/// <summary> /// Extracts text fragments from the 3rd page and highlights the glyphs in the fragment. /// </summary> /// <param name="document"></param> private static void ExtractImagesAndHighlight(PDFFixedDocument document) { PDFPen pen = new PDFPen(new PDFRgbColor(255, 0, 192), 0.5); PDFBrush brush = new PDFBrush(new PDFRgbColor(0, 0, 0)); PDFStandardFont helvetica = new PDFStandardFont(PDFStandardFontFace.Helvetica, 8); PDFStringAppearanceOptions sao = new PDFStringAppearanceOptions(); sao.Brush = brush; sao.Font = helvetica; PDFStringLayoutOptions slo = new PDFStringLayoutOptions(); slo.Width = 1000; PDFContentExtractor ce = new PDFContentExtractor(document.Pages[2]); PDFVisualImageCollection eic = ce.ExtractImages(false); for (int i = 0; i < eic.Count; i++) { string imageProperties = string.Format("Image ID: {0}\nPixel width: {1} pixels\nPixel height: {2} pixels\n" + "Display width: {3} points\nDisplay height: {4} points\nHorizonal Resolution: {5} dpi\nVertical Resolution: {6} dpi", eic[i].ImageID, eic[i].Width, eic[i].Height, eic[i].DisplayWidth, eic[i].DisplayHeight, eic[i].DpiX, eic[i].DpiY); PDFPath boundingPath = new PDFPath(); boundingPath.StartSubpath(eic[i].ImageCorners[0].X, eic[i].ImageCorners[0].Y); boundingPath.AddLineTo(eic[i].ImageCorners[1].X, eic[i].ImageCorners[1].Y); boundingPath.AddLineTo(eic[i].ImageCorners[2].X, eic[i].ImageCorners[2].Y); boundingPath.AddLineTo(eic[i].ImageCorners[3].X, eic[i].ImageCorners[3].Y); boundingPath.CloseSubpath(); document.Pages[2].Canvas.DrawPath(pen, boundingPath); slo.X = eic[i].ImageCorners[3].X + 1; slo.Y = eic[i].ImageCorners[3].Y + 1; document.Pages[2].Canvas.DrawString(imageProperties, sao, slo); } }
/// <summary> /// Extracts text fragments from the 2nd page and highlights the glyphs in the fragment. /// </summary> /// <param name="document"></param> private static void ExtractTextAndHighlightGlyphs(PDFFixedDocument document) { PDFRgbColor penColor = new PDFRgbColor(); PDFPen pen = new PDFPen(penColor, 0.5); Random rnd = new Random(); byte[] rgb = new byte[3]; PDFContentExtractor ce = new PDFContentExtractor(document.Pages[1]); PDFTextRunCollection trc = ce.ExtractTextRuns(); PDFTextRun tr = trc[1]; for (int i = 0; i < tr.Glyphs.Count; i++) { rnd.NextBytes(rgb); penColor.R = rgb[0]; penColor.G = rgb[1]; penColor.B = rgb[2]; PDFPath boundingPath = new PDFPath(); boundingPath.StartSubpath(tr.Glyphs[i].GlyphCorners[0].X, tr.Glyphs[i].GlyphCorners[0].Y); boundingPath.AddLineTo(tr.Glyphs[i].GlyphCorners[1].X, tr.Glyphs[i].GlyphCorners[1].Y); boundingPath.AddLineTo(tr.Glyphs[i].GlyphCorners[2].X, tr.Glyphs[i].GlyphCorners[2].Y); boundingPath.AddLineTo(tr.Glyphs[i].GlyphCorners[3].X, tr.Glyphs[i].GlyphCorners[3].Y); boundingPath.CloseSubpath(); document.Pages[1].Canvas.DrawPath(pen, boundingPath); } }
private static void HighlightSearchResults(PDFPage page, PDFTextSearchResultCollection searchResults, PDFColor color) { PDFPen pen = new PDFPen(color, 0.5); for (int i = 0; i < searchResults.Count; i++) { PDFTextFragmentCollection tfc = searchResults[i].TextFragments; for (int j = 0; j < tfc.Count; j++) { PDFPath path = new PDFPath(); path.StartSubpath(tfc[j].FragmentCorners[0].X, tfc[j].FragmentCorners[0].Y); path.AddPolygon(tfc[j].FragmentCorners); page.Canvas.DrawPath(pen, path); } } }
/// <summary> /// Draws the Bezier connected lines on the page. /// </summary> /// <param name="page">Page where to draw the lines.</param> /// <param name="points">List of points representing the connected lines.</param> /// <param name="pen">Pen to draw the final path.</param> /// <param name="smoothFactor">Smooth factor for computing the Bezier curve</param> /// <param name="font"></param> private static void DrawBezierConnectedLines(PDFPage page, PDFPoint[] points, PDFPen pen, double smoothFactor, PDFFont font) { PDFPath path = new PDFPath(); path.StartSubpath(points[0].X, points[0].Y); for (int i = 0; i < points.Length - 2; i++) { PDFPoint[] pts = ComputeBezierConnectedLines(points[i], points[i + 1], points[i + 2], smoothFactor, i == 0, i == points.Length - 3); switch (pts.Length) { case 2: // Intermediate/last section - straight lines path.AddLineTo(pts[0].X, pts[0].Y); path.AddLineTo(pts[1].X, pts[1].Y); break; case 3: // First section - straight lines path.AddLineTo(pts[0].X, pts[0].Y); path.AddLineTo(pts[1].X, pts[1].Y); path.AddLineTo(pts[2].X, pts[2].Y); break; case 4: // Intermediate/last section path.AddLineTo(pts[0].X, pts[0].Y); path.AddBezierTo(pts[1].X, pts[1].Y, pts[1].X, pts[1].Y, pts[2].X, pts[2].Y); path.AddLineTo(pts[3].X, pts[3].Y); break; case 5: // First section path.AddLineTo(pts[0].X, pts[0].Y); path.AddLineTo(pts[1].X, pts[1].Y); path.AddBezierTo(pts[2].X, pts[2].Y, pts[2].X, pts[2].Y, pts[3].X, pts[3].Y); path.AddLineTo(pts[4].X, pts[4].Y); break; } } page.Canvas.DrawPath(pen, path); page.Canvas.DrawString($"Smooth factor = {smoothFactor}", font, new PDFBrush(), points[points.Length - 1].X, points[0].Y); }
/// <summary> /// Main method for running the sample. /// </summary> public static SampleOutputInfo[] Run(Stream input) { PDFBrush brush = new PDFBrush(); PDFPen redPen = new PDFPen(PDFRgbColor.Red, 1); PDFStandardFont helvetica = new PDFStandardFont(PDFStandardFontFace.Helvetica, 10); PDFFixedDocument document = new PDFFixedDocument(input); PDFContentExtractor ce = new PDFContentExtractor(document.Pages[0]); PDFVisualObjectCollection voc = ce.ExtractVisualObjects(false); PDFPath contour = null; for (int i = 0; i < voc.Count; i++) { switch (voc[i].Type) { case PDFVisualObjectType.Image: PDFImageVisualObject ivo = voc[i] as PDFImageVisualObject; contour = new PDFPath(); contour.StartSubpath(ivo.Image.ImageCorners[0].X - 5, ivo.Image.ImageCorners[0].Y + 5); contour.AddLineTo(ivo.Image.ImageCorners[1].X + 5, ivo.Image.ImageCorners[1].Y + 5); contour.AddLineTo(ivo.Image.ImageCorners[2].X + 5, ivo.Image.ImageCorners[2].Y - 5); contour.AddLineTo(ivo.Image.ImageCorners[3].X - 5, ivo.Image.ImageCorners[3].Y - 5); contour.CloseSubpath(); document.Pages[0].Canvas.DrawPath(redPen, contour); document.Pages[0].Canvas.DrawString("Image", helvetica, brush, ivo.Image.ImageCorners[0].X - 5, ivo.Image.ImageCorners[0].Y + 5); break; case PDFVisualObjectType.Text: PDFTextVisualObject tvo = voc[i] as PDFTextVisualObject; contour = new PDFPath(); contour.StartSubpath(tvo.TextFragment.FragmentCorners[0].X - 5, tvo.TextFragment.FragmentCorners[0].Y + 5); contour.AddLineTo(tvo.TextFragment.FragmentCorners[1].X + 5, tvo.TextFragment.FragmentCorners[1].Y + 5); contour.AddLineTo(tvo.TextFragment.FragmentCorners[2].X + 5, tvo.TextFragment.FragmentCorners[2].Y - 5); contour.AddLineTo(tvo.TextFragment.FragmentCorners[3].X - 5, tvo.TextFragment.FragmentCorners[3].Y - 5); contour.CloseSubpath(); document.Pages[0].Canvas.DrawPath(redPen, contour); document.Pages[0].Canvas.DrawString("Text", helvetica, brush, tvo.TextFragment.FragmentCorners[0].X - 5, tvo.TextFragment.FragmentCorners[0].Y + 5); break; case PDFVisualObjectType.Path: PDFPathVisualObject pvo = voc[i] as PDFPathVisualObject; // Examine all the path points and determine the minimum rectangle that bounds the path. double minX = 999999, minY = 999999, maxX = -999999, maxY = -999999; for (int j = 0; j < pvo.PathItems.Count; j++) { PDFPathItem pi = pvo.PathItems[j]; if (pi.Points != null) { for (int k = 0; k < pi.Points.Length; k++) { if (minX >= pi.Points[k].X) { minX = pi.Points[k].X; } if (minY >= pi.Points[k].Y) { minY = pi.Points[k].Y; } if (maxX <= pi.Points[k].X) { maxX = pi.Points[k].X; } if (maxY <= pi.Points[k].Y) { maxY = pi.Points[k].Y; } } } } contour = new PDFPath(); contour.StartSubpath(minX - 5, minY - 5); contour.AddLineTo(maxX + 5, minY - 5); contour.AddLineTo(maxX + 5, maxY + 5); contour.AddLineTo(minX - 5, maxY + 5); contour.CloseSubpath(); document.Pages[0].Canvas.DrawPath(redPen, contour); document.Pages[0].Canvas.DrawString("Path", helvetica, brush, minX - 5, maxY + 5); // Skip the rest of path objects, they are the evaluation message i = voc.Count; break; } } SampleOutputInfo[] output = new SampleOutputInfo[] { new SampleOutputInfo(document, "pageobjects.pdf") }; return(output); }
private static void DrawPatterns(PDFPage page, PDFFont titleFont, PDFFont sectionFont) { PDFBrush brush = new PDFBrush(); PDFPen blackPen = new PDFPen(PDFRgbColor.Black, 1); PDFPen darkRedPen = new PDFPen(new PDFRgbColor(0xFF, 0x40, 0x40), 0.8); PDFPen darkOrangePen = new PDFPen(new PDFRgbColor(0xA6, 0x4B, 0x00), 0.8); PDFPen darkCyanPen = new PDFPen(new PDFRgbColor(0x00, 0x63, 0x63), 0.8); PDFPen darkGreenPen = new PDFPen(new PDFRgbColor(0x00, 0x85, 0x00), 0.8); PDFBrush lightRedBrush = new PDFBrush(new PDFRgbColor(0xFF, 0x73, 0x73)); PDFBrush lightOrangeBrush = new PDFBrush(new PDFRgbColor(0xFF, 0x96, 0x40)); PDFBrush lightCyanBrush = new PDFBrush(new PDFRgbColor(0x33, 0xCC, 0xCC)); PDFBrush lightGreenBrush = new PDFBrush(new PDFRgbColor(0x67, 0xE6, 0x67)); page.Canvas.DrawString("Patterns", titleFont, brush, 20, 50); page.Canvas.DrawString("Colored patterns", sectionFont, brush, 25, 70); // Create the pattern visual appearance. PDFColoredTilingPattern ctp = new PDFColoredTilingPattern(20, 20); // Red circle ctp.Canvas.DrawEllipse(darkRedPen, lightRedBrush, 1, 1, 8, 8); // Cyan square ctp.Canvas.DrawRectangle(darkCyanPen, lightCyanBrush, 11, 1, 8, 8); // Green diamond PDFPath diamondPath = new PDFPath(); diamondPath.StartSubpath(1, 15); diamondPath.AddPolyLineTo(new PDFPoint[] { new PDFPoint(5, 11), new PDFPoint(9, 15), new PDFPoint(5, 19) }); diamondPath.CloseSubpath(); ctp.Canvas.DrawPath(darkGreenPen, lightGreenBrush, diamondPath); // Orange triangle PDFPath trianglePath = new PDFPath(); trianglePath.StartSubpath(11, 19); trianglePath.AddPolyLineTo(new PDFPoint[] { new PDFPoint(15, 11), new PDFPoint(19, 19) }); trianglePath.CloseSubpath(); ctp.Canvas.DrawPath(darkOrangePen, lightOrangeBrush, trianglePath); // Create a pattern colorspace from the pattern object. PDFPatternColorSpace coloredPatternColorSpace = new PDFPatternColorSpace(ctp); // Create a color based on the pattern colorspace. PDFPatternColor coloredPatternColor = new PDFPatternColor(coloredPatternColorSpace); // The pen and brush use the pattern color like any other color. PDFPatternBrush patternBrush = new PDFPatternBrush(coloredPatternColor); PDFPatternPen patternPen = new PDFPatternPen(coloredPatternColor, 40); page.Canvas.DrawEllipse(patternBrush, 25, 90, 250, 200); page.Canvas.DrawRoundRectangle(patternPen, 310, 110, 250, 160, 100, 100); page.Canvas.DrawString("Uncolored patterns", sectionFont, brush, 25, 300); // Create the pattern visual appearance. PDFUncoloredTilingPattern uctp = new PDFUncoloredTilingPattern(20, 20); // A pen without color is used to create the pattern content. PDFPen noColorPen = new PDFPen(null, 0.8); // Circle uctp.Canvas.DrawEllipse(noColorPen, 1, 1, 8, 8); // Square uctp.Canvas.DrawRectangle(noColorPen, 11, 1, 8, 8); // Diamond diamondPath = new PDFPath(); diamondPath.StartSubpath(1, 15); diamondPath.AddPolyLineTo(new PDFPoint[] { new PDFPoint(5, 11), new PDFPoint(9, 15), new PDFPoint(5, 19) }); diamondPath.CloseSubpath(); uctp.Canvas.DrawPath(noColorPen, diamondPath); // Triangle trianglePath = new PDFPath(); trianglePath.StartSubpath(11, 19); trianglePath.AddPolyLineTo(new PDFPoint[] { new PDFPoint(15, 11), new PDFPoint(19, 19) }); trianglePath.CloseSubpath(); uctp.Canvas.DrawPath(noColorPen, trianglePath); // Create a pattern colorspace from the pattern object. PDFPatternColorSpace uncoloredPatternColorSpace = new PDFPatternColorSpace(uctp); // Create a color based on the pattern colorspace. PDFPatternColor uncoloredPatternColor = new PDFPatternColor(uncoloredPatternColorSpace); // The pen and brush use the pattern color like any other color. patternBrush = new PDFPatternBrush(uncoloredPatternColor); // Before using the uncolored pattern set the color that will be used to paint the pattern. patternBrush.UncoloredPatternPaintColor = new PDFRgbColor(0xFF, 0x40, 0x40); page.Canvas.DrawEllipse(patternBrush, 25, 320, 125, 200); patternBrush.UncoloredPatternPaintColor = new PDFRgbColor(0xA6, 0x4B, 0x00); page.Canvas.DrawEllipse(patternBrush, 175, 320, 125, 200); patternBrush.UncoloredPatternPaintColor = new PDFRgbColor(0x00, 0x63, 0x63); page.Canvas.DrawEllipse(patternBrush, 325, 320, 125, 200); patternBrush.UncoloredPatternPaintColor = new PDFRgbColor(0x00, 0x85, 0x00); page.Canvas.DrawEllipse(patternBrush, 475, 320, 125, 200); page.Canvas.DrawString("Shading patterns", sectionFont, brush, 25, 550); // Create the pattern visual appearance. PDFAxialShading horizontalShading = new PDFAxialShading(); horizontalShading.StartColor = new PDFRgbColor(255, 0, 0); horizontalShading.EndColor = new PDFRgbColor(0, 0, 255); horizontalShading.StartPoint = new PDFPoint(25, 600); horizontalShading.EndPoint = new PDFPoint(575, 600); PDFShadingPattern sp = new PDFShadingPattern(horizontalShading); // Create a pattern colorspace from the pattern object. PDFPatternColorSpace shadingPatternColorSpace = new PDFPatternColorSpace(sp); // Create a color based on the pattern colorspace. PDFPatternColor shadingPatternColor = new PDFPatternColor(shadingPatternColorSpace); // The pen and brush use the pattern color like any other color. patternPen = new PDFPatternPen(shadingPatternColor, 40); page.Canvas.DrawEllipse(patternPen, 50, 600, 500, 150); page.Canvas.CompressAndClose(); }
private static void DrawLines(PDFPage page, PDFFont titleFont, PDFFont sectionFont) { PDFBrush brush = new PDFBrush(); PDFPen blackPen = new PDFPen(PDFRgbColor.Black, 1); PDFPen bluePen = new PDFPen(PDFRgbColor.LightBlue, 16); page.Canvas.DrawString("Lines", titleFont, brush, 20, 50); page.Canvas.DrawString("Line styles:", sectionFont, brush, 20, 70); page.Canvas.DrawString("Solid", sectionFont, brush, 20, 90); page.Canvas.DrawLine(blackPen, 100, 95, 400, 95); page.Canvas.DrawString("Dashed", sectionFont, brush, 20, 110); blackPen.DashPattern = new double[] { 3, 3 }; page.Canvas.DrawLine(blackPen, 100, 115, 400, 115); page.Canvas.DrawString("Line cap styles:", sectionFont, brush, 20, 150); page.Canvas.DrawString("Flat", sectionFont, brush, 20, 175); page.Canvas.DrawLine(bluePen, 100, 180, 400, 180); blackPen.DashPattern = null; page.Canvas.DrawLine(blackPen, 100, 180, 400, 180); page.Canvas.DrawString("Square", sectionFont, brush, 20, 195); bluePen.LineCap = PDFLineCap.Square; page.Canvas.DrawLine(bluePen, 100, 200, 400, 200); blackPen.DashPattern = null; page.Canvas.DrawLine(blackPen, 100, 200, 400, 200); page.Canvas.DrawString("Round", sectionFont, brush, 20, 215); bluePen.LineCap = PDFLineCap.Round; page.Canvas.DrawLine(bluePen, 100, 220, 400, 220); blackPen.DashPattern = null; page.Canvas.DrawLine(blackPen, 100, 220, 400, 220); page.Canvas.DrawString("Line join styles:", sectionFont, brush, 20, 250); page.Canvas.DrawString("Miter", sectionFont, brush, 20, 280); PDFPath miterPath = new PDFPath(); miterPath.StartSubpath(150, 320); miterPath.AddLineTo(250, 260); miterPath.AddLineTo(350, 320); bluePen.LineCap = PDFLineCap.Flat; bluePen.LineJoin = PDFLineJoin.Miter; page.Canvas.DrawPath(bluePen, miterPath); page.Canvas.DrawString("Bevel", sectionFont, brush, 20, 360); PDFPath bevelPath = new PDFPath(); bevelPath.StartSubpath(150, 400); bevelPath.AddLineTo(250, 340); bevelPath.AddLineTo(350, 400); bluePen.LineCap = PDFLineCap.Flat; bluePen.LineJoin = PDFLineJoin.Bevel; page.Canvas.DrawPath(bluePen, bevelPath); page.Canvas.DrawString("Round", sectionFont, brush, 20, 440); PDFPath roundPath = new PDFPath(); roundPath.StartSubpath(150, 480); roundPath.AddLineTo(250, 420); roundPath.AddLineTo(350, 480); bluePen.LineCap = PDFLineCap.Flat; bluePen.LineJoin = PDFLineJoin.Round; page.Canvas.DrawPath(bluePen, roundPath); page.Canvas.DrawString("Random lines clipped to rectangle", sectionFont, brush, 20, 520); PDFPath clipPath = new PDFPath(); clipPath.AddRectangle(20, 550, 570, 230); page.Canvas.SaveGraphicsState(); page.Canvas.SetClip(clipPath); PDFRgbColor randomColor = new PDFRgbColor(); PDFPen randomPen = new PDFPen(randomColor, 1); Random rnd = new Random(); for (int i = 0; i < 100; i++) { randomColor.R = (byte)rnd.Next(256); randomColor.G = (byte)rnd.Next(256); randomColor.B = (byte)rnd.Next(256); page.Canvas.DrawLine(randomPen, rnd.NextDouble() * page.Width, 550 + rnd.NextDouble() * 250, rnd.NextDouble() * page.Width, 550 + rnd.NextDouble() * 250); } page.Canvas.RestoreGraphicsState(); page.Canvas.DrawPath(blackPen, clipPath); page.Canvas.CompressAndClose(); }