public virtual void Render( PixelFarm.Drawing.Pdf.MyPdfDocument doc, Stream outputStream) { // Constructs an area tree renderer and supplies the renderer options PdfRenderer renderer = new PdfRenderer(outputStream); if (renderOptions != null) { renderer.Options = renderOptions; } // Create the stream-renderer. StreamRenderer sr = new StreamRenderer(renderer); // Create the tree builder and give it the stream renderer. FOTreeBuilder tb = new FOTreeBuilder(); tb.SetStreamRenderer(sr); // Setup the mapping between xsl:fo elements and our fo classes. StandardElementMapping sem = new StandardElementMapping(); sem.AddToBuilder(tb); //// Start processing the xml document. tb.Parse(doc); }
public RenderQueueEntry(StreamRenderer outer, Page page) { this.outer = outer; this.page = page; foreach (object o in outer.idReferences.getInvalidElements()) { unresolvedIdReferences.Add(o); } }
/// <summary> /// Executes the conversion reading the source tree from the input /// reader, converting it to a format dictated by the render and /// writing it to the supplied output stream. /// </summary> /// <remarks> /// The evaluation copy of this class will output an evaluation /// banner to standard out /// </remarks> /// <param name="inputReader"> /// Reader that provides fast, non-cached, forward-only access /// to XML data /// </param> /// <param name="outputStream"> /// Any subclass of the Stream class, e.g. FileStream /// </param> public void Render(XmlReader inputReader, Stream outputStream) { if (activeDriver != null) { throw new SystemException("ActiveDriver is set."); } try { activeDriver = this; try { // Constructs an area tree renderer and supplies the renderer options PdfRenderer renderer = new PdfRenderer(outputStream); if (renderOptions != null) { renderer.Options = renderOptions; } // Create the stream-renderer. StreamRenderer sr = new StreamRenderer(renderer); // Create the tree builder and give it the stream renderer. FOTreeBuilder tb = new FOTreeBuilder(); tb.SetStreamRenderer(sr); // Setup the mapping between xsl:fo elements and our fo classes. StandardElementMapping sem = new StandardElementMapping(); sem.AddToBuilder(tb); // Start processing the xml document. tb.Parse(inputReader); } finally { if (CloseOnExit) { // Flush and close the output stream outputStream.Flush(); outputStream.Close(); } } } finally { activeDriver = null; } }
/// <summary> /// Executes the conversion reading the source tree from the input /// reader, converting it to a format dictated by the render and /// writing it to the supplied output stream. /// </summary> /// <remarks> /// The evaluation copy of this class will output an evaluation /// banner to standard out /// </remarks> /// <param name="inputReader"> /// Reader that provides fast, non-cached, forward-only access /// to XML data /// </param> /// <param name="outputStream"> /// Any subclass of the Stream class, e.g. FileStream /// </param> public void Render(XmlReader inputReader, Stream outputStream) { try { // Constructs an area tree renderer and supplies the renderer options PdfRenderer renderer = new PdfRenderer(outputStream); if (renderOptions != null) { renderer.Options = renderOptions; } // Create the stream-renderer. StreamRenderer sr = new StreamRenderer(renderer); // Create the tree builder and give it the stream renderer. FOTreeBuilder tb = new FOTreeBuilder(); tb.SetStreamRenderer(sr); // Setup the mapping between xsl:fo elements and our fo classes. StandardElementMapping sem = new StandardElementMapping(); sem.AddToBuilder(tb); // Start processing the xml document. tb.Parse(inputReader); } finally { if (CloseOnExit) { // Flush and close the output stream outputStream.Flush(); outputStream.Close(); } } }