Esempio n. 1
0
func (ai *AI) moveAlongPath(targetPosition mgl32.Vec2, path []graph.Node) {
	minDistance2 := square(float32(ai.Me.Size) + costMapReduction*1.3)

	var pathNode *mapNode
	var pathVecs []mgl32.Vec2
	for _, rawNode := range path {
		node := rawNode.(*mapNode)
		pos := mgl32.Vec2{float32(node.X) * costMapReduction, float32(node.Y) * costMapReduction}

		if pathNode == nil && dist2(ai.Me.Position, pos) >= minDistance2 {
			pathNode = node
		}

		pathVecs = append(pathVecs, pos)
	}

	if pathNode == nil {
		ai.addStatusMessage("Failed to find path node that was far enough away. Moving directly to objective.")

		ai.Path = []mgl32.Vec2{ai.Me.Position, targetPosition}
		ai.g.SetTargetPos(targetPosition.X(), targetPosition.Y())
		return
	}

	ai.Path = pathVecs
	ai.g.SetTargetPos(float32(pathNode.X*costMapReduction), float32(pathNode.Y*costMapReduction))
}
Esempio n. 2
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func SegmentCircleIntersect(radius float32, center, start, finish mgl32.Vec2) (mgl32.Vec2, error) {
	d := finish.Sub(start)
	f := start.Sub(center)

	a := d.Dot(d)
	b := f.Mul(2).Dot(d)
	c := f.Dot(f) - radius*radius
	discriminant := b*b - 4*a*c

	if discriminant < 0 {
		return mgl32.Vec2{}, fmt.Errorf("No intersection")
	} else {
		discriminant = float32(math.Sqrt(float64(discriminant)))

		t1 := (-b - discriminant) / (2 * a)
		t2 := (-b + discriminant) / (2 * a)

		if t1 >= 0 && t1 <= 1 {
			return mgl32.Vec2{start.X() + t1*d.X(), start.Y() + t1*d.Y()}, nil
		}
		if t2 >= 0 && t2 <= 1 {
			return mgl32.Vec2{start.X() + t2*d.X(), start.Y() + t2*d.Y()}, nil
		}
	}

	return mgl32.Vec2{}, fmt.Errorf("No intersections")
}
Esempio n. 3
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func (ai *AI) getPseudoMe() *agario.Cell {
	firstCell := ai.OwnCells[0]
	me := &agario.Cell{
		ID:   firstCell.ID,
		Name: firstCell.Name,

		Heading: firstCell.Heading,

		Color: firstCell.Color,

		IsVirus: firstCell.IsVirus,
	}
	var avgPosition mgl32.Vec2
	for _, cell := range ai.OwnCells {
		me.Size += cell.Size

		if avgPosition.X() == 0 && avgPosition.Y() == 0 {
			avgPosition = cell.Position
			continue
		}

		avgPosition = avgPosition.Add(cell.Position)
	}

	n := float32(len(ai.OwnCells))
	avgPosition[0] = avgPosition[0] / n
	avgPosition[1] = avgPosition[1] / n
	me.Position = avgPosition

	return me
}
Esempio n. 4
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func (s *Sprite) textureBounds(textureBounds mgl32.Vec2) render.UniformSprite {
	return render.NewUniformSprite(
		s.bounds.X()/textureBounds.X(),
		s.bounds.Y()/textureBounds.Y(),
		s.offset.X()/textureBounds.X(),
		1.0-(s.offset.Y()+s.bounds.Y()-1.0)/textureBounds.Y(),
	)
}
Esempio n. 5
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func (h *HudLayer) cursorSpriteConfig(sheet *twodee.Spritesheet, pt mgl32.Vec2, cursor string) twodee.SpriteConfig {
	frame := sheet.GetFrame(cursor)
	return twodee.SpriteConfig{
		View: twodee.ModelViewConfig{
			pt.X(), pt.Y(), 0.0,
			0, 0, 0,
			1.0, 1.0, 1.0,
		},
		Frame: frame.Frame,
	}
}
Esempio n. 6
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func (h *HudLayer) highlightSpriteConfig(sheet *twodee.Spritesheet, pt mgl32.Vec2, name string) twodee.SpriteConfig {
	frame := sheet.GetFrame(name)
	return twodee.SpriteConfig{
		View: twodee.ModelViewConfig{
			pt.X() + frame.Width/2.0, pt.Y() + frame.Height/6.0, 0.0, // Left aligned
			0, 0, 0,
			1.0, 1.0, 1.0,
		},
		Frame: frame.Frame,
	}
}
Esempio n. 7
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func (c *Camera) ScreenToWorldCoords(screenCoords mgl32.Vec2) mgl32.Vec2 {
	// http://stackoverflow.com/questions/7692988/
	var (
		half = c.ScreenSize.Mul(0.5)
		pt   = mgl32.Vec2{
			(screenCoords.X() - half.X()) / half.X(),
			(half.Y() - screenCoords.Y()) / half.Y(),
		}
	)
	return c.unproject(pt)
}
Esempio n. 8
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func (r *SplashRenderer) splashConfig(sheet *twodee.Spritesheet, pt mgl32.Vec2, name string) twodee.SpriteConfig {
	frame := sheet.GetFrame(name)
	return twodee.SpriteConfig{
		View: twodee.ModelViewConfig{
			pt.X() + frame.Width/2.0, pt.Y() + frame.Height/2.0, 0.0, // Center
			0, 0, 0,
			1.0, 1.0, 1.0,
		},
		Frame: frame.Frame,
	}
}
Esempio n. 9
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func (te *TextElement) Render(size, offset mgl32.Vec2) mgl32.Vec2 {
	te.props.size, te.props.offset = size, offset
	textWidth, textHeight := size.X(), size.Y()
	if te.props.width > 0 {
		textWidth = te.props.width
	}
	if te.props.height > 0 {
		textHeight = te.props.height
	}
	if te.previousProps != te.props {
		te.updateImage(mgl32.Vec2{textWidth, textHeight})
		te.previousProps = te.props
	}
	return te.img.Render(size, offset)
}
Esempio n. 10
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func (c *Camera) GetMouseVector(windowSize mgl32.Vec2, mouse mgl32.Vec2) mgl32.Vec3 {
	v, err := mgl32.UnProject(
		mgl32.Vec3{mouse.X(), windowSize.Y() - mouse.Y(), 0.5},
		mgl32.LookAtV(c.Translation, c.Lookat, c.Up),
		mgl32.Perspective(mgl32.DegToRad(c.Angle), windowSize.X()/windowSize.Y(), c.Near, c.Far),
		0, 0, int(windowSize.X()), int(windowSize.Y()),
	)
	if err == nil {
		return v.Sub(c.Translation).Normalize()
	} else {
		log.Println("Error converting camera vector: ", err)
	}
	return c.Lookat
}
Esempio n. 11
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func createTextVertices(text string, position mgl32.Vec2, size float32, font *Font) (vertices []mgl32.Vec2, uvs []mgl32.Vec2) {
	x := position.X()
	y := float32(currentWindow.Height()) - position.Y()

	for c, char := range text {
		i := float32(c)

		upLeft := mgl32.Vec2{x + i*size, y + size}
		upRight := mgl32.Vec2{x + i*size + size, y + size}
		downRight := mgl32.Vec2{x + i*size + size, y}
		downLeft := mgl32.Vec2{x + i*size, y}

		vertices = append(vertices, upLeft, downLeft, upRight)
		vertices = append(vertices, downRight, upRight, downLeft)

		glyph := font.font.Glyphs().Find(string(char))
		fullWidth := float32(font.font.Width)
		fullHeight := float32(font.font.Height)
		width := float32(glyph.Width)
		height := float32(glyph.Height)
		x := float32(glyph.X)
		y := float32(glyph.Y)

		uvX := x / fullWidth
		uvY := (fullHeight - y) / fullHeight
		uvWidth := width / fullWidth
		uvHeight := height / fullHeight

		uvUpLeft := mgl32.Vec2{uvX, uvY}
		uvUpRight := mgl32.Vec2{uvX + uvWidth, uvY}
		uvDownRight := mgl32.Vec2{uvX + uvWidth, uvY - uvHeight}
		uvDownLeft := mgl32.Vec2{uvX, uvY - uvHeight}

		uvs = append(uvs, uvUpLeft, uvDownLeft, uvUpRight)
		uvs = append(uvs, uvDownRight, uvUpRight, uvDownLeft)
	}

	return
}
Esempio n. 12
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func (ai *AI) movePathed(position mgl32.Vec2) {
	minDistance2 := square(float32(ai.Me.Size) + costMapReduction*1.3)

	if dist2(ai.Me.Position, position) < minDistance2 {
		ai.addStatusMessage("Objective is within minimum distance. Moving directly to objective.")

		ai.Path = []mgl32.Vec2{ai.Me.Position, position}
		ai.g.SetTargetPos(position.X(), position.Y())
		return
	}

	// meNode := ai.Map.GetNode(gameToCostMap(ai.Me.Position.Elem()))
	// positionNode := ai.Map.GetNode(gameToCostMap(position.Elem()))

	// path, cost, nodes := search.AStar(meNode, positionNode, ai.Map, nil, nil)
	// if path == nil {
	// 	ai.addStatusMessage("Failed to find path. Trying undirected.")

	// 	ai.movePathedUndirected(position)
	// 	return
	// }
	// ai.addStatusMessage(fmt.Sprintf("A*: path cost: %.2f / nodes expanded: %d", cost, nodes))

	positionNode := ai.Map.GetNode(gameToCostMap(position.Elem()))
	path, cost := ai.DijkstraMap.To(positionNode)
	if path == nil {
		ai.addStatusMessage("movePathed: Failed to find path. Moving directly to objective.")

		ai.Path = []mgl32.Vec2{ai.Me.Position, position}
		ai.g.SetTargetPos(position.X(), position.Y())
		return
	}

	ai.addStatusMessage(fmt.Sprintf("movePathed: path cost: %.2f", cost))

	ai.moveAlongPath(position, path)
}
/* *****************  MAIN FUNCTION  ************************ */
func main() {

	/* ****************    OVR INIT CODE  ***************** */

	if err := glfw.Init(); err != nil {
		log.Fatalln("failed to initialize glfw")
	}

	defer glfw.Terminate()
	C.ovr_Initialize(nil)

	//create an HMD for reference.
	var hmd C.ovrHmd = nil

	// find number of headsets
	hmdCount := (int)(C.ovrHmd_Detect())
	// print headset count
	fmt.Println(hmdCount)
	fmt.Printf("Found %d connected Rift device(s)\n\n", hmdCount)

	// grab the first headset
	if hmdCount > 0 {
		for i := 0; i < 1; i++ {
			hmd = C.ovrHmd_Create((C.int)(i))
			//Print headset name
			fmt.Println(C.GoString(hmd.ProductName))
		}
	}

	//if there is no headset connected, create a new debug.
	if hmd == nil {

		fmt.Println("Unable to open rift device\n Creating debug device.\n")
		hmd = C.ovrHmd_CreateDebug(C.ovrHmd_DK2)
	}

	//Starts the sensor device
	if C.ovrHmd_ConfigureTracking(hmd, C.ovrTrackingCap_Orientation|C.ovrTrackingCap_Position, 0) == 0 {
		fmt.Println("Unable to start Rift head tracker\n")

	}

	//extendedMode := C.ovrHmdCap_ExtendDesktop & hmd.HmdCaps

	//positioning of window and size of window
	var outposition mgl32.Vec2
	outposition[0] = (float32)(hmd.WindowsPos.x)
	outposition[1] = (float32)(hmd.WindowsPos.y)

	//TODO: Change this to output at chosen resolution, not necessarily native pg. 76 Oculus Rift in action
	var outsize mgl32.Vec2
	outsize[0] = (float32)(hmd.Resolution.w)
	outsize[1] = (float32)(hmd.Resolution.h)

	//print position and sizes to console
	fmt.Printf("Rift position:\t\t %f \t %f \nRift Size:\t\t %f \t %f \n\n", outposition.X(), outposition.Y(), outsize.X(), outsize.Y())

	monitors := glfw.GetMonitors()
	var riftIndex int
	//loop over the monitors
	for index, element := range monitors {
		//print the monitor positions
		posX, posY := element.GetPos()
		fmt.Printf("Monitor Position:\t\t %d \t %d\n", posX, posY)

		if float32(posX) == outposition.X() && float32(posY) == outposition.Y() {

			riftIndex = index
		}
	}

	//Get video mode of monitor
	mode := monitors[riftIndex].GetVideoMode()
	outsize[0] = float32(mode.Width)
	outsize[1] = float32(mode.Height)

	/* ***************************************************** */

	// *************  OPENGL / GLFW INIT CODE  ************** */

	glfw.WindowHint(glfw.Decorated, 0)
	glfw.WindowHint(glfw.Resizable, glfw.False)
	glfw.WindowHint(glfw.ContextVersionMajor, 4)
	glfw.WindowHint(glfw.ContextVersionMinor, 1)
	glfw.WindowHint(glfw.OpenGLProfile, glfw.OpenGLCoreProfile)
	glfw.WindowHint(glfw.OpenGLForwardCompatible, glfw.True)

	window, err := glfw.CreateWindow(int(outsize.X()), int(outsize.Y()), "LinuxVR", nil, nil)
	window.SetPos(int(outposition.X()), int(outposition.Y()))

	if gl.Init(); err != nil {
		panic(err)
	}

	window.MakeContextCurrent()

	//Print OpenGL Version to console
	version := gl.GoStr(gl.GetString(gl.VERSION))
	fmt.Println("OpenGL Version", version, "\n\n")

	//keyboard input callback
	window.SetKeyCallback(onKey)

	/* **************************************************** */

	previousTime := glfw.GetTime()
	totalTime := 0.0000

	/* *******************   MAIN LOOP  ******************** */

	for !window.ShouldClose() {

		glfw.PollEvents()

		//Update
		time := glfw.GetTime()
		elapsed := time - previousTime
		previousTime = time
		totalTime = totalTime + elapsed

		//get current head state
		state := C.ovrHmd_GetTrackingState(hmd, 0)
		orientation := state.HeadPose.ThePose.Orientation

		//convert to go type float32
		var q mgl32.Quat
		q.W = (float32)(orientation.w)
		q.V[0] = (float32)(orientation.x)
		q.V[1] = (float32)(orientation.y)
		q.V[2] = (float32)(orientation.z)

		//publish tracking information once a second
		if totalTime >= 1 {
			fmt.Printf("w: %f X: %f Y: %f Z: %f\n", q.W, q.X(), q.Y(), q.Z())
			totalTime = 0
		}

		//basic opengl things

		draw(window)

		//Swap buffers
		window.SwapBuffers()

		//Poll for events (keyboard, resize, etc)

	}

	/* *****************  OVR SHUTDOWN  ******************** */
	C.ovrHmd_Destroy(hmd)
	C.ovr_Shutdown()

}
Esempio n. 14
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//PointLiesInsideAABB - return true if the point lies within the rectan formed by points a and b
func PointLiesInsideAABB(a, b, point mgl32.Vec2) bool {
	if (point.X() > a.X() && point.X() > b.X()) || (point.X() < a.X() && point.X() < b.X()) {
		return false
	}
	if (point.Y() > a.Y() && point.Y() > b.Y()) || (point.Y() < a.Y() && point.Y() < b.Y()) {
		return false
	}
	return true
}
Esempio n. 15
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func Vector2bytes(w io.Writer, vector mgl32.Vec2) {
	Float32bytes(w, vector.X())
	Float32bytes(w, vector.Y())
}
Esempio n. 16
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func convertToVect(v mgl32.Vec2) vect.Vect {
	return vect.Vect{X: vect.Float(v.X()), Y: vect.Float(v.Y())}
}
Esempio n. 17
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func (cBody *ChipmunkBody) SetVelocity(velocity mgl32.Vec2) {
	cBody.Body.SetVelocity(velocity.X(), velocity.Y())
}
Esempio n. 18
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func (cBody *ChipmunkBody) SetForce(force mgl32.Vec2) {
	cBody.Body.SetForce(force.X(), force.Y())
}