/*
* $Id: PDFDocument.java,v 1.30 2001/09/24 08:51:17 keiron Exp $
* 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.
*/
/* 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.render.pdf.CIDFont;
import org.apache.fop.render.pdf.fonts.LazyFont;
import org.apache.fop.datatypes.IDReferences;
import org.apache.fop.layout.Page;
import org.apache.fop.layout.FontMetric;
import org.apache.fop.layout.FontDescriptor;
// 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.
*
* Modified by Mark Lillywhite, mark-fop@inomial.com. The changes
* involve: ability to output pages one-at-a-time in a streaming
* fashion (rather than storing them all for output at the end);
* ability to write the /Pages object after writing the rest
* of the document; ability to write to a stream and flush
* the object list; enhanced trailer output; cleanups.
*
* Modified by lmckenzi@ca.ibm.com
* Sometimes IDs are created, but not validated. This tracks
* the difference.
*/
public class PDFDocument {
private static final Integer locationPlaceholder = new Integer(0);
/**
* 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();
/** List of objects to write in the trailer */
private Vector trailerObjects = 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 root outline object */
private PDFOutline outlineRoot = null;
/** The /Pages object (mark-fop@inomial.com) */
private PDFPages pages;
/**
* 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();
/**
* the objects themselves
*/
protected Vector pendingLinks = null;
/**
* creates an empty PDF document <p>
*
* The constructor creates a /Root and /Pages object to
* track the document but does not write these objects until
* the trailer is written. Note that the object ID of the
* pages object is determined now, and the xref table is
* updated later. This allows Pages to refer to their
* Parent before we write it out. This took me a long
* time to work out, and is so obvious now. Sigh.
* mark-fop@inomial.com. Maybe I should do a PDF course.
*/
public PDFDocument() {
/* create the /Root, /Info and /Resources objects */
this.pages = makePages();
// Create the Root object
this.root = makeRoot(pages);
// Create the Resources object
this.resources = makeResources();
// Make the /Info record
this.info = makeInfo();
}
/**
* set the producer of the document
*
* @param producer string indicating application producing the PDF
*/
public void setProducer(String producer) {
this.info.setProducer(producer);
}
/**
* Make a /Catalog (Root) object. This object is written in
* the trailer.
*/
public PDFRoot makeRoot(PDFPages pages) {
/*
* Make a /Pages object. This object is written in the trailer.
*/
PDFRoot pdfRoot = new PDFRoot(++this.objectcount, pages);
addTrailerObject(pdfRoot);
return pdfRoot;
}
/**
* Make a /Pages object. This object is written in the trailer.
*/
public PDFPages makePages() {
PDFPages pdfPages = new PDFPages(++this.objectcount);
addTrailerObject(pdfPages);
return pdfPages;
}
/**
* Make a /Resources object. This object is written in the trailer.
*/
public PDFResources makeResources() {
PDFResources pdfResources = new PDFResources(++this.objectcount);
addTrailerObject(pdfResources);
return pdfResources;
}
/**
* 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);
// set the default producer
pdfInfo.setProducer(org.apache.fop.apps.Version.getVersion());
this.objects.addElement(pdfInfo);
return pdfInfo;
}
/**
* 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 {
byte subtype = PDFFont.TYPE1;
if (metrics instanceof org.apache.fop.render.pdf.Font)
subtype =
((org.apache.fop.render.pdf.Font)metrics).getSubType();
PDFFontDescriptor pdfdesc = makeFontDescriptor(descriptor,
subtype);
PDFFontNonBase14 font = null;
if (subtype == PDFFont.TYPE0) {
/*
* Temporary commented out - customized CMaps
* isn't needed until /ToUnicode support is added
* PDFCMap cmap = new PDFCMap(++this.objectcount,
* "fop-ucs-H",
* new PDFCIDSystemInfo("Adobe",
* "Identity",
* 0));
* cmap.addContents();
* this.objects.addElement(cmap);
*/
font =
(PDFFontNonBase14)PDFFont.createFont(++this.objectcount,
fontname, subtype,
basefont,
"Identity-H");
} else {
font =
(PDFFontNonBase14)PDFFont.createFont(++this.objectcount,
fontname, subtype,
basefont, encoding);
}
this.objects.addElement(font);
font.setDescriptor(pdfdesc);
if (subtype == PDFFont.TYPE0) {
CIDFont cidMetrics;
if(metrics instanceof LazyFont){
cidMetrics = (CIDFont) ((LazyFont) metrics).getRealFont();
}else{
cidMetrics = (CIDFont)metrics;
}
PDFCIDSystemInfo sysInfo =
new PDFCIDSystemInfo(cidMetrics.getRegistry(),
cidMetrics.getOrdering(),
cidMetrics.getSupplement());
PDFCIDFont cidFont =
new PDFCIDFont(++this.objectcount, basefont,
cidMetrics.getCidType(),
cidMetrics.getDefaultWidth(),
cidMetrics.getWidths(), sysInfo,
(PDFCIDFontDescriptor)pdfdesc);
this.objects.addElement(cidFont);
// ((PDFFontType0)font).setCMAP(cmap);
((PDFFontType0)font).setDescendantFonts(cidFont);
} else {
font.setWidthMetrics(metrics.getFirstChar(),
metrics.getLastChar(),
makeArray(metrics.getWidths(1)));
}
return font;
}
}
/**
* make a /FontDescriptor object
*/
public PDFFontDescriptor makeFontDescriptor(FontDescriptor desc,
byte subtype) {
PDFFontDescriptor font = null;
if (subtype == PDFFont.TYPE0) {
// CID Font
font = new PDFCIDFontDescriptor(++this.objectcount,
desc.fontName(),
desc.getFontBBox(),
// desc.getAscender(),
// desc.getDescender(),
desc.getCapHeight(), desc.getFlags(),
// new PDFRectangle(desc.getFontBBox()),
desc.getItalicAngle(), desc.getStemV(), null); // desc.getLang(),
// null);//desc.getPanose());
}
else {
// Create normal FontDescriptor
font = new PDFFontDescriptor(++this.objectcount, desc.fontName(),
desc.getAscender(),
desc.getDescender(),
desc.getCapHeight(),
desc.getFlags(),
new PDFRectangle(desc.getFontBBox()),
desc.getStemV(),
desc.getItalicAngle());
}
this.objects.addElement(font);
// Check if the font is embeddable
if (desc.isEmbeddable()) {
PDFStream stream = desc.getFontFile(this.objectcount + 1);
if (stream != null) {
this.objectcount++;
font.setFontFile(desc.getSubType(), stream);
this.objects.addElement(stream);
}
}
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);
if(pendingLinks != null) {
for(Enumeration e = pendingLinks.elements(); e.hasMoreElements(); ) {
PendingLink pl = (PendingLink)e.nextElement();
PDFGoTo gt = new PDFGoTo(++this.objectcount,
page.referencePDF());
gt.setDestination(pl.dest);
addTrailerObject(gt);
PDFInternalLink internalLink =
new PDFInternalLink(gt.referencePDF());
pl.link.setAction(internalLink);
}
pendingLinks = null;
}
if (currentPage != null) {
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);
addTrailerObject(idReferences.getPDFGoTo(destination));
}
} else { // id was not found, so create it
//next line by lmckenzi@ca.ibm.com
//solves when IDNode made before IDReferences.createID called
//idReferences.createNewId(destination);
idReferences.createUnvalidatedID(destination);
idReferences.addToIdValidationList(destination);
goToReference = idReferences.createInternalLinkGoTo(destination,
++this.objectcount);
addTrailerObject(idReferences.getPDFGoTo(destination));
}
return goToReference;
}
public void addTrailerObject(PDFObject object) {
this.trailerObjects.addElement(object);
}
class PendingLink {
PDFLink link;
String dest;
}
public PDFLink makeLinkCurrentPage(Rectangle rect, String dest) {
PDFLink link = new PDFLink(++this.objectcount, rect);
this.objects.addElement(link);
PendingLink pl = new PendingLink();
pl.link = link;
pl.dest = dest;
if(pendingLinks == null) {
pendingLinks = new Vector();
}
pendingLinks.addElement(pl);
return link;
}
public PDFLink makeLink(Rectangle rect, String page, String dest) {
PDFLink link = new PDFLink(++this.objectcount, rect);
this.objects.addElement(link);
PDFGoTo gt = new PDFGoTo(++this.objectcount, page);
gt.setDestination(dest);
addTrailerObject(gt);
PDFInternalLink internalLink = new PDFInternalLink(gt.referencePDF());
link.setAction(internalLink);
return link;
}
/**
Ensure there is room in the locations xref for the number of
objects that have been created.
*/
private void prepareLocations() {
while(location.size() < objectcount)
location.addElement(locationPlaceholder);
}
/**
* 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;
}
/**
* Get the root Outlines object. This method does not write
* the outline to the PDF document, it simply creates a
* reference for later.
*/
public PDFOutline getOutlineRoot() {
if(outlineRoot != null)
return outlineRoot;
outlineRoot = new PDFOutline(++this.objectcount, null, null);
addTrailerObject(outlineRoot);
root.setRootOutline(outlineRoot);
return outlineRoot;
}
/**
* 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);
//log.debug("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 {
prepareLocations();
Enumeration en = this.objects.elements();
while (en.hasMoreElements()) {
/* retrieve the object with the current number */
PDFObject object = (PDFObject)en.nextElement();
/*
* add the position of this object to the list of object
* locations
*/
location.setElementAt(
new Integer(this.position),object.getNumber() - 1);
/*
* output the object and increment the character position
* by the object's length
*/
this.position += object.output(stream);
}
this.objects.clear();
}
/**
* write the PDF header <P>
*
* This method must be called prior to formatting
* and outputting AreaTrees.
*
* @param stream the OutputStream to write the header to
* @return the number of bytes written
*/
public void outputHeader(OutputStream stream)
throws IOException {
this.position=0;
byte[] pdf = ("%PDF-" + this.pdfVersion + "\n").getBytes();
stream.write(pdf);
this.position += 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);
this.position += bin.length;
this.resources.setXObjects(xObjects);
}
/**
* write the trailer
*
* @param stream the OutputStream to write the trailer to
*/
public void outputTrailer(OutputStream stream)
throws IOException {
output(stream);
Enumeration e = trailerObjects.elements();
while(e.hasMoreElements()) {
PDFObject o = (PDFObject) e.nextElement();
this.location.setElementAt(
new Integer(this.position), o.getNumber() - 1);
this.position += o.output(stream);
}
/* output the xref table and increment the character position
by the table's length */
this.position += outputXref(stream);
/* 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" +
">>\n" +
"startxref\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");
Enumeration en = this.location.elements();
while (en.hasMoreElements()) {
String x = en.nextElement().toString();
/* contruct xref entry for object */
String padding = "0000000000";
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;
}
}