/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- * * ***** BEGIN LICENSE BLOCK ***** * Version: MPL 1.1/GPL 2.0/LGPL 2.1 * * The contents of this file are subject to the Mozilla Public License Version * 1.1 (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * http://www.mozilla.org/MPL/ * * Software distributed under the License is distributed on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License * for the specific language governing rights and limitations under the * License. * * The Original Code is mozilla.org code. * * The Initial Developer of the Original Code is * IBM Corporation. * Portions created by the Initial Developer are Copyright (C) 2000 * the Initial Developer. All Rights Reserved. * * Contributor(s): * Maha Abou El Rous * Lina Kemmel * Simon Montagu * Roozbeh Pournader * Ehsan Akhgari * * Alternatively, the contents of this file may be used under the terms of * either of the GNU General Public License Version 2 or later (the "GPL"), * or the GNU Lesser General Public License Version 2.1 or later (the "LGPL"), * in which case the provisions of the GPL or the LGPL are applicable instead * of those above. If you wish to allow use of your version of this file only * under the terms of either the GPL or the LGPL, and not to allow others to * use your version of this file under the terms of the MPL, indicate your * decision by deleting the provisions above and replace them with the notice * and other provisions required by the GPL or the LGPL. If you do not delete * the provisions above, a recipient may use your version of this file under * the terms of any one of the MPL, the GPL or the LGPL. * * ***** END LICENSE BLOCK ***** */ #include "nsBidiUtils.h" #include "symmtable.h" #include "bidicattable.h" #include "nsCharTraits.h" #define FE_TO_06_OFFSET 0xfe70 static const PRUnichar FE_TO_06 [][2] = { {0x064b,0x0000},{0x064b,0x0640},{0x064c,0x0000}, {0x0000,0x0000},{0x064d,0x0000},{0x0000,0x0000}, {0x064e,0x0000},{0x064e,0x0640},{0x064f,0x0000}, {0x064f,0x0640},{0x0650,0x0000},{0x0650,0x0640}, {0x0651,0x0000},{0x0651,0x0640},{0x0652,0x0000}, {0x0652,0x0640},{0x0621,0x0000},{0x0622,0x0000}, {0x0622,0x0000},{0x0623,0x0000},{0x0623,0x0000}, {0x0624,0x0000},{0x0624,0x0000},{0x0625,0x0000}, {0x0625,0x0000},{0x0626,0x0000},{0x0626,0x0000}, {0x0626,0x0000},{0x0626,0x0000},{0x0627,0x0000}, {0x0627,0x0000},{0x0628,0x0000},{0x0628,0x0000}, {0x0628,0x0000},{0x0628,0x0000},{0x0629,0x0000}, {0x0629,0x0000},{0x062a,0x0000},{0x062a,0x0000}, {0x062a,0x0000},{0x062a,0x0000},{0x062b,0x0000}, {0x062b,0x0000},{0x062b,0x0000},{0x062b,0x0000}, {0x062c,0x0000},{0x062c,0x0000},{0x062c,0x0000}, {0x062c,0x0000},{0x062d,0x0000},{0x062d,0x0000}, {0x062d,0x0000},{0x062d,0x0000},{0x062e,0x0000}, {0x062e,0x0000},{0x062e,0x0000},{0x062e,0x0000}, {0x062f,0x0000},{0x062f,0x0000},{0x0630,0x0000}, {0x0630,0x0000},{0x0631,0x0000},{0x0631,0x0000}, {0x0632,0x0000},{0x0632,0x0000},{0x0633,0x0000}, {0x0633,0x0000},{0x0633,0x0000},{0x0633,0x0000}, {0x0634,0x0000},{0x0634,0x0000},{0x0634,0x0000}, {0x0634,0x0000},{0x0635,0x0000},{0x0635,0x0000}, {0x0635,0x0000},{0x0635,0x0000},{0x0636,0x0000}, {0x0636,0x0000},{0x0636,0x0000},{0x0636,0x0000}, {0x0637,0x0000},{0x0637,0x0000},{0x0637,0x0000}, {0x0637,0x0000},{0x0638,0x0000},{0x0638,0x0000}, {0x0638,0x0000},{0x0638,0x0000},{0x0639,0x0000}, {0x0639,0x0000},{0x0639,0x0000},{0x0639,0x0000}, {0x063a,0x0000},{0x063a,0x0000},{0x063a,0x0000}, {0x063a,0x0000},{0x0641,0x0000},{0x0641,0x0000}, {0x0641,0x0000},{0x0641,0x0000},{0x0642,0x0000}, {0x0642,0x0000},{0x0642,0x0000},{0x0642,0x0000}, {0x0643,0x0000},{0x0643,0x0000},{0x0643,0x0000}, {0x0643,0x0000},{0x0644,0x0000},{0x0644,0x0000}, {0x0644,0x0000},{0x0644,0x0000},{0x0645,0x0000}, {0x0645,0x0000},{0x0645,0x0000},{0x0645,0x0000}, {0x0646,0x0000},{0x0646,0x0000},{0x0646,0x0000}, {0x0646,0x0000},{0x0647,0x0000},{0x0647,0x0000}, {0x0647,0x0000},{0x0647,0x0000},{0x0648,0x0000}, {0x0648,0x0000},{0x0649,0x0000},{0x0649,0x0000}, {0x064a,0x0000},{0x064a,0x0000},{0x064a,0x0000}, {0x064a,0x0000},{0x0644,0x0622},{0x0644,0x0622}, {0x0644,0x0623},{0x0644,0x0623},{0x0644,0x0625}, {0x0644,0x0625},{0x0644,0x0627},{0x0644,0x0627} }; static const PRUnichar FB_TO_06 [] = { 0x0671,0x0671,0x067B,0x067B,0x067B,0x067B,0x067E,0x067E, //FB50-FB57 0x067E,0x067E,0x0680,0x0680,0x0680,0x0680,0x067A,0x067A, //FB58-FB5F 0x067A,0x067A,0x067F,0x067F,0x067F,0x067F,0x0679,0x0679, //FB60-FB67 0x0679,0x0679,0x06A4,0x06A4,0x06A4,0x06A4,0x06A6,0x06A6, //FB68-FB6F 0x06A6,0x06A6,0x0684,0x0684,0x0684,0x0684,0x0683,0x0683, //FB70-FB77 0x0683,0x0683,0x0686,0x0686,0x0686,0x0686,0x0687,0x0687, //FB78-FB7F 0x0687,0x0687,0x068D,0x068D,0x068C,0x068C,0x068E,0x068E, //FB80-FB87 0x0688,0x0688,0x0698,0x0698,0x0691,0x0691,0x06A9,0x06A9, //FB88-FB8F 0x06A9,0x06A9,0x06AF,0x06AF,0x06AF,0x06AF,0x06B3,0x06B3, //FB90-FB97 0x06B3,0x06B3,0x06B1,0x06B1,0x06B1,0x06B1,0x06BA,0x06BA, //FB98-FB9F 0x06BB,0x06BB,0x06BB,0x06BB,0x06C0,0x06C0,0x06C1,0x06C1, //FBA0-FBA7 0x06C1,0x06C1,0x06BE,0x06BE,0x06BE,0x06BE,0x06D2,0x06D2, //FBA8-FBAF 0x06D3,0x06D3,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000, //FBB0-FBB7 0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000, //FBB8-FBBF 0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000, //FBC0-FBC7 0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000, //FBC8-FBCF 0x0000,0x0000,0x0000,0x06AD,0x06AD,0x06AD,0x06AD,0x06C7, //FBD0-FBD7 0x06C7,0x06C6,0x06C6,0x06C8,0x06C8,0x0677,0x06CB,0x06CB, //FBD8-FBDF 0x06C5,0x06C5,0x06C9,0x06C9,0x06D0,0x06D0,0x06D0,0x06D0, //FBE0-FBE7 0x0649,0x0649,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000, //FBE8-FBEF 0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000,0x0000, //FBF0-FBF7 0x0000,0x0000,0x0000,0x0000,0x06CC,0x06CC,0x06CC,0x06CC //FBF8-FBFF }; #define PresentationToOriginal(c, order) \ (((0xFE70 <= (c) && (c) <= 0xFEFC)) ? \ FE_TO_06[(c)- FE_TO_06_OFFSET][order] : \ (((0xFB50 <= (c) && (c) <= 0xFBFF) && (order) == 0) ? \ FB_TO_06[(c)-0xFB50] : (PRUnichar) 0x0000)) //============ Begin Arabic Basic to Presentation Form B Code ============ // Note: the following code are moved from gfx/src/windows/nsRenderingContextWin.cpp static const PRUint8 gArabicMap1[] = { 0x81, 0x83, 0x85, 0x87, 0x89, 0x8D, // 0622-0627 0x8F, 0x93, 0x95, 0x99, 0x9D, 0xA1, 0xA5, 0xA9, // 0628-062F 0xAB, 0xAD, 0xAF, 0xB1, 0xB5, 0xB9, 0xBD, 0xC1, // 0630-0637 0xC5, 0xC9, 0xCD // 0638-063A }; static const PRUint8 gArabicMap2[] = { 0xD1, 0xD5, 0xD9, 0xDD, 0xE1, 0xE5, 0xE9, // 0641-0647 0xED, 0xEF, 0xF1 // 0648-064A }; static const PRUint8 gArabicMapEx[] = { 0x50, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // 0671-0677 0x00, 0x66, 0x5E, 0x52, 0x00, 0x00, 0x56, 0x62, // 0678-067F 0x5A, 0x00, 0x00, 0x76, 0x72, 0x00, 0x7A, 0x7E, // 0680-0687 0x88, 0x00, 0x00, 0x00, 0x84, 0x82, 0x86, 0x00, // 0688-068F 0x00, 0x8C, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // 0690-0697 0x8A, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, // 0698-069F 0x00, 0x00, 0x00, 0x00, 0x6A, 0x00, 0x6E, 0x00, // 06A0-06A7 0x00, 0x8E, 0x00, 0x00, 0x00, 0xD3, 0x00, 0x92, // 06A8-06AF 0x00, 0x9A, 0x00, 0x96, 0x00, 0x00, 0x00, 0x00, // 06B0-06B7 0x00, 0x00, 0x9E, 0xA0, 0x00, 0x00, 0xAA, 0x00, // 06B8-06BF 0xA4, 0xA6, 0x00, 0x00, 0x00, 0xE0, 0xD9, 0xD7, // 06C0-06C7 0xDB, 0xE2, 0x00, 0xDE, 0xFC, 0x00, 0x00, 0x00, // 06C8-06CF 0xE4, 0x00, 0xAE, 0xB0 // 06D0-06D3 }; #define PresentationFormB(c, form) \ (((0x0622<=(c)) && ((c)<=0x063A)) ? \ (0xFE00|(gArabicMap1[(c)-0x0622] + (form))) : \ (((0x0641<=(c)) && ((c)<=0x064A)) ? \ (0xFE00|(gArabicMap2[(c)-0x0641] + (form))) : \ (((0x0671<=(c)) && ((c))<=0x06D3) && gArabicMapEx[(c)-0x0671]) ? \ (0xFB00|(gArabicMapEx[(c)-0x0671] + (form))) : (c))) typedef enum { eIsolated, // or Char N eFinal, // or Char R eInitial, // or Char L eMedial // or Char M } eArabicForm; typedef enum { eTr = 0, // Transparent eRJ = 1, // Right-Joining eLJ = 2, // Left-Joining eDJ = 3, // Dual-Joining eNJ = 4, // Non-Joining eJC = 7, // Joining Causing eRightJCMask = 2, // bit of Right-Join Causing eLeftJCMask = 1 // bit of Left-Join Causing } eArabicJoiningClass; #define RightJCClass(j) (eRightJCMask&(j)) #define LeftJCClass(j) (eLeftJCMask&(j)) #define DecideForm(jl,j,jr) \ (((eRJ == (j)) && RightJCClass(jr)) ? eFinal \ : \ ((eDJ == (j)) ? \ ((RightJCClass(jr)) ? \ (((LeftJCClass(jl)) ? eMedial \ : eFinal)) \ : \ (((LeftJCClass(jl)) ? eInitial \ : eIsolated)) \ ) : eIsolated)) \ // All letters without an equivalen in the FB50 block are 'eNJ' here. This // should be fixed after finding some better mechanism for handling Arabic. static const PRInt8 gJoiningClass[] = { eNJ, eNJ, eNJ, eNJ, eNJ, eNJ, eNJ, eNJ, // 0600-0607 eNJ, eNJ, eNJ, eNJ, eNJ, eNJ, eNJ, eNJ, // 0608-060F eTr, eTr, eTr, eTr, eTr, eTr, eNJ, eNJ, // 0610-0617 eNJ, eNJ, eNJ, eNJ, eNJ, eNJ, eNJ, eNJ, // 0618-061F eNJ, eNJ, eRJ, eRJ, eRJ, eRJ, eDJ, eRJ, // 0620-0627 eDJ, eRJ, eDJ, eDJ, eDJ, eDJ, eDJ, eRJ, // 0628-062F eRJ, eRJ, eRJ, eDJ, eDJ, eDJ, eDJ, eDJ, // 0630-0637 eDJ, eDJ, eDJ, eNJ, eNJ, eNJ, eNJ, eNJ, // 0638-063F eJC, eDJ, eDJ, eDJ, eDJ, eDJ, eDJ, eDJ, // 0640-0647 eRJ, eDJ, eDJ, eTr, eTr, eTr, eTr, eTr, // 0648-064F eTr, eTr, eTr, eTr, eTr, eTr, eTr, eTr, // 0650-0657 eTr, eNJ, eNJ, eNJ, eNJ, eNJ, eNJ, eNJ, // 0658-065F eNJ, eNJ, eNJ, eNJ, eNJ, eNJ, eNJ, eNJ, // 0660-0667 eNJ, eNJ, eNJ, eNJ, eNJ, eNJ, eNJ, eNJ, // 0668-066F eTr, eRJ, eNJ, eNJ, eNJ, eNJ, eNJ, eNJ, // 0670-0677 eNJ, eDJ, eDJ, eDJ, eNJ, eNJ, eDJ, eDJ, // 0678-067F eDJ, eNJ, eNJ, eDJ, eDJ, eNJ, eDJ, eDJ, // 0680-0687 eRJ, eNJ, eNJ, eNJ, eRJ, eRJ, eRJ, eNJ, // 0688-068F eNJ, eRJ, eNJ, eNJ, eNJ, eNJ, eNJ, eNJ, // 0690-0697 eRJ, eNJ, eNJ, eNJ, eNJ, eNJ, eNJ, eNJ, // 0698-069F eNJ, eNJ, eNJ, eNJ, eDJ, eNJ, eDJ, eNJ, // 06A0-06A7 eNJ, eDJ, eNJ, eNJ, eNJ, eDJ, eNJ, eDJ, // 06A8-06AF eNJ, eDJ, eNJ, eDJ, eNJ, eNJ, eNJ, eNJ, // 06B0-06B7 eNJ, eNJ, eDJ, eDJ, eNJ, eNJ, eDJ, eNJ, // 06B8-06BF eRJ, eDJ, eNJ, eNJ, eNJ, eRJ, eRJ, eRJ, // 06C0-06C7 eRJ, eRJ, eNJ, eRJ, eDJ, eNJ, eNJ, eNJ, // 06C8-06CF eDJ, eNJ, eRJ, eRJ, eNJ, eNJ, eTr, eTr, // 06D0-06D7 eTr, eTr, eTr, eTr, eTr, eNJ, eNJ, eTr, // 06D8-06DF eTr, eTr, eTr, eTr, eTr, eNJ, eNJ, eTr, // 06E0-06E7 eTr, eNJ, eTr, eTr, eTr, eTr, eNJ, eNJ, // 06E8-06EF eNJ, eNJ, eNJ, eNJ, eNJ, eNJ, eNJ, eNJ, // 06F0-06F7 eNJ, eNJ, eNJ, eNJ, eNJ, eNJ, eNJ, eNJ // 06F8-06FF }; #define GetJoiningClass(c) \ ((IS_ARABIC_CHAR(c)) ? \ (gJoiningClass[(c) - 0x0600]) : \ ((0x200D == (c)) ? eJC : eTr)) static const PRUint16 gArabicLigatureMap[] = { 0x82DF, // 0xFE82 0xFEDF -> 0xFEF5 0x82E0, // 0xFE82 0xFEE0 -> 0xFEF6 0x84DF, // 0xFE84 0xFEDF -> 0xFEF7 0x84E0, // 0xFE84 0xFEE0 -> 0xFEF8 0x88DF, // 0xFE88 0xFEDF -> 0xFEF9 0x88E0, // 0xFE88 0xFEE0 -> 0xFEFA 0x8EDF, // 0xFE8E 0xFEDF -> 0xFEFB 0x8EE0 // 0xFE8E 0xFEE0 -> 0xFEFC }; static nsCharType ebc2ucd[15] = { eCharType_OtherNeutral, /* Placeholder -- there will never be a 0 index value */ eCharType_LeftToRight, eCharType_RightToLeft, eCharType_RightToLeftArabic, eCharType_ArabicNumber, eCharType_EuropeanNumber, eCharType_EuropeanNumberSeparator, eCharType_EuropeanNumberTerminator, eCharType_CommonNumberSeparator, eCharType_OtherNeutral, eCharType_DirNonSpacingMark, eCharType_BoundaryNeutral, eCharType_BlockSeparator, eCharType_SegmentSeparator, eCharType_WhiteSpaceNeutral }; static nsCharType cc2ucd[5] = { eCharType_LeftToRightEmbedding, eCharType_RightToLeftEmbedding, eCharType_PopDirectionalFormat, eCharType_LeftToRightOverride, eCharType_RightToLeftOverride }; #define ARABIC_TO_HINDI_DIGIT_INCREMENT (START_HINDI_DIGITS - START_ARABIC_DIGITS) #define PERSIAN_TO_HINDI_DIGIT_INCREMENT (START_HINDI_DIGITS - START_FARSI_DIGITS) #define ARABIC_TO_PERSIAN_DIGIT_INCREMENT (START_FARSI_DIGITS - START_ARABIC_DIGITS) #define NUM_TO_ARABIC(c) \ ((((c)>=START_HINDI_DIGITS) && ((c)<=END_HINDI_DIGITS)) ? \ ((c) - (PRUint16)ARABIC_TO_HINDI_DIGIT_INCREMENT) : \ ((((c)>=START_FARSI_DIGITS) && ((c)<=END_FARSI_DIGITS)) ? \ ((c) - (PRUint16)ARABIC_TO_PERSIAN_DIGIT_INCREMENT) : \ (c))) #define NUM_TO_HINDI(c) \ ((((c)>=START_ARABIC_DIGITS) && ((c)<=END_ARABIC_DIGITS)) ? \ ((c) + (PRUint16)ARABIC_TO_HINDI_DIGIT_INCREMENT): \ ((((c)>=START_FARSI_DIGITS) && ((c)<=END_FARSI_DIGITS)) ? \ ((c) + (PRUint16)PERSIAN_TO_HINDI_DIGIT_INCREMENT) : \ (c))) #define NUM_TO_PERSIAN(c) \ ((((c)>=START_HINDI_DIGITS) && ((c)<=END_HINDI_DIGITS)) ? \ ((c) - (PRUint16)PERSIAN_TO_HINDI_DIGIT_INCREMENT) : \ ((((c)>=START_ARABIC_DIGITS) && ((c)<=END_ARABIC_DIGITS)) ? \ ((c) + (PRUint16)ARABIC_TO_PERSIAN_DIGIT_INCREMENT) : \ (c))) // helper function to reverse a PRUnichar buffer static void ReverseString(PRUnichar* aBuffer, PRUint32 aLen) { PRUnichar *start, *end; PRUnichar swapChar; for (start = aBuffer, end = aBuffer + aLen - 1; start < end; ++start, --end) { swapChar = *start; *start = *end; *end = swapChar; } } nsresult ArabicShaping(const PRUnichar* aString, PRUint32 aLen, PRUnichar* aBuf, PRUint32 *aBufLen, PRBool aInputLogical, PRBool aOutputLogical) { nsAutoString tempString(aString, aLen); if (tempString.Length() != aLen) return NS_ERROR_OUT_OF_MEMORY; PRUnichar *tempBuf = tempString.BeginWriting(); if (aInputLogical) { ReverseString(tempBuf, aLen); } const PRUnichar* src = tempBuf; const PRUnichar* p; PRUnichar* dest = aBuf; PRUnichar formB; PRInt8 leftJ, thisJ, rightJ; PRInt8 leftNoTrJ, rightNoTrJ; thisJ = leftNoTrJ = eNJ; rightJ = GetJoiningClass(*(src)); while(src= tempBuf) && !IS_ARABIC_CHAR(*(src-1))))) leftNoTrJ = thisJ; if(src-2 >= (tempBuf)){ for(p=src-2; (p >= (tempBuf))&& (eTr == leftNoTrJ) && (IS_ARABIC_CHAR(*(p+1))) ; p--) leftNoTrJ = GetJoiningClass(*(p)) ; } thisJ = rightJ; rightJ = rightNoTrJ = GetJoiningClass(*(src+1)) ; if(src+2 <= (tempBuf+aLen-1)){ for(p=src+2; (p <= (tempBuf+aLen-1))&&(eTr == rightNoTrJ) && (IS_ARABIC_CHAR(*(src+1))); p++) rightNoTrJ = GetJoiningClass(*(p)) ; } formB = PresentationFormB(*src, DecideForm(leftNoTrJ, thisJ, rightNoTrJ)); *dest++ = formB; src++; } if((eTr != thisJ) || ((thisJ == eTr) && (((src-1)>=tempBuf) && (!IS_ARABIC_CHAR(*(src-1)))))) leftNoTrJ = thisJ; if(src-2 >= (tempBuf)){ for(p=src-2; (src-2 >= (tempBuf)) && (eTr == leftNoTrJ) && (IS_ARABIC_CHAR(*(p+1))); p--) leftNoTrJ = GetJoiningClass(*(p)) ; } formB = PresentationFormB(*src, DecideForm(leftNoTrJ, rightJ, eNJ)); *dest++ = formB; src++; PRUnichar *lSrc = aBuf; PRUnichar *lDest = aBuf; while(lSrc < (dest-1)) { PRUnichar next = *(lSrc+1); if(((0xFEDF == next) || (0xFEE0 == next)) && (0xFE80 == (0xFFF1 & *lSrc))) { PRBool done = PR_FALSE; PRUint16 key = ((*lSrc) << 8) | ( 0x00FF & next); PRUint16 i; for(i=0;i<8;i++) { if(key == gArabicLigatureMap[i]) { done = PR_TRUE; // lam and alef in the source are mapped to a lam-alef ligature in the // destination, so lSrc is incremented by 2 here *lDest++ = 0xFEF5 + i; lSrc+=2; break; } } if(! done) *lDest++ = *lSrc++; } else if (0x200C == *lSrc || 0x200D == *lSrc) // Strip zero-width joining controls ZWJ and ZWNJ from the shaped text lSrc++; else *lDest++ = *lSrc++; } if(lSrc < dest) *lDest++ = *lSrc++; *aBufLen = lDest - aBuf; NS_ASSERTION(*aBufLen <= aLen, "ArabicShaping() likely did a buffer overflow!"); if (aOutputLogical) { ReverseString(aBuf, *aBufLen); } return NS_OK; } nsresult Conv_FE_06(const nsString& aSrc, nsString& aDst) { PRUnichar *aSrcUnichars = (PRUnichar *)aSrc.get(); PRUint32 i, size = aSrc.Length(); aDst.Truncate(); for (i=0;i=beginArabic; i--) { if(IS_FE_CHAR(aSrcUnichars[i])) { //ahmed for the bug of lamalf aDst += PresentationToOriginal(aSrcUnichars[i], 0); if (PresentationToOriginal(aSrcUnichars[i], 1)) { // Two characters, we have to resize the buffer :( aDst += PresentationToOriginal(aSrcUnichars[i], 1); } // if expands to 2 char } else { // do we need to check the following if ? if((IS_ARABIC_CHAR(aSrcUnichars[i]))|| (IS_ARABIC_DIGIT(aSrcUnichars[i]))|| (aSrcUnichars[i]==0x0020)) aDst += aSrcUnichars[i]; } } } else { aDst += aSrcUnichars[endArabic]; } foundArabic=PR_FALSE; }// for : loop the buffer return NS_OK; } nsresult Conv_06_FE_WithReverse(const nsString& aSrc, nsString& aDst, PRUint32 aDir) { PRUnichar *aSrcUnichars = (PRUnichar *)aSrc.get(); PRUint32 i, beginArabic, endArabic, size; beginArabic = 0; size = aSrc.Length(); aDst.Truncate(); PRBool foundArabic = PR_FALSE; for (endArabic=0;endArabic0 ? aBuffer[i-1] : 0), aNumFlag); break; case IBMBIDI_NUMERAL_NOMINAL: default: break; } return NS_OK; } PRUint32 SymmSwap(PRUint32 aChar) { return Mirrored(aChar); } eBidiCategory GetBidiCategory(PRUint32 aChar) { eBidiCategory oResult = GetBidiCat(aChar); if (eBidiCat_CC == oResult) oResult = (eBidiCategory)(aChar & 0xFF); /* Control codes have special treatment to keep the tables smaller */ return oResult; } PRBool IsBidiCategory(PRUint32 aChar, eBidiCategory aBidiCategory) { return (GetBidiCategory(aChar) == aBidiCategory); } #define LRM_CHAR 0x200e PRBool IsBidiControl(PRUint32 aChar) { // This method is used when stripping Bidi control characters for // display, so it will return TRUE for LRM and RLM as // well as the characters with category eBidiCat_CC return (eBidiCat_CC == GetBidiCat(aChar) || ((aChar)&0xfffffe)==LRM_CHAR); } PRBool HasRTLChars(const nsAString& aString) { // This is used to determine whether to enable bidi if a string has // right-to-left characters. To simplify things, anything that could be a // surrogate or RTL presentation form is covered just by testing >= 0xD800). // It's fine to enable bidi in rare cases where it actually isn't needed. PRInt32 length = aString.Length(); for (PRInt32 i = 0; i < length; i++) { PRUnichar ch = aString.CharAt(i); if (ch >= 0xD800 || IS_IN_BMP_RTL_BLOCK(ch)) { return PR_TRUE; } } return PR_FALSE; } nsCharType GetCharType(PRUint32 aChar) { nsCharType oResult; eBidiCategory bCat = GetBidiCat(aChar); if (eBidiCat_CC != bCat) { NS_ASSERTION((PRUint32) bCat < (sizeof(ebc2ucd)/sizeof(nsCharType)), "size mismatch"); if((PRUint32) bCat < (sizeof(ebc2ucd)/sizeof(nsCharType))) oResult = ebc2ucd[bCat]; else oResult = ebc2ucd[0]; // something is very wrong, but we need to return a value } else { NS_ASSERTION((aChar-0x202a) < (sizeof(cc2ucd)/sizeof(nsCharType)), "size mismatch"); if((aChar-0x202a) < (sizeof(cc2ucd)/sizeof(nsCharType))) oResult = cc2ucd[aChar - 0x202a]; else oResult = ebc2ucd[0]; // something is very wrong, but we need to return a value } return oResult; }