Esempio n. 1
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func CreateSprite(t Texture) (s Sprite, err error) {

	s.texture = t
	s.shader, err = CreateShader(vertexShader, fragmentShader)
	if err != nil {
		return s, err
	}

	gl.GenBuffers(1, &s.ebo)
	gl.GenBuffers(1, &s.vbo)
	gl.GenVertexArrays(1, &s.vao)

	gl.BindVertexArray(s.vao)

	gl.BindBuffer(gl.ARRAY_BUFFER, s.vbo)
	gl.BufferData(gl.ARRAY_BUFFER, len(vertices)*4, gl.Ptr(vertices), gl.STATIC_DRAW)

	gl.BindBuffer(gl.ELEMENT_ARRAY_BUFFER, s.ebo)
	gl.BufferData(gl.ELEMENT_ARRAY_BUFFER, len(indices)*4, gl.Ptr(indices), gl.STATIC_DRAW)

	err = s.shader.SetAttrib("vert", 2, gl.FLOAT, 4*4, 0)
	err = s.shader.SetAttrib("vertTexCoord", 2, gl.FLOAT, 4*4, 2*4)

	gl.BindVertexArray(0)

	return s, err
}
Esempio n. 2
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// Updating the list of Points that this LineRender should be rendering.
func (lr *LineRender) UpdatePoints(points []Point) {
	// Determining the buffer mode.
	var mode uint32
	if lr.static {
		mode = gl.STATIC_DRAW
	} else {
		mode = gl.DYNAMIC_DRAW
	}

	// Setting the number of points.
	lr.points = int32(len(points))

	// Generating the buffer data.
	vboData := generateVBOData(points)
	eboData := generateEBOData(len(points))

	// Filling the buffer data.
	gl.BindVertexArray(lr.vao)

	gl.BindBuffer(gl.ARRAY_BUFFER, lr.vbo)
	gl.BufferData(gl.ARRAY_BUFFER, len(vboData)*4, gl.Ptr(vboData), mode)

	gl.BindBuffer(gl.ELEMENT_ARRAY_BUFFER, lr.ebo)
	gl.BufferData(gl.ELEMENT_ARRAY_BUFFER, len(eboData)*4, gl.Ptr(eboData), mode)
}
Esempio n. 3
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// Creating a RenderObject with a given shaderProgram, texture, and set of
// vertices.
func CreateRenderObject(shaderProgram ShaderProgram, texture Texture, vertices []float32) *RenderObject {
	renderObject := new(RenderObject)

	// Creating the basic information.
	renderObject.shaderProgram = uint32(shaderProgram)
	renderObject.texture = uint32(texture)

	gl.GenVertexArrays(1, &renderObject.vao)
	gl.GenBuffers(1, &renderObject.vbo)
	gl.GenBuffers(1, &renderObject.ebo)

	// Filling the RenderObject with information.
	gl.BindVertexArray(renderObject.vao)
	gl.BindBuffer(gl.ARRAY_BUFFER, renderObject.vbo)
	gl.BufferData(gl.ARRAY_BUFFER, len(vertices)*4, gl.Ptr(vertices), gl.STATIC_DRAW)

	gl.BindBuffer(gl.ELEMENT_ARRAY_BUFFER, renderObject.ebo)
	vertOrder := []uint32{
		0, 1, 2,
		2, 3, 0,
	}
	gl.BufferData(gl.ELEMENT_ARRAY_BUFFER, len(vertOrder)*4, gl.Ptr(vertOrder), gl.STATIC_DRAW)

	// Loading up vertex attributes.
	vertAttrib := uint32(gl.GetAttribLocation(renderObject.shaderProgram, gl.Str("vert\x00")))
	gl.EnableVertexAttribArray(vertAttrib)
	gl.VertexAttribPointer(vertAttrib, 2, gl.FLOAT, false, 4*4, gl.PtrOffset(0))

	// Loading up texture attributes.
	texAttrib := uint32(gl.GetAttribLocation(renderObject.shaderProgram, gl.Str("vertTexCoord\x00")))
	gl.EnableVertexAttribArray(texAttrib)
	gl.VertexAttribPointer(texAttrib, 2, gl.FLOAT, false, 4*4, gl.PtrOffset(2*4))

	return renderObject
}
Esempio n. 4
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func createPlane(x0, y0, x1, y1 float32, verts [12]float32, indexes [6]uint32, uvs [8]float32, normals [12]float32) *Renderable {
	const floatSize = 4
	const uintSize = 4

	r := NewRenderable()
	gl.GenVertexArrays(1, &r.Vao)
	r.FaceCount = 2

	// create a VBO to hold the vertex data
	gl.GenBuffers(1, &r.VertVBO)
	gl.BindBuffer(gl.ARRAY_BUFFER, r.VertVBO)
	gl.BufferData(gl.ARRAY_BUFFER, floatSize*len(verts), gl.Ptr(&verts[0]), gl.STATIC_DRAW)

	// create a VBO to hold the uv data
	gl.GenBuffers(1, &r.UvVBO)
	gl.BindBuffer(gl.ARRAY_BUFFER, r.UvVBO)
	gl.BufferData(gl.ARRAY_BUFFER, floatSize*len(uvs), gl.Ptr(&uvs[0]), gl.STATIC_DRAW)

	// create a VBO to hold the normals data
	gl.GenBuffers(1, &r.NormsVBO)
	gl.BindBuffer(gl.ARRAY_BUFFER, r.NormsVBO)
	gl.BufferData(gl.ARRAY_BUFFER, floatSize*len(normals), gl.Ptr(&normals[0]), gl.STATIC_DRAW)

	// create a VBO to hold the face indexes
	gl.GenBuffers(1, &r.ElementsVBO)
	gl.BindBuffer(gl.ELEMENT_ARRAY_BUFFER, r.ElementsVBO)
	gl.BufferData(gl.ELEMENT_ARRAY_BUFFER, uintSize*len(indexes), gl.Ptr(&indexes[0]), gl.STATIC_DRAW)

	return r
}
Esempio n. 5
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func (lr *LinesRenderer) Draw(line *LineGeometry, mv mgl32.Mat4, style *LineStyle) (err error) {
	var (
		dataBytes    int   = len(line.Vertices) * int(lr.stride)
		indexBytes   int   = len(line.Indices) * int(lr.stride)
		elementCount int32 = int32(len(line.Indices))
		r, g, b, a         = style.Color.RGBA()
	)
	gl.Uniform1f(lr.thicknessLoc, style.Thickness)
	gl.Uniform1f(lr.innerLoc, style.Inner)
	gl.Uniform4f(lr.colorLoc, float32(r)/255.0, float32(g)/255.0, float32(b)/255.0, float32(a)/255.0)
	gl.UniformMatrix4fv(lr.modelviewLoc, 1, false, &mv[0])
	if dataBytes > lr.bufferBytes {
		lr.bufferBytes = dataBytes
		gl.BufferData(gl.ARRAY_BUFFER, dataBytes, gl.Ptr(line.Vertices), gl.STREAM_DRAW)
		gl.BufferData(gl.ELEMENT_ARRAY_BUFFER, indexBytes, gl.Ptr(line.Indices), gl.STREAM_DRAW)
	} else {
		gl.BufferSubData(gl.ARRAY_BUFFER, 0, dataBytes, gl.Ptr(line.Vertices))
		gl.BufferSubData(gl.ELEMENT_ARRAY_BUFFER, 0, indexBytes, gl.Ptr(line.Indices))
	}
	gl.DrawElements(gl.TRIANGLES, elementCount, gl.UNSIGNED_INT, gl.PtrOffset(0))
	if e := gl.GetError(); e != 0 {
		err = fmt.Errorf("ERROR: OpenGL error %X", e)
	}
	return
}
Esempio n. 6
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func (t *Text) SetString(fs string, argv ...interface{}) {
	var indices []rune
	if len(argv) == 0 {
		indices = []rune(fs)
	} else {
		indices = []rune(fmt.Sprintf(fs, argv...))
	}
	if len(indices) == 0 {
		return
	}
	if t.MaxRuneCount > 0 && len(indices) > t.MaxRuneCount+1 {
		indices = indices[0:t.MaxRuneCount]
	}
	t.String = string(indices)

	// ebo, vbo data
	glfloat_size := int32(4)

	t.vboIndexCount = len(indices) * 4 * 2 * 2 // 4 indexes per rune (containing 2 position + 2 texture)
	t.eboIndexCount = len(indices) * 6         // each rune requires 6 triangle indices for a quad
	t.RuneCount = len(indices)
	t.vboData = make([]float32, t.vboIndexCount, t.vboIndexCount)
	t.eboData = make([]int32, t.eboIndexCount, t.eboIndexCount)

	// generate the basic vbo data and bounding box
	t.X1 = Point{0, 0}
	t.X2 = Point{0, 0}
	t.makeBufferData(indices)

	// find the centered position of the bounding box
	lowerLeft := t.getLowerLeft()

	// reposition the vbo data so that it is centered at (0,0)
	// according to the orthographic projection being used
	t.setDataPosition(lowerLeft)

	if t.IsDebug {
		fmt.Printf("bounding box %v %v\n", t.X1, t.X2)
		fmt.Printf("lower left\n%v\n", lowerLeft)
		fmt.Printf("text vbo data\n%v\n", t.vboData)
		fmt.Printf("text ebo data\n%v\n", t.eboData)
	}
	gl.BindVertexArray(t.vao)
	gl.BindBuffer(gl.ARRAY_BUFFER, t.vbo)
	gl.BufferData(
		gl.ARRAY_BUFFER, int(glfloat_size)*t.vboIndexCount, gl.Ptr(t.vboData), gl.DYNAMIC_DRAW)
	gl.BindBuffer(gl.ELEMENT_ARRAY_BUFFER, t.ebo)
	gl.BufferData(
		gl.ELEMENT_ARRAY_BUFFER, int(glfloat_size)*t.eboIndexCount, gl.Ptr(t.eboData), gl.DYNAMIC_DRAW)
	gl.BindVertexArray(0)

	// not necesssary, but i just want to better understand using vertex arrays
	gl.BindBuffer(gl.ARRAY_BUFFER, 0)
	gl.BindBuffer(gl.ELEMENT_ARRAY_BUFFER, 0)

	// SetString can be called at anytime.  we want to make sure that if the user is updating the text,
	// the previous position will be maintained
	t.SetPosition(t.SetPositionX, t.SetPositionY)
}
Esempio n. 7
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func createElementArrayBuffer(data []uint16) uint32 {
	var name uint32
	gl.GenBuffers(1, &name)
	gl.BindBuffer(gl.ELEMENT_ARRAY_BUFFER, name)
	gl.BufferData(gl.ELEMENT_ARRAY_BUFFER, len(data)*2 /* total bytes */, gl.Ptr(data), gl.STATIC_DRAW)
	gl.BindBuffer(gl.ELEMENT_ARRAY_BUFFER, 0)
	return name
}
Esempio n. 8
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func createArrayBuffer(data []float32) uint32 {
	var name uint32
	gl.GenBuffers(1, &name)
	gl.BindBuffer(gl.ARRAY_BUFFER, name)
	gl.BufferData(gl.ARRAY_BUFFER, len(data)*4 /* total bytes */, gl.Ptr(data), gl.STATIC_DRAW)
	gl.BindBuffer(gl.ARRAY_BUFFER, 0)
	return name
}
Esempio n. 9
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//InitPostProcessSystem will allocate all the resources required to make the Image Post Processing system work.
func InitPostProcessSystem() {
	//init model
	quadvao := gl2.GenVertexArray()
	quadvao.Bind()
	defer quadvao.Unbind()

	vertpos := gl2.GenBuffer()
	vertpos.Bind(gl.ARRAY_BUFFER)
	gl.BufferData(gl.ARRAY_BUFFER, len(_quadvertpos)*2*4, ptr(_quadvertpos), gl.STATIC_DRAW)

	vertuv := gl2.GenBuffer()
	vertuv.Bind(gl.ARRAY_BUFFER)
	gl.BufferData(gl.ARRAY_BUFFER, len(_quadvertuv)*2*4, ptr(_quadvertuv), gl.STATIC_DRAW)

	fstri.vao = quadvao
	fstri.pos = vertpos
	fstri.uv = vertuv
}
Esempio n. 10
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func (b *GLBuffer) Upload(data interface{}, size int) {
	b.Bind()
	if size > b.bufferBytes {
		b.bufferBytes = size
		gl.BufferData(b.target, size, gl.Ptr(data), gl.STREAM_DRAW)
	} else {
		gl.BufferSubData(b.target, 0, size, gl.Ptr(data))
	}
}
Esempio n. 11
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//CreateVertexArray is a "constructor" of vertex array, hence returns a opengl
//mesh, specifically a cube for testing
func CreateVertexArray() VertexArray {
	var vertexArray VertexArray
	cubeVertices := vertexArray.PosData()
	gl.GenVertexArrays(1, &vertexArray.handleVAO)

	gl.BindVertexArray(vertexArray.handleVAO)

	gl.GenBuffers(1, &vertexArray.handleVBO)
	gl.BindBuffer(gl.ARRAY_BUFFER, vertexArray.handleVBO)
	gl.BufferData(gl.ARRAY_BUFFER, len(cubeVertices)*4, gl.Ptr(cubeVertices), gl.STATIC_DRAW)
	return vertexArray
}
Esempio n. 12
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func Draw() {

	// if len(layers) == 0 {
	// 	fmt.Println("layers empty!!!")
	// 	return
	// }

	// for _, layer := range layers {

	// vertexData := textureHash[layer]
	vertexData := &vertexDataTest

	// check to see if there are any vertices at all to draw
	if len(vertexData.vertexData) == 0 {
		return
	}

	//	vertexData.Print()

	// vertexData := vertexDataTest

	//vertexData.Print()
	// BindBuffers(vertexData)
	// vertexData.Print()
	//gl.BufferSubData(gl.ARRAY_BUFFER, 0, len(vertexData.VertexData)*4, gl.Ptr(vertexData.VertexData))

	// gl.BindBuffer(gl.ARRAY_BUFFER, vbo)
	gl.BufferData(gl.ARRAY_BUFFER, len(vertexData.vertexData)*4, gl.Ptr(vertexData.vertexData), gl.DYNAMIC_DRAW)
	// gl.BindBuffer(gl.ELEMENT_ARRAY_BUFFER, elementvbo)
	// gl.BufferData(gl.ELEMENT_ARRAY_BUFFER, len(vertexData.Elements)*4, gl.Ptr(vertexData.Elements), gl.DYNAMIC_DRAW)

	MVP := projectionM.Mul4(viewM) //.Mul4(Model)

	gl.UniformMatrix4fv(MVPid, 1, false, &MVP[0])

	lightPos := mathgl.Vec3{0, 3, 10}
	lightintensities := mathgl.Vec3{1, .4, .2}
	gl.Uniform3f(lightpositionID, lightPos[0], lightPos[1], lightPos[2])
	gl.Uniform3f(lightintensitiesID, lightintensities[0], lightintensities[1], lightintensities[2])
	gl.Uniform3f(cameraPositionID, 0.0, 1.0, -1.0)

	// vertexData.Print()
	// gl.DrawElements(gl.TRIANGLES, int32(len(vertexData.Elements)), gl.UNSIGNED_INT, nil)
	// }

	numTriVerts := int32((len(vertexData.vertexData) / (int(NUM_ATTRIBUTES) * 2)) * 3)

	gl.DrawArrays(gl.TRIANGLES, 0, numTriVerts)

	ClearVertexData()
}
Esempio n. 13
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func BindBuffers() { //vertexData *OpenGLVertexInfo) {

	vertexData := &vertexDataTest

	// check to see if there are any vertices at all to bind
	if len(vertexData.vertexData) == 0 {
		return
	}

	gl.BindBuffer(gl.ARRAY_BUFFER, vbo)
	gl.BufferData(gl.ARRAY_BUFFER, len(vertexData.vertexData)*4, gl.Ptr(vertexData.vertexData), gl.DYNAMIC_DRAW)

	positionAttrib := uint32(gl.GetAttribLocation(program, gl.Str("vertexPosition_modelspace\x00")))
	gl.EnableVertexAttribArray(positionAttrib)
	gl.VertexAttribPointer(positionAttrib, 3, gl.FLOAT, false, 4*NUM_ATTRIBUTES, gl.PtrOffset(0))

	colorAttrib := uint32(gl.GetAttribLocation(program, gl.Str("diffuse\x00")))
	gl.EnableVertexAttribArray(colorAttrib)
	gl.VertexAttribPointer(colorAttrib, 4, gl.FLOAT, false, 4*NUM_ATTRIBUTES, gl.PtrOffset(3*4))

	uvAttrib := uint32(gl.GetAttribLocation(program, gl.Str("vertexUV\x00")))
	gl.EnableVertexAttribArray(uvAttrib)
	gl.VertexAttribPointer(uvAttrib, 2, gl.FLOAT, false, 4*NUM_ATTRIBUTES, gl.PtrOffset(7*4))

	mNormAttrib := uint32(gl.GetAttribLocation(program, gl.Str("mNorm\x00")))
	gl.EnableVertexAttribArray(mNormAttrib)
	gl.VertexAttribPointer(mNormAttrib, 3, gl.FLOAT, false, 4*NUM_ATTRIBUTES, gl.PtrOffset(9*4))

	wNormAttrib := uint32(gl.GetAttribLocation(program, gl.Str("wNorm\x00")))
	gl.EnableVertexAttribArray(wNormAttrib)
	gl.VertexAttribPointer(wNormAttrib, 3, gl.FLOAT, false, 4*NUM_ATTRIBUTES, gl.PtrOffset(12*4))

	shaderMode := uint32(gl.GetAttribLocation(program, gl.Str("mode\x00")))
	gl.EnableVertexAttribArray(shaderMode)
	gl.VertexAttribPointer(shaderMode, 1, gl.FLOAT, false, 4*NUM_ATTRIBUTES, gl.PtrOffset(15*4))

	samplerIdx := uint32(gl.GetAttribLocation(program, gl.Str("samplerIdx\x00")))
	gl.EnableVertexAttribArray(samplerIdx)
	gl.VertexAttribPointer(samplerIdx, 1, gl.FLOAT, false, 4*NUM_ATTRIBUTES, gl.PtrOffset(16*4))

	// gl.BindBuffer(gl.ELEMENT_ARRAY_BUFFER, elementvbo)
	// gl.BufferData(gl.ELEMENT_ARRAY_BUFFER, len(vertexData.Elements)*4, gl.Ptr(vertexData.Elements), gl.STATIC_DRAW)

	// gl.ActiveTexture(gl.TEXTURE0)
	// gl.BindTexture(gl.TEXTURE_2D, 1)
}
Esempio n. 14
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func CreateVBO(size int, data interface{}, usage uint32) (buffer uint32, err error) {
	gl.GenBuffers(1, &buffer)
	if e := gl.GetError(); e != 0 {
		err = fmt.Errorf("ERROR gl.GenBuffer %X", e)
		return
	}
	gl.BindBuffer(gl.ARRAY_BUFFER, buffer)
	if e := gl.GetError(); e != 0 {
		err = fmt.Errorf("ERROR buffer.Bind %X", e)
		return
	}
	gl.BufferData(gl.ARRAY_BUFFER, size, gl.Ptr(data), usage)
	if e := gl.GetError(); e != 0 {
		err = fmt.Errorf("ERROR gl.BufferData %X", e)
		return
	}
	gl.BindBuffer(gl.ARRAY_BUFFER, 0)
	if e := gl.GetError(); e != 0 {
		err = fmt.Errorf("ERROR buffer.Unbind %X", e)
		return
	}
	return
}
Esempio n. 15
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func (r *Framerate) Render(camera *core.Camera) (err error) {
	r.data.Sample()
	var (
		modelView     = mgl32.Ident4()
		dataBytes int = int(r.data.Count) * int(r.stride)
	)
	gl.Uniform4f(r.locColor, 255.0/255.0, 0, 0, 255.0/255.0)
	gl.UniformMatrix4fv(r.locModelView, 1, false, &modelView[0])
	gl.UniformMatrix4fv(r.locProjection, 1, false, &camera.Projection[0])

	if dataBytes > r.vboBytes {
		r.vboBytes = dataBytes
		gl.BufferData(gl.ARRAY_BUFFER, dataBytes, gl.Ptr(r.data.Points), gl.STREAM_DRAW)
	} else {
		gl.BufferSubData(gl.ARRAY_BUFFER, 0, dataBytes, gl.Ptr(r.data.Points))
	}

	gl.DrawArrays(gl.POINTS, 0, r.data.Count)
	if e := gl.GetError(); e != 0 {
		err = fmt.Errorf("ERROR: OpenGL error %X", e)
	}
	return
}
Esempio n. 16
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// CreateSphere generates a 3d uv-sphere with the given radius and returns a Renderable.
func CreateSphere(radius float32, rings int, sectors int) *Renderable {
	// nothing to create
	if rings < 2 || sectors < 2 {
		return nil
	}

	const piDiv2 = math.Pi / 2.0

	verts := make([]float32, 0, rings*sectors)
	indexes := make([]uint32, 0, rings*sectors)
	uvs := make([]float32, 0, rings*sectors)
	normals := make([]float32, 0, rings*sectors)

	R := float64(1.0 / float32(rings-1))
	S := float64(1.0 / float32(sectors-1))

	for ri := 0; ri < int(rings); ri++ {
		for si := 0; si < int(sectors); si++ {
			y := float32(math.Sin(-piDiv2 + math.Pi*float64(ri)*R))
			x := float32(math.Cos(2.0*math.Pi*float64(si)*S) * math.Sin(math.Pi*float64(ri)*R))
			z := float32(math.Sin(2.0*math.Pi*float64(si)*S) * math.Sin(math.Pi*float64(ri)*R))

			uvs = append(uvs, float32(si)*float32(S))
			uvs = append(uvs, float32(ri)*float32(R))

			verts = append(verts, x*radius)
			verts = append(verts, y*radius)
			verts = append(verts, z*radius)

			normals = append(normals, x)
			normals = append(normals, y)
			normals = append(normals, z)

			currentRow := ri * sectors
			nextRow := (ri + 1) * sectors

			indexes = append(indexes, uint32(currentRow+si))
			indexes = append(indexes, uint32(nextRow+si))
			indexes = append(indexes, uint32(nextRow+si+1))

			indexes = append(indexes, uint32(currentRow+si))
			indexes = append(indexes, uint32(nextRow+si+1))
			indexes = append(indexes, uint32(currentRow+si+1))
		}
	}

	r := NewRenderable()
	gl.GenVertexArrays(1, &r.Vao)
	r.FaceCount = rings * sectors * 2

	const floatSize = 4
	const uintSize = 4

	// create a VBO to hold the vertex data
	gl.GenBuffers(1, &r.VertVBO)
	gl.BindBuffer(gl.ARRAY_BUFFER, r.VertVBO)
	gl.BufferData(gl.ARRAY_BUFFER, floatSize*len(verts), gl.Ptr(&verts[0]), gl.STATIC_DRAW)

	// create a VBO to hold the uv data
	gl.GenBuffers(1, &r.UvVBO)
	gl.BindBuffer(gl.ARRAY_BUFFER, r.UvVBO)
	gl.BufferData(gl.ARRAY_BUFFER, floatSize*len(uvs), gl.Ptr(&uvs[0]), gl.STATIC_DRAW)

	// create a VBO to hold the normals data
	gl.GenBuffers(1, &r.NormsVBO)
	gl.BindBuffer(gl.ARRAY_BUFFER, r.NormsVBO)
	gl.BufferData(gl.ARRAY_BUFFER, floatSize*len(normals), gl.Ptr(&normals[0]), gl.STATIC_DRAW)

	// create a VBO to hold the face indexes
	gl.GenBuffers(1, &r.ElementsVBO)
	gl.BindBuffer(gl.ELEMENT_ARRAY_BUFFER, r.ElementsVBO)
	gl.BufferData(gl.ELEMENT_ARRAY_BUFFER, uintSize*len(indexes), gl.Ptr(&indexes[0]), gl.STATIC_DRAW)

	return r
}
Esempio n. 17
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func CreateContext(width, height int) Context {
	vertexShader := `
#version 330
uniform mat4 projection;
uniform mat4 camera;
uniform mat4 model;
in vec3 vert;
void main() {
    gl_Position = projection * camera * model * vec4(vert, 1);
}
` + "\x00"

	fragmentShader := `
#version 330
uniform vec4 color;
out vec4 outputColor;
void main() {
    outputColor = color;
}
` + "\x00"

	vertices := []float32{
		0.0, 0.0, 0.0,
		1.0, 0.0, 0.0,
		1.0, 1.0, 0.0,
		1.0, 1.0, 0.0,
		0.0, 1.0, 0.0,
		0.0, 0.0, 0.0,
	}

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

	glfw.WindowHint(glfw.Resizable, glfw.False)
	glfw.WindowHint(glfw.ContextVersionMajor, 3)
	glfw.WindowHint(glfw.ContextVersionMinor, 3)
	glfw.WindowHint(glfw.OpenGLProfile, glfw.OpenGLCoreProfile)
	glfw.WindowHint(glfw.OpenGLForwardCompatible, glfw.True)
	window, err := glfw.CreateWindow(width, height, "OpenGL", nil, nil)
	if err != nil {
		panic(err)
	}
	window.MakeContextCurrent()

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

	program, err := newProgram(vertexShader, fragmentShader)
	if err != nil {
		panic(err)
	}

	gl.UseProgram(program)

	projection := mgl32.Ortho2D(0, 800, 0, 600)
	projectionUniform := gl.GetUniformLocation(program, gl.Str("projection\x00"))
	gl.UniformMatrix4fv(projectionUniform, 1, false, &projection[0])

	camera := mgl32.LookAtV(mgl32.Vec3{0, 0, 0.5}, mgl32.Vec3{0, 0, 0}, mgl32.Vec3{0, 1, 0})
	cameraUniform := gl.GetUniformLocation(program, gl.Str("camera\x00"))
	gl.UniformMatrix4fv(cameraUniform, 1, false, &camera[0])

	model := mgl32.Ident4()
	modelUniform := gl.GetUniformLocation(program, gl.Str("model\x00"))
	gl.UniformMatrix4fv(modelUniform, 1, false, &model[0])

	var vao uint32
	gl.GenVertexArrays(1, &vao)
	gl.BindVertexArray(vao)

	var vbo uint32
	gl.GenBuffers(1, &vbo)
	gl.BindBuffer(gl.ARRAY_BUFFER, vbo)
	gl.BufferData(gl.ARRAY_BUFFER, len(vertices)*4, gl.Ptr(vertices), gl.STATIC_DRAW)

	vertAttrib := uint32(gl.GetAttribLocation(program, gl.Str("vert\x00")))
	gl.EnableVertexAttribArray(vertAttrib)
	gl.VertexAttribPointer(vertAttrib, 3, gl.FLOAT, false, 3*4, gl.PtrOffset(0))

	gl.Enable(gl.DEPTH_TEST)
	gl.DepthFunc(gl.LESS)

	return Context{Window: window, program: program}
}
Esempio n. 18
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func main() {
	vertices, normals := obj.Parse(os.Args[1])

	// initialize GLFW
	if err := glfw.Init(); err != nil {
		panic(err)
	}
	defer glfw.Terminate()

	// set opengl core profile 3.3
	glfw.WindowHint(glfw.ContextVersionMajor, 3)
	glfw.WindowHint(glfw.ContextVersionMinor, 3)
	glfw.WindowHint(glfw.OpenGLProfile, glfw.OpenGLCoreProfile)
	glfw.WindowHint(glfw.OpenGLForwardCompatible, glfw.True)

	window, err := glfw.CreateWindow(640, 480, "GOpenGL", nil, nil)
	if err != nil {
		panic(err)
	}
	window.MakeContextCurrent()

	// initialise OpenGL library
	if err := gl.Init(); err != nil {
		panic(err)
	}

	// link program from shaders
	program, err := newProgram("vertex.glsl", "fragment.glsl")
	if err != nil {
		panic(err)
	}
	gl.UseProgram(program)

	// vertex attribute object holds links between attributes and vbo
	var vao uint32
	gl.GenVertexArrays(1, &vao)
	gl.BindVertexArray(vao)

	// vertex buffer with per-vertex data
	var vbo [2]uint32
	gl.GenBuffers(2, &vbo[0])

	// position data
	gl.BindBuffer(gl.ARRAY_BUFFER, vbo[0])
	gl.BufferData(gl.ARRAY_BUFFER, len(vertices)*4, gl.Ptr(vertices), gl.STATIC_DRAW)

	// set up position attribute with layout of vertices
	posAttrib := uint32(gl.GetAttribLocation(program, gl.Str("position\x00")))
	gl.VertexAttribPointer(posAttrib, 3, gl.FLOAT, false, 3*4, gl.PtrOffset(0))
	gl.EnableVertexAttribArray(posAttrib)

	// normal data
	gl.BindBuffer(gl.ARRAY_BUFFER, vbo[1])
	gl.BufferData(gl.ARRAY_BUFFER, len(normals)*4, gl.Ptr(normals), gl.STATIC_DRAW)

	normAttrib := uint32(gl.GetAttribLocation(program, gl.Str("normal\x00")))
	gl.VertexAttribPointer(normAttrib, 3, gl.FLOAT, false, 3*4, gl.PtrOffset(0))
	gl.EnableVertexAttribArray(normAttrib)

	uniModel := gl.GetUniformLocation(program, gl.Str("model\x00"))
	uniView := gl.GetUniformLocation(program, gl.Str("view\x00"))
	uniProj := gl.GetUniformLocation(program, gl.Str("proj\x00"))

	matView := mgl32.LookAt(2.0, 2.0, 2.0,
		0.0, 0.0, 0.0,
		0.0, 0.0, 1.0)
	gl.UniformMatrix4fv(uniView, 1, false, &matView[0])

	matProj := mgl32.Perspective(mgl32.DegToRad(45.0), 640.0/480.0, 1.0, 10.0)
	gl.UniformMatrix4fv(uniProj, 1, false, &matProj[0])

	uniLightDir := gl.GetUniformLocation(program, gl.Str("lightDir\x00"))
	uniLightCol := gl.GetUniformLocation(program, gl.Str("lightCol\x00"))

	gl.Uniform3f(uniLightDir, -0.5, 0.0, -1.0)
	gl.Uniform3f(uniLightCol, 0.0, 0.5, 0.5)

	startTime := glfw.GetTime()
	gl.Enable(gl.DEPTH_TEST)
	gl.ClearColor(1.0, 1.0, 1.0, 1.0)

	for !window.ShouldClose() {
		// clear buffer
		gl.Clear(gl.COLOR_BUFFER_BIT | gl.DEPTH_BUFFER_BIT)

		matRot := mgl32.HomogRotate3DZ(float32(glfw.GetTime() - startTime))
		gl.UniformMatrix4fv(uniModel, 1, false, &matRot[0])

		gl.DrawArrays(gl.TRIANGLES, 0, int32(len(vertices)))

		window.SwapBuffers()
		glfw.PollEvents()
	}
}
Esempio n. 19
0
func (c *Chunk) buildLandscapeRenderable() *fizzle.Renderable {
	var xmax, ymax, zmax float32 = 1.0, 1.0, 1.0
	var xmin, ymin, zmin float32 = 0.0, 0.0, 0.0

	/* Cube vertices are layed out like this:

	  +--------+           6          5
	/ |       /|
	+--------+ |        1          0        +Y
	| |      | |                            |___ +X
	| +------|-+           7          4    /
	|/       |/                           +Z
	+--------+          2          3

	*/

	verts := [...]float32{
		xmax, ymax, zmax, xmin, ymax, zmax, xmin, ymin, zmax, xmax, ymin, zmax, // v0,v1,v2,v3 (front)
		xmax, ymax, zmin, xmax, ymax, zmax, xmax, ymin, zmax, xmax, ymin, zmin, // v5,v0,v3,v4 (right)
		xmax, ymax, zmin, xmin, ymax, zmin, xmin, ymax, zmax, xmax, ymax, zmax, // v5,v6,v1,v0 (top)
		xmin, ymax, zmax, xmin, ymax, zmin, xmin, ymin, zmin, xmin, ymin, zmax, // v1,v6,v7,v2 (left)
		xmax, ymin, zmax, xmin, ymin, zmax, xmin, ymin, zmin, xmax, ymin, zmin, // v3,v2,v7,v4 (bottom)
		xmin, ymax, zmin, xmax, ymax, zmin, xmax, ymin, zmin, xmin, ymin, zmin, // v6,v5,v4,v7 (back)
	}
	indexes := [...]uint32{
		0, 1, 2, 2, 3, 0,
	}
	uvs := [...]float32{
		1.0, 1.0, 0.0, 1.0, 0.0, 0.0, 1.0, 0.0,
	}

	normals := [...]float32{
		0, 0, 1, 0, 0, 1, 0, 0, 1, 0, 0, 1, // v0,v1,v2,v3 (front)
		1, 0, 0, 1, 0, 0, 1, 0, 0, 1, 0, 0, // v5,v0,v3,v4 (right)
		0, 1, 0, 0, 1, 0, 0, 1, 0, 0, 1, 0, // v5,v6,v1,v0 (top)
		-1, 0, 0, -1, 0, 0, -1, 0, 0, -1, 0, 0, // v1,v6,v7,v2 (left)
		0, -1, 0, 0, -1, 0, 0, -1, 0, 0, -1, 0, // v3,v2,v7,v4 (bottom)
		0, 0, -1, 0, 0, -1, 0, 0, -1, 0, 0, -1, // v6,v5,v4,v7 (back)
	}

	sectorVerts := make([]float32, 0, len(verts)*ChunkSize3)
	sectorNormals := make([]float32, 0, len(verts)*ChunkSize3)
	sectorIndexes := make([]uint32, 0, len(indexes)*ChunkSize3)
	sectorUVs := make([]float32, 0, len(uvs)*ChunkSize3)

	const comboFloatsPerGrid int = len(verts)
	sectorCombo := make([]float32, 0, comboFloatsPerGrid*ChunkSize3)

	var faceCount uint32

	// create some temporary buffers
	instVerts := make([]float32, 12)
	instIndexes := make([]uint32, 6)
	instNorms := make([]float32, 12)
	instCombo := make([]float32, 12)

	// loop through each block
	for y := 0; y < ChunkSize; y++ {
		for x := 0; x < ChunkSize; x++ {
			for z := 0; z < ChunkSize; z++ {
				worldX := c.X*ChunkSize + x
				worldY := c.Y*ChunkSize + y
				worldZ := c.Z*ChunkSize + z

				// if the block itself is not visible, then just move on
				if c.IsBlockVisible(x, y, z) == false {
					continue
				}

				// get the block
				block := c.BlockAt(x, y, z)

				// process each face on the block separately
				currentFaceCount := 0
				for face := 0; face < 6; face++ {
					// do we need this face? check to see if there's an obstructing block.
					// NOTE: this is done with a lame implementation right now, because
					// going back to the manager isn't efficient.
					switch {
					case face == 0:
						b, _ := c.Owner.GetBlockAt(worldX, worldY, worldZ+1)
						if b != nil && b.Type > 0 {
							continue
						}
					case face == 1:
						b, _ := c.Owner.GetBlockAt(worldX+1, worldY, worldZ)
						if b != nil && b.Type > 0 {
							continue
						}
					case face == 2:
						b, _ := c.Owner.GetBlockAt(worldX, worldY+1, worldZ)
						if b != nil && b.Type > 0 {
							continue
						}
					case face == 3:
						b, _ := c.Owner.GetBlockAt(worldX-1, worldY, worldZ)
						if b != nil && b.Type > 0 {
							continue
						}
					case face == 4:
						b, _ := c.Owner.GetBlockAt(worldX, worldY-1, worldZ)
						if b != nil && b.Type > 0 {
							continue
						}
					case face == 5:
						b, _ := c.Owner.GetBlockAt(worldX, worldY, worldZ-1)
						if b != nil && b.Type > 0 {
							continue
						}
					}

					// time to make the vertices
					baseV := face * 12
					for iv := 0; iv < 4; iv++ {
						iv3 := iv * 3
						instVerts[iv3] = verts[baseV+iv3] + float32(x)
						instVerts[iv3+1] = verts[baseV+iv3+1] + float32(y)
						instVerts[iv3+2] = verts[baseV+iv3+2] + float32(z)

						// add the normals too
						instNorms[iv3] = normals[baseV+iv3]
						instNorms[iv3+1] = normals[baseV+iv3+1]
						instNorms[iv3+2] = normals[baseV+iv3+2]

						// add the combo, per-vertex data as well
						instCombo[iv3] = float32(block.Color[0]) / 256.0
						instCombo[iv3+1] = float32(block.Color[1]) / 256.0
						instCombo[iv3+2] = float32(block.Color[2]) / 256.0
					}

					// time to make the element indeces
					for iv := 0; iv < 6; iv++ {
						instIndexes[iv] = indexes[iv] + uint32(currentFaceCount*4) + uint32(faceCount*2)
					}

					sectorVerts = append(sectorVerts, instVerts...)
					sectorIndexes = append(sectorIndexes, instIndexes...)
					sectorUVs = append(sectorUVs, uvs[:]...)
					sectorNormals = append(sectorNormals, instNorms...)
					sectorCombo = append(sectorCombo, instCombo...)

					// we're not skiping the face, so lets boost the count
					currentFaceCount += 1
				}

				faceCount += uint32(currentFaceCount) * 2
			} // z
		} // x
	} // y

	// if we didn't make any faces, just stop here and return an empty renderable
	r := fizzle.NewRenderable()
	r.Core = fizzle.NewRenderableCore()
	if faceCount < 1 {
		return r
	}

	r.ShaderName = "landscape"
	r.FaceCount = faceCount
	r.BoundingRect.Top[0] = ChunkSize
	r.BoundingRect.Top[1] = ChunkSize
	r.BoundingRect.Top[2] = ChunkSize
	r.Location[0] = float32(c.X * ChunkSize)
	r.Location[1] = float32(c.Y * ChunkSize)
	r.Location[2] = float32(c.Z * ChunkSize)

	r.Core.DiffuseColor[0] = 1.0
	r.Core.DiffuseColor[1] = 1.0
	r.Core.DiffuseColor[2] = 1.0
	r.Core.DiffuseColor[3] = 1.0
	r.Core.SpecularColor[0] = 1.0
	r.Core.SpecularColor[1] = 1.0
	r.Core.SpecularColor[2] = 1.0
	r.Core.SpecularColor[3] = 1.0
	r.Core.Shininess = 0.00

	// calculate the memory size of floats used to calculate total memory size of float arrays
	const floatSize = 4
	const uintSize = 4

	//groggy.Logsf("DEBUG", "buildLandscapeRenderable() v:%d, uv:%d, n:%d, elem:%d, faces:%d", len(sectorVerts), len(sectorUVs), len(sectorNormals), len(sectorIndexes), faceCount)

	// create a VBO to hold the vertex data
	gl.GenBuffers(1, &r.Core.VertVBO)
	gl.BindBuffer(gl.ARRAY_BUFFER, r.Core.VertVBO)
	gl.BufferData(gl.ARRAY_BUFFER, floatSize*len(sectorVerts), gl.Ptr(&sectorVerts[0]), gl.STATIC_DRAW)

	// create a VBO to hold the uv data
	gl.GenBuffers(1, &r.Core.UvVBO)
	gl.BindBuffer(gl.ARRAY_BUFFER, r.Core.UvVBO)
	gl.BufferData(gl.ARRAY_BUFFER, floatSize*len(sectorUVs), gl.Ptr(&sectorUVs[0]), gl.STATIC_DRAW)

	// create a VBO to hold the normals data
	gl.GenBuffers(1, &r.Core.NormsVBO)
	gl.BindBuffer(gl.ARRAY_BUFFER, r.Core.NormsVBO)
	gl.BufferData(gl.ARRAY_BUFFER, floatSize*len(sectorNormals), gl.Ptr(&sectorNormals[0]), gl.STATIC_DRAW)

	// create a VBO to hold the combo data
	gl.GenBuffers(1, &r.Core.ComboVBO1)
	gl.BindBuffer(gl.ARRAY_BUFFER, r.Core.ComboVBO1)
	gl.BufferData(gl.ARRAY_BUFFER, floatSize*len(sectorCombo), gl.Ptr(&sectorCombo[0]), gl.STATIC_DRAW)

	// create a VBO to hold the face indexes
	gl.GenBuffers(1, &r.Core.ElementsVBO)
	gl.BindBuffer(gl.ELEMENT_ARRAY_BUFFER, r.Core.ElementsVBO)
	gl.BufferData(gl.ELEMENT_ARRAY_BUFFER, uintSize*len(sectorIndexes), gl.Ptr(&sectorIndexes[0]), gl.STATIC_DRAW)

	return r
}
Esempio n. 20
0
func main() {
	// init glfw
	if err := glfw.Init(); err != nil {
		panic(err)
	}

	defer glfw.Terminate()

	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)

	// make an application window
	window, err := glfw.CreateWindow(windowWidth, windowHeight, "Hello", nil, nil)
	if err != nil {
		panic(err)
	}
	window.MakeContextCurrent()

	// init gl
	if err := gl.Init(); err != nil {
		panic(err)
	}
	fmt.Println("OpenGL version", gl.GoStr(gl.GetString(gl.VERSION)))

	// create vertex & fragment shader
	program, err := newProgram(vertexShader, fragmentShader)
	if err != nil {
		panic(err)
	}
	gl.UseProgram(program)

	gl.BindFragDataLocation(program, 0, gl.Str("fc\x00"))

	points := []float32{
		-0.5, -0.5,
		0.5, 0.5,
		0.5, -0.5,
		-0.5, 0.5,
	}

	vertices := []uint32{
		0, 2, 1, 3,
	}

	// configure the vertex data
	var vao uint32
	gl.GenVertexArrays(1, &vao)
	gl.BindVertexArray(vao)

	defer gl.BindVertexArray(0)

	var vbo uint32
	gl.GenBuffers(1, &vbo)
	gl.BindBuffer(gl.ARRAY_BUFFER, vbo)
	gl.BufferData(gl.ARRAY_BUFFER, len(points)*4, gl.Ptr(points), gl.STATIC_DRAW)

	var ibo uint32
	gl.GenBuffers(1, &ibo)
	gl.BindBuffer(gl.ELEMENT_ARRAY_BUFFER, ibo)
	gl.BufferData(gl.ELEMENT_ARRAY_BUFFER, len(vertices)*4, gl.Ptr(vertices), gl.STATIC_DRAW)

	vertAttrib := uint32(gl.GetAttribLocation(program, gl.Str("pv\x00")))
	gl.EnableVertexAttribArray(vertAttrib)
	gl.VertexAttribPointer(vertAttrib, 2, gl.FLOAT, false, 2*4, gl.PtrOffset(0))

	// global settings
	gl.Enable(gl.DEPTH_TEST)
	gl.DepthFunc(gl.LESS)
	gl.ClearColor(1.0, 1.0, 1.0, 1.0)

	for !window.ShouldClose() {
		gl.Clear(gl.COLOR_BUFFER_BIT | gl.DEPTH_BUFFER_BIT)

		gl.UseProgram(program)

		gl.BindVertexArray(vao)

		gl.DrawElements(gl.LINE_LOOP, 4, gl.UNSIGNED_INT, gl.PtrOffset(0))

		window.SwapBuffers()
		glfw.PollEvents()
	}
}
Esempio n. 21
0
func (tr *SpriteRenderer) Draw(instances []SpriteConfig) error {
	var (
		bytesNeeded int
		byteoffset  int
		count       int32
		data        unsafe.Pointer
		float       float32 = 0
		floatSize   uint32
		i           uint32
		offset      unsafe.Pointer
		sprite      SpriteConfig
		stride      int32
	)

	floatSize = uint32(unsafe.Sizeof(float))
	stride = int32(unsafe.Sizeof(sprite))

	gl.UseProgram(tr.program)
	gl.Uniform1i(tr.textureUnitLoc, 0)

	// Instance data binding
	gl.BindBuffer(gl.ARRAY_BUFFER, tr.instanceVBO)
	count = int32(len(instances))
	bytesNeeded = int(stride * count)
	data = gl.Ptr(instances)
	if bytesNeeded > tr.instanceBytes {
		gl.BufferData(gl.ARRAY_BUFFER, bytesNeeded, data, gl.STREAM_DRAW)
		tr.instanceBytes = bytesNeeded
	} else {
		gl.BufferSubData(gl.ARRAY_BUFFER, 0, bytesNeeded, data)
	}

	gl.EnableVertexAttribArray(tr.translationLoc)
	gl.VertexAttribPointer(tr.translationLoc, 3, gl.FLOAT, false, stride, tr.offAttrX)
	gl.VertexAttribDivisor(tr.translationLoc, 1)

	gl.EnableVertexAttribArray(tr.rotationLoc)
	gl.VertexAttribPointer(tr.rotationLoc, 3, gl.FLOAT, false, stride, tr.offAttrRotationX)
	gl.VertexAttribDivisor(tr.rotationLoc, 1)

	gl.EnableVertexAttribArray(tr.scaleLoc)
	gl.VertexAttribPointer(tr.scaleLoc, 3, gl.FLOAT, false, stride, tr.offAttrScaleX)
	gl.VertexAttribDivisor(tr.scaleLoc, 1)

	gl.EnableVertexAttribArray(tr.colorLoc)
	gl.VertexAttribPointer(tr.colorLoc, 4, gl.FLOAT, false, stride, tr.offAttrColor)
	gl.VertexAttribDivisor(tr.colorLoc, 1)

	for i = 0; i < 4; i++ {
		byteoffset = int(i * 4 * floatSize)
		offset = gl.PtrOffset(tr.offAttrPointAdj + byteoffset)
		gl.EnableVertexAttribArray(tr.pointAdjLoc + i)
		gl.VertexAttribPointer(tr.pointAdjLoc+i, 4, gl.FLOAT, false, stride, offset)
		gl.VertexAttribDivisor(tr.pointAdjLoc+i, 1)

		offset = gl.PtrOffset(tr.offAttrTextureAdj + byteoffset)
		gl.EnableVertexAttribArray(tr.textureAdjLoc + i)
		gl.VertexAttribPointer(tr.textureAdjLoc+i, 4, gl.FLOAT, false, stride, offset)
		gl.VertexAttribDivisor(tr.textureAdjLoc+i, 1)
	}
	// Projection
	gl.UniformMatrix4fv(tr.projectionLoc, 1, false, &tr.Renderer.Camera.Projection[0])

	// Actually draw.
	gl.DrawArraysInstanced(gl.TRIANGLES, 0, 6, int32(len(instances)))

	// Undo instance attr repetition.
	gl.VertexAttribDivisor(tr.translationLoc, 0)
	gl.VertexAttribDivisor(tr.rotationLoc, 0)
	gl.VertexAttribDivisor(tr.scaleLoc, 0)
	gl.VertexAttribDivisor(tr.colorLoc, 0)
	for i = 0; i < 4; i++ {
		gl.VertexAttribDivisor(tr.pointAdjLoc+i, 0)
		gl.VertexAttribDivisor(tr.textureAdjLoc+i, 0)
	}

	gl.BindBuffer(gl.ARRAY_BUFFER, 0)
	return nil
}
Esempio n. 22
0
func loadBoundingBox(f *Font, X1 Point, X2 Point) (b *BoundingBox, err error) {
	b = new(BoundingBox)
	b.font = f

	// create shader program and define attributes and uniforms
	b.program, err = NewProgram(boxVertexShaderSource, boxFragmentShaderSource)
	if err != nil {
		return b, err
	}

	// ebo, vbo data
	b.vboIndexCount = 4 * 2 // 4 indexes per bounding box (containing 2 position)
	b.eboIndexCount = 6     // each rune requires 6 triangle indices for a quad
	b.vboData = make([]float32, b.vboIndexCount, b.vboIndexCount)
	b.eboData = make([]int32, b.eboIndexCount, b.eboIndexCount)
	b.makeBufferData(X1, X2)
	if f.IsDebug {
		fmt.Printf("bounding %v %v\n", X1, X2)
		fmt.Printf("bounding vbo data\n%v\n", b.vboData)
		fmt.Printf("bounding ebo data\n%v\n", b.eboData)
	}

	// attributes
	b.centeredPosition = uint32(gl.GetAttribLocation(b.program, gl.Str("centered_position\x00")))

	// uniforms
	b.finalPositionUniform = gl.GetUniformLocation(b.program, gl.Str("final_position\x00"))
	b.orthographicMatrixUniform = gl.GetUniformLocation(b.program, gl.Str("orthographic_matrix\x00"))

	// size of glfloat
	glfloatSize := int32(4)

	gl.GenVertexArrays(1, &b.vao)
	gl.GenBuffers(1, &b.vbo)
	gl.GenBuffers(1, &b.ebo)

	// vao
	gl.BindVertexArray(b.vao)

	// vbo
	// specify the buffer for which the VertexAttribPointer calls apply
	gl.BindBuffer(gl.ARRAY_BUFFER, b.vbo)

	gl.EnableVertexAttribArray(b.centeredPosition)
	gl.VertexAttribPointer(
		b.centeredPosition,
		2,
		gl.FLOAT,
		false,
		0,
		gl.PtrOffset(0),
	)
	gl.BufferData(gl.ARRAY_BUFFER, int(glfloatSize)*b.vboIndexCount, gl.Ptr(b.vboData), gl.DYNAMIC_DRAW)

	gl.BindBuffer(gl.ELEMENT_ARRAY_BUFFER, b.ebo)
	gl.BufferData(gl.ELEMENT_ARRAY_BUFFER, int(glfloatSize)*b.eboIndexCount, gl.Ptr(b.eboData), gl.DYNAMIC_DRAW)
	gl.BindVertexArray(0)

	// not necesssary, but i just want to better understand using vertex arrays
	gl.BindBuffer(gl.ARRAY_BUFFER, 0)
	gl.BindBuffer(gl.ELEMENT_ARRAY_BUFFER, 0)

	return b, nil
}
Esempio n. 23
0
// bindString generates all of the vertex buffers and vertex arrays for a single constant line of
// text.  No error checking is done.
func (d *Dictionary) bindString(str string) strData {
	var data strData
	gl.GenVertexArrays(1, &data.varrays[0])
	gl.BindVertexArray(data.varrays[0])
	gl.GenBuffers(2, &data.vbuffers[0])

	var positions, texcoords []float32

	var pen pos
	var prev rune
	for _, r := range str {
		ri := d.Runes[r]

		var scale float32 = 1.0 / float32(d.GlyphMax.Dy())

		var posMin, posMax pos
		posMin.x = pen.x + float32(ri.GlyphBounds.Min.X)*scale
		posMin.y = pen.y + float32(ri.GlyphBounds.Min.Y)*scale
		posMax.x = pen.x + float32(ri.GlyphBounds.Max.X)*scale
		posMax.y = pen.y + float32(ri.GlyphBounds.Max.Y)*scale

		var texMin, texMax pos
		texMin.x = float32(ri.PixBounds.Min.X) / float32(d.Dx)
		texMin.y = float32(ri.PixBounds.Min.Y) / float32(d.Dy)
		texMax.x = float32(ri.PixBounds.Max.X) / float32(d.Dx)
		texMax.y = float32(ri.PixBounds.Max.Y) / float32(d.Dy)
		pen.x += float32(ri.AdvanceWidth) * scale
		pen.x += float32(d.Kerning[RunePair{prev, r}]) * scale
		// pen.x -= float32(d.Kerning[RunePair{prev, r}]) * scale

		positions = append(positions, posMin.x) // lower left
		positions = append(positions, posMin.y)
		positions = append(positions, posMin.x) // upper left
		positions = append(positions, posMax.y)
		positions = append(positions, posMax.x) // upper right
		positions = append(positions, posMax.y)
		positions = append(positions, posMin.x) // lower left
		positions = append(positions, posMin.y)
		positions = append(positions, posMax.x) // upper right
		positions = append(positions, posMax.y)
		positions = append(positions, posMax.x) // lower right
		positions = append(positions, posMin.y)
		texcoords = append(texcoords, texMin.x) // lower left
		texcoords = append(texcoords, texMax.y)
		texcoords = append(texcoords, texMin.x) // upper left
		texcoords = append(texcoords, texMin.y)
		texcoords = append(texcoords, texMax.x) // upper right
		texcoords = append(texcoords, texMin.y)
		texcoords = append(texcoords, texMin.x) // lower left
		texcoords = append(texcoords, texMax.y)
		texcoords = append(texcoords, texMax.x) // upper right
		texcoords = append(texcoords, texMin.y)
		texcoords = append(texcoords, texMax.x) // lower right
		texcoords = append(texcoords, texMax.y)

		prev = r
	}
	data.count = int32(len(positions))
	gl.BindBuffer(gl.ARRAY_BUFFER, data.vbuffers[0])
	gl.BufferData(gl.ARRAY_BUFFER, len(positions)*int(unsafe.Sizeof(positions[0])), gl.Ptr(&positions[0]), gl.STATIC_DRAW)
	location, _ := render.GetAttribLocation("glop.font", "position")
	gl.EnableVertexAttribArray(uint32(location))
	gl.VertexAttribPointer(uint32(location), 2, gl.FLOAT, false, 0, gl.PtrOffset(0))

	gl.BindBuffer(gl.ARRAY_BUFFER, data.vbuffers[1])
	gl.BufferData(gl.ARRAY_BUFFER, len(texcoords)*int(unsafe.Sizeof(texcoords[0])), gl.Ptr(&texcoords[0]), gl.STATIC_DRAW)
	location, _ = render.GetAttribLocation("glop.font", "texCoord")
	gl.EnableVertexAttribArray(uint32(location))
	gl.VertexAttribPointer(uint32(location), 2, gl.FLOAT, false, 0, gl.PtrOffset(0))

	return data
}
Esempio n. 24
0
func main() {
	// init glfw
	if err := glfw.Init(); err != nil {
		panic(err)
	}

	defer glfw.Terminate()

	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)

	// make an application window
	window, err := glfw.CreateWindow(windowWidth, windowHeight, "Transform", nil, nil)
	if err != nil {
		panic(err)
	}
	window.MakeContextCurrent()

	// init gl
	if err := gl.Init(); err != nil {
		panic(err)
	}
	fmt.Println("OpenGL version", gl.GoStr(gl.GetString(gl.VERSION)))

	// create vertex & fragment shader
	program, err := newProgram(vertexShader, fragmentShader)
	if err != nil {
		panic(err)
	}
	gl.UseProgram(program)

	projection := mgl32.Perspective(mgl32.DegToRad(45.0), float32(windowWidth)/windowHeight, 0.1, 10.0)
	projectionUniform := gl.GetUniformLocation(program, gl.Str("projection\x00"))
	gl.UniformMatrix4fv(projectionUniform, 1, false, &projection[0])

	camera := mgl32.LookAtV(
		mgl32.Vec3{3, 3, 3},
		mgl32.Vec3{0, 0, 0},
		mgl32.Vec3{0, 1, 0},
	)
	cameraUniform := gl.GetUniformLocation(program, gl.Str("camera\x00"))
	gl.UniformMatrix4fv(cameraUniform, 1, false, &camera[0])

	model := mgl32.Ident4()
	modelUniform := gl.GetUniformLocation(program, gl.Str("model\x00"))
	gl.UniformMatrix4fv(modelUniform, 1, false, &model[0])

	gl.BindFragDataLocation(program, 0, gl.Str("vert\x00"))

	points := []float32{
		-0.9, -0.9, -0.9,
		0.9, -0.9, -0.9,
		0.9, -0.9, 0.9,
		-0.9, -0.9, 0.9,
		-0.9, 0.9, -0.9,
		0.9, 0.9, -0.9,
		0.9, 0.9, 0.9,
		-0.9, 0.9, 0.9,
	}

	vertices := []uint32{
		0, 1,
		1, 2,
		2, 3,
		3, 0,
		0, 4,
		1, 5,
		2, 6,
		3, 7,
		4, 5,
		5, 6,
		6, 7,
		7, 4,
	}

	// configure the vertex data
	var vao uint32
	gl.GenVertexArrays(1, &vao)
	gl.BindVertexArray(vao)

	defer gl.BindVertexArray(0)

	var vbo uint32
	gl.GenBuffers(1, &vbo)
	gl.BindBuffer(gl.ARRAY_BUFFER, vbo)
	gl.BufferData(gl.ARRAY_BUFFER, len(points)*4, gl.Ptr(points), gl.STATIC_DRAW)

	var ibo uint32
	gl.GenBuffers(1, &ibo)
	gl.BindBuffer(gl.ELEMENT_ARRAY_BUFFER, ibo)
	gl.BufferData(gl.ELEMENT_ARRAY_BUFFER, len(vertices)*4, gl.Ptr(vertices), gl.STATIC_DRAW)

	vertAttrib := uint32(gl.GetAttribLocation(program, gl.Str("vert\x00")))
	gl.EnableVertexAttribArray(vertAttrib)
	gl.VertexAttribPointer(vertAttrib, 3, gl.FLOAT, false, 3*4, gl.PtrOffset(0))

	// global settings
	gl.Enable(gl.DEPTH_TEST)
	gl.DepthFunc(gl.LESS)
	gl.ClearColor(0.0, 0.0, 0.0, 1.0)

	angleX := 0.0
	angleY := 0.0
	angleZ := 0.0
	previousTime := glfw.GetTime()

	for !window.ShouldClose() {
		gl.Clear(gl.COLOR_BUFFER_BIT | gl.DEPTH_BUFFER_BIT)

		time := glfw.GetTime()
		elapsed := time - previousTime
		previousTime = time

		angleX += math.Sin((elapsed / period) * math.Pi * 2.0)
		angleY += math.Sin((elapsed / period) / 6.0 * math.Pi * 2.0)
		angleZ += math.Sin((elapsed / period) / 3.0 * math.Pi * 2.0)
		model = mgl32.HomogRotate3DY(float32(angleY)).Mul4(mgl32.HomogRotate3DX(float32(angleX))).Mul4(mgl32.HomogRotate3DZ(float32(angleZ)))
		gl.UseProgram(program)
		gl.UniformMatrix4fv(modelUniform, 1, false, &model[0])

		gl.BindVertexArray(vao)

		gl.DrawElements(gl.LINES, int32(len(vertices)), gl.UNSIGNED_INT, gl.PtrOffset(0))

		window.SwapBuffers()
		glfw.PollEvents()
	}
}
Esempio n. 25
0
// CreateCube makes a new Renderable object with the specified dimensions for the cube.
func CreateCube(xmin, ymin, zmin, xmax, ymax, zmax float32) *Renderable {
	/* Cube vertices are layed out like this:

	  +--------+           6          5
	/ |       /|
	+--------+ |        1          0        +Y
	| |      | |                            |___ +X
	| +------|-+           7          4    /
	|/       |/                           +Z
	+--------+          2          3

	*/

	verts := [...]float32{
		xmax, ymax, zmax, xmin, ymax, zmax, xmin, ymin, zmax, xmax, ymin, zmax, // v0,v1,v2,v3 (front)
		xmax, ymax, zmin, xmax, ymax, zmax, xmax, ymin, zmax, xmax, ymin, zmin, // v5,v0,v3,v4 (right)
		xmax, ymax, zmin, xmin, ymax, zmin, xmin, ymax, zmax, xmax, ymax, zmax, // v5,v6,v1,v0 (top)
		xmin, ymax, zmax, xmin, ymax, zmin, xmin, ymin, zmin, xmin, ymin, zmax, // v1,v6,v7,v2 (left)
		xmax, ymin, zmax, xmin, ymin, zmax, xmin, ymin, zmin, xmax, ymin, zmin, // v3,v2,v7,v4 (bottom)
		xmin, ymax, zmin, xmax, ymax, zmin, xmax, ymin, zmin, xmin, ymin, zmin, // v6,v5,v4,v7 (back)
	}
	indexes := [...]uint32{
		0, 1, 2, 2, 3, 0,
		4, 5, 6, 6, 7, 4,
		8, 9, 10, 10, 11, 8,
		12, 13, 14, 14, 15, 12,
		16, 17, 18, 18, 19, 16,
		20, 21, 22, 22, 23, 20,
	}
	uvs := [...]float32{
		1.0, 1.0, 0.0, 1.0, 0.0, 0.0, 1.0, 0.0,
		1.0, 1.0, 0.0, 1.0, 0.0, 0.0, 1.0, 0.0,
		1.0, 1.0, 0.0, 1.0, 0.0, 0.0, 1.0, 0.0,
		1.0, 1.0, 0.0, 1.0, 0.0, 0.0, 1.0, 0.0,
		1.0, 1.0, 0.0, 1.0, 0.0, 0.0, 1.0, 0.0,
		1.0, 1.0, 0.0, 1.0, 0.0, 0.0, 1.0, 0.0,
	}
	normals := [...]float32{
		0, 0, 1, 0, 0, 1, 0, 0, 1, 0, 0, 1, // v0,v1,v2,v3 (front)
		1, 0, 0, 1, 0, 0, 1, 0, 0, 1, 0, 0, // v5,v0,v3,v4 (right)
		0, 1, 0, 0, 1, 0, 0, 1, 0, 0, 1, 0, // v5,v6,v1,v0 (top)
		-1, 0, 0, -1, 0, 0, -1, 0, 0, -1, 0, 0, // v1,v6,v7,v2 (left)
		0, -1, 0, 0, -1, 0, 0, -1, 0, 0, -1, 0, // v3,v2,v7,v4 (bottom)
		0, 0, -1, 0, 0, -1, 0, 0, -1, 0, 0, -1, // v6,v5,v4,v7 (back)
	}

	r := NewRenderable()
	gl.GenVertexArrays(1, &r.Vao)
	r.FaceCount = 12

	const floatSize = 4
	const uintSize = 4

	// create a VBO to hold the vertex data
	gl.GenBuffers(1, &r.VertVBO)
	gl.BindBuffer(gl.ARRAY_BUFFER, r.VertVBO)
	gl.BufferData(gl.ARRAY_BUFFER, floatSize*len(verts), gl.Ptr(&verts[0]), gl.STATIC_DRAW)

	// create a VBO to hold the uv data
	gl.GenBuffers(1, &r.UvVBO)
	gl.BindBuffer(gl.ARRAY_BUFFER, r.UvVBO)
	gl.BufferData(gl.ARRAY_BUFFER, floatSize*len(uvs), gl.Ptr(&uvs[0]), gl.STATIC_DRAW)

	// create a VBO to hold the normals data
	gl.GenBuffers(1, &r.NormsVBO)
	gl.BindBuffer(gl.ARRAY_BUFFER, r.NormsVBO)
	gl.BufferData(gl.ARRAY_BUFFER, floatSize*len(normals), gl.Ptr(&normals[0]), gl.STATIC_DRAW)

	// create a VBO to hold the face indexes
	gl.GenBuffers(1, &r.ElementsVBO)
	gl.BindBuffer(gl.ELEMENT_ARRAY_BUFFER, r.ElementsVBO)
	gl.BufferData(gl.ELEMENT_ARRAY_BUFFER, uintSize*len(indexes), gl.Ptr(&indexes[0]), gl.STATIC_DRAW)

	return r
}