using System;
using System.Globalization;
using System.Reflection;
using System.Diagnostics;
using System.IO;
using System.Text;
using System.Collections;
using System.util;
using iTextSharp.text.xml.simpleparser;
/*
* $Id: BaseFont.cs,v 1.13 2007/09/14 15:46:48 psoares33 Exp $
* $Name: $
*
* Copyright 2000-2006 by Paulo Soares.
*
* The contents of this file are subject to the Mozilla Public License Version 1.1
* (the "License"); you may not use this file except in compliance with the License.
* You may obtain a copy of the License at http://www.mozilla.org/MPL/
*
* Software distributed under the License is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
* for the specific language governing rights and limitations under the License.
*
* The Original Code is 'iText, a free JAVA-PDF library'.
*
* The Initial Developer of the Original Code is Bruno Lowagie. Portions created by
* the Initial Developer are Copyright (C) 1999, 2000, 2001, 2002 by Bruno Lowagie.
* All Rights Reserved.
* Co-Developer of the code is Paulo Soares. Portions created by the Co-Developer
* are Copyright (C) 2000, 2001, 2002 by Paulo Soares. All Rights Reserved.
*
* Contributor(s): all the names of the contributors are added in the source code
* where applicable.
*
* Alternatively, the contents of this file may be used under the terms of the
* LGPL license (the "GNU LIBRARY GENERAL PUBLIC LICENSE"), in which case the
* provisions of LGPL are applicable instead of those above. If you wish to
* allow use of your version of this file only under the terms of the LGPL
* License and not to allow others to use your version of this file under
* the MPL, indicate your decision by deleting the provisions above and
* replace them with the notice and other provisions required by the LGPL.
* If you do not delete the provisions above, a recipient may use your version
* of this file under either the MPL or the GNU LIBRARY GENERAL PUBLIC LICENSE.
*
* This library is free software; you can redistribute it and/or modify it
* under the terms of the MPL as stated above or under the terms of the GNU
* Library General Public License as published by the Free Software Foundation;
* either version 2 of the License, or 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 Library general Public License for more
* details.
*
* If you didn't download this code from the following link, you should check if
* you aren't using an obsolete version:
* http://www.lowagie.com/iText/
*/
namespace iTextSharp.text.pdf {
/// <summary>
/// Summary description for BaseFont.
/// </summary>
public abstract class BaseFont {
/** This is a possible value of a base 14 type 1 font */
public const string COURIER = "Courier";
/** This is a possible value of a base 14 type 1 font */
public const string COURIER_BOLD = "Courier-Bold";
/** This is a possible value of a base 14 type 1 font */
public const string COURIER_OBLIQUE = "Courier-Oblique";
/** This is a possible value of a base 14 type 1 font */
public const string COURIER_BOLDOBLIQUE = "Courier-BoldOblique";
/** This is a possible value of a base 14 type 1 font */
public const string HELVETICA = "Helvetica";
/** This is a possible value of a base 14 type 1 font */
public const string HELVETICA_BOLD = "Helvetica-Bold";
/** This is a possible value of a base 14 type 1 font */
public const string HELVETICA_OBLIQUE = "Helvetica-Oblique";
/** This is a possible value of a base 14 type 1 font */
public const string HELVETICA_BOLDOBLIQUE = "Helvetica-BoldOblique";
/** This is a possible value of a base 14 type 1 font */
public const string SYMBOL = "Symbol";
/** This is a possible value of a base 14 type 1 font */
public const string TIMES_ROMAN = "Times-Roman";
/** This is a possible value of a base 14 type 1 font */
public const string TIMES_BOLD = "Times-Bold";
/** This is a possible value of a base 14 type 1 font */
public const string TIMES_ITALIC = "Times-Italic";
/** This is a possible value of a base 14 type 1 font */
public const string TIMES_BOLDITALIC = "Times-BoldItalic";
/** This is a possible value of a base 14 type 1 font */
public const string ZAPFDINGBATS = "ZapfDingbats";
/** The maximum height above the baseline reached by glyphs in this
* font, excluding the height of glyphs for accented characters.
*/
public const int ASCENT = 1;
/** The y coordinate of the top of flat capital letters, measured from
* the baseline.
*/
public const int CAPHEIGHT = 2;
/** The maximum depth below the baseline reached by glyphs in this
* font. The value is a negative number.
*/
public const int DESCENT = 3;
/** The angle, expressed in degrees counterclockwise from the vertical,
* of the dominant vertical strokes of the font. The value is
* negative for fonts that slope to the right, as almost all italic fonts do.
*/
public const int ITALICANGLE = 4;
/** The lower left x glyph coordinate.
*/
public const int BBOXLLX = 5;
/** The lower left y glyph coordinate.
*/
public const int BBOXLLY = 6;
/** The upper right x glyph coordinate.
*/
public const int BBOXURX = 7;
/** The upper right y glyph coordinate.
*/
public const int BBOXURY = 8;
/** java.awt.Font property */
public const int AWT_ASCENT = 9;
/** java.awt.Font property */
public const int AWT_DESCENT = 10;
/** java.awt.Font property */
public const int AWT_LEADING = 11;
/** java.awt.Font property */
public const int AWT_MAXADVANCE = 12;
/**
* The undeline position. Usually a negative value.
*/
public const int UNDERLINE_POSITION = 13;
/**
* The underline thickness.
*/
public const int UNDERLINE_THICKNESS = 14;
/**
* The strikethrough position.
*/
public const int STRIKETHROUGH_POSITION = 15;
/**
* The strikethrough thickness.
*/
public const int STRIKETHROUGH_THICKNESS = 16;
/**
* The recommended vertical size for subscripts for this font.
*/
public const int SUBSCRIPT_SIZE = 17;
/**
* The recommended vertical offset from the baseline for subscripts for this font. Usually a negative value.
*/
public const int SUBSCRIPT_OFFSET = 18;
/**
* The recommended vertical size for superscripts for this font.
*/
public const int SUPERSCRIPT_SIZE = 19;
/**
* The recommended vertical offset from the baseline for superscripts for this font.
*/
public const int SUPERSCRIPT_OFFSET = 20;
/** The font is Type 1.
*/
public const int FONT_TYPE_T1 = 0;
/** The font is True Type with a standard encoding.
*/
public const int FONT_TYPE_TT = 1;
/** The font is CJK.
*/
public const int FONT_TYPE_CJK = 2;
/** The font is True Type with a Unicode encoding.
*/
public const int FONT_TYPE_TTUNI = 3;
/** A font already inside the document.
*/
public const int FONT_TYPE_DOCUMENT = 4;
/** A Type3 font.
*/
public const int FONT_TYPE_T3 = 5;
/** The Unicode encoding with horizontal writing.
*/
public const string IDENTITY_H = "Identity-H";
/** The Unicode encoding with vertical writing.
*/
public const string IDENTITY_V = "Identity-V";
/** A possible encoding. */
public const string CP1250 = "Cp1250";
/** A possible encoding. */
public const string CP1252 = "Cp1252";
/** A possible encoding. */
public const string CP1257 = "Cp1257";
/** A possible encoding. */
public const string WINANSI = "Cp1252";
/** A possible encoding. */
public const string MACROMAN = "MacRoman";
public static readonly int[] CHAR_RANGE_LATIN = {0, 0x17f, 0x2000, 0x206f, 0x20a0, 0x20cf, 0xfb00, 0xfb06};
public static readonly int[] CHAR_RANGE_ARABIC = {0, 0x7f, 0x0600, 0x067f, 0x20a0, 0x20cf, 0xfb50, 0xfbff, 0xfe70, 0xfeff};
public static readonly int[] CHAR_RANGE_HEBREW = {0, 0x7f, 0x0590, 0x05ff, 0x20a0, 0x20cf, 0xfb1d, 0xfb4f};
public static readonly int[] CHAR_RANGE_CYRILLIC = {0, 0x7f, 0x0400, 0x052f, 0x2000, 0x206f, 0x20a0, 0x20cf};
/** if the font has to be embedded */
public const bool EMBEDDED = true;
/** if the font doesn't have to be embedded */
public const bool NOT_EMBEDDED = false;
/** if the font has to be cached */
public const bool CACHED = true;
/** if the font doesn't have to be cached */
public const bool NOT_CACHED = false;
/** The path to the font resources. */
public const string RESOURCE_PATH = "iTextSharp.text.pdf.fonts.";
/** The fake CID code that represents a newline. */
public const char CID_NEWLINE = '\u7fff';
protected ArrayList subsetRanges;
/** The font type.
*/
internal int fontType;
/** a not defined character in a custom PDF encoding */
public const string notdef = ".notdef";
/** table of characters widths for this encoding */
protected int[] widths = new int[256];
/** encoding names */
protected string[] differences = new string[256];
/** same as differences but with the unicode codes */
protected char[] unicodeDifferences = new char[256];
protected int[][] charBBoxes = new int[256][];
/** encoding used with this font */
protected string encoding;
/** true if the font is to be embedded in the PDF */
protected bool embedded;
/**
* true if the font must use it's built in encoding. In that case the
* <CODE>encoding</CODE> is only used to map a char to the position inside
* the font, not to the expected char name.
*/
protected bool fontSpecific = true;
/** cache for the fonts already used. */
protected static Hashtable fontCache = new Hashtable();
/** list of the 14 built in fonts. */
protected static Hashtable BuiltinFonts14 = new Hashtable();
/** Forces the output of the width array. Only matters for the 14
* built-in fonts.
*/
protected bool forceWidthsOutput = false;
/** Converts <CODE>char</CODE> directly to <CODE>byte</CODE>
* by casting.
*/
protected bool directTextToByte = false;
/** Indicates if all the glyphs and widths for that particular
* encoding should be included in the document.
*/
protected bool subset = true;
protected bool fastWinansi = false;
/**
* Custom encodings use this map to key the Unicode character
* to the single byte code.
*/
protected IntHashtable specialMap;
protected static internal ArrayList resourceSearch = ArrayList.Synchronized(new ArrayList());
private static Random random = new Random();
static BaseFont() {
BuiltinFonts14.Add(COURIER, PdfName.COURIER);
BuiltinFonts14.Add(COURIER_BOLD, PdfName.COURIER_BOLD);
BuiltinFonts14.Add(COURIER_BOLDOBLIQUE, PdfName.COURIER_BOLDOBLIQUE);
BuiltinFonts14.Add(COURIER_OBLIQUE, PdfName.COURIER_OBLIQUE);
BuiltinFonts14.Add(HELVETICA, PdfName.HELVETICA);
BuiltinFonts14.Add(HELVETICA_BOLD, PdfName.HELVETICA_BOLD);
BuiltinFonts14.Add(HELVETICA_BOLDOBLIQUE, PdfName.HELVETICA_BOLDOBLIQUE);
BuiltinFonts14.Add(HELVETICA_OBLIQUE, PdfName.HELVETICA_OBLIQUE);
BuiltinFonts14.Add(SYMBOL, PdfName.SYMBOL);
BuiltinFonts14.Add(TIMES_ROMAN, PdfName.TIMES_ROMAN);
BuiltinFonts14.Add(TIMES_BOLD, PdfName.TIMES_BOLD);
BuiltinFonts14.Add(TIMES_BOLDITALIC, PdfName.TIMES_BOLDITALIC);
BuiltinFonts14.Add(TIMES_ITALIC, PdfName.TIMES_ITALIC);
BuiltinFonts14.Add(ZAPFDINGBATS, PdfName.ZAPFDINGBATS);
}
/** Generates the PDF stream with the Type1 and Truetype fonts returning
* a PdfStream.
*/
internal class StreamFont : PdfStream {
/** Generates the PDF stream with the Type1 and Truetype fonts returning
* a PdfStream.
* @param contents the content of the stream
* @param lengths an array of int that describes the several lengths of each part of the font
*/
internal StreamFont(byte[] contents, int[] lengths) {
bytes = contents;
Put(PdfName.LENGTH, new PdfNumber(bytes.Length));
for (int k = 0; k < lengths.Length; ++k) {
Put(new PdfName("Length" + (k + 1)), new PdfNumber(lengths[k]));
}
FlateCompress();
}
internal StreamFont(byte[] contents, string subType) {
bytes = contents;
Put(PdfName.LENGTH, new PdfNumber(bytes.Length));
if (subType != null)
Put(PdfName.SUBTYPE, new PdfName(subType));
FlateCompress();
}
}
/**
*Creates new BaseFont
*/
protected BaseFont() {
}
/**
* Creates a new font. This font can be one of the 14 built in types,
* a Type1 font referred to by an AFM or PFM file, a TrueType font (simple or collection) or a CJK font from the
* Adobe Asian Font Pack. TrueType fonts and CJK fonts can have an optional style modifier
* appended to the name. These modifiers are: Bold, Italic and BoldItalic. An
* example would be "STSong-Light,Bold". Note that this modifiers do not work if
* the font is embedded. Fonts in TrueType collections are addressed by index such as "msgothic.ttc,1".
* This would get the second font (indexes start at 0), in this case "MS PGothic".
* <P>
* The fonts are cached and if they already exist they are extracted from the cache,
* not parsed again.
* <P>
* Besides the common encodings described by name, custom encodings
* can also be made. These encodings will only work for the single byte fonts
* Type1 and TrueType. The encoding string starts with a '#'
* followed by "simple" or "full". If "simple" there is a decimal for the first character position and then a list
* of hex values representing the Unicode codes that compose that encoding.<br>
* The "simple" encoding is recommended for TrueType fonts
* as the "full" encoding risks not matching the character with the right glyph
* if not done with care.<br>
* The "full" encoding is specially aimed at Type1 fonts where the glyphs have to be
* described by non standard names like the Tex math fonts. Each group of three elements
* compose a code position: the one byte code order in decimal or as 'x' (x cannot be the space), the name and the Unicode character
* used to access the glyph. The space must be assigned to character position 32 otherwise
* text justification will not work.
* <P>
* Example for a "simple" encoding that includes the Unicode
* character space, A, B and ecyrillic:
* <PRE>
* "# simple 32 0020 0041 0042 0454"
* </PRE>
* <P>
* Example for a "full" encoding for a Type1 Tex font:
* <PRE>
* "# full 'A' nottriangeqlleft 0041 'B' dividemultiply 0042 32 space 0020"
* </PRE>
* <P>
* This method calls:<br>
* <PRE>
* createFont(name, encoding, embedded, true, null, null);
* </PRE>
* @param name the name of the font or it's location on file
* @param encoding the encoding to be applied to this font
* @param embedded true if the font is to be embedded in the PDF
* @return returns a new font. This font may come from the cache
* @throws DocumentException the font is invalid
* @throws IOException the font file could not be read
*/
public static BaseFont CreateFont(string name, string encoding, bool embedded) {
return CreateFont(name, encoding, embedded, true, null, null);
}
/** Creates a new font. This font can be one of the 14 built in types,
* a Type1 font referred to by an AFM or PFM file, a TrueType font (simple or collection) or a CJK font from the
* Adobe Asian Font Pack. TrueType fonts and CJK fonts can have an optional style modifier
* appended to the name. These modifiers are: Bold, Italic and BoldItalic. An
* example would be "STSong-Light,Bold". Note that this modifiers do not work if
* the font is embedded. Fonts in TrueType collections are addressed by index such as "msgothic.ttc,1".
* This would get the second font (indexes start at 0), in this case "MS PGothic".
* <P>
* The fonts may or may not be cached depending on the flag <CODE>cached</CODE>.
* If the <CODE>byte</CODE> arrays are present the font will be
* read from them instead of the name. A name is still required to identify
* the font type.
* <P>
* Besides the common encodings described by name, custom encodings
* can also be made. These encodings will only work for the single byte fonts
* Type1 and TrueType. The encoding string starts with a '#'
* followed by "simple" or "full". If "simple" there is a decimal for the first character position and then a list
* of hex values representing the Unicode codes that compose that encoding.<br>
* The "simple" encoding is recommended for TrueType fonts
* as the "full" encoding risks not matching the character with the right glyph
* if not done with care.<br>
* The "full" encoding is specially aimed at Type1 fonts where the glyphs have to be
* described by non standard names like the Tex math fonts. Each group of three elements
* compose a code position: the one byte code order in decimal or as 'x' (x cannot be the space), the name and the Unicode character
* used to access the glyph. The space must be assigned to character position 32 otherwise
* text justification will not work.
* <P>
* Example for a "simple" encoding that includes the Unicode
* character space, A, B and ecyrillic:
* <PRE>
* "# simple 32 0020 0041 0042 0454"
* </PRE>
* <P>
* Example for a "full" encoding for a Type1 Tex font:
* <PRE>
* "# full 'A' nottriangeqlleft 0041 'B' dividemultiply 0042 32 space 0020"
* </PRE>
* @param name the name of the font or it's location on file
* @param encoding the encoding to be applied to this font
* @param embedded true if the font is to be embedded in the PDF
* @param cached true if the font comes from the cache or is added to
* the cache if new, false if the font is always created new
* @param ttfAfm the true type font or the afm in a byte array
* @param pfb the pfb in a byte array
* @return returns a new font. This font may come from the cache but only if cached
* is true, otherwise it will always be created new
* @throws DocumentException the font is invalid
* @throws IOException the font file could not be read
*/
public static BaseFont CreateFont(string name, string encoding, bool embedded, bool cached, byte[] ttfAfm, byte[] pfb) {
return CreateFont(name, encoding, embedded, cached, ttfAfm, pfb, false);
}
/** Creates a new font. This font can be one of the 14 built in types,
* a Type1 font referred to by an AFM or PFM file, a TrueType font (simple or collection) or a CJK font from the
* Adobe Asian Font Pack. TrueType fonts and CJK fonts can have an optional style modifier
* appended to the name. These modifiers are: Bold, Italic and BoldItalic. An
* example would be "STSong-Light,Bold". Note that this modifiers do not work if
* the font is embedded. Fonts in TrueType collections are addressed by index such as "msgothic.ttc,1".
* This would get the second font (indexes start at 0), in this case "MS PGothic".
* <P>
* The fonts may or may not be cached depending on the flag <CODE>cached</CODE>.
* If the <CODE>byte</CODE> arrays are present the font will be
* read from them instead of the name. A name is still required to identify
* the font type.
* <P>
* Besides the common encodings described by name, custom encodings
* can also be made. These encodings will only work for the single byte fonts
* Type1 and TrueType. The encoding string starts with a '#'
* followed by "simple" or "full". If "simple" there is a decimal for the first character position and then a list
* of hex values representing the Unicode codes that compose that encoding.<br>
* The "simple" encoding is recommended for TrueType fonts
* as the "full" encoding risks not matching the character with the right glyph
* if not done with care.<br>
* The "full" encoding is specially aimed at Type1 fonts where the glyphs have to be
* described by non standard names like the Tex math fonts. Each group of three elements
* compose a code position: the one byte code order in decimal or as 'x' (x cannot be the space), the name and the Unicode character
* used to access the glyph. The space must be assigned to character position 32 otherwise
* text justification will not work.
* <P>
* Example for a "simple" encoding that includes the Unicode
* character space, A, B and ecyrillic:
* <PRE>
* "# simple 32 0020 0041 0042 0454"
* </PRE>
* <P>
* Example for a "full" encoding for a Type1 Tex font:
* <PRE>
* "# full 'A' nottriangeqlleft 0041 'B' dividemultiply 0042 32 space 0020"
* </PRE>
* @param name the name of the font or it's location on file
* @param encoding the encoding to be applied to this font
* @param embedded true if the font is to be embedded in the PDF
* @param cached true if the font comes from the cache or is added to
* the cache if new, false if the font is always created new
* @param ttfAfm the true type font or the afm in a byte array
* @param pfb the pfb in a byte array
* @param noThrow if true will not throw an exception if the font is not recognized and will return null, if false will throw
* an exception if the font is not recognized. Note that even if true an exception may be thrown in some circumstances.
* This parameter is useful for FontFactory that may have to check many invalid font names before finding the right one
* @return returns a new font. This font may come from the cache but only if cached
* is true, otherwise it will always be created new
* @throws DocumentException the font is invalid
* @throws IOException the font file could not be read
*/
public static BaseFont CreateFont(string name, string encoding, bool embedded, bool cached, byte[] ttfAfm, byte[] pfb, bool noThrow) {
string nameBase = GetBaseName(name);
encoding = NormalizeEncoding(encoding);
bool isBuiltinFonts14 = BuiltinFonts14.ContainsKey(name);
bool isCJKFont = isBuiltinFonts14 ? false : CJKFont.IsCJKFont(nameBase, encoding);
if (isBuiltinFonts14 || isCJKFont)
embedded = false;
else if (encoding.Equals(IDENTITY_H) || encoding.Equals(IDENTITY_V))
embedded = true;
BaseFont fontFound = null;
BaseFont fontBuilt = null;
string key = name + "\n" + encoding + "\n" + embedded;
if (cached) {
lock (fontCache) {
fontFound = (BaseFont)fontCache[key];
}
if (fontFound != null)
return fontFound;
}
if (isBuiltinFonts14 || name.ToLower(System.Globalization.CultureInfo.InvariantCulture).EndsWith(".afm") || name.ToLower(System.Globalization.CultureInfo.InvariantCulture).EndsWith(".pfm")) {
fontBuilt = new Type1Font(name, encoding, embedded, ttfAfm, pfb);
fontBuilt.fastWinansi = encoding.Equals(CP1252);
}
else if (nameBase.ToLower(System.Globalization.CultureInfo.InvariantCulture).EndsWith(".ttf") || nameBase.ToLower(System.Globalization.CultureInfo.InvariantCulture).EndsWith(".otf") || nameBase.ToLower(System.Globalization.CultureInfo.InvariantCulture).IndexOf(".ttc,") > 0) {
if (encoding.Equals(IDENTITY_H) || encoding.Equals(IDENTITY_V))
fontBuilt = new TrueTypeFontUnicode(name, encoding, embedded, ttfAfm);
else {
fontBuilt = new TrueTypeFont(name, encoding, embedded, ttfAfm);
fontBuilt.fastWinansi = encoding.Equals(CP1252);
}
}
else if (isCJKFont)
fontBuilt = new CJKFont(name, encoding, embedded);
else if (noThrow)
return null;
else
throw new DocumentException("Font '" + name + "' with '" + encoding + "' is not recognized.");
if (cached) {
lock (fontCache) {
fontFound = (BaseFont)fontCache[key];
if (fontFound != null)
return fontFound;
fontCache.Add(key, fontBuilt);
}
}
return fontBuilt;
}
/**
* Creates a font based on an existing document font. The created font font may not
* behave as expected, depending on the encoding or subset.
* @param fontRef the reference to the document font
* @return the font
*/
public static BaseFont CreateFont(PRIndirectReference fontRef) {
return new DocumentFont(fontRef);
}
/**
* Gets the name without the modifiers Bold, Italic or BoldItalic.
* @param name the full name of the font
* @return the name without the modifiers Bold, Italic or BoldItalic
*/
protected static string GetBaseName(string name) {
if (name.EndsWith(",Bold"))
return name.Substring(0, name.Length - 5);
else if (name.EndsWith(",Italic"))
return name.Substring(0, name.Length - 7);
else if (name.EndsWith(",BoldItalic"))
return name.Substring(0, name.Length - 11);
else
return name;
}
/**
* Normalize the encoding names. "winansi" is changed to "Cp1252" and
* "macroman" is changed to "MacRoman".
* @param enc the encoding to be normalized
* @return the normalized encoding
*/
protected static string NormalizeEncoding(string enc) {
if (enc.Equals("winansi") || enc.Equals(""))
return CP1252;
else if (enc.Equals("macroman"))
return MACROMAN;
int n = IanaEncodings.GetEncodingNumber(enc);
if (n == 1252)
return CP1252;
if (n == 10000)
return MACROMAN;
return enc;
}
/**
* Creates the <CODE>widths</CODE> and the <CODE>differences</CODE> arrays
* @throws UnsupportedEncodingException the encoding is not supported
*/
protected void CreateEncoding() {
if (encoding.StartsWith("#")) {
specialMap = new IntHashtable();
StringTokenizer tok = new StringTokenizer(encoding.Substring(1), " ,\t\n\r\f");
if (tok.NextToken().Equals("full")) {
while (tok.HasMoreTokens()) {
String order = tok.NextToken();
String name = tok.NextToken();
char uni = (char)int.Parse(tok.NextToken(), NumberStyles.HexNumber);
int orderK;
if (order.StartsWith("'"))
orderK = (int)order[1];
else
orderK = int.Parse(order);
orderK %= 256;
specialMap[(int)uni] = orderK;
differences[orderK] = name;
unicodeDifferences[orderK] = uni;
widths[orderK] = GetRawWidth((int)uni, name);
charBBoxes[orderK] = GetRawCharBBox((int)uni, name);
}
}
else {
int k = 0;
if (tok.HasMoreTokens())
k = int.Parse(tok.NextToken());
while (tok.HasMoreTokens() && k < 256) {
String hex = tok.NextToken();
int uni = int.Parse(hex, NumberStyles.HexNumber) % 0x10000;
String name = GlyphList.UnicodeToName(uni);
if (name != null) {
specialMap[uni] = k;
differences[k] = name;
unicodeDifferences[k] = (char)uni;
widths[k] = GetRawWidth(uni, name);
charBBoxes[k] = GetRawCharBBox(uni, name);
++k;
}
}
}
for (int k = 0; k < 256; ++k) {
if (differences[k] == null) {
differences[k] = notdef;
}
}
}
else if (fontSpecific) {
for (int k = 0; k < 256; ++k) {
widths[k] = GetRawWidth(k, null);
charBBoxes[k] = GetRawCharBBox(k, null);
}
}
else {
string s;
string name;
char c;
byte[] b = new byte[1];
for (int k = 0; k < 256; ++k) {
b[0] = (byte)k;
s = PdfEncodings.ConvertToString(b, encoding);
if (s.Length > 0) {
c = s[0];
}
else {
c = '?';
}
name = GlyphList.UnicodeToName((int)c);
if (name == null)
name = notdef;
differences[k] = name;
this.UnicodeDifferences[k] = c;
widths[k] = GetRawWidth((int)c, name);
charBBoxes[k] = GetRawCharBBox((int)c, name);
}
}
}
/**
* Gets the width from the font according to the Unicode char <CODE>c</CODE>
* or the <CODE>name</CODE>. If the <CODE>name</CODE> is null it's a symbolic font.
* @param c the unicode char
* @param name the glyph name
* @return the width of the char
*/
internal abstract int GetRawWidth(int c, string name);
/**
* Gets the kerning between two Unicode chars.
* @param char1 the first char
* @param char2 the second char
* @return the kerning to be applied
*/
public abstract int GetKerning(char char1, char char2);
/**
* Sets the kerning between two Unicode chars.
* @param char1 the first char
* @param char2 the second char
* @param kern the kerning to apply in normalized 1000 units
* @return <code>true</code> if the kerning was applied, <code>false</code> otherwise
*/
public abstract bool SetKerning(char char1, char char2, int kern);
/**
* Gets the width of a <CODE>char</CODE> in normalized 1000 units.
* @param char1 the unicode <CODE>char</CODE> to get the width of
* @return the width in normalized 1000 units
*/
public virtual int GetWidth(char char1) {
if (fastWinansi) {
if (char1 < 128 || (char1 >= 160 && char1 <= 255))
return widths[char1];
else
return widths[PdfEncodings.winansi[char1]];
}
else {
int total = 0;
byte[] mbytes = ConvertToBytes(char1);
for (int k = 0; k < mbytes.Length; ++k)
total += widths[0xff & mbytes[k]];
return total;
}
}
/**
* Gets the width of a <CODE>string</CODE> in normalized 1000 units.
* @param text the <CODE>string</CODE> to get the witdth of
* @return the width in normalized 1000 units
*/
public virtual int GetWidth(string text) {
int total = 0;
if (fastWinansi) {
int len = text.Length;
for (int k = 0; k < len; ++k) {
char char1 = text[k];
if (char1 < 128 || (char1 >= 160 && char1 <= 255))
total += widths[char1];
else
total += widths[PdfEncodings.winansi[char1]];
}
return total;
}
else {
byte[] mbytes = ConvertToBytes(text);
for (int k = 0; k < mbytes.Length; ++k)
total += widths[0xff & mbytes[k]];
}
return total;
}
/**
* Gets the descent of a <CODE>String</CODE> in normalized 1000 units. The descent will always be
* less than or equal to zero even if all the characters have an higher descent.
* @param text the <CODE>String</CODE> to get the descent of
* @return the dexcent in normalized 1000 units
*/
public int GetDescent(String text) {
int min = 0;
char[] chars = text.ToCharArray();
for (int k = 0; k < chars.Length; ++k) {
int[] bbox = GetCharBBox(chars[k]);
if (bbox != null && bbox[1] < min)
min = bbox[1];
}
return min;
}
/**
* Gets the ascent of a <CODE>String</CODE> in normalized 1000 units. The ascent will always be
* greater than or equal to zero even if all the characters have a lower ascent.
* @param text the <CODE>String</CODE> to get the ascent of
* @return the ascent in normalized 1000 units
*/
public int GetAscent(String text) {
int max = 0;
char[] chars = text.ToCharArray();
for (int k = 0; k < chars.Length; ++k) {
int[] bbox = GetCharBBox(chars[k]);
if (bbox != null && bbox[3] > max)
max = bbox[3];
}
return max;
}
/**
* Gets the descent of a <CODE>String</CODE> in points. The descent will always be
* less than or equal to zero even if all the characters have an higher descent.
* @param text the <CODE>String</CODE> to get the descent of
* @param fontSize the size of the font
* @return the dexcent in points
*/
public float GetDescentPoint(String text, float fontSize)
{
return (float)GetDescent(text) * 0.001f * fontSize;
}
/**
* Gets the ascent of a <CODE>String</CODE> in points. The ascent will always be
* greater than or equal to zero even if all the characters have a lower ascent.
* @param text the <CODE>String</CODE> to get the ascent of
* @param fontSize the size of the font
* @return the ascent in points
*/
public float GetAscentPoint(String text, float fontSize)
{
return (float)GetAscent(text) * 0.001f * fontSize;
}
/**
* Gets the width of a <CODE>String</CODE> in points taking kerning
* into account.
* @param text the <CODE>String</CODE> to get the witdth of
* @param fontSize the font size
* @return the width in points
*/
public float GetWidthPointKerned(String text, float fontSize) {
float size = (float)GetWidth(text) * 0.001f * fontSize;
if (!HasKernPairs())
return size;
int len = text.Length - 1;
int kern = 0;
char[] c = text.ToCharArray();
for (int k = 0; k < len; ++k) {
kern += GetKerning(c[k], c[k + 1]);
}
return size + kern * 0.001f * fontSize;
}
/**
* Gets the width of a <CODE>string</CODE> in points.
* @param text the <CODE>string</CODE> to get the witdth of
* @param fontSize the font size
* @return the width in points
*/
public float GetWidthPoint(string text, float fontSize) {
return (float)GetWidth(text) * 0.001f * fontSize;
}
/**
* Gets the width of a <CODE>char</CODE> in points.
* @param char1 the <CODE>char</CODE> to get the witdth of
* @param fontSize the font size
* @return the width in points
*/
public float GetWidthPoint(char char1, float fontSize) {
return GetWidth(char1) * 0.001f * fontSize;
}
/**
* Converts a <CODE>string</CODE> to a </CODE>byte</CODE> array according
* to the font's encoding.
* @param text the <CODE>string</CODE> to be converted
* @return an array of <CODE>byte</CODE> representing the conversion according to the font's encoding
*/
internal virtual byte[] ConvertToBytes(string text) {
if (directTextToByte)
return PdfEncodings.ConvertToBytes(text, null);
if (specialMap != null) {
byte[] b = new byte[text.Length];
int ptr = 0;
int length = text.Length;
for (int k = 0; k < length; ++k) {
char c = text[k];
if (specialMap.ContainsKey((int)c))
b[ptr++] = (byte)specialMap[(int)c];
}
if (ptr < length) {
byte[] b2 = new byte[ptr];
System.Array.Copy(b, 0, b2, 0, ptr);
return b2;
}
else
return b;
}
return PdfEncodings.ConvertToBytes(text, encoding);
}
/**
* Converts a <CODE>char</CODE> to a </CODE>byte</CODE> array according
* to the font's encoding.
* @param text the <CODE>String</CODE> to be converted
* @return an array of <CODE>byte</CODE> representing the conversion according to the font's encoding
*/
internal virtual byte[] ConvertToBytes(char char1) {
if (directTextToByte)
return PdfEncodings.ConvertToBytes(char1, null);
if (specialMap != null) {
if (specialMap.ContainsKey((int)char1))
return new byte[]{(byte)specialMap[(int)char1]};
else
return new byte[0];
}
return PdfEncodings.ConvertToBytes(char1, encoding);
}
/** Outputs to the writer the font dictionaries and streams.
* @param writer the writer for this document
* @param ref the font indirect reference
* @param params several parameters that depend on the font type
* @throws IOException on error
* @throws DocumentException error in generating the object
*/
internal abstract void WriteFont(PdfWriter writer, PdfIndirectReference piRef, Object[] oParams);
/** Gets the encoding used to convert <CODE>string</CODE> into <CODE>byte[]</CODE>.
* @return the encoding name
*/
public string Encoding {
get {
return encoding;
}
}
/** Gets the font parameter identified by <CODE>key</CODE>. Valid values
* for <CODE>key</CODE> are <CODE>ASCENT</CODE>, <CODE>CAPHEIGHT</CODE>, <CODE>DESCENT</CODE>,
* <CODE>ITALICANGLE</CODE>, <CODE>BBOXLLX</CODE>, <CODE>BBOXLLY</CODE>, <CODE>BBOXURX</CODE>
* and <CODE>BBOXURY</CODE>.
* @param key the parameter to be extracted
* @param fontSize the font size in points
* @return the parameter in points
*/
public abstract float GetFontDescriptor(int key, float fontSize);
/** Gets the font type. The font types can be: FONT_TYPE_T1,
* FONT_TYPE_TT, FONT_TYPE_CJK and FONT_TYPE_TTUNI.
* @return the font type
*/
public int FontType {
get {
return fontType;
}
set {
fontType = value;
}
}
/** Gets the embedded flag.
* @return <CODE>true</CODE> if the font is embedded.
*/
public bool IsEmbedded() {
return embedded;
}
/** Gets the symbolic flag of the font.
* @return <CODE>true</CODE> if the font is symbolic
*/
public bool IsFontSpecific() {
return fontSpecific;
}
/** Creates a unique subset prefix to be added to the font name when the font is embedded and subset.
* @return the subset prefix
*/
internal static string CreateSubsetPrefix() {
char[] s = new char[7];
lock (random) {
for (int k = 0; k < 6; ++k)
s[k] = (char)(random.Next('A', 'Z' + 1));
}
s[6] = '+';
return new String(s);
}
/** Gets the Unicode character corresponding to the byte output to the pdf stream.
* @param index the byte index
* @return the Unicode character
*/
internal char GetUnicodeDifferences(int index) {
return unicodeDifferences[index];
}
/** Gets the postscript font name.
* @return the postscript font name
*/
public abstract string PostscriptFontName {
get;
set;
}
/** Gets the full name of the font. If it is a True Type font
* each array element will have {Platform ID, Platform Encoding ID,
* Language ID, font name}. The interpretation of this values can be
* found in the Open Type specification, chapter 2, in the 'name' table.<br>
* For the other fonts the array has a single element with {"", "", "",
* font name}.
* @return the full name of the font
*/
public abstract string[][] FullFontName {
get;
}
/** Gets the full name of the font. If it is a True Type font
* each array element will have {Platform ID, Platform Encoding ID,
* Language ID, font name}. The interpretation of this values can be
* found in the Open Type specification, chapter 2, in the 'name' table.<br>
* For the other fonts the array has a single element with {"", "", "",
* font name}.
* @param name the name of the font
* @param encoding the encoding of the font
* @param ttfAfm the true type font or the afm in a byte array
* @throws DocumentException on error
* @throws IOException on error
* @return the full name of the font
*/
public static string[][] GetFullFontName(string name, string encoding, byte[] ttfAfm) {
string nameBase = GetBaseName(name);
BaseFont fontBuilt = null;
if (nameBase.ToLower(System.Globalization.CultureInfo.InvariantCulture).EndsWith(".ttf") || nameBase.ToLower(System.Globalization.CultureInfo.InvariantCulture).EndsWith(".otf") || nameBase.ToLower(System.Globalization.CultureInfo.InvariantCulture).IndexOf(".ttc,") > 0)
fontBuilt = new TrueTypeFont(name, CP1252, false, ttfAfm, true);
else
fontBuilt = CreateFont(name, encoding, false, false, ttfAfm, null);
return fontBuilt.FullFontName;
}
/** Gets all the names from the font. Only the required tables are read.
* @param name the name of the font
* @param encoding the encoding of the font
* @param ttfAfm the true type font or the afm in a byte array
* @throws DocumentException on error
* @throws IOException on error
* @return an array of Object[] built with {getPostscriptFontName(), GetFamilyFontName(), GetFullFontName()}
*/
public static Object[] GetAllFontNames(String name, String encoding, byte[] ttfAfm) {
String nameBase = GetBaseName(name);
BaseFont fontBuilt = null;
if (nameBase.ToLower(System.Globalization.CultureInfo.InvariantCulture).EndsWith(".ttf") || nameBase.ToLower(System.Globalization.CultureInfo.InvariantCulture).EndsWith(".otf") || nameBase.ToLower(System.Globalization.CultureInfo.InvariantCulture).IndexOf(".ttc,") > 0)
fontBuilt = new TrueTypeFont(name, CP1252, false, ttfAfm, true);
else
fontBuilt = CreateFont(name, encoding, false, false, ttfAfm, null);
return new Object[]{fontBuilt.PostscriptFontName, fontBuilt.FamilyFontName, fontBuilt.FullFontName};
}
/** Gets the family name of the font. If it is a True Type font
* each array element will have {Platform ID, Platform Encoding ID,
* Language ID, font name}. The interpretation of this values can be
* found in the Open Type specification, chapter 2, in the 'name' table.<br>
* For the other fonts the array has a single element with {"", "", "",
* font name}.
* @return the family name of the font
*/
public abstract string[][] FamilyFontName {
get;
}
/** Gets the code pages supported by the font. This has only meaning
* with True Type fonts.
* @return the code pages supported by the font
*/
public virtual string[] CodePagesSupported {
get {
return new string[0];
}
}
/** Enumerates the postscript font names present inside a
* True Type Collection.
* @param ttcFile the file name of the font
* @throws DocumentException on error
* @throws IOException on error
* @return the postscript font names
*/
public static string[] EnumerateTTCNames(string ttcFile) {
return new EnumerateTTC(ttcFile).Names;
}
/** Enumerates the postscript font names present inside a
* True Type Collection.
* @param ttcArray the font as a <CODE>byte</CODE> array
* @throws DocumentException on error
* @throws IOException on error
* @return the postscript font names
*/
public static string[] EnumerateTTCNames(byte[] ttcArray) {
return new EnumerateTTC(ttcArray).Names;
}
/** Gets the font width array.
* @return the font width array
*/
public int[] Widths {
get {
return widths;
}
}
/** Gets the array with the names of the characters.
* @return the array with the names of the characters
*/
public string[] Differences {
get {
return differences;
}
}
/** Gets the array with the unicode characters.
* @return the array with the unicode characters
*/
public char[] UnicodeDifferences {
get {
return unicodeDifferences;
}
}
/** Set to <CODE>true</CODE> to force the generation of the
* widths array.
* @param forceWidthsOutput <CODE>true</CODE> to force the generation of the
* widths array
*/
public bool ForceWidthsOutput {
set {
this.forceWidthsOutput = value;
}
get {
return forceWidthsOutput;
}
}
/** Sets the conversion of <CODE>char</CODE> directly to <CODE>byte</CODE>
* by casting. This is a low level feature to put the bytes directly in
* the content stream without passing through string.GetBytes().
* @param directTextToByte New value of property directTextToByte.
*/
public bool DirectTextToByte {
set {
this.directTextToByte = value;
}
get {
return directTextToByte;
}
}
/** Indicates if all the glyphs and widths for that particular
* encoding should be included in the document. When set to <CODE>true</CODE>
* only the glyphs used will be included in the font. When set to <CODE>false</CODE>
* and {@link #addSubsetRange(int[])} was not called the full font will be included
* otherwise just the characters ranges will be included.
* @param subset new value of property subset
*/
public bool Subset {
set {
this.subset = value;
}
get {
return subset;
}
}
public static void AddToResourceSearch (object obj) {
if (obj is Assembly) {
resourceSearch.Add(obj);
}
else if (obj is string) {
string f = (string)obj;
if (Directory.Exists(f) || File.Exists(f))
resourceSearch.Add(obj);
}
}
/** Gets the font resources.
* @param key the name of the resource
* @return the <CODE>Stream</CODE> to get the resource or
* <CODE>null</CODE> if not found
*/
public static Stream GetResourceStream(string key) {
Stream istr = null;
// Try to use resource loader to load the properties file.
try {
Assembly assm = Assembly.GetExecutingAssembly();
istr = assm.GetManifestResourceStream(key);
}
catch {
}
if (istr != null)
return istr;
for (int k = 0; k < resourceSearch.Count; ++k) {
object obj = resourceSearch[k];
try {
if (obj is Assembly) {
istr = ((Assembly)obj).GetManifestResourceStream(key);
if (istr != null)
return istr;
}
else if (obj is string) {
string dir = (string)obj;
try {
istr = Assembly.LoadFrom(dir).GetManifestResourceStream(key);
}
catch {
}
if (istr != null)
return istr;
string modkey = key.Replace('.', '/');
string fullPath = Path.Combine(dir, modkey);
if (File.Exists(fullPath)) {
return new FileStream(fullPath, FileMode.Open, FileAccess.Read, FileShare.Read);
}
int idx = modkey.LastIndexOf('/');
if (idx >= 0) {
modkey = modkey.Substring(0, idx) + "." + modkey.Substring(idx + 1);
fullPath = Path.Combine(dir, modkey);
if (File.Exists(fullPath))
return new FileStream(fullPath, FileMode.Open, FileAccess.Read, FileShare.Read);
}
}
}
catch {
}
}
return istr;
}
/** Gets the Unicode equivalent to a CID.
* The (inexistent) CID <FF00> is translated as '\n'.
* It has only meaning with CJK fonts with Identity encoding.
* @param c the CID code
* @return the Unicode equivalent
*/
public virtual char GetUnicodeEquivalent(char c) {
return c;
}
/** Gets the CID code given an Unicode.
* It has only meaning with CJK fonts.
* @param c the Unicode
* @return the CID equivalent
*/
public virtual char GetCidCode(char c) {
return c;
}
/** Checks if the font has any kerning pairs.
* @return <CODE>true</CODE> if the font has any kerning pairs
*/
public abstract bool HasKernPairs();
/**
* Checks if a character exists in this font.
* @param c the character to check
* @return <CODE>true</CODE> if the character has a glyph,
* <CODE>false</CODE> otherwise
*/
public virtual bool CharExists(char c) {
byte[] b = ConvertToBytes(c);
return b.Length > 0;
}
/**
* Sets the character advance.
* @param c the character
* @param advance the character advance normalized to 1000 units
* @return <CODE>true</CODE> if the advance was set,
* <CODE>false</CODE> otherwise
*/
public virtual bool SetCharAdvance(char c, int advance) {
byte[] b = ConvertToBytes(c);
if (b.Length == 0)
return false;
widths[0xff & b[0]] = advance;
return true;
}
private static void AddFont(PRIndirectReference fontRef, IntHashtable hits, ArrayList fonts) {
PdfObject obj = PdfReader.GetPdfObject(fontRef);
if (obj == null || !obj.IsDictionary())
return;
PdfDictionary font = (PdfDictionary)obj;
PdfName subtype = (PdfName)PdfReader.GetPdfObject(font.Get(PdfName.SUBTYPE));
if (!PdfName.TYPE1.Equals(subtype) && !PdfName.TRUETYPE.Equals(subtype))
return;
PdfName name = (PdfName)PdfReader.GetPdfObject(font.Get(PdfName.BASEFONT));
fonts.Add(new Object[]{PdfName.DecodeName(name.ToString()), fontRef});
hits[fontRef.Number] = 1;
}
private static void RecourseFonts(PdfDictionary page, IntHashtable hits, ArrayList fonts, int level) {
++level;
if (level > 50) // in case we have an endless loop
return;
PdfDictionary resources = (PdfDictionary)PdfReader.GetPdfObject(page.Get(PdfName.RESOURCES));
if (resources == null)
return;
PdfDictionary font = (PdfDictionary)PdfReader.GetPdfObject(resources.Get(PdfName.FONT));
if (font != null) {
foreach (PdfName key in font.Keys) {
PdfObject ft = font.Get(key);
if (ft == null || !ft.IsIndirect())
continue;
int hit = ((PRIndirectReference)ft).Number;
if (hits.ContainsKey(hit))
continue;
AddFont((PRIndirectReference)ft, hits, fonts);
}
}
PdfDictionary xobj = (PdfDictionary)PdfReader.GetPdfObject(resources.Get(PdfName.XOBJECT));
if (xobj != null) {
foreach (PdfName key in xobj.Keys) {
RecourseFonts((PdfDictionary)PdfReader.GetPdfObject(xobj.Get(key)), hits, fonts, level);
}
}
}
/**
* Gets a list of all document fonts. Each element of the <CODE>ArrayList</CODE>
* contains a <CODE>Object[]{String,PRIndirectReference}</CODE> with the font name
* and the indirect reference to it.
* @param reader the document where the fonts are to be listed from
* @return the list of fonts and references
*/
public static ArrayList GetDocumentFonts(PdfReader reader) {
IntHashtable hits = new IntHashtable();
ArrayList fonts = new ArrayList();
int npages = reader.NumberOfPages;
for (int k = 1; k <= npages; ++k)
RecourseFonts(reader.GetPageN(k), hits, fonts, 1);
return fonts;
}
/**
* Gets a list of the document fonts in a particular page. Each element of the <CODE>ArrayList</CODE>
* contains a <CODE>Object[]{String,PRIndirectReference}</CODE> with the font name
* and the indirect reference to it.
* @param reader the document where the fonts are to be listed from
* @param page the page to list the fonts from
* @return the list of fonts and references
*/
public static ArrayList GetDocumentFonts(PdfReader reader, int page) {
IntHashtable hits = new IntHashtable();
ArrayList fonts = new ArrayList();
RecourseFonts(reader.GetPageN(page), hits, fonts, 1);
return fonts;
}
/**
* Gets the smallest box enclosing the character contours. It will return
* <CODE>null</CODE> if the font has not the information or the character has no
* contours, as in the case of the space, for example. Characters with no contours may
* also return [0,0,0,0].
* @param c the character to get the contour bounding box from
* @return an array of four floats with the bounding box in the format [llx,lly,urx,ury] or
* <code>null</code>
*/
public virtual int[] GetCharBBox(char c) {
byte[] b = ConvertToBytes(c);
if (b.Length == 0)
return null;
else
return charBBoxes[b[0] & 0xff];
}
protected abstract int[] GetRawCharBBox(int c, String name);
/**
* iText expects Arabic Diactrics (tashkeel) to have zero advance but some fonts,
* most notably those that come with Windows, like times.ttf, have non-zero
* advance for those characters. This method makes those character to have zero
* width advance and work correctly in the iText Arabic shaping and reordering
* context.
*/
public void CorrectArabicAdvance() {
for (char c = '\u064b'; c <= '\u0658'; ++c)
SetCharAdvance(c, 0);
SetCharAdvance('\u0670', 0);
for (char c = '\u06d6'; c <= '\u06dc'; ++c)
SetCharAdvance(c, 0);
for (char c = '\u06df'; c <= '\u06e4'; ++c)
SetCharAdvance(c, 0);
for (char c = '\u06e7'; c <= '\u06e8'; ++c)
SetCharAdvance(c, 0);
for (char c = '\u06ea'; c <= '\u06ed'; ++c)
SetCharAdvance(c, 0);
}
/**
* Adds a character range when subsetting. The range is an <CODE>int</CODE> array
* where the first element is the start range inclusive and the second element is the
* end range inclusive. Several ranges are allowed in the same array.
* @param range the character range
*/
public void AddSubsetRange(int[] range) {
if (subsetRanges == null)
subsetRanges = new ArrayList();
subsetRanges.Add(range);
}
}
}
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