Exemplo n.º 1
0
        public void SetText(Color color, string text, Font font)
        {
            float[] transformValues = new float[6];
            _transform.GetMatrix(transformValues);

            _canvas.WriteText(color, transformValues, font, text);
        }
Exemplo n.º 2
0
        private void ApplyConcatMatrix(DrawContext drawContext, float?angle)
        {
            AffineTransform rotationTransform = AffineTransform.GetRotateInstance((float)angle);
            Rectangle       rect          = GetBorderAreaBBox();
            IList <Point>   rotatedPoints = TransformPoints(RectangleToPointsList(rect), rotationTransform);

            float[] shift = CalculateShiftToPositionBBoxOfPointsAt(rect.GetX(), rect.GetY() + rect.GetHeight(), rotatedPoints
                                                                   );
            double[] matrix = new double[6];
            rotationTransform.GetMatrix(matrix);
            drawContext.GetCanvas().ConcatMatrix(matrix[0], matrix[1], matrix[2], matrix[3], shift[0], shift[1]);
        }
Exemplo n.º 3
0
        /// <summary>
        /// Builds the
        /// <see cref="iText.Kernel.Colors.Color"/>
        /// object representing the linear gradient with specified configuration
        /// that fills the target bounding box.
        /// </summary>
        /// <param name="targetBoundingBox">the bounding box to be filled in current space</param>
        /// <param name="contextTransform">
        /// the transformation from the base coordinates space into
        /// the current space. The
        /// <see langword="null"/>
        /// value is valid and can be used
        /// if there is no transformation from base coordinates to current space
        /// specified, or it is equal to identity transformation.
        /// </param>
        /// <param name="document">
        /// the
        /// <see cref="iText.Kernel.Pdf.PdfDocument"/>
        /// for which the linear gradient would be built.
        /// </param>
        /// <returns>
        /// the constructed
        /// <see cref="iText.Kernel.Colors.Color"/>
        /// or
        /// <see langword="null"/>
        /// if no color to be applied
        /// or base gradient vector has been specified
        /// </returns>
        public virtual Color BuildColor(Rectangle targetBoundingBox, AffineTransform contextTransform, PdfDocument
                                        document)
        {
            // TODO: DEVSIX-4136 the document argument would be required for opaque gradients (as we would need to create a mask form xObject)
            Point[] baseCoordinatesVector = GetGradientVector(targetBoundingBox, contextTransform);
            if (baseCoordinatesVector == null || this.stops.IsEmpty())
            {
                // Can not create gradient color with 0 stops or null coordinates vector
                return(null);
            }
            // evaluate actual coordinates and transformation
            AffineTransform shadingTransform = new AffineTransform();

            if (contextTransform != null)
            {
                shadingTransform.Concatenate(contextTransform);
            }
            AffineTransform gradientTransformation = GetCurrentSpaceToGradientVectorSpaceTransformation(targetBoundingBox
                                                                                                        , contextTransform);

            if (gradientTransformation != null)
            {
                try {
                    if (targetBoundingBox != null)
                    {
                        targetBoundingBox = Rectangle.CalculateBBox(JavaUtil.ArraysAsList(gradientTransformation.InverseTransform(
                                                                                              new Point(targetBoundingBox.GetLeft(), targetBoundingBox.GetBottom()), null), gradientTransformation.InverseTransform
                                                                                              (new Point(targetBoundingBox.GetLeft(), targetBoundingBox.GetTop()), null), gradientTransformation.InverseTransform
                                                                                              (new Point(targetBoundingBox.GetRight(), targetBoundingBox.GetBottom()), null), gradientTransformation
                                                                                          .InverseTransform(new Point(targetBoundingBox.GetRight(), targetBoundingBox.GetTop()), null)));
                    }
                    shadingTransform.Concatenate(gradientTransformation);
                }
                catch (NoninvertibleTransformException) {
                    LogManager.GetLogger(GetType()).Error(iText.IO.LogMessageConstant.UNABLE_TO_INVERT_GRADIENT_TRANSFORMATION
                                                          );
                }
            }
            PdfShading.Axial axial = CreateAxialShading(baseCoordinatesVector, this.stops, this.spreadMethod, targetBoundingBox
                                                        );
            if (axial == null)
            {
                return(null);
            }
            PdfPattern.Shading shading = new PdfPattern.Shading(axial);
            if (!shadingTransform.IsIdentity())
            {
                double[] matrix = new double[6];
                shadingTransform.GetMatrix(matrix);
                shading.SetMatrix(new PdfArray(matrix));
            }
            return(new PatternColor(shading));
        }
        public static Transform AsTransform(this AffineTransform transform)
        {
            if (transform.IsIdentity)
            {
                return(Transform.Identity);
            }

            var values = new float[6];

            transform.GetMatrix(values);
            return(new MatrixTransform(values[0], values[1], values[2], values[3], values[4], values[5]));
        }
Exemplo n.º 5
0
 private void TranslateImage(float xDistance, float yDistance, AffineTransform t)
 {
     t.Translate(xDistance, yDistance);
     t.GetMatrix(matrix);
     if (fixedXPosition != null)
     {
         fixedXPosition += (float)t.GetTranslateX();
     }
     if (fixedYPosition != null)
     {
         fixedYPosition += (float)t.GetTranslateY();
     }
 }
Exemplo n.º 6
0
        private void GetMatrix(AffineTransform t, float imageItselfScaledWidth, float imageItselfScaledHeight)
        {
            t.GetMatrix(matrix);
            PdfXObject xObject = ((Image)(GetModelElement())).GetXObject();

            if (xObject is PdfImageXObject)
            {
                matrix[0] *= imageItselfScaledWidth;
                matrix[1] *= imageItselfScaledWidth;
                matrix[2] *= imageItselfScaledHeight;
                matrix[3] *= imageItselfScaledHeight;
            }
        }
        /// <exception cref="System.IO.IOException"/>
        private static TextRenderInfo InitTRI(String text, double angle)
        {
            CanvasGraphicsState gs = new CanvasGraphicsState();

            gs.SetFont(PdfFontFactory.CreateFont());
            gs.SetFontSize(12);
            float[]         matrix    = new float[6];
            AffineTransform transform = AffineTransform.GetRotateInstance(angle);

            transform.GetMatrix(matrix);
            return(new TextRenderInfo(new PdfString(text), gs, new Matrix(matrix[0], matrix[1], matrix[2], matrix[3],
                                                                          matrix[4], matrix[5]), new Stack <CanvasTag>()));
        }
Exemplo n.º 8
0
        public static Matrix AsMatrix(this AffineTransform transform)
        {
            var values = new float[9];

            transform.GetMatrix(values);

            values[Matrix.Mpersp0] = 0; // 6
            values[Matrix.Mpersp1] = 0; // 7
            values[Matrix.Mpersp2] = 1; // 8

            var matrix = new Matrix();

            matrix.SetValues(values);
            return(matrix);
        }
Exemplo n.º 9
0
        public static CGAffineTransform AsCGAffineTransform(this AffineTransform transform)
        {
            if (transform != null)
            {
                var matrix = new float[6];
                transform.GetMatrix(matrix);
                float xx = matrix[0];
                float yx = matrix[1];
                float xy = matrix[2];
                float yy = matrix[3];
                float x0 = matrix[4];
                float y0 = matrix[5];

                return(new CGAffineTransform(xx, yx, xy, yy, x0, y0));
            }

            return(CGAffineTransform.MakeIdentity());
        }
Exemplo n.º 10
0
        protected void ManipulatePdf(String dest)
        {
            PdfDocument pdfDoc = new PdfDocument(new PdfReader(SRC), new PdfWriter(dest));
            ImageData   image  = ImageDataFactory.Create(IMG);

            // Translation defines the position of the image on the page and scale transformation sets image dimensions
            // Please also note that image without scaling is drawn in 1x1 rectangle. And here we draw image on page using
            // its original size in pixels.
            AffineTransform affineTransform = AffineTransform.GetTranslateInstance(36, 300);

            // Make sure that the image is visible by concatenating a scale transformation
            affineTransform.Concatenate(AffineTransform.GetScaleInstance(image.GetWidth(), image.GetHeight()));

            PdfCanvas canvas = new PdfCanvas(pdfDoc.GetFirstPage());

            float[] matrix = new float[6];
            affineTransform.GetMatrix(matrix);
            canvas.AddImageWithTransformationMatrix(image, matrix[0], matrix[1], matrix[2], matrix[3], matrix[4], matrix[5]);
            pdfDoc.Close();
        }
Exemplo n.º 11
0
        protected internal virtual float[] ApplyRotation()
        {
            float dx = 0;
            float dy = 0;

            if (!IsPositioned())
            {
                Point shift = GetLayoutShiftAndRotatedPoints(new List <Point>(), 0, 0);
                dy = (float)shift.GetY();
                dx = (float)shift.GetX();
            }
            float?          angle     = this.GetPropertyAsFloat(Property.ROTATION_ANGLE);
            AffineTransform transform = new AffineTransform();

            transform.Rotate((float)angle);
            float[] ctm = new float[6];
            transform.GetMatrix(ctm);
            ctm[4] = (float)this.GetPropertyAsFloat(Property.ROTATION_POINT_X) + dx;
            ctm[5] = (float)this.GetPropertyAsFloat(Property.ROTATION_POINT_Y) + dy;
            return(ctm);
        }
        public bool AddWaterMarkerToPdf(string pdfFile, string destFile, string text, string fontFamily, string fontColor, int fontSize = 50)
        {
            if (File.Exists(pdfFile))
            {
                try
                {
                    using (var pr = new PdfReader(pdfFile))
                    {
                        var rgbColor = System.Drawing.ColorTranslator.FromHtml(fontColor);


                        PdfFont font = fontFamily.Contains("STSong") ? PdfFontFactory.CreateFont(fontFamily, "UniGB-UCS2-H", true)
                            : PdfFontFactory.CreateFont(fontFamily);//PdfFontFactory.CreateFont(fontFamily, "UniGB-UCS2-H", true);
                        if (font != null)
                        {
                            var       textLength = font.GetWidth(text, fontSize);
                            var       pw         = new PdfWriter(destFile);
                            var       pdfDoc     = new PdfDocument(pr, pw);
                            Rectangle ps;
                            PdfCanvas canvas;
                            var       pageCount = pdfDoc.GetNumberOfPages();
                            for (var i = 1; i < pageCount + 1; i++)
                            {
                                var page = pdfDoc.GetPage(i);
                                ps = page.GetPageSize();
                                float watermarkTrimmingRectangleWidth  = textLength; //Math.Min(ps.GetWidth(), ps.GetHeight());
                                float watermarkTrimmingRectangleHeight = watermarkTrimmingRectangleWidth;
                                var   rotationInRads = MathF.Atan2(ps.GetHeight(), ps.GetWidth());
                                //var angle = rotationInRads * 180f / MathF.PI;
                                float formWidth   = ps.GetWidth();  //watermarkTrimmingRectangleWidth;
                                float formHeight  = ps.GetHeight(); //watermarkTrimmingRectangleWidth;
                                float formXOffset = 0;
                                float formYOffset = 0;

                                float xTranslation = (formWidth - watermarkTrimmingRectangleWidth * MathF.Cos(rotationInRads)) / 2;
                                float yTranslation = (formHeight - watermarkTrimmingRectangleWidth * MathF.Sin(rotationInRads)) / 2;

                                //Center the annotation
                                Rectangle watermarkTrimmingRectangle = new Rectangle(0, 0, formWidth, formHeight);//watermarkTrimmingRectangleWidth, watermarkTrimmingRectangleWidth);

                                PdfWatermarkAnnotation watermark = new PdfWatermarkAnnotation(watermarkTrimmingRectangle);

                                //Apply linear algebra rotation math
                                //Create identity matrix
                                AffineTransform transform = new AffineTransform(); //No-args constructor creates the identity transform
                                                                                   //Apply translation
                                                                                   //transform.Translate(xTranslation, yTranslation);
                                                                                   //Apply rotation
                                transform.Translate(xTranslation, yTranslation);
                                transform.Rotate(rotationInRads);

                                PdfFixedPrint fixedPrint = new PdfFixedPrint();
                                watermark.SetFixedPrint(fixedPrint);
                                //Create appearance
                                Rectangle formRectangle = new Rectangle(formXOffset, formYOffset, formWidth, formHeight);

                                //Observation: font XObject will be resized to fit inside the watermark rectangle
                                PdfFormXObject form = new PdfFormXObject(formRectangle);
                                PdfExtGState   gs1  = new PdfExtGState().SetFillOpacity(rgbColor.A / 255f);
                                canvas = new PdfCanvas(form, pdfDoc);

                                float[] transformValues = new float[6];
                                transform.GetMatrix(transformValues);
                                canvas.SaveState()
                                .BeginText().SetFillColorRgb(rgbColor.R / 225f, rgbColor.G / 225f, rgbColor.B / 255f).SetExtGState(gs1)
                                .SetTextMatrix(transformValues[0], transformValues[1], transformValues[2], transformValues[3], transformValues[4], transformValues[5])
                                .SetFontAndSize(font, fontSize)
                                .ShowText(text)
                                .EndText()
                                .RestoreState();

                                canvas.Release();

                                watermark.SetAppearance(PdfName.N, new PdfAnnotationAppearance(form.GetPdfObject()));
                                watermark.SetFlags(PdfAnnotation.PRINT);

                                page.AddAnnotation(watermark);
                            }
                            pdfDoc.Close();
                        }
                        else
                        {
                            App.Current.Dispatcher.Invoke(() =>
                            {
                                MessageBoxX.Show($"没有找到字体{fontFamily},请确认已安装", "字体错误");
                            });
                            return(false);
                        }
                        return(true);
                    }
                }
                catch (Exception ex)
                {
                    Analytics.TrackEvent("PDFError", new Dictionary <string, string>
                    {
                        ["message"] = ex.ToString()
                    });
                }
                finally
                {
                    File.Delete(pdfFile);
                }
            }
            return(false);
        }
Exemplo n.º 13
0
        /// <summary>
        /// Transforms the source <CODE>BufferedImage</CODE> and stores the results
        /// in the destination <CODE>BufferedImage</CODE>.
        /// If the color models for the two images do not match, a color
        /// conversion into the destination color model is performed.
        /// If the destination image is null,
        /// a <CODE>BufferedImage</CODE> is created with the source
        /// <CODE>ColorModel</CODE>.
        /// <para>
        /// The coordinates of the rectangle returned by
        /// <code>getBounds2D(BufferedImage)</code>
        /// are not necessarily the same as the coordinates of the
        /// <code>BufferedImage</code> returned by this method.  If the
        /// upper-left corner coordinates of the rectangle are
        /// negative then this part of the rectangle is not drawn.  If the
        /// upper-left corner coordinates of the  rectangle are positive
        /// then the filtered image is drawn at that position in the
        /// destination <code>BufferedImage</code>.
        /// </para>
        /// <para>
        /// An <CODE>IllegalArgumentException</CODE> is thrown if the source is
        /// the same as the destination.
        ///
        /// </para>
        /// </summary>
        /// <param name="src"> The <CODE>BufferedImage</CODE> to transform. </param>
        /// <param name="dst"> The <CODE>BufferedImage</CODE> in which to store the results
        /// of the transformation.
        /// </param>
        /// <returns> The filtered <CODE>BufferedImage</CODE>. </returns>
        /// <exception cref="IllegalArgumentException"> if <code>src</code> and
        ///         <code>dst</code> are the same </exception>
        /// <exception cref="ImagingOpException"> if the image cannot be transformed
        ///         because of a data-processing error that might be
        ///         caused by an invalid image format, tile format, or
        ///         image-processing operation, or any other unsupported
        ///         operation. </exception>
        public BufferedImage Filter(BufferedImage src, BufferedImage dst)
        {
            if (src == null)
            {
                throw new NullPointerException("src image is null");
            }
            if (src == dst)
            {
                throw new IllegalArgumentException("src image cannot be the " + "same as the dst image");
            }

            bool          needToConvert = false;
            ColorModel    srcCM         = src.ColorModel;
            ColorModel    dstCM;
            BufferedImage origDst = dst;

            if (dst == null)
            {
                dst     = CreateCompatibleDestImage(src, null);
                dstCM   = srcCM;
                origDst = dst;
            }
            else
            {
                dstCM = dst.ColorModel;
                if (srcCM.ColorSpace.Type != dstCM.ColorSpace.Type)
                {
                    int  type      = Xform.Type;
                    bool needTrans = ((type & (Xform.TYPE_MASK_ROTATION | Xform.TYPE_GENERAL_TRANSFORM)) != 0);
                    if (!needTrans && type != Xform.TYPE_TRANSLATION && type != Xform.TYPE_IDENTITY)
                    {
                        double[] mtx = new double[4];
                        Xform.GetMatrix(mtx);
                        // Check out the matrix.  A non-integral scale will force ARGB
                        // since the edge conditions can't be guaranteed.
                        needTrans = (mtx[0] != (int)mtx[0] || mtx[3] != (int)mtx[3]);
                    }

                    if (needTrans && srcCM.Transparency == java.awt.Transparency_Fields.OPAQUE)
                    {
                        // Need to convert first
                        ColorConvertOp ccop   = new ColorConvertOp(Hints);
                        BufferedImage  tmpSrc = null;
                        int            sw     = src.Width;
                        int            sh     = src.Height;
                        if (dstCM.Transparency == java.awt.Transparency_Fields.OPAQUE)
                        {
                            tmpSrc = new BufferedImage(sw, sh, BufferedImage.TYPE_INT_ARGB);
                        }
                        else
                        {
                            WritableRaster r = dstCM.CreateCompatibleWritableRaster(sw, sh);
                            tmpSrc = new BufferedImage(dstCM, r, dstCM.AlphaPremultiplied, null);
                        }
                        src = ccop.Filter(src, tmpSrc);
                    }
                    else
                    {
                        needToConvert = true;
                        dst           = CreateCompatibleDestImage(src, null);
                    }
                }
            }

            if (InterpolationType_Renamed != TYPE_NEAREST_NEIGHBOR && dst.ColorModel is IndexColorModel)
            {
                dst = new BufferedImage(dst.Width, dst.Height, BufferedImage.TYPE_INT_ARGB);
            }
            if (ImagingLib.filter(this, src, dst) == null)
            {
                throw new ImagingOpException("Unable to transform src image");
            }

            if (needToConvert)
            {
                ColorConvertOp ccop = new ColorConvertOp(Hints);
                ccop.Filter(dst, origDst);
            }
            else if (origDst != dst)
            {
                java.awt.Graphics2D g = origDst.CreateGraphics();
                try
                {
                    g.Composite = AlphaComposite.Src;
                    g.DrawImage(dst, 0, 0, null);
                }
                finally
                {
                    g.Dispose();
                }
            }

            return(origDst);
        }
Exemplo n.º 14
0
        /// <summary>
        /// Watermarks a PDF file.
        /// </summary>
        /// <paramref name="fileName"/>
        private void WatermarkPdf(string fileName)
        {
            var watermarkText   = _operation.WatermarkText;
            var sourceFile      = $"{_operation.SourcePath}\\{fileName}";
            var destinationPath = $"{_operation.DestinationPath}\\{PathWatermarked}";
            var destinationFile = $"{destinationPath}\\{fileName}";

            ValidatePath(destinationPath);

            const float watermarkTrimmingRectangleWidth  = 600;
            const float watermarkTrimmingRectangleHeight = 600;

            const float formWidth   = 300;
            const float formHeight  = 300;
            const float formXOffset = 0;
            const float formYOffset = 0;

            const float xTranslation = 50;
            const float yTranslation = 25;

            const double rotationInRads = Math.PI / 3;

            try
            {
                FontCache.ClearSavedFonts();
            }
            catch (Exception exception)
            {
                Log.Error(exception.Message);
            }

            var         font     = PdfFontFactory.CreateFont(StandardFonts.COURIER);
            const float fontSize = 119;

            using var reader = new PdfReader(new MemoryStream(File.ReadAllBytes(sourceFile)));
            using var pdfDoc = new PdfDocument(reader, new PdfWriter(destinationFile));
            var     numberOfPages = pdfDoc.GetNumberOfPages();
            PdfPage page          = null;

            for (var i = 1; i <= numberOfPages; i++)
            {
                page = pdfDoc.GetPage(i);

                var ps = page.GetPageSize();

                //Center the annotation
                var bottomLeftX = ps.GetWidth() / 2 - watermarkTrimmingRectangleWidth / 2;
                var bottomLeftY = ps.GetHeight() / 2 - watermarkTrimmingRectangleHeight / 2;
                var watermarkTrimmingRectangle = new Rectangle(bottomLeftX, bottomLeftY,
                                                               watermarkTrimmingRectangleWidth, watermarkTrimmingRectangleHeight);

                var watermark = new PdfWatermarkAnnotation(watermarkTrimmingRectangle);

                //Apply linear algebra rotation math
                //Create identity matrix
                var transform = new AffineTransform(); //No-args constructor creates the identity transform
                //Apply translation
                transform.Translate(xTranslation, yTranslation);
                //Apply rotation
                transform.Rotate(rotationInRads);

                var fixedPrint = new PdfFixedPrint();
                watermark.SetFixedPrint(fixedPrint);
                //Create appearance
                var formRectangle = new Rectangle(formXOffset, formYOffset, formWidth, formHeight);

                //Observation: font XObject will be resized to fit inside the watermark rectangle
                var form   = new PdfFormXObject(formRectangle);
                var gs1    = new PdfExtGState().SetFillOpacity(0.6f);
                var canvas = new PdfCanvas(form, pdfDoc);

                var transformValues = new float[6];
                transform.GetMatrix(transformValues);

                canvas.SaveState()
                .BeginText().SetColor(ColorConstants.GRAY, true).SetExtGState(gs1)
                .SetTextMatrix(transformValues[0], transformValues[1], transformValues[2], transformValues[3],
                               transformValues[4], transformValues[5])
                .SetFontAndSize(font, fontSize)
                .ShowText(watermarkText)
                .EndText()
                .RestoreState();

                canvas.Release();

                watermark.SetAppearance(PdfName.N, new PdfAnnotationAppearance(form.GetPdfObject()));
                watermark.SetFlags(PdfAnnotation.PRINT);

                page.AddAnnotation(watermark);
            }

            page?.Flush();
            pdfDoc.Close();
        }
        /// <summary>
        /// Constructor for MultipleGradientPaintContext superclass.
        /// </summary>
        protected internal MultipleGradientPaintContext(MultipleGradientPaint mgp, ColorModel cm, Rectangle deviceBounds, Rectangle2D userBounds, AffineTransform t, RenderingHints hints, float[] fractions, Color[] colors, CycleMethod cycleMethod, ColorSpaceType colorSpace)
        {
            if (deviceBounds == null)
            {
                throw new NullPointerException("Device bounds cannot be null");
            }

            if (userBounds == null)
            {
                throw new NullPointerException("User bounds cannot be null");
            }

            if (t == null)
            {
                throw new NullPointerException("Transform cannot be null");
            }

            if (hints == null)
            {
                throw new NullPointerException("RenderingHints cannot be null");
            }

            // The inverse transform is needed to go from device to user space.
            // Get all the components of the inverse transform matrix.
            AffineTransform tInv;

            try
            {
                // the following assumes that the caller has copied the incoming
                // transform and is not concerned about it being modified
                t.Invert();
                tInv = t;
            }
            catch (NoninvertibleTransformException)
            {
                // just use identity transform in this case; better to show
                // (incorrect) results than to throw an exception and/or no-op
                tInv = new AffineTransform();
            }
            double[] m = new double[6];
            tInv.GetMatrix(m);
            A00 = (float)m[0];
            A10 = (float)m[1];
            A01 = (float)m[2];
            A11 = (float)m[3];
            A02 = (float)m[4];
            A12 = (float)m[5];

            // copy some flags
            this.CycleMethod = cycleMethod;
            this.ColorSpace  = colorSpace;

            // we can avoid copying this array since we do not modify its values
            this.Fractions = fractions;

            // note that only one of these values can ever be non-null (we either
            // store the fast gradient array or the slow one, but never both
            // at the same time)
            int[]   gradient  = (mgp.Gradient != null) ? mgp.Gradient.get() : null;
            int[][] gradients = (mgp.Gradients != null) ? mgp.Gradients.get() : null;

            if (gradient == null && gradients == null)
            {
                // we need to (re)create the appropriate values
                CalculateLookupData(colors);

                // now cache the calculated values in the
                // MultipleGradientPaint instance for future use
                mgp.Model = this.Model;
                mgp.NormalizedIntervals = this.NormalizedIntervals;
                mgp.IsSimpleLookup      = this.IsSimpleLookup;
                if (IsSimpleLookup)
                {
                    // only cache the fast array
                    mgp.FastGradientArraySize = this.FastGradientArraySize;
                    mgp.Gradient = new SoftReference <int[]>(this.Gradient);
                }
                else
                {
                    // only cache the slow array
                    mgp.Gradients = new SoftReference <int[][]>(this.Gradients);
                }
            }
            else
            {
                // use the values cached in the MultipleGradientPaint instance
                this.Model = mgp.Model;
                this.NormalizedIntervals   = mgp.NormalizedIntervals;
                this.IsSimpleLookup        = mgp.IsSimpleLookup;
                this.Gradient              = gradient;
                this.FastGradientArraySize = mgp.FastGradientArraySize;
                this.Gradients             = gradients;
            }
        }