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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 1997-2015 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
*
* ---------------
* StandardFonts.java
* ---------------
*/
package org.jpedal.fonts;
import java.io.*;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.Hashtable;
import java.util.Map;
import java.util.StringTokenizer;
import org.jpedal.utils.LogWriter;
import org.jpedal.fonts.tt.*;
import org.jpedal.fonts.objects.FontData;
import org.jpedal.fonts.glyph.T1Glyphs;
public class StandardFonts {
/**holds names of every character*/
private static Map unicode_name_mapping_table = new HashMap();
/**holds lookup to map char values for decoding char into name*/
private static String[][] unicode_char_decoding_table = new String[7][335];
public static final int PDF = 6;
/**flag used to identify ZAPF encoding*/
public static final int ZAPF = 5;
/**flag used to identify Symbol encoding*/
public static final int SYMBOL = 4;
/**flag used to identify MacExpert encoding*/
public static final int MACEXPERT = 3;
/**flag used to identify WIN encoding*/
public static final int WIN = 2;
/**flag used to identify STD encoding*/
public static final int STD = 1;
/**flag used to identify mac encoding*/
public static final int MAC = 0;
/**mapped onto CID0 or CID2*/
public static final int TYPE0=1228944676;
public static final int TYPE1=1228944677;
public static final int TRUETYPE=1217103210;
public static final int TYPE3=1228944679;
public static final int CIDTYPE0=-1684566726;
public static final int CIDTYPE2=-1684566724;
public static final int OPENTYPE=6;
public static final int TRUETYPE_COLLECTION=7;
public static final int FONT_UNSUPPORTED=8;
/**constant value for ellipsis*/
private static final String ellipsis= String.valueOf((char) Integer.parseInt("2026", 16));
/**must use windows encoding because files were edited on Windows*/
private static final String enc = "Cp1252";
/**lookup table to workout index from glyf*/
private static Map[] glyphToChar= new HashMap[7];
/**holds lookup to map char values for decoding NAME into encoded char*/
private static String[] MAC_char_encoding_table;
/**holds lookup to map char values for decoding NAME into encoded char*/
private static String[] WIN_char_encoding_table;
/**holds lookup to map char values for decoding NAME into encoded char*/
private static String[] STD_char_encoding_table;
/**holds lookup to map char values for decoding NAME into encoded char*/
private static String[] PDF_char_encoding_table;
/**holds lookup to map char values for decoding NAME into encoded char*/
private static String[] ZAPF_char_encoding_table;
/**holds lookup to map char values for decoding NAME into encoded char*/
private static String[] SYMBOL_char_encoding_table;
/**holds lookup to map char values for decoding NAME into encoded char*/
private static String[] MACEXPERT_char_encoding_table;
/**holds lookup to map unicode values onto their glyph name*/
private static final Map unicodeToName = new HashMap();
/**loader to load data from jar*/
private static ClassLoader loader = StandardFonts.class.getClassLoader();
/**list of standard fonts*/
private static Map standardFileList=new HashMap();
/**flag if standard font loaded*/
private static Map standardFontLoaded=new HashMap();
/**lookup for standard fonts which we read when object created
* (deliberately switched back to hashtable - see case 13910)
*/
private static Map widthTableStandard = new Hashtable();
/**lookup table for java fonts*/
protected static Map javaFontList=new HashMap();
/**java font versions of fonts*/
protected static String javaFonts[] =
{"Courier",
"Courier-Bold",
"Courier",
"Courier-Bold",
"Arial",
"Arial-Bold",
"Arial",
"Arial-Italic",
"Symbol",
"Times New Roman",
"Times New Roman",
"Times New Roman",
"Times New Roman",
"Wingdings" };
/**names of 14 local fonts used in pdf*/
protected static String files_names[] =
{
"Courier",
"Courier-Bold",
"Courier-BoldOblique",
"Courier-Oblique",
"Helvetica",
"Helvetica-Bold",
"Helvetica-BoldOblique",
"Helvetica-Oblique",
"Symbol",
"Times-Bold",
"Times-BoldItalic",
"Times-Italic",
"Times-Roman",
"ZapfDingbats" };
/**alternative names of 14 local fonts used in pdf*/
protected static String files_names_bis[] =
{
"CourierNew",
"CourierNew,Bold",
"CourierNew,BoldItalic",
"CourierNew,Italic",
"Arial",
"Arial,Bold",
"Arial,BoldItalic",
"Arial,Italic",
"Symbol",
"TimesNewRoman,Bold",
"TimesNewRoman,BoldItalic",
"TimesNewRoman,Italic",
"TimesNewRoman",
"ZapfDingbats" };
/**holds lookup values used by truetype font mapping*/
private static HashMap adobeMap;
//hold bounds (deliberately switched back to hashtable - see case 13910)
private static Map fontBounds=new Hashtable();
/**flag if standard_encoding loaded*/
public static boolean usesGlyphlist;
public static void dispose(){
unicode_name_mapping_table =null;
unicode_char_decoding_table =null;
glyphToChar=null;
MAC_char_encoding_table=null;
WIN_char_encoding_table=null;
STD_char_encoding_table=null;
PDF_char_encoding_table=null;
ZAPF_char_encoding_table=null;
SYMBOL_char_encoding_table=null;
MACEXPERT_char_encoding_table=null;
loader = null;
standardFileList=null;
standardFontLoaded=null;
widthTableStandard = null;
/**names of CID fonts supplied by Adobe*/
//CIDFonts =null;
/**lookup table for java fonts*/
javaFontList=null;
/**java font versions of fonts*/
javaFonts=null;
files_names=null;
files_names_bis=null;
adobeMap=null;
fontBounds=null;
}
//////////////////////////////////////////////////
/**
* create lookup array so we can quickly test if
* we have one of the 14 fonts so we can test quickly
*/
static{
// loop to read widths from default fonts
for (int i = 0; i < files_names.length; i++) {
standardFileList.put(files_names_bis[i], i);
standardFileList.put(files_names[i], i);
}
loadAdobeMap();
}
/**return font type based on file ending or FONT_UNSUPPORTED
* if not recognised
* @param name
* @return int - defined in StandardFonts (no value is FONT_UNSUPPORTED)
*/
public static int getFontType(final String name) {
int type= FONT_UNSUPPORTED;
if (name.endsWith(".ttf")) {
type=TRUETYPE;
} else if(name.endsWith(".otf")) {
type=OPENTYPE;
} else if(name.endsWith(".ttc")) {
type=TRUETYPE_COLLECTION;
//else if(name.endsWith(".afm"))
// type=TYPE1;
} else if(name.endsWith(".pfb")) {
type=TYPE1;
}
return type;
}
/**
* get FontBonds set in afm file
*/
public static float[] getFontBounds(final String fontName){
return (float[]) fontBounds.get(fontName);
}
public static String getUnicodeName(final String key){
return (String) unicode_name_mapping_table.get(key);
}
public static String getUnicodeChar(final int i, final int key){
return unicode_char_decoding_table[i][key];
}
public static Float getStandardWidth(String font, final String key){
font=font.toLowerCase();
Object value=widthTableStandard.get(font+key);
if(value==null){
String altfont=font;
final int p=altfont.indexOf(',');
if(p!=-1){
altfont=altfont.substring(0,p);
value=widthTableStandard.get(altfont+key);
}
}
return (Float) value;
}
//////////////////////////////////////////////////////////////////////////
/**
* create mapping tables for pdf values
* for Zapf and Symbol (not fully implmented yet)
*/
private static void readStandardMappingTable(
final int key,
final String file_name){
String char_value, NAME, VAL, line,hexVal;
int value;
BufferedReader input_stream = null;
glyphToChar[key]=new HashMap();
try {
input_stream =
(file_name.equals("symbol.cfg"))
? new BufferedReader(
new InputStreamReader(
loader.getResourceAsStream(
"org/jpedal/res/pdf/" + file_name),
enc))
: new BufferedReader(
new InputStreamReader(
loader.getResourceAsStream(
"org/jpedal/res/pdf/" + file_name),
"UTF-16"));
// trap problems
if (input_stream == null) {
LogWriter.writeLog("Unable to open "+ file_name+ " to read standard encoding");
}
//read in lines and place in map tables for fast lookup
while (true) {
line = input_stream.readLine();
if (line == null) {
break;
}
//write values to table, converting from Octal
final StringTokenizer values = new StringTokenizer(line);
//trap for space and lines which cause problems in Zapf
if ((!line.contains("space")) && (values.countTokens() > 1)) {
//ignore first as token but read as char
if (values.countTokens() == 3) {
char_value = values.nextToken();
NAME = values.nextToken();
VAL = values.nextToken();
}else if (values.countTokens() == 4) {
hexVal=values.nextToken();
values.nextToken(); //ignore in this case
NAME = values.nextToken();
VAL = values.nextToken();
char_value=Character.toString((char)Integer.parseInt(hexVal,16));
} else { //zapf values
if(values.countTokens()==2){
char_value = " ";
NAME = values.nextToken();
VAL = values.nextToken();
}else{
char_value = values.nextToken();
NAME = values.nextToken();
VAL = values.nextToken();
}
}
unicode_name_mapping_table.put(key + NAME, char_value);
glyphToChar[key].put(NAME, Integer.parseInt(VAL));
//20021104 added to make sure names in list as well
//if (file_name.equals("zapf.cfg"))
unicode_name_mapping_table.put(NAME, char_value);
//convert if there is a value
if (Character.isDigit(VAL.charAt(0))) {
value = Integer.parseInt(VAL, 8);
if(key==ZAPF) {
ZAPF_char_encoding_table[value] = char_value;
} else if(key==SYMBOL) {
SYMBOL_char_encoding_table[value] = char_value;
} else if(key==MACEXPERT) {
MACEXPERT_char_encoding_table[value] = char_value;
}
unicode_char_decoding_table[key][value]=NAME;
}
}
}
} catch (final Exception e) {
LogWriter.writeLog("Exception " + e + " reading lookup table for pdf");
}
if(input_stream!=null){
try{
input_stream.close();
}catch (final Exception e) {
LogWriter.writeLog("Exception " + e + " reading lookup table for pdf for abobe map");
}
}
}
//////////////////////////////////////////////
/**
* create mapping tables for 'standard' pdf values
* by reading in data from files (which are tables
* taken from Adobe's standard documentation
*/
private static void readStandardMappingTable(final int idx) {
String char_value, NAME, STD_value, MAC_value, WIN_value,PDF_value,raw;
int mac_value, win_value, std_value;
String line;
BufferedReader input_stream = null;
//needed for comparison table
if(idx==MAC) {
checkLoaded(WIN);
}
try {
//initialise inverse lookup
glyphToChar[idx]=new HashMap();
input_stream =
new BufferedReader(
new InputStreamReader(
loader.getResourceAsStream(
"org/jpedal/res/pdf/standard_encoding.cfg"),enc));
usesGlyphlist=true;
// trap problems
if (input_stream == null) {
LogWriter.writeLog("Unable to open standard_encoding.cfg from jar");
}
//read in lines and place in map tables for fast lookup
while (true) {
line = input_stream.readLine();
if (line == null) {
break;
}
//write values to table, converting from Octal
final StringTokenizer values = new StringTokenizer(line);
final int count=values.countTokens();
//format is NAME, STD,MAC,WIN,PDF, unicode value (as hex) char from PDF reference ignored) or
//NAME, STD,MAC,WIN,PDF, char (used for fi,fl and other double values)
//ignore first as token but read as char
NAME = values.nextToken();
STD_value = values.nextToken();
MAC_value = values.nextToken();
WIN_value = values.nextToken();
PDF_value =values.nextToken();
raw=values.nextToken();
if(count==7) {
char_value=Character.toString((char)Integer.parseInt(raw,16));
} else {
char_value=raw;
}
unicodeToName.put(char_value, NAME);
//convert if possible
if((idx==MAC) &&(Character.isDigit(MAC_value.charAt(0)))) {
mac_value = Integer.parseInt(MAC_value, 8);
//substitute ellipsis
if(mac_value==201) {
char_value=ellipsis;
}
MAC_char_encoding_table[mac_value] =char_value;
unicode_char_decoding_table[MAC][mac_value]=NAME;
glyphToChar[MAC].put(NAME, mac_value);
//build a comparison table to test encoding
//if (Character.isDigit(WIN_value.charAt(0)))
// win_value = Integer.parseInt(WIN_value, 8);
}else if ((idx==STD)&&(Character.isDigit(STD_value.charAt(0)))) {
std_value = Integer.parseInt(STD_value, 8);
//substitute ellipsis
if(std_value==188) {
char_value=ellipsis;
}
STD_char_encoding_table[std_value] =char_value;
unicode_char_decoding_table[STD][std_value]=NAME;
glyphToChar[STD].put(NAME, std_value);
}else if ((idx==PDF)&&(Character.isDigit(PDF_value.charAt(0)))) {
std_value = Integer.parseInt(PDF_value, 8);
//substitute ellipsis
if(std_value==131) {
char_value=ellipsis;
}
PDF_char_encoding_table[std_value] =char_value;
unicode_char_decoding_table[PDF][std_value]=NAME;
}else if (idx== WIN && Character.isDigit(WIN_value.charAt(0))) {
win_value = Integer.parseInt(WIN_value, 8);
//substitute ellipsis
if(win_value==133) {
char_value=ellipsis;
}
WIN_char_encoding_table[win_value] =char_value;
unicode_char_decoding_table[WIN][win_value]=NAME;
glyphToChar[WIN].put(NAME, win_value);
}
//save details for later
unicode_name_mapping_table.put(NAME, char_value);
}
//add in alternative MAC space 312 octal == space
if(idx==MAC) {
MAC_char_encoding_table[202]=" ";
}
//add in alternative WIN values
if(idx== WIN){
WIN_char_encoding_table[160]=" ";
WIN_char_encoding_table[255]="-";
unicode_char_decoding_table[WIN][160]="space";
}
} catch (final Exception e) {
LogWriter.writeLog("Exception " + e + " reading lookup table for pdf for "+idx);
}
if(input_stream!=null){
try{
input_stream.close();
}catch (final Exception e) {
LogWriter.writeLog("Exception " + e + " reading lookup table for pdf for abobe map");
}
}
}
/**used internally when we needed to convert bytes to MacROman to build new tables*/
/**private static String byteToEncodedString(String value,String enc) throws Exception{
String s=null;
//Create the encoder and decoder for ISO-8859-1
Charset charset = Charset.forName(enc);
CharsetDecoder decoder = charset.newDecoder();
CharsetEncoder encoder = charset.newEncoder();
// Convert a string to ISO-LATIN-1 bytes in a ByteBuffer
// The new ByteBuffer is ready to be read.
java.nio.ByteBuffer bbuf = encoder.encode(CharBuffer.wrap("a"));
bbuf.clear();
//java.nio.ByteBuffer bbuf=new ByteBuffer();
bbuf.put(0,(byte) Integer.parseInt(value,16));
// Convert ISO-LATIN-1 bytes in a ByteBuffer to a character ByteBuffer and then to a string.
// The new ByteBuffer is ready to be read.
CharBuffer cbuf = decoder.decode(bbuf);
s = cbuf.toString();
System.out.println(Integer.toHexString((int)s.charAt(0)));
return s;
}*/
/**
* Returns the appropriate glyph name for a supplied unicode value.
* @param unicode The character in unicode
* @return The glyph name
*/
public static String getNameFromUnicode(final String unicode) {
return unicodeToName.get(unicode);
}
public static String getEncodedChar(final int font_encoding, final int char_int){
String return_character=null;
if(font_encoding== WIN) {
return_character=WIN_char_encoding_table[char_int];
} else if(font_encoding==STD) {
return_character=STD_char_encoding_table[char_int];
} else if(font_encoding==MAC) {
return_character=MAC_char_encoding_table[char_int];
} else if(font_encoding==PDF) {
return_character=PDF_char_encoding_table[char_int];
} else if(font_encoding==ZAPF) {
return_character=ZAPF_char_encoding_table[char_int];
} else if(font_encoding==SYMBOL) {
return_character=SYMBOL_char_encoding_table[char_int];
} else if(font_encoding==MACEXPERT) {
return_character=MACEXPERT_char_encoding_table[char_int];
}
if (return_character== null) {
return_character = "&#" + char_int + ';';
}
return return_character;
}
/**load required mappings*/
public static void checkLoaded( final int enc) {
/**load mapping if we need it and initialise storage*/
if((enc==MAC)&&(MAC_char_encoding_table==null)){
MAC_char_encoding_table = new String[335];
readStandardMappingTable(enc);
}else if((enc== WIN)&&(WIN_char_encoding_table==null)){
WIN_char_encoding_table = new String[335];
readStandardMappingTable(enc);
}else if((enc==STD)&&(STD_char_encoding_table==null)){
STD_char_encoding_table = new String[335];
readStandardMappingTable(enc);
}else if((enc==PDF)&&(PDF_char_encoding_table==null)){
PDF_char_encoding_table = new String[335];
readStandardMappingTable(enc);
}else if((enc==SYMBOL)&&(SYMBOL_char_encoding_table==null)){
SYMBOL_char_encoding_table = new String[335];
readStandardMappingTable(SYMBOL, "symbol.cfg");
}else if((enc==ZAPF)&&(ZAPF_char_encoding_table==null)){
ZAPF_char_encoding_table = new String[335];
readStandardMappingTable(ZAPF, "zapf.cfg");
}else if((enc==MACEXPERT)&&(MACEXPERT_char_encoding_table==null)){
MACEXPERT_char_encoding_table = new String[335];
readStandardMappingTable(MACEXPERT, "mac_expert.cfg");
}
}
/////////////////////////////////////////////////////////////////////////
/**
* read default widths for 14 standard fonts supplied
* by Adobe
*/
static final synchronized void loadStandardFont(final int i) throws IOException{
String line, next_command, char_name = "";
final BufferedReader input_stream;
float width = 200;
//int x1 = 0, y1 = 0, x2 = 0, y2 = 0;
//int b_x1 = 0, b_y1 = 0, b_x2 = 0, b_y2 = 0;
//allow for 2 calls on thread with second call stalling this so
//we should exit
if(standardFontLoaded.get(i)!=null) {
return;
}
// loop to read widths from default fonts
{
//open the file
input_stream =
new BufferedReader(
new InputStreamReader(
loader.getResourceAsStream(
"org/jpedal/res/pdf/defaults/"
+ files_names[i]
+ ".afm"),
enc));
boolean char_mapping_table = false;
//flag if in correct part of file
while (true) { //read the lines and extract width info
line = input_stream.readLine();
if (line == null) {
break;
}
if (line.startsWith("EndCharMetrics")) {
char_mapping_table = false;
}
//extract bounding box
if (line.startsWith("FontBBox")) {
final float[] fontBBox=new float[4];
final StringTokenizer values = new StringTokenizer(line);
//drop FontBBox
values.nextToken();
for(int a=0;a<4;a++) {
fontBBox[a] = Integer.parseInt(values.nextToken());
}
fontBounds.put(files_names[i],fontBBox);
}
if (char_mapping_table) { //extract info from the line
final StringTokenizer values = new StringTokenizer(line, " ;");
//extract values
while (values.hasMoreTokens()) {
next_command = values.nextToken();
/**
if (next_command.equals("C"))
char_number = values.nextToken();*/
if (next_command.equals("WX")) {
width = Float.parseFloat(values.nextToken()) / 1000;
} else if (next_command.equals("N")) {
char_name = values.nextToken();
/**
if (next_command.equals("B")) {
x1 = Integer.parseInt(values.nextToken());
y1 = Integer.parseInt(values.nextToken());
x2 = Integer.parseInt(values.nextToken());
y2 = Integer.parseInt(values.nextToken());
}*/
}
}
//store width
widthTableStandard.put(files_names_bis[i].toLowerCase() + char_name, width);
widthTableStandard.put(files_names[i].toLowerCase() + char_name, width);
}
if (line.startsWith("StartCharMetrics")) {
char_mapping_table = true;
}
}
}
if(input_stream!=null){
try{
input_stream.close();
}catch (final Exception e) {
LogWriter.writeLog("Exception " + e + " reading lookup table for pdf for abobe map");
}
}
//flag value is set
standardFontLoaded.put(i,"x");
}
/**
* check if one of 14 standard fonts and if so load widths
*/
protected static void loadStandardFontWidth(final String fontName){
//get name of font if standard
final Integer fileNumber=(Integer) standardFileList.get(fontName);
if( fileNumber!=null && standardFontLoaded.get(fileNumber)==null){
try{
loadStandardFont(fileNumber);
} catch (final Exception e) {
LogWriter.writeLog("[PDF] " + e + " problem reading lookup table for pdf font "+fontName+ ' ' +fontName);
}
}
}
/**
* converts glyph into character index
*/
public static int lookupCharacterIndex(final String glyph, final int idx) {
final Object value=glyphToChar[idx].get(glyph);
if(value==null) {
return 0;
} else {
return (Integer) value;
}
}
/**
* load the adobe unicode mapping table for truetype fonts
*/
private static void loadAdobeMap() {
BufferedReader input_stream =null;
/**load if not already loaded*/
if(adobeMap==null){
try {
//initialise
adobeMap=new HashMap();
input_stream =new BufferedReader(
new InputStreamReader(
loader.getResourceAsStream(
"org/jpedal/res/pdf/glyphlist.cfg"),
enc));
// trap problems
if (input_stream == null) {
LogWriter.writeLog("Unable to open glyphlist.cfg from jar");
}
//read in lines and place in map tables for fast lookup
while (true) {
final String line = input_stream.readLine();
if (line == null) {
break;
}
if((!line.startsWith("#"))&&(line.indexOf(';')!=-1)){
final StringTokenizer vals=new StringTokenizer(line,";");
final String key=vals.nextToken();
String operand=vals.nextToken();
final int space=operand.indexOf(' ');
if(space!=-1) {
operand=operand.substring(0,space);
}
final int opVal=Integer.parseInt(operand,16);
adobeMap.put(key, opVal);
unicode_name_mapping_table.put(key,Character.toString((char)opVal));
}
}
} catch (final Exception e) {
LogWriter.writeLog("Exception " + e + " reading lookup table for pdf for abobe map");
}
}
if(input_stream!=null){
try{
input_stream.close();
}catch (final Exception e) {
LogWriter.writeLog("Exception " + e + " reading lookup table for pdf for abobe map");
}
}
}
/**
* @return Returns the adobe mapping for truetype case 3,1
*/
public static int getAdobeMap(final String key){
final Object value=adobeMap.get(key);
if(value==null) {
return -1;
} else {
return (Integer) value;
}
}
/**
* @return Returns a boolean if in Adobe map
*/
public static boolean isValidGlyphName(final String key){
if(key==null) {
return false;
} else {
return(adobeMap.get(key)!=null);
}
}
/**
* see if a standard font (ie Arial, Helvetica)
*/
public static boolean isStandardFont(final String fontName, final boolean includeWeights) {
boolean isStandard=(standardFileList.get(fontName)!=null);
if(!isStandard && includeWeights){
final int ptr=fontName.indexOf('-');
if(ptr!=-1){
final String rawName=fontName.substring(0,ptr);
//System.out.println(ptr+"<>"+fontName+"<>"+rawName+"<>"+standardFileList.get(fontName)!=null);
isStandard=(standardFileList.get(rawName)!=null);
}
}
return isStandard;
}
/**
* open font , read postscript, and return Map with font details
*/
public static Map getFontDetails(final int type, final String subFont) {
final Map fontDetails=new HashMap();
/**read in font data*/
if(type==TRUETYPE || type==TRUETYPE_COLLECTION){
//FontData closed in routine
TTGlyphs.addStringValues(new FontData(subFont), fontDetails);
}
return fontDetails;
}
/**
* open font , read postscript, family or full names and return array
*/
public static String[] readNamesFromFont(final int type, final String subFont, final int mode) throws Exception {
String[] fontNames=new String[1];
fontNames[0]="";
/**read in font data*/
if(type==TRUETYPE || type==TRUETYPE_COLLECTION){
//FontData closed in routine
fontNames= TTGlyphs.readFontNames(new FontData(subFont), mode);
}else if(type==TYPE1){
//FontData closed in routine
fontNames= T1Glyphs.readFontNames(new FontData(subFont));
}
return fontNames;
}
//allow for number value as well as glyph name (ie 68 rather than D)
public static String convertNumberToGlyph(String mappedChar, final boolean containsHexNumbers, final boolean allowSingleValue) {
int charCount=mappedChar.length();
boolean isNumber=true; //assume true and disprove
//System.out.println(mappedChar+" "+containsHexNumbers);
/**/
boolean hasHex=false;
if(charCount==2 || charCount==3 || (allowSingleValue && charCount==1)){
for(int ii=0;ii='0' && c<='9'){
}else if(containsHexNumbers && c>='A' && c<='F'){
hasHex=true;
}else{ //fail on first and exit loop
isNumber=false;
ii=charCount;
}
}
if(isNumber){
if(charCount==3 || !containsHexNumbers){
if(!hasHex) { //stop spurious match (ie DC1)
mappedChar= String.valueOf((char) Integer.parseInt(mappedChar));
}
}else{
mappedChar= String.valueOf((char) Integer.parseInt(mappedChar,16));
}
}
}else{ //check any hash values to fix odd bug in file where #2323 truncates to #23
boolean hasHash=false,hasText=false;
for(int ii=0;ii='A' && c<='Z') {
hasText=true;
}
}
if(hasHash){
final StringBuilder buf=new StringBuilder(mappedChar);
//if text as well replicate what seems to happen in Acrobat and remove number value
if(hasText){
try{
//System.out.println("before="+buf.toString());
for(int ii=0;ii=charCount)
// break;
}
}
}catch(final Exception e){
LogWriter.writeLog("Exception: "+e.getMessage());
}
}else{
for(int ii=0;ii='0' && c2<='9'){
buf.deleteCharAt(ii);
charCount--;
if(ii>=charCount) {
break;
}
c2=buf.charAt(ii);
}
}
ii--;
}
}
}
mappedChar=buf.toString();
}
}
return mappedChar;
}
/**
* turn hashed key value into String
*/
public static String getFontypeAsString(final int fontType) {
switch(fontType){
case TRUETYPE:
return "TrueType";
case TYPE1:
return "Type1";
case TYPE3:
return "Type3";
case CIDTYPE0:
return "CIDFontType0";
case CIDTYPE2:
return "CIDFontType2";
default:
return "Unknown";
}
}
private static final HashMap> mappedCharacters = new HashMap>();
private static final HashMap> takenChars = new HashMap>();
private static final int MAX_CHAR_CODE = 0xD800;
private static void blockForbiddenRanges(final ArrayList ids) {
int i;
for (i=0x0; i<=0x1f; i++) {
ids.add(i);
}
for (i=0x7f; i<=0xa0; i++) {
ids.add(i);
}
for (i=0x200c; i<=0x200f; i++) {
ids.add(i);
}
}
/**
* Find an appropriate value to use for identity CID fonts as unicode values are unrelated to actual values and many
* potential values are blocked by browsers
* @param fontName Name of the font to use
* @param cid The cid value to map from
* @return The value mapped onto
*/
public static int mapCIDToValidUnicode(final String fontName, final int cid) {
HashMap cidMap = mappedCharacters.get(fontName);
ArrayList taken = takenChars.get(fontName);
//Create structures for this font if they don't exist yet
if (cidMap == null) {
cidMap = new HashMap();
mappedCharacters.put(fontName, cidMap);
taken = new ArrayList();
takenChars.put(fontName, taken);
blockForbiddenRanges(taken);
}
//Fetch mapping and return if present
final Integer result = cidMap.get(cid);
if (result != null) {
return result;
}
//First try existing CID
int newCid = cid;
//If under 0x20 shift by 0x20 to try to get reasonable extraction
if (cid < 0x20) {
newCid += 0x20;
}
//Otherwise use first available CID
while (taken.contains(newCid) && taken.size() < MAX_CHAR_CODE) {
newCid = (newCid+1)%MAX_CHAR_CODE;
}
//Store for later lookup
cidMap.put(cid,newCid);
taken.add(newCid);
return newCid;
}
public static int getIDForGlyphName(final String fontName, String glyphName) {
boolean base10=false;
final int uc = StandardFonts.getAdobeMap(glyphName);
if (uc >= 0) {
return uc;
} else if (glyphName.startsWith("uni")){
glyphName = glyphName.substring(3);
} else if (glyphName.charAt(0) == 'u' || glyphName.charAt(0) == 'G'){
glyphName = glyphName.substring(1);
} else {
base10 = true;
}
try {
int num;
if (base10) {
num = Integer.parseInt(glyphName, 10);
num = mapCIDToValidUnicode(fontName, num);
} else {
num = Integer.parseInt(glyphName, 16);
}
return num;
} catch (final NumberFormatException e) {
LogWriter.writeLog("Exception in handling cid id "+e);
return -1;
}
}
/**
* convert common abbreviations of standard fonts names
*/
public static String expandName(String name) {
final String testName=name.toLowerCase();
if(testName.equals("cour")) {
name="Courier";
} else if(testName.equals("helv")) {
name="Helvetica";
} else if(testName.equals("hebo")) {
name="Helvetica-BOLD";
} else if(testName.equals("zadb")) {
name="ZapfDingbats";
} else if(testName.equals("tiro")){
name="Times";
}
return name;
}
public static String[] CMAP;
public static void readCMAP() {
//initialise first time and use as flag to show read
CMAP=new String[65536];
String line;
int rawVal,unicodeVal;
final BufferedReader input_stream;
try {
input_stream =new BufferedReader(
new InputStreamReader(loader.getResourceAsStream("org/jpedal/res/pdf/jis.cfg")));
//read in lines and place in map tables for fast lookup
while (true) {
line = input_stream.readLine();
if (line == null) {
break;
}
if(line.startsWith("0") && line.contains("#")){
//write values to table, converting from Octal
final StringTokenizer values = new StringTokenizer(line);
//System.out.println(line);
final String xx=values.nextToken().substring(2);
rawVal=Integer.parseInt(xx,16);//raw hex
//values.nextToken();//ignore
unicodeVal=Integer.parseInt(values.nextToken().substring(2),16);//unicode
CMAP[rawVal]=String.valueOf((char)unicodeVal);
}
}
input_stream.close();
}catch(final Exception e){
LogWriter.writeLog("Exception: "+e.getMessage());
}
}
}