func (c *Context) NewShader(shaderType ShaderType, source string) (Shader, error) { var shader Shader if err := c.runOnContextThread(func() error { s := gl.CreateShader(uint32(shaderType)) if s == 0 { return fmt.Errorf("opengl: glCreateShader failed: shader type: %d", shaderType) } cSources, free := gl.Strs(source + "\x00") gl.ShaderSource(uint32(s), 1, cSources, nil) free() gl.CompileShader(s) var v int32 gl.GetShaderiv(s, gl.COMPILE_STATUS, &v) if v == gl.FALSE { log := []uint8{} gl.GetShaderiv(uint32(s), gl.INFO_LOG_LENGTH, &v) if v != 0 { log = make([]uint8, int(v)) gl.GetShaderInfoLog(uint32(s), v, nil, (*uint8)(gl.Ptr(log))) } return fmt.Errorf("opengl: shader compile failed: %s", log) } shader = Shader(s) return nil }); err != nil { return 0, err } return shader, nil }
func initResources() (uint32, int32) { vSrc0 := fixupSrc(vShaderSrc) vSrc := gl.Str(vSrc0) vs := gl.CreateShader(gl.VERTEX_SHADER) gl.ShaderSource(vs, 1, &vSrc, nil) gl.CompileShader(vs) var vok int32 gl.GetShaderiv(vs, gl.COMPILE_STATUS, &vok) if vok == 0 { log.Fatal("error in vertex shader") } fSrc := gl.Str(fShaderSrc) fs := gl.CreateShader(gl.FRAGMENT_SHADER) gl.ShaderSource(fs, 1, &fSrc, nil) gl.CompileShader(fs) var fok int32 gl.GetShaderiv(vs, gl.COMPILE_STATUS, &fok) if fok == 0 { log.Fatal("error in fragment shader") } var linkOk int32 program := gl.CreateProgram() gl.AttachShader(program, vs) gl.AttachShader(program, fs) gl.LinkProgram(program) gl.GetProgramiv(program, gl.LINK_STATUS, &linkOk) if linkOk == 0 { log.Fatal("gl.LinkProgram") } attribName := fixupSrc("coord2d") attribCoord2d := gl.GetAttribLocation(program, gl.Str(attribName)) if attribCoord2d == -1 { log.Fatal("failed to bind attribute") } return program, attribCoord2d }
func (*backend) CreateShader(src []byte, typ gg.Enum) (*gg.Shader, error) { csrc := gl.Str(string(append([]byte(src), 0))) shader := gl.CreateShader(uint32(typ)) gl.ShaderSource(shader, 1, &csrc, nil) gl.CompileShader(shader) var status int32 gl.GetShaderiv(shader, gl.COMPILE_STATUS, &status) if status == gl.TRUE { return &gg.Shader{Value: shader}, nil } var logLength int32 gl.GetShaderiv(shader, gl.INFO_LOG_LENGTH, &logLength) log := strings.Repeat("\x00", int(logLength+1)) gl.GetShaderInfoLog(shader, logLength, nil, gl.Str(log)) return nil, fmt.Errorf("compile shader: %s%s", src, log) }
func (s *Shader) addProgram(text string, typ uint32) error { shader := gl.CreateShader(typ) if shader == 0 { return errors.New("could not find valid memory location when adding shader") } cStr := gl.Str(text + "\000") gl.ShaderSource(shader, 1, &cStr, nil) gl.CompileShader(shader) var result int32 gl.GetShaderiv(shader, gl.COMPILE_STATUS, &result) if result == 0 { return s.getShaderInfoLog(shader, "get shader error") } gl.AttachShader(s.program, shader) return nil }
func loadShader(shaderType uint32, source string) uint32 { shader := gl.CreateShader(shaderType) if err := gl.GetError(); err != gl.NO_ERROR { panic(fmt.Errorf("gl error: %v", err)) } csource := gl.Str(source) gl.ShaderSource(shader, 1, &csource, nil) gl.CompileShader(shader) var status int32 gl.GetShaderiv(shader, gl.COMPILE_STATUS, &status) if status != gl.TRUE { //log := shader.GetInfoLog() panic(fmt.Errorf("Failed to compile shader: shader: %v", source)) } return shader }
// CreateShader creates a shader object from a source file. func CreateShader(filename string, xtype uint32) uint32 { data, err := ioutil.ReadFile(filename) if err != nil { log.Fatal(err) } dataString := "#version 120\n" + string(data) + "\x00" dataSrc := gl.Str(dataString) res := gl.CreateShader(xtype) gl.ShaderSource(res, 1, &dataSrc, nil) gl.CompileShader(res) var compileOk int32 gl.GetShaderiv(res, gl.COMPILE_STATUS, &compileOk) if compileOk == gl.FALSE { PrintLog(res) gl.DeleteShader(res) } return res }
func (c *Context) NewShader(shaderType ShaderType, source string) (Shader, error) { s := gl.CreateShader(uint32(shaderType)) if s == 0 { return 0, errors.New("glCreateShader failed") } glSource := gl.Str(source + "\x00") gl.ShaderSource(uint32(s), 1, &glSource, nil) gl.CompileShader(s) var v int32 gl.GetShaderiv(s, gl.COMPILE_STATUS, &v) if v == gl.FALSE { log := []uint8{} gl.GetShaderiv(uint32(s), gl.INFO_LOG_LENGTH, &v) if v != 0 { log = make([]uint8, int(v)) gl.GetShaderInfoLog(uint32(s), v, nil, (*uint8)(gl.Ptr(log))) } return 0, errors.New(fmt.Sprintf("shader compile failed: %s", string(log))) } return Shader(s), nil }
func newShader(source string, shaderType uint32) (uint32, error) { id := gl.CreateShader(shaderType) if id == 0 { return 0, fmt.Errorf("Unable to allocate shader") } ptr, free := convc.StringToC(source) defer free() gl.ShaderSource(id, 1, &ptr, nil) gl.CompileShader(id) var result int32 gl.GetShaderiv(id, gl.COMPILE_STATUS, &result) if result == int32(gl.FALSE) { var loglength int32 gl.GetShaderiv(id, gl.INFO_LOG_LENGTH, &loglength) log := make([]byte, loglength) var length int32 gl.GetShaderInfoLog(id, loglength, &length, &log[0]) gl.DeleteShader(id) return 0, fmt.Errorf("Unable to compile shader: %s", log[:length]) } return id, nil }
// CreateShader creates a new empty shader object. // // http://www.khronos.org/opengles/sdk/docs/man3/html/glCreateShader.xhtml func CreateShader(ty Enum) Shader { return Shader{Value: uint32(gl.CreateShader(uint32(ty)))} }
func (c *Context) CreateShader(typ int) *Shader { shader := &Shader{gl.CreateShader(uint32(typ))} return shader }