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authorTimothy Pearson <kb9vqf@pearsoncomputing.net>2011-11-08 12:31:36 -0600
committerTimothy Pearson <kb9vqf@pearsoncomputing.net>2011-11-08 12:31:36 -0600
commitd796c9dd933ab96ec83b9a634feedd5d32e1ba3f (patch)
tree6e3dcca4f77e20ec8966c666aac7c35bd4704053 /src/kernel/qpsprinter.cpp
downloadtqt3-d796c9dd933ab96ec83b9a634feedd5d32e1ba3f.tar.gz
tqt3-d796c9dd933ab96ec83b9a634feedd5d32e1ba3f.zip
Test conversion to TQt3 from Qt3 8c6fc1f8e35fd264dd01c582ca5e7549b32ab731
Diffstat (limited to 'src/kernel/qpsprinter.cpp')
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1 files changed, 6582 insertions, 0 deletions
diff --git a/src/kernel/qpsprinter.cpp b/src/kernel/qpsprinter.cpp
new file mode 100644
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+/**********************************************************************
+**
+** Implementation of TQPSPrinter class
+**
+** Created : 941003
+**
+** Copyright (C) 1992-2008 Trolltech ASA. All rights reserved.
+**
+** This file is part of the kernel module of the TQt GUI Toolkit.
+**
+** This file may be used under the terms of the GNU General
+** Public License versions 2.0 or 3.0 as published by the Free
+** Software Foundation and appearing in the files LICENSE.GPL2
+** and LICENSE.GPL3 included in the packaging of this file.
+** Alternatively you may (at your option) use any later version
+** of the GNU General Public License if such license has been
+** publicly approved by Trolltech ASA (or its successors, if any)
+** and the KDE Free TQt Foundation.
+**
+** Please review the following information to ensure GNU General
+** Public Licensing retquirements will be met:
+** http://trolltech.com/products/qt/licenses/licensing/opensource/.
+** If you are unsure which license is appropriate for your use, please
+** review the following information:
+** http://trolltech.com/products/qt/licenses/licensing/licensingoverview
+** or contact the sales department at sales@trolltech.com.
+**
+** This file may be used under the terms of the Q Public License as
+** defined by Trolltech ASA and appearing in the file LICENSE.TQPL
+** included in the packaging of this file. Licensees holding valid TQt
+** Commercial licenses may use this file in accordance with the TQt
+** Commercial License Agreement provided with the Software.
+**
+** This file is provided "AS IS" with NO WARRANTY OF ANY KIND,
+** INCLUDING THE WARRANTIES OF DESIGN, MERCHANTABILITY AND FITNESS FOR
+** A PARTICULAR PURPOSE. Trolltech reserves all rights not granted
+** herein.
+**
+**********************************************************************/
+
+#include "qplatformdefs.h"
+
+// POSIX Large File Support redefines open -> open64
+#if defined(open)
+# undef open
+#endif
+
+// POSIX Large File Support redefines truncate -> truncate64
+#if defined(truncate)
+# undef truncate
+#endif
+
+#include "qpsprinter_p.h"
+
+#ifndef QT_NO_PRINTER
+
+#undef Q_PRINTER_USE_TYPE42
+
+#include "qpainter.h"
+#include "qapplication.h"
+#include "qpaintdevicemetrics.h"
+#include "qimage.h"
+#include "qdatetime.h"
+#include "qstring.h"
+#include "qdict.h"
+#include "qmemarray.h"
+#include "qfile.h"
+#include "qbuffer.h"
+#include "qintdict.h"
+#include "qtextcodec.h"
+#include "qsettings.h"
+#include "qmap.h"
+#include "qfontdatabase.h"
+#include "qregexp.h"
+#include "qbitmap.h"
+#include <private/qunicodetables_p.h>
+
+#if defined(Q_OS_WIN32)
+#include <io.h>
+#ifdef Q_PRINTER_USE_TYPE42
+#include <stdlib.h>
+#endif
+#else
+#include <unistd.h>
+#include <stdlib.h>
+#endif
+
+#ifdef Q_WS_X11
+#include "qt_x11_p.h"
+#ifdef None
+#undef None
+#endif
+#ifdef GrayScale
+#undef GrayScale
+#endif
+#endif
+
+#if defined( Q_WS_X11 ) || defined (Q_WS_QWS)
+#include "qfontdata_p.h"
+#include "qfontengine_p.h"
+#include "qtextlayout_p.h"
+#include "qtextengine_p.h"
+extern bool qt_has_xft;
+#endif
+
+static bool qt_gen_epsf = FALSE;
+static bool embedFonts = TRUE;
+
+Q_EXPORT void qt_generate_epsf( bool b )
+{
+ qt_gen_epsf = b;
+}
+
+static const char *const ps_header =
+"/d/def load def/D{bind d}bind d/d2{dup dup}D/B{0 d2}D/W{255 d2}D/ED{exch d}D\n"
+"/D0{0 ED}D/LT{lineto}D/MT{moveto}D/S{stroke}D/F{setfont}D/SW{setlinewidth}D\n"
+"/CP{closepath}D/RL{rlineto}D/NP{newpath}D/CM{currentmatrix}D/SM{setmatrix}D\n"
+"/TR{translate}D/SD{setdash}D/SC{aload pop setrgbcolor}D/CR{currentfile read\n"
+"pop}D/i{index}D/bs{bitshift}D/scs{setcolorspace}D/DB{dict dup begin}D/DE{end\n"
+"d}D/ie{ifelse}D/sp{astore pop}D/BSt 0 d/LWi 1 d/PSt 1 d/Cx 0 d/Cy 0 d/WFi\n"
+"false d/OMo false d/BCol[1 1 1]d/PCol[0 0 0]d/BkCol[1 1 1]d/BDArr[0.94 0.88\n"
+"0.63 0.50 0.37 0.12 0.06]d/defM matrix d/nS 0 d/GPS{PSt 1 ge PSt 5 le and{{\n"
+"LArr PSt 1 sub 2 mul get}{LArr PSt 2 mul 1 sub get}ie}{[]}ie}D/QS{PSt 0 ne{\n"
+"gsave LWi SW true GPS 0 SD S OMo PSt 1 ne and{BkCol SC false GPS dup 0 get\n"
+"SD S}if grestore}if}D/r28{{CR dup 32 gt{exit}if pop}loop 3{CR}repeat 0 4{7\n"
+"bs exch dup 128 gt{84 sub}if 42 sub 127 and add}repeat}D/rA 0 d/rL 0 d/rB{rL\n"
+"0 eq{/rA r28 d/rL 28 d}if dup rL gt{rA exch rL sub rL exch/rA 0 d/rL 0 d rB\n"
+"exch bs add}{dup rA 16#fffffff 3 -1 roll bs not and exch dup rL exch sub/rL\n"
+"ED neg rA exch bs/rA ED}ie}D/uc{/rL 0 d 0{dup 2 i length ge{exit}if 1 rB 1\n"
+"eq{3 rB dup 3 ge{1 add dup rB 1 i 5 ge{1 i 6 ge{1 i 7 ge{1 i 8 ge{128 add}if\n"
+"64 add}if 32 add}if 16 add}if 3 add exch pop}if 3 add exch 10 rB 1 add{dup 3\n"
+"i lt{dup}{2 i}ie 4 i 3 i 3 i sub 2 i getinterval 5 i 4 i 3 -1 roll\n"
+"putinterval dup 4 -1 roll add 3 1 roll 4 -1 roll exch sub dup 0 eq{exit}if 3\n"
+"1 roll}loop pop pop}{3 rB 1 add{2 copy 8 rB put 1 add}repeat}ie}loop pop}D\n"
+"/sl D0/TQCIgray D0/TQCIcolor D0/TQCIindex D0/TQCI{/colorimage where{pop false 3\n"
+"colorimage}{exec/TQCIcolor ED/TQCIgray TQCIcolor length 3 idiv string d 0 1\n"
+"TQCIcolor length 3 idiv 1 sub{/TQCIindex ED/x TQCIindex 3 mul d TQCIgray\n"
+"TQCIindex TQCIcolor x get 0.30 mul TQCIcolor x 1 add get 0.59 mul TQCIcolor x 2\n"
+"add get 0.11 mul add add cvi put}for TQCIgray image}ie}D/di{gsave TR 1 i 1 eq\n"
+"{false eq{pop true 3 1 roll 4 i 4 i false 4 i 4 i imagemask BkCol SC\n"
+"imagemask}{pop false 3 1 roll imagemask}ie}{dup false ne{/languagelevel\n"
+"where{pop languagelevel 3 ge}{false}ie}{false}ie{/ma ED 8 eq{/dc[0 1]d\n"
+"/DeviceGray}{/dc[0 1 0 1 0 1]d/DeviceRGB}ie scs/im ED/mt ED/h ED/w ED/id 7\n"
+"DB/ImageType 1 d/Width w d/Height h d/ImageMatrix mt d/DataSource im d\n"
+"/BitsPerComponent 8 d/Decode dc d DE/md 7 DB/ImageType 1 d/Width w d/Height\n"
+"h d/ImageMatrix mt d/DataSource ma d/BitsPerComponent 1 d/Decode[0 1]d DE 4\n"
+"DB/ImageType 3 d/DataDict id d/MaskDict md d/InterleaveType 3 d end image}{\n"
+"pop 8 4 1 roll 8 eq{image}{TQCI}ie}ie}ie grestore}d/BF{gsave BSt 1 eq{BCol SC\n"
+"WFi{fill}{eofill}ie}if BSt 2 ge BSt 8 le and{BDArr BSt 2 sub get/sc ED BCol{\n"
+"1. exch sub sc mul 1. exch sub}forall 3 array astore SC WFi{fill}{eofill}ie}\n"
+"if BSt 9 ge BSt 14 le and{WFi{clip}{eoclip}ie defM SM pathbbox 3 i 3 i TR 4\n"
+"2 roll 3 2 roll exch sub/h ED sub/w ED OMo{NP 0 0 MT 0 h RL w 0 RL 0 h neg\n"
+"RL CP BkCol SC fill}if BCol SC 0.3 SW NP BSt 9 eq BSt 11 eq or{0 4 h{dup 0\n"
+"exch MT w exch LT}for}if BSt 10 eq BSt 11 eq or{0 4 w{dup 0 MT h LT}for}if\n"
+"BSt 12 eq BSt 14 eq or{w h gt{0 6 w h add{dup 0 MT h sub h LT}for}{0 6 w h\n"
+"add{dup 0 exch MT w sub w exch LT}for}ie}if BSt 13 eq BSt 14 eq or{w h gt{0\n"
+"6 w h add{dup h MT h sub 0 LT}for}{0 6 w h add{dup w exch MT w sub 0 exch LT\n"
+"}for}ie}if S}if BSt 24 eq{}if grestore}D/mat matrix d/ang1 D0/ang2 D0/w D0/h\n"
+"D0/x D0/y D0/ARC{/ang2 ED/ang1 ED/h ED/w ED/y ED/x ED mat CM pop x w 2 div\n"
+"add y h 2 div add TR 1 h w div neg scale ang2 0 ge{0 0 w 2 div ang1 ang1\n"
+"ang2 add arc}{0 0 w 2 div ang1 ang1 ang2 add arcn}ie mat SM}D/C D0/P{NP MT\n"
+"0.5 0.5 rmoveto 0 -1 RL -1 0 RL 0 1 RL CP fill}D/M{/Cy ED/Cx ED}D/L{NP Cx Cy\n"
+"MT/Cy ED/Cx ED Cx Cy LT QS}D/DL{NP MT LT QS}D/HL{1 i DL}D/VL{2 i exch DL}D/R\n"
+"{/h ED/w ED/y ED/x ED NP x y MT 0 h RL w 0 RL 0 h neg RL CP BF QS}D/ACR{/h\n"
+"ED/w ED/y ED/x ED x y MT 0 h RL w 0 RL 0 h neg RL CP}D/xr D0/yr D0/rx D0/ry\n"
+"D0/rx2 D0/ry2 D0/RR{/yr ED/xr ED/h ED/w ED/y ED/x ED xr 0 le yr 0 le or{x y\n"
+"w h R}{xr 100 ge yr 100 ge or{x y w h E}{/rx xr w mul 200 div d/ry yr h mul\n"
+"200 div d/rx2 rx 2 mul d/ry2 ry 2 mul d NP x rx add y MT x y rx2 ry2 180 -90\n"
+"x y h add ry2 sub rx2 ry2 270 -90 x w add rx2 sub y h add ry2 sub rx2 ry2 0\n"
+"-90 x w add rx2 sub y rx2 ry2 90 -90 ARC ARC ARC ARC CP BF QS}ie}ie}D/E{/h\n"
+"ED/w ED/y ED/x ED mat CM pop x w 2 div add y h 2 div add TR 1 h w div scale\n"
+"NP 0 0 w 2 div 0 360 arc mat SM BF QS}D/A{16 div exch 16 div exch NP ARC QS}\n"
+"D/PIE{/ang2 ED/ang1 ED/h ED/w ED/y ED/x ED NP x w 2 div add y h 2 div add MT\n"
+"x y w h ang1 16 div ang2 16 div ARC CP BF QS}D/CH{16 div exch 16 div exch NP\n"
+"ARC CP BF QS}D/BZ{curveto QS}D/CRGB{255 div 3 1 roll 255 div 3 1 roll 255\n"
+"div 3 1 roll}D/BC{CRGB BkCol sp}D/BR{CRGB BCol sp/BSt ED}D/WB{1 W BR}D/NB{0\n"
+"B BR}D/PE{setlinejoin setlinecap CRGB PCol sp/LWi ED/PSt ED LWi 0 eq{0.25\n"
+"/LWi ED}if PCol SC}D/P1{1 0 5 2 roll 0 0 PE}D/ST{defM SM concat}D/MF{true\n"
+"exch true exch{exch pop exch pop dup 0 get dup findfont dup/FontName get 3\n"
+"-1 roll eq{exit}if}forall exch dup 1 get/fxscale ED 2 get/fslant ED exch\n"
+"/fencoding ED[fxscale 0 fslant 1 0 0]makefont fencoding false eq{}{dup\n"
+"maxlength dict begin{1 i/FID ne{def}{pop pop}ifelse}forall/Encoding\n"
+"fencoding d currentdict end}ie definefont pop}D/MFEmb{findfont dup length\n"
+"dict begin{1 i/FID ne{d}{pop pop}ifelse}forall/Encoding ED currentdict end\n"
+"definefont pop}D/DF{findfont/fs 3 -1 roll d[fs 0 0 fs -1 mul 0 0]makefont d}\n"
+"D/ty 0 d/Y{/ty ED}D/Tl{gsave SW NP 1 i exch MT 1 i 0 RL S grestore}D/XYT{ty\n"
+"MT/xyshow where{pop pop xyshow}{exch pop 1 i dup length 2 div exch\n"
+"stringwidth pop 3 -1 roll exch sub exch div exch 0 exch ashow}ie}D/AT{ty MT\n"
+"1 i dup length 2 div exch stringwidth pop 3 -1 roll exch sub exch div exch 0\n"
+"exch ashow}D/QI{/C save d pageinit/Cx 0 d/Cy 0 d/OMo false d}D/QP{C restore\n"
+"showpage}D/SPD{/setpagedevice where{1 DB 3 1 roll d end setpagedevice}{pop\n"
+"pop}ie}D/SV{BSt LWi PSt Cx Cy WFi OMo BCol PCol BkCol/nS nS 1 add d gsave}D\n"
+"/RS{nS 0 gt{grestore/BkCol ED/PCol ED/BCol ED/OMo ED/WFi ED/Cy ED/Cx ED/PSt\n"
+"ED/LWi ED/BSt ED/nS nS 1 sub d}if}D/CLSTART{/clipTmp matrix CM d defM SM NP}\n"
+"D/CLEND{clip NP clipTmp SM}D/CLO{grestore gsave defM SM}D\n";
+
+// the next table is derived from a list provided by Adobe on its web
+// server: http://partners.adobe.com/asn/developer/typeforum/glyphlist.txt
+
+// the start of the header comment:
+//
+// Name: Adobe Glyph List
+// Table version: 1.2
+// Date: 22 Oct 1998
+//
+// Description:
+//
+// The Adobe Glyph List (AGL) list relates Unicode values (UVs) to glyph
+// names, and should be used only as described in the document "Unicode and
+// Glyph Names," at
+// http://partners.adobe.com:80/asn/developer/type/unicodegn.html
+//
+// IMPORTANT NOTE:
+// the list contains glyphs in the private use area of unicode. These should get removed when regenerating the glyphlist.
+// also 0 shout be mapped to .notdef
+static const struct {
+ Q_UINT16 u;
+ const char * g;
+} unicodetoglyph[] = {
+ // grep '^[0-9A-F][0-9A-F][0-9A-F][0-9A-F];' < /tmp/glyphlist.txt | sed -e 's/;/, "/' -e 's-;-" }, // -' -e 's/^/ { 0x/' | sort
+ { 0x0000, ".notdef" },
+ { 0x0020, "space" }, // SPACE
+ { 0x0021, "exclam" }, // EXCLAMATION MARK
+ { 0x0022, "quotedbl" }, // TQUOTATION MARK
+ { 0x0023, "numbersign" }, // NUMBER SIGN
+ { 0x0024, "dollar" }, // DOLLAR SIGN
+ { 0x0025, "percent" }, // PERCENT SIGN
+ { 0x0026, "ampersand" }, // AMPERSAND
+ { 0x0027, "quotesingle" }, // APOSTROPHE
+ { 0x0028, "parenleft" }, // LEFT PARENTHESIS
+ { 0x0029, "parenright" }, // RIGHT PARENTHESIS
+ { 0x002A, "asterisk" }, // ASTERISK
+ { 0x002B, "plus" }, // PLUS SIGN
+ { 0x002C, "comma" }, // COMMA
+ { 0x002D, "hyphen" }, // HYPHEN-MINUS
+ { 0x002E, "period" }, // FULL STOP
+ { 0x002F, "slash" }, // SOLIDUS
+ { 0x0030, "zero" }, // DIGIT ZERO
+ { 0x0031, "one" }, // DIGIT ONE
+ { 0x0032, "two" }, // DIGIT TWO
+ { 0x0033, "three" }, // DIGIT THREE
+ { 0x0034, "four" }, // DIGIT FOUR
+ { 0x0035, "five" }, // DIGIT FIVE
+ { 0x0036, "six" }, // DIGIT SIX
+ { 0x0037, "seven" }, // DIGIT SEVEN
+ { 0x0038, "eight" }, // DIGIT EIGHT
+ { 0x0039, "nine" }, // DIGIT NINE
+ { 0x003A, "colon" }, // COLON
+ { 0x003B, "semicolon" }, // SEMICOLON
+ { 0x003C, "less" }, // LESS-THAN SIGN
+ { 0x003D, "equal" }, // ETQUALS SIGN
+ { 0x003E, "greater" }, // GREATER-THAN SIGN
+ { 0x003F, "question" }, // TQUESTION MARK
+ { 0x0040, "at" }, // COMMERCIAL AT
+ { 0x0041, "A" }, // LATIN CAPITAL LETTER A
+ { 0x0042, "B" }, // LATIN CAPITAL LETTER B
+ { 0x0043, "C" }, // LATIN CAPITAL LETTER C
+ { 0x0044, "D" }, // LATIN CAPITAL LETTER D
+ { 0x0045, "E" }, // LATIN CAPITAL LETTER E
+ { 0x0046, "F" }, // LATIN CAPITAL LETTER F
+ { 0x0047, "G" }, // LATIN CAPITAL LETTER G
+ { 0x0048, "H" }, // LATIN CAPITAL LETTER H
+ { 0x0049, "I" }, // LATIN CAPITAL LETTER I
+ { 0x004A, "J" }, // LATIN CAPITAL LETTER J
+ { 0x004B, "K" }, // LATIN CAPITAL LETTER K
+ { 0x004C, "L" }, // LATIN CAPITAL LETTER L
+ { 0x004D, "M" }, // LATIN CAPITAL LETTER M
+ { 0x004E, "N" }, // LATIN CAPITAL LETTER N
+ { 0x004F, "O" }, // LATIN CAPITAL LETTER O
+ { 0x0050, "P" }, // LATIN CAPITAL LETTER P
+ { 0x0051, "Q" }, // LATIN CAPITAL LETTER Q
+ { 0x0052, "R" }, // LATIN CAPITAL LETTER R
+ { 0x0053, "S" }, // LATIN CAPITAL LETTER S
+ { 0x0054, "T" }, // LATIN CAPITAL LETTER T
+ { 0x0055, "U" }, // LATIN CAPITAL LETTER U
+ { 0x0056, "V" }, // LATIN CAPITAL LETTER V
+ { 0x0057, "W" }, // LATIN CAPITAL LETTER W
+ { 0x0058, "X" }, // LATIN CAPITAL LETTER X
+ { 0x0059, "Y" }, // LATIN CAPITAL LETTER Y
+ { 0x005A, "Z" }, // LATIN CAPITAL LETTER Z
+ { 0x005B, "bracketleft" }, // LEFT STQUARE BRACKET
+ { 0x005C, "backslash" }, // REVERSE SOLIDUS
+ { 0x005D, "bracketright" }, // RIGHT STQUARE BRACKET
+ { 0x005E, "asciicircum" }, // CIRCUMFLEX ACCENT
+ { 0x005F, "underscore" }, // LOW LINE
+ { 0x0060, "grave" }, // GRAVE ACCENT
+ { 0x0061, "a" }, // LATIN SMALL LETTER A
+ { 0x0062, "b" }, // LATIN SMALL LETTER B
+ { 0x0063, "c" }, // LATIN SMALL LETTER C
+ { 0x0064, "d" }, // LATIN SMALL LETTER D
+ { 0x0065, "e" }, // LATIN SMALL LETTER E
+ { 0x0066, "f" }, // LATIN SMALL LETTER F
+ { 0x0067, "g" }, // LATIN SMALL LETTER G
+ { 0x0068, "h" }, // LATIN SMALL LETTER H
+ { 0x0069, "i" }, // LATIN SMALL LETTER I
+ { 0x006A, "j" }, // LATIN SMALL LETTER J
+ { 0x006B, "k" }, // LATIN SMALL LETTER K
+ { 0x006C, "l" }, // LATIN SMALL LETTER L
+ { 0x006D, "m" }, // LATIN SMALL LETTER M
+ { 0x006E, "n" }, // LATIN SMALL LETTER N
+ { 0x006F, "o" }, // LATIN SMALL LETTER O
+ { 0x0070, "p" }, // LATIN SMALL LETTER P
+ { 0x0071, "q" }, // LATIN SMALL LETTER Q
+ { 0x0072, "r" }, // LATIN SMALL LETTER R
+ { 0x0073, "s" }, // LATIN SMALL LETTER S
+ { 0x0074, "t" }, // LATIN SMALL LETTER T
+ { 0x0075, "u" }, // LATIN SMALL LETTER U
+ { 0x0076, "v" }, // LATIN SMALL LETTER V
+ { 0x0077, "w" }, // LATIN SMALL LETTER W
+ { 0x0078, "x" }, // LATIN SMALL LETTER X
+ { 0x0079, "y" }, // LATIN SMALL LETTER Y
+ { 0x007A, "z" }, // LATIN SMALL LETTER Z
+ { 0x007B, "braceleft" }, // LEFT CURLY BRACKET
+ { 0x007C, "bar" }, // VERTICAL LINE
+ { 0x007D, "braceright" }, // RIGHT CURLY BRACKET
+ { 0x007E, "asciitilde" }, // TILDE
+ { 0x00A0, "space" }, // NO-BREAK SPACE;Duplicate
+ { 0x00A1, "exclamdown" }, // INVERTED EXCLAMATION MARK
+ { 0x00A2, "cent" }, // CENT SIGN
+ { 0x00A3, "sterling" }, // POUND SIGN
+ { 0x00A4, "currency" }, // CURRENCY SIGN
+ { 0x00A5, "yen" }, // YEN SIGN
+ { 0x00A6, "brokenbar" }, // BROKEN BAR
+ { 0x00A7, "section" }, // SECTION SIGN
+ { 0x00A8, "dieresis" }, // DIAERESIS
+ { 0x00A9, "copyright" }, // COPYRIGHT SIGN
+ { 0x00AA, "ordfeminine" }, // FEMININE ORDINAL INDICATOR
+ { 0x00AB, "guillemotleft" }, // LEFT-POINTING DOUBLE ANGLE TQUOTATION MARK
+ { 0x00AC, "logicalnot" }, // NOT SIGN
+ { 0x00AD, "hyphen" }, // SOFT HYPHEN;Duplicate
+ { 0x00AE, "registered" }, // REGISTERED SIGN
+ { 0x00AF, "macron" }, // MACRON
+ { 0x00B0, "degree" }, // DEGREE SIGN
+ { 0x00B1, "plusminus" }, // PLUS-MINUS SIGN
+ { 0x00B2, "twosuperior" }, // SUPERSCRIPT TWO
+ { 0x00B3, "threesuperior" }, // SUPERSCRIPT THREE
+ { 0x00B4, "acute" }, // ACUTE ACCENT
+ { 0x00B5, "mu" }, // MICRO SIGN
+ { 0x00B6, "paragraph" }, // PILCROW SIGN
+ { 0x00B7, "periodcentered" }, // MIDDLE DOT
+ { 0x00B8, "cedilla" }, // CEDILLA
+ { 0x00B9, "onesuperior" }, // SUPERSCRIPT ONE
+ { 0x00BA, "ordmasculine" }, // MASCULINE ORDINAL INDICATOR
+ { 0x00BB, "guillemotright" }, // RIGHT-POINTING DOUBLE ANGLE TQUOTATION MARK
+ { 0x00BC, "onequarter" }, // VULGAR FRACTION ONE TQUARTER
+ { 0x00BD, "onehalf" }, // VULGAR FRACTION ONE HALF
+ { 0x00BE, "threequarters" }, // VULGAR FRACTION THREE TQUARTERS
+ { 0x00BF, "questiondown" }, // INVERTED TQUESTION MARK
+ { 0x00C0, "Agrave" }, // LATIN CAPITAL LETTER A WITH GRAVE
+ { 0x00C1, "Aacute" }, // LATIN CAPITAL LETTER A WITH ACUTE
+ { 0x00C2, "Acircumflex" }, // LATIN CAPITAL LETTER A WITH CIRCUMFLEX
+ { 0x00C3, "Atilde" }, // LATIN CAPITAL LETTER A WITH TILDE
+ { 0x00C4, "Adieresis" }, // LATIN CAPITAL LETTER A WITH DIAERESIS
+ { 0x00C5, "Aring" }, // LATIN CAPITAL LETTER A WITH RING ABOVE
+ { 0x00C6, "AE" }, // LATIN CAPITAL LETTER AE
+ { 0x00C7, "Ccedilla" }, // LATIN CAPITAL LETTER C WITH CEDILLA
+ { 0x00C8, "Egrave" }, // LATIN CAPITAL LETTER E WITH GRAVE
+ { 0x00C9, "Eacute" }, // LATIN CAPITAL LETTER E WITH ACUTE
+ { 0x00CA, "Ecircumflex" }, // LATIN CAPITAL LETTER E WITH CIRCUMFLEX
+ { 0x00CB, "Edieresis" }, // LATIN CAPITAL LETTER E WITH DIAERESIS
+ { 0x00CC, "Igrave" }, // LATIN CAPITAL LETTER I WITH GRAVE
+ { 0x00CD, "Iacute" }, // LATIN CAPITAL LETTER I WITH ACUTE
+ { 0x00CE, "Icircumflex" }, // LATIN CAPITAL LETTER I WITH CIRCUMFLEX
+ { 0x00CF, "Idieresis" }, // LATIN CAPITAL LETTER I WITH DIAERESIS
+ { 0x00D0, "Eth" }, // LATIN CAPITAL LETTER ETH
+ { 0x00D1, "Ntilde" }, // LATIN CAPITAL LETTER N WITH TILDE
+ { 0x00D2, "Ograve" }, // LATIN CAPITAL LETTER O WITH GRAVE
+ { 0x00D3, "Oacute" }, // LATIN CAPITAL LETTER O WITH ACUTE
+ { 0x00D4, "Ocircumflex" }, // LATIN CAPITAL LETTER O WITH CIRCUMFLEX
+ { 0x00D5, "Otilde" }, // LATIN CAPITAL LETTER O WITH TILDE
+ { 0x00D6, "Odieresis" }, // LATIN CAPITAL LETTER O WITH DIAERESIS
+ { 0x00D7, "multiply" }, // MULTIPLICATION SIGN
+ { 0x00D8, "Oslash" }, // LATIN CAPITAL LETTER O WITH STROKE
+ { 0x00D9, "Ugrave" }, // LATIN CAPITAL LETTER U WITH GRAVE
+ { 0x00DA, "Uacute" }, // LATIN CAPITAL LETTER U WITH ACUTE
+ { 0x00DB, "Ucircumflex" }, // LATIN CAPITAL LETTER U WITH CIRCUMFLEX
+ { 0x00DC, "Udieresis" }, // LATIN CAPITAL LETTER U WITH DIAERESIS
+ { 0x00DD, "Yacute" }, // LATIN CAPITAL LETTER Y WITH ACUTE
+ { 0x00DE, "Thorn" }, // LATIN CAPITAL LETTER THORN
+ { 0x00DF, "germandbls" }, // LATIN SMALL LETTER SHARP S
+ { 0x00E0, "agrave" }, // LATIN SMALL LETTER A WITH GRAVE
+ { 0x00E1, "aacute" }, // LATIN SMALL LETTER A WITH ACUTE
+ { 0x00E2, "acircumflex" }, // LATIN SMALL LETTER A WITH CIRCUMFLEX
+ { 0x00E3, "atilde" }, // LATIN SMALL LETTER A WITH TILDE
+ { 0x00E4, "adieresis" }, // LATIN SMALL LETTER A WITH DIAERESIS
+ { 0x00E5, "aring" }, // LATIN SMALL LETTER A WITH RING ABOVE
+ { 0x00E6, "ae" }, // LATIN SMALL LETTER AE
+ { 0x00E7, "ccedilla" }, // LATIN SMALL LETTER C WITH CEDILLA
+ { 0x00E8, "egrave" }, // LATIN SMALL LETTER E WITH GRAVE
+ { 0x00E9, "eacute" }, // LATIN SMALL LETTER E WITH ACUTE
+ { 0x00EA, "ecircumflex" }, // LATIN SMALL LETTER E WITH CIRCUMFLEX
+ { 0x00EB, "edieresis" }, // LATIN SMALL LETTER E WITH DIAERESIS
+ { 0x00EC, "igrave" }, // LATIN SMALL LETTER I WITH GRAVE
+ { 0x00ED, "iacute" }, // LATIN SMALL LETTER I WITH ACUTE
+ { 0x00EE, "icircumflex" }, // LATIN SMALL LETTER I WITH CIRCUMFLEX
+ { 0x00EF, "idieresis" }, // LATIN SMALL LETTER I WITH DIAERESIS
+ { 0x00F0, "eth" }, // LATIN SMALL LETTER ETH
+ { 0x00F1, "ntilde" }, // LATIN SMALL LETTER N WITH TILDE
+ { 0x00F2, "ograve" }, // LATIN SMALL LETTER O WITH GRAVE
+ { 0x00F3, "oacute" }, // LATIN SMALL LETTER O WITH ACUTE
+ { 0x00F4, "ocircumflex" }, // LATIN SMALL LETTER O WITH CIRCUMFLEX
+ { 0x00F5, "otilde" }, // LATIN SMALL LETTER O WITH TILDE
+ { 0x00F6, "odieresis" }, // LATIN SMALL LETTER O WITH DIAERESIS
+ { 0x00F7, "divide" }, // DIVISION SIGN
+ { 0x00F8, "oslash" }, // LATIN SMALL LETTER O WITH STROKE
+ { 0x00F9, "ugrave" }, // LATIN SMALL LETTER U WITH GRAVE
+ { 0x00FA, "uacute" }, // LATIN SMALL LETTER U WITH ACUTE
+ { 0x00FB, "ucircumflex" }, // LATIN SMALL LETTER U WITH CIRCUMFLEX
+ { 0x00FC, "udieresis" }, // LATIN SMALL LETTER U WITH DIAERESIS
+ { 0x00FD, "yacute" }, // LATIN SMALL LETTER Y WITH ACUTE
+ { 0x00FE, "thorn" }, // LATIN SMALL LETTER THORN
+ { 0x00FF, "ydieresis" }, // LATIN SMALL LETTER Y WITH DIAERESIS
+ { 0x0100, "Amacron" }, // LATIN CAPITAL LETTER A WITH MACRON
+ { 0x0101, "amacron" }, // LATIN SMALL LETTER A WITH MACRON
+ { 0x0102, "Abreve" }, // LATIN CAPITAL LETTER A WITH BREVE
+ { 0x0103, "abreve" }, // LATIN SMALL LETTER A WITH BREVE
+ { 0x0104, "Aogonek" }, // LATIN CAPITAL LETTER A WITH OGONEK
+ { 0x0105, "aogonek" }, // LATIN SMALL LETTER A WITH OGONEK
+ { 0x0106, "Cacute" }, // LATIN CAPITAL LETTER C WITH ACUTE
+ { 0x0107, "cacute" }, // LATIN SMALL LETTER C WITH ACUTE
+ { 0x0108, "Ccircumflex" }, // LATIN CAPITAL LETTER C WITH CIRCUMFLEX
+ { 0x0109, "ccircumflex" }, // LATIN SMALL LETTER C WITH CIRCUMFLEX
+ { 0x010A, "Cdotaccent" }, // LATIN CAPITAL LETTER C WITH DOT ABOVE
+ { 0x010B, "cdotaccent" }, // LATIN SMALL LETTER C WITH DOT ABOVE
+ { 0x010C, "Ccaron" }, // LATIN CAPITAL LETTER C WITH CARON
+ { 0x010D, "ccaron" }, // LATIN SMALL LETTER C WITH CARON
+ { 0x010E, "Dcaron" }, // LATIN CAPITAL LETTER D WITH CARON
+ { 0x010F, "dcaron" }, // LATIN SMALL LETTER D WITH CARON
+ { 0x0110, "Dcroat" }, // LATIN CAPITAL LETTER D WITH STROKE
+ { 0x0111, "dcroat" }, // LATIN SMALL LETTER D WITH STROKE
+ { 0x0112, "Emacron" }, // LATIN CAPITAL LETTER E WITH MACRON
+ { 0x0113, "emacron" }, // LATIN SMALL LETTER E WITH MACRON
+ { 0x0114, "Ebreve" }, // LATIN CAPITAL LETTER E WITH BREVE
+ { 0x0115, "ebreve" }, // LATIN SMALL LETTER E WITH BREVE
+ { 0x0116, "Edotaccent" }, // LATIN CAPITAL LETTER E WITH DOT ABOVE
+ { 0x0117, "edotaccent" }, // LATIN SMALL LETTER E WITH DOT ABOVE
+ { 0x0118, "Eogonek" }, // LATIN CAPITAL LETTER E WITH OGONEK
+ { 0x0119, "eogonek" }, // LATIN SMALL LETTER E WITH OGONEK
+ { 0x011A, "Ecaron" }, // LATIN CAPITAL LETTER E WITH CARON
+ { 0x011B, "ecaron" }, // LATIN SMALL LETTER E WITH CARON
+ { 0x011C, "Gcircumflex" }, // LATIN CAPITAL LETTER G WITH CIRCUMFLEX
+ { 0x011D, "gcircumflex" }, // LATIN SMALL LETTER G WITH CIRCUMFLEX
+ { 0x011E, "Gbreve" }, // LATIN CAPITAL LETTER G WITH BREVE
+ { 0x011F, "gbreve" }, // LATIN SMALL LETTER G WITH BREVE
+ { 0x0120, "Gdotaccent" }, // LATIN CAPITAL LETTER G WITH DOT ABOVE
+ { 0x0121, "gdotaccent" }, // LATIN SMALL LETTER G WITH DOT ABOVE
+ { 0x0122, "Gcommaaccent" }, // LATIN CAPITAL LETTER G WITH CEDILLA
+ { 0x0123, "gcommaaccent" }, // LATIN SMALL LETTER G WITH CEDILLA
+ { 0x0124, "Hcircumflex" }, // LATIN CAPITAL LETTER H WITH CIRCUMFLEX
+ { 0x0125, "hcircumflex" }, // LATIN SMALL LETTER H WITH CIRCUMFLEX
+ { 0x0126, "Hbar" }, // LATIN CAPITAL LETTER H WITH STROKE
+ { 0x0127, "hbar" }, // LATIN SMALL LETTER H WITH STROKE
+ { 0x0128, "Itilde" }, // LATIN CAPITAL LETTER I WITH TILDE
+ { 0x0129, "itilde" }, // LATIN SMALL LETTER I WITH TILDE
+ { 0x012A, "Imacron" }, // LATIN CAPITAL LETTER I WITH MACRON
+ { 0x012B, "imacron" }, // LATIN SMALL LETTER I WITH MACRON
+ { 0x012C, "Ibreve" }, // LATIN CAPITAL LETTER I WITH BREVE
+ { 0x012D, "ibreve" }, // LATIN SMALL LETTER I WITH BREVE
+ { 0x012E, "Iogonek" }, // LATIN CAPITAL LETTER I WITH OGONEK
+ { 0x012F, "iogonek" }, // LATIN SMALL LETTER I WITH OGONEK
+ { 0x0130, "Idotaccent" }, // LATIN CAPITAL LETTER I WITH DOT ABOVE
+ { 0x0131, "dotlessi" }, // LATIN SMALL LETTER DOTLESS I
+ { 0x0132, "IJ" }, // LATIN CAPITAL LIGATURE IJ
+ { 0x0133, "ij" }, // LATIN SMALL LIGATURE IJ
+ { 0x0134, "Jcircumflex" }, // LATIN CAPITAL LETTER J WITH CIRCUMFLEX
+ { 0x0135, "jcircumflex" }, // LATIN SMALL LETTER J WITH CIRCUMFLEX
+ { 0x0136, "Kcommaaccent" }, // LATIN CAPITAL LETTER K WITH CEDILLA
+ { 0x0137, "kcommaaccent" }, // LATIN SMALL LETTER K WITH CEDILLA
+ { 0x0138, "kgreenlandic" }, // LATIN SMALL LETTER KRA
+ { 0x0139, "Lacute" }, // LATIN CAPITAL LETTER L WITH ACUTE
+ { 0x013A, "lacute" }, // LATIN SMALL LETTER L WITH ACUTE
+ { 0x013B, "Lcommaaccent" }, // LATIN CAPITAL LETTER L WITH CEDILLA
+ { 0x013C, "lcommaaccent" }, // LATIN SMALL LETTER L WITH CEDILLA
+ { 0x013D, "Lcaron" }, // LATIN CAPITAL LETTER L WITH CARON
+ { 0x013E, "lcaron" }, // LATIN SMALL LETTER L WITH CARON
+ { 0x013F, "Ldot" }, // LATIN CAPITAL LETTER L WITH MIDDLE DOT
+ { 0x0140, "ldot" }, // LATIN SMALL LETTER L WITH MIDDLE DOT
+ { 0x0141, "Lslash" }, // LATIN CAPITAL LETTER L WITH STROKE
+ { 0x0142, "lslash" }, // LATIN SMALL LETTER L WITH STROKE
+ { 0x0143, "Nacute" }, // LATIN CAPITAL LETTER N WITH ACUTE
+ { 0x0144, "nacute" }, // LATIN SMALL LETTER N WITH ACUTE
+ { 0x0145, "Ncommaaccent" }, // LATIN CAPITAL LETTER N WITH CEDILLA
+ { 0x0146, "ncommaaccent" }, // LATIN SMALL LETTER N WITH CEDILLA
+ { 0x0147, "Ncaron" }, // LATIN CAPITAL LETTER N WITH CARON
+ { 0x0148, "ncaron" }, // LATIN SMALL LETTER N WITH CARON
+ { 0x0149, "napostrophe" }, // LATIN SMALL LETTER N PRECEDED BY APOSTROPHE
+ { 0x014A, "Eng" }, // LATIN CAPITAL LETTER ENG
+ { 0x014B, "eng" }, // LATIN SMALL LETTER ENG
+ { 0x014C, "Omacron" }, // LATIN CAPITAL LETTER O WITH MACRON
+ { 0x014D, "omacron" }, // LATIN SMALL LETTER O WITH MACRON
+ { 0x014E, "Obreve" }, // LATIN CAPITAL LETTER O WITH BREVE
+ { 0x014F, "obreve" }, // LATIN SMALL LETTER O WITH BREVE
+ { 0x0150, "Ohungarumlaut" }, // LATIN CAPITAL LETTER O WITH DOUBLE ACUTE
+ { 0x0151, "ohungarumlaut" }, // LATIN SMALL LETTER O WITH DOUBLE ACUTE
+ { 0x0152, "OE" }, // LATIN CAPITAL LIGATURE OE
+ { 0x0153, "oe" }, // LATIN SMALL LIGATURE OE
+ { 0x0154, "Racute" }, // LATIN CAPITAL LETTER R WITH ACUTE
+ { 0x0155, "racute" }, // LATIN SMALL LETTER R WITH ACUTE
+ { 0x0156, "Rcommaaccent" }, // LATIN CAPITAL LETTER R WITH CEDILLA
+ { 0x0157, "rcommaaccent" }, // LATIN SMALL LETTER R WITH CEDILLA
+ { 0x0158, "Rcaron" }, // LATIN CAPITAL LETTER R WITH CARON
+ { 0x0159, "rcaron" }, // LATIN SMALL LETTER R WITH CARON
+ { 0x015A, "Sacute" }, // LATIN CAPITAL LETTER S WITH ACUTE
+ { 0x015B, "sacute" }, // LATIN SMALL LETTER S WITH ACUTE
+ { 0x015C, "Scircumflex" }, // LATIN CAPITAL LETTER S WITH CIRCUMFLEX
+ { 0x015D, "scircumflex" }, // LATIN SMALL LETTER S WITH CIRCUMFLEX
+ { 0x015E, "Scedilla" }, // LATIN CAPITAL LETTER S WITH CEDILLA
+ { 0x015F, "scedilla" }, // LATIN SMALL LETTER S WITH CEDILLA
+ { 0x0160, "Scaron" }, // LATIN CAPITAL LETTER S WITH CARON
+ { 0x0161, "scaron" }, // LATIN SMALL LETTER S WITH CARON
+ { 0x0162, "Tcommaaccent" }, // LATIN CAPITAL LETTER T WITH CEDILLA
+ { 0x0163, "tcommaaccent" }, // LATIN SMALL LETTER T WITH CEDILLA
+ { 0x0164, "Tcaron" }, // LATIN CAPITAL LETTER T WITH CARON
+ { 0x0165, "tcaron" }, // LATIN SMALL LETTER T WITH CARON
+ { 0x0166, "Tbar" }, // LATIN CAPITAL LETTER T WITH STROKE
+ { 0x0167, "tbar" }, // LATIN SMALL LETTER T WITH STROKE
+ { 0x0168, "Utilde" }, // LATIN CAPITAL LETTER U WITH TILDE
+ { 0x0169, "utilde" }, // LATIN SMALL LETTER U WITH TILDE
+ { 0x016A, "Umacron" }, // LATIN CAPITAL LETTER U WITH MACRON
+ { 0x016B, "umacron" }, // LATIN SMALL LETTER U WITH MACRON
+ { 0x016C, "Ubreve" }, // LATIN CAPITAL LETTER U WITH BREVE
+ { 0x016D, "ubreve" }, // LATIN SMALL LETTER U WITH BREVE
+ { 0x016E, "Uring" }, // LATIN CAPITAL LETTER U WITH RING ABOVE
+ { 0x016F, "uring" }, // LATIN SMALL LETTER U WITH RING ABOVE
+ { 0x0170, "Uhungarumlaut" }, // LATIN CAPITAL LETTER U WITH DOUBLE ACUTE
+ { 0x0171, "uhungarumlaut" }, // LATIN SMALL LETTER U WITH DOUBLE ACUTE
+ { 0x0172, "Uogonek" }, // LATIN CAPITAL LETTER U WITH OGONEK
+ { 0x0173, "uogonek" }, // LATIN SMALL LETTER U WITH OGONEK
+ { 0x0174, "Wcircumflex" }, // LATIN CAPITAL LETTER W WITH CIRCUMFLEX
+ { 0x0175, "wcircumflex" }, // LATIN SMALL LETTER W WITH CIRCUMFLEX
+ { 0x0176, "Ycircumflex" }, // LATIN CAPITAL LETTER Y WITH CIRCUMFLEX
+ { 0x0177, "ycircumflex" }, // LATIN SMALL LETTER Y WITH CIRCUMFLEX
+ { 0x0178, "Ydieresis" }, // LATIN CAPITAL LETTER Y WITH DIAERESIS
+ { 0x0179, "Zacute" }, // LATIN CAPITAL LETTER Z WITH ACUTE
+ { 0x017A, "zacute" }, // LATIN SMALL LETTER Z WITH ACUTE
+ { 0x017B, "Zdotaccent" }, // LATIN CAPITAL LETTER Z WITH DOT ABOVE
+ { 0x017C, "zdotaccent" }, // LATIN SMALL LETTER Z WITH DOT ABOVE
+ { 0x017D, "Zcaron" }, // LATIN CAPITAL LETTER Z WITH CARON
+ { 0x017E, "zcaron" }, // LATIN SMALL LETTER Z WITH CARON
+ { 0x017F, "longs" }, // LATIN SMALL LETTER LONG S
+ { 0x0192, "florin" }, // LATIN SMALL LETTER F WITH HOOK
+ { 0x01A0, "Ohorn" }, // LATIN CAPITAL LETTER O WITH HORN
+ { 0x01A1, "ohorn" }, // LATIN SMALL LETTER O WITH HORN
+ { 0x01AF, "Uhorn" }, // LATIN CAPITAL LETTER U WITH HORN
+ { 0x01B0, "uhorn" }, // LATIN SMALL LETTER U WITH HORN
+ { 0x01E6, "Gcaron" }, // LATIN CAPITAL LETTER G WITH CARON
+ { 0x01E7, "gcaron" }, // LATIN SMALL LETTER G WITH CARON
+ { 0x01FA, "Aringacute" }, // LATIN CAPITAL LETTER A WITH RING ABOVE AND ACUTE
+ { 0x01FB, "aringacute" }, // LATIN SMALL LETTER A WITH RING ABOVE AND ACUTE
+ { 0x01FC, "AEacute" }, // LATIN CAPITAL LETTER AE WITH ACUTE
+ { 0x01FD, "aeacute" }, // LATIN SMALL LETTER AE WITH ACUTE
+ { 0x01FE, "Oslashacute" }, // LATIN CAPITAL LETTER O WITH STROKE AND ACUTE
+ { 0x01FF, "oslashacute" }, // LATIN SMALL LETTER O WITH STROKE AND ACUTE
+ { 0x0218, "Scommaaccent" }, // LATIN CAPITAL LETTER S WITH COMMA BELOW
+ { 0x0219, "scommaaccent" }, // LATIN SMALL LETTER S WITH COMMA BELOW
+ { 0x021A, "Tcommaaccent" }, // LATIN CAPITAL LETTER T WITH COMMA BELOW;Duplicate
+ { 0x021B, "tcommaaccent" }, // LATIN SMALL LETTER T WITH COMMA BELOW;Duplicate
+ { 0x02BC, "afii57929" }, // MODIFIER LETTER APOSTROPHE
+ { 0x02BD, "afii64937" }, // MODIFIER LETTER REVERSED COMMA
+ { 0x02C6, "circumflex" }, // MODIFIER LETTER CIRCUMFLEX ACCENT
+ { 0x02C7, "caron" }, // CARON
+ { 0x02C9, "macron" }, // MODIFIER LETTER MACRON;Duplicate
+ { 0x02D8, "breve" }, // BREVE
+ { 0x02D9, "dotaccent" }, // DOT ABOVE
+ { 0x02DA, "ring" }, // RING ABOVE
+ { 0x02DB, "ogonek" }, // OGONEK
+ { 0x02DC, "tilde" }, // SMALL TILDE
+ { 0x02DD, "hungarumlaut" }, // DOUBLE ACUTE ACCENT
+ { 0x0300, "gravecomb" }, // COMBINING GRAVE ACCENT
+ { 0x0301, "acutecomb" }, // COMBINING ACUTE ACCENT
+ { 0x0303, "tildecomb" }, // COMBINING TILDE
+ { 0x0309, "hookabovecomb" }, // COMBINING HOOK ABOVE
+ { 0x0323, "dotbelowcomb" }, // COMBINING DOT BELOW
+ { 0x0384, "tonos" }, // GREEK TONOS
+ { 0x0385, "dieresistonos" }, // GREEK DIALYTIKA TONOS
+ { 0x0386, "Alphatonos" }, // GREEK CAPITAL LETTER ALPHA WITH TONOS
+ { 0x0387, "anoteleia" }, // GREEK ANO TELEIA
+ { 0x0388, "Epsilontonos" }, // GREEK CAPITAL LETTER EPSILON WITH TONOS
+ { 0x0389, "Etatonos" }, // GREEK CAPITAL LETTER ETA WITH TONOS
+ { 0x038A, "Iotatonos" }, // GREEK CAPITAL LETTER IOTA WITH TONOS
+ { 0x038C, "Omicrontonos" }, // GREEK CAPITAL LETTER OMICRON WITH TONOS
+ { 0x038E, "Upsilontonos" }, // GREEK CAPITAL LETTER UPSILON WITH TONOS
+ { 0x038F, "Omegatonos" }, // GREEK CAPITAL LETTER OMEGA WITH TONOS
+ { 0x0390, "iotadieresistonos" }, // GREEK SMALL LETTER IOTA WITH DIALYTIKA AND TONOS
+ { 0x0391, "Alpha" }, // GREEK CAPITAL LETTER ALPHA
+ { 0x0392, "Beta" }, // GREEK CAPITAL LETTER BETA
+ { 0x0393, "Gamma" }, // GREEK CAPITAL LETTER GAMMA
+ { 0x0394, "Delta" }, // GREEK CAPITAL LETTER DELTA;Duplicate
+ { 0x0395, "Epsilon" }, // GREEK CAPITAL LETTER EPSILON
+ { 0x0396, "Zeta" }, // GREEK CAPITAL LETTER ZETA
+ { 0x0397, "Eta" }, // GREEK CAPITAL LETTER ETA
+ { 0x0398, "Theta" }, // GREEK CAPITAL LETTER THETA
+ { 0x0399, "Iota" }, // GREEK CAPITAL LETTER IOTA
+ { 0x039A, "Kappa" }, // GREEK CAPITAL LETTER KAPPA
+ { 0x039B, "Lambda" }, // GREEK CAPITAL LETTER LAMDA
+ { 0x039C, "Mu" }, // GREEK CAPITAL LETTER MU
+ { 0x039D, "Nu" }, // GREEK CAPITAL LETTER NU
+ { 0x039E, "Xi" }, // GREEK CAPITAL LETTER XI
+ { 0x039F, "Omicron" }, // GREEK CAPITAL LETTER OMICRON
+ { 0x03A0, "Pi" }, // GREEK CAPITAL LETTER PI
+ { 0x03A1, "Rho" }, // GREEK CAPITAL LETTER RHO
+ { 0x03A3, "Sigma" }, // GREEK CAPITAL LETTER SIGMA
+ { 0x03A4, "Tau" }, // GREEK CAPITAL LETTER TAU
+ { 0x03A5, "Upsilon" }, // GREEK CAPITAL LETTER UPSILON
+ { 0x03A6, "Phi" }, // GREEK CAPITAL LETTER PHI
+ { 0x03A7, "Chi" }, // GREEK CAPITAL LETTER CHI
+ { 0x03A8, "Psi" }, // GREEK CAPITAL LETTER PSI
+ { 0x03A9, "Omega" }, // GREEK CAPITAL LETTER OMEGA;Duplicate
+ { 0x03AA, "Iotadieresis" }, // GREEK CAPITAL LETTER IOTA WITH DIALYTIKA
+ { 0x03AB, "Upsilondieresis" }, // GREEK CAPITAL LETTER UPSILON WITH DIALYTIKA
+ { 0x03AC, "alphatonos" }, // GREEK SMALL LETTER ALPHA WITH TONOS
+ { 0x03AD, "epsilontonos" }, // GREEK SMALL LETTER EPSILON WITH TONOS
+ { 0x03AE, "etatonos" }, // GREEK SMALL LETTER ETA WITH TONOS
+ { 0x03AF, "iotatonos" }, // GREEK SMALL LETTER IOTA WITH TONOS
+ { 0x03B0, "upsilondieresistonos" }, // GREEK SMALL LETTER UPSILON WITH DIALYTIKA AND TONOS
+ { 0x03B1, "alpha" }, // GREEK SMALL LETTER ALPHA
+ { 0x03B2, "beta" }, // GREEK SMALL LETTER BETA
+ { 0x03B3, "gamma" }, // GREEK SMALL LETTER GAMMA
+ { 0x03B4, "delta" }, // GREEK SMALL LETTER DELTA
+ { 0x03B5, "epsilon" }, // GREEK SMALL LETTER EPSILON
+ { 0x03B6, "zeta" }, // GREEK SMALL LETTER ZETA
+ { 0x03B7, "eta" }, // GREEK SMALL LETTER ETA
+ { 0x03B8, "theta" }, // GREEK SMALL LETTER THETA
+ { 0x03B9, "iota" }, // GREEK SMALL LETTER IOTA
+ { 0x03BA, "kappa" }, // GREEK SMALL LETTER KAPPA
+ { 0x03BB, "lambda" }, // GREEK SMALL LETTER LAMDA
+ { 0x03BC, "mu" }, // GREEK SMALL LETTER MU;Duplicate
+ { 0x03BD, "nu" }, // GREEK SMALL LETTER NU
+ { 0x03BE, "xi" }, // GREEK SMALL LETTER XI
+ { 0x03BF, "omicron" }, // GREEK SMALL LETTER OMICRON
+ { 0x03C0, "pi" }, // GREEK SMALL LETTER PI
+ { 0x03C1, "rho" }, // GREEK SMALL LETTER RHO
+ { 0x03C2, "sigma1" }, // GREEK SMALL LETTER FINAL SIGMA
+ { 0x03C3, "sigma" }, // GREEK SMALL LETTER SIGMA
+ { 0x03C4, "tau" }, // GREEK SMALL LETTER TAU
+ { 0x03C5, "upsilon" }, // GREEK SMALL LETTER UPSILON
+ { 0x03C6, "phi" }, // GREEK SMALL LETTER PHI
+ { 0x03C7, "chi" }, // GREEK SMALL LETTER CHI
+ { 0x03C8, "psi" }, // GREEK SMALL LETTER PSI
+ { 0x03C9, "omega" }, // GREEK SMALL LETTER OMEGA
+ { 0x03CA, "iotadieresis" }, // GREEK SMALL LETTER IOTA WITH DIALYTIKA
+ { 0x03CB, "upsilondieresis" }, // GREEK SMALL LETTER UPSILON WITH DIALYTIKA
+ { 0x03CC, "omicrontonos" }, // GREEK SMALL LETTER OMICRON WITH TONOS
+ { 0x03CD, "upsilontonos" }, // GREEK SMALL LETTER UPSILON WITH TONOS
+ { 0x03CE, "omegatonos" }, // GREEK SMALL LETTER OMEGA WITH TONOS
+ { 0x03D1, "theta1" }, // GREEK THETA SYMBOL
+ { 0x03D2, "Upsilon1" }, // GREEK UPSILON WITH HOOK SYMBOL
+ { 0x03D5, "phi1" }, // GREEK PHI SYMBOL
+ { 0x03D6, "omega1" }, // GREEK PI SYMBOL
+ { 0x0401, "afii10023" }, // CYRILLIC CAPITAL LETTER IO
+ { 0x0402, "afii10051" }, // CYRILLIC CAPITAL LETTER DJE
+ { 0x0403, "afii10052" }, // CYRILLIC CAPITAL LETTER GJE
+ { 0x0404, "afii10053" }, // CYRILLIC CAPITAL LETTER UKRAINIAN IE
+ { 0x0405, "afii10054" }, // CYRILLIC CAPITAL LETTER DZE
+ { 0x0406, "afii10055" }, // CYRILLIC CAPITAL LETTER BYELORUSSIAN-UKRAINIAN I
+ { 0x0407, "afii10056" }, // CYRILLIC CAPITAL LETTER YI
+ { 0x0408, "afii10057" }, // CYRILLIC CAPITAL LETTER JE
+ { 0x0409, "afii10058" }, // CYRILLIC CAPITAL LETTER LJE
+ { 0x040A, "afii10059" }, // CYRILLIC CAPITAL LETTER NJE
+ { 0x040B, "afii10060" }, // CYRILLIC CAPITAL LETTER TSHE
+ { 0x040C, "afii10061" }, // CYRILLIC CAPITAL LETTER KJE
+ { 0x040E, "afii10062" }, // CYRILLIC CAPITAL LETTER SHORT U
+ { 0x040F, "afii10145" }, // CYRILLIC CAPITAL LETTER DZHE
+ { 0x0410, "afii10017" }, // CYRILLIC CAPITAL LETTER A
+ { 0x0411, "afii10018" }, // CYRILLIC CAPITAL LETTER BE
+ { 0x0412, "afii10019" }, // CYRILLIC CAPITAL LETTER VE
+ { 0x0413, "afii10020" }, // CYRILLIC CAPITAL LETTER GHE
+ { 0x0414, "afii10021" }, // CYRILLIC CAPITAL LETTER DE
+ { 0x0415, "afii10022" }, // CYRILLIC CAPITAL LETTER IE
+ { 0x0416, "afii10024" }, // CYRILLIC CAPITAL LETTER ZHE
+ { 0x0417, "afii10025" }, // CYRILLIC CAPITAL LETTER ZE
+ { 0x0418, "afii10026" }, // CYRILLIC CAPITAL LETTER I
+ { 0x0419, "afii10027" }, // CYRILLIC CAPITAL LETTER SHORT I
+ { 0x041A, "afii10028" }, // CYRILLIC CAPITAL LETTER KA
+ { 0x041B, "afii10029" }, // CYRILLIC CAPITAL LETTER EL
+ { 0x041C, "afii10030" }, // CYRILLIC CAPITAL LETTER EM
+ { 0x041D, "afii10031" }, // CYRILLIC CAPITAL LETTER EN
+ { 0x041E, "afii10032" }, // CYRILLIC CAPITAL LETTER O
+ { 0x041F, "afii10033" }, // CYRILLIC CAPITAL LETTER PE
+ { 0x0420, "afii10034" }, // CYRILLIC CAPITAL LETTER ER
+ { 0x0421, "afii10035" }, // CYRILLIC CAPITAL LETTER ES
+ { 0x0422, "afii10036" }, // CYRILLIC CAPITAL LETTER TE
+ { 0x0423, "afii10037" }, // CYRILLIC CAPITAL LETTER U
+ { 0x0424, "afii10038" }, // CYRILLIC CAPITAL LETTER EF
+ { 0x0425, "afii10039" }, // CYRILLIC CAPITAL LETTER HA
+ { 0x0426, "afii10040" }, // CYRILLIC CAPITAL LETTER TSE
+ { 0x0427, "afii10041" }, // CYRILLIC CAPITAL LETTER CHE
+ { 0x0428, "afii10042" }, // CYRILLIC CAPITAL LETTER SHA
+ { 0x0429, "afii10043" }, // CYRILLIC CAPITAL LETTER SHCHA
+ { 0x042A, "afii10044" }, // CYRILLIC CAPITAL LETTER HARD SIGN
+ { 0x042B, "afii10045" }, // CYRILLIC CAPITAL LETTER YERU
+ { 0x042C, "afii10046" }, // CYRILLIC CAPITAL LETTER SOFT SIGN
+ { 0x042D, "afii10047" }, // CYRILLIC CAPITAL LETTER E
+ { 0x042E, "afii10048" }, // CYRILLIC CAPITAL LETTER YU
+ { 0x042F, "afii10049" }, // CYRILLIC CAPITAL LETTER YA
+ { 0x0430, "afii10065" }, // CYRILLIC SMALL LETTER A
+ { 0x0431, "afii10066" }, // CYRILLIC SMALL LETTER BE
+ { 0x0432, "afii10067" }, // CYRILLIC SMALL LETTER VE
+ { 0x0433, "afii10068" }, // CYRILLIC SMALL LETTER GHE
+ { 0x0434, "afii10069" }, // CYRILLIC SMALL LETTER DE
+ { 0x0435, "afii10070" }, // CYRILLIC SMALL LETTER IE
+ { 0x0436, "afii10072" }, // CYRILLIC SMALL LETTER ZHE
+ { 0x0437, "afii10073" }, // CYRILLIC SMALL LETTER ZE
+ { 0x0438, "afii10074" }, // CYRILLIC SMALL LETTER I
+ { 0x0439, "afii10075" }, // CYRILLIC SMALL LETTER SHORT I
+ { 0x043A, "afii10076" }, // CYRILLIC SMALL LETTER KA
+ { 0x043B, "afii10077" }, // CYRILLIC SMALL LETTER EL
+ { 0x043C, "afii10078" }, // CYRILLIC SMALL LETTER EM
+ { 0x043D, "afii10079" }, // CYRILLIC SMALL LETTER EN
+ { 0x043E, "afii10080" }, // CYRILLIC SMALL LETTER O
+ { 0x043F, "afii10081" }, // CYRILLIC SMALL LETTER PE
+ { 0x0440, "afii10082" }, // CYRILLIC SMALL LETTER ER
+ { 0x0441, "afii10083" }, // CYRILLIC SMALL LETTER ES
+ { 0x0442, "afii10084" }, // CYRILLIC SMALL LETTER TE
+ { 0x0443, "afii10085" }, // CYRILLIC SMALL LETTER U
+ { 0x0444, "afii10086" }, // CYRILLIC SMALL LETTER EF
+ { 0x0445, "afii10087" }, // CYRILLIC SMALL LETTER HA
+ { 0x0446, "afii10088" }, // CYRILLIC SMALL LETTER TSE
+ { 0x0447, "afii10089" }, // CYRILLIC SMALL LETTER CHE
+ { 0x0448, "afii10090" }, // CYRILLIC SMALL LETTER SHA
+ { 0x0449, "afii10091" }, // CYRILLIC SMALL LETTER SHCHA
+ { 0x044A, "afii10092" }, // CYRILLIC SMALL LETTER HARD SIGN
+ { 0x044B, "afii10093" }, // CYRILLIC SMALL LETTER YERU
+ { 0x044C, "afii10094" }, // CYRILLIC SMALL LETTER SOFT SIGN
+ { 0x044D, "afii10095" }, // CYRILLIC SMALL LETTER E
+ { 0x044E, "afii10096" }, // CYRILLIC SMALL LETTER YU
+ { 0x044F, "afii10097" }, // CYRILLIC SMALL LETTER YA
+ { 0x0451, "afii10071" }, // CYRILLIC SMALL LETTER IO
+ { 0x0452, "afii10099" }, // CYRILLIC SMALL LETTER DJE
+ { 0x0453, "afii10100" }, // CYRILLIC SMALL LETTER GJE
+ { 0x0454, "afii10101" }, // CYRILLIC SMALL LETTER UKRAINIAN IE
+ { 0x0455, "afii10102" }, // CYRILLIC SMALL LETTER DZE
+ { 0x0456, "afii10103" }, // CYRILLIC SMALL LETTER BYELORUSSIAN-UKRAINIAN I
+ { 0x0457, "afii10104" }, // CYRILLIC SMALL LETTER YI
+ { 0x0458, "afii10105" }, // CYRILLIC SMALL LETTER JE
+ { 0x0459, "afii10106" }, // CYRILLIC SMALL LETTER LJE
+ { 0x045A, "afii10107" }, // CYRILLIC SMALL LETTER NJE
+ { 0x045B, "afii10108" }, // CYRILLIC SMALL LETTER TSHE
+ { 0x045C, "afii10109" }, // CYRILLIC SMALL LETTER KJE
+ { 0x045E, "afii10110" }, // CYRILLIC SMALL LETTER SHORT U
+ { 0x045F, "afii10193" }, // CYRILLIC SMALL LETTER DZHE
+ { 0x0462, "afii10146" }, // CYRILLIC CAPITAL LETTER YAT
+ { 0x0463, "afii10194" }, // CYRILLIC SMALL LETTER YAT
+ { 0x0472, "afii10147" }, // CYRILLIC CAPITAL LETTER FITA
+ { 0x0473, "afii10195" }, // CYRILLIC SMALL LETTER FITA
+ { 0x0474, "afii10148" }, // CYRILLIC CAPITAL LETTER IZHITSA
+ { 0x0475, "afii10196" }, // CYRILLIC SMALL LETTER IZHITSA
+ { 0x0490, "afii10050" }, // CYRILLIC CAPITAL LETTER GHE WITH UPTURN
+ { 0x0491, "afii10098" }, // CYRILLIC SMALL LETTER GHE WITH UPTURN
+ { 0x04D9, "afii10846" }, // CYRILLIC SMALL LETTER SCHWA
+ { 0x05B0, "afii57799" }, // HEBREW POINT SHEVA
+ { 0x05B1, "afii57801" }, // HEBREW POINT HATAF SEGOL
+ { 0x05B2, "afii57800" }, // HEBREW POINT HATAF PATAH
+ { 0x05B3, "afii57802" }, // HEBREW POINT HATAF TQAMATS
+ { 0x05B4, "afii57793" }, // HEBREW POINT HIRIQ
+ { 0x05B5, "afii57794" }, // HEBREW POINT TSERE
+ { 0x05B6, "afii57795" }, // HEBREW POINT SEGOL
+ { 0x05B7, "afii57798" }, // HEBREW POINT PATAH
+ { 0x05B8, "afii57797" }, // HEBREW POINT TQAMATS
+ { 0x05B9, "afii57806" }, // HEBREW POINT HOLAM
+ { 0x05BB, "afii57796" }, // HEBREW POINT TQUBUTS
+ { 0x05BC, "afii57807" }, // HEBREW POINT DAGESH OR MAPIQ
+ { 0x05BD, "afii57839" }, // HEBREW POINT METEG
+ { 0x05BE, "afii57645" }, // HEBREW PUNCTUATION MATQAF
+ { 0x05BF, "afii57841" }, // HEBREW POINT RAFE
+ { 0x05C0, "afii57842" }, // HEBREW PUNCTUATION PASEQ
+ { 0x05C1, "afii57804" }, // HEBREW POINT SHIN DOT
+ { 0x05C2, "afii57803" }, // HEBREW POINT SIN DOT
+ { 0x05C3, "afii57658" }, // HEBREW PUNCTUATION SOF PASUQ
+ { 0x05D0, "afii57664" }, // HEBREW LETTER ALEF
+ { 0x05D1, "afii57665" }, // HEBREW LETTER BET
+ { 0x05D2, "afii57666" }, // HEBREW LETTER GIMEL
+ { 0x05D3, "afii57667" }, // HEBREW LETTER DALET
+ { 0x05D4, "afii57668" }, // HEBREW LETTER HE
+ { 0x05D5, "afii57669" }, // HEBREW LETTER VAV
+ { 0x05D6, "afii57670" }, // HEBREW LETTER ZAYIN
+ { 0x05D7, "afii57671" }, // HEBREW LETTER HET
+ { 0x05D8, "afii57672" }, // HEBREW LETTER TET
+ { 0x05D9, "afii57673" }, // HEBREW LETTER YOD
+ { 0x05DA, "afii57674" }, // HEBREW LETTER FINAL KAF
+ { 0x05DB, "afii57675" }, // HEBREW LETTER KAF
+ { 0x05DC, "afii57676" }, // HEBREW LETTER LAMED
+ { 0x05DD, "afii57677" }, // HEBREW LETTER FINAL MEM
+ { 0x05DE, "afii57678" }, // HEBREW LETTER MEM
+ { 0x05DF, "afii57679" }, // HEBREW LETTER FINAL NUN
+ { 0x05E0, "afii57680" }, // HEBREW LETTER NUN
+ { 0x05E1, "afii57681" }, // HEBREW LETTER SAMEKH
+ { 0x05E2, "afii57682" }, // HEBREW LETTER AYIN
+ { 0x05E3, "afii57683" }, // HEBREW LETTER FINAL PE
+ { 0x05E4, "afii57684" }, // HEBREW LETTER PE
+ { 0x05E5, "afii57685" }, // HEBREW LETTER FINAL TSADI
+ { 0x05E6, "afii57686" }, // HEBREW LETTER TSADI
+ { 0x05E7, "afii57687" }, // HEBREW LETTER TQOF
+ { 0x05E8, "afii57688" }, // HEBREW LETTER RESH
+ { 0x05E9, "afii57689" }, // HEBREW LETTER SHIN
+ { 0x05EA, "afii57690" }, // HEBREW LETTER TAV
+ { 0x05F0, "afii57716" }, // HEBREW LIGATURE YIDDISH DOUBLE VAV
+ { 0x05F1, "afii57717" }, // HEBREW LIGATURE YIDDISH VAV YOD
+ { 0x05F2, "afii57718" }, // HEBREW LIGATURE YIDDISH DOUBLE YOD
+ { 0x060C, "afii57388" }, // ARABIC COMMA
+ { 0x061B, "afii57403" }, // ARABIC SEMICOLON
+ { 0x061F, "afii57407" }, // ARABIC TQUESTION MARK
+ { 0x0621, "afii57409" }, // ARABIC LETTER HAMZA
+ { 0x0622, "afii57410" }, // ARABIC LETTER ALEF WITH MADDA ABOVE
+ { 0x0623, "afii57411" }, // ARABIC LETTER ALEF WITH HAMZA ABOVE
+ { 0x0624, "afii57412" }, // ARABIC LETTER WAW WITH HAMZA ABOVE
+ { 0x0625, "afii57413" }, // ARABIC LETTER ALEF WITH HAMZA BELOW
+ { 0x0626, "afii57414" }, // ARABIC LETTER YEH WITH HAMZA ABOVE
+ { 0x0627, "afii57415" }, // ARABIC LETTER ALEF
+ { 0x0628, "afii57416" }, // ARABIC LETTER BEH
+ { 0x0629, "afii57417" }, // ARABIC LETTER TEH MARBUTA
+ { 0x062A, "afii57418" }, // ARABIC LETTER TEH
+ { 0x062B, "afii57419" }, // ARABIC LETTER THEH
+ { 0x062C, "afii57420" }, // ARABIC LETTER JEEM
+ { 0x062D, "afii57421" }, // ARABIC LETTER HAH
+ { 0x062E, "afii57422" }, // ARABIC LETTER KHAH
+ { 0x062F, "afii57423" }, // ARABIC LETTER DAL
+ { 0x0630, "afii57424" }, // ARABIC LETTER THAL
+ { 0x0631, "afii57425" }, // ARABIC LETTER REH
+ { 0x0632, "afii57426" }, // ARABIC LETTER ZAIN
+ { 0x0633, "afii57427" }, // ARABIC LETTER SEEN
+ { 0x0634, "afii57428" }, // ARABIC LETTER SHEEN
+ { 0x0635, "afii57429" }, // ARABIC LETTER SAD
+ { 0x0636, "afii57430" }, // ARABIC LETTER DAD
+ { 0x0637, "afii57431" }, // ARABIC LETTER TAH
+ { 0x0638, "afii57432" }, // ARABIC LETTER ZAH
+ { 0x0639, "afii57433" }, // ARABIC LETTER AIN
+ { 0x063A, "afii57434" }, // ARABIC LETTER GHAIN
+ { 0x0640, "afii57440" }, // ARABIC TATWEEL
+ { 0x0641, "afii57441" }, // ARABIC LETTER FEH
+ { 0x0642, "afii57442" }, // ARABIC LETTER TQAF
+ { 0x0643, "afii57443" }, // ARABIC LETTER KAF
+ { 0x0644, "afii57444" }, // ARABIC LETTER LAM
+ { 0x0645, "afii57445" }, // ARABIC LETTER MEEM
+ { 0x0646, "afii57446" }, // ARABIC LETTER NOON
+ { 0x0647, "afii57470" }, // ARABIC LETTER HEH
+ { 0x0648, "afii57448" }, // ARABIC LETTER WAW
+ { 0x0649, "afii57449" }, // ARABIC LETTER ALEF MAKSURA
+ { 0x064A, "afii57450" }, // ARABIC LETTER YEH
+ { 0x064B, "afii57451" }, // ARABIC FATHATAN
+ { 0x064C, "afii57452" }, // ARABIC DAMMATAN
+ { 0x064D, "afii57453" }, // ARABIC KASRATAN
+ { 0x064E, "afii57454" }, // ARABIC FATHA
+ { 0x064F, "afii57455" }, // ARABIC DAMMA
+ { 0x0650, "afii57456" }, // ARABIC KASRA
+ { 0x0651, "afii57457" }, // ARABIC SHADDA
+ { 0x0652, "afii57458" }, // ARABIC SUKUN
+ { 0x0660, "afii57392" }, // ARABIC-INDIC DIGIT ZERO
+ { 0x0661, "afii57393" }, // ARABIC-INDIC DIGIT ONE
+ { 0x0662, "afii57394" }, // ARABIC-INDIC DIGIT TWO
+ { 0x0663, "afii57395" }, // ARABIC-INDIC DIGIT THREE
+ { 0x0664, "afii57396" }, // ARABIC-INDIC DIGIT FOUR
+ { 0x0665, "afii57397" }, // ARABIC-INDIC DIGIT FIVE
+ { 0x0666, "afii57398" }, // ARABIC-INDIC DIGIT SIX
+ { 0x0667, "afii57399" }, // ARABIC-INDIC DIGIT SEVEN
+ { 0x0668, "afii57400" }, // ARABIC-INDIC DIGIT EIGHT
+ { 0x0669, "afii57401" }, // ARABIC-INDIC DIGIT NINE
+ { 0x066A, "afii57381" }, // ARABIC PERCENT SIGN
+ { 0x066D, "afii63167" }, // ARABIC FIVE POINTED STAR
+ { 0x0679, "afii57511" }, // ARABIC LETTER TTEH
+ { 0x067E, "afii57506" }, // ARABIC LETTER PEH
+ { 0x0686, "afii57507" }, // ARABIC LETTER TCHEH
+ { 0x0688, "afii57512" }, // ARABIC LETTER DDAL
+ { 0x0691, "afii57513" }, // ARABIC LETTER RREH
+ { 0x0698, "afii57508" }, // ARABIC LETTER JEH
+ { 0x06A4, "afii57505" }, // ARABIC LETTER VEH
+ { 0x06AF, "afii57509" }, // ARABIC LETTER GAF
+ { 0x06BA, "afii57514" }, // ARABIC LETTER NOON GHUNNA
+ { 0x06D2, "afii57519" }, // ARABIC LETTER YEH BARREE
+ { 0x06D5, "afii57534" }, // ARABIC LETTER AE
+ { 0x1E80, "Wgrave" }, // LATIN CAPITAL LETTER W WITH GRAVE
+ { 0x1E81, "wgrave" }, // LATIN SMALL LETTER W WITH GRAVE
+ { 0x1E82, "Wacute" }, // LATIN CAPITAL LETTER W WITH ACUTE
+ { 0x1E83, "wacute" }, // LATIN SMALL LETTER W WITH ACUTE
+ { 0x1E84, "Wdieresis" }, // LATIN CAPITAL LETTER W WITH DIAERESIS
+ { 0x1E85, "wdieresis" }, // LATIN SMALL LETTER W WITH DIAERESIS
+ { 0x1EF2, "Ygrave" }, // LATIN CAPITAL LETTER Y WITH GRAVE
+ { 0x1EF3, "ygrave" }, // LATIN SMALL LETTER Y WITH GRAVE
+ { 0x200C, "afii61664" }, // ZERO WIDTH NON-JOINER
+ { 0x200D, "afii301" }, // ZERO WIDTH JOINER
+ { 0x200E, "afii299" }, // LEFT-TO-RIGHT MARK
+ { 0x200F, "afii300" }, // RIGHT-TO-LEFT MARK
+ { 0x2012, "figuredash" }, // FIGURE DASH
+ { 0x2013, "endash" }, // EN DASH
+ { 0x2014, "emdash" }, // EM DASH
+ { 0x2015, "afii00208" }, // HORIZONTAL BAR
+ { 0x2017, "underscoredbl" }, // DOUBLE LOW LINE
+ { 0x2018, "quoteleft" }, // LEFT SINGLE TQUOTATION MARK
+ { 0x2019, "quoteright" }, // RIGHT SINGLE TQUOTATION MARK
+ { 0x201A, "quotesinglbase" }, // SINGLE LOW-9 TQUOTATION MARK
+ { 0x201B, "quotereversed" }, // SINGLE HIGH-REVERSED-9 TQUOTATION MARK
+ { 0x201C, "quotedblleft" }, // LEFT DOUBLE TQUOTATION MARK
+ { 0x201D, "quotedblright" }, // RIGHT DOUBLE TQUOTATION MARK
+ { 0x201E, "quotedblbase" }, // DOUBLE LOW-9 TQUOTATION MARK
+ { 0x2020, "dagger" }, // DAGGER
+ { 0x2021, "daggerdbl" }, // DOUBLE DAGGER
+ { 0x2022, "bullet" }, // BULLET
+ { 0x2024, "onedotenleader" }, // ONE DOT LEADER
+ { 0x2025, "twodotenleader" }, // TWO DOT LEADER
+ { 0x2026, "ellipsis" }, // HORIZONTAL ELLIPSIS
+ { 0x202C, "afii61573" }, // POP DIRECTIONAL FORMATTING
+ { 0x202D, "afii61574" }, // LEFT-TO-RIGHT OVERRIDE
+ { 0x202E, "afii61575" }, // RIGHT-TO-LEFT OVERRIDE
+ { 0x2030, "perthousand" }, // PER MILLE SIGN
+ { 0x2032, "minute" }, // PRIME
+ { 0x2033, "second" }, // DOUBLE PRIME
+ { 0x2039, "guilsinglleft" }, // SINGLE LEFT-POINTING ANGLE TQUOTATION MARK
+ { 0x203A, "guilsinglright" }, // SINGLE RIGHT-POINTING ANGLE TQUOTATION MARK
+ { 0x203C, "exclamdbl" }, // DOUBLE EXCLAMATION MARK
+ { 0x2044, "fraction" }, // FRACTION SLASH
+ { 0x2070, "zerosuperior" }, // SUPERSCRIPT ZERO
+ { 0x2074, "foursuperior" }, // SUPERSCRIPT FOUR
+ { 0x2075, "fivesuperior" }, // SUPERSCRIPT FIVE
+ { 0x2076, "sixsuperior" }, // SUPERSCRIPT SIX
+ { 0x2077, "sevensuperior" }, // SUPERSCRIPT SEVEN
+ { 0x2078, "eightsuperior" }, // SUPERSCRIPT EIGHT
+ { 0x2079, "ninesuperior" }, // SUPERSCRIPT NINE
+ { 0x207D, "parenleftsuperior" }, // SUPERSCRIPT LEFT PARENTHESIS
+ { 0x207E, "parenrightsuperior" }, // SUPERSCRIPT RIGHT PARENTHESIS
+ { 0x207F, "nsuperior" }, // SUPERSCRIPT LATIN SMALL LETTER N
+ { 0x2080, "zeroinferior" }, // SUBSCRIPT ZERO
+ { 0x2081, "oneinferior" }, // SUBSCRIPT ONE
+ { 0x2082, "twoinferior" }, // SUBSCRIPT TWO
+ { 0x2083, "threeinferior" }, // SUBSCRIPT THREE
+ { 0x2084, "fourinferior" }, // SUBSCRIPT FOUR
+ { 0x2085, "fiveinferior" }, // SUBSCRIPT FIVE
+ { 0x2086, "sixinferior" }, // SUBSCRIPT SIX
+ { 0x2087, "seveninferior" }, // SUBSCRIPT SEVEN
+ { 0x2088, "eightinferior" }, // SUBSCRIPT EIGHT
+ { 0x2089, "nineinferior" }, // SUBSCRIPT NINE
+ { 0x208D, "parenleftinferior" }, // SUBSCRIPT LEFT PARENTHESIS
+ { 0x208E, "parenrightinferior" }, // SUBSCRIPT RIGHT PARENTHESIS
+ { 0x20A1, "colonmonetary" }, // COLON SIGN
+ { 0x20A3, "franc" }, // FRENCH FRANC SIGN
+ { 0x20A4, "lira" }, // LIRA SIGN
+ { 0x20A7, "peseta" }, // PESETA SIGN
+ { 0x20AA, "afii57636" }, // NEW SHETQEL SIGN
+ { 0x20AB, "dong" }, // DONG SIGN
+ { 0x20AC, "Euro" }, // EURO SIGN
+ { 0x2105, "afii61248" }, // CARE OF
+ { 0x2111, "Ifraktur" }, // BLACK-LETTER CAPITAL I
+ { 0x2113, "afii61289" }, // SCRIPT SMALL L
+ { 0x2116, "afii61352" }, // NUMERO SIGN
+ { 0x2118, "weierstrass" }, // SCRIPT CAPITAL P
+ { 0x211C, "Rfraktur" }, // BLACK-LETTER CAPITAL R
+ { 0x211E, "prescription" }, // PRESCRIPTION TAKE
+ { 0x2122, "trademark" }, // TRADE MARK SIGN
+ { 0x2126, "Omega" }, // OHM SIGN
+ { 0x212E, "estimated" }, // ESTIMATED SYMBOL
+ { 0x2135, "aleph" }, // ALEF SYMBOL
+ { 0x2153, "onethird" }, // VULGAR FRACTION ONE THIRD
+ { 0x2154, "twothirds" }, // VULGAR FRACTION TWO THIRDS
+ { 0x215B, "oneeighth" }, // VULGAR FRACTION ONE EIGHTH
+ { 0x215C, "threeeighths" }, // VULGAR FRACTION THREE EIGHTHS
+ { 0x215D, "fiveeighths" }, // VULGAR FRACTION FIVE EIGHTHS
+ { 0x215E, "seveneighths" }, // VULGAR FRACTION SEVEN EIGHTHS
+ { 0x2190, "arrowleft" }, // LEFTWARDS ARROW
+ { 0x2191, "arrowup" }, // UPWARDS ARROW
+ { 0x2192, "arrowright" }, // RIGHTWARDS ARROW
+ { 0x2193, "arrowdown" }, // DOWNWARDS ARROW
+ { 0x2194, "arrowboth" }, // LEFT RIGHT ARROW
+ { 0x2195, "arrowupdn" }, // UP DOWN ARROW
+ { 0x21A8, "arrowupdnbse" }, // UP DOWN ARROW WITH BASE
+ { 0x21B5, "carriagereturn" }, // DOWNWARDS ARROW WITH CORNER LEFTWARDS
+ { 0x21D0, "arrowdblleft" }, // LEFTWARDS DOUBLE ARROW
+ { 0x21D1, "arrowdblup" }, // UPWARDS DOUBLE ARROW
+ { 0x21D2, "arrowdblright" }, // RIGHTWARDS DOUBLE ARROW
+ { 0x21D3, "arrowdbldown" }, // DOWNWARDS DOUBLE ARROW
+ { 0x21D4, "arrowdblboth" }, // LEFT RIGHT DOUBLE ARROW
+ { 0x2200, "universal" }, // FOR ALL
+ { 0x2202, "partialdiff" }, // PARTIAL DIFFERENTIAL
+ { 0x2203, "existential" }, // THERE EXISTS
+ { 0x2205, "emptyset" }, // EMPTY SET
+ { 0x2206, "Delta" }, // INCREMENT
+ { 0x2207, "gradient" }, // NABLA
+ { 0x2208, "element" }, // ELEMENT OF
+ { 0x2209, "notelement" }, // NOT AN ELEMENT OF
+ { 0x220B, "suchthat" }, // CONTAINS AS MEMBER
+ { 0x220F, "product" }, // N-ARY PRODUCT
+ { 0x2211, "summation" }, // N-ARY SUMMATION
+ { 0x2212, "minus" }, // MINUS SIGN
+ { 0x2215, "fraction" }, // DIVISION SLASH;Duplicate
+ { 0x2217, "asteriskmath" }, // ASTERISK OPERATOR
+ { 0x2219, "periodcentered" }, // BULLET OPERATOR;Duplicate
+ { 0x221A, "radical" }, // STQUARE ROOT
+ { 0x221D, "proportional" }, // PROPORTIONAL TO
+ { 0x221E, "infinity" }, // INFINITY
+ { 0x221F, "orthogonal" }, // RIGHT ANGLE
+ { 0x2220, "angle" }, // ANGLE
+ { 0x2227, "logicaland" }, // LOGICAL AND
+ { 0x2228, "logicalor" }, // LOGICAL OR
+ { 0x2229, "intersection" }, // INTERSECTION
+ { 0x222A, "union" }, // UNION
+ { 0x222B, "integral" }, // INTEGRAL
+ { 0x2234, "therefore" }, // THEREFORE
+ { 0x223C, "similar" }, // TILDE OPERATOR
+ { 0x2245, "congruent" }, // APPROXIMATELY ETQUAL TO
+ { 0x2248, "approxequal" }, // ALMOST ETQUAL TO
+ { 0x2260, "notequal" }, // NOT ETQUAL TO
+ { 0x2261, "equivalence" }, // IDENTICAL TO
+ { 0x2264, "lessequal" }, // LESS-THAN OR ETQUAL TO
+ { 0x2265, "greaterequal" }, // GREATER-THAN OR ETQUAL TO
+ { 0x2282, "propersubset" }, // SUBSET OF
+ { 0x2283, "propersuperset" }, // SUPERSET OF
+ { 0x2284, "notsubset" }, // NOT A SUBSET OF
+ { 0x2286, "reflexsubset" }, // SUBSET OF OR ETQUAL TO
+ { 0x2287, "reflexsuperset" }, // SUPERSET OF OR ETQUAL TO
+ { 0x2295, "circleplus" }, // CIRCLED PLUS
+ { 0x2297, "circlemultiply" }, // CIRCLED TIMES
+ { 0x22A5, "perpendicular" }, // UP TACK
+ { 0x22C5, "dotmath" }, // DOT OPERATOR
+ { 0x2302, "house" }, // HOUSE
+ { 0x2310, "revlogicalnot" }, // REVERSED NOT SIGN
+ { 0x2320, "integraltp" }, // TOP HALF INTEGRAL
+ { 0x2321, "integralbt" }, // BOTTOM HALF INTEGRAL
+ { 0x2329, "angleleft" }, // LEFT-POINTING ANGLE BRACKET
+ { 0x232A, "angleright" }, // RIGHT-POINTING ANGLE BRACKET
+ { 0x2500, "SF100000" }, // BOX DRAWINGS LIGHT HORIZONTAL
+ { 0x2502, "SF110000" }, // BOX DRAWINGS LIGHT VERTICAL
+ { 0x250C, "SF010000" }, // BOX DRAWINGS LIGHT DOWN AND RIGHT
+ { 0x2510, "SF030000" }, // BOX DRAWINGS LIGHT DOWN AND LEFT
+ { 0x2514, "SF020000" }, // BOX DRAWINGS LIGHT UP AND RIGHT
+ { 0x2518, "SF040000" }, // BOX DRAWINGS LIGHT UP AND LEFT
+ { 0x251C, "SF080000" }, // BOX DRAWINGS LIGHT VERTICAL AND RIGHT
+ { 0x2524, "SF090000" }, // BOX DRAWINGS LIGHT VERTICAL AND LEFT
+ { 0x252C, "SF060000" }, // BOX DRAWINGS LIGHT DOWN AND HORIZONTAL
+ { 0x2534, "SF070000" }, // BOX DRAWINGS LIGHT UP AND HORIZONTAL
+ { 0x253C, "SF050000" }, // BOX DRAWINGS LIGHT VERTICAL AND HORIZONTAL
+ { 0x2550, "SF430000" }, // BOX DRAWINGS DOUBLE HORIZONTAL
+ { 0x2551, "SF240000" }, // BOX DRAWINGS DOUBLE VERTICAL
+ { 0x2552, "SF510000" }, // BOX DRAWINGS DOWN SINGLE AND RIGHT DOUBLE
+ { 0x2553, "SF520000" }, // BOX DRAWINGS DOWN DOUBLE AND RIGHT SINGLE
+ { 0x2554, "SF390000" }, // BOX DRAWINGS DOUBLE DOWN AND RIGHT
+ { 0x2555, "SF220000" }, // BOX DRAWINGS DOWN SINGLE AND LEFT DOUBLE
+ { 0x2556, "SF210000" }, // BOX DRAWINGS DOWN DOUBLE AND LEFT SINGLE
+ { 0x2557, "SF250000" }, // BOX DRAWINGS DOUBLE DOWN AND LEFT
+ { 0x2558, "SF500000" }, // BOX DRAWINGS UP SINGLE AND RIGHT DOUBLE
+ { 0x2559, "SF490000" }, // BOX DRAWINGS UP DOUBLE AND RIGHT SINGLE
+ { 0x255A, "SF380000" }, // BOX DRAWINGS DOUBLE UP AND RIGHT
+ { 0x255B, "SF280000" }, // BOX DRAWINGS UP SINGLE AND LEFT DOUBLE
+ { 0x255C, "SF270000" }, // BOX DRAWINGS UP DOUBLE AND LEFT SINGLE
+ { 0x255D, "SF260000" }, // BOX DRAWINGS DOUBLE UP AND LEFT
+ { 0x255E, "SF360000" }, // BOX DRAWINGS VERTICAL SINGLE AND RIGHT DOUBLE
+ { 0x255F, "SF370000" }, // BOX DRAWINGS VERTICAL DOUBLE AND RIGHT SINGLE
+ { 0x2560, "SF420000" }, // BOX DRAWINGS DOUBLE VERTICAL AND RIGHT
+ { 0x2561, "SF190000" }, // BOX DRAWINGS VERTICAL SINGLE AND LEFT DOUBLE
+ { 0x2562, "SF200000" }, // BOX DRAWINGS VERTICAL DOUBLE AND LEFT SINGLE
+ { 0x2563, "SF230000" }, // BOX DRAWINGS DOUBLE VERTICAL AND LEFT
+ { 0x2564, "SF470000" }, // BOX DRAWINGS DOWN SINGLE AND HORIZONTAL DOUBLE
+ { 0x2565, "SF480000" }, // BOX DRAWINGS DOWN DOUBLE AND HORIZONTAL SINGLE
+ { 0x2566, "SF410000" }, // BOX DRAWINGS DOUBLE DOWN AND HORIZONTAL
+ { 0x2567, "SF450000" }, // BOX DRAWINGS UP SINGLE AND HORIZONTAL DOUBLE
+ { 0x2568, "SF460000" }, // BOX DRAWINGS UP DOUBLE AND HORIZONTAL SINGLE
+ { 0x2569, "SF400000" }, // BOX DRAWINGS DOUBLE UP AND HORIZONTAL
+ { 0x256A, "SF540000" }, // BOX DRAWINGS VERTICAL SINGLE AND HORIZONTAL DOUBLE
+ { 0x256B, "SF530000" }, // BOX DRAWINGS VERTICAL DOUBLE AND HORIZONTAL SINGLE
+ { 0x256C, "SF440000" }, // BOX DRAWINGS DOUBLE VERTICAL AND HORIZONTAL
+ { 0x2580, "upblock" }, // UPPER HALF BLOCK
+ { 0x2584, "dnblock" }, // LOWER HALF BLOCK
+ { 0x2588, "block" }, // FULL BLOCK
+ { 0x258C, "lfblock" }, // LEFT HALF BLOCK
+ { 0x2590, "rtblock" }, // RIGHT HALF BLOCK
+ { 0x2591, "ltshade" }, // LIGHT SHADE
+ { 0x2592, "shade" }, // MEDIUM SHADE
+ { 0x2593, "dkshade" }, // DARK SHADE
+ { 0x25A0, "filledbox" }, // BLACK STQUARE
+ { 0x25A1, "H22073" }, // WHITE STQUARE
+ { 0x25AA, "H18543" }, // BLACK SMALL STQUARE
+ { 0x25AB, "H18551" }, // WHITE SMALL STQUARE
+ { 0x25AC, "filledrect" }, // BLACK RECTANGLE
+ { 0x25B2, "triagup" }, // BLACK UP-POINTING TRIANGLE
+ { 0x25BA, "triagrt" }, // BLACK RIGHT-POINTING POINTER
+ { 0x25BC, "triagdn" }, // BLACK DOWN-POINTING TRIANGLE
+ { 0x25C4, "triaglf" }, // BLACK LEFT-POINTING POINTER
+ { 0x25CA, "lozenge" }, // LOZENGE
+ { 0x25CB, "circle" }, // WHITE CIRCLE
+ { 0x25CF, "H18533" }, // BLACK CIRCLE
+ { 0x25D8, "invbullet" }, // INVERSE BULLET
+ { 0x25D9, "invcircle" }, // INVERSE WHITE CIRCLE
+ { 0x25E6, "openbullet" }, // WHITE BULLET
+ { 0x263A, "smileface" }, // WHITE SMILING FACE
+ { 0x263B, "invsmileface" }, // BLACK SMILING FACE
+ { 0x263C, "sun" }, // WHITE SUN WITH RAYS
+ { 0x2640, "female" }, // FEMALE SIGN
+ { 0x2642, "male" }, // MALE SIGN
+ { 0x2660, "spade" }, // BLACK SPADE SUIT
+ { 0x2663, "club" }, // BLACK CLUB SUIT
+ { 0x2665, "heart" }, // BLACK HEART SUIT
+ { 0x2666, "diamond" }, // BLACK DIAMOND SUIT
+ { 0x266A, "musicalnote" }, // EIGHTH NOTE
+ { 0x266B, "musicalnotedbl" }, // BEAMED EIGHTH NOTES
+ // The names below are in the PU area of Unicode, but needed to get a correct mapping of the symbol font
+ { 0xF6D9, "copyrightserif" },
+ { 0xF6DA, "registerserif" },
+ { 0xF6DB, "trademarkserif" },
+ { 0xF8E5, "radicalex" },
+ { 0xF8E6, "arrowvertex" },
+ { 0xF8E7, "arrowhorizex" },
+ { 0xF8E8, "registersans" },
+ { 0xF8E9, "copyrightsans" },
+ { 0xF8EA, "trademarksans" },
+ { 0xF8EB, "parenlefttp" },
+ { 0xF8EC, "parenleftex" },
+ { 0xF8ED, "parenleftbt" },
+ { 0xF8EE, "bracketlefttp" },
+ { 0xF8EF, "bracketleftex" },
+ { 0xF8F0, "bracketleftbt" },
+ { 0xF8F1, "bracelefttp" },
+ { 0xF8F2, "braceleftmid" },
+ { 0xF8F3, "braceleftbt" },
+ { 0xF8F4, "braceex" },
+ { 0xF8F5, "integralex" },
+ { 0xF8F6, "parenrighttp" },
+ { 0xF8F7, "parenrightex" },
+ { 0xF8F8, "parenrightbt" },
+ { 0xF8F9, "bracketrighttp" },
+ { 0xF8FA, "bracketrightex" },
+ { 0xF8FB, "bracketrightbt" },
+ { 0xF8FC, "bracerighttp" },
+ { 0xF8FD, "bracerightmid" },
+ { 0xF8FE, "bracerightbt" },
+ // End of extensions needed for symbols
+ { 0xFB00, "ff" }, // LATIN SMALL LIGATURE FF
+ { 0xFB01, "fi" }, // LATIN SMALL LIGATURE FI
+ { 0xFB02, "fl" }, // LATIN SMALL LIGATURE FL
+ { 0xFB03, "ffi" }, // LATIN SMALL LIGATURE FFI
+ { 0xFB04, "ffl" }, // LATIN SMALL LIGATURE FFL
+ { 0xFB1F, "afii57705" }, // HEBREW LIGATURE YIDDISH YOD YOD PATAH
+ { 0xFB2A, "afii57694" }, // HEBREW LETTER SHIN WITH SHIN DOT
+ { 0xFB2B, "afii57695" }, // HEBREW LETTER SHIN WITH SIN DOT
+ { 0xFB35, "afii57723" }, // HEBREW LETTER VAV WITH DAGESH
+ { 0xFB4B, "afii57700" }, // HEBREW LETTER VAV WITH HOLAM
+ // end of stuff from glyphlist.txt
+ { 0xFFFF, 0 }
+};
+
+// ---------------------------------------------------------------------
+// postscript font substitution dictionary. We assume every postscript printer has at least
+// Helvetica, Times, Courier and Symbol
+
+struct psfont {
+ const char *psname;
+ float slant;
+ float xscale;
+};
+
+static const psfont Arial[] = {
+ {"Arial", 0, 84.04 },
+ { "Arial-Italic", 0, 84.04 },
+ { "Arial-Bold", 0, 88.65 },
+ { "Arial-BoldItalic", 0, 88.65 }
+};
+
+static const psfont AvantGarde[] = {
+ { "AvantGarde-Book", 0, 87.43 },
+ { "AvantGarde-BookOblique", 0, 88.09 },
+ { "AvantGarde-Demi", 0, 88.09 },
+ { "AvantGarde-DemiOblique", 0, 87.43 },
+};
+
+static const psfont Bookman [] = {
+ { "Bookman-Light", 0, 93.78 },
+ { "Bookman-LightItalic", 0, 91.42 },
+ { "Bookman-Demi", 0, 99.86 },
+ { "Bookman-DemiItalic", 0, 101.54 }
+};
+
+static const psfont Charter [] = {
+ { "CharterBT-Roman", 0, 84.04 },
+ { "CharterBT-Italic", 0.0, 81.92 },
+ { "CharterBT-Bold", 0, 88.99 },
+ { "CharterBT-BoldItalic", 0.0, 88.20 }
+};
+
+static const psfont Courier [] = {
+ { "Courier", 0, 100. },
+ { "Courier-Oblique", 0, 100. },
+ { "Courier-Bold", 0, 100. },
+ { "Courier-BoldOblique", 0, 100. }
+};
+
+static const psfont Garamond [] = {
+ { "Garamond-Antiqua", 0, 78.13 },
+ { "Garamond-Kursiv", 0, 78.13 },
+ { "Garamond-Halbfett", 0, 78.13 },
+ { "Garamond-KursivHalbfett", 0, 78.13 }
+};
+
+static const psfont GillSans [] = { // ### some estimated value for xstretch
+ { "GillSans", 0, 82 },
+ { "GillSans-Italic", 0, 82 },
+ { "GillSans-Bold", 0, 82 },
+ { "GillSans-BoldItalic", 0, 82 }
+};
+
+static const psfont Helvetica [] = {
+ { "Helvetica", 0, 84.04 },
+ { "Helvetica-Oblique", 0, 84.04 },
+ { "Helvetica-Bold", 0, 88.65 },
+ { "Helvetica-BoldOblique", 0, 88.65 }
+};
+
+static const psfont Letter [] = {
+ { "LetterGothic", 0, 83.32 },
+ { "LetterGothic-Italic", 0, 83.32 },
+ { "LetterGothic-Bold", 0, 83.32 },
+ { "LetterGothic-Bold", 0.2, 83.32 }
+};
+
+static const psfont LucidaSans [] = {
+ { "LucidaSans", 0, 94.36 },
+ { "LucidaSans-Oblique", 0, 94.36 },
+ { "LucidaSans-Demi", 0, 98.10 },
+ { "LucidaSans-DemiOblique", 0, 98.08 }
+};
+
+static const psfont LucidaSansTT [] = {
+ { "LucidaSans-Typewriter", 0, 100.50 },
+ { "LucidaSans-TypewriterOblique", 0, 100.50 },
+ { "LucidaSans-TypewriterBold", 0, 100.50 },
+ { "LucidaSans-TypewriterBoldOblique", 0, 100.50 }
+};
+
+static const psfont LucidaBright [] = {
+ { "LucidaBright", 0, 93.45 },
+ { "LucidaBright-Italic", 0, 91.98 },
+ { "LucidaBright-Demi", 0, 96.22 },
+ { "LucidaBright-DemiItalic", 0, 96.98 }
+};
+
+static const psfont Palatino [] = {
+ { "Palatino-Roman", 0, 82.45 },
+ { "Palatino-Italic", 0, 76.56 },
+ { "Palatino-Bold", 0, 83.49 },
+ { "Palatino-BoldItalic", 0, 81.51 }
+};
+
+static const psfont Symbol [] = {
+ { "Symbol", 0, 82.56 },
+ { "Symbol", 0.2, 82.56 },
+ { "Symbol", 0, 82.56 },
+ { "Symbol", 0.2, 82.56 }
+};
+
+static const psfont Tahoma [] = {
+ { "Tahoma", 0, 83.45 },
+ { "Tahoma", 0.2, 83.45 },
+ { "Tahoma-Bold", 0, 95.59 },
+ { "Tahoma-Bold", 0.2, 95.59 }
+};
+
+static const psfont Times [] = {
+ { "Times-Roman", 0, 82.45 },
+ { "Times-Italic", 0, 82.45 },
+ { "Times-Bold", 0, 82.45 },
+ { "Times-BoldItalic", 0, 82.45 }
+};
+
+static const psfont Verdana [] = {
+ { "Verdana", 0, 96.06 },
+ { "Verdana-Italic", 0, 96.06 },
+ { "Verdana-Bold", 0, 107.12 },
+ { "Verdana-BoldItalic", 0, 107.10 }
+};
+
+static const psfont Utopia [] = { // ###
+ { "Utopia-Regular", 0, 84.70 },
+ { "Utopia-Regular", 0.2, 84.70 },
+ { "Utopia-Bold", 0, 88.01 },
+ { "Utopia-Bold", 0.2, 88.01 }
+};
+
+static const psfont * const SansSerifReplacements[] = {
+ Helvetica, 0
+ };
+static const psfont * const SerifReplacements[] = {
+ Times, 0
+ };
+static const psfont * const FixedReplacements[] = {
+ Courier, 0
+ };
+static const psfont * const TahomaReplacements[] = {
+ Verdana, AvantGarde, Helvetica, 0
+ };
+static const psfont * const VerdanaReplacements[] = {
+ Tahoma, AvantGarde, Helvetica, 0
+ };
+
+static const struct {
+ const char * input; // spaces are stripped in here, and everything lowercase
+ const psfont * ps;
+ const psfont *const * replacements;
+} postscriptFonts [] = {
+ { "arial", Arial, SansSerifReplacements },
+ { "arialmt", Arial, SansSerifReplacements },
+ { "arialunicodems", Arial, SansSerifReplacements },
+ { "avantgarde", AvantGarde, SansSerifReplacements },
+ { "bookman", Bookman, SerifReplacements },
+ { "charter", Charter, SansSerifReplacements },
+ { "bitstreamcharter", Charter, SansSerifReplacements },
+ { "bitstreamcyberbit", Times, SerifReplacements }, // ###
+ { "courier", Courier, 0 },
+ { "couriernew", Courier, 0 },
+ { "fixed", Courier, 0 },
+ { "garamond", Garamond, SerifReplacements },
+ { "gillsans", GillSans, SansSerifReplacements },
+ { "helvetica", Helvetica, 0 },
+ { "letter", Letter, FixedReplacements },
+ { "lucida", LucidaSans, SansSerifReplacements },
+ { "lucidasans", LucidaSans, SansSerifReplacements },
+ { "lucidabright", LucidaBright, SerifReplacements },
+ { "lucidasanstypewriter", LucidaSansTT, FixedReplacements },
+ { "luciduxsans", LucidaSans, SansSerifReplacements },
+ { "luciduxserif", LucidaBright, SerifReplacements },
+ { "luciduxmono", LucidaSansTT, FixedReplacements },
+ { "palatino", Palatino, SerifReplacements },
+ { "symbol", Symbol, 0 },
+ { "tahoma", Tahoma, TahomaReplacements },
+ { "terminal", Courier, 0 },
+ { "times", Times, 0 },
+ { "timesnewroman", Times, 0 },
+ { "verdana", Verdana, VerdanaReplacements },
+ { "utopia", Utopia, SerifReplacements },
+ { 0, 0, 0 }
+};
+
+
+// ------------------------------End of static data ----------------------------------
+
+// make sure DSC comments are not longer than 255 chars per line.
+static TQString wrapDSC( const TQString &str )
+{
+ TQString dsc = str.simplifyWhiteSpace();
+ const uint wrapAt = 254;
+ TQString wrapped;
+ if ( dsc.length() < wrapAt )
+ wrapped = dsc;
+ else {
+ wrapped = dsc.left( wrapAt );
+ TQString tmp = dsc.mid( wrapAt );
+ while ( tmp.length() > wrapAt-3 ) {
+ wrapped += "\n%%+" + tmp.left( wrapAt-3 );
+ tmp = tmp.mid( wrapAt-3 );
+ }
+ wrapped += "\n%%+" + tmp;
+ }
+ return wrapped + "\n";
+}
+
+static TQString toString( const float num )
+{
+ return TQString::number( num, 'f', 3 );
+}
+
+// ----------------------------- Internal class declarations -----------------------------
+
+class TQPSPrinterFontPrivate;
+
+class TQPSPrinterPrivate {
+public:
+ TQPSPrinterPrivate( TQPrinter *prt, int filedes );
+ ~TQPSPrinterPrivate();
+
+ void matrixSetup( TQPainter * );
+ void clippingSetup( TQPainter * );
+ void setClippingOff( TQPainter * );
+ void orientationSetup();
+ void resetDrawingTools( TQPainter * );
+ void emitHeader( bool finished );
+ void setFont( const TQFont &, int script );
+ void drawImage( TQPainter *, float x, float y, float w, float h, const TQImage &img, const TQImage &mask );
+ void initPage( TQPainter *paint );
+ void flushPage( bool last = FALSE );
+
+ TQPrinter *printer;
+ int pageCount;
+ bool dirtyMatrix;
+ bool dirtyNewPage;
+ bool epsf;
+ TQString fontsUsed;
+
+ // outstream is the stream the build up pages are copied to. It points to buffer
+ // at the start, and is reset to use the outDevice after emitHeader has been called.
+ TQTextStream outStream;
+
+ // stores the descriptions of the first pages. outStream operates on this buffer
+ // until we call emitHeader
+ TQBuffer *buffer;
+ int pagesInBuffer;
+
+ // the device the output is in the end streamed to.
+ TQIODevice * outDevice;
+ int fd;
+
+ // buffer for the current page. Needed becaus we might have page fonts.
+ TQBuffer *pageBuffer;
+ TQTextStream pageStream;
+
+ TQDict<TQString> headerFontNames;
+ TQDict<TQString> pageFontNames;
+ TQDict<TQPSPrinterFontPrivate> fonts;
+ TQPSPrinterFontPrivate *currentFontFile;
+ int headerFontNumber;
+ int pageFontNumber;
+ TQBuffer * fontBuffer;
+ TQTextStream fontStream;
+ bool dirtyClipping;
+ bool firstClipOnPage;
+ TQRect boundingBox;
+ TQImage * savedImage;
+ TQPen cpen;
+ TQBrush cbrush;
+ bool dirtypen;
+ bool dirtybrush;
+ TQColor bkColor;
+ bool dirtyBkColor;
+ TQt::BGMode bkMode;
+ bool dirtyBkMode;
+#ifndef QT_NO_TEXTCODEC
+ TQTextCodec * currentFontCodec;
+#endif
+ TQString currentFont;
+ TQFontMetrics fm;
+ int textY;
+ TQFont currentUsed;
+ int scriptUsed;
+ TQFont currentSet;
+ float scale;
+
+ TQStringList fontpath;
+};
+
+
+class TQPSPrinterFontPrivate {
+public:
+ TQPSPrinterFontPrivate();
+ virtual ~TQPSPrinterFontPrivate() {}
+ virtual TQString postScriptFontName() { return psname; }
+ virtual TQString defineFont( TQTextStream &stream, const TQString &ps, const TQFont &f, const TQString &key,
+ TQPSPrinterPrivate *d );
+ virtual void download(TQTextStream& s, bool global);
+ virtual void drawText( TQTextStream &stream, const TQPoint &p, TQTextEngine *engine, int item,
+ const TQString &text, TQPSPrinterPrivate *d, TQPainter *paint);
+ virtual unsigned short mapUnicode( unsigned short unicode );
+ void downloadMapping( TQTextStream &s, bool global );
+ TQString glyphName( unsigned short glyphindex, bool *glyphSet = 0 );
+ virtual void restore();
+
+ virtual unsigned short unicode_for_glyph(int glyphindex) { return glyphindex; }
+ virtual unsigned short glyph_for_unicode(unsigned short unicode) { return unicode; }
+ unsigned short insertIntoSubset( unsigned short unicode );
+ virtual bool embedded() { return FALSE; }
+
+ bool operator == ( const TQPSPrinterFontPrivate &other ) {
+ return other.psname == psname;
+ }
+ inline void setSymbol() { symbol = TRUE; }
+
+protected:
+ TQString psname;
+ TQStringList replacementList;
+
+ TQMap<unsigned short, unsigned short> subset; // unicode subset in the global font
+ TQMap<unsigned short, unsigned short> page_subset; // subset added in this page
+ int subsetCount;
+ int pageSubsetCount;
+ bool global_dict;
+ bool downloaded;
+ bool symbol;
+};
+
+// ------------------- end of class declarations ---------------------------
+
+// --------------------------------------------------------------
+// beginning of font related methods
+// --------------------------------------------------------------
+
+
+static int getPsFontType( const TQFontEngine *fe )
+{
+ int weight = fe->fontDef.weight;
+ bool italic = fe->fontDef.italic;
+
+ int type = 0; // used to look up in the psname array
+ // get the right modification, or build something
+ if ( weight > TQFont::Normal && italic )
+ type = 3;
+ else if ( weight > TQFont::Normal )
+ type = 2;
+ else if ( italic )
+ type = 1;
+ return type;
+}
+
+static int addPsFontNameExtension( const TQFontEngine *fe, TQString &ps, const psfont *psf = 0 )
+{
+ int type = getPsFontType( fe );
+
+ if ( psf ) {
+ ps = TQString::fromLatin1( psf[type].psname );
+ } else {
+ switch ( type ) {
+ case 1:
+ ps.append( TQString::fromLatin1("-Italic") );
+ break;
+ case 2:
+ ps.append( TQString::fromLatin1("-Bold") );
+ break;
+ case 3:
+ ps.append( TQString::fromLatin1("-BoldItalic") );
+ break;
+ case 0:
+ default:
+ break;
+ }
+ }
+ return type;
+}
+
+static TQString makePSFontName( const TQFontEngine *fe, int *listpos = 0, int *ftype = 0 )
+{
+ TQString ps;
+ int i;
+
+ TQString family = fe->fontDef.family.lower();
+
+ // try to make a "good" postscript name
+ ps = family.simplifyWhiteSpace();
+ i = 0;
+ while( (unsigned int)i < ps.length() ) {
+ if ( i != 0 && ps[i] == '[') {
+ if ( ps[i-1] == ' ' )
+ ps.truncate (i-1);
+ else
+ ps.truncate (i);
+ break;
+ }
+ if ( i == 0 || ps[i-1] == ' ' ) {
+ ps[i] = ps[i].upper();
+ if ( i )
+ ps.remove( i-1, 1 );
+ else
+ i++;
+ } else {
+ i++;
+ }
+ }
+
+ if ( ps.isEmpty() )
+ ps = "Helvetica";
+
+ // see if the table has a better name
+ i = 0;
+ TQString lowerName = ps.lower();
+ while( postscriptFonts[i].input &&
+ postscriptFonts[i].input != lowerName )
+ i++;
+ const psfont *psf = postscriptFonts[i].ps;
+
+ int type = addPsFontNameExtension( fe, ps, psf );
+
+ if ( listpos )
+ *listpos = i;
+ if ( ftype )
+ *ftype = type;
+ return ps;
+}
+
+static void appendReplacements( TQStringList &list, const psfont * const * replacements, int type, float xscale = 100. )
+{
+ // iterate through the replacement fonts
+ while ( *replacements ) {
+ const psfont *psf = *replacements;
+ TQString ps = "[ /" + TQString::fromLatin1( psf[type].psname ) + " " +
+ toString( xscale / psf[type].xscale ) + " " +
+ toString( psf[type].slant ) + " ]";
+ list.append( ps );
+ ++replacements;
+ }
+}
+
+static TQStringList makePSFontNameList( const TQFontEngine *fe, const TQString &psname = TQString::null, bool useNameForLookup = FALSE )
+{
+ int i;
+ int type;
+ TQStringList list;
+ TQString ps = psname;
+
+ if ( !ps.isEmpty() && !useNameForLookup ) {
+ TQString best = "[ /" + ps + " 1.0 0.0 ]";
+ list.append( best );
+ }
+
+ ps = makePSFontName( fe, &i, &type );
+
+ const psfont *psf = postscriptFonts[i].ps;
+ const psfont * const * replacements = postscriptFonts[i].replacements;
+ float xscale = 100;
+ if ( psf ) {
+ // xscale for the "right" font is always 1. We scale the replacements...
+ xscale = psf->xscale;
+ ps = "[ /" + TQString::fromLatin1( psf[type].psname ) + " 1.0 " +
+ toString( psf[type].slant ) + " ]";
+ } else {
+ ps = "[ /" + ps + " 1.0 0.0 ]";
+ // only add default replacement fonts in case this font was unknown.
+ if ( fe->fontDef.fixedPitch ) {
+ replacements = FixedReplacements;
+ } else {
+ replacements = SansSerifReplacements;
+ // 100 is courier, but most fonts are not as wide as courier. Using 100
+ // here would make letters overlap for some fonts. This value is empirical.
+ xscale = 83;
+ }
+ }
+ list.append( ps );
+
+ if ( replacements )
+ appendReplacements( list, replacements, type, xscale);
+ return list;
+}
+
+static void emitPSFontNameList( TQTextStream &s, const TQString &psname, const TQStringList &list )
+{
+ s << "/" << psname << "List [\n";
+ s << list.join("\n ");
+ s << "\n] d\n";
+}
+
+static inline float pointSize( const TQFont &f, float scale )
+{
+ float psize;
+ if ( f.pointSize() != -1 )
+ psize = f.pointSize()/scale;
+ else
+ psize = f.pixelSize();
+ return psize;
+}
+
+
+// ========================== FONT CLASSES ===============
+
+
+TQPSPrinterFontPrivate::TQPSPrinterFontPrivate()
+{
+ global_dict = FALSE;
+ downloaded = FALSE;
+ symbol = FALSE;
+ // map 0 to .notdef
+ subset.insert( 0, 0 );
+ subsetCount = 1;
+ pageSubsetCount = 0;
+}
+
+unsigned short TQPSPrinterFontPrivate::insertIntoSubset( unsigned short u )
+{
+ unsigned short retval = 0;
+ if ( subset.find(u) == subset.end() ) {
+ if ( !downloaded ) { // we need to add to the page subset
+ subset.insert( u, subsetCount ); // mark it as used
+ //printf("GLOBAL SUBSET ADDED %04x = %04x\n",u, subsetCount);
+ retval = subsetCount;
+ subsetCount++;
+ } else if ( page_subset.find(u) == page_subset.end() ) {
+ page_subset.insert( u, pageSubsetCount ); // mark it as used
+ //printf("PAGE SUBSET ADDED %04x = %04x\n",u, pageSubsetCount);
+ retval = pageSubsetCount + (subsetCount/256 + 1) * 256;
+ pageSubsetCount++;
+ }
+ } else {
+ qWarning("TQPSPrinterFont::internal error");
+ }
+ return retval;
+}
+
+void TQPSPrinterFontPrivate::restore()
+{
+ page_subset.clear();
+ pageSubsetCount = 0;
+ //qDebug("restore for font %s\n",psname.latin1());
+}
+
+static inline const char *toHex( uchar u )
+{
+ static char hexVal[3];
+ int i = 1;
+ while ( i >= 0 ) {
+ ushort hex = (u & 0x000f);
+ if ( hex < 0x0a )
+ hexVal[i] = '0'+hex;
+ else
+ hexVal[i] = 'A'+(hex-0x0a);
+ u = u >> 4;
+ i--;
+ }
+ hexVal[2] = '\0';
+ return hexVal;
+}
+
+static inline const char *toHex( ushort u )
+{
+ static char hexVal[5];
+ int i = 3;
+ while ( i >= 0 ) {
+ ushort hex = (u & 0x000f);
+ if ( hex < 0x0a )
+ hexVal[i] = '0'+hex;
+ else
+ hexVal[i] = 'A'+(hex-0x0a);
+ u = u >> 4;
+ i--;
+ }
+ hexVal[4] = '\0';
+ return hexVal;
+}
+
+static inline const char * toInt( int i )
+{
+ static char intVal[20];
+ intVal[19] = 0;
+ int pos = 19;
+ if ( i == 0 ) {
+ intVal[--pos] = '0';
+ } else {
+ bool neg = FALSE;
+ if ( i < 0 ) {
+ neg = TRUE;
+ i = -i;
+ }
+ while ( i ) {
+ int dec = i%10;
+ intVal[--pos] = '0'+dec;
+ i /= 10;
+ }
+ if ( neg )
+ intVal[--pos] = '-';
+ }
+ return intVal+pos;
+}
+
+void TQPSPrinterFontPrivate::drawText( TQTextStream &stream, const TQPoint &p, TQTextEngine *engine, int item,
+ const TQString &text, TQPSPrinterPrivate *d, TQPainter *paint)
+{
+ int len = engine->length( item );
+ TQScriptItem &si = engine->items[item];
+
+ int x = p.x() + si.x;
+ int y = p.y() + si.y;
+ if ( y != d->textY || d->textY == 0 )
+ stream << y << " Y";
+ d->textY = y;
+
+ stream << "<";
+ if ( si.analysis.bidiLevel % 2 ) {
+ for ( int i = len-1; i >=0; i-- )
+ stream << toHex( mapUnicode(text.unicode()[i].unicode()) );
+ } else {
+ for ( int i = 0; i < len; i++ )
+ stream << toHex( mapUnicode(text.unicode()[i].unicode()) );
+ }
+ stream << ">";
+
+ stream << si.width << " " << x;
+
+ if ( paint->font().underline() )
+ stream << ' ' << y + d->fm.underlinePos() + d->fm.lineWidth()
+ << " " << d->fm.lineWidth() << " Tl";
+ if ( paint->font().strikeOut() )
+ stream << ' ' << y + d->fm.strikeOutPos()
+ << " " << d->fm.lineWidth() << " Tl";
+ stream << " AT\n";
+
+}
+
+
+TQString TQPSPrinterFontPrivate::defineFont( TQTextStream &stream, const TQString &ps, const TQFont &f, const TQString &key,
+ TQPSPrinterPrivate *d )
+{
+ TQString fontName;
+ fontName.sprintf( "/%s-Uni", ps.latin1());
+
+ if ( d->buffer ) {
+ ++d->headerFontNumber;
+ d->fontStream << "/F" << d->headerFontNumber << " "
+ << pointSize( f, d->scale ) << fontName << " DF\n";
+ fontName.sprintf( "F%d", d->headerFontNumber );
+ d->headerFontNames.insert( key, new TQString( fontName ) );
+ } else {
+ ++d->pageFontNumber;
+ stream << "/F" << d->pageFontNumber << " "
+ << pointSize( f, d->scale ) << fontName << " DF\n";
+ fontName.sprintf( "F%d", d->pageFontNumber );
+ d->pageFontNames.insert( key, new TQString( fontName ) );
+ }
+ return fontName;
+}
+
+unsigned short TQPSPrinterFontPrivate::mapUnicode( unsigned short unicode )
+{
+ TQMap<unsigned short, unsigned short>::iterator res;
+ res = subset.find( unicode );
+ unsigned short offset = 0;
+ bool found = FALSE;
+ if ( res != subset.end() ) {
+ found = TRUE;
+ } else {
+ if ( downloaded ) {
+ res = page_subset.find( unicode );
+ offset = (subsetCount/256 + 1) * 256;
+ if ( res != page_subset.end() )
+ found = TRUE;
+ }
+ }
+ if ( !found ) {
+ return insertIntoSubset( unicode );
+ }
+ //qDebug("mapping unicode %x to %x", unicode, offset+*res);
+ return offset + *res;
+}
+
+// This map is used for symbol fonts to get the correct glyph names for the latin range
+static const unsigned short symbol_map[0x100] = {
+ 0x0000, 0x0001, 0x0002, 0x0003, 0x0004, 0x0005, 0x0006, 0x0007,
+ 0x0008, 0x0009, 0x000a, 0x000b, 0x000c, 0x000d, 0x000e, 0x000f,
+ 0x0010, 0x0011, 0x0012, 0x0013, 0x0014, 0x0015, 0x0016, 0x0017,
+ 0x0018, 0x0019, 0x001a, 0x001b, 0x001c, 0x001d, 0x001e, 0x001f,
+ 0x0020, 0x0021, 0x2200, 0x0023, 0x2203, 0x0025, 0x0026, 0x220b,
+ 0x0028, 0x0029, 0x2217, 0x002b, 0x002c, 0x2212, 0x002e, 0x002f,
+ 0x0030, 0x0031, 0x0032, 0x0033, 0x0034, 0x0035, 0x0036, 0x0037,
+ 0x0038, 0x0039, 0x003a, 0x003b, 0x003c, 0x003d, 0x003e, 0x003f,
+
+ 0x2245, 0x0391, 0x0392, 0x03a7, 0x0394, 0x0395, 0x03a6, 0x0393,
+ 0x0397, 0x0399, 0x03d1, 0x039a, 0x039b, 0x039c, 0x039d, 0x039f,
+ 0x03a0, 0x0398, 0x03a1, 0x03a3, 0x03a4, 0x03a5, 0x03c2, 0x03a9,
+ 0x039e, 0x03a8, 0x0396, 0x005b, 0x2234, 0x005d, 0x22a5, 0x005f,
+ 0xf8e5, 0x03b1, 0x03b2, 0x03c7, 0x03b4, 0x03b5, 0x03c6, 0x03b3,
+ 0x03b7, 0x03b9, 0x03d5, 0x03ba, 0x03bb, 0x03bc, 0x03bd, 0x03bf,
+ 0x03c0, 0x03b8, 0x03c1, 0x03c3, 0x03c4, 0x03c5, 0x03d6, 0x03c9,
+ 0x03be, 0x03c8, 0x03b6, 0x007b, 0x007c, 0x007d, 0x223c, 0x007f,
+
+ 0x0080, 0x0081, 0x0082, 0x0083, 0x0084, 0x0085, 0x0086, 0x0087,
+ 0x0088, 0x0089, 0x008a, 0x008b, 0x008c, 0x008d, 0x008e, 0x008f,
+ 0x0090, 0x0091, 0x0092, 0x0093, 0x0094, 0x0095, 0x0096, 0x0097,
+ 0x0098, 0x0099, 0x009a, 0x009b, 0x009c, 0x009d, 0x009e, 0x009f,
+ 0x20ac, 0x03d2, 0x2023, 0x2264, 0x2044, 0x221e, 0x0192, 0x2263,
+ 0x2666, 0x2665, 0x2660, 0x2194, 0x2190, 0x2191, 0x2192, 0x2193,
+ 0x00b0, 0x00b1, 0x2033, 0x2265, 0x00d7, 0x221d, 0x2202, 0x2022,
+ 0x00f7, 0x2260, 0x2261, 0x2248, 0x2026, 0xf8e6, 0xf8e7, 0x21b5,
+
+ 0x2135, 0x2111, 0x211c, 0x2118, 0x2297, 0x2295, 0x2205, 0x2229,
+ 0x222a, 0x2283, 0x2287, 0x2284, 0x2282, 0x2286, 0x2208, 0x2209,
+ 0x2220, 0x2207, 0xf6da, 0xf6d9, 0xf6db, 0x220f, 0x221a, 0x22c5,
+ 0x00ac, 0x2227, 0x2228, 0x21d4, 0x21d0, 0x21d1, 0x21d2, 0x21d3,
+ 0x25ca, 0x2329, 0xf8e8, 0xf8e9, 0xf8ea, 0x2211, 0xf8eb, 0xf8ec,
+ 0xf8ed, 0xf8ee, 0xf8ef, 0xf8f0, 0xf8f1, 0xf8f2, 0xf8f3, 0xf8f4,
+ 0x0000, 0x232a, 0x222b, 0x2320, 0xf8f5, 0x2321, 0xf8f6, 0xf8f7,
+ 0xf8f8, 0xf8f9, 0xf8fa, 0xf8fb, 0xf8fc, 0xf8fd, 0xf8fe, 0x0000,
+};
+
+TQString TQPSPrinterFontPrivate::glyphName( unsigned short glyphindex, bool *glyphSet )
+{
+ TQString glyphname;
+ int l = 0;
+ unsigned short unicode = unicode_for_glyph( glyphindex );
+ if (symbol && unicode < 0x100) {
+ // map from latin1 to symbol
+ unicode = symbol_map[unicode];
+ }
+ if ( !unicode && glyphindex ) {
+ glyphname = "gl";
+ glyphname += toHex( glyphindex );
+ } else {
+ while( unicodetoglyph[l].u < unicode )
+ l++;
+ if ( unicodetoglyph[l].u == unicode ) {
+ glyphname = unicodetoglyph[l].g;
+ if ( glyphSet ) {
+ int other = 0;
+ switch ( unicode ) {
+ // some glyph names are duplicate in postscript. Make sure we give the
+ // duplicate a different name to avoid infinite recursion
+ case 0x0394:
+ other = 0x2206;
+ break;
+ case 0x03a9:
+ other = 0x2126;
+ break;
+ case 0x0162:
+ other = 0x021a;
+ break;
+ case 0x2215:
+ other = 0x2044;
+ break;
+ case 0x00ad:
+ other = 0x002d;
+ break;
+ case 0x02c9:
+ other = 0x00af;
+ break;
+ case 0x03bc:
+ other = 0x00b5;
+ break;
+ case 0x2219:
+ other = 0x00b7;
+ break;
+ case 0x00a0:
+ other = 0x0020;
+ break;
+ case 0x0163:
+ other = 0x021b;
+ break;
+ default:
+ break;
+ }
+ if ( other ) {
+ int oglyph = glyph_for_unicode( other );
+ if( oglyph && oglyph != glyphindex && glyphSet[oglyph] ) {
+ glyphname = "uni";
+ glyphname += toHex( unicode );
+ }
+ }
+ }
+ } else {
+ glyphname = "uni";
+ glyphname += toHex( unicode );
+ }
+ }
+ return glyphname;
+}
+
+void TQPSPrinterFontPrivate::download(TQTextStream &s, bool global)
+{
+ //printf("defining mapping for printer font %s\n",psname.latin1());
+ downloadMapping( s, global );
+}
+
+void TQPSPrinterFontPrivate::downloadMapping( TQTextStream &s, bool global )
+{
+ uchar rangeOffset = 0;
+ uchar numRanges = (uchar)(subsetCount/256 + 1);
+ uchar range;
+ TQMap<unsigned short, unsigned short> *subsetDict = &subset;
+ if ( !global ) {
+ rangeOffset = numRanges;
+ numRanges = pageSubsetCount/256 + 1;
+ subsetDict = &page_subset;
+ }
+ // build up inverse table
+ unsigned short *inverse = new unsigned short[numRanges * 256];
+ memset( inverse, 0, numRanges * 256 * sizeof( unsigned short ) );
+
+ TQMap<unsigned short, unsigned short>::iterator it;
+ for ( it = subsetDict->begin(); it != subsetDict->end(); ++it) {
+ const unsigned short &mapped = *it;
+ inverse[mapped] = it.key();
+ }
+
+ TQString vector;
+ TQString glyphname;
+
+ for (range=0; range < numRanges; range++) {
+ //printf("outputing range %04x\n",range*256);
+ vector = "%% Font Page ";
+ vector += toHex((uchar)(range + rangeOffset));
+ vector += "\n/";
+ vector += psname;
+ vector += "-ENC-";
+ vector += toHex((uchar)(range + rangeOffset));
+ vector += " [\n";
+
+ TQString line;
+ for(int k=0; k<256; k++ ) {
+ int c = range*256 + k;
+ unsigned short glyph = inverse[c];
+ glyphname = glyphName( glyph );
+ if ( line.length() + glyphname.length() > 76 ) {
+ vector += line;
+ vector += "\n";
+ line = "";
+ }
+ line += "/" + glyphname;
+ }
+ vector += line;
+ vector += "] def\n";
+ s << vector;
+ }
+
+ delete [] inverse;
+
+ // DEFINE BASE FONTS
+
+ for (range=0; range < numRanges; range++) {
+ s << "/";
+ s << psname;
+ s << "-Uni-";
+ s << toHex((uchar)(range + rangeOffset));
+ s << " ";
+ s << psname;
+ s << "-ENC-";
+ s << toHex((uchar)(range + rangeOffset));
+ if ( embedded() && embedFonts ) {
+ s << " /";
+ s << psname;
+ s << " MFEmb\n";
+ } else {
+ s << " " << psname << "List";
+ s << " MF\n";
+ }
+ }
+
+ // === write header ===
+ // int VMMin;
+ // int VMMax;
+
+ s << wrapDSC( "%%BeginFont: " + psname )
+ << "%!PS-AdobeFont-1.0 Composite Font\n"
+ << wrapDSC( "%%FontName: " + psname + "-Uni" )
+ << "%%Creator: Composite font created by TQt\n";
+
+ /* Start the dictionary which will eventually */
+ /* become the font. */
+ s << "25 dict begin\n"; // need to verify. Sivan
+
+ s << "/FontName /";
+ s << psname;
+ s << "-Uni";
+ s << " def\n";
+ s << "/PaintType 0 def\n";
+
+ // This is concatenated with the base fonts, so it should perform
+ // no transformation. Sivan
+ s << "/FontMatrix[1 0 0 1 0 0]def\n";
+
+ s << "/FontType ";
+ s << 0;
+ s << " def\n";
+
+ // now come composite font structures
+ // FMapTypes:
+ // 2: 8/8, 8 bits select the font, 8 the glyph
+
+ s << "/FMapType 2 def\n";
+
+ // The encoding in a composite font is used for indirection.
+ // Every char is split into a font-number and a character-selector.
+ // PostScript prints glyph number character-selector from the font
+ // FDepVector[ Encoding[ font-number ] ].
+
+ s << "/Encoding [";
+ for (range=0; range < rangeOffset + numRanges; range++) {
+ if (range % 16 == 0)
+ s << "\n";
+ else
+ s << " ";
+ s << range;
+ }
+ s << "]def\n";
+
+ // Descendent fonts
+
+ s << "/FDepVector [\n";
+ for (range=0; range < rangeOffset + numRanges; range++) {
+ s << "/";
+ s << psname;
+ s << "-Uni-";
+ s << toHex( range );
+ s << " findfont\n";
+ }
+ s << "]def\n";
+
+ // === trailer ===
+
+ s << "FontName currentdict end definefont pop\n";
+ s << "%%EndFont\n";
+}
+
+
+// ================== TTF ====================
+
+typedef Q_UINT8 BYTE;
+typedef Q_UINT16 USHORT;
+typedef Q_UINT16 uFWord;
+typedef Q_INT16 SHORT;
+typedef Q_INT16 FWord;
+typedef Q_UINT32 ULONG;
+typedef Q_INT32 FIXED;
+
+typedef struct {
+ Q_INT16 whole;
+ Q_UINT16 fraction;
+} Fixed; // 16.16 bit fixed-point number
+
+static float f2dot14( ushort s )
+{
+ float f = ((float)( s & 0x3fff ))/ 16384.;
+ f += (s & 0x8000) ? ( (s & 0x4000) ? -1 : -2 ) : ( (s & 0x4000) ? 1 : 0 );
+ return f;
+}
+
+typedef struct {
+ int* epts_ctr; /* array of contour endpoints */
+ int num_pts, num_ctr; /* number of points, number of coutours */
+ FWord* xcoor, *ycoor; /* arrays of x and y coordinates */
+ BYTE* tt_flags; /* array of TrueType flags */
+ double* area_ctr;
+ char* check_ctr;
+ int* ctrset; /* in contour index followed by out contour index */
+} charproc_data;
+
+
+class TQPSPrinterFontTTF
+ : public TQPSPrinterFontPrivate {
+public:
+ TQPSPrinterFontTTF(const TQFontEngine *f, TQByteArray& data);
+ virtual void download(TQTextStream& s, bool global);
+ virtual void drawText( TQTextStream &stream, const TQPoint &p, TQTextEngine *engine, int item,
+ const TQString &text, TQPSPrinterPrivate *d, TQPainter *paint);
+ // virtual ~TQPSPrinterFontTTF();
+
+ virtual bool embedded() { return TRUE; }
+private:
+ TQByteArray data;
+ TQMemArray<ushort> uni2glyph; // to speed up lookups
+ TQMemArray<ushort> glyph2uni; // to speed up lookups
+ bool defective; // if we can't process this file
+
+ BYTE* getTable(const char *);
+ void uni2glyphSetup();
+ unsigned short unicode_for_glyph(int glyphindex);
+ unsigned short glyph_for_unicode(unsigned short unicode);
+ int topost(FWord x) { return (int)( ((int)(x) * 1000 + HUPM) / unitsPerEm ); }
+
+#ifdef Q_PRINTER_USE_TYPE42
+ void sfnts_pputBYTE(BYTE n,TQTextStream& s,
+ int& string_len, int& line_len, bool& in_string);
+ void sfnts_pputUSHORT(USHORT n,TQTextStream& s,
+ int& string_len, int& line_len, bool& in_string);
+ void sfnts_pputULONG(ULONG n,TQTextStream& s,
+ int& string_len, int& line_len, bool& in_string);
+ void sfnts_end_string(TQTextStream& s,
+ int& string_len, int& line_len, bool& in_string);
+ void sfnts_new_table(ULONG length,TQTextStream& s,
+ int& string_len, int& line_len, bool& in_string);
+ void sfnts_glyf_table(ULONG oldoffset,
+ ULONG correct_total_length,
+ TQTextStream& s,
+ int& string_len, int& line_len, bool& in_string);
+ void download_sfnts(TQTextStream& s);
+#endif
+
+ void subsetGlyph(int charindex,bool* glyphset);
+
+ void charproc(int charindex, TQTextStream& s, bool *glyphSet);
+ BYTE* charprocFindGlyphData(int charindex);
+ void charprocComposite(BYTE *glyph, TQTextStream& s, bool *glyphSet);
+ void charprocLoad(BYTE *glyph, charproc_data* cd);
+
+ int target_type; /* 42 or 3 */
+
+ int numTables; /* number of tables present */
+ TQString PostName; /* Font's PostScript name */
+ TQString FullName; /* Font's full name */
+ TQString FamilyName; /* Font's family name */
+ TQString Style; /* Font's style string */
+ TQString Copyright; /* Font's copyright string */
+ TQString Version; /* Font's version string */
+ TQString Trademark; /* Font's trademark string */
+ int llx,lly,urx,ury; /* bounding box */
+
+ Fixed TTVersion; /* Truetype version number from offset table */
+ Fixed MfrRevision; /* Revision number of this font */
+
+ BYTE *offset_table; /* Offset table in memory */
+ BYTE *post_table; /* 'post' table in memory */
+
+ BYTE *loca_table; /* 'loca' table in memory */
+ BYTE *glyf_table; /* 'glyf' table in memory */
+ BYTE *hmtx_table; /* 'hmtx' table in memory */
+
+ USHORT numberOfHMetrics;
+ int unitsPerEm; /* unitsPerEm converted to int */
+ int HUPM; /* half of above */
+
+ int numGlyphs; /* from 'post' table */
+
+ int indexToLocFormat; /* short or long offsets */
+
+};
+
+
+static ULONG getULONG(BYTE *p)
+{
+ int x;
+ ULONG val=0;
+
+ for(x=0; x<4; x++) {
+ val *= 0x100;
+ val += p[x];
+ }
+
+ return val;
+}
+
+static USHORT getUSHORT(BYTE *p)
+{
+ int x;
+ USHORT val=0;
+
+ for(x=0; x<2; x++) {
+ val *= 0x100;
+ val += p[x];
+ }
+
+ return val;
+}
+
+static Fixed getFixed(BYTE *s)
+{
+ Fixed val={0,0};
+
+ val.whole = ((s[0] * 256) + s[1]);
+ val.fraction = ((s[2] * 256) + s[3]);
+
+ return val;
+}
+
+static FWord getFWord(BYTE* s) { return (FWord) getUSHORT(s); }
+static uFWord getuFWord(BYTE* s) { return (uFWord) getUSHORT(s); }
+static SHORT getSHORT(BYTE* s) { return (SHORT) getUSHORT(s); }
+
+#if 0
+static const char * const Apple_CharStrings[]={
+ ".notdef",".null","nonmarkingreturn","space","exclam","quotedbl","numbersign",
+ "dollar","percent","ampersand","quotesingle","parenleft","parenright",
+ "asterisk","plus", "comma","hyphen","period","slash","zero","one","two",
+ "three","four","five","six","seven","eight","nine","colon","semicolon",
+ "less","equal","greater","question","at","A","B","C","D","E","F","G","H","I",
+ "J","K", "L","M","N","O","P","Q","R","S","T","U","V","W","X","Y","Z",
+ "bracketleft","backslash","bracketright","asciicircum","underscore","grave",
+ "a","b","c","d","e","f","g","h","i","j","k", "l","m","n","o","p","q","r","s",
+ "t","u","v","w","x","y","z","braceleft","bar","braceright","asciitilde",
+ "Adieresis","Aring","Ccedilla","Eacute","Ntilde","Odieresis","Udieresis",
+ "aacute","agrave","acircumflex","adieresis","atilde","aring","ccedilla",
+ "eacute","egrave","ecircumflex","edieresis","iacute","igrave","icircumflex",
+ "idieresis","ntilde","oacute","ograve","ocircumflex","odieresis","otilde",
+ "uacute","ugrave","ucircumflex","udieresis","dagger","degree","cent",
+ "sterling","section","bullet","paragraph","germandbls","registered",
+ "copyright","trademark","acute","dieresis","notequal","AE","Oslash",
+ "infinity","plusminus","lessequal","greaterequal","yen","mu","partialdiff",
+ "summation","product","pi","integral","ordfeminine","ordmasculine","Omega",
+ "ae","oslash","questiondown","exclamdown","logicalnot","radical","florin",
+ "approxequal","Delta","guillemotleft","guillemotright","ellipsis",
+ "nobreakspace","Agrave","Atilde","Otilde","OE","oe","endash","emdash",
+ "quotedblleft","quotedblright","quoteleft","quoteright","divide","lozenge",
+ "ydieresis","Ydieresis","fraction","currency","guilsinglleft","guilsinglright",
+ "fi","fl","daggerdbl","periodcentered","quotesinglbase","quotedblbase",
+ "perthousand","Acircumflex","Ecircumflex","Aacute","Edieresis","Egrave",
+ "Iacute","Icircumflex","Idieresis","Igrave","Oacute","Ocircumflex","apple",
+ "Ograve","Uacute","Ucircumflex","Ugrave","dotlessi","circumflex","tilde",
+ "macron","breve","dotaccent","ring","cedilla","hungarumlaut","ogonek","caron",
+ "Lslash","lslash","Scaron","scaron","Zcaron","zcaron","brokenbar","Eth","eth",
+ "Yacute","yacute","Thorn","thorn","minus","multiply","onesuperior",
+ "twosuperior","threesuperior","onehalf","onequarter","threequarters","franc",
+ "Gbreve","gbreve","Idot","Scedilla","scedilla","Cacute","cacute","Ccaron",
+ "ccaron","dmacron","markingspace","capslock","shift","propeller","enter",
+ "markingtabrtol","markingtabltor","control","markingdeleteltor",
+ "markingdeletertol","option","escape","parbreakltor","parbreakrtol",
+ "newpage","checkmark","linebreakltor","linebreakrtol","markingnobreakspace",
+ "diamond","appleoutline"};
+#endif
+
+// #define DEBUG_TRUETYPE
+
+TQPSPrinterFontTTF::TQPSPrinterFontTTF(const TQFontEngine *f, TQByteArray& d)
+{
+ data = d;
+ defective = FALSE;
+
+ BYTE *ptr;
+
+ target_type = 3; // will work on any printer
+ //target_type = 42; // works with gs, faster, better quality
+
+#ifdef Q_PRINTER_USE_TYPE42
+ char* environment_preference = getenv("QT_TTFTOPS");
+ if (environment_preference) {
+ if (TQString(environment_preference) == "42")
+ target_type = 42;
+ else if (TQString(environment_preference) == "3")
+ target_type = 3;
+ else
+ qWarning("The value of QT_TTFTOPS must be 42 or 3");
+ }
+#endif
+ offset_table = (unsigned char*) data.data(); /* first 12 bytes */
+
+ /* Determine how many directory entries there are. */
+ numTables = getUSHORT( offset_table + 4 );
+
+ /* Extract information from the "Offset" table. */
+ TTVersion = getFixed( offset_table );
+
+ /* Load the "head" table and extract information from it. */
+ ptr = getTable("head");
+ if ( !ptr ) {
+ defective = TRUE;
+ return;
+ }
+ MfrRevision = getFixed( ptr + 4 ); /* font revision number */
+ unitsPerEm = getUSHORT( ptr + 18 );
+ HUPM = unitsPerEm / 2;
+#ifdef DEBUG_TRUETYPE
+ printf("unitsPerEm=%d",(int)unitsPerEm);
+#endif
+ llx = topost( getFWord( ptr + 36 ) ); /* bounding box info */
+ lly = topost( getFWord( ptr + 38 ) );
+ urx = topost( getFWord( ptr + 40 ) );
+ ury = topost( getFWord( ptr + 42 ) );
+ indexToLocFormat = getSHORT( ptr + 50 ); /* size of 'loca' data */
+ if(indexToLocFormat != 0 && indexToLocFormat != 1) {
+ qWarning("TrueType font is unusable because indexToLocFormat != 0");
+ defective = TRUE;
+ return;
+ }
+ if( getSHORT(ptr+52) != 0 ) {
+ qWarning("TrueType font is unusable because glyphDataFormat != 0");
+ defective = TRUE;
+ return;
+ }
+
+ // === Load information from the "name" table ===
+
+ /* Set default values to avoid future references to */
+ /* undefined pointers. */
+
+ psname = FullName = FamilyName = Version = Style = "unknown";
+ Copyright = "No copyright notice";
+ Trademark = "No trademark notice";
+
+ BYTE* table_ptr = getTable("name"); /* pointer to table */
+ if ( !table_ptr ) {
+ defective = TRUE;
+ qDebug("couldn't find name table" );
+ return;
+ }
+ int numrecords = getUSHORT( table_ptr + 2 ); /* number of names */
+ char* strings = (char *)table_ptr + getUSHORT( table_ptr + 4 ); /* start of string storage */
+
+ BYTE* ptr2 = table_ptr + 6;
+ for(int x=0; x < numrecords; x++,ptr2+=12) {
+ int platform = getUSHORT(ptr2);
+ //int encoding = getUSHORT(ptr2+2);
+ //int language = getUSHORT(ptr2+4);
+ int nameid = getUSHORT(ptr2+6);
+ int length = getUSHORT(ptr2+8);
+ int offset = getUSHORT(ptr2+10);
+
+ if( platform == 1 && nameid == 0 )
+ Copyright.setLatin1(strings+offset,length);
+
+ if( platform == 1 && nameid == 1 )
+ FamilyName.setLatin1(strings+offset,length);
+
+ if( platform == 1 && nameid == 2 )
+ Style.setLatin1(strings+offset,length);
+
+ if( platform == 1 && nameid == 4 )
+ FullName.setLatin1(strings+offset,length);
+
+ if( platform == 1 && nameid == 5 )
+ Version.setLatin1(strings+offset,length);
+
+ if( platform == 1 && nameid == 6 )
+ psname.setLatin1(strings+offset,length);
+
+ if( platform == 1 && nameid == 7 )
+ Trademark.setLatin1(strings+offset,length);
+
+ }
+ psname.replace(' ', '-');
+ psname.replace("/", "");
+ if (psname.isEmpty())
+ psname = makePSFontName(f);
+
+ //read_cmap(font);
+
+ /* We need to have the PostScript table around. */
+
+ post_table = getTable("post");
+#if 0
+ if ( post_table ) {
+ Fixed post_format = getFixed( post_table );
+
+ if( post_format.whole != 2 || post_format.fraction != 0 ) {
+ qWarning("TrueType font does not have a format 2.0 'post' table");
+ qWarning("post format is %d.%d",post_format.whole,post_format.fraction);
+ // Sivan Feb 2001: no longer defective.
+ // defective = TRUE;
+ }
+ }
+#endif
+ BYTE *maxp = getTable("maxp");
+ if ( !maxp ) {
+ defective = TRUE;
+ qDebug("no maxp table in font");
+ return;
+ }
+ numGlyphs = getUSHORT( maxp + 4 );
+// qDebug("number of glyphs is %d", numGlyphs);
+ replacementList = makePSFontNameList( f, psname );
+ uni2glyphSetup();
+}
+
+
+void TQPSPrinterFontTTF::drawText( TQTextStream &stream, const TQPoint &p, TQTextEngine *engine, int item,
+ const TQString &text, TQPSPrinterPrivate *d, TQPainter *paint)
+{
+ // we draw glyphs here to get correct shaping of arabic and indic
+ TQScriptItem &si = engine->items[item];
+ engine->shape( item );
+ int len = si.num_glyphs;
+
+ int x = p.x() + si.x;
+ int y = p.y() + si.y;
+ if ( y != d->textY || d->textY == 0 )
+ stream << y << " Y";
+ d->textY = y;
+
+ TQCString xyarray;
+ int xo = 0;
+ int yo = 0;
+
+ glyph_t *glyphs = engine->glyphs( &si );
+ advance_t *advances = engine->advances( &si );
+ qoffset_t *offsets = engine->offsets( &si );
+#ifdef Q_WS_X11
+ int type = si.fontEngine->type();
+ bool glyphIndices = (type == TQFontEngine::Xft);
+ // This helps us get arabic for XLFD fonts working. In that case we have a Unicode
+ // cmap (== 0), and the glyphs array contains the shaped string.
+ bool useGlyphAsUnicode = (type == TQFontEngine::XLFD && si.fontEngine->cmap() == 0);
+#else // Q_WS_QWS
+ const bool glyphIndices = FALSE;
+ const bool useGlyphAsUnicode = TRUE;
+#endif
+ stream << "<";
+ if ( si.analysis.bidiLevel % 2 ) {
+ for ( int i = len-1; i >=0; i-- ) {
+ // map unicode is not really the correct name, as we map glyphs, but we also download glyphs, so this works
+ unsigned short glyph;
+ if (glyphIndices)
+ glyph = glyphs[i];
+ else
+ glyph = glyph_for_unicode(useGlyphAsUnicode ? glyphs[i] : text.unicode()[i].unicode());
+ stream << toHex(mapUnicode(glyph));
+ if ( i != len-1 ) {
+ xyarray += toInt( xo + offsets[i].x + advances[i+1] );
+ xyarray += " ";
+ xyarray += toInt( yo + offsets[i].y );
+ xyarray += " ";
+ xo = -offsets[i].x;
+ yo = -offsets[i].y;
+ }
+ }
+ } else {
+ for ( int i = 0; i < len; i++ ) {
+ // map unicode is not really the correct name, as we map glyphs, but we also download glyphs, so this works
+ unsigned short glyph;
+ if (glyphIndices)
+ glyph = glyphs[i];
+ else
+ glyph = glyph_for_unicode(useGlyphAsUnicode ? glyphs[i] : text.unicode()[i].unicode());
+ stream << toHex(mapUnicode(glyph));
+ if ( i ) {
+ xyarray += toInt( xo + offsets[i].x + advances[i-1] );
+ xyarray += " ";
+ xyarray += toInt( yo + offsets[i].y );
+ xyarray += " ";
+ xo = -offsets[i].x;
+ yo = -offsets[i].y;
+ }
+ }
+ }
+ stream << ">";
+
+ stream << "[" << xyarray << "0 0]";
+ stream << si.width << " " << x;
+
+ if ( paint->font().underline() )
+ stream << ' ' << y + d->fm.underlinePos() + d->fm.lineWidth()
+ << " " << d->fm.lineWidth() << " Tl";
+ if ( paint->font().strikeOut() )
+ stream << ' ' << y + d->fm.strikeOutPos()
+ << " " << d->fm.lineWidth() << " Tl";
+ stream << " XYT\n";
+
+}
+
+
+void TQPSPrinterFontTTF::download(TQTextStream& s,bool global)
+{
+ emitPSFontNameList( s, psname, replacementList);
+ if ( !embedFonts ) {
+ downloadMapping(s, global);
+ return;
+ }
+
+ //qDebug("downloading ttf font %s", psname.latin1() );
+ //qDebug("target type=%d", target_type);
+ global_dict = global;
+ TQMap<unsigned short, unsigned short> *subsetDict = &subset;
+ if ( !global )
+ subsetDict = &page_subset;
+
+ downloaded = TRUE;
+
+ if (defective) {
+ s << "% Font ";
+ s << FullName;
+ s << " cannot be downloaded\n";
+ return;
+ }
+
+ // === write header ===
+ int VMMin;
+ int VMMax;
+
+ s << wrapDSC( "%%BeginFont: " + FullName );
+ if( target_type == 42 ) {
+ s << "%!PS-TrueTypeFont-"
+ << TTVersion.whole
+ << "."
+ << TTVersion.fraction
+ << "-"
+ << MfrRevision.whole
+ << "."
+ << MfrRevision.fraction
+ << "\n";
+ } else {
+ /* If it is not a Type 42 font, we will use a different format. */
+ s << "%!PS-Adobe-3.0 Resource-Font\n";
+ } /* See RBIIp 641 */
+
+ if( Copyright != (char*)NULL ) {
+ s << wrapDSC( "%%Copyright: " + Copyright );
+ }
+
+ if( target_type == 42 )
+ s << "%%Creator: Converted from TrueType to type 42 by TQt\n";
+ else
+ s << "%%Creator: Converted from TrueType by TQt\n";
+
+ /* If VM usage information is available, print it. */
+ if( target_type == 42 && post_table)
+ {
+ VMMin = (int)getULONG( post_table + 16 );
+ VMMax = (int)getULONG( post_table + 20 );
+ if( VMMin > 0 && VMMax > 0 )
+ s << "%%VMUsage: " << VMMin << " " << VMMax << "\n";
+ }
+
+ /* Start the dictionary which will eventually */
+ /* become the font. */
+ if( target_type != 3 ) {
+ s << "15 dict begin\n";
+ } else {
+ s << "25 dict begin\n";
+
+ /* Type 3 fonts will need some subroutines here. */
+ s << "/_d{bind def}bind def\n";
+ s << "/_m{moveto}_d\n";
+ s << "/_l{lineto}_d\n";
+ s << "/_cl{closepath eofill}_d\n";
+ s << "/_c{curveto}_d\n";
+ s << "/_sc{7 -1 roll{setcachedevice}{pop pop pop pop pop pop}ifelse}_d\n";
+ s << "/_e{exec}_d\n";
+ }
+
+ s << "/FontName /";
+ s << psname;
+ s << " def\n";
+ s << "/PaintType 0 def\n";
+
+ if(target_type == 42)
+ s << "/FontMatrix[1 0 0 1 0 0]def\n";
+ else
+ s << "/FontMatrix[.001 0 0 .001 0 0]def\n";
+
+ s << "/FontBBox[";
+ s<< llx;
+ s << " ";
+ s<< lly;
+ s << " ";
+ s<< urx;
+ s << " ";
+ s<< ury;
+ s << "]def\n";
+
+ s << "/FontType ";
+ s<< target_type;
+ s << " def\n";
+
+ // === write encoding ===
+
+ s << "/Encoding StandardEncoding def\n";
+
+ // === write fontinfo dict ===
+
+ /* We create a sub dictionary named "FontInfo" where we */
+ /* store information which though it is not used by the */
+ /* interpreter, is useful to some programs which will */
+ /* be printing with the font. */
+ s << "/FontInfo 10 dict dup begin\n";
+
+ /* These names come from the TrueType font's "name" table. */
+ s << "/FamilyName (";
+ s << FamilyName;
+ s << ") def\n";
+
+ s << "/FullName (";
+ s << FullName;
+ s << ") def\n";
+
+ s << "/Notice (";
+ s << Copyright;
+ s << " ";
+ s << Trademark;
+ s << ") def\n";
+
+ /* This information is not tquite correct. */
+ s << "/Weight (";
+ s << Style;
+ s << ") def\n";
+
+ /* Some fonts have this as "version". */
+ s << "/Version (";
+ s << Version;
+ s << ") def\n";
+
+ /* Some information from the "post" table. */
+ if ( post_table ) {
+ Fixed ItalicAngle = getFixed( post_table + 4 );
+ s << "/ItalicAngle ";
+ s << ItalicAngle.whole;
+ s << ".";
+ s << ItalicAngle.fraction;
+ s << " def\n";
+
+ s << "/isFixedPitch ";
+ s << (getULONG( post_table + 12 ) ? "true" : "false" );
+ s << " def\n";
+
+ s << "/UnderlinePosition ";
+ s << (int)getFWord( post_table + 8 );
+ s << " def\n";
+
+ s << "/UnderlineThickness ";
+ s << (int)getFWord( post_table + 10 );
+ s << " def\n";
+ }
+ s << "end readonly def\n";
+
+#ifdef Q_PRINTER_USE_TYPE42
+ /* If we are generating a type 42 font, */
+ /* emmit the sfnts array. */
+ if( target_type == 42 )
+ download_sfnts(s);
+#endif
+ /* If we are generating a Type 3 font, we will need to */
+ /* have the 'loca' and 'glyf' tables arround while */
+ /* we are generating the CharStrings. */
+ if(target_type == 3)
+ {
+ BYTE *ptr; /* We need only one value */
+ ptr = getTable("hhea");
+ numberOfHMetrics = getUSHORT(ptr + 34);
+
+ loca_table = getTable("loca");
+ glyf_table = getTable("glyf");
+ hmtx_table = getTable("hmtx");
+ }
+
+ // === CharStrings array ===
+
+ // subsetting. We turn a char subset into a glyph subset
+ // and we mark as used the base glyphs of used composite glyphs.
+
+ bool glyphset[65536];
+ for(int c=0; c < 65536; c++)
+ glyphset[c] = FALSE;
+ glyphset[0] = TRUE; // always output .notdef
+
+ TQMap<unsigned short, unsigned short>::iterator it;
+ for( it = subsetDict->begin(); it != subsetDict->end(); ++it ) {
+ subsetGlyph( it.key(), glyphset );
+ }
+ int nGlyphs = numGlyphs;
+ if ( target_type == 3 ) {
+ nGlyphs = 0;;
+ for(int c=0; c < 65536; c++)
+ if ( glyphset[c] ) nGlyphs++;
+ }
+
+ s << "/CharStrings ";
+ s << nGlyphs;
+ s << " dict dup begin\n";
+
+ // Emmit one key-value pair for each glyph.
+ for(int x=0; x < 65536; x++) {
+ if(target_type == 42) {
+ s << "/";
+ s << glyphName( x );
+ s << " ";
+ s << x;
+ s << " def\n";
+ } else { /* type 3 */
+ if (!glyphset[x]) continue;
+
+ //qDebug("emitting charproc for glyph %d, name=%s", x, glyphName(x).latin1() );
+ s << "/";
+ s << glyphName( x, glyphset );
+ s << "{";
+ charproc(x,s, glyphset);
+ s << "}_d\n"; /* "} bind def" */
+ }
+ }
+
+ s << "end readonly def\n";
+
+ // === trailer ===
+
+ /* If we are generating a type 3 font, we need to provide */
+ /* a BuildGlyph and BuildChar proceedures. */
+ if( target_type == 3 ) {
+ s << "\n";
+
+ s << "/BuildGlyph\n";
+ s << " {exch begin\n"; /* start font dictionary */
+ s << " CharStrings exch\n";
+ s << " 2 copy known not{pop /.notdef}if\n";
+ s << " true 3 1 roll get exec\n";
+ s << " end}_d\n";
+
+ s << "\n";
+
+ /* This proceedure is for compatiblity with */
+ /* level 1 interpreters. */
+ s << "/BuildChar {\n";
+ s << " 1 index /Encoding get exch get\n";
+ s << " 1 index /BuildGlyph get exec\n";
+ s << "}_d\n";
+
+ s << "\n";
+
+ }
+
+ /* If we are generating a type 42 font, we need to check to see */
+ /* if this PostScript interpreter understands type 42 fonts. If */
+ /* it doesn't, we will hope that the Apple TrueType rasterizer */
+ /* has been loaded and we will adjust the font accordingly. */
+ /* I found out how to do this by examining a TrueType font */
+ /* generated by a Macintosh. That is where the TrueType interpreter */
+ /* setup instructions and part of BuildGlyph came from. */
+ else if( target_type == 42 ) {
+ s << "\n";
+
+ /* If we have no "resourcestatus" command, or FontType 42 */
+ /* is unknown, leave "true" on the stack. */
+ s << "systemdict/resourcestatus known\n";
+ s << " {42 /FontType resourcestatus\n";
+ s << " {pop pop false}{true}ifelse}\n";
+ s << " {true}ifelse\n";
+
+ /* If true, execute code to produce an error message if */
+ /* we can't find Apple's TrueDict in VM. */
+ s << "{/TrueDict where{pop}{(%%[ Error: no TrueType rasterizer ]%%)= flush}ifelse\n";
+
+ /* Since we are expected to use Apple's TrueDict TrueType */
+ /* reasterizer, change the font type to 3. */
+ s << "/FontType 3 def\n";
+
+ /* Define a string to hold the state of the Apple */
+ /* TrueType interpreter. */
+ s << " /TrueState 271 string def\n";
+
+ /* It looks like we get information about the resolution */
+ /* of the printer and store it in the TrueState string. */
+ s << " TrueDict begin sfnts save\n";
+ s << " 72 0 matrix defaultmatrix dtransform dup\n";
+ s << " mul exch dup mul add sqrt cvi 0 72 matrix\n";
+ s << " defaultmatrix dtransform dup mul exch dup\n";
+ s << " mul add sqrt cvi 3 -1 roll restore\n";
+ s << " TrueState initer end\n";
+
+ /* This BuildGlyph procedure will look the name up in the */
+ /* CharStrings array, and then check to see if what it gets */
+ /* is a procedure. If it is, it executes it, otherwise, it */
+ /* lets the TrueType rasterizer loose on it. */
+
+ /* When this proceedure is executed the stack contains */
+ /* the font dictionary and the character name. We */
+ /* exchange arguments and move the dictionary to the */
+ /* dictionary stack. */
+ s << " /BuildGlyph{exch begin\n";
+ /* stack: charname */
+
+ /* Put two copies of CharStrings on the stack and consume */
+ /* one testing to see if the charname is defined in it, */
+ /* leave the answer on the stack. */
+ s << " CharStrings dup 2 index known\n";
+ /* stack: charname CharStrings bool */
+
+ /* Exchange the CharStrings dictionary and the charname, */
+ /* but if the answer was false, replace the character name */
+ /* with ".notdef". */
+ s << " {exch}{exch pop /.notdef}ifelse\n";
+ /* stack: CharStrings charname */
+
+ /* Get the value from the CharStrings dictionary and see */
+ /* if it is executable. */
+ s << " get dup xcheck\n";
+ /* stack: CharStrings_entry */
+
+ /* If is a proceedure. Execute according to RBIIp 277-278. */
+ s << " {currentdict systemdict begin begin exec end end}\n";
+
+ /* Is a TrueType character index, let the rasterizer at it. */
+ s << " {TrueDict begin /bander load cvlit exch TrueState render end}\n";
+
+ s << " ifelse\n";
+
+ /* Pop the font's dictionary off the stack. */
+ s << " end}bind def\n";
+
+ /* This is the level 1 compatibility BuildChar procedure. */
+ /* See RBIIp 281. */
+ s << " /BuildChar{\n";
+ s << " 1 index /Encoding get exch get\n";
+ s << " 1 index /BuildGlyph get exec\n";
+ s << " }bind def\n";
+
+ /* Here we close the condition which is true */
+ /* if the printer has no built-in TrueType */
+ /* rasterizer. */
+ s << "}if\n";
+ s << "\n";
+ } /* end of if Type 42 not understood. */
+
+ s << "FontName currentdict end definefont pop\n";
+
+ downloadMapping(s, global);
+ s << "%%EndFont\n";
+}
+
+BYTE* TQPSPrinterFontTTF::getTable(const char* name)
+{
+ BYTE *ptr;
+ int x;
+
+ /* We must search the table directory. */
+ ptr = offset_table + 12;
+ x=0;
+ while (x != numTables) {
+ if( strncmp((const char *)ptr,name,4) == 0 ) {
+ ULONG offset;
+ //ULONG length;
+ BYTE *table;
+
+ offset = getULONG( ptr + 8 );
+ //length = getULONG( ptr + 12 );
+
+ table = offset_table + offset;
+ return table;
+ }
+
+ x++;
+ ptr += 16;
+ }
+
+ return 0;
+}
+
+void TQPSPrinterFontTTF::uni2glyphSetup()
+{
+ uni2glyph.resize(65536);
+ int i;
+ for (i=0; i<65536; i++) uni2glyph[i] = 0x0000;
+ glyph2uni.resize(65536);
+ for (i=0; i<65536; i++) glyph2uni[i] = 0x0000;
+
+ unsigned char* cmap = getTable("cmap");
+ int pos = 0;
+
+ //USHORT version = getUSHORT(cmap + pos);
+ pos += 2;
+ USHORT nmaps = getUSHORT(cmap + pos); pos += 2;
+
+ //fprintf(stderr,"cmap version %d (should be 0), %d maps\n",version,nmaps);
+
+ ULONG offset = 0;
+ int map = -1;
+ bool symbol = TRUE;
+ for (i=0; i<nmaps; i++) {
+ USHORT platform = getUSHORT(cmap+pos); pos+=2;
+ USHORT encoding = getUSHORT(cmap+pos); pos+=2;
+ offset = getULONG( cmap+pos); pos+=4;
+ //fprintf(stderr,"[%d] plat %d enc %d\n",i,platform,encoding);
+ if (platform == 3 && encoding == 1) {
+ map = i;
+ symbol = FALSE;
+ break; // unicode
+ }
+ if (platform == 3 && encoding == 0) {
+ // symbol, continue looking
+ map = i;
+ }
+ }
+ if (map==nmaps) {
+ qWarning("Font does not have unicode encoding\n");
+ return; // no unicode encoding!
+ }
+
+ pos = 8*map;
+ //fprintf(stderr,"Doing Unicode encoding\n");
+
+ pos = offset;
+ USHORT format = getUSHORT(cmap+pos); pos+=2;
+ //fprintf(stderr,"Unicode cmap format %d\n",format);
+
+ if (format != 4) {
+ //qWarning("Unicode cmap format is not 4");
+ return;
+ }
+
+ pos += 2; // length
+ pos += 2; // version
+ USHORT segcount = getUSHORT(cmap+pos) / 2; pos+=2;
+
+ //fprintf(stderr,"Unicode cmap seg count %d\n",segcount);
+
+ // skip search data
+ pos += 2;
+ pos += 2;
+ pos += 2;
+
+ unsigned char* endcode = cmap + offset + 14;
+ unsigned char* startcode = cmap + offset + 16 + 2*segcount;
+ unsigned char* iddelta = cmap + offset + 16 + 4*segcount;
+ unsigned char* idrangeoff = cmap + offset + 16 + 6*segcount;
+ //unsigned char* glyphid = cmap + offset + 16 + 8*segcount;
+ for (i=0; i<segcount; i++) {
+ USHORT endcode_i = getUSHORT(endcode +2*i);
+ USHORT startcode_i = getUSHORT(startcode +2*i);
+ SHORT iddelta_i = getSHORT(iddelta +2*i);
+ USHORT idrangeoff_i = getUSHORT(idrangeoff+2*i);
+
+// fprintf(stderr,"[%d] %04x-%04x (%x %x)\n",
+// i,startcode_i,endcode_i,iddelta_i,idrangeoff_i);
+ if (endcode_i == 0xffff) break; // last dummy segment
+
+ if (idrangeoff_i == 0) {
+ for (USHORT c = startcode_i; c <= endcode_i; c++) {
+ USHORT g = c + iddelta_i; // glyph index
+ if ( g != 0 ) {
+ uni2glyph[g] = c;
+ glyph2uni[c] = g;
+ }
+ }
+ } else {
+ for (USHORT c = startcode_i; c <= endcode_i; c++) {
+ USHORT g = getUSHORT(idrangeoff+2*i
+ + 2*(c - startcode_i)
+ + idrangeoff_i);
+ if ( g != 0 ) {
+ uni2glyph[g] = c;
+ glyph2uni[c] = g;
+ }
+ }
+ }
+ }
+ if (symbol && glyph2uni[0x40] == 0 && glyph2uni[0xf040] != 0) {
+ // map 0xf000-0xf0ff into latin1 range.
+ for (int i = 0; i < 0x100; ++i) {
+ if (!glyph2uni[i])
+ glyph2uni[i] = glyph2uni[i+0xf000];
+
+ }
+ }
+}
+
+USHORT TQPSPrinterFontTTF::unicode_for_glyph(int glyphindex)
+{
+ return uni2glyph[glyphindex];
+}
+
+USHORT TQPSPrinterFontTTF::glyph_for_unicode(unsigned short unicode)
+{
+ return glyph2uni[unicode];
+}
+
+#ifdef Q_PRINTER_USE_TYPE42
+// ****************** SNFTS ROUTINES *******
+
+/*-------------------------------------------------------------------
+** sfnts routines
+** These routines generate the PostScript "sfnts" array which
+** contains one or more strings which contain a reduced version
+** of the TrueType font.
+**
+** A number of functions are retquired to accomplish this rather
+** complicated task.
+-------------------------------------------------------------------*/
+
+// Write a BYTE as a hexadecimal value as part of the sfnts array.
+
+void TQPSPrinterFontTTF::sfnts_pputBYTE(BYTE n,TQTextStream& s,
+ int& string_len, int& line_len, bool& in_string)
+{
+ static const char hexdigits[]="0123456789ABCDEF";
+
+ if(!in_string) {
+ s << "<";
+ string_len = 0;
+ line_len++;
+ in_string = TRUE;
+ }
+
+ s << hexdigits[ n / 16 ] ;
+ s << hexdigits[ n % 16 ] ;
+ string_len++;
+ line_len+=2;
+
+ if(line_len > 70) {
+ s << "\n";
+ line_len=0;
+ }
+}
+
+// Write a USHORT as a hexadecimal value as part of the sfnts array.
+
+void TQPSPrinterFontTTF::sfnts_pputUSHORT(USHORT n,TQTextStream& s,
+ int& string_len, int& line_len, bool& in_string)
+{
+ sfnts_pputBYTE(n / 256,s, string_len, line_len, in_string);
+ sfnts_pputBYTE(n % 256,s, string_len, line_len, in_string);
+}
+
+
+// Write a ULONG as part of the sfnts array.
+
+void TQPSPrinterFontTTF::sfnts_pputULONG(ULONG n,TQTextStream& s,
+ int& string_len, int& line_len, bool& in_string)
+{
+ int x1 = n % 256; n /= 256;
+ int x2 = n % 256; n /= 256;
+ int x3 = n % 256; n /= 256;
+
+ sfnts_pputBYTE(n,s , string_len, line_len, in_string);
+ sfnts_pputBYTE(x3,s, string_len, line_len, in_string);
+ sfnts_pputBYTE(x2,s, string_len, line_len, in_string);
+ sfnts_pputBYTE(x1,s, string_len, line_len, in_string);
+}
+
+/*
+** This is called whenever it is
+** necessary to end a string in the sfnts array.
+**
+** (The array must be broken into strings which are
+** no longer than 64K characters.)
+*/
+void TQPSPrinterFontTTF::sfnts_end_string(TQTextStream& s,
+ int& string_len, int& line_len, bool& in_string)
+{
+ if(in_string) {
+ string_len=0; /* fool sfnts_pputBYTE() */
+
+ // s << "\n% dummy byte:\n";
+
+ // extra byte for pre-2013 compatibility
+ sfnts_pputBYTE(0, s, string_len, line_len, in_string);
+
+ s << ">";
+ line_len++;
+ }
+
+ in_string=FALSE;
+}
+
+/*
+** This is called at the start of each new table.
+** The argement is the length in bytes of the table
+** which will follow. If the new table will not fit
+** in the current string, a new one is started.
+*/
+void TQPSPrinterFontTTF::sfnts_new_table(ULONG length,TQTextStream& s,
+ int& string_len, int& line_len, bool& in_string)
+{
+ if( (string_len + length) > 65528 )
+ sfnts_end_string(s, string_len, line_len, in_string);
+}
+
+/*
+** We may have to break up the 'glyf' table. That is the reason
+** why we provide this special routine to copy it into the sfnts
+** array.
+*/
+void TQPSPrinterFontTTF::sfnts_glyf_table(ULONG oldoffset,
+ ULONG correct_total_length,
+ TQTextStream& s,
+ int& string_len, int& line_len, bool& in_string)
+
+{
+ int x;
+ ULONG off;
+ ULONG length;
+ int c;
+ ULONG total=0; /* running total of bytes written to table */
+
+ loca_table = getTable("loca");
+
+ int font_off = oldoffset;
+
+ /* Copy the glyphs one by one */
+ for(x=0; x < numGlyphs; x++) {
+ /* Read the glyph offset from the index-to-location table. */
+ if(indexToLocFormat == 0) {
+ off = getUSHORT( loca_table + (x * 2) );
+ off *= 2;
+ length = getUSHORT( loca_table + ((x+1) * 2) );
+ length *= 2;
+ length -= off;
+ } else {
+ off = getULONG( loca_table + (x * 4) );
+ length = getULONG( loca_table + ((x+1) * 4) );
+ length -= off;
+ }
+
+ // fprintf(stderr,"glyph length=%d",(int)length);
+
+ /* Start new string if necessary. */
+ sfnts_new_table( (int)length, s, string_len, line_len, in_string );
+
+ /*
+ ** Make sure the glyph is padded out to a
+ ** two byte boundary.
+ */
+ if( length % 2 ) {
+ qWarning("TrueType font contains a 'glyf' table without 2 byte padding");
+ defective = TRUE;
+ return;
+ }
+
+ /* Copy the bytes of the glyph. */
+ while( length-- ) {
+ c = offset_table[ font_off ];
+ font_off++;
+
+ sfnts_pputBYTE(c, s, string_len, line_len, in_string);
+ total++; /* add to running total */
+ }
+ }
+
+ /* Pad out to full length from table directory */
+ while( total < correct_total_length ) {
+ sfnts_pputBYTE(0, s, string_len, line_len, in_string);
+ total++;
+ }
+
+ /* Look for unexplainable descrepancies between sizes */
+ if( total != correct_total_length ) {
+ qWarning("TQPSPrinterFontTTF::sfnts_glyf_table: total != correct_total_length");
+ defective = TRUE;
+ return;
+ }
+}
+
+/*
+** Here is the routine which ties it all together.
+**
+** Create the array called "sfnts" which
+** holds the actual TrueType data.
+*/
+
+void TQPSPrinterFontTTF::download_sfnts(TQTextStream& s)
+{
+ // tables worth including in a type 42 font
+ char *table_names[]= {
+ "cvt ",
+ "fpgm",
+ "glyf",
+ "head",
+ "hhea",
+ "hmtx",
+ "loca",
+ "maxp",
+ "prep"
+ };
+
+ struct { /* The location of each of */
+ ULONG oldoffset; /* the above tables. */
+ ULONG newoffset;
+ ULONG length;
+ ULONG checksum;
+ } tables[9];
+
+ int c; /* Input character. */
+ int diff;
+ int count; /* How many `important' tables did we find? */
+
+ BYTE* ptr = offset_table + 12; // original table directory
+ ULONG nextoffset=0;
+ count=0;
+
+ /*
+ ** Find the tables we want and store there vital
+ ** statistics in tables[].
+ */
+ for(int x=0; x < 9; x++ ) {
+ do {
+ diff = strncmp( (char*)ptr, table_names[x], 4 );
+
+ if( diff > 0 ) { /* If we are past it. */
+ tables[x].length = 0;
+ diff = 0;
+ }
+ else if( diff < 0 ) { /* If we haven't hit it yet. */
+ ptr += 16;
+ }
+ else if( diff == 0 ) { /* Here it is! */
+ tables[x].newoffset = nextoffset;
+ tables[x].checksum = getULONG( ptr + 4 );
+ tables[x].oldoffset = getULONG( ptr + 8 );
+ tables[x].length = getULONG( ptr + 12 );
+ nextoffset += ( ((tables[x].length + 3) / 4) * 4 );
+ count++;
+ ptr += 16;
+ }
+ } while(diff != 0);
+ } /* end of for loop which passes over the table directory */
+
+ /* Begin the sfnts array. */
+
+ s << "/sfnts[<";
+
+ bool in_string=TRUE;
+ int string_len=0;
+ int line_len=8;
+
+ /* Generate the offset table header */
+ /* Start by copying the TrueType version number. */
+ ptr = offset_table;
+ for(int x=0; x < 4; x++)
+ sfnts_pputBYTE( *(ptr++) , s, string_len, line_len, in_string );
+
+ /* Now, generate those silly numTables numbers. */
+ sfnts_pputUSHORT(count,s, string_len, line_len, in_string); /* number of tables */
+ if( count == 9 ) {
+ sfnts_pputUSHORT(7,s, string_len, line_len, in_string); /* searchRange */
+ sfnts_pputUSHORT(3,s, string_len, line_len, in_string); /* entrySelector */
+ sfnts_pputUSHORT(81,s, string_len, line_len, in_string); /* rangeShift */
+ }
+ else {
+ qWarning("Fewer than 9 tables selected");
+ }
+
+ /* Now, emmit the table directory. */
+ for(int x=0; x < 9; x++) {
+ if( tables[x].length == 0 ) /* Skip missing tables */
+ continue;
+
+ /* Name */
+ sfnts_pputBYTE( table_names[x][0], s, string_len, line_len, in_string);
+ sfnts_pputBYTE( table_names[x][1], s, string_len, line_len, in_string);
+ sfnts_pputBYTE( table_names[x][2], s, string_len, line_len, in_string);
+ sfnts_pputBYTE( table_names[x][3], s, string_len, line_len, in_string);
+
+ /* Checksum */
+ sfnts_pputULONG( tables[x].checksum, s, string_len, line_len, in_string );
+
+ /* Offset */
+ sfnts_pputULONG( tables[x].newoffset + 12 + (count * 16), s,
+ string_len, line_len, in_string );
+
+ /* Length */
+ sfnts_pputULONG( tables[x].length, s,
+ string_len, line_len, in_string );
+ }
+
+ /* Now, send the tables */
+ for(int x=0; x < 9; x++) {
+ if( tables[x].length == 0 ) /* skip tables that aren't there */
+ continue;
+
+ /* 'glyf' table gets special treatment */
+ if( strcmp(table_names[x],"glyf")==0 ) {
+ sfnts_glyf_table(tables[x].oldoffset,tables[x].length, s,
+ string_len, line_len, in_string);
+ } else { // other tables should not exceed 64K (not always true; Sivan)
+ if( tables[x].length > 65535 ) {
+ qWarning("TrueType font has a table which is too long");
+ defective = TRUE;
+ return;
+ }
+
+ /* Start new string if necessary. */
+ sfnts_new_table(tables[x].length, s,
+ string_len, line_len, in_string);
+
+ int font_off = tables[x].oldoffset;
+ /* Copy the bytes of the table. */
+ for( int y=0; y < (int)tables[x].length; y++ ) {
+ c = offset_table[ font_off ];
+ font_off++;
+
+ sfnts_pputBYTE(c, s, string_len, line_len, in_string);
+ }
+ }
+
+ /* Padd it out to a four byte boundary. */
+ int y=tables[x].length;
+ while( (y % 4) != 0 ) {
+ sfnts_pputBYTE(0, s, string_len, line_len, in_string);
+ y++;
+ }
+
+ } /* End of loop for all tables */
+
+ /* Close the array. */
+ sfnts_end_string(s, string_len, line_len, in_string);
+ s << "]def\n";
+}
+#endif
+
+// ****************** Type 3 CharProcs *******
+
+/*
+** This routine is used to break the character
+** procedure up into a number of smaller
+** procedures. This is necessary so as not to
+** overflow the stack on certain level 1 interpreters.
+**
+** Prepare to push another item onto the stack,
+** starting a new proceedure if necessary.
+**
+** Not all the stack depth calculations in this routine
+** are perfectly accurate, but they do the job.
+*/
+static int stack_depth = 0;
+static void stack(int num_pts, int newnew, TQTextStream& s)
+{
+ if( num_pts > 25 ) { /* Only do something of we will */
+ /* have a log of points. */
+ if(stack_depth == 0) {
+ s << "{";
+ stack_depth=1;
+ }
+
+ stack_depth += newnew; /* Account for what we propose to add */
+
+ if(stack_depth > 100) {
+ s << "}_e{";
+ stack_depth = 3 + newnew; /* A rough estimate */
+ }
+ }
+}
+
+static void stack_end(TQTextStream& s) /* called at end */
+{
+ if(stack_depth) {
+ s << "}_e";
+ stack_depth=0;
+ }
+}
+
+// postscript drawing commands
+
+static void PSMoveto(FWord x, FWord y, TQTextStream& ts)
+{
+ ts << x;
+ ts << " ";
+ ts << y;
+ ts << " _m\n";
+}
+
+static void PSLineto(FWord x, FWord y, TQTextStream& ts)
+{
+ ts << x;
+ ts << " ";
+ ts << y;
+ ts << " _l\n";
+}
+
+/* Emmit a PostScript "curveto" command. */
+static void PSCurveto(FWord* xcoor, FWord* ycoor,
+ FWord x, FWord y, int s, int t, TQTextStream& ts)
+{
+ int N, i;
+ double sx[3], sy[3], cx[4], cy[4];
+
+ N = t-s+2;
+ for(i=0; i<N-1; i++) {
+ sx[0] = i==0?xcoor[s-1]:(xcoor[i+s]+xcoor[i+s-1])/2;
+ sy[0] = i==0?ycoor[s-1]:(ycoor[i+s]+ycoor[i+s-1])/2;
+ sx[1] = xcoor[s+i];
+ sy[1] = ycoor[s+i];
+ sx[2] = i==N-2?x:(xcoor[s+i]+xcoor[s+i+1])/2;
+ sy[2] = i==N-2?y:(ycoor[s+i]+ycoor[s+i+1])/2;
+ cx[3] = sx[2];
+ cy[3] = sy[2];
+ cx[1] = (2*sx[1]+sx[0])/3;
+ cy[1] = (2*sy[1]+sy[0])/3;
+ cx[2] = (sx[2]+2*sx[1])/3;
+ cy[2] = (sy[2]+2*sy[1])/3;
+
+ ts << (int)cx[1];
+ ts << " ";
+ ts << (int)cy[1];
+ ts << " ";
+ ts << (int)cx[2];
+ ts << " ";
+ ts << (int)cy[2];
+ ts << " ";
+ ts << (int)cx[3];
+ ts << " ";
+ ts << (int)cy[3];
+ ts << " _c\n";
+ }
+}
+
+/* The PostScript bounding box. */
+/* Variables to hold the character data. */
+
+//void load_char(struct TTFONT *font, BYTE *glyph);
+//void clear_data();
+
+//void PSMoveto(FWord x, FWord y, TQTextStream& ts);
+//void PSLineto(FWord x, FWord y, TQTextStream& ts);
+//void PSCurveto(FWord x, FWord y, int s, int t, TQTextStream& ts);
+
+//double area(FWord *x, FWord *y, int n);
+//int nextinctr(int co, int ci);
+//int nextoutctr(int co);
+//int nearout(int ci);
+//double intest(int co, int ci);
+#define sqr(x) ((x)*(x))
+
+#define NOMOREINCTR -1
+#define NOMOREOUTCTR -1
+
+/*
+** Find the area of a contour?
+*/
+static double area(FWord *x, FWord *y, int n)
+{
+ int i;
+ double sum;
+
+ sum=x[n-1]*y[0]-y[n-1]*x[0];
+ for (i=0; i<=n-2; i++) sum += x[i]*y[i+1] - y[i]*x[i+1];
+ return sum;
+}
+
+static int nextoutctr(int /*co*/, charproc_data* cd)
+{
+ int j;
+
+ for(j=0; j<cd->num_ctr; j++)
+ if (cd->check_ctr[j]==0 && cd->area_ctr[j] < 0) {
+ cd->check_ctr[j]=1;
+ return j;
+ }
+
+ return NOMOREOUTCTR;
+} /* end of nextoutctr() */
+
+static int nextinctr(int co, int /*ci*/, charproc_data* cd)
+{
+ int j;
+
+ for(j=0; j<cd->num_ctr; j++)
+ if (cd->ctrset[2*j+1]==co)
+ if (cd->check_ctr[ cd->ctrset[2*j] ]==0) {
+ cd->check_ctr[ cd->ctrset[2*j] ]=1;
+ return cd->ctrset[2*j];
+ }
+
+ return NOMOREINCTR;
+}
+
+static double intest( int co, int ci, charproc_data *cd )
+{
+ int i, j, start, end;
+ double r1, r2;
+ FWord xi[3], yi[3];
+
+ j = start = ( co == 0 ) ? 0 : ( cd->epts_ctr[co - 1] + 1 );
+ end = cd->epts_ctr[co];
+ i = ( ci == 0 ) ? 0 : ( cd->epts_ctr[ci - 1] + 1 );
+ xi[0] = cd->xcoor[i];
+ yi[0] = cd->ycoor[i];
+ r1 = sqr( cd->xcoor[start] - xi[0] ) + sqr( cd->ycoor[start] - yi[0] );
+
+ for ( i = start; i <= end; i++ ) {
+ r2 = sqr( cd->xcoor[i] - xi[0] ) + sqr( cd->ycoor[i] - yi[0] );
+ if ( r2 < r1 ) {
+ r1 = r2;
+ j = i;
+ }
+ }
+ if ( j == start ) {
+ xi[1] = cd->xcoor[end];
+ yi[1] = cd->ycoor[end];
+ } else {
+ xi[1] = cd->xcoor[j - 1];
+ yi[1] = cd->ycoor[j - 1];
+ }
+ if ( j == end ) {
+ xi[2] = cd->xcoor[start];
+ yi[2] = cd->ycoor[start];
+ } else {
+ xi[2] = cd->xcoor[j + 1];
+ yi[2] = cd->ycoor[j + 1];
+ }
+ return area( xi, yi, 3 );
+}
+
+/*
+** find the nearest out contour to a specified in contour.
+*/
+static int nearout(int ci, charproc_data* cd)
+{
+ int k = 0; /* !!! is this right? */
+ int co;
+ double a, a1=0;
+
+ for (co=0; co < cd->num_ctr; co++) {
+ if(cd->area_ctr[co] < 0) {
+ a=intest(co,ci, cd);
+ if (a<0 && a1==0) {
+ k=co;
+ a1=a;
+ }
+ if(a<0 && a1!=0 && a>a1) {
+ k=co;
+ a1=a;
+ }
+ }
+ }
+
+ return k;
+} /* end of nearout() */
+
+
+/*
+** We call this routine to emmit the PostScript code
+** for the character we have loaded with load_char().
+*/
+static void PSConvert(TQTextStream& s, charproc_data* cd)
+{
+ int i,j,k,fst,start_offpt;
+ int end_offpt=0;
+
+ cd->area_ctr = new double[cd->num_ctr];
+ memset(cd->area_ctr, 0, (cd->num_ctr*sizeof(double)));
+
+ cd->check_ctr = new char[cd->num_ctr];
+ memset(cd->check_ctr, 0, (cd->num_ctr*sizeof(char)));
+
+ cd->ctrset = new int[2*(cd->num_ctr)];
+ memset(cd->ctrset, 0, (cd->num_ctr*2*sizeof(int)));
+
+ cd->check_ctr[0]=1;
+ cd->area_ctr[0]=area(cd->xcoor, cd->ycoor, cd->epts_ctr[0]+1);
+
+ for (i=1; i<cd->num_ctr; i++)
+ cd->area_ctr[i]=area(cd->xcoor+cd->epts_ctr[i-1]+1,
+ cd->ycoor+cd->epts_ctr[i-1]+1,
+ cd->epts_ctr[i]-cd->epts_ctr[i-1]);
+
+ for (i=0; i<cd->num_ctr; i++) {
+ if (cd->area_ctr[i]>0) {
+ cd->ctrset[2*i]=i;
+ cd->ctrset[2*i+1]=nearout(i,cd);
+ } else {
+ cd->ctrset[2*i]=-1;
+ cd->ctrset[2*i+1]=-1;
+ }
+ }
+
+ /* Step thru the coutours. */
+ /* I believe that a contour is a detatched */
+ /* set of curves and lines. */
+ i=j=k=0;
+ while (i < cd->num_ctr ) {
+ fst = j = (k==0) ? 0 : (cd->epts_ctr[k-1]+1);
+
+ /* Move to the first point on the contour. */
+ stack(cd->num_pts,3,s);
+ PSMoveto(cd->xcoor[j],cd->ycoor[j],s);
+ start_offpt = 0; /* No off curve points yet. */
+
+ /* Step thru the remaining points of this contour. */
+ for(j++; j <= cd->epts_ctr[k]; j++) {
+ if (!(cd->tt_flags[j]&1)) { /* Off curve */
+ if (!start_offpt)
+ { start_offpt = end_offpt = j; }
+ else
+ end_offpt++;
+ } else { /* On Curve */
+ if (start_offpt) {
+ stack(cd->num_pts,7,s);
+ PSCurveto(cd->xcoor,cd->ycoor,
+ cd->xcoor[j],cd->ycoor[j],
+ start_offpt,end_offpt,s);
+ start_offpt = 0;
+ } else {
+ stack(cd->num_pts,3,s);
+ PSLineto(cd->xcoor[j], cd->ycoor[j],s);
+ }
+ }
+ }
+
+ /* Do the final curve or line */
+ /* of this coutour. */
+ if (start_offpt) {
+ stack(cd->num_pts,7,s);
+ PSCurveto(cd->xcoor,cd->ycoor,
+ cd->xcoor[fst],cd->ycoor[fst],
+ start_offpt,end_offpt,s);
+ } else {
+ stack(cd->num_pts,3,s);
+ PSLineto(cd->xcoor[fst],cd->ycoor[fst],s);
+ }
+
+ k=nextinctr(i,k,cd);
+
+ if (k==NOMOREINCTR)
+ i=k=nextoutctr(i,cd);
+
+ if (i==NOMOREOUTCTR)
+ break;
+ }
+
+ /* Now, we can fill the whole thing. */
+ stack(cd->num_pts,1,s);
+ s << "_cl"; /* "closepath eofill" */
+
+ /* Free our work arrays. */
+ delete [] cd->area_ctr;
+ delete [] cd->check_ctr;
+ delete [] cd->ctrset;
+}
+
+
+/*
+** Load the simple glyph data pointed to by glyph.
+** The pointer "glyph" should point 10 bytes into
+** the glyph data.
+*/
+void TQPSPrinterFontTTF::charprocLoad(BYTE *glyph, charproc_data* cd)
+{
+ int x;
+ BYTE c, ct;
+
+ /* Read the contour endpoints list. */
+ cd->epts_ctr = new int[cd->num_ctr];
+ //cd->epts_ctr = (int *)myalloc(cd->num_ctr,sizeof(int));
+ for (x = 0; x < cd->num_ctr; x++) {
+ cd->epts_ctr[x] = getUSHORT(glyph);
+ glyph += 2;
+ }
+
+ /* From the endpoint of the last contour, we can */
+ /* determine the number of points. */
+ cd->num_pts = cd->epts_ctr[cd->num_ctr-1]+1;
+#ifdef DEBUG_TRUETYPE
+ fprintf(stderr,"num_pts=%d\n",cd->num_pts);
+#endif
+
+ /* Skip the instructions. */
+ x = getUSHORT(glyph);
+ glyph += 2;
+ glyph += x;
+
+ /* Allocate space to hold the data. */
+ //cd->tt_flags = (BYTE *)myalloc(num_pts,sizeof(BYTE));
+ //cd->xcoor = (FWord *)myalloc(num_pts,sizeof(FWord));
+ //cd->ycoor = (FWord *)myalloc(num_pts,sizeof(FWord));
+ cd->tt_flags = new BYTE[cd->num_pts];
+ cd->xcoor = new FWord[cd->num_pts];
+ cd->ycoor = new FWord[cd->num_pts];
+
+ /* Read the flags array, uncompressing it as we go. */
+ /* There is danger of overflow here. */
+ for (x = 0; x < cd->num_pts; ) {
+ cd->tt_flags[x++] = c = *(glyph++);
+
+ if (c&8) { /* If next byte is repeat count, */
+ ct = *(glyph++);
+
+ if( (x + ct) > cd->num_pts ) {
+ qWarning("Fatal Error in TT flags");
+ return;
+ }
+
+ while (ct--)
+ cd->tt_flags[x++] = c;
+ }
+ }
+
+ /* Read the x coordinates */
+ for (x = 0; x < cd->num_pts; x++) {
+ if (cd->tt_flags[x] & 2) { /* one byte value with */
+ /* external sign */
+ c = *(glyph++);
+ cd->xcoor[x] = (cd->tt_flags[x] & 0x10) ? c : (-1 * (int)c);
+ } else if(cd->tt_flags[x] & 0x10) { /* repeat last */
+ cd->xcoor[x] = 0;
+ } else { /* two byte signed value */
+ cd->xcoor[x] = getFWord(glyph);
+ glyph+=2;
+ }
+ }
+
+ /* Read the y coordinates */
+ for(x = 0; x < cd->num_pts; x++) {
+ if (cd->tt_flags[x] & 4) { /* one byte value with */
+ /* external sign */
+ c = *(glyph++);
+ cd->ycoor[x] = (cd->tt_flags[x] & 0x20) ? c : (-1 * (int)c);
+ } else if (cd->tt_flags[x] & 0x20) { /* repeat last value */
+ cd->ycoor[x] = 0;
+ } else { /* two byte signed value */
+ cd->ycoor[x] = getUSHORT(glyph);
+ glyph+=2;
+ }
+ }
+
+ /* Convert delta values to absolute values. */
+ for(x = 1; x < cd->num_pts; x++) {
+ cd->xcoor[x] += cd->xcoor[x-1];
+ cd->ycoor[x] += cd->ycoor[x-1];
+ }
+
+ for(x=0; x < cd->num_pts; x++) {
+ cd->xcoor[x] = topost(cd->xcoor[x]);
+ cd->ycoor[x] = topost(cd->ycoor[x]);
+ }
+}
+
+#define ARG_1_AND_2_ARE_WORDS 1
+#define ARGS_ARE_XY_VALUES 2
+#define ROUND_XY_TO_GRID 4
+#define WE_HAVE_A_SCALE 8
+/* RESERVED 16 */
+#define MORE_COMPONENTS 32
+#define WE_HAVE_AN_X_AND_Y_SCALE 64
+#define WE_HAVE_A_TWO_BY_TWO 128
+#define WE_HAVE_INSTRUCTIONS 256
+#define USE_MY_METRICS 512
+
+void TQPSPrinterFontTTF::subsetGlyph(int charindex,bool* glyphset)
+{
+ USHORT flags;
+ USHORT glyphIndex;
+ charproc_data cd;
+
+ glyphset[charindex] = TRUE;
+ //printf("subsetting %s ==> ",glyphName(charindex).latin1());
+
+ /* Get a pointer to the data. */
+ BYTE* glyph = charprocFindGlyphData( charindex );
+
+ /* If the character is blank, it has no bounding box, */
+ /* otherwise read the bounding box. */
+ if( glyph == (BYTE*)NULL ) {
+ cd.num_ctr=0;
+ } else {
+ cd.num_ctr = getSHORT(glyph);
+ /* Advance the pointer past bounding box. */
+ glyph += 10;
+ }
+
+ if( cd.num_ctr < 0 ) { // composite
+ /* Once around this loop for each component. */
+ do {
+ flags = getUSHORT(glyph); /* read the flags word */
+ glyph += 2;
+ glyphIndex = getUSHORT(glyph); /* read the glyphindex word */
+ glyph += 2;
+
+ glyphset[ glyphIndex ] = TRUE;
+ subsetGlyph( glyphIndex, glyphset );
+ //printf("subset contains: %d %s ",glyphIndex, glyphName(glyphIndex).latin1());
+
+ if(flags & ARG_1_AND_2_ARE_WORDS) {
+ glyph += 2;
+ glyph += 2;
+ } else {
+ glyph += 1;
+ glyph += 1;
+ }
+
+ if(flags & WE_HAVE_A_SCALE) {
+ glyph += 2;
+ } else if(flags & WE_HAVE_AN_X_AND_Y_SCALE) {
+ glyph += 2;
+ glyph += 2;
+ } else if(flags & WE_HAVE_A_TWO_BY_TWO) {
+ glyph += 2;
+ glyph += 2;
+ glyph += 2;
+ glyph += 2;
+ } else {
+ }
+ } while(flags & MORE_COMPONENTS);
+ }
+ //printf("\n");
+}
+
+
+/*
+** Emmit PostScript code for a composite character.
+*/
+void TQPSPrinterFontTTF::charprocComposite(BYTE *glyph, TQTextStream& s, bool *glyphSet)
+{
+ USHORT flags;
+ USHORT glyphIndex;
+ int arg1;
+ int arg2;
+ float xscale = 1;
+ float yscale = 1;
+#ifdef DEBUG_TRUETYPE
+ float scale01 = 0;
+ float scale10 = 0;
+#endif
+
+ /* Once around this loop for each component. */
+ do {
+ flags = getUSHORT(glyph); /* read the flags word */
+ glyph += 2;
+
+ glyphIndex = getUSHORT(glyph); /* read the glyphindex word */
+ glyph += 2;
+
+ if(flags & ARG_1_AND_2_ARE_WORDS) {
+ /* The tt spec. seems to say these are signed. */
+ arg1 = getSHORT(glyph);
+ glyph += 2;
+ arg2 = getSHORT(glyph);
+ glyph += 2;
+ } else { /* The tt spec. does not clearly indicate */
+ /* whether these values are signed or not. */
+ arg1 = (char)*(glyph++);
+ arg2 = (char)*(glyph++);
+ }
+
+ if(flags & WE_HAVE_A_SCALE) {
+ xscale = yscale = f2dot14( getUSHORT(glyph) );
+ glyph += 2;
+ } else if(flags & WE_HAVE_AN_X_AND_Y_SCALE) {
+ xscale = f2dot14( getUSHORT(glyph) );
+ glyph += 2;
+ yscale = f2dot14( getUSHORT(glyph) );
+ glyph += 2;
+ } else if(flags & WE_HAVE_A_TWO_BY_TWO) {
+ xscale = f2dot14( getUSHORT(glyph) );
+ glyph += 2;
+#ifdef DEBUG_TRUETYPE
+ scale01 = f2dot14( getUSHORT(glyph) );
+#endif
+ glyph += 2;
+#ifdef DEBUG_TRUETYPE
+ scale10 = f2dot14( getUSHORT(glyph) );
+#endif
+ glyph += 2;
+ yscale = f2dot14( getUSHORT(glyph) );
+ glyph += 2;
+ }
+
+ /* Debugging */
+#ifdef DEBUG_TRUETYPE
+ s << "% flags=" << flags << ", arg1=" << arg1 << ", arg2=" << arg2 << ", xscale=" << xscale << ", yscale=" << yscale <<
+ ", scale01=" << scale01 << ", scale10=" << scale10 << endl;
+#endif
+
+
+ if ( (flags & ARGS_ARE_XY_VALUES) != ARGS_ARE_XY_VALUES ) {
+ s << "% unimplemented shift, arg1=" << arg1;
+ s << ", arg2=" << arg2 << "\n";
+ arg1 = arg2 = 0;
+ }
+
+ /* If we have an (X,Y) shif and it is non-zero, */
+ /* translate the coordinate system. */
+ if ( flags & (WE_HAVE_A_TWO_BY_TWO|WE_HAVE_AN_X_AND_Y_SCALE) ) {
+#if 0
+ // code similar to this would be needed for two_by_two
+ s << "gsave [ " << xscale << " " << scale01 << " " << scale10 << " "
+ << yscale << " " << topost(arg1) << " " << topost(arg2) << "] SM\n";
+#endif
+ if ( flags & WE_HAVE_A_TWO_BY_TWO )
+ s << "% Two by two transformation, unimplemented\n";
+ s << "gsave " << topost(arg1);
+ s << " " << topost(arg2);
+ s << " translate\n";
+ s << xscale << " " << yscale << " scale\n";
+ } else if ( flags & ARGS_ARE_XY_VALUES && ( arg1 != 0 || arg2 != 0 ) ) {
+ s << "gsave " << topost(arg1);
+ s << " " << topost(arg2);
+ s << " translate\n";
+ }
+
+ /* Invoke the CharStrings procedure to print the component. */
+ s << "false CharStrings /";
+ s << glyphName( glyphIndex, glyphSet );
+ s << " get exec\n";
+
+ // printf("false CharStrings /%s get exec\n",
+ //ttfont_CharStrings_getname(font,glyphIndex));
+
+ /* If we translated the coordinate system, */
+ /* put it back the way it was. */
+ if( (flags & ARGS_ARE_XY_VALUES && (arg1 != 0 || arg2 != 0) ) ||
+ ( flags & (WE_HAVE_A_TWO_BY_TWO|WE_HAVE_AN_X_AND_Y_SCALE) ) ) {
+ s << "grestore ";
+ }
+ } while (flags & MORE_COMPONENTS);
+}
+
+/*
+** Return a pointer to a specific glyph's data.
+*/
+BYTE* TQPSPrinterFontTTF::charprocFindGlyphData(int charindex)
+{
+ ULONG off;
+ ULONG length;
+
+ /* Read the glyph offset from the index to location table. */
+ if(indexToLocFormat == 0) {
+ off = getUSHORT( loca_table + (charindex * 2) );
+ off *= 2;
+ length = getUSHORT( loca_table + ((charindex+1) * 2) );
+ length *= 2;
+ length -= off;
+ } else {
+ off = getULONG( loca_table + (charindex * 4) );
+ length = getULONG( loca_table + ((charindex+1) * 4) );
+ length -= off;
+ }
+
+ if(length > 0)
+ return glyf_table + off;
+ else
+ return (BYTE*)NULL;
+}
+
+void TQPSPrinterFontTTF::charproc(int charindex, TQTextStream& s, bool *glyphSet )
+{
+ int llx,lly,urx,ury;
+ int advance_width;
+ charproc_data cd;
+
+#ifdef DEBUG_TRUETYPE
+ s << "% tt_type3_charproc for ";
+ s << charindex;
+ s << "\n";
+#endif
+
+ /* Get a pointer to the data. */
+ BYTE* glyph = charprocFindGlyphData( charindex );
+
+ /* If the character is blank, it has no bounding box, */
+ /* otherwise read the bounding box. */
+ if( glyph == (BYTE*)NULL ) {
+ llx=lly=urx=ury=0; /* A blank char has an all zero BoundingBox */
+ cd.num_ctr=0; /* Set this for later if()s */
+ } else {
+ /* Read the number of contours. */
+ cd.num_ctr = getSHORT(glyph);
+
+ /* Read PostScript bounding box. */
+ llx = getFWord(glyph + 2);
+ lly = getFWord(glyph + 4);
+ urx = getFWord(glyph + 6);
+ ury = getFWord(glyph + 8);
+
+ /* Advance the pointer. */
+ glyph += 10;
+ }
+
+ /* If it is a simple character, load its data. */
+ if (cd.num_ctr > 0)
+ charprocLoad(glyph, &cd);
+ else
+ cd.num_pts=0;
+
+ /* Consult the horizontal metrics table to determine */
+ /* the character width. */
+ if( charindex < numberOfHMetrics )
+ advance_width = getuFWord( hmtx_table + (charindex * 4) );
+ else
+ advance_width = getuFWord( hmtx_table + ((numberOfHMetrics-1) * 4) );
+
+ /* Execute setcachedevice in order to inform the font machinery */
+ /* of the character bounding box and advance width. */
+ stack(cd.num_pts,7,s);
+ s << topost(advance_width);
+ s << " 0 ";
+ s << topost(llx);
+ s << " ";
+ s << topost(lly);
+ s << " ";
+ s << topost(urx);
+ s << " ";
+ s << topost(ury);
+ s << " _sc\n";
+
+ /* If it is a simple glyph, convert it, */
+ /* otherwise, close the stack business. */
+ if( cd.num_ctr > 0 ) { // simple
+ PSConvert(s,&cd);
+ delete [] cd.tt_flags;
+ delete [] cd.xcoor;
+ delete [] cd.ycoor;
+ delete [] cd.epts_ctr;
+ } else if( cd.num_ctr < 0 ) { // composite
+ charprocComposite(glyph,s, glyphSet);
+ }
+
+ stack_end(s);
+} /* end of tt_type3_charproc() */
+
+
+// ================== PFA ====================
+
+class TQPSPrinterFontPFA
+ : public TQPSPrinterFontPrivate {
+public:
+ TQPSPrinterFontPFA(const TQFontEngine *f, TQByteArray& data);
+ virtual void download(TQTextStream& s, bool global);
+ virtual bool embedded() { return TRUE; }
+private:
+ TQByteArray data;
+};
+
+TQPSPrinterFontPFA::TQPSPrinterFontPFA(const TQFontEngine *f, TQByteArray& d)
+{
+ data = d;
+
+ int pos = 0;
+ char* p = data.data();
+ TQString fontname;
+
+ if (p[ pos ] != '%' || p[ pos+1 ] != '!') { // PFA marker
+ qWarning("invalid pfa file");
+ return;
+ }
+
+ char* fontnameptr = strstr(p+pos,"/FontName");
+ if (fontnameptr == NULL)
+ return;
+
+ fontnameptr += strlen("/FontName") + 1;
+ while (*fontnameptr == ' ' || *fontnameptr == '/') fontnameptr++;
+ int l=0;
+ while (fontnameptr[l] != ' ') l++;
+
+ psname = TQString::fromLatin1(fontnameptr,l);
+ replacementList = makePSFontNameList( f, psname );
+}
+
+void TQPSPrinterFontPFA::download(TQTextStream& s, bool global)
+{
+ emitPSFontNameList( s, psname, replacementList);
+
+ if ( !embedFonts ) {
+ downloadMapping(s, global);
+ return;
+ }
+
+ //qDebug("downloading pfa font %s", psname.latin1() );
+ char* p = data.data();
+
+ s << "% Font resource\n";
+ for (int i=0; i < (int)data.size(); i++) s << p[i];
+ s << "% End of font resource\n";
+ downloadMapping( s, global );
+}
+
+// ================== PFB ====================
+
+class TQPSPrinterFontPFB
+ : public TQPSPrinterFontPrivate {
+public:
+ TQPSPrinterFontPFB(const TQFontEngine *f, TQByteArray& data);
+ virtual void download(TQTextStream& s, bool global);
+ virtual bool embedded() { return TRUE; }
+private:
+ TQByteArray data;
+};
+
+TQPSPrinterFontPFB::TQPSPrinterFontPFB(const TQFontEngine *f, TQByteArray& d)
+{
+ data = d;
+
+ int pos = 0;
+ int len;
+ // int typ;
+ unsigned char* p = (unsigned char*) data.data();
+ TQString fontname;
+
+ if (p[ pos ] != 0x80) { // PFB marker
+ qWarning("pfb file does not start with 0x80");
+ return;
+ }
+ pos++;
+ // typ = p[ pos ]; // 1=ascii 2=binary 3=done
+ pos++;
+ len = p[ pos ]; pos++;
+ len |= (p[ pos ] << 8) ; pos++;
+ len |= (p[ pos ] << 16); pos++;
+ len |= (p[ pos ] << 24); pos++;
+
+ //printf("font block type %d len %d\n",typ,len);
+
+ char* fontnameptr = strstr((char*)p+pos,"/FontName");
+ if (fontnameptr == NULL)
+ return;
+
+ fontnameptr += strlen("/FontName") + 1;
+ while (*fontnameptr == ' ' || *fontnameptr == '/') fontnameptr++;
+ int l=0;
+ while (fontnameptr[l] != ' ') l++;
+
+ psname = TQString::fromLatin1(fontnameptr,l);
+ replacementList = makePSFontNameList( f, psname );
+}
+
+void TQPSPrinterFontPFB::download(TQTextStream& s, bool global)
+{
+ emitPSFontNameList( s, psname, replacementList);
+
+ if ( !embedFonts ) {
+ downloadMapping(s, global);
+ return;
+ }
+
+ //qDebug("downloading pfb font %s", psname.latin1() );
+ unsigned char* p = (unsigned char*) data.data();
+ int pos;
+ int len;
+ int typ;
+
+ int hexcol = 0;
+ int line_length = 64;
+
+ s << "% Font resource\n";
+
+ pos = 0;
+ typ = -1;
+ while (typ != 3) { // not end of file
+ if (p[ pos ] != 0x80) // PFB marker
+ return; // pfb file does not start with 0x80
+ pos++;
+ typ = p[ pos ]; // 1=ascii 2=binary 3=done
+ pos++;
+
+ if (typ == 3) break;
+
+ len = p[ pos ]; pos++;
+ len |= (p[ pos ] << 8) ; pos++;
+ len |= (p[ pos ] << 16); pos++;
+ len |= (p[ pos ] << 24); pos++;
+
+ //qDebug("font block type %d len %d",typ,len);
+
+ int end = pos + len;
+ if (typ==1) {
+ while (pos < end) {
+ if (hexcol > 0) {
+ s << "\n";
+ hexcol = 0;
+ }
+ //qWarning(TQString::fromLatin1((char*)(p+pos),1));
+ if (p[pos] == '\r' || p[pos] == '\n') {
+ s << "\n";
+ while (pos < end && (p[pos] == '\r' || p[pos] == '\n'))
+ pos++;
+ } else {
+ s << TQString::fromLatin1((char*)(p+pos),1);
+ pos++;
+ }
+ }
+ }
+ if (typ==2) {
+ static const char *hexchar = "0123456789abcdef";
+ while (pos < end) {
+ /* trim hexadecimal lines to line_length columns */
+ if (hexcol >= line_length) {
+ s << "\n";
+ hexcol = 0;
+ }
+ s << TQString::fromLatin1(hexchar+((p[pos] >> 4) & 0xf),1)
+ << TQString::fromLatin1(hexchar+((p[pos] ) & 0xf),1);
+ pos++;
+ hexcol += 2;
+ }
+ }
+ }
+ s << "% End of font resource\n";
+ downloadMapping( s, global );
+}
+
+// ================== AFontFileNotFound ============
+
+
+
+class TQPSPrinterFontNotFound
+ : public TQPSPrinterFontPrivate {
+public:
+ TQPSPrinterFontNotFound(const TQFontEngine* f);
+ virtual void download(TQTextStream& s, bool global);
+private:
+ TQByteArray data;
+};
+
+TQPSPrinterFontNotFound::TQPSPrinterFontNotFound(const TQFontEngine* f)
+{
+ psname = makePSFontName( f );
+ replacementList = makePSFontNameList( f );
+}
+
+void TQPSPrinterFontNotFound::download(TQTextStream& s, bool)
+{
+ //qDebug("downloading not found font %s", psname.latin1() );
+ emitPSFontNameList( s, psname, replacementList );
+ s << "% No embeddable font for ";
+ s << psname;
+ s << " found\n";
+ TQPSPrinterFontPrivate::download(s, TRUE);
+}
+
+#ifndef QT_NO_TEXTCODEC
+// =================== A font file for asian ============
+
+class TQPSPrinterFontAsian
+ : public TQPSPrinterFontPrivate {
+public:
+ TQPSPrinterFontAsian()
+ : TQPSPrinterFontPrivate(), codec( 0 ) {}
+ void download(TQTextStream& s, bool global);
+ TQString defineFont( TQTextStream &stream, const TQString &ps, const TQFont &f, const TQString &key,
+ TQPSPrinterPrivate *d );
+ void drawText( TQTextStream &stream, const TQPoint &p, TQTextEngine *engine, int item,
+ const TQString &text, TQPSPrinterPrivate *d, TQPainter *paint );
+
+ TQString makePSFontName( const TQFontEngine *f, int type ) const;
+ virtual TQString extension() const = 0;
+
+ TQTextCodec *codec;
+};
+
+TQString TQPSPrinterFontAsian::makePSFontName( const TQFontEngine *f, int type ) const
+{
+ TQString ps;
+ int i;
+
+ TQString family = f->fontDef.family.lower();
+
+ // try to make a "good" postscript name
+ ps = family.simplifyWhiteSpace();
+ i = 0;
+ while( (unsigned int)i < ps.length() ) {
+ if ( i != 0 && ps[i] == '[') {
+ if ( ps[i-1] == ' ' )
+ ps.truncate (i-1);
+ else
+ ps.truncate (i);
+ break;
+ }
+ if ( i == 0 || ps[i-1] == ' ' ) {
+ ps[i] = ps[i].upper();
+ if ( i )
+ ps.remove( i-1, 1 );
+ else
+ i++;
+ } else {
+ i++;
+ }
+ }
+
+ switch ( type ) {
+ case 1:
+ ps.append( TQString::fromLatin1("-Italic") );
+ break;
+ case 2:
+ ps.append( TQString::fromLatin1("-Bold") );
+ break;
+ case 3:
+ ps.append( TQString::fromLatin1("-BoldItalic") );
+ break;
+ case 0:
+ default:
+ break;
+ }
+
+ ps += extension();
+
+ return ps;
+}
+
+
+TQString TQPSPrinterFontAsian::defineFont( TQTextStream &stream, const TQString &ps, const TQFont &f,
+ const TQString &key, TQPSPrinterPrivate *d)
+{
+ TQString fontName;
+ TQString fontName2;
+
+ TQString *tmp = d->headerFontNames.find( ps );
+
+ if ( d->buffer ) {
+ if ( tmp ) {
+ fontName = *tmp;
+ } else {
+ fontName.sprintf( "F%d", ++d->headerFontNumber );
+ d->fontStream << "/" << fontName << " false " << ps << "List MF\n";
+ d->headerFontNames.insert( ps, new TQString( fontName ) );
+ }
+ fontName2.sprintf( "F%d", ++d->headerFontNumber );
+ d->fontStream << "/" << fontName2 << " "
+ << pointSize( f, d->scale ) << "/" << fontName << " DF\n";
+ d->headerFontNames.insert( key, new TQString( fontName2 ) );
+ } else {
+ if ( tmp ) {
+ fontName = *tmp;
+ } else {
+ fontName.sprintf( "F%d", ++d->pageFontNumber );
+ stream << "/" << fontName << " false " << ps << "List MF\n";
+ d->pageFontNames.insert( ps, new TQString( fontName ) );
+ }
+ fontName2.sprintf( "F%d", ++d->pageFontNumber );
+ stream << "/" << fontName2 << " "
+ << pointSize( f, d->scale ) << "/" << fontName << " DF\n";
+ d->pageFontNames.insert( key, new TQString( fontName2 ) );
+ }
+ return fontName2;
+}
+
+
+void TQPSPrinterFontAsian::download(TQTextStream& s, bool)
+{
+ //qDebug("downloading asian font %s", psname.latin1() );
+ s << "% Asian postscript font requested. Using "
+ << psname << endl;
+ emitPSFontNameList( s, psname, replacementList );
+}
+
+void TQPSPrinterFontAsian::drawText( TQTextStream &stream, const TQPoint &p, TQTextEngine *engine, int item,
+ const TQString &text, TQPSPrinterPrivate *d, TQPainter *paint)
+{
+ int len = engine->length( item );
+ TQScriptItem &si = engine->items[item];
+
+ int x = p.x() + si.x;
+ int y = p.y() + si.y;
+ if ( y != d->textY || d->textY == 0 )
+ stream << y << " Y";
+ d->textY = y;
+
+ TQString mdf;
+ if ( paint->font().underline() )
+ mdf += " " + TQString().setNum( y + d->fm.underlinePos() + d->fm.lineWidth() ) +
+ " " + toString( d->fm.lineWidth() ) + " Tl";
+ if ( paint->font().strikeOut() )
+ mdf += " " + TQString().setNum( y + d->fm.strikeOutPos() ) +
+ " " + toString( d->fm.lineWidth() ) + " Tl";
+ TQCString mb;
+ TQCString out;
+ TQString dummy( TQChar(0x20) );
+
+ if ( si.analysis.bidiLevel % 2 ) {
+ for ( int i = len-1; i >= 0; i-- ) {
+ TQChar ch = text.unicode()[i];
+ if ( !ch.row() ) {
+ ; // ignore, we should never get here anyway
+ } else {
+ if ( codec ) {
+ dummy[0] = ch;
+ mb = codec->fromUnicode( dummy );
+ } else
+ mb = " ";
+
+ for ( unsigned int j = 0; j < mb.length (); j++ ) {
+ if ( mb.at(j) == '(' || mb.at(j) == ')' || mb.at(j) == '\\' )
+ out += "\\";
+ out += mb.at(j);
+ }
+ }
+ }
+ } else {
+ for ( int i = 0; i < len; i++ ) {
+ TQChar ch = text.unicode()[i];
+ if ( !ch.row() ) {
+ ; // ignore, we should never get here anyway
+ } else {
+ if ( codec ) {
+ dummy[0] = ch;
+ mb = codec->fromUnicode( dummy );
+ } else
+ mb = " ";
+
+ for ( unsigned int j = 0; j < mb.length (); j++ ) {
+ if ( mb.at(j) == '(' || mb.at(j) == ')' || mb.at(j) == '\\' )
+ out += "\\";
+ out += mb.at(j);
+ }
+ }
+ }
+ }
+ stream << "(" << out << ")" << si.width << " " << x << mdf << " AT\n";
+}
+
+// ----------- Japanese --------------
+
+static const psfont Japanese1 [] = {
+ { "Ryumin-Light-H", 0, 100. },
+ { "Ryumin-Light-H", 0.2, 100. },
+ { "GothicBBB-Medium-H", 0, 100. },
+ { "GothicBBB-Medium-H", 0.2, 100. }
+};
+
+static const psfont Japanese1a [] = {
+ { "GothicBBB-Medium-H", 0, 100. },
+ { "GothicBBB-Medium-H", 0.2, 100. },
+ { "Ryumin-Light-H", 0, 100. },
+ { "Ryumin-Light-H", 0.2, 100. }
+};
+
+static const psfont Japanese2 [] = {
+ { "GothicBBB-Medium-H", 0, 100. },
+ { "GothicBBB-Medium-H", 0.2, 100. },
+ { "GothicBBB-Medium-H", 0, 100. },
+ { "GothicBBB-Medium-H", 0.2, 100. }
+};
+
+static const psfont Japanese2a [] = {
+ { "Ryumin-Light-H", 0, 100. },
+ { "Ryumin-Light-H", 0.2, 100. },
+ { "Ryumin-Light-H", 0, 100. },
+ { "Ryumin-Light-H", 0.2, 100. }
+};
+
+
+// Wadalab fonts
+
+static const psfont WadaMin [] = {
+ { "WadaMin-Regular-H", 0, 100. },
+ { "WadaMin-Regular-H", 0.2, 100. },
+ { "WadaMin-Bold-H", 0, 100. },
+ { "WadaMin-Bold-H", 0.2, 100. }
+};
+
+static const psfont WadaGo [] = {
+ { "WadaMaruGo-Regular-H", 0, 100. },
+ { "WadaMaruGo-Regular-H", 0.2, 100. },
+ { "WadaGo-Bold-H", 0, 100. },
+ { "WadaGo-Bold-H", 0.2, 100. }
+};
+
+// Adobe Wadalab
+
+static const psfont WadaGoAdobe [] = {
+ { "WadaMaruGo-RegularH-Hojo-H", 0, 100. },
+ { "WadaMaruGo-RegularH-Hojo-H", 0.2, 100. },
+ { "WadaMaruGo-RegularH-Hojo-H", 0, 100. },
+ { "WadaMaruGo-RegularH-Hojo-H", 0.2, 100. },
+};
+static const psfont WadaMinAdobe [] = {
+ { "WadaMin-RegularH-Hojo-H", 0, 100. },
+ { "WadaMin-RegularH-Hojo-H", 0.2, 100. },
+ { "WadaMin-RegularH-Hojo-H", 0, 100. },
+ { "WadaMin-RegularH-Hojo-H", 0.2, 100. },
+};
+
+
+static const psfont * const Japanese1Replacements[] = {
+ Japanese1, Japanese1a, WadaMin, WadaGo, WadaMinAdobe, WadaGoAdobe, 0
+};
+static const psfont * const Japanese2Replacements[] = {
+ Japanese2, Japanese2a, WadaMin, WadaGo, WadaMinAdobe, WadaGoAdobe, 0
+};
+
+class TQPSPrinterFontJapanese
+ : public TQPSPrinterFontAsian {
+public:
+ TQPSPrinterFontJapanese(const TQFontEngine* f);
+ virtual TQString extension() const;
+};
+
+TQPSPrinterFontJapanese::TQPSPrinterFontJapanese(const TQFontEngine* f)
+{
+ codec = TQTextCodec::codecForMib( 63 ); // jisx0208.1983-0
+
+ int type = getPsFontType( f );
+ psname = makePSFontName( f, type );
+ TQString best = "[ /" + psname + " 1.0 0.0 ]";
+ replacementList.append( best );
+
+ const psfont *const *replacements = ( psname.contains( "Helvetica" ) ? Japanese2Replacements : Japanese1Replacements );
+ appendReplacements( replacementList, replacements, type );
+}
+
+TQString TQPSPrinterFontJapanese::extension() const
+{
+ return "-H";
+}
+
+// ----------- Korean --------------
+
+// sans serif
+static const psfont SMGothic [] = {
+ { "SMGothic-Medium-KSC-EUC-H", 0, 100. },
+ { "SMGothic-Medium-KSC-EUC-H", 0.2, 100. },
+ { "SMGothic-DemiBold-KSC-EUC-H", 0, 100. },
+ { "SMGothic-DemiBold-KSC-EUC-H", 0.2, 100. }
+};
+
+// serif
+#if 0 // ### this is never used?
+static const psfont SMMyungjo [] = {
+ { "SMMyungjo-Light-KSC-EUC-H", 0, 100. },
+ { "SMMyungjo-Light-KSC-EUC-H", 0.2, 100. },
+ { "SMMyungjo-Bold-KSC-EUC-H", 0, 100. },
+ { "SMMyungjo-Bold-KSC-EUC-H", 0.2, 100. }
+};
+#endif
+
+static const psfont MKai [] = {
+ { "MingMT-Light-KSC-EUC-H", 0, 100. },
+ { "MingMT-Light-KSC-EUC-H", 0.2, 100. },
+ { "MKai-Medium-KSC-EUC-H", 0, 100. },
+ { "MKai-Medium-KSC-EUC-H", 0.2, 100. },
+};
+
+
+static const psfont Munhwa [] = {
+ { "Munhwa-Regular-KSC-EUC-H", 0, 100. },
+ { "Munhwa-Regular-KSC-EUC-H", 0.2, 100. },
+ { "Munhwa-Bold-KSC-EUC-H", 0, 100. },
+ { "Munhwa-Bold-KSC-EUC-H", 0.2, 100. }
+};
+
+static const psfont MunhwaGothic [] = {
+ { "MunhwaGothic-Regular-KSC-EUC-H", 0, 100. },
+ { "MunhwaGothic-Regular-KSC-EUC-H", 0.2, 100. },
+ { "MunhwaGothic-Bold-KSC-EUC-H", 0, 100. },
+ { "MunhwaGothic-Bold-KSC-EUC-H", 0.2, 100. }
+};
+
+static const psfont MunhwaGungSeo [] = {
+ { "MunhwaGungSeo-Light-KSC-EUC-H", 0, 100. },
+ { "MunhwaGungSeo-Light-KSC-EUC-H", 0.2, 100. },
+ { "MunhwaGungSeo-Bold-KSC-EUC-H", 0, 100. },
+ { "MunhwaGungSeo-Bold-KSC-EUC-H", 0.2, 100. }
+};
+
+static const psfont MunhwaGungSeoHeulim [] = {
+ { "MunhwaGungSeoHeulim-Light-KSC-EUC-H", 0, 100. },
+ { "MunhwaGungSeoHeulim-Light-KSC-EUC-H", 0.2, 100. },
+ { "MunhwaGungSeoHeulim-Bold-KSC-EUC-H", 0, 100. },
+ { "MunhwaGungSeoHeulim-Bold-KSC-EUC-H", 0.2, 100. }
+};
+
+static const psfont MunhwaHoonMin [] = {
+ { "MunhwaHoonMin-Regular-KSC-EUC-H", 0, 100. },
+ { "MunhwaHoonMin-Regular-KSC-EUC-H", 0.2, 100. },
+ { "MunhwaHoonMin-Regular-KSC-EUC-H", 0, 100. },
+ { "MunhwaHoonMin-Regular-KSC-EUC-H", 0.2, 100. }
+};
+
+static const psfont BaekmukGulim [] = {
+ { "Baekmuk-Gulim-KSC-EUC-H", 0, 100. },
+ { "Baekmuk-Gulim-KSC-EUC-H", 0.2, 100. },
+ { "Baekmuk-Gulim-KSC-EUC-H", 0, 100. },
+ { "Baekmuk-Gulim-KSC-EUC-H", 0.2, 100. }
+};
+
+static const psfont * const KoreanReplacements[] = {
+ BaekmukGulim, SMGothic, Munhwa, MunhwaGothic, MKai, MunhwaGungSeo,
+ MunhwaGungSeoHeulim, MunhwaHoonMin, Helvetica, 0
+};
+
+class TQPSPrinterFontKorean
+ : public TQPSPrinterFontAsian {
+public:
+ TQPSPrinterFontKorean(const TQFontEngine* f);
+ TQString extension() const;
+};
+
+TQPSPrinterFontKorean::TQPSPrinterFontKorean(const TQFontEngine* f)
+{
+ codec = TQTextCodec::codecForMib( 38 ); // eucKR
+ int type = getPsFontType( f );
+ psname = makePSFontName( f, type );
+ TQString best = "[ /" + psname + " 1.0 0.0 ]";
+ replacementList.append( best );
+ appendReplacements( replacementList, KoreanReplacements, type );
+}
+
+TQString TQPSPrinterFontKorean::extension() const
+{
+ return "-KSC-EUC-H";
+}
+// ----------- traditional chinese ------------
+
+// Arphic Public License Big5 TrueType fonts (on Debian and CLE and others)
+static const psfont ShanHeiSun [] = {
+ { "ShanHeiSun-Light-ETen-B5-H", 0, 100. },
+ { "ShanHeiSun-Light-ETen-B5-H", 0.2, 100. },
+ { "ShanHeiSun-Light-ETen-B5-H", 0, 100. },
+ { "ShanHeiSun-Light-ETen-B5-H", 0.2, 100. },
+};
+static const psfont ZenKai [] = {
+ { "ZenKai-Medium-ETen-B5-H", 0, 100. },
+ { "ZenKai-Medium-Italic-ETen-B5-H", 0.2, 100. },
+ { "ZenKai-Medium-Bold-ETen-B5-H", 0, 100. },
+ { "ZenKai-Medium-BoldItalic-ETen-B5-H", 0.2, 100. },
+};
+
+// Fonts on Turbolinux
+static const psfont SongB5 [] = {
+ { "B5-MSung-Light-ETen-B5-H", 0, 100. },
+ { "B5-MSung-Italic-ETen-B5-H", 0, 100. },
+ { "B5-MSung-Bold-ETen-B5-H", 0, 100. },
+ { "B5-MSung-BoldItalic-ETen-B5-H", 0, 100. },
+};
+static const psfont KaiB5 [] = {
+ { "B5-MKai-Medium-ETen-B5-H", 0, 100. },
+ { "B5-MKai-Italic-ETen-B5-H", 0, 100. },
+ { "B5-MKai-Bold-ETen-B5-H", 0, 100. },
+ { "B5-MKai-BoldItalic-ETen-B5-H", 0, 100. },
+};
+static const psfont HeiB5 [] = {
+ { "B5-MHei-Medium-ETen-B5-H", 0, 100. },
+ { "B5-MHei-Italic-ETen-B5-H", 0, 100. },
+ { "B5-MHei-Bold-ETen-B5-H", 0, 100. },
+ { "B5-MHei-BoldItalic-ETen-B5-H", 0, 100. },
+};
+static const psfont FangSongB5 [] = {
+ { "B5-CFangSong-Light-ETen-B5-H", 0, 100. },
+ { "B5-CFangSong-Italic-ETen-B5-H", 0, 100. },
+ { "B5-CFangSong-Bold-ETen-B5-H", 0, 100. },
+ { "B5-CFangSong-BoldItalic-ETen-B5-H", 0, 100. },
+};
+
+// Arphic fonts on Thiz Linux
+static const psfont LinGothic [] = {
+ { "LinGothic-Light-ETen-B5-H", 0, 100. },
+ { "LinGothic-Light-Italic-ETen-B5-H", 0.2, 100. },
+ { "LinGothic-Light-Bold-ETen-B5-H", 0, 100. },
+ { "LinGothic-Light-BoldItalic-ETen-B5-H", 0.2, 100. },
+};
+static const psfont YenRound [] = {
+ { "YenRound-Light-ETen-B5-H", 0, 100. },
+ { "YenRound-Light-Italic-ETen-B5-H", 0.2, 100. },
+ { "YenRound-Light-Bold-ETen-B5-H", 0, 100. },
+ { "YenRound-Light-BoldItalic-ETen-B5-H", 0.2, 100. },
+};
+
+// Dr. Wang Hann-Tzong's GPL'ed Big5 TrueType fonts
+#if 0 // ### this is never used?
+static const psfont HtWFangSong [] = {
+ { "HtW-FSong-Light-ETen-B5-H", 0, 100. },
+ { "HtW-FSong-Light-Italic-ETen-B5-H", 0.2, 100. },
+ { "HtW-FSong-Light-Bold-ETen-B5-H", 0, 100. },
+ { "HtW-FSong-Light-BoldItalic-ETen-B5-H", 0.2, 100. },
+};
+#endif
+
+static const psfont MingB5 [] = {
+ { "Ming-Light-ETen-B5-H", 0, 100. },
+ { "Ming-Light-Italic-ETen-B5-H", 0.2, 100. },
+ { "Ming-Light-Bold-ETen-B5-H", 0, 100. },
+ { "Ming-Light-BoldItalic-ETen-B5-H", 0.2, 100. },
+};
+
+// Microsoft's Ming/Sung font?
+static const psfont MSung [] = {
+ { "MSung-Light-ETenms-B5-H", 0, 100. },
+ { "MSung-Light-ETenms-B5-H", 0.2, 100. },
+ { "MSung-Light-ETenms-B5-H", 0, 100. },
+ { "MSung-Light-ETenms-B5-H", 0.2, 100. },
+};
+// "Standard Sung/Ming" font by Taiwan Ministry of Education
+static const psfont MOESung [] = {
+ { "MOESung-Regular-B5-H", 0, 100. },
+ { "MOESung-Regular-B5-H", 0.2, 100. },
+ { "MOESung-Regular-B5-H", 0, 100. },
+ { "MOESung-Regular-B5-H", 0.2, 100. },
+};
+
+static const psfont MOEKai [] = {
+ { "MOEKai-Regular-B5-H", 0, 100. },
+ { "MOEKai-Regular-B5-H", 0.2, 100. },
+ { "MOEKai-Regular-B5-H", 0, 100. },
+ { "MOEKai-Regular-B5-H", 0.2, 100. },
+};
+
+static const psfont * const TraditionalReplacements[] = {
+ MOESung, SongB5, ShanHeiSun, MingB5, MSung, FangSongB5, KaiB5, ZenKai, HeiB5,
+ LinGothic, YenRound, MOEKai, Helvetica, 0
+ };
+
+#if 0 // ### these are never used?
+static const psfont * const SongB5Replacements[] = {
+ SongB5, ShanHeiSun, MingB5, MSung, MOESung, Helvetica, 0
+ };
+
+static const psfont * const FangSongB5Replacements[] = {
+ FangSongB5, HtWFangSong, Courier, 0
+ };
+static const psfont * const KaiB5Replacements[] = {
+ KaiB5, ZenKai, Times, 0
+ };
+static const psfont * const HeiB5Replacements[] = {
+ HeiB5, LinGothic, YenRound, LucidaSans, 0
+ };
+static const psfont * const YuanB5Replacements[] = {
+ YenRound, LinGothic, HeiB5, LucidaSans, 0
+ };
+#endif
+
+
+class TQPSPrinterFontTraditionalChinese
+ : public TQPSPrinterFontAsian {
+public:
+ TQPSPrinterFontTraditionalChinese(const TQFontEngine* f);
+ TQString extension() const;
+};
+
+TQPSPrinterFontTraditionalChinese::TQPSPrinterFontTraditionalChinese(const TQFontEngine* f)
+{
+ codec = TQTextCodec::codecForMib( 2026 ); // Big5-0
+ int type = getPsFontType( f );
+ psname = makePSFontName( f, type );
+ TQString best = "[ /" + psname + " 1.0 0.0 ]";
+ replacementList.append( best );
+ appendReplacements( replacementList, TraditionalReplacements, type );
+}
+
+TQString TQPSPrinterFontTraditionalChinese::extension() const
+{
+ return "-ETen-B5-H";
+}
+
+// ----------- simplified chinese ------------
+
+#if 0
+// GB18030 fonts on XteamLinux (?)
+static const psfont SimplifiedGBK2K [] = {
+ { "MSung-Light-GBK2K-H", 0, 100. },
+ { "MSung-Light-GBK2K-H", 0.2, 100. },
+ { "MKai-Medium-GBK2K-H", 0, 100. },
+ { "MKai-Medium-GBK2K-H", 0.2, 100. },
+};
+#endif
+
+// GB18030 fonts on Turbolinux
+static const psfont SongGBK2K [] = {
+ { "MSung-Light-GBK2K-H", 0, 100. },
+ { "MSung-Italic-GBK2K-H", 0, 100. },
+ { "MSung-Bold-GBK2K-H", 0, 100. },
+ { "MSung-BoldItalic-GBK2K-H", 0, 100. },
+};
+static const psfont KaiGBK2K [] = {
+ { "MKai-Medium-GBK2K-H", 0, 100. },
+ { "MKai-Italic-GBK2K-H", 0, 100. },
+ { "MKai-Bold-GBK2K-H", 0, 100. },
+ { "MKai-BoldItalic-GBK2K-H", 0, 100. },
+};
+static const psfont HeiGBK2K [] = {
+ { "MHei-Medium-GBK2K-H", 0, 100. },
+ { "MHei-Italic-GBK2K-H", 0, 100. },
+ { "MHei-Bold-GBK2K-H", 0, 100. },
+ { "MHei-BoldItalic-GBK2K-H", 0, 100. },
+};
+static const psfont FangSongGBK2K [] = {
+ { "CFangSong-Light-GBK2K-H", 0, 100. },
+ { "CFangSong-Italic-GBK2K-H", 0, 100. },
+ { "CFangSong-Bold-GBK2K-H", 0, 100. },
+ { "CFangSong-BoldItalic-GBK2K-H", 0, 100. },
+};
+
+static const psfont Simplified [] = {
+ { "MSung-Light-GBK-EUC-H", 0, 100. },
+ { "MSung-Light-GBK-EUC-H", 0.2, 100. },
+ { "MKai-Medium-GBK-EUC-H", 0, 100. },
+ { "MKai-Medium-GBK-EUC-H", 0.2, 100. },
+};
+
+static const psfont MSungGBK [] = {
+ { "MSung-Light-GBK-EUC-H", 0, 100. },
+ { "MSung-Light-GBK-EUC-H", 0.2, 100. },
+ { "MSung-Light-GBK-EUC-H", 0, 100. },
+ { "MSung-Light-GBK-EUC-H", 0.2, 100. },
+};
+
+static const psfont FangSong [] = {
+ { "CFangSong-Light-GBK-EUC-H", 0, 100. },
+ { "CFangSong-Light-GBK-EUC-H", 0.2, 100. },
+ { "CFangSong-Light-GBK-EUC-H", 0, 100. },
+ { "CFangSong-Light-GBK-EUC-H", 0.2, 100. },
+};
+
+// Arphic Public License GB2312 TrueType fonts (on Debian and CLE and others)
+static const psfont BousungEG [] = {
+ { "BousungEG-Light-GB-GB-EUC-H", 0, 100. },
+ { "BousungEG-Light-GB-GB-EUC-H", 0.2, 100. },
+ { "BousungEG-Light-GB-Bold-GB-EUC-H", 0, 100. },
+ { "BousungEG-Light-GB-Bold-GB-EUC-H", 0.2, 100. },
+};
+static const psfont GBZenKai [] = {
+ { "GBZenKai-Medium-GB-GB-EUC-H", 0, 100. },
+ { "GBZenKai-Medium-GB-GB-EUC-H", 0.2, 100. },
+ { "GBZenKai-Medium-GB-Bold-GB-EUC-H", 0, 100. },
+ { "GBZenKai-Medium-GB-Bold-GB-EUC-H", 0.2, 100. },
+};
+
+static const psfont * const SimplifiedReplacements[] = {
+ SongGBK2K, FangSongGBK2K, KaiGBK2K, HeiGBK2K,
+ Simplified, MSungGBK, FangSong, BousungEG, GBZenKai, Helvetica, 0
+ };
+#if 0
+static const psfont * const SongGBK2KReplacements[] = {
+ SongGBK2K, MSungGBK, BousungEG, Helvetica, 0
+ };
+#endif
+static const psfont * const FangSongGBK2KReplacements[] = {
+ FangSongGBK2K, FangSong, Courier, 0
+ };
+static const psfont * const KaiGBK2KReplacements[] = {
+ KaiGBK2K, GBZenKai, Times, 0
+ };
+static const psfont * const HeiGBK2KReplacements[] = {
+ HeiGBK2K, LucidaSans, 0
+ };
+
+class TQPSPrinterFontSimplifiedChinese
+ : public TQPSPrinterFontAsian {
+public:
+ TQPSPrinterFontSimplifiedChinese(const TQFontEngine* f);
+ TQString extension() const;
+};
+
+TQPSPrinterFontSimplifiedChinese::TQPSPrinterFontSimplifiedChinese(const TQFontEngine* f)
+{
+ codec = TQTextCodec::codecForMib( 114 ); // GB18030
+ int type = getPsFontType( f );
+ TQString family = f->fontDef.family.lower();
+ if( family.contains("kai",FALSE) ) {
+ psname = KaiGBK2K[type].psname;
+ appendReplacements( replacementList, KaiGBK2KReplacements, type );
+ } else if( family.contains("fangsong",FALSE) ) {
+ psname = FangSongGBK2K[type].psname;
+ appendReplacements( replacementList, FangSongGBK2KReplacements, type );
+ } else if( family.contains("hei",FALSE) ) {
+ psname = HeiGBK2K[type].psname;
+ appendReplacements( replacementList, HeiGBK2KReplacements, type );
+ } else {
+ psname = SongGBK2K[type].psname;
+ appendReplacements( replacementList, SimplifiedReplacements, type );
+ }
+ //qDebug("simplified chinese: fontname is %s, psname=%s", f.family().latin1(), psname.latin1() );
+}
+
+TQString TQPSPrinterFontSimplifiedChinese::extension() const
+{
+ return "-GBK2K-H";
+}
+
+#endif
+
+
+// ================== TQPSPrinterFont ====================
+
+class TQPSPrinterFont {
+public:
+ TQPSPrinterFont(const TQFont& f, int script, TQPSPrinterPrivate *priv);
+ ~TQPSPrinterFont();
+ TQString postScriptFontName() { return p->postScriptFontName(); }
+ TQString defineFont( TQTextStream &stream, const TQString &ps, const TQFont &f, const TQString &key,
+ TQPSPrinterPrivate *d )
+ { return p->defineFont( stream, ps, f, key, d ); }
+ void download(TQTextStream& s, bool global) { p->download(s, global); }
+ TQPSPrinterFontPrivate *handle() { return p; }
+ TQString xfontname;
+private:
+ TQByteArray data;
+ TQPSPrinterFontPrivate* p;
+};
+
+TQPSPrinterFont::~TQPSPrinterFont()
+{
+ // the dict in TQFontPrivate does deletion for us.
+ // delete p;
+}
+
+
+TQPSPrinterFont::TQPSPrinterFont(const TQFont &f, int script, TQPSPrinterPrivate *priv)
+ : p(0)
+{
+ TQString fontfilename;
+ TQString fontname;
+
+ enum { NONE, PFB, PFA, TTF } type = NONE;
+
+ TQFontEngine *engine = f.d->engineForScript( (TQFont::Script) script );
+ // ### implement similar code for TQWS and WIN
+ xfontname = makePSFontName( engine );
+
+#if defined( Q_WS_X11 )
+ bool xlfd = FALSE;
+ //qDebug("engine = %p name=%s, script=%d", engine, engine ? engine->name() : "(null)", script);
+
+#ifndef QT_NO_XFTFREETYPE
+ if ( qt_has_xft && engine && engine->type() == TQFontEngine::Xft ) {
+ XftPattern *pattern = static_cast<TQFontEngineXft *>( engine )->pattern();
+ char *filename = 0;
+ XftPatternGetString (pattern, XFT_FILE, 0, &filename);
+ //qDebug("filename for font is '%s'", filename);
+ if ( filename ) {
+ fontfilename = TQString::fromLocal8Bit( filename );
+ xfontname = fontfilename;
+ }
+ } else
+#endif
+ {
+ TQString rawName;
+ if ( engine && engine != (TQFontEngine *)-1 )
+ rawName = engine->name();
+ int index = rawName.find('-');
+ if (index == 0) {
+ // this is an XLFD font name
+ for (int i=0; i < 6; i++) {
+ index = rawName.find('-',index+1);
+ }
+ xfontname = rawName.mid(0,index);
+ if ( xfontname.endsWith( "*" ) )
+ xfontname.truncate( xfontname.length() - 1 );
+ xlfd = TRUE;
+ }
+ }
+#endif // Q_WS_X11
+#ifndef QT_NO_TEXTCODEC
+ // map some scripts to something more useful
+ if ( script == TQFont::Han ) {
+ TQTextCodec *lc = TQTextCodec::codecForLocale();
+ switch( lc->mibEnum() ) {
+ case 36: // KS C 5601
+ case 38: // EUC KR
+ script = TQFont::Hangul;
+ break;
+
+ case 57: // gb2312.1980-0
+ case 113: // GBK
+ case -113: // gbk-0
+ case 114: // GB18030
+ case -114: // gb18030-0
+ case 2025: // GB2312
+ case 2026: // Big5
+ case -2026: // Big5-HKSCS
+ case 2101: // big5-0, big5.eten-0
+ case -2101: // big5hkscs-0, hkscs-1
+ break;
+
+ case 16: // JIS7
+ case 17: // SJIS
+ case 18: // EUC JP
+ case 63: // JIS X 0208
+ default:
+ script = TQFont::Hiragana;
+ break;
+ }
+ } else if ( script == TQFont::Katakana )
+ script = TQFont::Hiragana;
+ else if ( script == TQFont::Bopomofo )
+ script = TQFont::Han;
+#endif
+
+ TQString searchname = xfontname;
+#if defined(Q_WS_X11)
+ // we need an extension here due to the fact that we use different
+ // fonts for different scripts
+ if ( xlfd && script >= TQFont::Han && script <= TQFont::Bopomofo )
+ xfontname += "/" + toString( script );
+#endif
+
+ //qDebug("looking for font %s in dict", xfontname.latin1() );
+ p = priv->fonts.find(xfontname);
+ if ( p )
+ return;
+
+#if defined(Q_WS_X11)
+ if ( xlfd ) {
+
+ for (TQStringList::Iterator it=priv->fontpath.begin(); it!=priv->fontpath.end() && fontfilename.isEmpty(); ++it) {
+ if ((*it).left(1) != "/") continue; // not a path name, a font server
+ TQString fontmapname;
+ int num = 0;
+ // search font.dir and font.scale for the right file
+ while ( num < 2 ) {
+ if ( num == 0 )
+ fontmapname = (*it) + "/fonts.scale";
+ else
+ fontmapname = (*it) + "/fonts.dir";
+ //qWarning(fontmapname);
+ TQFile fontmap(fontmapname);
+ if (fontmap.open(IO_ReadOnly)) {
+ while (!fontmap.atEnd()) {
+ TQString mapping;
+ fontmap.readLine(mapping,512);
+ // fold to lower (since X folds to lowercase)
+ //qWarning(xfontname);
+ //qWarning(mapping);
+ if (mapping.lower().contains(searchname.lower())) {
+ int index = mapping.find(' ',0);
+ TQString ffn = mapping.mid(0,index);
+ // remove the most common bitmap formats
+ if( !ffn.contains( ".pcf" ) && !ffn.contains( ".bdf" ) &&
+ !ffn.contains( ".spd" ) && !ffn.contains( ".phont" ) ) {
+ fontfilename = (*it) + TQString("/") + ffn;
+ if ( TQFile::exists(fontfilename) ) {
+ //qDebug("found font file %s", fontfilename.latin1());
+ break;
+ } else // unset fontfilename
+ fontfilename = TQString();
+ }
+ }
+ }
+ fontmap.close();
+ }
+ num++;
+ }
+ }
+ }
+#endif
+
+ //qDebug("font=%s, fontname=%s, file=%s, p=%p", f.family().latin1(), xfontname.latin1(), fontfilename.latin1(), p);
+
+ // memory mapping would be better here
+ if (fontfilename.length() > 0) { // maybe there is no file name
+ TQFile fontfile(fontfilename);
+ if ( fontfile.exists() ) {
+ //printf("font name %s size = %d\n",fontfilename.latin1(),fontfile.size());
+ data = TQByteArray( fontfile.size() );
+
+ fontfile.open(IO_Raw | IO_ReadOnly);
+ fontfile.readBlock(data.data(), fontfile.size());
+ fontfile.close();
+ }
+ }
+
+ if (!data.isNull() && data.size() > 0) {
+ unsigned char* d = (unsigned char *)data.data();
+ if (d[0] == 0x80 && d[1] == 0x01 && d[6] == '%' && d[7] == '!')
+ type = PFB;
+ else if (d[0] == '%' && d[1] == '!' && d[2] == 'P' && d[3] == 'S')
+ type = PFA;
+ else if (d[0]==0x00 && d[1]==0x01 && d[2]==0x00 && d[3]==0x00)
+ type = TTF;
+ else
+ type = NONE;
+ } else
+ type = NONE;
+
+ //qDebug("font is of type %d", type );
+ switch (type) {
+ case TTF :
+ p = new TQPSPrinterFontTTF(engine, data);
+ break;
+ case PFB:
+ p = new TQPSPrinterFontPFB(engine, data);
+ break;
+ case PFA:
+ p = new TQPSPrinterFontPFA(engine, data);
+ break;
+ case NONE:
+ default:
+
+#ifndef QT_NO_TEXTCODEC
+
+ if ( script == TQFont::Hiragana )
+ p = new TQPSPrinterFontJapanese( engine );
+ else if ( script == TQFont::Hangul )
+ p = new TQPSPrinterFontKorean( engine );
+ else if ( script == TQFont::Han ) {
+ TQTextCodec *lc = TQTextCodec::codecForLocale();
+ switch( lc->mibEnum() ) {
+ case 2025: // GB2312
+ case 57: // gb2312.1980-0
+ case 113: // GBK
+ case -113: // gbk-0
+ case 114: // GB18030
+ case -114: // gb18030-0
+ p = new TQPSPrinterFontSimplifiedChinese( engine );
+ break;
+ case 2026: // Big5
+ case -2026: // big5-0, big5.eten-0
+ case 2101: // Big5-HKSCS
+ case -2101: // big5hkscs-0, hkscs-1
+ p = new TQPSPrinterFontTraditionalChinese( engine );
+ break;
+ default:
+ p = new TQPSPrinterFontJapanese( engine );
+ }
+ } else
+#endif
+ //qDebug("didnt find font for %s", xfontname.latin1());
+ p = new TQPSPrinterFontNotFound( engine );
+ break;
+ }
+
+ if (p->postScriptFontName() == "Symbol")
+ p->setSymbol();
+
+ // this is needed to make sure we don't get the same postscriptname twice
+ TQDictIterator<TQPSPrinterFontPrivate> it( priv->fonts );
+ for( it.toFirst(); it.current(); ++it ) {
+ if ( *(*it) == *p ) {
+// qWarning("Post script driver: font already in dict");
+ delete p;
+ p = *it;
+ return;
+ }
+ }
+
+ //qDebug("inserting font %s in dict psname=%s", xfontname.latin1(), p->postScriptFontName().latin1() );
+ priv->fonts.insert( xfontname, p );
+}
+
+// ================= END OF PS FONT METHODS ============
+
+
+TQPSPrinterPrivate::TQPSPrinterPrivate( TQPrinter *prt, int filedes )
+ : buffer( 0 ), outDevice( 0 ), fd( filedes ), pageBuffer( 0 ), fonts(27, FALSE), fontBuffer(0), savedImage( 0 ),
+ dirtypen( FALSE ), dirtybrush( FALSE ), dirtyBkColor( FALSE ), bkMode( TQt::TransparentMode ), dirtyBkMode( FALSE ),
+#ifndef QT_NO_TEXTCODEC
+ currentFontCodec( 0 ),
+#endif
+ fm( TQFont() ), textY( 0 )
+{
+ printer = prt;
+ headerFontNames.setAutoDelete( TRUE );
+ pageFontNames.setAutoDelete( TRUE );
+ fonts.setAutoDelete( TRUE );
+ currentFontFile = 0;
+ scale = 1.;
+ scriptUsed = -1;
+
+#ifdef Q_WS_X11
+ // append qsettings fontpath
+ TQSettings settings;
+ embedFonts = settings.readBoolEntry( "/qt/embedFonts", TRUE );
+
+ int npaths;
+ char** font_path;
+ font_path = XGetFontPath( qt_xdisplay(), &npaths);
+ bool xfsconfig_read = FALSE;
+ for (int i=0; i<npaths; i++) {
+ // If we're using xfs, append font paths from /etc/X11/fs/config
+ // can't hurt, and chances are we'll get all fonts that way.
+ if (((font_path[i])[0] != '/') && !xfsconfig_read) {
+ // We're using xfs -> read its config
+ bool finished = FALSE;
+ TQFile f("/etc/X11/fs/config");
+ if ( !f.exists() )
+ f.setName("/usr/X11R6/lib/X11/fs/config");
+ if ( !f.exists() )
+ f.setName("/usr/X11/lib/X11/fs/config");
+ if ( f.exists() ) {
+ f.open(IO_ReadOnly);
+ while(f.status()==IO_Ok && !finished) {
+ TQString fs;
+ f.readLine(fs, 1024);
+ fs=fs.stripWhiteSpace();
+ if (fs.left(9)=="catalogue" && fs.contains('=')) {
+ fs=fs.mid(fs.find('=')+1).stripWhiteSpace();
+ bool end = FALSE;
+ while( f.status()==IO_Ok && !end ) {
+ if ( fs[int(fs.length())-1] == ',' )
+ fs = fs.left(fs.length()-1);
+ else
+ end = TRUE;
+ if (fs[0] != '#' && !fs.contains(":unscaled"))
+ fontpath += fs;
+ f.readLine(fs, 1024);
+ fs=fs.stripWhiteSpace();
+ }
+ finished = TRUE;
+ }
+ }
+ f.close();
+ }
+ xfsconfig_read = TRUE;
+ } else if(!strstr(font_path[i], ":unscaled")) {
+ // Fonts paths marked :unscaled are always bitmapped fonts
+ // -> we can as well ignore them now and save time
+ fontpath += font_path[i];
+ }
+ }
+ XFreeFontPath(font_path);
+
+ // append qsettings fontpath
+ TQStringList fp = settings.readListEntry( "/qt/fontPath", ':' );
+ if ( !fp.isEmpty() )
+ fontpath += fp;
+#else
+ embedFonts = FALSE;
+#endif
+}
+
+TQPSPrinterPrivate::~TQPSPrinterPrivate()
+{
+ delete pageBuffer;
+}
+
+void TQPSPrinterPrivate::setFont( const TQFont & fnt, int script )
+{
+ TQFont f = fnt;
+ if ( f.rawMode() ) {
+ TQFont fnt( TQString::fromLatin1("Helvetica"), 12 );
+ setFont( fnt, TQFont::Unicode );
+ return;
+ }
+ if ( f.pointSize() == 0 ) {
+#if defined(CHECK_RANGE)
+ qWarning( "TQPrinter: Cannot set a font with zero point size." );
+#endif
+ f.setPointSize(TQApplication::font().pointSize());
+ if ( f.pointSize() == 0 )
+ f.setPointSize( 11 );
+ }
+
+ TQPSPrinterFont ff( f, script, this );
+ TQString ps = ff.postScriptFontName();
+
+ TQString s = ps;
+ s.append( ' ' );
+ s.prepend( ' ' );
+
+ TQString key = ff.xfontname;
+
+ if ( f.pointSize() != -1 )
+ key += " " + toString( f.pointSize() );
+ else
+ key += " px" + toString( f.pixelSize() );
+ TQString * tmp;
+ if ( !buffer )
+ tmp = pageFontNames.find( key );
+ else
+ tmp = headerFontNames.find( key );
+
+ TQString fontName;
+ if ( tmp )
+ fontName = *tmp;
+
+ if ( fontName.isEmpty() ) {
+ fontName = ff.defineFont( pageStream, ps, f, key, this );
+ }
+ pageStream << fontName << " F\n";
+
+ ps.append( ' ' );
+ ps.prepend( ' ' );
+ if ( !fontsUsed.contains( ps ) )
+ fontsUsed += ps;
+
+#ifndef QT_NO_TEXTCODEC
+ TQTextCodec * codec = 0;
+// ###
+// #ifndef QT_NO_TEXTCODEC
+// i = 0;
+// do {
+// if ( unicodevalues[i].cs == f.charSet() )
+// codec = TQTextCodec::codecForMib( unicodevalues[i++].mib );
+// } while( codec == 0 && unicodevalues[i++].cs != unicodevalues_LAST );
+// #endif
+ currentFontCodec = codec;
+#endif
+ currentFont = fontName;
+ currentFontFile = ff.handle();
+ scriptUsed = script;
+}
+
+
+static void ps_r7( TQTextStream& stream, const char * s, int l )
+{
+ int i = 0;
+ uchar line[79];
+ int col = 0;
+
+ while( i < l ) {
+ line[col++] = s[i++];
+ if ( col >= 76 ) {
+ line[col++] = '\n';
+ line[col++] = '\0';
+ stream << (const char *)line;
+ col = 0;
+ }
+ }
+ if ( col > 0 ) {
+ while( (col&3) != 0 )
+ line[col++] = '%'; // use a comment as padding
+ line[col++] = '\n';
+ line[col++] = '\0';
+ stream << (const char *)line;
+ }
+}
+
+
+static const int quoteSize = 3; // 1-8 pixels
+static const int maxQuoteLength = 4+16+32+64+128+256; // magic extended quote
+static const int quoteReach = 10; // ... 1-1024 pixels back
+static const int tableSize = 1024; // 2 ** quoteReach;
+static const int numAttempts = 128;
+
+static const int hashSize = 71;
+
+static const int None = INT_MAX;
+
+/* puts the lowest numBits of data into the out array starting at postion (byte/bit).
+ Adjusts byte and bit to point ot the next position.
+
+ Need to make sure the out array is long enough before calling the method.
+*/
+static void emitBits( char *out, int & byte, int & bit,
+ int numBits, uint data )
+{
+ int b = 0;
+ uint d = data;
+ while( b < numBits ) {
+ if ( bit == 0 )
+ out[byte] = 0;
+ if ( d & 1 )
+ out[byte] = (uchar)out[byte] | ( 1 << bit );
+ d = d >> 1;
+ b++;
+ bit++;
+ if ( bit > 6 ) {
+ bit = 0;
+ byte++;
+ }
+ }
+}
+
+//#define DEBUG_COMPRESS
+#ifdef DEBUG_COMPRESS
+#include <qdatetime.h>
+#endif
+
+static TQByteArray compress( const TQImage & image, bool gray ) {
+#ifdef DEBUG_COMPRESS
+ TQTime t;
+ t.start();
+ int sizeUncompressed[11];
+ for( int i = 0; i < 11; i++ )
+ sizeUncompressed[i] = 0;
+ int sizeCompressed[11];
+ for( int i = 0; i < 11; i++ )
+ sizeCompressed[i] = 0;
+#endif
+
+ int width = image.width();
+ int height = image.height();
+ int depth = image.depth();
+ int size = width*height;
+
+ int pastPixel[tableSize];
+ int mostRecentPixel[hashSize];
+ if ( depth == 1 )
+ size = (width+7)/8*height;
+ else if ( !gray )
+ size = size*3;
+
+ unsigned char *pixel = new unsigned char[size+1];
+ int i = 0;
+ if ( depth == 1 ) {
+ TQImage::Endian bitOrder = image.bitOrder();
+ memset( pixel, 0xff, size );
+ for( int y=0; y < height; y++ ) {
+ uchar * s = image.scanLine( y );
+ for( int x=0; x < width; x++ ) {
+ // need to copy bit for bit...
+ bool b = ( bitOrder == TQImage::LittleEndian ) ?
+ (*(s + (x >> 3)) >> (x & 7)) & 1 :
+ (*(s + (x >> 3)) << (x & 7)) & 0x80 ;
+ if ( b )
+ pixel[i >> 3] ^= (0x80 >> ( i & 7 ));
+ i++;
+ }
+ // we need to align to 8 bit here
+ i = (i+7) & 0xffffff8;
+ }
+ } else if ( depth == 8 ) {
+ for( int y=0; y < height; y++ ) {
+ uchar * s = image.scanLine( y );
+ for( int x=0; x < width; x++ ) {
+ TQRgb rgb = image.color( s[x] );
+ if ( gray ) {
+ pixel[i] = (unsigned char) qGray( rgb );
+ i++;
+ } else {
+ pixel[i] = (unsigned char) qRed( rgb );
+ pixel[i+1] = (unsigned char) qGreen( rgb );
+ pixel[i+2] = (unsigned char) qBlue( rgb );
+ i += 3;
+ }
+ }
+ }
+ } else {
+ bool alpha = image.hasAlphaBuffer();
+ for( int y=0; y < height; y++ ) {
+ TQRgb * s = (TQRgb*)(image.scanLine( y ));
+ for( int x=0; x < width; x++ ) {
+ TQRgb rgb = (*s++);
+ if ( alpha && qAlpha( rgb ) < 0x40 ) // 25% alpha, convert to white -
+ rgb = qRgb( 0xff, 0xff, 0xff );
+ if ( gray ) {
+ pixel[i] = (unsigned char) qGray( rgb );
+ i++;
+ } else {
+ pixel[i] = (unsigned char) qRed( rgb );
+ pixel[i+1] = (unsigned char) qGreen( rgb );
+ pixel[i+2] = (unsigned char) qBlue( rgb );
+ i += 3;
+ }
+ }
+ }
+ }
+
+ pixel[size] = 0;
+
+ /* this compression function emits blocks of data, where each
+ block is an unquoted series of pixels, or a quote from earlier
+ pixels. if the six-letter string "banana" were a six-pixel
+ image, it might be unquoted "ban" followed by a 3-pixel quote
+ from -2. note that the final "a" is then copied from the
+ second "a", which is copied from the first "a" in the same copy
+ operation.
+
+ the scanning for quotable blocks uses a cobol-like loop and a
+ hash table: we know how many pixels we need to quote, hash the
+ first and last pixel we need, and then go backwards in time
+ looking for some spot where those pixels of those two colours
+ occur at the right distance from each other.
+
+ when we find a spot, we'll try a string-compare of all the
+ intervening pixels. we only do a maximum of 128 both-ends
+ compares or 64 full-string compares. it's more important to be
+ fast than get the ultimate in compression.
+
+ The format of the compressed stream is as follows:
+ // 2 bits step size for search and backreference ( 1 or 3 )
+ 1 bit compressed or uncompressed block follows
+
+ uncompressed block:
+ 3 bits size of block in bytes
+ size*8 bits data
+
+ compressed block:
+ 3 bits compression header
+ 0-2 size of block is 1-3 bytes
+ 3-7 size of block is bigger, 4-8 additional bits specifying size follow
+ 0/4-8 additional size fields
+ 10 location of backreference
+ */
+
+ for( i=0; i < hashSize; i++ )
+ mostRecentPixel[i] = None;
+ int index = 0;
+ int emittedUntil = 0;
+ char *out = (char *)malloc( 256 * sizeof( char ) );
+ int outLen = 256;
+ int outOffset = 0;
+ int outBit = 0;
+
+ /* we process pixels serially, emitting as necessary/possible. */
+ while( index <= size ) {
+ int bestCandidate = None;
+ int bestLength = 0;
+ i = index % tableSize;
+ int h = pixel[index] % hashSize;
+ int start, end;
+ start = end = pastPixel[i] = mostRecentPixel[h];
+ mostRecentPixel[h] = index;
+ /* if our first candidate quote is unusable, or we don't need
+ to quote because we've already emitted something for this
+ pixel, just skip. */
+ if ( start < index - tableSize || index >= size ||
+ emittedUntil > index)
+ start = end = None;
+ int attempts = 0;
+ /* scan for suitable quote candidates: not too far back, and
+ if we've found one that's as big as it can get, don't look
+ for more */
+ while( start != None && end != None &&
+ bestLength < maxQuoteLength &&
+ start >= index - tableSize &&
+ end >= index - tableSize + bestLength ) {
+ /* scan backwards, looking for something good enough to
+ try a (slow) string comparison. we maintain indexes to
+ the start and the end of the quote candidate here */
+ while( start != None && end != None &&
+ ( pixel[start] != pixel[index] ||
+ pixel[end] != pixel[index+bestLength] ) ) {
+ if ( attempts++ > numAttempts ) {
+ start = None;
+ } else if ( pixel[end] % hashSize ==
+ pixel[index+bestLength] % hashSize ) {
+ /* we move the area along the end index' chain */
+ end = pastPixel[end%tableSize];
+ start = end - bestLength;
+ } else if ( pixel[start] % hashSize ==
+ pixel[index] % hashSize ) {
+ /* ... or along the start index' chain */
+ start = pastPixel[start%tableSize];
+ end = start + bestLength;
+ } else {
+#if 0
+ /* this should never happen: both the start and
+ the end pointers ran off their tracks. */
+ qDebug( "oops! %06x %06x %06x %06x %5d %5d %5d %d",
+ pixel[start], pixel[end],
+ pixel[index], pixel[index+bestLength],
+ start, end, index, bestLength );
+#endif
+ /* but if it should happen, no problem. we'll just
+ say we found nothing, and the compression will
+ be a bit worse. */
+ start = None;
+ }
+ /* if we've moved either index too far to use the
+ quote candidate, let's just give up here. there's
+ also a guard against "start" insanity. */
+ if ( start < index - tableSize || start < 0 || start >= index )
+ start = None;
+ if ( end < index - tableSize + bestLength || end < bestLength )
+ end = None;
+ }
+ /* ok, now start and end point to an area of suitable
+ length whose first and last points match, or one/both
+ is/are set to None. */
+ if ( start != None && end != None ) {
+ /* slow string compare... */
+ int length = 0;
+ while( length < maxQuoteLength &&
+ index+length < size &&
+ pixel[start+length] == pixel[index+length] )
+ length++;
+ /* if we've found something that overlaps the index
+ point, maybe we can move the quote point back? if
+ we're copying 10 pixels from 8 pixels back (an
+ overlap of 2), that'll be faster than copying from
+ 4 pixels back (an overlap of 6). */
+ if ( start + length > index && length > 0 ) {
+ int d = index-start;
+ int equal = TRUE;
+ while( equal && start + length > index &&
+ start > d && start-d >= index-tableSize ) {
+ int i = 0;
+ while( equal && i < d ) {
+ if( pixel[start+i] != pixel[start+i-d] )
+ equal = FALSE;
+ i++;
+ }
+ if ( equal )
+ start -= d;
+ }
+ }
+ /* if what we have is longer than the best previous
+ candidate, we'll use this one. */
+ if ( length > bestLength ) {
+ attempts = 0;
+ bestCandidate = start;
+ bestLength = length;
+ if ( length < maxQuoteLength && index + length < size )
+ end = mostRecentPixel[pixel[index+length]%hashSize];
+ } else {
+ /* and if it ins't, we'll try some more. but we'll
+ count each string compare extra, since they're
+ so expensive. */
+ attempts += 2;
+ if ( attempts > numAttempts ) {
+ start = None;
+ } else if ( pastPixel[start%tableSize] + bestLength <
+ pastPixel[end%tableSize] ) {
+ start = pastPixel[start%tableSize];
+ end = start + bestLength;
+ } else {
+ end = pastPixel[end%tableSize];
+ start = end - bestLength;
+ }
+ }
+ /* again, if we can't make use of the current quote
+ candidate, we don't try any more */
+ if ( start < index - tableSize || start < 0 || start > size+1 )
+ start = None;
+ if ( end < index - tableSize + bestLength || end < 0 || end > size+1 )
+ end = None;
+ }
+ }
+ /* backreferences to 1 byte of data are actually more costly than
+ emitting the data directly, 2 bytes don't save much. */
+ if ( bestCandidate != None && bestLength < 3 )
+ bestCandidate = None;
+ /* at this point, bestCandidate is a candidate of bestLength
+ length, or else it's None. if we have such a candidate, or
+ we're at the end, we have to emit all unquoted data. */
+ if ( index == size || bestCandidate != None ) {
+ /* we need a double loop, because there's a maximum length
+ on the "unquoted data" section. */
+ while( emittedUntil < index ) {
+#ifdef DEBUG_COMPRESS
+ int x = 0;
+ int bl = emittedUntil - index;
+ while ( (bl /= 2) )
+ x++;
+ if ( x > 10 ) x = 10;
+ sizeUncompressed[x]++;
+#endif
+ int l = TQMIN( 8, index - emittedUntil );
+ if ( outOffset + l + 2 >= outLen ) {
+ outLen *= 2;
+ out = (char *) realloc( out, outLen );
+ }
+ emitBits( out, outOffset, outBit,
+ 1, 0 );
+ emitBits( out, outOffset, outBit,
+ quoteSize, l-1 );
+ while( l-- ) {
+ emitBits( out, outOffset, outBit,
+ 8, pixel[emittedUntil] );
+ emittedUntil++;
+ }
+ }
+ }
+ /* if we have some quoted data to output, do it. */
+ if ( bestCandidate != None ) {
+#ifdef DEBUG_COMPRESS
+ int x = 0;
+ int bl = bestLength;
+ while ( (bl /= 2) )
+ x++;
+ if ( x > 10 ) x = 10;
+ sizeCompressed[x]++;
+#endif
+ if ( outOffset + 4 >= outLen ) {
+ outLen *= 2;
+ out = (char *) realloc( out, outLen );
+ }
+ emitBits( out, outOffset, outBit,
+ 1, 1 );
+ int l = bestLength - 3;
+ const struct off_len {
+ int off;
+ int bits;
+ } ol_table [] = {
+ /* Warning: if you change the table here, change /uc in the PS code! */
+ { 3, 0/*dummy*/ },
+ { 16, 4 },
+ { 32, 5 },
+ { 64, 6 },
+ { 128, 7 },
+ { /*256*/ 0xfffffff, 8 },
+ };
+
+ if ( l < ol_table[0].off ) {
+ emitBits( out, outOffset, outBit,
+ quoteSize, l );
+ } else {
+ const off_len *ol = ol_table;
+ l -= ol->off;
+ ol++;
+ while ( l >= ol->off ) {
+ l -= ol->off;
+ ol++;
+ }
+ emitBits( out, outOffset, outBit,
+ quoteSize, ol->bits-1 );
+ emitBits( out, outOffset, outBit,
+ ol->bits, l );
+ }
+ emitBits( out, outOffset, outBit,
+ quoteReach, index - bestCandidate - 1 );
+ emittedUntil += bestLength;
+ }
+ index++;
+ }
+ /* we've output all the data; time to clean up and finish off the
+ last characters. */
+ if ( outBit )
+ outOffset++;
+ i = 0;
+ /* we have to make sure the data is encoded in a stylish way :) */
+ while( i < outOffset ) {
+ uchar c = out[i];
+ c += 42;
+ if ( c > 'Z' && ( c != 't' || i == 0 || out[i-1] != 'Q' ) )
+ c += 84;
+ out[i] = c;
+ i++;
+ }
+ TQByteArray outarr;
+ outarr.duplicate( out, outOffset );
+ free( out );
+ delete [] pixel;
+
+#ifdef DEBUG_COMPRESS
+ qDebug( "------------- image compression statistics ----------------" );
+ qDebug(" compression time %d", t.elapsed() );
+ qDebug( "Size dist of uncompressed blocks:" );
+ qDebug( "\t%d\t%d\t%d\t%d\t%d\t%d\n", sizeUncompressed[0], sizeUncompressed[1],
+ sizeUncompressed[2], sizeUncompressed[3], sizeUncompressed[4], sizeUncompressed[5]);
+ qDebug( "\t%d\t%d\t%d\t%d\t%d\n", sizeUncompressed[6], sizeUncompressed[7],
+ sizeUncompressed[8], sizeUncompressed[9], sizeUncompressed[10] );
+ qDebug( "Size dist of compressed blocks:" );
+ qDebug( "\t%d\t%d\t%d\t%d\t%d\t%d\n", sizeCompressed[0], sizeCompressed[1],
+ sizeCompressed[2], sizeCompressed[3], sizeCompressed[4], sizeCompressed[5]);
+ qDebug( "\t%d\t%d\t%d\t%d\t%d\n", sizeCompressed[6], sizeCompressed[7],
+ sizeCompressed[8], sizeCompressed[9], sizeCompressed[10] );
+ qDebug( "===> total compression ratio %d/%d = %f", outOffset, size, (float)outOffset/(float)size );
+ qDebug( "-----------------------------------------------------------" );
+#endif
+
+ return outarr;
+}
+
+#undef XCOORD
+#undef YCOORD
+#undef WIDTH
+#undef HEIGHT
+#undef POINT
+#undef RECT
+#undef INT_ARG
+
+#define XCOORD(x) (float)(x)
+#define YCOORD(y) (float)(y)
+#define WIDTH(w) (float)(w)
+#define HEIGHT(h) (float)(h)
+
+#define POINT(index) XCOORD(p[index].point->x()) << ' ' << \
+ YCOORD(p[index].point->y()) << ' '
+#define RECT(index) XCOORD(p[index].rect->normalize().x()) << ' ' << \
+ YCOORD(p[index].rect->normalize().y()) << ' ' << \
+ WIDTH (p[index].rect->normalize().width()) << ' ' << \
+ HEIGHT(p[index].rect->normalize().height()) << ' '
+#define INT_ARG(index) p[index].ival << ' '
+
+static char returnbuffer[13];
+static const char * color( const TQColor &c, TQPrinter * printer )
+{
+ if ( c == TQt::black )
+ qstrcpy( returnbuffer, "B " );
+ else if ( c == TQt::white )
+ qstrcpy( returnbuffer, "W " );
+ else if ( c.red() == c.green() && c.red() == c.blue() )
+ sprintf( returnbuffer, "%d d2 ", c.red() );
+ else if ( printer->colorMode() == TQPrinter::GrayScale )
+ sprintf( returnbuffer, "%d d2 ",
+ qGray( c.red(), c.green(),c.blue() ) );
+ else
+ sprintf( returnbuffer, "%d %d %d ",
+ c.red(), c.green(), c.blue() );
+ return returnbuffer;
+}
+
+
+static const char * psCap( TQt::PenCapStyle p )
+{
+ if ( p == TQt::SquareCap )
+ return "2 ";
+ else if ( p == TQt::RoundCap )
+ return "1 ";
+ return "0 ";
+}
+
+
+static const char * psJoin( TQt::PenJoinStyle p ) {
+ if ( p == TQt::BevelJoin )
+ return "2 ";
+ else if ( p == TQt::RoundJoin )
+ return "1 ";
+ return "0 ";
+}
+
+
+
+void TQPSPrinterPrivate::drawImage( TQPainter *paint, float x, float y, float w, float h,
+ const TQImage &img, const TQImage &mask )
+{
+ if ( !w || !h || img.isNull() ) return;
+
+ int width = img.width();
+ int height = img.height();
+ float scaleX = (float)width/w;
+ float scaleY = (float)height/h;
+
+ bool gray = (printer->colorMode() == TQPrinter::GrayScale) ||
+ img.allGray();
+ int splitSize = 21830 * (gray ? 3 : 1 );
+ if ( width * height > splitSize ) { // 65535/3, tolerance for broken printers
+ int images, subheight;
+ images = ( width * height + splitSize - 1 ) / splitSize;
+ subheight = ( height + images-1 ) / images;
+ while ( subheight * width > splitSize ) {
+ images++;
+ subheight = ( height + images-1 ) / images;
+ }
+ int suby = 0;
+ while( suby < height ) {
+ drawImage(paint, x, y + suby/scaleY, w, TQMIN( subheight, height-suby )/scaleY,
+ img.copy( 0, suby, width, TQMIN( subheight, height-suby ) ),
+ mask.isNull() ? mask : mask.copy( 0, suby, width, TQMIN( subheight, height-suby ) ));
+ suby += subheight;
+ }
+ } else {
+ TQByteArray out;
+ int size = 0;
+ const char *bits;
+
+ if ( !mask.isNull() ) {
+ out = ::compress( mask, TRUE );
+ size = (width+7)/8*height;
+ pageStream << "/mask " << size << " string uc\n";
+ ps_r7( pageStream, out, out.size() );
+ pageStream << "d\n";
+ }
+ if ( img.depth() == 1 ) {
+ size = (width+7)/8*height;
+ bits = "1 ";
+ } else if ( gray ) {
+ size = width*height;
+ bits = "8 ";
+ } else {
+ size = width*height*3;
+ bits = "24 ";
+ }
+
+ out = ::compress( img, gray );
+ pageStream << "/sl " << size << " string uc\n";
+ ps_r7( pageStream, out, out.size() );
+ pageStream << "d\n"
+ << width << ' ' << height << "[" << scaleX << " 0 0 " << scaleY << " 0 0]sl "
+ << bits << (!mask.isNull() ? "mask " : "false ")
+ << x << ' ' << y << " di\n";
+ }
+}
+
+
+void TQPSPrinterPrivate::matrixSetup( TQPainter *paint )
+{
+#ifndef QT_NO_TRANSFORMATIONS
+ TQWMatrix tmp;
+ if ( paint->hasViewXForm() ) {
+ TQRect viewport = paint->viewport();
+ TQRect window = paint->window();
+ tmp.translate( viewport.x(), viewport.y() );
+ tmp.scale( 1.0 * viewport.width() / window.width(),
+ 1.0 * viewport.height() / window.height() );
+ tmp.translate( -window.x(), -window.y() );
+ }
+ if ( paint->hasWorldXForm() ) {
+ tmp = paint->worldMatrix() * tmp;
+ }
+ pageStream << "["
+ << tmp.m11() << ' ' << tmp.m12() << ' '
+ << tmp.m21() << ' ' << tmp.m22() << ' '
+ << tmp.dx() << ' ' << tmp.dy()
+ << "]ST\n";
+#else
+ TQPoint p(0,0);
+ p = paint->xForm(p);
+ pageStream << "["
+ << 0 << ' ' << 0 << ' '
+ << 0 << ' ' << 0 << ' '
+ << p.x() << ' ' << p.y()
+ << "]ST\n";
+#endif
+ dirtyMatrix = FALSE;
+}
+
+void TQPSPrinterPrivate::orientationSetup()
+{
+ if ( printer->orientation() == TQPrinter::Landscape )
+ pageStream << "TQLS\n";
+}
+
+
+void TQPSPrinterPrivate::emitHeader( bool finished )
+{
+ TQString title = printer->docName();
+ TQString creator = printer->creator();
+ if ( !creator ) // default creator
+ creator = TQString::fromLatin1("TQt " QT_VERSION_STR);
+ outDevice = new TQFile();
+ (void)((TQFile *)outDevice)->open( IO_WriteOnly, fd );
+ outStream.setDevice( outDevice );
+ outStream << "%!PS-Adobe-1.0";
+ TQPaintDeviceMetrics m( printer );
+ scale = 72. / ((float) m.logicalDpiY());
+ uint mtop, mleft, mbottom, mright;
+ printer->margins( &mtop, &mleft, &mbottom, &mright );
+ int width = m.width();
+ int height = m.height();
+ bool fullPage = printer->fullPage();
+ if ( finished && pageCount == 1 && printer->numCopies() == 1 &&
+ ( ( printer->fullPage() && qt_gen_epsf ) ||
+ ( printer->outputToFile() && printer->outputFileName().endsWith( ".eps" ) ) )
+ ) {
+ if ( !boundingBox.isValid() )
+ boundingBox.setRect( 0, 0, width, height );
+ if ( printer->orientation() == TQPrinter::Landscape ) {
+ if ( !fullPage )
+ boundingBox.moveBy( -mleft, -mtop );
+ outStream << " EPSF-3.0\n%%BoundingBox: "
+ << (int)(m.height() - boundingBox.bottom())*scale << " " // llx
+ << (int)(m.width() - boundingBox.right())*scale - 1 << " " // lly
+ << (int)(m.height() - boundingBox.top())*scale + 1 << " " // urx
+ << (int)(m.width() - boundingBox.left())*scale; // ury
+ } else {
+ if ( !fullPage )
+ boundingBox.moveBy( mleft, -mtop );
+ outStream << " EPSF-3.0\n%%BoundingBox: "
+ << (int)(boundingBox.left())*scale << " "
+ << (int)(m.height() - boundingBox.bottom())*scale - 1 << " "
+ << (int)(boundingBox.right())*scale + 1 << " "
+ << (int)(m.height() - boundingBox.top())*scale;
+ }
+ } else {
+ int w = width + (fullPage ? 0 : mleft + mright);
+ int h = height + (fullPage ? 0 : mtop + mbottom);
+ w = (int)(w*scale);
+ h = (int)(h*scale);
+ // set a bounding box according to the DSC
+ if ( printer->orientation() == TQPrinter::Landscape )
+ outStream << "\n%%BoundingBox: 0 0 " << h << " " << w;
+ else
+ outStream << "\n%%BoundingBox: 0 0 " << w << " " << h;
+ }
+ outStream << "\n" << wrapDSC( "%%Creator: " + creator );
+ if ( !!title )
+ outStream << wrapDSC( "%%Title: " + title );
+ outStream << "%%CreationDate: " << TQDateTime::currentDateTime().toString();
+ outStream << "\n%%Orientation: ";
+ if ( printer->orientation() == TQPrinter::Landscape )
+ outStream << "Landscape";
+ else
+ outStream << "Portrait";
+ if ( finished )
+ outStream << "\n%%Pages: " << pageCount << "\n"
+ << wrapDSC( "%%DocumentFonts: " + fontsUsed );
+ else
+ outStream << "%%Pages: (atend)"
+ << "\n%%DocumentFonts: (atend)";
+ outStream << "\n%%EndComments\n";
+
+ outStream << "%%BeginProlog\n";
+ const char * const prologLicense = "% Prolog copyright 1994-2006 Trolltech. "
+ "You may copy this prolog in any way\n"
+ "% that is directly related to this "
+ "document. For other use of this prolog,\n"
+ "% see your licensing agreement for TQt.\n";
+ outStream << prologLicense << ps_header << "\n";
+
+ // we have to do this here, as scaling can affect this.
+ TQString lineStyles = "/LArr[" // Pen styles:
+ " [] []" // solid line
+ " [ w s ] [ s w ]" // dash line
+ " [ s s ] [ s s ]" // dot line
+ " [ m s s s ] [ s m s s ]" // dash dot line
+ " [ m s s s s ] [ s m s s s s ]" // dash dot dot line
+ " ] d\n";
+ lineStyles.replace( TQRegExp( "w" ), toString( 10./scale ) );
+ lineStyles.replace( TQRegExp( "m" ), toString( 5./scale ) );
+ lineStyles.replace( TQRegExp( "s" ), toString( 3./scale ) );
+
+ outStream << lineStyles;
+
+ outStream << "/pageinit {\n";
+ if ( !printer->fullPage() ) {
+ if ( printer->orientation() == TQPrinter::Portrait )
+ outStream << mleft*scale << " "
+ << mbottom*scale << " translate\n";
+ else
+ outStream << mtop*scale << " "
+ << mleft*scale << " translate\n";
+ }
+ if ( printer->orientation() == TQPrinter::Portrait ) {
+ outStream << "% " << m.widthMM() << "*" << m.heightMM()
+ << "mm (portrait)\n0 " << height*scale
+ << " translate " << scale << " -" << scale << " scale/defM matrix CM d } d\n";
+ } else {
+ outStream << "% " << m.heightMM() << "*" << m.widthMM()
+ << " mm (landscape)\n 90 rotate " << scale << " -" << scale << " scale/defM matrix CM d } d\n";
+ }
+ outStream << "%%EndProlog\n";
+
+
+ outStream << "%%BeginSetup\n";
+ if ( printer->numCopies() > 1 ) {
+ outStream << "/#copies " << printer->numCopies() << " def\n";
+ outStream << "/NumCopies " << printer->numCopies() << " SPD\n";
+ outStream << "/Collate " << (printer->collateCopies() ? "true" : "false") << " SPD\n";
+ }
+ if ( fontBuffer->buffer().size() ) {
+ if ( pageCount == 1 || finished )
+ outStream << "% Fonts and encodings used\n";
+ else
+ outStream << "% Fonts and encodings used on pages 1-"
+ << pageCount << "\n";
+ TQDictIterator<TQPSPrinterFontPrivate> it(fonts);
+ while (it.current()) {
+ it.current()->download(outStream,TRUE); // true means its global
+ ++it;
+ }
+ outStream.writeRawBytes( fontBuffer->buffer().data(),
+ fontBuffer->buffer().size() );
+ }
+ outStream << "%%EndSetup\n";
+
+ outStream.writeRawBytes( buffer->buffer().data(),
+ buffer->buffer().size() );
+
+ delete buffer;
+ buffer = 0;
+ fontStream.unsetDevice();
+ delete fontBuffer;
+ fontBuffer = 0;
+}
+
+
+/* Called whenever a restore has been done. Currently done at the top of a
+ new page and whenever clipping is turned off. */
+void TQPSPrinterPrivate::resetDrawingTools( TQPainter *paint )
+{
+ TQPen defaultPen; // default drawing tools
+ TQBrush defaultBrush;
+
+ TQColor c = paint->backgroundColor();
+ if ( c != TQt::white )
+ pageStream << color( c, printer ) << "BC\n";
+
+ if ( paint->backgroundMode() != TQt::TransparentMode )
+ pageStream << "/OMo true d\n";
+
+ //currentUsed = currentSet;
+ //setFont( currentSet );
+ currentFontFile = 0;
+
+ TQBrush b = paint->brush();
+ if ( b != defaultBrush ) {
+ if ( b == TQt::CustomPattern ) {
+#if defined(CHECK_RANGE)
+ qWarning( "TQPrinter: Pixmap brush not supported" );
+#endif
+ } else {
+ cbrush = b;
+ }
+ }
+
+ dirtypen = TRUE;
+ dirtybrush = TRUE;
+
+ if ( paint->hasViewXForm() || paint->hasWorldXForm() )
+ matrixSetup( paint );
+}
+
+
+static void putRect( TQTextStream &stream, const TQRect &r )
+{
+ stream << r.x() << " "
+ << r.y() << " "
+ << r.width() << " "
+ << r.height() << " ";
+}
+
+
+void TQPSPrinterPrivate::setClippingOff( TQPainter *paint )
+{
+ pageStream << "CLO\n"; // clipping off, includes a restore
+ resetDrawingTools( paint ); // so drawing tools must be reset
+}
+
+
+void TQPSPrinterPrivate::clippingSetup( TQPainter *paint )
+{
+ if ( paint->hasClipping() ) {
+ if ( !firstClipOnPage )
+ setClippingOff( paint );
+ const TQRegion rgn = paint->clipRegion();
+ TQMemArray<TQRect> rects = rgn.rects();
+ int i;
+ pageStream<< "CLSTART\n"; // start clipping
+ for( i = 0 ; i < (int)rects.size() ; i++ ) {
+ putRect( pageStream, rects[i] );
+ pageStream << "ACR\n"; // add clip rect
+ if ( pageCount == 1 )
+ boundingBox = boundingBox.unite( rects[i] );
+ }
+ pageStream << "CLEND\n"; // end clipping
+ firstClipOnPage = FALSE;
+ } else {
+ if ( !firstClipOnPage ) // no need to turn off if first on page
+ setClippingOff( paint );
+ // if we're painting without clipping, the bounding box must
+ // be everything. NOTE: this assumes that this function is
+ // only ever called when something is to be painted.
+ TQPaintDeviceMetrics m( printer );
+ if ( !boundingBox.isValid() )
+ boundingBox.setRect( 0, 0, m.width(), m.height() );
+ }
+ dirtyClipping = FALSE;
+}
+
+void TQPSPrinterPrivate::initPage(TQPainter *paint)
+{
+
+ // a restore undefines all the fonts that have been defined
+ // inside the scope (normally within pages) and all the glyphs that
+ // have been added in the scope.
+
+ TQDictIterator<TQPSPrinterFontPrivate> it(fonts);
+ while (it.current()) {
+ it.current()->restore();
+ ++it;
+ }
+ if ( !buffer ) {
+ pageFontNames.clear();
+ }
+
+ pageStream.unsetDevice();
+ if ( pageBuffer )
+ delete pageBuffer;
+ pageBuffer = new TQBuffer();
+ pageBuffer->open( IO_WriteOnly );
+ pageStream.setEncoding( TQTextStream::Latin1 );
+ pageStream.setDevice( pageBuffer );
+ delete savedImage;
+ savedImage = 0;
+ textY = 0;
+ dirtyClipping = TRUE;
+ firstClipOnPage = TRUE;
+
+
+ resetDrawingTools( paint );
+ dirtyNewPage = FALSE;
+ pageFontNumber = headerFontNumber;
+}
+
+void TQPSPrinterPrivate::flushPage( bool last )
+{
+ if ( last && !pageBuffer )
+ return;
+ bool pageFonts = ( buffer == 0 );
+ if ( buffer &&
+// ( last || pagesInBuffer++ > -1 ||
+// ( pagesInBuffer > 4 && buffer->size() > 262144 ) ) )
+#ifdef Q_WS_QWS
+ (last || buffer->size() > 2000000) // embedded is usually limited in memory
+#else
+ (last || buffer->size() > 50000000)
+#endif
+ ) {
+// qDebug("emiting header at page %d", pageCount );
+ emitHeader( last );
+ }
+ outStream << "%%Page: "
+ << pageCount << ' ' << pageCount << endl
+ << "%%BeginPageSetup\n"
+ << "QI\n";
+ if (!dirtyNewPage) {
+ if ( pageFonts ) {
+ //qDebug("page fonts for page %d", pageCount);
+ // we have already downloaded the header. Maybe we have page fonts here
+ TQDictIterator<TQPSPrinterFontPrivate> it(fonts);
+ while (it.current()) {
+ it.current()->download( outStream, FALSE ); // FALSE means its for the page only
+ ++it;
+ }
+ }
+ outStream << "%%EndPageSetup\n";
+ if ( pageBuffer )
+ outStream.writeRawBytes( pageBuffer->buffer().data(),
+ pageBuffer->buffer().size() );
+ }
+ outStream << "\nQP\n";
+ pageCount++;
+}
+
+// ================ PSPrinter class ========================
+
+TQPSPrinter::TQPSPrinter( TQPrinter *prt, int fd )
+ : TQPaintDevice( TQInternal::Printer | TQInternal::ExternalDevice )
+{
+ d = new TQPSPrinterPrivate( prt, fd );
+}
+
+
+TQPSPrinter::~TQPSPrinter()
+{
+ if ( d->fd >= 0 )
+#if defined(_OS_WIN32_)
+ ::_close( d->fd );
+#else
+ ::close( d->fd );
+#endif
+ delete d;
+}
+
+
+
+static void ignoreSigPipe(bool b)
+{
+ static struct sigaction *users_sigpipe_handler = 0;
+
+ if (b) {
+ if (users_sigpipe_handler != 0)
+ return; // already ignoring sigpipe
+
+ users_sigpipe_handler = new struct sigaction;
+ struct sigaction tmp_sigpipe_handler;
+ tmp_sigpipe_handler.sa_handler = SIG_IGN;
+ sigemptyset(&tmp_sigpipe_handler.sa_mask);
+ tmp_sigpipe_handler.sa_flags = 0;
+
+ if (sigaction(SIGPIPE, &tmp_sigpipe_handler, users_sigpipe_handler) == -1) {
+ delete users_sigpipe_handler;
+ users_sigpipe_handler = 0;
+ }
+ }
+ else {
+ if (users_sigpipe_handler == 0)
+ return; // not ignoring sigpipe
+
+ if (sigaction(SIGPIPE, users_sigpipe_handler, 0) == -1)
+ qWarning("TQPSPrinter: could not restore SIGPIPE handler");
+
+ delete users_sigpipe_handler;
+ users_sigpipe_handler = 0;
+ }
+}
+
+bool TQPSPrinter::cmd( int c , TQPainter *paint, TQPDevCmdParam *p )
+{
+ if ( c == PdcBegin ) { // start painting
+ d->pagesInBuffer = 0;
+ d->buffer = new TQBuffer();
+ d->buffer->open( IO_WriteOnly );
+ d->outStream.setEncoding( TQTextStream::Latin1 );
+ d->outStream.setDevice( d->buffer );
+ d->fontBuffer = new TQBuffer();
+ d->fontBuffer->open( IO_WriteOnly );
+ d->fontStream.setEncoding( TQTextStream::Latin1 );
+ d->fontStream.setDevice( d->fontBuffer );
+ d->headerFontNumber = 0;
+ d->pageCount = 1; // initialize state
+ d->dirtyMatrix = TRUE;
+ d->dirtyClipping = TRUE;
+ d->dirtyNewPage = TRUE;
+ d->firstClipOnPage = TRUE;
+ d->boundingBox = TQRect( 0, 0, -1, -1 );
+ d->fontsUsed = TQString::fromLatin1("");
+
+ TQPaintDeviceMetrics m( d->printer );
+ d->scale = 72. / ((float) m.logicalDpiY());
+
+ return TRUE;
+ }
+
+ if ( c == PdcEnd ) { // painting done
+ bool pageCountAtEnd = (d->buffer != 0);
+
+ // we're writing to lp/lpr through a pipe, we don't want to crash with SIGPIPE
+ // if lp/lpr dies
+ ignoreSigPipe(TRUE);
+ d->flushPage( TRUE );
+ d->outStream << "%%Trailer\n";
+ if ( pageCountAtEnd )
+ d->outStream << "%%Pages: " << d->pageCount - 1 << "\n" <<
+ wrapDSC( "%%DocumentFonts: " + d->fontsUsed );
+ d->outStream << "%%EOF\n";
+ ignoreSigPipe(FALSE);
+
+ d->outStream.unsetDevice();
+ if ( d->outDevice )
+ d->outDevice->close();
+ if ( d->fd >= 0 )
+ ::close( d->fd );
+ d->fd = -1;
+ delete d->outDevice;
+ d->outDevice = 0;
+ }
+
+ if ( c >= PdcDrawFirst && c <= PdcDrawLast ) {
+ if ( !paint )
+ return FALSE; // sanity
+ if ( d->dirtyNewPage )
+ d->initPage( paint );
+ if ( d->dirtyMatrix )
+ d->matrixSetup( paint );
+ if ( d->dirtyClipping ) // Must be after matrixSetup and initPage
+ d->clippingSetup( paint );
+ if ( d->dirtypen ) {
+ // we special-case for narrow solid lines with the default
+ // cap and join styles
+ if ( d->cpen.style() == TQt::SolidLine && d->cpen.width() == 0 &&
+ d->cpen.capStyle() == TQt::FlatCap &&
+ d->cpen.joinStyle() == TQt::MiterJoin )
+ d->pageStream << color( d->cpen.color(), d->printer ) << "P1\n";
+ else
+ d->pageStream << (int)d->cpen.style() << ' ' << d->cpen.width()
+ << ' ' << color( d->cpen.color(), d->printer )
+ << psCap( d->cpen.capStyle() )
+ << psJoin( d->cpen.joinStyle() ) << "PE\n";
+ d->dirtypen = FALSE;
+ }
+ if ( d->dirtybrush ) {
+ // we special-case for nobrush and solid white, since
+ // those are the two most common brushes
+ if ( d->cbrush.style() == TQt::NoBrush )
+ d->pageStream << "NB\n";
+ else if ( d->cbrush.style() == TQt::SolidPattern &&
+ d->cbrush.color() == TQt::white )
+ d->pageStream << "WB\n";
+ else
+ d->pageStream << (int)d->cbrush.style() << ' '
+ << color( d->cbrush.color(), d->printer ) << "BR\n";
+ d->dirtybrush = FALSE;
+ }
+ if ( d->dirtyBkColor ) {
+ d->pageStream << color( d->bkColor, d->printer ) << "BC\n";
+ d->dirtyBkColor = FALSE;
+ }
+ if ( d->dirtyBkMode ) {
+ if ( d->bkMode == TQt::TransparentMode )
+ d->pageStream << "/OMo false d\n";
+ else
+ d->pageStream << "/OMo true d\n";
+ d->dirtyBkMode = FALSE;
+ }
+ }
+
+ switch( c ) {
+ case PdcDrawPoint:
+ d->pageStream << POINT(0) << "P\n";
+ break;
+ case PdcMoveTo:
+ d->pageStream << POINT(0) << "M\n";
+ break;
+ case PdcLineTo:
+ d->pageStream << POINT(0) << "L\n";
+ break;
+ case PdcDrawLine:
+ if ( p[0].point->y() == p[1].point->y() )
+ d->pageStream << POINT(1) << p[0].point->x() << " HL\n";
+ else if ( p[0].point->x() == p[1].point->x() )
+ d->pageStream << POINT(1) << p[0].point->y() << " VL\n";
+ else
+ d->pageStream << POINT(1) << POINT(0) << "DL\n";
+ break;
+ case PdcDrawRect:
+ d->pageStream << RECT(0) << "R\n";
+ break;
+ case PdcDrawRoundRect:
+ d->pageStream << RECT(0) << INT_ARG(1) << INT_ARG(2) << "RR\n";
+ break;
+ case PdcDrawEllipse:
+ d->pageStream << RECT(0) << "E\n";
+ break;
+ case PdcDrawArc:
+ d->pageStream << RECT(0) << INT_ARG(1) << INT_ARG(2) << "A\n";
+ break;
+ case PdcDrawPie:
+ d->pageStream << RECT(0) << INT_ARG(1) << INT_ARG(2) << "PIE\n";
+ break;
+ case PdcDrawChord:
+ d->pageStream << RECT(0) << INT_ARG(1) << INT_ARG(2) << "CH\n";
+ break;
+ case PdcDrawLineSegments:
+ if ( p[0].ptarr->size() > 0 ) {
+ TQPointArray a = *p[0].ptarr;
+ TQPoint pt;
+ d->pageStream << "NP\n";
+ for ( int i=0; i<(int)a.size(); i+=2 ) {
+ pt = a.point( i );
+ d->pageStream << XCOORD(pt.x()) << ' '
+ << YCOORD(pt.y()) << " MT\n";
+ pt = a.point( i+1 );
+ d->pageStream << XCOORD(pt.x()) << ' '
+ << YCOORD(pt.y()) << " LT\n";
+ }
+ d->pageStream << "QS\n";
+ }
+ break;
+ case PdcDrawPolyline:
+ if ( p[0].ptarr->size() > 1 ) {
+ TQPointArray a = *p[0].ptarr;
+ TQPoint pt = a.point( 0 );
+ d->pageStream << "NP\n"
+ << XCOORD(pt.x()) << ' ' << YCOORD(pt.y()) << " MT\n";
+ for ( int i=1; i<(int)a.size(); i++ ) {
+ pt = a.point( i );
+ d->pageStream << XCOORD(pt.x()) << ' '
+ << YCOORD(pt.y()) << " LT\n";
+ }
+ d->pageStream << "QS\n";
+ }
+ break;
+ case PdcDrawPolygon:
+ if ( p[0].ptarr->size() > 2 ) {
+ TQPointArray a = *p[0].ptarr;
+ if ( p[1].ival )
+ d->pageStream << "/WFi true d\n";
+ TQPoint pt = a.point(0);
+ d->pageStream << "NP\n";
+ d->pageStream << XCOORD(pt.x()) << ' '
+ << YCOORD(pt.y()) << " MT\n";
+ for( int i=1; i<(int)a.size(); i++) {
+ pt = a.point( i );
+ d->pageStream << XCOORD(pt.x()) << ' '
+ << YCOORD(pt.y()) << " LT\n";
+ }
+ d->pageStream << "CP BF QS\n";
+ if ( p[1].ival )
+ d->pageStream << "/WFi false d\n";
+ }
+ break;
+ case PdcDrawCubicBezier:
+ if ( p[0].ptarr->size() == 4 ) {
+ d->pageStream << "NP\n";
+ TQPointArray a = *p[0].ptarr;
+ d->pageStream << XCOORD(a[0].x()) << ' '
+ << YCOORD(a[0].y()) << " MT ";
+ for ( int i=1; i<4; i++ ) {
+ d->pageStream << XCOORD(a[i].x()) << ' '
+ << YCOORD(a[i].y()) << ' ';
+ }
+ d->pageStream << "BZ\n";
+ }
+ break;
+ case PdcDrawText2:
+ // we use drawTextItem instead
+ return TRUE;
+ case PdcDrawText2Formatted:
+ return TRUE;
+ case PdcDrawTextItem: {
+ const TQTextItem *ti = p[1].textItem;
+ TQScriptItem &si = ti->engine->items[ti->item];
+ int len = ti->engine->length( ti->item );
+ if ( si.isSpace || si.isObject )
+ return FALSE;
+
+ if ( d->currentSet != d->currentUsed || d->scriptUsed != si.analysis.script || !d->currentFontFile ) {
+ d->currentUsed = d->currentSet;
+ d->setFont( d->currentSet, si.analysis.script );
+ }
+ if( d->currentFontFile ) // better not crash in case somethig goes wrong.
+ d->currentFontFile->drawText( d->pageStream, *p[0].point, ti->engine, ti->item,
+ ti->engine->string.mid( si.position, len ), d, paint);
+ return FALSE;
+ }
+ case PdcDrawPixmap: {
+ if ( p[1].pixmap->isNull() )
+ break;
+ TQRect r = *p[0].rect;
+ TQImage img;
+ img = *(p[1].pixmap);
+ TQImage mask;
+ if ( p[1].pixmap->mask() )
+ mask = *(p[1].pixmap->mask());
+ d->drawImage(paint, r.x(), r.y(), r.width(), r.height(), img, mask);
+ break;
+ }
+ case PdcDrawImage: {
+ if ( p[1].image->isNull() )
+ break;
+ TQRect r = *(p[0].rect);
+ TQImage img = *(p[1].image);
+ TQImage mask;
+#ifndef QT_NO_IMAGE_DITHER_TO_1
+ if ( img.hasAlphaBuffer() )
+ mask = img.createAlphaMask();
+#endif
+ d->drawImage(paint, r.x(), r.y(), r.width(), r.height(), img, mask);
+ break;
+ }
+ case PdcSetBkColor:
+ {
+ if ( d->bkColor != *(p[0].color) ) {
+ d->bkColor = *(p[0].color);
+ d->dirtyBkColor = TRUE;
+ }
+ break;
+ }
+ case PdcSetBkMode:
+ {
+ if ( d->bkMode != p[0].ival ) {
+ d->bkMode = (TQt::BGMode) p[0].ival;
+ d->dirtyBkMode = TRUE;
+ }
+ break;
+ }
+ case PdcSetROP:
+#if defined(CHECK_RANGE)
+ if ( p[0].ival != TQt::CopyROP )
+ qWarning( "TQPrinter: Raster operation setting not supported" );
+#endif
+ break;
+ case PdcSetBrushOrigin:
+ break;
+ case PdcSetFont:
+ d->currentSet = *(p[0].font);
+ d->fm = paint->fontMetrics();
+ // turn these off - they confuse the 'avoid font change' logic
+ d->currentSet.setUnderline( FALSE );
+ d->currentSet.setStrikeOut( FALSE );
+ break;
+ case PdcSetPen:
+ if ( d->cpen != *(p[0].pen) ) {
+ d->dirtypen = TRUE;
+ d->cpen = *(p[0].pen);
+ }
+ break;
+ case PdcSetBrush:
+ if ( p[0].brush->style() == TQt::CustomPattern ) {
+#if defined(CHECK_RANGE)
+ qWarning( "TQPrinter: Pixmap brush not supported" );
+#endif
+ return FALSE;
+ }
+ if ( d->cbrush != *(p[0].brush) ) {
+ d->dirtybrush = TRUE;
+ d->cbrush = *(p[0].brush);
+ }
+ break;
+ case PdcSetTabStops:
+ case PdcSetTabArray:
+ return FALSE;
+ case PdcSetUnit:
+ break;
+ case PdcSetVXform:
+ case PdcSetWindow:
+ case PdcSetViewport:
+ case PdcSetWXform:
+ case PdcSetWMatrix:
+ case PdcRestoreWMatrix:
+ d->dirtyMatrix = TRUE;
+ break;
+ case PdcSetClip:
+ d->dirtyClipping = TRUE;
+ break;
+ case PdcSetClipRegion:
+ d->dirtyClipping = TRUE;
+ break;
+ case NewPage:
+ // we're writing to lp/lpr through a pipe, we don't want to crash with SIGPIPE
+ // if lp/lpr dies
+ ignoreSigPipe(TRUE);
+ d->flushPage();
+ ignoreSigPipe(FALSE);
+
+ d->dirtyNewPage = TRUE;
+ break;
+ case AbortPrinting:
+ break;
+ default:
+ break;
+ }
+ return TRUE;
+}
+
+#endif // QT_NO_PRINTER