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Posted to fop-commits@xmlgraphics.apache.org by ar...@apache.org on 2001/02/11 06:39:38 UTC
cvs commit: xml-fop/jpfop-0.17.0/src/org/apache/fop/pdf PDFDocument.java
arved 01/02/10 21:39:38
Added: jpfop-0.17.0/src/org/apache/fop/pdf PDFDocument.java
Log:
New or modified JPFOP PDF class
Revision Changes Path
1.1 xml-fop/jpfop-0.17.0/src/org/apache/fop/pdf/PDFDocument.java
Index: PDFDocument.java
===================================================================
/*-- $Id: PDFDocument.java,v 1.1 2001/02/11 05:39:38 arved Exp $ --
============================================================================
The Apache Software License, Version 1.1
============================================================================
Copyright (C) 1999 The Apache Software Foundation. All rights reserved.
Redistribution and use in source and binary forms, with or without modifica-
tion, are permitted provided that the following conditions are met:
1. Redistributions of source code must retain the above copyright notice,
this list of conditions and the following disclaimer.
2. Redistributions in binary form must reproduce the above copyright notice,
this list of conditions and the following disclaimer in the documentation
and/or other materials provided with the distribution.
3. The end-user documentation included with the redistribution, if any, must
include the following acknowledgment: "This product includes software
developed by the Apache Software Foundation (http://www.apache.org/)."
Alternately, this acknowledgment may appear in the software itself, if
and wherever such third-party acknowledgments normally appear.
4. The names "FOP" and "Apache Software Foundation" must not be used to
endorse or promote products derived from this software without prior
written permission. For written permission, please contact
apache@apache.org.
5. Products derived from this software may not be called "Apache", nor may
"Apache" appear in their name, without prior written permission of the
Apache Software Foundation.
THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESSED OR IMPLIED WARRANTIES,
INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND
FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
APACHE SOFTWARE FOUNDATION OR ITS CONTRIBUTORS BE LIABLE FOR ANY DIRECT,
INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLU-
DING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS
OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
This software consists of voluntary contributions made by many individuals
on behalf of the Apache Software Foundation and was originally created by
James Tauber <jt...@jtauber.com>. For more information on the Apache
Software Foundation, please see <http://www.apache.org/>.
*/
/* image support modified from work of BoBoGi */
/* font support based on work by Takayuki Takeuchi */
package org.apache.fop.pdf;
// images are the one place that FOP classes outside this package get
// referenced and I'd rather not do it
import org.apache.fop.image.FopImage;
import org.apache.fop.layout.LinkSet;
import org.apache.fop.datatypes.ColorSpace;
import org.apache.fop.datatypes.IDReferences;
import org.apache.fop.layout.Page;
import org.apache.fop.layout.FontMetric;
import org.apache.fop.layout.FontDescriptor;
// Japanese
import org.apache.fop.render.pdf.CIDFont;
// Java
import java.io.IOException;
import java.io.OutputStream;
import java.util.Vector;
import java.util.Hashtable;
import java.util.Enumeration;
import java.awt.Rectangle;
/**
* class representing a PDF document.
*
* The document is built up by calling various methods and then finally
* output to given filehandle using output method.
*
* A PDF document consists of a series of numbered objects preceded by a
* header and followed by an xref table and trailer. The xref table
* allows for quick access to objects by listing their character
* positions within the document. For this reason the PDF document must
* keep track of the character position of each object. The document
* also keeps direct track of the /Root, /Info and /Resources objects.
*/
public class PDFDocument {
/** the version of PDF supported */
protected static final String pdfVersion = "1.3";
/** the current character position */
protected int position = 0;
/** the character position of each object */
protected Vector location = new Vector();
/** the counter for object numbering */
protected int objectcount = 0;
/** the objects themselves */
protected Vector objects = new Vector();
/** character position of xref table */
protected int xref;
/** the /Root object */
protected PDFRoot root;
/** the /Info object */
protected PDFInfo info;
/** the /Resources object */
protected PDFResources resources;
/** the documents idReferences */
protected IDReferences idReferences;
/** the colorspace (0=RGB, 1=CMYK) **/
//protected int colorspace = 0;
protected ColorSpace colorspace = new ColorSpace(ColorSpace.DEVICE_RGB);
/** the counter for Pattern name numbering (e.g. 'Pattern1')*/
protected int patternCount = 0;
/** the counter for Shading name numbering */
protected int shadingCount = 0;
/** the counter for XObject numbering */
protected int xObjectCount = 0;
/** the XObjects */
protected Vector xObjects = new Vector();
/** the XObjects Map.
Should be modified (works only for image subtype) */
protected Hashtable xObjectsMap = new Hashtable();
/**
* creates an empty PDF document
*/
public PDFDocument() {
/* create the /Root, /Info and /Resources objects */
this.root = makeRoot();
this.info = makeInfo();
this.resources = makeResources();
}
/**
* set the producer of the document
*
* @param producer string indicating application producing the PDF
*/
public void setProducer(String producer) {
this.info.setProducer(producer);
}
/**
* make /Root object as next object
*
* @return the created /Root object
*/
protected PDFRoot makeRoot() {
/* create a PDFRoot with the next object number and add to
list of objects */
PDFRoot pdfRoot = new PDFRoot(++this.objectcount);
this.objects.addElement(pdfRoot);
/* create a new /Pages object to be root of Pages hierarchy
and add to list of objects */
PDFPages rootPages = new PDFPages(++this.objectcount);
this.objects.addElement(rootPages);
/* inform the /Root object of the /Pages root */
pdfRoot.setRootPages(rootPages);
return pdfRoot;
}
/**
* make an /Info object
*
* @param producer string indicating application producing the PDF
* @return the created /Info object
*/
protected PDFInfo makeInfo() {
/* create a PDFInfo with the next object number and add to
list of objects */
PDFInfo pdfInfo = new PDFInfo(++this.objectcount);
this.objects.addElement(pdfInfo);
return pdfInfo;
}
/**
* make a /Resources object
*
* @return the created /Resources object
*/
private PDFResources makeResources() {
/* create a PDFResources with the next object number and add
to list of objects */
PDFResources pdfResources = new PDFResources(++this.objectcount);
this.objects.addElement(pdfResources);
return pdfResources;
}
/**
* Make a Type 0 sampled function
*
* @param theDomain Vector objects of Double objects.
* This is the domain of the function.
* See page 264 of the PDF 1.3 Spec.
* @param theRange Vector objects of Double objects.
* This is the Range of the function.
* See page 264 of the PDF 1.3 Spec.
* @param theSize A Vector object of Integer objects.
* This is the number of samples in each input dimension.
* I can't imagine there being more or less than two input dimensions,
* so maybe this should be an array of length 2.
*
* See page 265 of the PDF 1.3 Spec.
* @param theBitsPerSample An int specifying the number of bits user to represent each sample value.
* Limited to 1,2,4,8,12,16,24 or 32.
* See page 265 of the 1.3 PDF Spec.
* @param theOrder The order of interpolation between samples. Default is 1 (one). Limited
* to 1 (one) or 3, which means linear or cubic-spline interpolation.
*
* This attribute is optional.
*
* See page 265 in the PDF 1.3 spec.
* @param theEncode Vector objects of Double objects.
* This is the linear mapping of input values intop the domain
* of the function's sample table. Default is hard to represent in
* ascii, but basically [0 (Size0 1) 0 (Size1 1)...].
* This attribute is optional.
*
* See page 265 in the PDF 1.3 spec.
* @param theDecode Vector objects of Double objects.
* This is a linear mapping of sample values into the range.
* The default is just the range.
*
* This attribute is optional.
* Read about it on page 265 of the PDF 1.3 spec.
* @param theFunctionDataStream The sample values that specify the function are provided in a stream.
*
* This is optional, but is almost always used.
*
* Page 265 of the PDF 1.3 spec has more.
* @param theFilter This is a vector of String objects which are the various filters that
* have are to be applied to the stream to make sense of it. Order matters,
* so watch out.
*
* This is not documented in the Function section of the PDF 1.3 spec,
* it was deduced from samples that this is sometimes used, even if we may never
* use it in FOP. It is added for completeness sake.
* @param theNumber The object number of this PDF object.
* @param theFunctionType This is the type of function (0,2,3, or 4).
* It should be 0 as this is the constructor for sampled functions.
*/
public PDFFunction makeFunction(int theFunctionType,
Vector theDomain, Vector theRange,
Vector theSize,int theBitsPerSample,
int theOrder,Vector theEncode,Vector theDecode,
StringBuffer theFunctionDataStream, Vector theFilter)
{//Type 0 function
PDFFunction function = new PDFFunction(
++this.objectcount, theFunctionType,
theDomain, theRange, theSize,
theBitsPerSample, theOrder,
theEncode, theDecode,
theFunctionDataStream, theFilter);
this.objects.addElement(function);
return(function);
}
/**
* make a type Exponential interpolation function
* (for shading usually)
*
* @param theDomain Vector objects of Double objects.
* This is the domain of the function.
* See page 264 of the PDF 1.3 Spec.
* @param theRange Vector of Doubles that is the Range of the function.
* See page 264 of the PDF 1.3 Spec.
* @param theCZero This is a vector of Double objects which defines the function result
* when x=0.
*
* This attribute is optional.
* It's described on page 268 of the PDF 1.3 spec.
* @param theCOne This is a vector of Double objects which defines the function result
* when x=1.
*
* This attribute is optional.
* It's described on page 268 of the PDF 1.3 spec.
* @param theInterpolationExponentN This is the inerpolation exponent.
*
* This attribute is required.
* PDF Spec page 268
* @param theFunctionType The type of the function, which should be 2.
*/
public PDFFunction makeFunction(int theFunctionType,
Vector theDomain, Vector theRange,
Vector theCZero, Vector theCOne,
double theInterpolationExponentN)
{//type 2
PDFFunction function = new PDFFunction(
++this.objectcount,
theFunctionType,
theDomain, theRange,
theCZero, theCOne,
theInterpolationExponentN);
this.objects.addElement(function);
return(function);
}
/**
* Make a Type 3 Stitching function
*
* @param theDomain Vector objects of Double objects.
* This is the domain of the function.
* See page 264 of the PDF 1.3 Spec.
* @param theRange Vector objects of Double objects.
* This is the Range of the function.
* See page 264 of the PDF 1.3 Spec.
* @param theFunctions A Vector of the PDFFunction objects that the stitching function stitches.
*
* This attributed is required.
* It is described on page 269 of the PDF spec.
* @param theBounds This is a vector of Doubles representing the numbers that,
* in conjunction with Domain define the intervals to which each function from
* the 'functions' object applies. It must be in order of increasing magnitude,
* and each must be within Domain.
*
* It basically sets how much of the gradient each function handles.
*
* This attributed is required.
* It's described on page 269 of the PDF 1.3 spec.
* @param theEncode Vector objects of Double objects.
* This is the linear mapping of input values intop the domain
* of the function's sample table. Default is hard to represent in
* ascii, but basically [0 (Size0 1) 0 (Size1 1)...].
* This attribute is required.
*
* See page 270 in the PDF 1.3 spec.
* @param theFunctionType This is the function type. It should be 3,
* for a stitching function.
*/
public PDFFunction makeFunction(int theFunctionType,
Vector theDomain, Vector theRange,
Vector theFunctions, Vector theBounds,
Vector theEncode)
{//Type 3
PDFFunction function = new PDFFunction(
++this.objectcount,
theFunctionType,
theDomain, theRange,
theFunctions, theBounds,
theEncode);
this.objects.addElement(function);
return(function);
}
/**
* make a postscript calculator function
*
* @param theNumber
* @param theFunctionType
* @param theDomain
* @param theRange
* @param theFunctionDataStream
*/
public PDFFunction makeFunction(int theNumber, int theFunctionType,
Vector theDomain, Vector theRange,
StringBuffer theFunctionDataStream)
{ //Type 4
PDFFunction function = new PDFFunction(
++this.objectcount,
theFunctionType,
theDomain, theRange,
theFunctionDataStream);
this.objects.addElement(function);
return(function);
}
/**
* make a function based shading object
*
* @param theShadingType The type of shading object, which should be 1 for function
* based shading.
* @param theColorSpace The colorspace is 'DeviceRGB' or something similar.
* @param theBackground An array of color components appropriate to the
* colorspace key specifying a single color value.
* This key is used by the f operator buy ignored by the sh operator.
* @param theBBox Vector of double's representing a rectangle
* in the coordinate space that is current at the
* time of shading is imaged. Temporary clipping
* boundary.
* @param theAntiAlias Whether or not to anti-alias.
* @param theDomain Optional vector of Doubles specifying the domain.
* @param theMatrix Vector of Doubles specifying the matrix.
* If it's a pattern, then the matrix maps it to pattern space.
* If it's a shading, then it maps it to current user space.
* It's optional, the default is the identity matrix
* @param theFunction The PDF Function that maps an (x,y) location to a color
*/
public PDFShading makeShading(int theShadingType, ColorSpace theColorSpace,
Vector theBackground, Vector theBBox, boolean theAntiAlias,
Vector theDomain, Vector theMatrix, PDFFunction theFunction)
{ //make Shading of Type 1
String theShadingName = new String("Sh"+(++this.shadingCount));
PDFShading shading = new PDFShading(++this.objectcount, theShadingName,
theShadingType, theColorSpace, theBackground, theBBox,
theAntiAlias, theDomain, theMatrix, theFunction);
this.objects.addElement(shading);
//add this shading to resources
this.resources.addShading(shading);
return(shading);
}
/**
* Make an axial or radial shading object.
*
* @param theShadingType 2 or 3 for axial or radial shading
* @param theColorSpace "DeviceRGB" or similar.
* @param theBackground theBackground An array of color components appropriate to the
* colorspace key specifying a single color value.
* This key is used by the f operator buy ignored by the sh operator.
* @param theBBox Vector of double's representing a rectangle
* in the coordinate space that is current at the
* time of shading is imaged. Temporary clipping
* boundary.
* @param theAntiAlias Default is false
* @param theCoords Vector of four (type 2) or 6 (type 3) Double
* @param theDomain Vector of Doubles specifying the domain
* @param theFunction the Stitching (PDFfunction type 3) function, even if it's stitching a single function
* @param theExtend Vector of Booleans of whether to extend teh start and end colors past the start and end points
* The default is [false, false]
*/
public PDFShading makeShading(int theShadingType,
ColorSpace theColorSpace, Vector theBackground,
Vector theBBox, boolean theAntiAlias,
Vector theCoords, Vector theDomain,
PDFFunction theFunction, Vector theExtend)
{ //make Shading of Type 2 or 3
String theShadingName = new String("Sh"+(++this.shadingCount));
PDFShading shading = new PDFShading(++this.objectcount, theShadingName,
theShadingType, theColorSpace,
theBackground, theBBox, theAntiAlias,
theCoords, theDomain,theFunction,theExtend);
this.resources.addShading(shading);
this.objects.addElement(shading);
return(shading);
}
/**
* Make a free-form gouraud shaded triangle mesh, coons patch mesh, or tensor patch mesh
* shading object
*
* @param theShadingType 4, 6, or 7 depending on whether it's
* Free-form gouraud-shaded triangle meshes, coons patch meshes,
* or tensor product patch meshes, respectively.
* @param theColorSpace "DeviceRGB" or similar.
* @param theBackground theBackground An array of color components appropriate to the
* colorspace key specifying a single color value.
* This key is used by the f operator buy ignored by the sh operator.
* @param theBBox Vector of double's representing a rectangle
* in the coordinate space that is current at the
* time of shading is imaged. Temporary clipping
* boundary.
* @param theAntiAlias Default is false
* @param theBitsPerCoordinate 1,2,4,8,12,16,24 or 32.
* @param theBitsPerComponent 1,2,4,8,12, and 16
* @param theBitsPerFlag 2,4,8.
* @param theDecode Vector of Doubles see PDF 1.3 spec pages 303 to 312.
* @param theFunction the PDFFunction
*/
public PDFShading makeShading(int theShadingType, ColorSpace theColorSpace,
Vector theBackground, Vector theBBox, boolean theAntiAlias,
int theBitsPerCoordinate, int theBitsPerComponent,
int theBitsPerFlag, Vector theDecode, PDFFunction theFunction)
{ //make Shading of type 4,6 or 7
String theShadingName = new String("Sh"+(++this.shadingCount));
PDFShading shading = new PDFShading(++this.objectcount, theShadingName,
theShadingType, theColorSpace,
theBackground, theBBox, theAntiAlias,
theBitsPerCoordinate,theBitsPerComponent,
theBitsPerFlag, theDecode, theFunction);
this.resources.addShading(shading);
this.objects.addElement(shading);
return(shading);
}
/**
* make a Lattice-Form Gouraud mesh shading object
*
* @param theShadingType 5 for lattice-Form Gouraud shaded-triangle mesh
* without spaces. "Shading1" or "Sh1" are good examples.
* @param theColorSpace "DeviceRGB" or similar.
* @param theBackground theBackground An array of color components appropriate to the
* colorspace key specifying a single color value.
* This key is used by the f operator buy ignored by the sh operator.
* @param theBBox Vector of double's representing a rectangle
* in the coordinate space that is current at the
* time of shading is imaged. Temporary clipping
* boundary.
* @param theAntiAlias Default is false
* @param theBitsPerCoordinate 1,2,4,8,12,16, 24, or 32
* @param theBitsPerComponent 1,2,4,8,12,24,32
* @param theDecode Vector of Doubles. See page 305 in PDF 1.3 spec.
* @param theVerticesPerRow number of vertices in each "row" of the lattice.
* @param theFunction The PDFFunction that's mapped on to this shape
*/
public PDFShading makeShading(int theShadingType, ColorSpace theColorSpace,
Vector theBackground, Vector theBBox, boolean theAntiAlias,
int theBitsPerCoordinate, int theBitsPerComponent,
Vector theDecode, int theVerticesPerRow, PDFFunction theFunction)
{ //make shading of Type 5
String theShadingName = new String("Sh"+(++this.shadingCount));
PDFShading shading= new PDFShading(++this.objectcount,
theShadingName, theShadingType, theColorSpace,
theBackground, theBBox, theAntiAlias,
theBitsPerCoordinate, theBitsPerComponent,
theDecode, theVerticesPerRow, theFunction);
this.resources.addShading(shading);
this.objects.addElement(shading);
return(shading);
}
/**
* Make a tiling pattern
*
* @param thePatternType the type of pattern, which is 1 for tiling.
* @param theResources the resources associated with this pattern
* @param thePaintType 1 or 2, colored or uncolored.
* @param theTilingType 1, 2, or 3, constant spacing, no distortion, or faster tiling
* @param theBBox Vector of Doubles: The pattern cell bounding box
* @param theXStep horizontal spacing
* @param theYStep vertical spacing
* @param theMatrix Optional Vector of Doubles transformation matrix
* @param theXUID Optional vector of Integers that uniquely identify the pattern
* @param thePatternDataStream The stream of pattern data to be tiled.
*/
public PDFPattern makePattern(
int thePatternType, //1
PDFResources theResources,
int thePaintType, int theTilingType,
Vector theBBox, double theXStep, double theYStep,
Vector theMatrix, Vector theXUID, StringBuffer thePatternDataStream)
{
String thePatternName = new String("Pa"+(++this.patternCount));
//int theNumber, String thePatternName,
//PDFResources theResources
PDFPattern pattern = new PDFPattern(++this.objectcount,
thePatternName,
theResources, 1,
thePaintType, theTilingType,
theBBox, theXStep, theYStep,
theMatrix, theXUID, thePatternDataStream);
this.resources.addPattern(pattern);
this.objects.addElement(pattern);
return(pattern);
}
/**
* Make a smooth shading pattern
*
* @param thePatternType the type of the pattern, which is 2, smooth shading
* @param theShading the PDF Shading object that comprises this pattern
* @param theXUID optional:the extended unique Identifier if used.
* @param theExtGState optional: the extended graphics state, if used.
* @param theMatrix Optional:Vector of Doubles that specify the matrix.
*/
public PDFPattern makePattern(int thePatternType,
PDFShading theShading, Vector theXUID,
StringBuffer theExtGState,Vector theMatrix)
{
String thePatternName = new String("Pa"+(++this.patternCount));
PDFPattern pattern = new PDFPattern(++this.objectcount,
thePatternName, 2, theShading, theXUID,
theExtGState, theMatrix);
this.resources.addPattern(pattern);
this.objects.addElement(pattern);
return(pattern);
}
public int getColorSpace()
{
return(this.colorspace.getColorSpace());
}
public void setColorSpace(int theColorspace)
{
this.colorspace.setColorSpace(theColorspace);
return;
}
public PDFPattern createGradient(boolean radial,
ColorSpace theColorspace,
Vector theColors,
Vector theBounds,
Vector theCoords)
{
PDFShading myShad;
PDFFunction myfunky;
PDFFunction myfunc;
Vector theCzero;
Vector theCone;
PDFPattern myPattern;
ColorSpace theColorSpace;
double interpolation = (double) 1.000;
Vector theFunctions = new Vector();
int currentPosition;
int lastPosition = theColors.size()-1;
//if 5 elements, the penultimate element is 3.
//do not go beyond that, because you always need
//to have a next color when creating the function.
for ( currentPosition=0;
currentPosition < lastPosition;
currentPosition++ ) {//for every consecutive color pair
PDFColor currentColor =
(PDFColor)theColors.elementAt(currentPosition);
PDFColor nextColor =
(PDFColor)theColors.elementAt(currentPosition+1);
//colorspace must be consistant
if ( this.colorspace.getColorSpace() != currentColor.getColorSpace() )
currentColor.setColorSpace(this.colorspace.getColorSpace());
if ( this.colorspace.getColorSpace() != nextColor.getColorSpace() )
nextColor.setColorSpace(this.colorspace.getColorSpace());
theCzero = currentColor.getVector();
theCone = nextColor.getVector();
myfunc = this.makeFunction(
2, null, null,
theCzero, theCone,
interpolation);
theFunctions.addElement(myfunc);
}//end of for every consecutive color pair
myfunky = this.makeFunction(3,
null, null,
theFunctions, theBounds,
null);
if ( radial ) {
if ( theCoords.size() ==6 ) {
myShad = this.makeShading(
3, this.colorspace,
null, null, false,
theCoords, null, myfunky, null);
}
else { //if the center x, center y, and radius specifiy
//the gradient, then assume the same center x, center y,
//and radius of zero for the other necessary component
Vector newCoords = new Vector();
newCoords.addElement(theCoords.elementAt(0));
newCoords.addElement(theCoords.elementAt(1));
newCoords.addElement(theCoords.elementAt(2));
newCoords.addElement(theCoords.elementAt(0));
newCoords.addElement(theCoords.elementAt(1));
newCoords.addElement(new Double(0.0));
myShad = this.makeShading(
3, this.colorspace,
null, null, false,
newCoords, null, myfunky, null);
}
}
else {
myShad = this.makeShading(
2, this.colorspace,
null, null, false,
theCoords, null, myfunky, null);
}
myPattern = this.makePattern(
2, myShad, null, null, null);
return(myPattern);
}
/**
* make a /Encoding object
*
* @param encodingName character encoding scheme name
* @return the created /Encoding object
*/
public PDFEncoding makeEncoding(String encodingName) {
/* create a PDFEncoding with the next object number and add to the
list of objects */
PDFEncoding encoding = new PDFEncoding(++this.objectcount, encodingName);
this.objects.addElement(encoding);
return encoding;
}
/**
* make a Type1 /Font object
*
* @param fontname internal name to use for this font (eg "F1")
* @param basefont name of the base font (eg "Helvetica")
* @param encoding character encoding scheme used by the font
* @param metrics additional information about the font
* @param descriptor additional information about the font
* @return the created /Font object
*/
public PDFFont makeFont(String fontname, String basefont,
String encoding, FontMetric metrics, FontDescriptor descriptor) {
/* create a PDFFont with the next object number and add to the
list of objects */
if (descriptor == null) {
PDFFont font = new PDFFont(++this.objectcount, fontname, PDFFont.TYPE1,
basefont, encoding);
this.objects.addElement(font);
return font;
} else {
if ( metrics instanceof CIDFont ) {
PDFOptionalFontDescriptor pdfdesc =
(PDFOptionalFontDescriptor)makeFontDescriptor(descriptor);
PDFCIDFont cfont = new PDFCIDFont(
++this.objectcount,((CIDFont)metrics),pdfdesc);
this.objects.addElement(cfont);
PDFFontType0 font = new PDFFontType0(
++this.objectcount,fontname,basefont,encoding,cfont);
this.objects.addElement(font);
return font;
} else {
PDFFontNonBase14 font = (PDFFontNonBase14)PDFFont.createFont(
++this.objectcount, fontname,
PDFFont.TYPE1, basefont, encoding);
this.objects.addElement(font);
PDFFontDescriptor pdfdesc = makeFontDescriptor(descriptor);
font.setDescriptor(pdfdesc);
font.setWidthMetrics(metrics.getFirstChar(),
metrics.getLastChar(),makeArray(metrics.getWidths(1)));
return font;
}
}
}
/**
* make a /FontDescriptor object for a CID font
*/
public PDFFontDescriptor makeFontDescriptor(FontDescriptor desc) {
/* create a PDFFontDescriptor with the next object number and add to
the list of objects */
PDFFontDescriptor font =
new PDFFontDescriptor(++this.objectcount,
desc.fontName(), desc.getAscender(), desc.getDescender(),
desc.getCapHeight(), desc.getFlags(),
new PDFRectangle(desc.getFontBBox()), desc.getStemV(),
desc.getItalicAngle());
// Check if embedding of this font is enabled in the configurationfile
// and that the font is embeddable
java.util.Vector cfgv=
org.apache.fop.configuration.Configuration.getListValue("embed-fonts", 0);
if (cfgv!=null && cfgv.contains(desc.fontName()) && desc.isEmbeddable()) {
PDFStream stream=desc.getFontFile(this.objectcount+1);
if (stream!=null) {
this.objectcount++;
font.setFontFile(desc.getSubType(), stream);
this.objects.addElement(font);
this.objects.addElement(stream);
}
} else {
this.objects.addElement(font);
}
return font;
}
/**
* make an Array object (ex. Widths array for a font)
*/
public PDFArray makeArray(int[] values) {
PDFArray array = new PDFArray(++this.objectcount, values);
this.objects.addElement(array);
return array;
}
public int addImage(FopImage img) {
// check if already created
String url = img.getURL();
PDFXObject xObject = (PDFXObject) this.xObjectsMap.get(url);
if ( xObject != null ) return xObject.getXNumber();
// else, create a new one
xObject = new PDFXObject(++this.objectcount,
++this.xObjectCount, img);
this.objects.addElement(xObject);
this.xObjects.addElement(xObject);
this.xObjectsMap.put(url, xObject);
return xObjectCount;
}
/**
* make a /Page object
*
* @param resources resources object to use
* @param contents stream object with content
* @param pagewidth width of the page in points
* @param pageheight height of the page in points
*
* @return the created /Page object
*/
public PDFPage makePage(PDFResources resources,
PDFStream contents,
int pagewidth,
int pageheight,
Page currentPage) {
/* create a PDFPage with the next object number, the given
resources, contents and dimensions */
PDFPage page = new PDFPage(++this.objectcount, resources,
contents,
pagewidth, pageheight);
Enumeration enum=currentPage.getIDList().elements();
while ( enum.hasMoreElements() ) {
String id=enum.nextElement().toString();
idReferences.setInternalGoToPageReference(id,page.referencePDF());
}
/* add it to the list of objects */
this.objects.addElement(page);
/* add the page to the Root */
this.root.addPage(page);
return page;
}
/**
* make a link object
*
* @param rect the clickable rectangle
* @param destination the destination file
* @param linkType the link type
* @return the PDFLink object created
*/
public PDFLink makeLink(Rectangle rect, String destination, int linkType) {
PDFLink linkObject;
PDFAction action;
PDFLink link = new PDFLink(++this.objectcount, rect);
this.objects.addElement(link);
if ( linkType == LinkSet.EXTERNAL ) {
//check destination
if ( destination.endsWith(".pdf") ) { //FileSpec
PDFFileSpec fileSpec = new PDFFileSpec(++this.objectcount,destination);
this.objects.addElement(fileSpec);
action = new PDFGoToRemote(++this.objectcount,fileSpec);
this.objects.addElement(action);
link.setAction(action);
}
else { //URI
PDFUri uri = new PDFUri(destination);
link.setAction(uri);
}
}
else { // linkType is internal
String goToReference = getGoToReference(destination);
PDFInternalLink internalLink = new PDFInternalLink(goToReference);
link.setAction(internalLink);
}
return link;
}
private String getGoToReference(String destination)
{
String goToReference;
if ( idReferences.doesIDExist(destination) ) {
if ( idReferences.doesGoToReferenceExist(destination) ) {
goToReference = idReferences.getInternalLinkGoToReference(destination);
}
else { //assign Internal Link GoTo object
goToReference = idReferences.createInternalLinkGoTo(destination,++this.objectcount);
this.objects.addElement(idReferences.getPDFGoTo(destination));
}
}
else { //id was not found, so create it
idReferences.createNewId(destination);
idReferences.addToIdValidationList(destination);
goToReference = idReferences.createInternalLinkGoTo(destination,++this.objectcount);
this.objects.addElement(idReferences.getPDFGoTo(destination));
}
return goToReference;
}
/**
* make a stream object
*
* @return the stream object created
*/
public PDFStream makeStream() {
/* create a PDFStream with the next object number and add it
to the list of objects */
PDFStream obj = new PDFStream(++this.objectcount);
obj.addDefaultFilters();
this.objects.addElement(obj);
return obj;
}
/**
* make an annotation list object
*
* @return the annotation list object created
*/
public PDFAnnotList makeAnnotList() {
/* create a PDFAnnotList with the next object number and add it
to the list of objects */
PDFAnnotList obj = new PDFAnnotList(++this.objectcount);
this.objects.addElement(obj);
return obj;
}
/**
* Make the root Outlines object
*/
public PDFOutline makeOutlineRoot()
{
PDFOutline obj = new PDFOutline(++this.objectcount, null, null);
this.objects.addElement(obj);
root.setRootOutline(obj);
return obj;
}
/** Make an outline object and add it to the given outline
* @param parent parent PDFOutline object
* @param label the title for the new outline object
* @param action the PDFAction to reference
*/
public PDFOutline makeOutline(PDFOutline parent,
String label,
String destination)
{
String goToRef = getGoToReference(destination);
PDFOutline obj = new PDFOutline(++this.objectcount, label, goToRef);
// System.out.println("created new outline object");
if (parent != null) {
parent.addOutline(obj);
}
this.objects.addElement(obj);
return obj;
}
/**
* get the /Resources object for the document
*
* @return the /Resources object
*/
public PDFResources getResources() {
return this.resources;
}
/**
* write the entire document out
*
* @param writer the OutputStream to output the document to
*/
public void output(OutputStream stream) throws IOException {
/* output the header and increment the character position by
the header's length */
this.position += outputHeader(stream);
this.resources.setXObjects(xObjects);
/* loop through the object numbers */
for ( int i=1; i <= this.objectcount; i++ ) {
/* add the position of this object to the list of object
locations */
this.location.addElement(new Integer(this.position));
/* retrieve the object with the current number */
PDFObject object = (PDFObject)this.objects.elementAt(i-1);
/* output the object and increment the character position
by the object's length */
this.position += object.output(stream);
}
/* output the xref table and increment the character position
by the table's length */
this.position += outputXref(stream);
/* output the trailer and flush the Stream */
outputTrailer(stream);
stream.flush();
}
/**
* write the PDF header
*
* @param stream the OutputStream to write the header to
* @return the number of bytes written
*/
protected int outputHeader(OutputStream stream) throws IOException {
int length = 0;
byte[] pdf = ("%PDF-" + this.pdfVersion + "\n").getBytes();
stream.write(pdf);
length += pdf.length;
// output a binary comment as recommended by the PDF spec (3.4.1)
byte[] bin = {(byte)'%', (byte)0xAA, (byte)0xAB, (byte)0xAC, (byte)0xAD, (byte)'\n'};
stream.write(bin);
length += bin.length;
return length;
}
/**
* write the trailer
*
* @param stream the OutputStream to write the trailer to
*/
protected void outputTrailer(OutputStream stream) throws IOException {
/* construct the trailer */
String pdf = "trailer\n<<\n/Size " + (this.objectcount+1)
+ "\n/Root " + this.root.number + " " + this.root.generation
+ " R\n/Info " + this.info.number + " "
+ this.info.generation + " R\n>>\nstartxref\n" + this.xref
+ "\n%%EOF\n";
/* write the trailer */
stream.write(pdf.getBytes());
}
/**
* write the xref table
*
* @param stream the OutputStream to write the xref table to
* @return the number of characters written
*/
private int outputXref(OutputStream stream) throws IOException {
/* remember position of xref table */
this.xref = this.position;
/* construct initial part of xref */
StringBuffer pdf = new StringBuffer("xref\n0 " + (this.objectcount+1)
+ "\n0000000000 65535 f \n");
/* loop through object numbers */
for ( int i=1; i < this.objectcount+1; i++ ) {
/* contruct xref entry for object */
String padding = "0000000000";
String x = this.location.elementAt(i-1).toString();
String loc = padding.substring(x.length()) + x;
/* append to xref table */
pdf = pdf.append(loc + " 00000 n \n");
}
/* write the xref table and return the character length */
byte[] pdfBytes = pdf.toString().getBytes();
stream.write(pdfBytes);
return pdfBytes.length;
}
public void setIDReferences(IDReferences idReferences){
this.idReferences= idReferences;
}
}