimSpace(text) == "" {
broker.SendTextMessage(update.Chat, "Non c'e' niente di 'ispiratore' in questo..", &update.MessageID)
return
}
resp, err := http.Get(unsplashUrl)
if err != nil {
log.Println("[unsplash] HTTP request failed: %s\n", err.Error())
broker.SendTextMessage(update.Chat, "<b>ERRORE!</b> @hamcha controlla la console!", &update.MessageID)
return
}
defer resp.Body.Close()
img, _, err := image.Decode(resp.Body)
if err != nil {
log.Println("[unsplash] Image decode error: %s\n", err.Error())
broker.SendTextMessage(update.Chat, "<b>ERRORE</b>: Non riesco a leggere l'immagine", &update.MessageID)
return
}
// Darken image
img = imaging.AdjustBrightness(imaging.AdjustGamma(imaging.AdjustSigmoid(img, 0.5, -6.0), 0.8), -20)
// Create target image
bounds := img.Bounds()
iwidth := float64(bounds.Size().X)
iheight := float64(bounds.Size().Y)
timg := image.NewRGBA(bounds)
gc := draw2dimg.NewGraphicContext(timg)
gc.SetFontData(quoteFontData)
gc.DrawImage(img)
gc.SetStrokeColor(image.Black)
gc.SetFillColor(image.White)
text = strings.ToUpper(strings.TrimSpace(text))
gc.Restore()
gc.Save()
// Detect appropriate font size
scale := iheight / iwidth * (iwidth / 10) * 0.8
gc.SetFontSize(scale)
gc.SetLineWidth(scale / 15)
// Get NEW bounds
left, top, right, bottom := gc.GetStringBounds(text)
width := right - left
texts := []string{text}
if width*1.2 > iwidth {
// Split text
texts = splitCenter(text)
// Get longest line
longer := float64(0)
longid := 0
widths := make([]float64, len(texts))
for id := range texts {
tleft, _, tright, _ := gc.GetStringBounds(texts[id])
widths[id] = tright - tleft
if width > longer {
longer = widths[id]
longid = id
}
}
// Still too big? Decrease font size again
iter := 0
for width*1.2 > iwidth && iter < 10 {
log.Println("Warning, resizing!")
scale *= (0.9 - 0.05*float64(iter))
gc.SetFontSize(scale)
left, top, right, bottom = gc.GetStringBounds(texts[longid])
width = right - left
iter++
}
}
texts = append(texts, author)
height := bottom - top + 20
margin := float64(height / 50)
txtheight := (height + margin) * float64(len(texts))
gc.Save()
for id, txt := range texts {
gc.Save()
left, _, right, _ = gc.GetStringBounds(txt)
width = right - left
x := (iwidth - width) / 2
y := (iheight-txtheight)/2 + (height+margin*2)*float64(id+1)
if id == len(texts)-1 {
gc.SetFontSize(scale * 0.7)
left, _, right, _ = gc.GetStringBounds(txt)
width = right - left
x = (iwidth - width) / 1.5
y = (iheight-txtheight)/2 + (height+margin)*float64(id+1) + margin*6
}
gc.Translate(x, y)
gc.StrokeString(txt)
gc.FillString(txt)
gc.Restore()
}
buf := new(bytes.Buffer)
err = jpeg.Encode(buf, timg, &(jpeg.Options{Quality: 80}))
if err != nil {
log.Println("[unsplash] Image encode error: %s\n", err.Error())
broker.SendTextMessage(update.Chat, "<b>ERRORE!</b> @hamcha controlla la console!", &update.MessageID)
return
}
broker.SendPhoto(update.Chat, buf.Bytes(), "quote.jpg", "", &update.MessageID)
}
}
