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/*
* $Id$
* Copyright (C) 2001 The Apache Software Foundation. All rights reserved.
* For details on use and redistribution please refer to the
* LICENSE file included with these sources.
*/
package org.apache.fop.svg;
import org.apache.fop.pdf.*;
import org.apache.fop.layout.*;
import org.apache.fop.fonts.*;
import org.apache.fop.render.pdf.*;
import org.apache.fop.image.*;
import org.apache.fop.render.pdf.CIDFont;
import org.apache.fop.render.pdf.fonts.LazyFont;
import org.apache.fop.render.pdf.FopPDFImage;
import org.apache.fop.fo.FOUserAgent;
import org.apache.batik.ext.awt.g2d.*;
import org.apache.batik.ext.awt.image.GraphicsUtil;
import org.apache.batik.ext.awt.MultipleGradientPaint;
import org.apache.batik.ext.awt.RadialGradientPaint;
import org.apache.batik.ext.awt.LinearGradientPaint;
import org.apache.batik.gvt.PatternPaint;
import org.apache.batik.gvt.GraphicsNode;
import java.text.AttributedCharacterIterator;
import java.text.CharacterIterator;
import java.awt.*;
import java.awt.Font;
import java.awt.Image;
import java.awt.image.*;
import java.awt.font.*;
import java.awt.geom.*;
import java.awt.color.ColorSpace;
import java.awt.image.renderable.*;
import java.io.*;
import java.util.Map;
import java.util.ArrayList;
import java.util.HashMap;
/**
* PDF Graphics 2D.
* Used for drawing into a pdf document as if it is a graphics object.
* This takes a pdf document and draws into it.
*
* @author <a href="mailto:keiron@aftexsw.com">Keiron Liddle</a>
* @version $Id$
* @see org.apache.batik.ext.awt.g2d.AbstractGraphics2D
*/
public class PDFGraphics2D extends AbstractGraphics2D {
boolean standalone = false;
/**
* the PDF Document being created
*/
protected PDFDocument pdfDoc;
protected PDFResourceContext resourceContext;
protected String pageRef;
/**
* the current state of the pdf graphics
*/
PDFState graphicsState;
protected FontState fontState;
protected FontState ovFontState = null;
/**
* the current stream to add PDF commands to
*/
StringWriter currentStream = new StringWriter();
/**
* the current (internal) font name
*/
protected String currentFontName;
/**
* the current font size in millipoints
*/
protected float currentFontSize;
/**
* the current vertical position in millipoints from bottom
*/
protected int currentYPosition = 0;
/**
* the current horizontal position in millipoints from left
*/
protected int currentXPosition = 0;
/**
* The output stream for the pdf document.
* If this is set then it can progressively output
* the pdf document objects to reduce memory.
* Especially with images.
*/
protected OutputStream outputStream = null;
/**
* Create a new PDFGraphics2D with the given pdf document info.
* This is used to create a Graphics object for use inside an already
* existing document.
*/
public PDFGraphics2D(boolean textAsShapes, FontState fs, PDFDocument doc,
PDFResourceContext page, String pref, String font, float size, int xpos, int ypos) {
super(textAsShapes);
pdfDoc = doc;
resourceContext = page;
currentFontName = font;
currentFontSize = size;
currentYPosition = ypos;
currentXPosition = xpos;
fontState = fs;
pageRef = pref;
graphicsState = new PDFState();
}
protected PDFGraphics2D(boolean textAsShapes) {
super(textAsShapes);
}
public void setPDFState(PDFState state) {
graphicsState = state;
}
public void setOutputStream(OutputStream os) {
outputStream = os;
}
public String getString() {
return currentStream.toString();
}
public void setGraphicContext(GraphicContext c) {
gc = c;
}
public void setOverrideFontState(FontState infont) {
ovFontState = infont;
}
/**
* This constructor supports the create method
*/
public PDFGraphics2D(PDFGraphics2D g) {
super(g);
}
/**
* Creates a new <code>Graphics</code> object that is
* a copy of this <code>Graphics</code> object.
* @return a new graphics context that is a copy of
* this graphics context.
*/
public Graphics create() {
return new PDFGraphics2D(this);
}
/**
* This is a pdf specific method used to add a link to the
* pdf document.
*/
public void addLink(Rectangle2D bounds, AffineTransform trans, String dest, int linkType) {
AffineTransform at = getTransform();
Shape b = at.createTransformedShape(bounds);
b = trans.createTransformedShape(b);
Rectangle rect = b.getBounds();
rect.height = -rect.height;
if(linkType != PDFLink.EXTERNAL) {
String pdfdest = "/FitR " + dest;
resourceContext.addAnnotation(pdfDoc.makeLink(rect, pageRef, pdfdest));
} else {
resourceContext.addAnnotation(pdfDoc.makeLink(rect,
dest, linkType));
}
}
public void addJpegImage(JpegImage jpeg, float x, float y, float width, float height) {
FopPDFImage fopimage = new FopPDFImage(jpeg, jpeg.getURL());
int xObjectNum = this.pdfDoc.addImage(resourceContext, fopimage).getXNumber();
AffineTransform at = getTransform();
double[] matrix = new double[6];
at.getMatrix(matrix);
currentStream.write("q\n");
Shape imclip = getClip();
writeClip(imclip);
currentStream.write("" + matrix[0] + " " + matrix[1] + " "
+ matrix[2] + " " + matrix[3] + " "
+ matrix[4] + " " + matrix[5] + " cm\n");
currentStream.write("" + width + " 0 0 "
+ (-height) + " "
+ x + " "
+ (y + height) + " cm\n" + "/Im"
+ xObjectNum + " Do\nQ\n");
if(outputStream != null) {
try {
this.pdfDoc.output(outputStream);
} catch(IOException ioe) {
// ignore exception, will be thrown again later
}
}
}
/**
* Draws as much of the specified image as is currently available.
* The image is drawn with its top-left corner at
* (<i>x</i>, <i>y</i>) in this graphics context's coordinate
* space. Transparent pixels in the image do not affect whatever
* pixels are already there.
* <p>
* This method returns immediately in all cases, even if the
* complete image has not yet been loaded, and it has not been dithered
* and converted for the current output device.
* <p>
* If the image has not yet been completely loaded, then
* <code>drawImage</code> returns <code>false</code>. As more of
* the image becomes available, the process that draws the image notifies
* the specified image observer.
* @param img the specified image to be drawn.
* @param x the <i>x</i> coordinate.
* @param y the <i>y</i> coordinate.
* @param observer object to be notified as more of
* the image is converted.
* @see java.awt.Image
* @see java.awt.image.ImageObserver
* @see java.awt.image.ImageObserver#imageUpdate(java.awt.Image, int, int, int, int, int)
*/
public boolean drawImage(Image img, int x, int y,
ImageObserver observer) {
// System.err.println("drawImage:x, y");
int width = img.getWidth(observer);
int height = img.getHeight(observer);
if (width == -1 || height == -1) {
return false;
}
// first we look to see if we've already added this image to
// the pdf document. If so, we just reuse the reference;
// otherwise we have to build a FopImage and add it to the pdf
// document
PDFXObject imageInfo = pdfDoc.getImage("TempImage:" + img.toString());
if (imageInfo == null) {
// OK, have to build and add a PDF image
// scale factor
final int scaleFactor = 3;
Dimension size = new Dimension(width * scaleFactor, height * scaleFactor);
BufferedImage buf = buildBufferedImage(size);
java.awt.Graphics2D g = buf.createGraphics();
g.setComposite(AlphaComposite.SrcOver);
g.setBackground(new Color(1, 1, 1, 0));
g.setPaint(new Color(1, 1, 1, 0));
g.fillRect(0, 0, width * scaleFactor, height * scaleFactor);
g.clip(new Rectangle(0, 0, buf.getWidth(), buf.getHeight()));
if (!g.drawImage(img, 0, 0, buf.getWidth(), buf.getHeight(), observer)) {
return false;
}
g.dispose();
final byte[] result = new byte[buf.getWidth() * buf.getHeight() * 3];
byte[] mask = new byte[buf.getWidth() * buf.getHeight()];
boolean hasMask = false;
boolean binaryMask = true;
Raster raster = buf.getData();
DataBuffer bd = raster.getDataBuffer();
int count = 0;
int maskpos = 0;
int[] iarray;
int i, j, val, alpha, add, mult;
switch (bd.getDataType()) {
case DataBuffer.TYPE_INT:
int[][] idata = ((DataBufferInt)bd).getBankData();
for (i = 0; i < idata.length; i++) {
iarray = idata[i];
for (j = 0; j < iarray.length; j++) {
val = iarray[j];
alpha = val >>> 24;
mask[maskpos++] = (byte)(alpha & 0xFF);
if (alpha != 255) {
hasMask = true;
if(alpha != 0) binaryMask = false;
// System.out.println("Alpha: " + alpha);
// Composite with opaque white...
add = (255 - alpha);
mult = (alpha << 16) / 255;
result[count++] =
(byte)(add
+ ((((val >> 16) & 0xFF) * mult) >> 16));
result[count++] =
(byte)(add
+ ((((val >> 8) & 0xFF) * mult) >> 16));
result[count++] = (byte)(add
+ ((((val) & 0xFF) * mult)
>> 16));
} else {
result[count++] = (byte)((val >> 16) & 0xFF);
result[count++] = (byte)((val >> 8) & 0xFF);
result[count++] = (byte)((val) & 0xFF);
}
}
}
break;
default:
// error
break;
}
String ref = null;
if(hasMask) {
// if the mask is binary then we could convert it into a bitmask
BitmapImage fopimg = new BitmapImage("TempImageMask:" + img.toString(), buf.getWidth(), buf.getHeight(), mask, null);
fopimg.setColorSpace(new PDFColorSpace(PDFColorSpace.DEVICE_GRAY));
PDFXObject xobj = pdfDoc.addImage(resourceContext, fopimg);
ref = xobj.referencePDF();
if(outputStream != null) {
try {
this.pdfDoc.output(outputStream);
} catch(IOException ioe) {
// ignore exception, will be thrown again later
}
}
} else {
mask = null;
}
BitmapImage fopimg = new BitmapImage("TempImage:" + img.toString(), buf.getWidth(), buf.getHeight(), result, ref);
fopimg.setTransparent(new PDFColor(255, 255, 255));
imageInfo = pdfDoc.addImage(resourceContext, fopimg);
int xObjectNum = imageInfo.getXNumber();
if(outputStream != null) {
try {
this.pdfDoc.output(outputStream);
} catch(IOException ioe) {
// ignore exception, will be thrown again later
}
}
} else {
resourceContext.getPDFResources().addXObject(imageInfo);
}
// now do any transformation required and add the actual image
// placement instance
AffineTransform at = getTransform();
double[] matrix = new double[6];
at.getMatrix(matrix);
currentStream.write("q\n");
Shape imclip = getClip();
writeClip(imclip);
currentStream.write("" + matrix[0] + " " + matrix[1] + " "
+ matrix[2] + " " + matrix[3] + " "
+ matrix[4] + " " + matrix[5] + " cm\n");
currentStream.write("" + width + " 0 0 " + (-height) + " " + x
+ " " + (y + height) + " cm\n" + "/Im"
+ imageInfo.getXNumber() + " Do\nQ\n");
return true;
}
public BufferedImage buildBufferedImage(Dimension size) {
return new BufferedImage(size.width, size.height,
BufferedImage.TYPE_INT_ARGB);
}
/**
* Draws as much of the specified image as has already been scaled
* to fit inside the specified rectangle.
* <p>
* The image is drawn inside the specified rectangle of this
* graphics context's coordinate space, and is scaled if
* necessary. Transparent pixels do not affect whatever pixels
* are already there.
* <p>
* This method returns immediately in all cases, even if the
* entire image has not yet been scaled, dithered, and converted
* for the current output device.
* If the current output representation is not yet complete, then
* <code>drawImage</code> returns <code>false</code>. As more of
* the image becomes available, the process that draws the image notifies
* the image observer by calling its <code>imageUpdate</code> method.
* <p>
* A scaled version of an image will not necessarily be
* available immediately just because an unscaled version of the
* image has been constructed for this output device. Each size of
* the image may be cached separately and generated from the original
* data in a separate image production sequence.
* @param img the specified image to be drawn.
* @param x the <i>x</i> coordinate.
* @param y the <i>y</i> coordinate.
* @param width the width of the rectangle.
* @param height the height of the rectangle.
* @param observer object to be notified as more of
* the image is converted.
* @see java.awt.Image
* @see java.awt.image.ImageObserver
* @see java.awt.image.ImageObserver#imageUpdate(java.awt.Image, int, int, int, int, int)
*/
public boolean drawImage(Image img, int x, int y, int width, int height,
ImageObserver observer) {
System.out.println("drawImage");
return true;
}
/**
* Disposes of this graphics context and releases
* any system resources that it is using.
* A <code>Graphics</code> object cannot be used after
* <code>dispose</code>has been called.
* <p>
* When a Java program runs, a large number of <code>Graphics</code>
* objects can be created within a short time frame.
* Although the finalization process of the garbage collector
* also disposes of the same system resources, it is preferable
* to manually free the associated resources by calling this
* method rather than to rely on a finalization process which
* may not run to completion for a long period of time.
* <p>
* Graphics objects which are provided as arguments to the
* <code>paint</code> and <code>update</code> methods
* of components are automatically released by the system when
* those methods return. For efficiency, programmers should
* call <code>dispose</code> when finished using
* a <code>Graphics</code> object only if it was created
* directly from a component or another <code>Graphics</code> object.
* @see java.awt.Graphics#finalize
* @see java.awt.Component#paint
* @see java.awt.Component#update
* @see java.awt.Component#getGraphics
* @see java.awt.Graphics#create
*/
public void dispose() {
// System.out.println("dispose");
pdfDoc = null;
fontState = null;
currentStream = null;
currentFontName = null;
}
/**
* Strokes the outline of a <code>Shape</code> using the settings of the
* current <code>Graphics2D</code> context. The rendering attributes
* applied include the <code>Clip</code>, <code>Transform</code>,
* <code>Paint</code>, <code>Composite</code> and
* <code>Stroke</code> attributes.
* @param s the <code>Shape</code> to be rendered
* @see #setStroke
* @see #setPaint
* @see java.awt.Graphics#setColor
* @see #transform
* @see #setTransform
* @see #clip
* @see #setClip
* @see #setComposite
*/
public void draw(Shape s) {
// System.out.println("draw(Shape)");
Color c;
c = getColor();
if(c.getAlpha() == 0) {
return;
}
AffineTransform trans = getTransform();
double[] tranvals = new double[6];
trans.getMatrix(tranvals);
Shape imclip = getClip();
boolean newClip = graphicsState.checkClip(imclip);
boolean newTransform = graphicsState.checkTransform(trans)
&& !trans.isIdentity();
if(newClip || newTransform) {
currentStream.write("q\n");
graphicsState.push();
if(newClip) {
writeClip(imclip);
}
if(newTransform) {
currentStream.write(PDFNumber.doubleOut(tranvals[0], 5) + " "
+ PDFNumber.doubleOut(tranvals[1], 5) + " "
+ PDFNumber.doubleOut(tranvals[2], 5) + " "
+ PDFNumber.doubleOut(tranvals[3], 5) + " "
+ PDFNumber.doubleOut(tranvals[4], 5) + " "
+ PDFNumber.doubleOut(tranvals[5], 5) + " cm\n");
}
}
if(c.getAlpha() != 255) {
HashMap vals = new HashMap();
vals.put(PDFGState.CA, new Float(c.getAlpha() / 255f));
PDFGState gstate = pdfDoc.makeGState(vals, graphicsState.getGState());
//gstate.setAlpha(c.getAlpha() / 255f, false);
resourceContext.addGState(gstate);
currentStream.write("/" + gstate.getName() + " gs\n");
}
applyColor(c, false);
applyPaint(getPaint(), false);
applyStroke(getStroke());
PathIterator iter = s.getPathIterator(new AffineTransform());
while (!iter.isDone()) {
double vals[] = new double[6];
int type = iter.currentSegment(vals);
switch (type) {
case PathIterator.SEG_CUBICTO:
currentStream.write(PDFNumber.doubleOut(vals[0], 5) + " "
+ PDFNumber.doubleOut(vals[1], 5) + " "
+ PDFNumber.doubleOut(vals[2], 5) + " "
+ PDFNumber.doubleOut(vals[3], 5) + " "
+ PDFNumber.doubleOut(vals[4], 5) + " "
+ PDFNumber.doubleOut(vals[5], 5) + " c\n");
break;
case PathIterator.SEG_LINETO:
currentStream.write(PDFNumber.doubleOut(vals[0], 5) + " "
+ PDFNumber.doubleOut(vals[1], 5) + " l\n");
break;
case PathIterator.SEG_MOVETO:
currentStream.write(PDFNumber.doubleOut(vals[0], 5) + " "
+ PDFNumber.doubleOut(vals[1], 5) + " m\n");
break;
case PathIterator.SEG_QUADTO:
currentStream.write(PDFNumber.doubleOut(vals[0], 5) + " "
+ PDFNumber.doubleOut(vals[1], 5) + " "
+ PDFNumber.doubleOut(vals[2], 5) + " "
+ PDFNumber.doubleOut(vals[3], 5) + " y\n");
break;
case PathIterator.SEG_CLOSE:
currentStream.write("h\n");
break;
default:
break;
}
iter.next();
}
doDrawing(false, true, false);
if(newClip || newTransform) {
currentStream.write("Q\n");
graphicsState.pop();
}
}
protected void writeClip(Shape s) {
if (s == null) {
return;
}
PathIterator iter = s.getPathIterator(getTransform());
while (!iter.isDone()) {
double vals[] = new double[6];
int type = iter.currentSegment(vals);
switch (type) {
case PathIterator.SEG_CUBICTO:
currentStream.write(PDFNumber.doubleOut(vals[0]) + " "
+ PDFNumber.doubleOut(vals[1]) + " "
+ PDFNumber.doubleOut(vals[2]) + " "
+ PDFNumber.doubleOut(vals[3]) + " "
+ PDFNumber.doubleOut(vals[4]) + " "
+ PDFNumber.doubleOut(vals[5]) + " c\n");
break;
case PathIterator.SEG_LINETO:
currentStream.write(PDFNumber.doubleOut(vals[0]) + " "
+ PDFNumber.doubleOut(vals[1]) + " l\n");
break;
case PathIterator.SEG_MOVETO:
currentStream.write(PDFNumber.doubleOut(vals[0]) + " "
+ PDFNumber.doubleOut(vals[1]) + " m\n");
break;
case PathIterator.SEG_QUADTO:
currentStream.write(PDFNumber.doubleOut(vals[0]) + " "
+ PDFNumber.doubleOut(vals[1]) + " "
+ PDFNumber.doubleOut(vals[2]) + " "
+ PDFNumber.doubleOut(vals[3]) + " y\n");
break;
case PathIterator.SEG_CLOSE:
currentStream.write("h\n");
break;
default:
break;
}
iter.next();
}
// clip area
currentStream.write("W\n");
currentStream.write("n\n");
}
protected void applyColor(Color col, boolean fill) {
Color c = col;
if (c.getColorSpace().getType()
== ColorSpace.TYPE_RGB) {
PDFColor currentColour = new PDFColor(c.getRed(), c.getGreen(),
c.getBlue());
currentStream.write(currentColour.getColorSpaceOut(fill));
} else if (c.getColorSpace().getType()
== ColorSpace.TYPE_CMYK) {
float[] cComps = c.getColorComponents(new float[3]);
double[] cmyk = new double[3];
for (int i = 0; i < 3; i++) {
// convert the float elements to doubles for pdf
cmyk[i] = cComps[i];
}
PDFColor currentColour = new PDFColor(cmyk[0], cmyk[1], cmyk[2], cmyk[3]);
currentStream.write(currentColour.getColorSpaceOut(fill));
} else if (c.getColorSpace().getType()
== ColorSpace.TYPE_2CLR) {
// used for black/magenta
float[] cComps = c.getColorComponents(new float[1]);
double[] blackMagenta = new double[1];
for (int i = 0; i < 1; i++) {
blackMagenta[i] = cComps[i];
}
//PDFColor currentColour = new PDFColor(blackMagenta[0], blackMagenta[1]);
//currentStream.write(currentColour.getColorSpaceOut(fill));
} else {
System.err.println("Color Space not supported by PDFGraphics2D");
}
}
protected void applyPaint(Paint paint, boolean fill) {
if (paint instanceof LinearGradientPaint) {
LinearGradientPaint gp = (LinearGradientPaint)paint;
Color[] cols = gp.getColors();
Point2D p1 = gp.getStartPoint();
Point2D p2 = gp.getEndPoint();
MultipleGradientPaint.CycleMethodEnum cycenum = gp.getCycleMethod();
boolean cyclic = cycenum == MultipleGradientPaint.REPEAT;
ArrayList theCoords = new ArrayList();
theCoords.add(new Double(p1.getX()));
theCoords.add(new Double(p1.getY()));
theCoords.add(new Double(p2.getX()));
theCoords.add(new Double(p2.getY()));
ArrayList theExtend = new ArrayList();
theExtend.add(new Boolean(true));
theExtend.add(new Boolean(true));
ArrayList theDomain = new ArrayList();
theDomain.add(new Double(0));
theDomain.add(new Double(1));
ArrayList theEncode = new ArrayList();
theEncode.add(new Double(0));
theEncode.add(new Double(1));
theEncode.add(new Double(0));
theEncode.add(new Double(1));
ArrayList theBounds = new ArrayList();
theBounds.add(new Double(0));
theBounds.add(new Double(1));
ArrayList theFunctions = new ArrayList();
ArrayList someColors = new ArrayList();
Color c1 = cols[0];
Color c2 = cols[1];
PDFColor color1 = new PDFColor(c1.getRed(), c1.getGreen(),
c1.getBlue());
someColors.add(color1);
PDFColor color2 = new PDFColor(c2.getRed(), c2.getGreen(),
c2.getBlue());
someColors.add(color2);
PDFFunction myfunc = this.pdfDoc.makeFunction(2, theDomain, null,
color1.getVector(), color2.getVector(), 1.0);
PDFColorSpace aColorSpace = new PDFColorSpace(PDFColorSpace.DEVICE_RGB);
PDFPattern myPat = this.pdfDoc.createGradient(resourceContext, false, aColorSpace,
someColors, null, theCoords);
currentStream.write(myPat.getColorSpaceOut(fill));
} else if (paint instanceof RadialGradientPaint) {
RadialGradientPaint rgp = (RadialGradientPaint)paint;
float ar = rgp.getRadius();
Point2D ac = rgp.getCenterPoint();
Point2D af = rgp.getFocusPoint();
ArrayList theCoords = new ArrayList();
theCoords.add( new Double(currentXPosition + ac.getX()));
theCoords.add( new Double(currentYPosition - ac.getY()));
theCoords.add(new Double(0));
theCoords.add( new Double(currentXPosition + af.getX())); // Fx
theCoords.add(new Double(currentYPosition - af.getY())); // Fy
theCoords.add(new Double(ar));
Color[] cols = rgp.getColors();
ArrayList someColors = new ArrayList();
for(int count = 0; count < cols.length; count++) {
someColors.add(new PDFColor(cols[count].getRed(), cols[count].getGreen(), cols[count].getBlue()));
}
float[] fractions = rgp.getFractions();
ArrayList theBounds = new ArrayList();
float lastoffset = 0;
for(int count = 1; count < fractions.length - 1; count++) {
float offset = fractions[count];
// create bounds from last to offset
lastoffset = offset;
theBounds.add(new Double(offset));
}
PDFColorSpace colSpace = new PDFColorSpace(PDFColorSpace.DEVICE_RGB);
PDFPattern myPat = pdfDoc.createGradient(resourceContext, true, colSpace,
someColors, theBounds, theCoords);
currentStream.write(myPat.getColorSpaceOut(fill));
} else if (paint instanceof PatternPaint) {
PatternPaint pp = (PatternPaint)paint;
Rectangle2D rect = pp.getPatternRect();
FontInfo fi = new FontInfo();
FontSetup.setup(fi);
FontState fs = null;
try {
fs = new FontState(fi, "sans-serif", "normal",
"normal", 1, 0);
} catch (org.apache.fop.apps.FOPException fope) {
fope.printStackTrace();
}
PDFResources res = pdfDoc.makeResources();
PDFResourceContext context = new PDFResourceContext(0, pdfDoc, res);
PDFGraphics2D pattGraphic = new PDFGraphics2D(textAsShapes, fs,
pdfDoc, context, pageRef,
currentFontName, currentFontSize,
currentYPosition, currentXPosition);
pattGraphic.gc = (GraphicContext)this.gc.clone();
pattGraphic.gc.validateTransformStack();
pattGraphic.setOutputStream(outputStream);
GraphicsNode gn = pp.getGraphicsNode();
gn.paint(pattGraphic);
StringWriter pattStream = new StringWriter();
pattStream.write("q\n");
// this makes the pattern the right way up, since
// it is outside the original transform around the
// whole svg document
pattStream.write("1 0 0 -1 0 " + rect.getHeight() + " cm\n");
pattStream.write(pattGraphic.getString());
pattStream.write("Q");
ArrayList bbox = new ArrayList();
bbox.add(new Double(0));
bbox.add(new Double(0));
bbox.add(new Double(rect.getWidth()));
bbox.add(new Double(rect.getHeight()));
ArrayList translate = new ArrayList();
// TODO combine with pattern transform
translate.add(new Double(1));
translate.add(new Double(0));
translate.add(new Double(0));
translate.add(new Double(1));
translate.add(new Double(0/*rect.getX()*/));
translate.add(new Double(0/*rect.getY()*/));
FontSetup.addToResources(pdfDoc, res, fi);
PDFPattern myPat = pdfDoc.makePattern(resourceContext, 1, res, 1, 1, bbox,
rect.getWidth(), rect.getHeight(),
translate, null, pattStream.getBuffer());
currentStream.write(myPat.getColorSpaceOut(fill));
if(outputStream != null) {
try {
this.pdfDoc.output(outputStream);
} catch(IOException ioe) {
// ignore exception, will be thrown again later
}
}
}
}
protected void applyStroke(Stroke stroke) {
if (stroke instanceof BasicStroke) {
BasicStroke bs = (BasicStroke)stroke;
float[] da = bs.getDashArray();
if (da != null) {
currentStream.write("[");
for (int count = 0; count < da.length; count++) {
if(((int)da[count]) == 0) {
// the dasharray units in pdf are (whole) numbers
// in user space units, cannot be 0
currentStream.write("1");
} else {
currentStream.write("" + ((int)da[count]));
}
if (count < da.length - 1) {
currentStream.write(" ");
}
}
currentStream.write("] ");
float offset = bs.getDashPhase();
currentStream.write(((int)offset) + " d\n");
}
int ec = bs.getEndCap();
switch (ec) {
case BasicStroke.CAP_BUTT:
currentStream.write(0 + " J\n");
break;
case BasicStroke.CAP_ROUND:
currentStream.write(1 + " J\n");
break;
case BasicStroke.CAP_SQUARE:
currentStream.write(2 + " J\n");
break;
}
int lj = bs.getLineJoin();
switch (lj) {
case BasicStroke.JOIN_MITER:
currentStream.write(0 + " j\n");
break;
case BasicStroke.JOIN_ROUND:
currentStream.write(1 + " j\n");
break;
case BasicStroke.JOIN_BEVEL:
currentStream.write(2 + " j\n");
break;
}
float lw = bs.getLineWidth();
currentStream.write(PDFNumber.doubleOut(lw) + " w\n");
float ml = bs.getMiterLimit();
currentStream.write(PDFNumber.doubleOut(ml) + " M\n");
}
}
/**
* Renders a {@link RenderedImage},
* applying a transform from image
* space into user space before drawing.
* The transformation from user space into device space is done with
* the current <code>Transform</code> in the <code>Graphics2D</code>.
* The specified transformation is applied to the image before the
* transform attribute in the <code>Graphics2D</code> context is applied.
* The rendering attributes applied include the <code>Clip</code>,
* <code>Transform</code>, and <code>Composite</code> attributes. Note
* that no rendering is done if the specified transform is
* noninvertible.
* @param img the image to be rendered
* @param xform the transformation from image space into user space
* @see #transform
* @see #setTransform
* @see #setComposite
* @see #clip
* @see #setClip
*/
public void drawRenderedImage(RenderedImage img, AffineTransform xform) {
System.out.println("drawRenderedImage");
}
/**
* Renders a
* {@link RenderableImage},
* applying a transform from image space into user space before drawing.
* The transformation from user space into device space is done with
* the current <code>Transform</code> in the <code>Graphics2D</code>.
* The specified transformation is applied to the image before the
* transform attribute in the <code>Graphics2D</code> context is applied.
* The rendering attributes applied include the <code>Clip</code>,
* <code>Transform</code>, and <code>Composite</code> attributes. Note
* that no rendering is done if the specified transform is
* noninvertible.
* <p>
* Rendering hints set on the <code>Graphics2D</code> object might
* be used in rendering the <code>RenderableImage</code>.
* If explicit control is required over specific hints recognized by a
* specific <code>RenderableImage</code>, or if knowledge of which hints
* are used is required, then a <code>RenderedImage</code> should be
* obtained directly from the <code>RenderableImage</code>
* and rendered using
* {@link #drawRenderedImage(RenderedImage, AffineTransform) drawRenderedImage}.
* @param img the image to be rendered
* @param xform the transformation from image space into user space
* @see #transform
* @see #setTransform
* @see #setComposite
* @see #clip
* @see #setClip
* @see #drawRenderedImage
*/
public void drawRenderableImage(RenderableImage img,
AffineTransform xform) {
System.out.println("drawRenderableImage");
}
/**
* Renders the text specified by the specified <code>String</code>,
* using the current <code>Font</code> and <code>Paint</code> attributes
* in the <code>Graphics2D</code> context.
* The baseline of the first character is at position
* (<i>x</i>, <i>y</i>) in the User Space.
* The rendering attributes applied include the <code>Clip</code>,
* <code>Transform</code>, <code>Paint</code>, <code>Font</code> and
* <code>Composite</code> attributes. For characters in script systems
* such as Hebrew and Arabic, the glyphs can be rendered from right to
* left, in which case the coordinate supplied is the location of the
* leftmost character on the baseline.
* @param s the <code>String</code> to be rendered
* @param x, y the coordinates where the <code>String</code>
* should be rendered
* @see #setPaint
* @see java.awt.Graphics#setColor
* @see java.awt.Graphics#setFont
* @see #setTransform
* @see #setComposite
* @see #setClip
*/
public void drawString(String s, float x, float y) {
// System.out.println("drawString(String)");
if(ovFontState == null) {
Font gFont = getFont();
String n = gFont.getFamily();
if (n.equals("sanserif")) {
n = "sans-serif";
}
int siz = gFont.getSize();
String style = gFont.isItalic() ? "italic" : "normal";
String weight = gFont.isBold() ? "bold" : "normal";
try {
fontState = new FontState(fontState.getFontInfo(), n, style,
weight, siz * 1000, 0);
} catch (org.apache.fop.apps.FOPException fope) {
fope.printStackTrace();
}
} else {
fontState = ovFontState;
ovFontState = null;
}
String name;
float size;
name = fontState.getFontName();
size = (float)fontState.getFontSize() / 1000f;
if ((!name.equals(this.currentFontName))
|| (size != this.currentFontSize)) {
this.currentFontName = name;
this.currentFontSize = size;
currentStream.write("/" + name + " " + size + " Tf\n");
}
currentStream.write("q\n");
Shape imclip = getClip();
writeClip(imclip);
Color c = getColor();
applyColor(c, true);
int salpha = c.getAlpha();
c = getBackground();
applyColor(c, false);
if(salpha != 255/* || c.getAlpha() != 255*/) {
HashMap vals = new HashMap();
vals.put(PDFGState.ca, new Float(salpha / 255f));
//vals.put(PDFGState.CA, new Float(c.getAlpha() / 255f));
PDFGState gstate = pdfDoc.makeGState(vals, graphicsState.getGState());
resourceContext.addGState(gstate);
currentStream.write("/" + gstate.getName() + " gs\n");
}
currentStream.write("BT\n");
HashMap kerning = null;
boolean kerningAvailable = false;
kerning = fontState.getKerning();
if (kerning != null &&!kerning.isEmpty()) {
kerningAvailable = true;
}
// This assumes that *all* CIDFonts use a /ToUnicode mapping
boolean useMultiByte = false;
org.apache.fop.render.pdf.Font f =
(org.apache.fop.render.pdf.Font)fontState.getFontInfo().getFonts().get(name);
if (f instanceof LazyFont){
if(((LazyFont) f).getRealFont() instanceof CIDFont){
useMultiByte = true;
}
} else if (f instanceof CIDFont){
useMultiByte = true;
}
// String startText = useMultiByte ? "<FEFF" : "(";
String startText = useMultiByte ? "<" : "(";
String endText = useMultiByte ? "> " : ") ";
AffineTransform trans = getTransform();
trans.translate(x, y);
double[] vals = new double[6];
trans.getMatrix(vals);
currentStream.write(PDFNumber.doubleOut(vals[0]) + " "
+ PDFNumber.doubleOut(vals[1]) + " "
+ PDFNumber.doubleOut(vals[2]) + " "
+ PDFNumber.doubleOut(vals[3]) + " "
+ PDFNumber.doubleOut(vals[4]) + " "
+ PDFNumber.doubleOut(vals[5]) + " cm\n");
currentStream.write("1 0 0 -1 0 0 Tm [" + startText);
int l = s.length();
for (int i = 0; i < l; i++) {
char ch = fontState.mapChar(s.charAt(i));
if (!useMultiByte) {
if (ch > 127) {
currentStream.write("\\");
currentStream.write(Integer.toOctalString((int)ch));
} else {
switch (ch) {
case '(':
case ')':
case '\\':
currentStream.write("\\");
break;
}
currentStream.write(ch);
}
} else {
currentStream.write(getUnicodeString(ch));
}
if (kerningAvailable && (i + 1) < l) {
addKerning(currentStream, (new Integer((int)ch)),
(new Integer((int)fontState.mapChar(s.charAt(i + 1)))),
kerning, startText, endText);
}
}
currentStream.write(endText);
currentStream.write("] TJ\n");
currentStream.write("ET\n");
currentStream.write("Q\n");
}
private void addKerning(StringWriter buf, Integer ch1, Integer ch2,
HashMap kerning, String startText,
String endText) {
HashMap kernPair = (HashMap)kerning.get(ch1);
if (kernPair != null) {
Integer width = (Integer)kernPair.get(ch2);
if (width != null) {
currentStream.write(endText + (-width.intValue()) + " " + startText);
}
}
}
/**
* Convert a char to a multibyte hex representation
*/
private String getUnicodeString(char c) {
StringBuffer buf = new StringBuffer(4);
byte[] uniBytes = null;
try {
char[] a = {
c
};
uniBytes = new String(a).getBytes("UnicodeBigUnmarked");
} catch (Exception e) {
// This should never fail
}
for (int i = 0; i < uniBytes.length; i++) {
int b = (uniBytes[i] < 0) ? (int)(256 + uniBytes[i])
: (int)uniBytes[i];
String hexString = Integer.toHexString(b);
if (hexString.length() == 1)
buf = buf.append("0" + hexString);
else
buf = buf.append(hexString);
}
return buf.toString();
}
/**
* Renders the text of the specified iterator, using the
* <code>Graphics2D</code> context's current <code>Paint</code>. The
* iterator must specify a font
* for each character. The baseline of the
* first character is at position (<i>x</i>, <i>y</i>) in the
* User Space.
* The rendering attributes applied include the <code>Clip</code>,
* <code>Transform</code>, <code>Paint</code>, and
* <code>Composite</code> attributes.
* For characters in script systems such as Hebrew and Arabic,
* the glyphs can be rendered from right to left, in which case the
* coordinate supplied is the location of the leftmost character
* on the baseline.
* @param iterator the iterator whose text is to be rendered
* @param x, y the coordinates where the iterator's text is to be
* rendered
* @see #setPaint
* @see java.awt.Graphics#setColor
* @see #setTransform
* @see #setComposite
* @see #setClip
*/
public void drawString(AttributedCharacterIterator iterator, float x,
float y) {
System.err.println("drawString(AttributedCharacterIterator)");
Shape imclip = getClip();
writeClip(imclip);
Color c = getColor();
applyColor(c, true);
c = getBackground();
applyColor(c, false);
currentStream.write("BT\n");
AffineTransform trans = getTransform();
trans.translate(x, y);
double[] vals = new double[6];
trans.getMatrix(vals);
for (char ch = iterator.first(); ch != CharacterIterator.DONE;
ch = iterator.next()) {
Map attr = iterator.getAttributes();
String name = fontState.getFontName();
int size = fontState.getFontSize();
if ((!name.equals(this.currentFontName))
|| (size != this.currentFontSize)) {
this.currentFontName = name;
this.currentFontSize = size;
currentStream.write("/" + name + " " + (size / 1000)
+ " Tf\n");
}
currentStream.write(PDFNumber.doubleOut(vals[0]) + " "
+ PDFNumber.doubleOut(vals[1]) + " "
+ PDFNumber.doubleOut(vals[2]) + " "
+ PDFNumber.doubleOut(vals[3]) + " "
+ PDFNumber.doubleOut(vals[4]) + " "
+ PDFNumber.doubleOut(vals[5]) + " Tm (" + ch
+ ") Tj\n");
}
currentStream.write("ET\n");
}
/**
* Fills the interior of a <code>Shape</code> using the settings of the
* <code>Graphics2D</code> context. The rendering attributes applied
* include the <code>Clip</code>, <code>Transform</code>,
* <code>Paint</code>, and <code>Composite</code>.
* @param s the <code>Shape</code> to be filled
* @see #setPaint
* @see java.awt.Graphics#setColor
* @see #transform
* @see #setTransform
* @see #setComposite
* @see #clip
* @see #setClip
*/
public void fill(Shape s) {
// System.err.println("fill");
Color c;
c = getBackground();
if(c.getAlpha() == 0) {
c = getColor();
if(c.getAlpha() == 0) {
return;
}
}
Shape imclip = getClip();
boolean newState = graphicsState.checkClip(imclip);
if(newState) {
currentStream.write("q\n");
graphicsState.push();
writeClip(imclip);
graphicsState.setClip(imclip);
}
if(c.getAlpha() != 255) {
HashMap vals = new HashMap();
vals.put(PDFGState.ca, new Float(c.getAlpha() / 255f));
PDFGState gstate = pdfDoc.makeGState(vals, graphicsState.getGState());
resourceContext.addGState(gstate);
currentStream.write("/" + gstate.getName() + " gs\n");
}
c = getColor();
if(graphicsState.setColor(c)) {
applyColor(c, true);
}
c = getBackground();
if(graphicsState.setBackColor(c)) {
applyColor(c, false);
}
Paint paint = getPaint();
if(graphicsState.setPaint(paint)) {
applyPaint(paint, true);
}
PathIterator iter = s.getPathIterator(getTransform());
while (!iter.isDone()) {
double vals[] = new double[6];
int type = iter.currentSegment(vals);
switch (type) {
case PathIterator.SEG_CUBICTO:
currentStream.write(PDFNumber.doubleOut(vals[0], 5) + " "
+ PDFNumber.doubleOut(vals[1], 5) + " "
+ PDFNumber.doubleOut(vals[2], 5) + " "
+ PDFNumber.doubleOut(vals[3], 5) + " "
+ PDFNumber.doubleOut(vals[4], 5) + " "
+ PDFNumber.doubleOut(vals[5], 5) + " c\n");
break;
case PathIterator.SEG_LINETO:
currentStream.write(PDFNumber.doubleOut(vals[0], 5) + " "
+ PDFNumber.doubleOut(vals[1], 5) + " l\n");
break;
case PathIterator.SEG_MOVETO:
currentStream.write(PDFNumber.doubleOut(vals[0], 5) + " "
+ PDFNumber.doubleOut(vals[1], 5) + " m\n");
break;
case PathIterator.SEG_QUADTO:
currentStream.write(PDFNumber.doubleOut(vals[0], 5) + " "
+ PDFNumber.doubleOut(vals[1], 5) + " "
+ PDFNumber.doubleOut(vals[2], 5) + " "
+ PDFNumber.doubleOut(vals[3], 5) + " y\n");
break;
case PathIterator.SEG_CLOSE:
currentStream.write("h\n");
break;
default:
break;
}
iter.next();
}
doDrawing(true, false,
iter.getWindingRule() == PathIterator.WIND_EVEN_ODD);
if(newState) {
currentStream.write("Q\n");
graphicsState.pop();
}
}
protected void doDrawing(boolean fill, boolean stroke, boolean nonzero) {
if (fill) {
if (stroke) {
if (nonzero)
currentStream.write("B*\n");
else
currentStream.write("B\n");
} else {
if (nonzero)
currentStream.write("f*\n");
else
currentStream.write("f\n");
}
} else {
// if(stroke)
currentStream.write("S\n");
}
}
/**
* Returns the device configuration associated with this
* <code>Graphics2D</code>.
*/
public GraphicsConfiguration getDeviceConfiguration() {
return new PDFGraphicsConfiguration();
}
/**
* Our implementation of the class that returns information about
* roughly what we can handle and want to see (alpha for example).
*/
static class PDFGraphicsConfiguration extends GraphicsConfiguration {
// We use this to get a good colormodel..
static BufferedImage BIWithAlpha = new BufferedImage(1, 1,
BufferedImage.TYPE_INT_ARGB);
// We use this to get a good colormodel..
static BufferedImage BIWithOutAlpha = new BufferedImage(1, 1,
BufferedImage.TYPE_INT_RGB);
/**
* Construct a buffered image with an alpha channel, unless
* transparencty is OPAQUE (no alpha at all).
*/
public BufferedImage createCompatibleImage(int width, int height,
int transparency) {
if (transparency == Transparency.OPAQUE)
return new BufferedImage(width, height,
BufferedImage.TYPE_INT_RGB);
else
return new BufferedImage(width, height,
BufferedImage.TYPE_INT_ARGB);
}
/**
* Construct a buffered image with an alpha channel.
*/
public BufferedImage createCompatibleImage(int width, int height) {
return new BufferedImage(width, height,
BufferedImage.TYPE_INT_ARGB);
}
/**
* FIXX ME: This should return the page bounds in Pts,
* I couldn't figure out how to get this for the current
* page from the PDFDocument (this still works for now,
* but it should be fixed...).
*/
public Rectangle getBounds() {
System.out.println("getting getBounds");
return null;
}
/**
* Return a good default color model for this 'device'.
*/
public ColorModel getColorModel() {
return BIWithAlpha.getColorModel();
}
/**
* Return a good color model given <tt>transparency</tt>
*/
public ColorModel getColorModel(int transparency) {
if (transparency == Transparency.OPAQUE)
return BIWithOutAlpha.getColorModel();
else
return BIWithAlpha.getColorModel();
}
/**
* The default transform (1:1).
*/
public AffineTransform getDefaultTransform() {
System.out.println("getting getDefaultTransform");
return new AffineTransform();
}
/**
* The normalizing transform (1:1) (since we currently
* render images at 72dpi, which we might want to change
* in the future).
*/
public AffineTransform getNormalizingTransform() {
System.out.println("getting getNormalizingTransform");
return new AffineTransform(2, 0, 0, 2, 0, 0);
}
/**
* Return our dummy instance of GraphicsDevice
*/
public GraphicsDevice getDevice() {
return new PDFGraphicsDevice(this);
}
/*
// for jdk1.4
public java.awt.image.VolatileImage createCompatibleVolatileImage(int width, int height) {
return null;
}
*/
}
/**
* This implements the GraphicsDevice interface as appropriate for
* a PDFGraphics2D. This is quite simple since we only have one
* GraphicsConfiguration for now (this might change in the future
* I suppose).
*/
static class PDFGraphicsDevice extends GraphicsDevice {
/**
* The Graphics Config that created us...
*/
GraphicsConfiguration gc;
/**
* @param The gc we should reference
*/
PDFGraphicsDevice(PDFGraphicsConfiguration gc) {
this.gc = gc;
}
/**
* Ignore template and return the only config we have
*/
public GraphicsConfiguration getBestConfiguration(GraphicsConfigTemplate gct) {
return gc;
}
/**
* Return an array of our one GraphicsConfig
*/
public GraphicsConfiguration[] getConfigurations() {
return new GraphicsConfiguration[] {
gc
};
}
/**
* Return out sole GraphicsConfig.
*/
public GraphicsConfiguration getDefaultConfiguration() {
return gc;
}
/**
* Generate an IdString..
*/
public String getIDstring() {
return toString();
}
/**
* Let the caller know that we are "a printer"
*/
public int getType() {
return GraphicsDevice.TYPE_PRINTER;
}
}
/**
* Used to create proper font metrics
*/
private Graphics2D fmg;
{
BufferedImage bi = new BufferedImage(1, 1,
BufferedImage.TYPE_INT_ARGB);
fmg = bi.createGraphics();
}
/**
* Gets the font metrics for the specified font.
* @return the font metrics for the specified font.
* @param f the specified font
* @see java.awt.Graphics#getFont
* @see java.awt.FontMetrics
* @see java.awt.Graphics#getFontMetrics()
*/
public FontMetrics getFontMetrics(Font f) {
return fmg.getFontMetrics(f);
}
/**
* Sets the paint mode of this graphics context to alternate between
* this graphics context's current color and the new specified color.
* This specifies that logical pixel operations are performed in the
* XOR mode, which alternates pixels between the current color and
* a specified XOR color.
* <p>
* When drawing operations are performed, pixels which are the
* current color are changed to the specified color, and vice versa.
* <p>
* Pixels that are of colors other than those two colors are changed
* in an unpredictable but reversible manner; if the same figure is
* drawn twice, then all pixels are restored to their original values.
* @param c1 the XOR alternation color
*/
public void setXORMode(Color c1) {
System.out.println("setXORMode");
}
/**
* Copies an area of the component by a distance specified by
* <code>dx</code> and <code>dy</code>. From the point specified
* by <code>x</code> and <code>y</code>, this method
* copies downwards and to the right. To copy an area of the
* component to the left or upwards, specify a negative value for
* <code>dx</code> or <code>dy</code>.
* If a portion of the source rectangle lies outside the bounds
* of the component, or is obscured by another window or component,
* <code>copyArea</code> will be unable to copy the associated
* pixels. The area that is omitted can be refreshed by calling
* the component's <code>paint</code> method.
* @param x the <i>x</i> coordinate of the source rectangle.
* @param y the <i>y</i> coordinate of the source rectangle.
* @param width the width of the source rectangle.
* @param height the height of the source rectangle.
* @param dx the horizontal distance to copy the pixels.
* @param dy the vertical distance to copy the pixels.
*/
public void copyArea(int x, int y, int width, int height, int dx,
int dy) {
System.out.println("copyArea");
}
}
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