/* * Copyright (c) 2000 David Flanagan. All rights reserved. * This code is from the book Java Examples in a Nutshell, 2nd Edition. * It is provided AS-IS, WITHOUT ANY WARRANTY either expressed or implied. * You may study, use, and modify it for any non-commercial purpose. * You may distribute it non-commercially as long as you retain this notice. * For a commercial use license, or to purchase the book (recommended), * visit http://www.davidflanagan.com/javaexamples2. */ package com.davidflanagan.examples.gui; import java.awt.*; import java.awt.print.*; import java.awt.geom.*; import java.awt.font.*; import javax.swing.*; import javax.swing.text.*; import java.util.*; /** * This class implements the Pageable and Printable interfaces and allows * the contents of any JTextComponent to be printed using the java.awt.print * printing API. **/ public class PrintableDocument implements Pageable, Printable { View root; // The root View to be printed PageFormat format; // Paper plus page orientation int numPages; // How many pages in the document double printX, printY; // coordinates of upper-left of print area double printWidth; // Width of the printable area double printHeight; // Height of the printable area Rectangle drawRect; // The rectangle in which the document is painted // How lenient are we with the bottom margin in widow/orphan prevention? static final double MARGIN_ADJUST = .97; // The font we use for printing page numbers static final Font headerFont = new Font("Serif", Font.PLAIN, 12); /** * This constructor allows printing the contents of any JTextComponent * using a default PageFormat */ public PrintableDocument(JTextComponent textComponent) { this(textComponent, new PageFormat()); } /** * This constructor allows the contents of any JTextComponent to be * printed, using any specified PageFormat object **/ public PrintableDocument(JTextComponent textComponent, PageFormat format) { // Remember the page format, and ask it for the printable area this.format = format; this.printX = format.getImageableX(); this.printY = format.getImageableY(); this.printWidth = format.getImageableWidth(); this.printHeight = format.getImageableHeight(); double paperWidth = format.getWidth(); // Get the document and its root Element from the text component Document document = textComponent.getDocument(); Element rootElement = document.getDefaultRootElement(); // Get the EditorKit and its ViewFactory from the text component EditorKit editorKit =textComponent.getUI().getEditorKit(textComponent); ViewFactory viewFactory = editorKit.getViewFactory(); // Use the ViewFactory to create a root View object for the document // This is the object we'll print. root = viewFactory.create(rootElement); // The Swing text architecture requires us to call setParent() on // our root View before we use it for anything. In order to do this, // we need a View object that can serve as the parent. We use a // custom implementation defined below. root.setParent(new ParentView(root, viewFactory, textComponent)); // Tell the view how wide the page is; it has to format itself // to fit within this width. The height doesn't really matter here root.setSize((float)printWidth, (float)printHeight); // Now that the view has formatted itself for the specified width, // Ask it how tall it is. double documentHeight = root.getPreferredSpan(View.Y_AXIS); // Set up the rectangle that tells the view where to draw itself // We'll use it in other methods of this class. drawRect = new Rectangle((int)printX, (int)printY, (int)printWidth, (int)documentHeight); // Now if the document is taller than one page, we have to // figure out where the page breaks are. if (documentHeight > printHeight) paginate(root, drawRect); // Once we've broken it into pages, figure out how man pages. numPages = pageLengths.size() + 1; } // This is the starting offset of the page we're currently working on double pageStart = 0; /** * This method loops through the children of the specified view, * recursing as necessary, and inserts pages breaks when needed. * It makes a rudimentary attempt to avoid "widows" and "orphans". **/ protected void paginate(View v, Rectangle2D allocation) { // Figure out how tall this view is, and tell it to allocate // that space among its children double myheight = v.getPreferredSpan(View.Y_AXIS); v.setSize((float)printWidth, (float)myheight); // Now loop through each of the children int numkids = v.getViewCount(); for(int i = 0; i < numkids; i++) { View kid = v.getView(i); // this is the child we're working with // Figure out its size and location Shape kidshape = v.getChildAllocation(i, allocation); if (kidshape == null) continue; Rectangle2D kidbox = kidshape.getBounds2D(); // This is the Y coordinate of the bottom of the child double kidpos = kidbox.getY() + kidbox.getHeight() - pageStart; // If this is the first child of a group, then we want to ensure // that it doesn't get left by itself at the bottom of a page. // I.e. we want to prevent "widows" if ((numkids > 1) && (i == 0)) { // If it is not near the end of the page, then just move // on to the next child if (kidpos < printY + printHeight*MARGIN_ADJUST) continue; // Otherwise, the child is near the bottom of the page, so // break the page before this child and place this child on // the new page. breakPage(kidbox.getY()); continue; } // If this is the last child of a group, we don't want it to // appear by itself at the top of a new page, so allow it to // squeeze past the bottom margin if necessary. This helps to // prevent "orphans" if ((numkids > 1) && (i == numkids-1)) { // If it fits normally, just move on to the next one if (kidpos < printY + printHeight) continue; // Otherwise, if it fits with extra space, then break the // at the end of the group if (kidpos < printY + printHeight/MARGIN_ADJUST) { breakPage(allocation.getY() + allocation.getHeight()); continue; } } // If the child is not the first or last of a group, then we use // the bottom margin strictly. If the child fits on the page, // then move on to the next child. if (kidpos < printY+printHeight) continue; // If we get here, the child doesn't fit on this page. If it has // no children, then break the page before this child and continue. if (kid.getViewCount() == 0) { breakPage(kidbox.getY()); continue; } // If we get here, then the child did not fit on the page, but it // has kids of its own, so recurse to see if any of those kids // will fit on the page. paginate(kid, kidbox); } } // For a document of n pages, this list stores the lengths of pages // 0 through n-2. The last page is assumed to have a full length ArrayList pageLengths = new ArrayList(); // For a document of n pages, this list stores the starting offset of // pages 1 through n-1. The offset of page 0 is always 0 ArrayList pageOffsets = new ArrayList(); /** * Break a page at the specified Y coordinate. Store the necessary * information into the pageLengths and pageOffsets lists **/ void breakPage(double y) { double pageLength = y-pageStart-printY; pageStart = y-printY; pageLengths.add(new Double(pageLength)); pageOffsets.add(new Double(pageStart)); } /** Return the number of pages. This is a Pageable method. */ public int getNumberOfPages() { return numPages; } /** * Return the PageFormat object for the specified page. This * implementation uses the computed length of the page in the returned * PageFormat object. The PrinterJob will use this as a clipping region, * which will prevent extraneous parts of the document from being drawn * in the top and bottom margins. **/ public PageFormat getPageFormat(int pagenum) { // On the last page, just return the user-specified page format if (pagenum == numPages-1) return format; // Otherwise, look up the height of this page and return an // appropriate PageFormat. double pageLength = ((Double)pageLengths.get(pagenum)).doubleValue(); PageFormat f = (PageFormat) format.clone(); Paper p = f.getPaper(); if (f.getOrientation() == PageFormat.PORTRAIT) p.setImageableArea(printX, printY, printWidth, pageLength); else p.setImageableArea(printY, printX, pageLength, printWidth); f.setPaper(p); return f; } /** * This Printable method returns the Printable object for the specified * page. Since this class implements both Pageable and Printable, it just * returns this. **/ public Printable getPrintable(int pagenum) { return this; } /** * This is the basic Printable method that prints a specified page **/ public int print(Graphics g, PageFormat format, int pageIndex) { // Return an error code on attempts to print past the end of the doc if (pageIndex >= numPages) return NO_SUCH_PAGE; // Cast the Graphics object so we can use Java2D operations Graphics2D g2 = (Graphics2D)g; // Display a page number centered in the area of the top margin. // Set a new clipping region so we can draw into the top margin // But remember the original clipping region so we can restore it Shape originalClip = g.getClip(); g.setClip(new Rectangle(0, 0, (int)printWidth, (int)printY)); // Compute the header to display, measure it, then display it String numString = "- " + (pageIndex+1) + " -"; Rectangle2D numBounds = // Get the width and height of the string headerFont.getStringBounds(numString, g2.getFontRenderContext()); LineMetrics metrics = // Get the ascent and descent of the font headerFont.getLineMetrics(numString, g2.getFontRenderContext()); g.setFont(headerFont); // Set the font g.setColor(Color.black); // Print with black ink g.drawString(numString, // Display the string (int)(printX + (printWidth-numBounds.getWidth())/2), (int)((printY-numBounds.getHeight())/2 + metrics.getAscent())); g.setClip(originalClip); // Restore the clipping region // Figure out the staring position of the page within the document double pageStart = 0.0; if (pageIndex > 0) pageStart = ((Double)pageOffsets.get(pageIndex-1)).doubleValue(); // Scroll so that the appropriate part of the document is lined up // with the upper-left corner of the page g2.translate(0.0, -pageStart); // Now paint the entire document. The PrinterJob will have // established a clipping region, so that only the desired portion // of the document will actually be drawn on this sheet of paper. root.paint(g, drawRect); // Finally return a success code return PAGE_EXISTS; } /** * This inner class is a concrete implementation of View, with a * couple of key method implementations. An instance of this class * is used as the parent of the root View object we want to print **/ static class ParentView extends View { ViewFactory viewFactory; // The ViewFactory for the hierarchy of views Container container; // The Container for the hierarchy of views public ParentView(View v, ViewFactory viewFactory, Container container) { super(v.getElement()); this.viewFactory = viewFactory; this.container = container; } // These methods return key pieces of information required by // the View hierarchy. public ViewFactory getViewFactory() { return viewFactory; } public Container getContainer() { return container; } // These methods are abstract in View, so we've got to provide // dummy implementations of them here, even though they're never used. public void paint(Graphics g, Shape allocation) {} public float getPreferredSpan(int axis) { return 0.0f; } public int viewToModel(float x,float y,Shape a,Position.Bias[] bias) { return 0; } public Shape modelToView(int pos, Shape a, Position.Bias b) throws BadLocationException { return a; } } }