Ejemplo n.º 1
0
        /// <summary>
        /// Translates and scales all rings and invisible polygons as specified.
        /// </summary>
        /// <param name="from"></param>
        /// <param name="to"></param>
        public void Shift(RectangleF from, RectangleF to)
        {
            PointF fromOrigin = new PointF(from.X + (from.Width / 2), from.Y + (from.Height / 2));
            PointF toOrigin   = new PointF(to.X + (to.Width / 2), to.Y + (to.Height / 2));

            PointF offset = new PointF(toOrigin.X - fromOrigin.X, toOrigin.Y - fromOrigin.Y);
            double xd     = to.Width / from.Width;
            double yd     = to.Height / from.Height;

            //Offset points
            foreach (PointSet ps in ringList)
            {
                if (ps.flags != PointFlags.Ignored)
                {
                    ps.points = PolygonMath.MovePoly(ps.points, offset);
                }
            }
            //Scale points
            foreach (PointSet ps in ringList)
            {
                if (ps.flags != PointFlags.Ignored)
                {
                    ps.points = PolygonMath.ScalePoints(ps.points, xd, yd, toOrigin);
                }
            }
        }
Ejemplo n.º 2
0
 /// <summary>
 /// Scales all rings and invisible polygons by the specified factor, around the specified point.
 /// </summary>
 /// <param name="factor"></param>
 /// <param name="origin"></param>
 public void Scale(double factor, PointF origin)
 {
     foreach (PointSet ps in ringList)
     {
         if (ps.flags != PointFlags.Ignored)
         {
             ps.points = PolygonMath.ScalePoints(ps.points, factor, factor, origin);
         }
     }
 }
Ejemplo n.º 3
0
        public LayoutInformation(ImageState state)
        {
            this.instructions = new NameValueCollection(state.settings);

            this.sourceRect = new SizeOnly(state.originalSize);
            this.finalRect  = new SizeOnly(state.destSize);

            this.imageSourcePoly = new PolyRect(state.copyRect);

            if (state.layout.ContainsRing("image"))
            {
                this.imageDestPoly = new PolyRect(state.layout["image"]);
            }

            if (state.layout.ContainsRing("imageArea"))
            {
                this.imageDestAreaPoly = new PolyRect(state.layout["imageArea"]);
            }

            // Check to see if sFlip/sRotate has altered the original raw image
            // rectangle.  The check must be the same as in
            // ImageBuilder.PrepareSourceBitmap().  Note that the adjustment
            // happens only when there's an actual bitmap, regardless of the
            // sFlip/sRotate settings.
            if (state.sourceBitmap != null &&
                (state.settings.SourceFlip != RotateFlipType.RotateNoneFlipNone ||
                 !string.IsNullOrEmpty(state.settings["sRotate"])))
            {
                // We need to calculate the original rect/poly by *reversing* the
                // requested sFlip/sRotate.  We determine what the requested change
                // was, then calculate the reverse.
                var angle            = state.settings.Get <double>("sRotate", 0);
                var flipRotate       = (int)PolygonMath.CombineFlipAndRotate(state.settings.SourceFlip, angle);
                var copyPoly         = PolygonMath.ToPoly(state.copyRect);
                var trueOriginalSize = state.originalSize;

                // The RotateFlipType values are ordered such that odd values
                // transpose the size of the rectangle, %4 gives the rotation
                // and /4 (=> 0 or 1) whether there's been an x-flip.  We can
                // use this to streamline our calculations.
                if (flipRotate % 2 == 1)
                {
                    trueOriginalSize = new Size(state.originalSize.Height, state.originalSize.Width);
                }

                this.preAdjustedSourceRect = new SizeOnly(trueOriginalSize);

                // Remember that the sFlip/sRotate change performed the rotation
                // first and then the flip, so we have to do the opposite to go
                // backwards.
                if (flipRotate / 4 == 1)
                {
                    copyPoly = PolygonMath.ScalePoints(copyPoly, -1, 1, PointF.Empty);
                    copyPoly = PolygonMath.MovePoly(copyPoly, new PointF(trueOriginalSize.Width, 0));
                }

                // It's possible to calculate a rotation-origin that will place
                // the original pre-sRotate (0,0) point back at (0,0) again...
                // but since it involves sqrt(), there would be rounding errors
                // that we should be able to avoid.  (We might, in fact, want to
                // avoid using PolygonMath entirely, and hand-map the points
                // backwards for accuracy.)
                switch (flipRotate % 4)
                {
                case 0:     // no rotation
                    // no-op!
                    break;

                case 1:     // 90 degrees, clockwise
                    copyPoly = PolygonMath.RotatePoly(copyPoly, -90);
                    copyPoly = PolygonMath.MovePoly(copyPoly, new PointF(0, trueOriginalSize.Height));
                    break;

                case 2:     // 180 degrees, clockwise
                    copyPoly = PolygonMath.RotatePoly(copyPoly, -180);
                    copyPoly = PolygonMath.MovePoly(copyPoly, new PointF(trueOriginalSize.Width, trueOriginalSize.Height));
                    break;

                case 3:     // 270 degrees, clockwise
                    copyPoly = PolygonMath.RotatePoly(copyPoly, -270);
                    copyPoly = PolygonMath.MovePoly(copyPoly, new PointF(trueOriginalSize.Width, 0));
                    break;
                }

                this.preAdjustedImageSourcePoly = new PolyRect(copyPoly);
            }
        }