func (f *Imp) invert1() { // switch f.sort { case InfLine: scr.InfLineInv(f.x[0], f.y[0], f.x[1], f.y[1]) case Rectangle: scr.RectangleInv(f.x[0], f.y[0], f.x[1], f.y[1]) default: scr.EllipseInv(f.x[0], f.y[0], uint(f.x[1]), uint(f.y[1])) } }
func (f *Imp) Invert() { // if f.Empty() { return } switch f.sort { case Pointset: scr.PointsetInv(f.x, f.y) case Segments: scr.SegmentsInv(f.x, f.y) case Polygon: if f.filled { scr.PolygonInv /* TODO Full */ (f.x, f.y) } else { scr.PolygonInv(f.x, f.y) } case Curve: scr.CurveInv(f.x, f.y) if f.filled { n := len(f.x) - 1 scr.CircleInv(f.x[n], f.y[n], 4) } case InfLine: scr.InfLineInv(f.x[0], f.y[0], f.x[1], f.y[1]) case Rectangle: if f.filled { scr.RectangleFullInv(f.x[0], f.y[0], f.x[1], f.y[1]) } else { scr.RectangleInv(f.x[0], f.y[0], f.x[1], f.y[1]) } case Circle: if f.filled { scr.CircleFullInv(f.x[0], f.y[0], uint(f.x[1])) } else { scr.CircleInv(f.x[0], f.y[0], uint(f.x[1])) } case Ellipse: if f.filled { scr.EllipseFullInv(f.x[0], f.y[0], uint(f.x[1]), uint(f.y[1])) } else { scr.EllipseInv(f.x[0], f.y[0], uint(f.x[1]), uint(f.y[1])) } case Text: // >>> sollte in bx integriert werden: // bx.WriteInvGr (tx, x[0], y[0]) scr.SwitchTransparence(true) scr.WriteInvGr(f.tx, f.x[0], f.y[0]) case Image: scr.RectangleInv(f.x[0], f.y[0], f.x[1], f.y[1]) } }
func paint(f figure, fo format, x0, y0, x, y int) { // var a, b uint if x >= x0 { a = uint(x - x0) } else { a = uint(x0 - x) } if y >= y0 { b = uint(y - y0) } else { b = uint(y0 - y) } switch f { case line: switch fo { case border: scr.Line(x0, y0, x, y) case inv: scr.LineInv(x0, y0, x, y) case full: // scr.StrichAusgeben (x0, y0, x, y, Staerke) } case rectangle: switch fo { case border: scr.Rectangle(x0, y0, x, y) case inv: scr.RectangleInv(x0, y0, x, y) case full: scr.RectangleFull(x0, y0, x, y) } case circle: if b > a { a = b } switch fo { case border: scr.Circle(x0, y0, a) case inv: scr.CircleInv(x0, y0, a) case full: scr.CircleFull(x0, y0, a) } case ellipse: switch fo { case border: /* scr.Ellipse ((x0 + x) / 2, (y0 + y) / 2, a, b) case invers: scr.EllipseInv ((x0 + x) / 2, (y + y0) / 2, a, b) case full: scr.EllipseFull ((x0 + x) / 2, (y0 + y) / 2, a, b) */ scr.Ellipse(x0, y0, a, b) case inv: scr.EllipseInv(x0, y0, a, b) case full: scr.EllipseFull(x0, y0, a, b) } } // scr.Colour (paintColour), (* Wörkeraund: Bildschirm....Invertieren f *) }