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An Open Source JavaFX PDF Viewer
/*
* ===========================================
* Java Pdf Extraction Decoding Access Library
* ===========================================
*
* Project Info: http://www.idrsolutions.com
* Help section for developers at http://www.idrsolutions.com/support/
*
* (C) Copyright 1997-2016 IDRsolutions and Contributors.
*
* This file is part of JPedal/JPDF2HTML5
*
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation; either
version 2.1 of the License, or (at your option) any later version.
This library is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
* ---------------
* StructuredContentHandler.java
* ---------------
*/
package org.jpedal.objects.structuredtext;
import java.util.HashMap;
import java.util.Iterator;
import java.util.Map;
import org.jpedal.objects.raw.PdfDictionary;
import org.jpedal.objects.raw.PdfObject;
import org.jpedal.render.DynamicVectorRenderer;
import org.w3c.dom.Document;
import org.w3c.dom.Element;
import org.w3c.dom.Node;
/**
* structured content
*/
public class StructuredContentHandler {
/**store entries from BMC*/
private final Map markedContentProperties;
/**handle nested levels of marked content*/
int markedContentLevel;
/**stream of marked content*/
private StringBuffer markedContentSequence;
private static final boolean debug=false;
private boolean contentExtracted;
private String currentKey;
final Map keys;
final Map dictionaries;
Map values;
final boolean buildDirectly;
DynamicVectorRenderer current;
Document doc;
Element root;
private float x1,y1,x2,y2;
boolean isHTML;
public StructuredContentHandler(final Object markedContent) {
//build either tree of lookuptable
if(markedContent instanceof Map){
buildDirectly=false;
values=(Map)markedContent;
}else{
buildDirectly=true;
doc=(Document)markedContent;
root = doc.createElement("TaggedPDF-doc");
doc.appendChild(root);
}
if(debug) {
System.out.println("BuildDirectly=" + buildDirectly);
}
//this.currentPdfFile=currentPdfFile;
markedContentProperties=new HashMap();
markedContentLevel = 0;
markedContentSequence = new StringBuffer();
currentKey="";
keys=new HashMap();
dictionaries=new HashMap();
}
public void DP(final PdfObject BDCobj) {
if(debug){
System.out.println("DP----------------------------------------------------------"+markedContentLevel);
System.out.println(BDCobj);
System.out.println("BDCobj="+BDCobj);
}
}
public void BDC(final PdfObject BDCobj) {
//if start of sequence, reinitialise settings
if (markedContentLevel == 0) {
markedContentSequence = new StringBuffer();
}
markedContentLevel++;
//only used in direct mode and breaks non-direct code so remove
if(buildDirectly) {
BDCobj.setIntNumber(PdfDictionary.MCID, -1);
}
final int MCID=BDCobj.getInt(PdfDictionary.MCID);
//save key
if(MCID!=-1) {
keys.put(markedContentLevel, String.valueOf(MCID));
}
dictionaries.put(String.valueOf(markedContentLevel),BDCobj);
if(debug){
System.out.println("BDC----------------------------------------------------------"+markedContentLevel+" MCID="+MCID);
System.out.println("BDCobj="+BDCobj);
}
}
public void BMC(String op) {
op = setBMCvalues(op);
if(buildDirectly){
//read any dictionay work out type
//PdfObject dict=(PdfObject) dictionaries.get(currentKey);
//boolean isBMC=dict==null;
//add node with name for BMC
if(op!=null){
//System.out.println(op+" "+root.getElementsByTagName(op));
Element newRoot=(Element) root.getElementsByTagName(op).item(0);
if(newRoot==null){
newRoot=doc.createElement(op);
root.appendChild(newRoot);
}
root=newRoot;
}
}
}
String setBMCvalues(String op) {
//stip off /
if(op.startsWith("/")) {
op = op.substring(1);
}
//if start of sequence, reinitialise settings
if (markedContentLevel == 0 && !isHTML) {
markedContentSequence = new StringBuffer();
}
markedContentProperties.put(markedContentLevel,op);
markedContentLevel++;
if(debug) {
System.out.println("BMC----------------------------------------------------------level=" + markedContentLevel + " raw op=" + op);
}
//save label and any dictionary
keys.put(markedContentLevel,op);
return op;
}
public void EMC() {
setEMCValues();
if(buildDirectly){
final PdfObject BDCobj= dictionaries.get(currentKey);
final boolean isBMC=(BDCobj==null);
if(debug) {
System.out.println(isBMC + " " + currentKey + ' ' + BDCobj + " markedContentSequence=" + markedContentSequence);
}
//any custom tags
if(BDCobj!=null){
final Map metadata=BDCobj.getOtherDictionaries();
if(metadata!=null){
final Iterator customValues=metadata.keySet().iterator();
Object key;
while(customValues.hasNext()){
key=customValues.next();
root.setAttribute(key.toString(), metadata.get(key).toString());
//if(addCoordinates){
root.setAttribute("x1", String.valueOf((int) x1));
root.setAttribute("y1", String.valueOf((int) y1));
root.setAttribute("x2", String.valueOf((int) x2));
root.setAttribute("y2", String.valueOf((int) y2));
//}
}
}
}
//add node with name for BMC
if(isBMC){
if(currentKey!=null){
final Node child=doc.createTextNode(stripEscapeChars(markedContentSequence.toString()));
root.appendChild(child);
final Node oldRoot=root.getParentNode();
if(oldRoot instanceof Element) {
root = (Element) oldRoot;
}
}
}else{
//get root key on dictionary (should only be 1)
//and create node
//Iterator keys=dict.keySet().iterator();
String S="p";//(String) keys.next();
//System.out.println("dict="+BDCobj.getObjectRefAsString());
if(S==null) {
S = "p";
}
final Element tag = doc.createElement(S);
root.appendChild(tag);
//add the text
final Node child=doc.createTextNode(markedContentSequence.toString());
tag.appendChild(child);
}
//reset
markedContentSequence=new StringBuffer();
}else{
final String ContentSequence = markedContentSequence.toString();
//System.out.println(currentKey+" "+markedContentSequence);
if(debug) {
System.out.println("write out " + currentKey + " text=" + markedContentSequence + '<');
}
final PdfObject BDCobj= (dictionaries.get(String.valueOf(markedContentLevel)));
// System.out.println("BDCobj="+BDCobj+" currentKey="+currentKey);
//reset on MCID tag
int MCID=-1;
if(BDCobj!=null) {
MCID = BDCobj.getInt(PdfDictionary.MCID);
}
if(MCID!=-1){
values.put(String.valueOf(MCID),ContentSequence);
//System.out.println(MCID+" "+ContentSequence);
markedContentSequence=new StringBuffer();
}
//remove used dictionary
dictionaries.remove(String.valueOf(markedContentLevel));
}
if (markedContentLevel > 0) {
markedContentLevel--;
}
if(debug) {
System.out.println("EMC----------------------------------------------------------" + markedContentLevel);
}
}
void setEMCValues() {
//set flag to show some content
contentExtracted=true;
// add current structure to tree
currentKey= keys.get(markedContentLevel);
//if no MCID use current level as key
if(currentKey==null) {
currentKey = String.valueOf(markedContentLevel);
}
if(debug) {
System.out.println("currentKey=" + currentKey + ' ' + keys);
}
}
/**store the actual text in the stream*/
public void setText(final StringBuffer current_value, final float x1, final float y1, final float x2, final float y2) {
if(markedContentSequence.length()==0){
markedContentSequence=current_value;
//lose space at start
if(markedContentSequence.length()>0 && markedContentSequence.charAt(0)==' ') {
markedContentSequence.deleteCharAt(0);
}
}else{ //add space to tidy up
//char c=' ',c2=' ';
//if(current_value.length()>0)
// c=current_value.charAt(0);
//int len=markedContentSequence.length()-1;
//if(len>0)
// c2=markedContentSequence.charAt(len);
//if(c2!='-' && c!='-' && c!='.')
// markedContentSequence.append(' ');
//System.out.println("\nbit=>"+current_value+"<");
//System.out.println("whole=>"+markedContentSequence+"<");
markedContentSequence.append(current_value);
}
this.x1=x1;
this.y1=y1;
this.x2=x2;
this.y2=y2;
}
//delete escape chars such as \( but allow for \\
private static String stripEscapeChars(final String dict) {
char c,lastC=' ';
final StringBuilder str=new StringBuilder(dict);
int length=str.length();
for(int ii=0;ii
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