package goglbackend import ( "fmt" "image/color" "github.com/go-gl/gl/v3.2-core/gl" "github.com/tfriedel6/canvas" "github.com/tfriedel6/canvas/backend/backendbase" ) const alphaTexSize = 2048 type GoGLBackend struct { x, y, w, h int fx, fy, fw, fh float64 buf uint32 shadowBuf uint32 alphaTex uint32 sr solidShader lgr linearGradientShader rgr radialGradientShader ipr imagePatternShader sar solidAlphaShader rgar radialGradientAlphaShader lgar linearGradientAlphaShader ipar imagePatternAlphaShader ir imageShader gauss15r gaussianShader gauss63r gaussianShader gauss127r gaussianShader offscr1 offscreenBuffer offscr2 offscreenBuffer glChan chan func() } type offscreenBuffer struct { tex uint32 w int h int renderStencilBuf uint32 frameBuf uint32 alpha bool } func New(x, y, w, h int) (canvas.Backend, error) { err := gl.Init() if err != nil { return nil, err } gl.GetError() // clear error state b := &GoGLBackend{ w: w, h: h, fw: float64(w), fh: float64(h), } err = loadShader(solidVS, solidFS, &b.sr.shaderProgram) if err != nil { return nil, err } b.sr.shaderProgram.mustLoadLocations(&b.sr) if err = glError(); err != nil { return nil, err } err = loadShader(linearGradientVS, linearGradientFS, &b.lgr.shaderProgram) if err != nil { return nil, err } b.lgr.shaderProgram.mustLoadLocations(&b.lgr) if err = glError(); err != nil { return nil, err } err = loadShader(radialGradientVS, radialGradientFS, &b.rgr.shaderProgram) if err != nil { return nil, err } b.rgr.shaderProgram.mustLoadLocations(&b.rgr) if err = glError(); err != nil { return nil, err } err = loadShader(imagePatternVS, imagePatternFS, &b.ipr.shaderProgram) if err != nil { return nil, err } b.ipr.shaderProgram.mustLoadLocations(&b.ipr) if err = glError(); err != nil { return nil, err } err = loadShader(solidAlphaVS, solidAlphaFS, &b.sar.shaderProgram) if err != nil { return nil, err } b.sar.shaderProgram.mustLoadLocations(&b.sar) if err = glError(); err != nil { return nil, err } err = loadShader(linearGradientAlphaVS, linearGradientFS, &b.lgar.shaderProgram) if err != nil { return nil, err } b.lgar.shaderProgram.mustLoadLocations(&b.lgar) if err = glError(); err != nil { return nil, err } err = loadShader(radialGradientAlphaVS, radialGradientAlphaFS, &b.rgar.shaderProgram) if err != nil { return nil, err } b.rgar.shaderProgram.mustLoadLocations(&b.rgar) if err = glError(); err != nil { return nil, err } err = loadShader(imagePatternAlphaVS, imagePatternAlphaFS, &b.ipar.shaderProgram) if err != nil { return nil, err } b.ipar.shaderProgram.mustLoadLocations(&b.ipar) if err = glError(); err != nil { return nil, err } err = loadShader(imageVS, imageFS, &b.ir.shaderProgram) if err != nil { return nil, err } b.ir.shaderProgram.mustLoadLocations(&b.ir) if err = glError(); err != nil { return nil, err } err = loadShader(gaussian15VS, gaussian15FS, &b.gauss15r.shaderProgram) if err != nil { return nil, err } b.gauss15r.shaderProgram.mustLoadLocations(&b.gauss15r) if err = glError(); err != nil { return nil, err } err = loadShader(gaussian63VS, gaussian63FS, &b.gauss63r.shaderProgram) if err != nil { return nil, err } b.gauss63r.shaderProgram.mustLoadLocations(&b.gauss63r) if err = glError(); err != nil { return nil, err } err = loadShader(gaussian127VS, gaussian127FS, &b.gauss127r.shaderProgram) if err != nil { return nil, err } b.gauss127r.shaderProgram.mustLoadLocations(&b.gauss127r) if err = glError(); err != nil { return nil, err } gl.GenBuffers(1, &b.buf) if err = glError(); err != nil { return nil, err } gl.GenBuffers(1, &b.shadowBuf) if err = glError(); err != nil { return nil, err } gl.ActiveTexture(gl.TEXTURE0) gl.GenTextures(1, &b.alphaTex) gl.BindTexture(gl.TEXTURE_2D, b.alphaTex) gl.TexParameteri(gl.TEXTURE_2D, gl.TEXTURE_MIN_FILTER, gl.NEAREST) gl.TexParameteri(gl.TEXTURE_2D, gl.TEXTURE_MAG_FILTER, gl.NEAREST) gl.TexParameteri(gl.TEXTURE_2D, gl.TEXTURE_WRAP_S, gl.CLAMP_TO_EDGE) gl.TexParameteri(gl.TEXTURE_2D, gl.TEXTURE_WRAP_T, gl.CLAMP_TO_EDGE) gl.TexImage2D(gl.TEXTURE_2D, 0, gl.ALPHA, alphaTexSize, alphaTexSize, 0, gl.ALPHA, gl.UNSIGNED_BYTE, nil) gl.Enable(gl.BLEND) gl.BlendFunc(gl.SRC_ALPHA, gl.ONE_MINUS_SRC_ALPHA) gl.Enable(gl.STENCIL_TEST) gl.StencilMask(0xFF) gl.Clear(gl.STENCIL_BUFFER_BIT) gl.StencilOp(gl.KEEP, gl.KEEP, gl.KEEP) gl.StencilFunc(gl.EQUAL, 0, 0xFF) gl.Enable(gl.SCISSOR_TEST) return b, nil } // SetBounds updates the bounds of the canvas. This would // usually be called for example when the window is resized func (b *GoGLBackend) SetBounds(x, y, w, h int) { b.x, b.y = x, y b.fx, b.fy = float64(x), float64(y) b.w, b.h = w, h b.fw, b.fh = float64(w), float64(h) } func glError() error { glErr := gl.GetError() if glErr != gl.NO_ERROR { return fmt.Errorf("GL Error: %x", glErr) } return nil } type glColor struct { r, g, b, a float64 } func colorGoToGL(c color.RGBA) glColor { var glc glColor glc.r = float64(c.R) / 255 glc.g = float64(c.G) / 255 glc.b = float64(c.B) / 255 glc.a = float64(c.A) / 255 return glc } func (b *GoGLBackend) useShader(style *backendbase.Style) (vertexLoc uint32) { // if lg := style.LinearGradient; lg != nil { // lg.load() // gl.ActiveTexture(gl.TEXTURE0) // gl.BindTexture(gl.TEXTURE_2D, lg.tex) // gl.UseProgram(lgr.id) // from := cv.tf(lg.from) // to := cv.tf(lg.to) // dir := to.sub(from) // length := dir.len() // dir = dir.divf(length) // gl.Uniform2f(lgr.canvasSize, float32(cv.fw), float32(cv.fh)) // inv := cv.state.transform.invert().f32() // gl.UniformMatrix3fv(lgr.invmat, 1, false, &inv[0]) // gl.Uniform2f(lgr.from, float32(from[0]), float32(from[1])) // gl.Uniform2f(lgr.dir, float32(dir[0]), float32(dir[1])) // gl.Uniform1f(lgr.len, float32(length)) // gl.Uniform1i(lgr.gradient, 0) // gl.Uniform1f(lgr.globalAlpha, float32(cv.state.globalAlpha)) // return lgr.vertex // } // if rg := style.RadialGradient; rg != nil { // rg.load() // gl.ActiveTexture(gl.TEXTURE0) // gl.BindTexture(gl.TEXTURE_2D, rg.tex) // gl.UseProgram(rgr.id) // from := cv.tf(rg.from) // to := cv.tf(rg.to) // dir := to.sub(from) // length := dir.len() // dir = dir.divf(length) // gl.Uniform2f(rgr.canvasSize, float32(cv.fw), float32(cv.fh)) // inv := cv.state.transform.invert().f32() // gl.UniformMatrix3fv(rgr.invmat, 1, false, &inv[0]) // gl.Uniform2f(rgr.from, float32(from[0]), float32(from[1])) // gl.Uniform2f(rgr.to, float32(to[0]), float32(to[1])) // gl.Uniform2f(rgr.dir, float32(dir[0]), float32(dir[1])) // gl.Uniform1f(rgr.radFrom, float32(rg.radFrom)) // gl.Uniform1f(rgr.radTo, float32(rg.radTo)) // gl.Uniform1f(rgr.len, float32(length)) // gl.Uniform1i(rgr.gradient, 0) // gl.Uniform1f(rgr.globalAlpha, float32(cv.state.globalAlpha)) // return rgr.vertex // } // if img := style.Image; img != nil { // gl.UseProgram(ipr.id) // gl.ActiveTexture(gl.TEXTURE0) // gl.BindTexture(gl.TEXTURE_2D, img.tex) // gl.Uniform2f(ipr.canvasSize, float32(cv.fw), float32(cv.fh)) // inv := cv.state.transform.invert().f32() // gl.UniformMatrix3fv(ipr.invmat, 1, false, &inv[0]) // gl.Uniform2f(ipr.imageSize, float32(img.w), float32(img.h)) // gl.Uniform1i(ipr.image, 0) // gl.Uniform1f(ipr.globalAlpha, float32(cv.state.globalAlpha)) // return ipr.vertex // } gl.UseProgram(b.sr.ID) gl.Uniform2f(b.sr.CanvasSize, float32(b.fw), float32(b.fh)) c := colorGoToGL(style.Color) gl.Uniform4f(b.sr.Color, float32(c.r), float32(c.g), float32(c.b), float32(c.a)) gl.Uniform1f(b.sr.GlobalAlpha, float32(style.GlobalAlpha)) return b.sr.Vertex } func (b *GoGLBackend) useAlphaShader(style *backendbase.Style, alphaTexSlot int32) (vertexLoc, alphaTexCoordLoc uint32) { // if lg := style.LinearGradient; lg != nil { // lg.load() // gl.ActiveTexture(gl.TEXTURE0) // gl.BindTexture(gl.TEXTURE_2D, lg.tex) // gl.UseProgram(lgar.id) // from := cv.tf(lg.from) // to := cv.tf(lg.to) // dir := to.sub(from) // length := dir.len() // dir = dir.divf(length) // gl.Uniform2f(lgar.canvasSize, float32(cv.fw), float32(cv.fh)) // inv := cv.state.transform.invert().f32() // gl.UniformMatrix3fv(lgar.invmat, 1, false, &inv[0]) // gl.Uniform2f(lgar.from, float32(from[0]), float32(from[1])) // gl.Uniform2f(lgar.dir, float32(dir[0]), float32(dir[1])) // gl.Uniform1f(lgar.len, float32(length)) // gl.Uniform1i(lgar.gradient, 0) // gl.Uniform1i(lgar.alphaTex, alphaTexSlot) // gl.Uniform1f(lgar.globalAlpha, float32(cv.state.globalAlpha)) // return lgar.vertex, lgar.alphaTexCoord // } // if rg := style.RadialGradient; rg != nil { // rg.load() // gl.ActiveTexture(gl.TEXTURE0) // gl.BindTexture(gl.TEXTURE_2D, rg.tex) // gl.UseProgram(rgar.id) // from := cv.tf(rg.from) // to := cv.tf(rg.to) // dir := to.sub(from) // length := dir.len() // dir = dir.divf(length) // gl.Uniform2f(rgar.canvasSize, float32(cv.fw), float32(cv.fh)) // inv := cv.state.transform.invert().f32() // gl.UniformMatrix3fv(rgar.invmat, 1, false, &inv[0]) // gl.Uniform2f(rgar.from, float32(from[0]), float32(from[1])) // gl.Uniform2f(rgar.to, float32(to[0]), float32(to[1])) // gl.Uniform2f(rgar.dir, float32(dir[0]), float32(dir[1])) // gl.Uniform1f(rgar.radFrom, float32(rg.radFrom)) // gl.Uniform1f(rgar.radTo, float32(rg.radTo)) // gl.Uniform1f(rgar.len, float32(length)) // gl.Uniform1i(rgar.gradient, 0) // gl.Uniform1i(rgar.alphaTex, alphaTexSlot) // gl.Uniform1f(rgar.globalAlpha, float32(cv.state.globalAlpha)) // return rgar.vertex, rgar.alphaTexCoord // } // if img := style.Image; img != nil { // gl.UseProgram(ipar.id) // gl.ActiveTexture(gl.TEXTURE0) // gl.BindTexture(gl.TEXTURE_2D, img.tex) // gl.Uniform2f(ipar.canvasSize, float32(cv.fw), float32(cv.fh)) // inv := cv.state.transform.invert().f32() // gl.UniformMatrix3fv(ipar.invmat, 1, false, &inv[0]) // gl.Uniform2f(ipar.imageSize, float32(img.w), float32(img.h)) // gl.Uniform1i(ipar.image, 0) // gl.Uniform1i(ipar.alphaTex, alphaTexSlot) // gl.Uniform1f(ipar.globalAlpha, float32(cv.state.globalAlpha)) // return ipar.vertex, ipar.alphaTexCoord // } gl.UseProgram(b.sar.ID) gl.Uniform2f(b.sar.CanvasSize, float32(b.fw), float32(b.fh)) c := colorGoToGL(style.Color) gl.Uniform4f(b.sar.Color, float32(c.r), float32(c.g), float32(c.b), float32(c.a)) gl.Uniform1i(b.sar.AlphaTex, alphaTexSlot) gl.Uniform1f(b.sar.GlobalAlpha, float32(style.GlobalAlpha)) return b.sar.Vertex, b.sar.AlphaTexCoord }