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|
/*
******************************************************************************
*
* Copyright (C) 2000-2006, International Business Machines
* Corporation and others. All Rights Reserved.
*
******************************************************************************
* file name: ushape.c
* encoding: US-ASCII
* tab size: 8 (not used)
* indentation:4
*
* created on: 2000jun29
* created by: Markus W. Scherer
*
* Arabic letter shaping implemented by Ayman Roshdy
*/
#include "unicode/utypes.h"
#include "unicode/uchar.h"
#include "unicode/ustring.h"
#include "unicode/ushape.h"
#include "cmemory.h"
#include "putilimp.h"
#include "ustr_imp.h"
#include "ubidi_props.h"
#if UTF_SIZE<16
/*
* This implementation assumes that the internal encoding is UTF-16
* or UTF-32, not UTF-8.
* The main assumption is that the Arabic characters and their
* presentation forms each fit into a single UChar.
* With UTF-8, they occupy 2 or 3 bytes, and more than the ASCII
* characters.
*/
# error This implementation assumes UTF-16 or UTF-32 (check UTF_SIZE)
#endif
/*
* ### TODO in general for letter shaping:
* - the letter shaping code is UTF-16-unaware; needs update
* + especially invertBuffer()?!
* - needs to handle the "Arabic Tail" that is used in some legacy codepages
* as a glyph fragment of wide-glyph letters
* + IBM Unicode conversion tables map it to U+200B (ZWSP)
* + IBM Egypt has proposed to encode the tail in Unicode among Arabic Presentation Forms
*/
/* definitions for Arabic letter shaping ------------------------------------ */
#define IRRELEVANT 4
#define LAMTYPE 16
#define ALEFTYPE 32
#define LINKR 1
#define LINKL 2
static const UChar IrrelevantPos[] = {
0x0, 0x2, 0x4, 0x6,
0x8, 0xA, 0xC, 0xE,
};
static const UChar convertLamAlef[] =
{
/*FEF5*/ 0x0622,
/*FEF6*/ 0x0622,
/*FEF7*/ 0x0623,
/*FEF8*/ 0x0623,
/*FEF9*/ 0x0625,
/*FEFA*/ 0x0625,
/*FEFB*/ 0x0627,
/*FEFC*/ 0x0627
};
static const UChar araLink[178]=
{
1 + 32 + 256 * 0x11,/*0x0622*/
1 + 32 + 256 * 0x13,/*0x0623*/
1 + 256 * 0x15,/*0x0624*/
1 + 32 + 256 * 0x17,/*0x0625*/
1 + 2 + 256 * 0x19,/*0x0626*/
1 + 32 + 256 * 0x1D,/*0x0627*/
1 + 2 + 256 * 0x1F,/*0x0628*/
1 + 256 * 0x23,/*0x0629*/
1 + 2 + 256 * 0x25,/*0x062A*/
1 + 2 + 256 * 0x29,/*0x062B*/
1 + 2 + 256 * 0x2D,/*0x062C*/
1 + 2 + 256 * 0x31,/*0x062D*/
1 + 2 + 256 * 0x35,/*0x062E*/
1 + 256 * 0x39,/*0x062F*/
1 + 256 * 0x3B,/*0x0630*/
1 + 256 * 0x3D,/*0x0631*/
1 + 256 * 0x3F,/*0x0632*/
1 + 2 + 256 * 0x41,/*0x0633*/
1 + 2 + 256 * 0x45,/*0x0634*/
1 + 2 + 256 * 0x49,/*0x0635*/
1 + 2 + 256 * 0x4D,/*0x0636*/
1 + 2 + 256 * 0x51,/*0x0637*/
1 + 2 + 256 * 0x55,/*0x0638*/
1 + 2 + 256 * 0x59,/*0x0639*/
1 + 2 + 256 * 0x5D,/*0x063A*/
0, 0, 0, 0, 0, /*0x063B-0x063F*/
1 + 2, /*0x0640*/
1 + 2 + 256 * 0x61,/*0x0641*/
1 + 2 + 256 * 0x65,/*0x0642*/
1 + 2 + 256 * 0x69,/*0x0643*/
1 + 2 + 16 + 256 * 0x6D,/*0x0644*/
1 + 2 + 256 * 0x71,/*0x0645*/
1 + 2 + 256 * 0x75,/*0x0646*/
1 + 2 + 256 * 0x79,/*0x0647*/
1 + 256 * 0x7D,/*0x0648*/
1 + 256 * 0x7F,/*0x0649*/
1 + 2 + 256 * 0x81,/*0x064A*/
4, 4, 4, 4, /*0x064B-0x064E*/
4, 4, 4, 4, /*0x064F-0x0652*/
4, 4, 4, 0, 0, /*0x0653-0x0657*/
0, 0, 0, 0, /*0x0658-0x065B*/
1 + 256 * 0x85,/*0x065C*/
1 + 256 * 0x87,/*0x065D*/
1 + 256 * 0x89,/*0x065E*/
1 + 256 * 0x8B,/*0x065F*/
0, 0, 0, 0, 0, /*0x0660-0x0664*/
0, 0, 0, 0, 0, /*0x0665-0x0669*/
0, 0, 0, 0, 0, 0, /*0x066A-0x066F*/
4, /*0x0670*/
0, /*0x0671*/
1 + 32, /*0x0672*/
1 + 32, /*0x0673*/
0, /*0x0674*/
1 + 32, /*0x0675*/
1, 1, /*0x0676-0x0677*/
1+2, 1+2, 1+2, 1+2, 1+2, 1+2, /*0x0678-0x067D*/
1+2, 1+2, 1+2, 1+2, 1+2, 1+2, /*0x067E-0x0683*/
1+2, 1+2, 1+2, 1+2, /*0x0684-0x0687*/
1, 1, 1, 1, 1, 1, 1, 1, 1, 1, /*0x0688-0x0691*/
1, 1, 1, 1, 1, 1, 1, 1, /*0x0692-0x0699*/
1+2, 1+2, 1+2, 1+2, 1+2, 1+2, /*0x069A-0x06A3*/
1+2, 1+2, 1+2, 1+2, /*0x069A-0x06A3*/
1+2, 1+2, 1+2, 1+2, 1+2, 1+2, /*0x06A4-0x06AD*/
1+2, 1+2, 1+2, 1+2, /*0x06A4-0x06AD*/
1+2, 1+2, 1+2, 1+2, 1+2, 1+2, /*0x06AE-0x06B7*/
1+2, 1+2, 1+2, 1+2, /*0x06AE-0x06B7*/
1+2, 1+2, 1+2, 1+2, 1+2, 1+2, /*0x06B8-0x06BF*/
1+2, 1+2, /*0x06B8-0x06BF*/
1, /*0x06C0*/
1+2, /*0x06C1*/
1, 1, 1, 1, 1, 1, 1, 1, 1, 1, /*0x06C2-0x06CB*/
1+2, /*0x06CC*/
1, /*0x06CD*/
1+2, 1+2, 1+2, 1+2, /*0x06CE-0x06D1*/
1, 1 /*0x06D2-0x06D3*/
};
static const UChar presLink[141]=
{
1 + 2, /*0xFE70*/
1 + 2, /*0xFE71*/
1 + 2, 0, 1+ 2, 0, 1+ 2, /*0xFE72-0xFE76*/
1 + 2, /*0xFE77*/
1+ 2, 1 + 2, 1+2, 1 + 2, /*0xFE78-0xFE81*/
1+ 2, 1 + 2, 1+2, 1 + 2, /*0xFE82-0xFE85*/
0, 0 + 32, 1 + 32, 0 + 32, /*0xFE86-0xFE89*/
1 + 32, 0, 1, 0 + 32, /*0xFE8A-0xFE8D*/
1 + 32, 0, 2, 1 + 2, /*0xFE8E-0xFE91*/
1, 0 + 32, 1 + 32, 0, /*0xFE92-0xFE95*/
2, 1 + 2, 1, 0, /*0xFE96-0xFE99*/
1, 0, 2, 1 + 2, /*0xFE9A-0xFE9D*/
1, 0, 2, 1 + 2, /*0xFE9E-0xFEA1*/
1, 0, 2, 1 + 2, /*0xFEA2-0xFEA5*/
1, 0, 2, 1 + 2, /*0xFEA6-0xFEA9*/
1, 0, 2, 1 + 2, /*0xFEAA-0xFEAD*/
1, 0, 1, 0, /*0xFEAE-0xFEB1*/
1, 0, 1, 0, /*0xFEB2-0xFEB5*/
1, 0, 2, 1+2, /*0xFEB6-0xFEB9*/
1, 0, 2, 1+2, /*0xFEBA-0xFEBD*/
1, 0, 2, 1+2, /*0xFEBE-0xFEC1*/
1, 0, 2, 1+2, /*0xFEC2-0xFEC5*/
1, 0, 2, 1+2, /*0xFEC6-0xFEC9*/
1, 0, 2, 1+2, /*0xFECA-0xFECD*/
1, 0, 2, 1+2, /*0xFECE-0xFED1*/
1, 0, 2, 1+2, /*0xFED2-0xFED5*/
1, 0, 2, 1+2, /*0xFED6-0xFED9*/
1, 0, 2, 1+2, /*0xFEDA-0xFEDD*/
1, 0, 2, 1+2, /*0xFEDE-0xFEE1*/
1, 0 + 16, 2 + 16, 1 + 2 +16, /*0xFEE2-0xFEE5*/
1 + 16, 0, 2, 1+2, /*0xFEE6-0xFEE9*/
1, 0, 2, 1+2, /*0xFEEA-0xFEED*/
1, 0, 2, 1+2, /*0xFEEE-0xFEF1*/
1, 0, 1, 0, /*0xFEF2-0xFEF5*/
1, 0, 2, 1+2, /*0xFEF6-0xFEF9*/
1, 0, 1, 0, /*0xFEFA-0xFEFD*/
1, 0, 1, 0,
1
};
static const UChar convertFEto06[] =
{
/***********0******1******2******3******4******5******6******7******8******9******A******B******C******D******E******F***/
/*FE7*/ 0x64B, 0x64B, 0x64C, 0x64C, 0x64D, 0x64D, 0x64E, 0x64E, 0x64F, 0x64F, 0x650, 0x650, 0x651, 0x651, 0x652, 0x652,
/*FE8*/ 0x621, 0x622, 0x622, 0x623, 0x623, 0x624, 0x624, 0x625, 0x625, 0x626, 0x626, 0x626, 0x626, 0x627, 0x627, 0x628,
/*FE9*/ 0x628, 0x628, 0x628, 0x629, 0x629, 0x62A, 0x62A, 0x62A, 0x62A, 0x62B, 0x62B, 0x62B, 0x62B, 0x62C, 0x62C, 0x62C,
/*FEA*/ 0x62C, 0x62D, 0x62D, 0x62D, 0x62D, 0x62E, 0x62E, 0x62E, 0x62E, 0x62F, 0x62F, 0x630, 0x630, 0x631, 0x631, 0x632,
/*FEB*/ 0x632, 0x633, 0x633, 0x633, 0x633, 0x634, 0x634, 0x634, 0x634, 0x635, 0x635, 0x635, 0x635, 0x636, 0x636, 0x636,
/*FEC*/ 0x636, 0x637, 0x637, 0x637, 0x637, 0x638, 0x638, 0x638, 0x638, 0x639, 0x639, 0x639, 0x639, 0x63A, 0x63A, 0x63A,
/*FED*/ 0x63A, 0x641, 0x641, 0x641, 0x641, 0x642, 0x642, 0x642, 0x642, 0x643, 0x643, 0x643, 0x643, 0x644, 0x644, 0x644,
/*FEE*/ 0x644, 0x645, 0x645, 0x645, 0x645, 0x646, 0x646, 0x646, 0x646, 0x647, 0x647, 0x647, 0x647, 0x648, 0x648, 0x649,
/*FEF*/ 0x649, 0x64A, 0x64A, 0x64A, 0x64A, 0x65C, 0x65C, 0x65D, 0x65D, 0x65E, 0x65E, 0x65F, 0x65F
};
static const UChar shapeTable[4][4][4]=
{
{ {0,0,0,0}, {0,0,0,0}, {0,1,0,3}, {0,1,0,1} },
{ {0,0,2,2}, {0,0,1,2}, {0,1,1,2}, {0,1,1,3} },
{ {0,0,0,0}, {0,0,0,0}, {0,1,0,3}, {0,1,0,3} },
{ {0,0,1,2}, {0,0,1,2}, {0,1,1,2}, {0,1,1,3} }
};
/*
* This function shapes European digits to Arabic-Indic digits
* in-place, writing over the input characters.
* Since we know that we are only looking for BMP code points,
* we can safely just work with code units (again, at least UTF-16).
*/
static void
_shapeToArabicDigitsWithContext(UChar *s, int32_t length,
UChar digitBase,
UBool isLogical, UBool lastStrongWasAL) {
const UBiDiProps *bdp;
UErrorCode errorCode;
int32_t i;
UChar c;
errorCode=U_ZERO_ERROR;
bdp=ubidi_getSingleton(&errorCode);
if(U_FAILURE(errorCode)) {
return;
}
digitBase-=0x30;
/* the iteration direction depends on the type of input */
if(isLogical) {
for(i=0; i<length; ++i) {
c=s[i];
switch(ubidi_getClass(bdp, c)) {
case U_LEFT_TO_RIGHT: /* L */
case U_RIGHT_TO_LEFT: /* R */
lastStrongWasAL=FALSE;
break;
case U_RIGHT_TO_LEFT_ARABIC: /* AL */
lastStrongWasAL=TRUE;
break;
case U_EUROPEAN_NUMBER: /* EN */
if(lastStrongWasAL && (uint32_t)(c-0x30)<10) {
s[i]=(UChar)(digitBase+c); /* digitBase+(c-0x30) - digitBase was modified above */
}
break;
default :
break;
}
}
} else {
for(i=length; i>0; /* pre-decrement in the body */) {
c=s[--i];
switch(ubidi_getClass(bdp, c)) {
case U_LEFT_TO_RIGHT: /* L */
case U_RIGHT_TO_LEFT: /* R */
lastStrongWasAL=FALSE;
break;
case U_RIGHT_TO_LEFT_ARABIC: /* AL */
lastStrongWasAL=TRUE;
break;
case U_EUROPEAN_NUMBER: /* EN */
if(lastStrongWasAL && (uint32_t)(c-0x30)<10) {
s[i]=(UChar)(digitBase+c); /* digitBase+(c-0x30) - digitBase was modified above */
}
break;
default :
break;
}
}
}
}
/*
*Name : invertBuffer
*Function : This function inverts the buffer, it's used
* in case the user specifies the buffer to be
* U_SHAPE_TEXT_DIRECTION_LOGICAL
*/
static void
invertBuffer(UChar *buffer,int32_t size,uint32_t options,int32_t *spacesCountl,int32_t *spacesCountr) {
UChar temp;
int32_t i=0,j=0;
int32_t lowlimit = 0, highlimit = 0;
lowlimit = *spacesCountl;
highlimit = *spacesCountr;
for(i=lowlimit,j=size-highlimit-1;i<j;i++,j--) {
temp = buffer[i];
buffer[i] = buffer[j];
buffer[j] = temp;
}
}
/*
*Name : changeLamAlef
*Function : Converts the Alef characters into an equivalent
* LamAlef location in the 0x06xx Range, this is an
* intermediate stage in the operation of the program
* later it'll be converted into the 0xFExx LamAlefs
* in the shaping function.
*/
static U_INLINE UChar
changeLamAlef(UChar ch) {
switch(ch) {
case 0x0622 :
return 0x065C;
case 0x0623 :
return 0x065D;
case 0x0625 :
return 0x065E;
case 0x0627 :
return 0x065F;
}
return 0;
}
/*
*Name : specialChar
*Function : Special Arabic characters need special handling in the shapeUnicode
* function, this function returns 1 or 2 for these special characters
*/
static int32_t
specialChar(UChar ch) {
if( (ch>0x0621 && ch<0x0626)||(ch==0x0627)||(ch>0x062e && ch<0x0633)||
(ch>0x0647 && ch<0x064a)||(ch==0x0629) ) {
return (1);
}
else if( ch>=0x064B && ch<= 0x0652 )
return (2);
else if( (ch>=0x0653 && ch<= 0x0655) || ch == 0x0670 ||
(ch>=0xFE70 && ch<= 0xFE7F) )
return (3);
else
return (0);
}
/*
*Name : getLink
*Function : Resolves the link between the characters as
* Arabic characters have four forms :
* Isolated, Initial, Middle and Final Form
*/
static UChar
getLink(UChar ch) {
if(ch >= 0x0622 && ch <= 0x06D3) {
return(araLink[ch-0x0622]);
} else if(ch == 0x200D) {
return(3);
} else if(ch >= 0x206D && ch <= 0x206F) {
return(4);
} else if(ch >= 0xFE70 && ch <= 0xFEFC) {
return(presLink[ch-0xFE70]);
} else {
return(0);
}
}
/*
*Name : countSpaces
*Function : Counts the number of spaces
* at each end of the logical buffer
*/
static void
countSpaces(UChar *dest,int32_t size,uint32_t options,int32_t *spacesCountl,int32_t *spacesCountr) {
int32_t i = 0;
int32_t countl = 0,countr = 0;
while(dest[i] == 0x0020) {
countl++;
i++;
}
while(dest[size-1] == 0x0020) {
countr++;
size--;
}
*spacesCountl = countl;
*spacesCountr = countr;
}
/*
*Name : isTashkeelChar
*Function : Returns 1 for Tashkeel characters else return 0
*/
static U_INLINE int32_t
isTashkeelChar(UChar ch) {
return (int32_t)( ch>=0x064B && ch<= 0x0652 );
}
/*
*Name : isAlefChar
*Function : Returns 1 for Alef characters else return 0
*/
static U_INLINE int32_t
isAlefChar(UChar ch) {
return (int32_t)( (ch==0x0622)||(ch==0x0623)||(ch==0x0625)||(ch==0x0627) );
}
/*
*Name : isLamAlefChar
*Function : Returns 1 for LamAlef characters else return 0
*/
static U_INLINE int32_t
isLamAlefChar(UChar ch) {
return (int32_t)( (ch>=0xFEF5)&&(ch<=0xFEFC) );
}
/*
*Name : calculateSize
*Function : This function calculates the destSize to be used in preflighting
* when the destSize is equal to 0
*/
static int32_t
calculateSize(const UChar *source, int32_t sourceLength,
int32_t destSize,uint32_t options) {
int32_t i = 0;
destSize = sourceLength;
switch(options&U_SHAPE_LETTERS_MASK) {
case U_SHAPE_LETTERS_SHAPE :
if((options&U_SHAPE_TEXT_DIRECTION_MASK)==U_SHAPE_TEXT_DIRECTION_VISUAL_LTR) {
for(i=0;i<sourceLength;i++) {
if( (isAlefChar(source[i]))&&(source[i+1]==0x0644) ) {
destSize--;
}
}
}
else
if((options&U_SHAPE_TEXT_DIRECTION_MASK)==U_SHAPE_TEXT_DIRECTION_LOGICAL) {
for(i=0;i<sourceLength;i++) {
if( (isAlefChar(source[i+1]))&&(source[i]==0x0644) ) {
destSize--;
}
}
}
break;
case U_SHAPE_LETTERS_UNSHAPE :
for(i=0;i<sourceLength;i++) {
if( isLamAlefChar(source[i]) ) {
destSize++;
}
}
break;
default :
/* will never occur because of validity checks at the begin of u_shapeArabic */
break;
}
return destSize;
}
/*
*Name : removeLamAlefSpaces
*Function : The shapeUnicode function converts Lam + Alef into LamAlef + space,
* this function removes the spaces behind the LamAlefs according to
* the options the user specifies, the spaces are removed to the end
* of the buffer, or shrink the buffer ab=nd remove spaces for good
* or leave the buffer as it is LamAlef + space.
*/
static int32_t
removeLamAlefSpaces(UChar *dest, int32_t sourceLength,
int32_t destSize,
uint32_t options,
UErrorCode *pErrorCode) {
int32_t i = 0, j = 0;
int32_t count = 0;
UChar *tempbuffer=NULL;
switch(options&U_SHAPE_LENGTH_MASK) {
case U_SHAPE_LENGTH_GROW_SHRINK :
tempbuffer = (UChar *)uprv_malloc((sourceLength+1)*U_SIZEOF_UCHAR);
/* Test for NULL */
if(tempbuffer == NULL) {
*pErrorCode = U_MEMORY_ALLOCATION_ERROR;
return 0;
}
uprv_memset(tempbuffer, 0, (sourceLength+1)*U_SIZEOF_UCHAR);
i = j = 0;
while(i < sourceLength) {
if(dest[i] == 0xFFFF) {
j--;
count++;
}
else
tempbuffer[j] = dest[i];
i++;
j++;
}
while(count >= 0) {
tempbuffer[i] = 0x0000;
i--;
count--;
}
uprv_memcpy(dest, tempbuffer, sourceLength*U_SIZEOF_UCHAR);
destSize = u_strlen(dest);
break;
case U_SHAPE_LENGTH_FIXED_SPACES_NEAR :
/* Lam+Alef is already shaped into LamAlef + FFFF */
i = 0;
while(i < sourceLength) {
if(dest[i] == 0xFFFF)
dest[i] = 0x0020;
i++;
}
destSize = sourceLength;
break;
case U_SHAPE_LENGTH_FIXED_SPACES_AT_BEGINNING :
tempbuffer = (UChar *)uprv_malloc((sourceLength+1)*U_SIZEOF_UCHAR);
/* Test for NULL */
if(tempbuffer == NULL) {
*pErrorCode = U_MEMORY_ALLOCATION_ERROR;
return 0;
}
uprv_memset(tempbuffer, 0, (sourceLength+1)*U_SIZEOF_UCHAR);
i = j = sourceLength;
while(i >= 0) {
if(dest[i] == 0xFFFF) {
j++;
count++;
}
else
tempbuffer[j] = dest[i];
i--;
j--;
}
for(i=0;i<count;i++)
tempbuffer[i] = 0x0020;
uprv_memcpy(dest, tempbuffer, sourceLength*U_SIZEOF_UCHAR);
destSize = sourceLength;
break;
case U_SHAPE_LENGTH_FIXED_SPACES_AT_END :
tempbuffer = (UChar *)uprv_malloc((sourceLength+1)*U_SIZEOF_UCHAR);
/* Test for NULL */
if(tempbuffer == NULL) {
*pErrorCode = U_MEMORY_ALLOCATION_ERROR;
return 0;
}
uprv_memset(tempbuffer, 0, (sourceLength+1)*U_SIZEOF_UCHAR);
i = j = 0;
while(i < sourceLength) {
if(dest[i] == 0xFFFF) {
j--;
count++;
}
else
tempbuffer[j] = dest[i];
i++;
j++;
}
while(count >= 0) {
tempbuffer[i] = 0x0020;
i--;
count--;
}
uprv_memcpy(dest,tempbuffer, sourceLength*U_SIZEOF_UCHAR);
destSize = sourceLength;
break;
default :
/* will not occur */
break;
}
if(tempbuffer)
uprv_free(tempbuffer);
return destSize;
}
/*
*Name : expandLamAlef
*Function : LamAlef needs special handling as the LamAlef is
* one character while expanding it will give two
* characters Lam + Alef, so we need to expand the LamAlef
* in near or far spaces according to the options the user
* specifies or increase the buffer size.
* If there are no spaces to expand the LamAlef, an error
* will be set to U_NO_SPACE_AVAILABLE as defined in utypes.h
*/
static int32_t
expandLamAlef(UChar *dest, int32_t sourceLength,
int32_t destSize,uint32_t options,
UErrorCode *pErrorCode) {
int32_t i = 0,j = 0;
int32_t countl = 0;
int32_t countr = 0;
int32_t inpsize = sourceLength;
UChar lamalefChar;
UChar *tempbuffer=NULL;
switch(options&U_SHAPE_LENGTH_MASK) {
case U_SHAPE_LENGTH_GROW_SHRINK :
destSize = calculateSize(dest,sourceLength,destSize,options);
tempbuffer = (UChar *)uprv_malloc((destSize+1)*U_SIZEOF_UCHAR);
/* Test for NULL */
if(tempbuffer == NULL) {
*pErrorCode = U_MEMORY_ALLOCATION_ERROR;
return 0;
}
uprv_memset(tempbuffer, 0, (destSize+1)*U_SIZEOF_UCHAR);
i = j = 0;
while(i < destSize && j < destSize) {
if( isLamAlefChar(dest[i]) ) {
tempbuffer[j] = convertLamAlef[ dest[i] - 0xFEF5 ];
tempbuffer[j+1] = 0x0644;
j++;
}
else
tempbuffer[j] = dest[i];
i++;
j++;
}
uprv_memcpy(dest, tempbuffer, destSize*U_SIZEOF_UCHAR);
break;
case U_SHAPE_LENGTH_FIXED_SPACES_NEAR :
for(i = 0;i<sourceLength;i++) {
if((dest[i] == 0x0020) && isLamAlefChar(dest[i+1])) {
lamalefChar = dest[i+1];
dest[i+1] = 0x0644;
dest[i] = convertLamAlef[ lamalefChar - 0xFEF5 ];
}
else
if((dest[i] != 0x0020) && isLamAlefChar(dest[i+1])) {
*pErrorCode=U_NO_SPACE_AVAILABLE;
}
}
destSize = sourceLength;
break;
case U_SHAPE_LENGTH_FIXED_SPACES_AT_BEGINNING :
tempbuffer = (UChar *)uprv_malloc((sourceLength+1)*U_SIZEOF_UCHAR);
/* Test for NULL */
if(tempbuffer == NULL) {
*pErrorCode = U_MEMORY_ALLOCATION_ERROR;
return 0;
}
uprv_memset(tempbuffer, 0, (sourceLength+1)*U_SIZEOF_UCHAR);
i = 0;
while(dest[i] == 0x0020) {
countl++;
i++;
}
i = j = sourceLength-1;
while(i >= 0 && j >= 0) {
if( countl>0 && isLamAlefChar(dest[i]) ) {
tempbuffer[j] = 0x0644;
tempbuffer[j-1] = convertLamAlef[ dest[i] - 0xFEF5 ];
j--;
countl--;
}
else {
if( countl == 0 && isLamAlefChar(dest[i]) )
*pErrorCode=U_NO_SPACE_AVAILABLE;
tempbuffer[j] = dest[i];
}
i--;
j--;
}
uprv_memcpy(dest, tempbuffer, sourceLength*U_SIZEOF_UCHAR);
destSize = sourceLength;
break;
case U_SHAPE_LENGTH_FIXED_SPACES_AT_END :
/* LamAlef expansion below is done from right to left to make sure that we consume
* the spaces with the LamAlefs as they appear in the visual buffer from right to left
*/
tempbuffer = (UChar *)uprv_malloc((sourceLength+1)*U_SIZEOF_UCHAR);
/* Test for NULL */
if(tempbuffer == NULL) {
*pErrorCode = U_MEMORY_ALLOCATION_ERROR;
return 0;
}
uprv_memset(tempbuffer, 0, (sourceLength+1)*U_SIZEOF_UCHAR);
while(dest[inpsize-1] == 0x0020) {
countr++;
inpsize--;
}
i = sourceLength - countr - 1;
j = sourceLength - 1;
while(i >= 0 && j >= 0) {
if( countr>0 && isLamAlefChar(dest[i]) ) {
tempbuffer[j] = 0x0644;
tempbuffer[j-1] = convertLamAlef[ dest[i] - 0xFEF5 ];
j--;
countr--;
}
else {
if( countr == 0 && isLamAlefChar(dest[i]) )
*pErrorCode=U_NO_SPACE_AVAILABLE;
tempbuffer[j] = dest[i];
}
i--;
j--;
}
if(countr > 0) {
uprv_memcpy(tempbuffer, tempbuffer+countr, sourceLength*U_SIZEOF_UCHAR);
if(u_strlen(tempbuffer) < sourceLength) {
for(i=sourceLength-1;i>=sourceLength-countr;i--)
tempbuffer[i] = 0x0020;
}
}
uprv_memcpy(dest, tempbuffer, sourceLength*U_SIZEOF_UCHAR);
destSize = sourceLength;
break;
default :
/* will never occur because of validity checks */
break;
}
if(tempbuffer)
uprv_free(tempbuffer);
return destSize;
}
/*
*Name : shapeUnicode
*Function : Converts an Arabic Unicode buffer in 06xx Range into a shaped
* arabic Unicode buffer in FExx Range
*/
static int32_t
shapeUnicode(UChar *dest, int32_t sourceLength,
int32_t destSize,uint32_t options,
UErrorCode *pErrorCode,
int tashkeelFlag) {
int32_t i, iend;
int32_t step;
int32_t lastPos,Nx, Nw;
unsigned int Shape;
int32_t flag;
int32_t lamalef_found = 0;
UChar prevLink = 0, lastLink = 0, currLink, nextLink = 0;
UChar wLamalef;
/*
* Converts the input buffer from FExx Range into 06xx Range
* to make sure that all characters are in the 06xx range
* even the lamalef is converted to the special region in
* the 06xx range
*/
for (i = 0; i < sourceLength; i++) {
UChar inputChar = dest[i];
if ( (inputChar >= 0xFE70) && (inputChar <= 0xFEFC)) {
dest[i] = convertFEto06 [ (inputChar - 0xFE70) ] ;
} else {
dest[i] = inputChar ;
}
}
/* sets the index to the end of the buffer, together with the step point to -1 */
i = sourceLength - 1;
iend = -1;
step = -1;
/*
* This function resolves the link between the characters .
* Arabic characters have four forms :
* Isolated Form, Initial Form, Middle Form and Final Form
*/
currLink = getLink(dest[i]);
lastPos = i;
Nx = -2, Nw = 0;
while (i != iend) {
/* If high byte of currLink > 0 then more than one shape */
if ((currLink & 0xFF00) > 0 || isTashkeelChar(dest[i])) {
Nw = i + step;
while (Nx < 0) { /* we need to know about next char */
if(Nw == iend) {
nextLink = 0;
Nx = 3000;
} else {
nextLink = getLink(dest[Nw]);
if((nextLink & IRRELEVANT) == 0) {
Nx = Nw;
} else {
Nw = Nw + step;
}
}
}
if ( ((currLink & ALEFTYPE) > 0) && ((lastLink & LAMTYPE) > 0) ) {
lamalef_found = 1;
wLamalef = changeLamAlef(dest[i]); /*get from 0x065C-0x065f */
if ( wLamalef != 0) {
dest[i] = 0xFFFF; /* The default case is to drop the Alef and replace */
dest[lastPos] =wLamalef; /* it by 0xFFFF which is the last character in the */
i=lastPos; /* unicode private use area, this is done to make */
} /* sure that removeLamAlefSpaces() handles only the */
lastLink = prevLink; /* spaces generated during lamalef generation. */
currLink = getLink(wLamalef); /* 0xFFFF is added here and is replaced by spaces */
} /* in removeLamAlefSpaces() */
/*
* get the proper shape according to link ability of neighbors
* and of character; depends on the order of the shapes
* (isolated, initial, middle, final) in the compatibility area
*/
flag = specialChar(dest[i]);
Shape = shapeTable[nextLink & (LINKR + LINKL)]
[lastLink & (LINKR + LINKL)]
[currLink & (LINKR + LINKL)];
if (flag == 1) {
Shape = (Shape == 1 || Shape == 3) ? 1 : 0;
}
else if(flag == 2) {
if( (lastLink & LINKL) && (nextLink & LINKR) && (tashkeelFlag == 1) &&
dest[i] != 0x064C && dest[i] != 0x064D )
{
Shape = 1;
if( (nextLink&ALEFTYPE) == ALEFTYPE && (lastLink&LAMTYPE) == LAMTYPE ) {
Shape = 0;
}
}
else {
Shape = 0;
}
}
if(flag == 2) {
dest[i] = 0xFE70 + IrrelevantPos[(dest[i] - 0x064B)] + Shape;
}
else
dest[i] = (UChar)(0xFE70 + (currLink >> 8) + Shape);
}
/* move one notch forward */
if ((currLink & IRRELEVANT) == 0) {
prevLink = lastLink;
lastLink = currLink;
lastPos = i;
}
i = i + step;
if (i == Nx) {
currLink = nextLink;
Nx = -2;
}
else if(i != iend) {
currLink = getLink(dest[i]);
}
}
/* If there is lamalef in the buffer call expandLamAlef */
if(lamalef_found != 0)
destSize = removeLamAlefSpaces(dest,sourceLength,destSize,options,pErrorCode);
else
destSize = sourceLength;
return destSize;
}
/*
*Name : deShapeUnicode
*Function : Converts an Arabic Unicode buffer in FExx Range into unshaped
* arabic Unicode buffer in 06xx Range
*/
static int32_t
deShapeUnicode(UChar *dest, int32_t sourceLength,
int32_t destSize,uint32_t options,
UErrorCode *pErrorCode) {
int32_t i = 0;
int32_t lamalef_found = 0;
/*
*This for loop changes the buffer from the Unicode FE range to
*the Unicode 06 range
*/
for(i = 0; i < sourceLength; i++) {
UChar inputChar = dest[i];
if (( inputChar >= 0xFE70) && (inputChar <= 0xFEF4 )) { /* FExx Arabic range */
dest[i] = convertFEto06 [ (inputChar - 0xFE70) ] ;
} else {
dest[i] = inputChar ;
}
if( isLamAlefChar(dest[i]) )
lamalef_found = 1;
}
/* If there is lamalef in the buffer call expandLamAlef */
if(lamalef_found != 0)
destSize = expandLamAlef(dest,sourceLength,destSize,options,pErrorCode);
else
destSize = sourceLength;
return destSize;
}
U_CAPI int32_t U_EXPORT2
u_shapeArabic(const UChar *source, int32_t sourceLength,
UChar *dest, int32_t destCapacity,
uint32_t options,
UErrorCode *pErrorCode) {
int32_t destLength;
/* usual error checking */
if(pErrorCode==NULL || U_FAILURE(*pErrorCode)) {
return 0;
}
/* make sure that no reserved options values are used; allow dest==NULL only for preflighting */
if( source==NULL || sourceLength<-1 ||
(dest==NULL && destCapacity!=0) || destCapacity<0 ||
options>=U_SHAPE_DIGIT_TYPE_RESERVED ||
(options&U_SHAPE_DIGITS_MASK)>=U_SHAPE_DIGITS_RESERVED
) {
*pErrorCode=U_ILLEGAL_ARGUMENT_ERROR;
return 0;
}
/* determine the source length */
if(sourceLength==-1) {
sourceLength=u_strlen(source);
}
if(sourceLength<=0) {
return u_terminateUChars(dest, destCapacity, 0, pErrorCode);
}
/* check that source and destination do not overlap */
if( dest!=NULL &&
((source<=dest && dest<source+sourceLength) ||
(dest<=source && source<dest+destCapacity))
) {
*pErrorCode=U_ILLEGAL_ARGUMENT_ERROR;
return 0;
}
if((options&U_SHAPE_LETTERS_MASK)!=U_SHAPE_LETTERS_NOOP) {
UChar buffer[300];
UChar *tempbuffer;
int32_t outputSize, spacesCountl=0, spacesCountr=0;
/* calculate destination size */
/* TODO: do we ever need to do this pure preflighting? */
if((options&U_SHAPE_LENGTH_MASK)==U_SHAPE_LENGTH_GROW_SHRINK) {
outputSize=calculateSize(source,sourceLength,destCapacity,options);
} else {
outputSize=sourceLength;
}
if(outputSize>destCapacity) {
*pErrorCode=U_BUFFER_OVERFLOW_ERROR;
return outputSize;
}
/*
* need a temporary buffer of size max(outputSize, sourceLength)
* because at first we copy source->temp
*/
if(sourceLength>outputSize) {
outputSize=sourceLength;
}
/* Start of Arabic letter shaping part */
if(outputSize<=sizeof(buffer)/U_SIZEOF_UCHAR) {
outputSize=sizeof(buffer)/U_SIZEOF_UCHAR;
tempbuffer=buffer;
} else {
tempbuffer = (UChar *)uprv_malloc(outputSize*U_SIZEOF_UCHAR);
/*Test for NULL*/
if(tempbuffer == NULL) {
*pErrorCode = U_MEMORY_ALLOCATION_ERROR;
return 0;
}
}
uprv_memcpy(tempbuffer, source, sourceLength*U_SIZEOF_UCHAR);
if(sourceLength<outputSize) {
uprv_memset(tempbuffer+sourceLength, 0, (outputSize-sourceLength)*U_SIZEOF_UCHAR);
}
if((options&U_SHAPE_TEXT_DIRECTION_MASK) == U_SHAPE_TEXT_DIRECTION_LOGICAL) {
countSpaces(tempbuffer,sourceLength,options,&spacesCountl,&spacesCountr);
invertBuffer(tempbuffer,sourceLength,options,&spacesCountl,&spacesCountr);
}
switch(options&U_SHAPE_LETTERS_MASK) {
case U_SHAPE_LETTERS_SHAPE :
/* Call the shaping function with tashkeel flag == 1 */
destLength = shapeUnicode(tempbuffer,sourceLength,destCapacity,options,pErrorCode,1);
break;
case U_SHAPE_LETTERS_SHAPE_TASHKEEL_ISOLATED :
/* Call the shaping function with tashkeel flag == 0 */
destLength = shapeUnicode(tempbuffer,sourceLength,destCapacity,options,pErrorCode,0);
break;
case U_SHAPE_LETTERS_UNSHAPE :
/* Call the deshaping function */
destLength = deShapeUnicode(tempbuffer,sourceLength,destCapacity,options,pErrorCode);
break;
default :
/* will never occur because of validity checks above */
destLength = 0;
break;
}
/*
* TODO: (markus 2002aug01)
* For as long as we always preflight the outputSize above
* we should U_ASSERT(outputSize==destLength)
* except for the adjustment above before the tempbuffer allocation
*/
if((options&U_SHAPE_TEXT_DIRECTION_MASK) == U_SHAPE_TEXT_DIRECTION_LOGICAL) {
countSpaces(tempbuffer,destLength,options,&spacesCountl,&spacesCountr);
invertBuffer(tempbuffer,destLength,options,&spacesCountl,&spacesCountr);
}
uprv_memcpy(dest, tempbuffer, uprv_min(destLength, destCapacity)*U_SIZEOF_UCHAR);
if(tempbuffer!=buffer) {
uprv_free(tempbuffer);
}
if(destLength>destCapacity) {
*pErrorCode=U_BUFFER_OVERFLOW_ERROR;
return destLength;
}
/* End of Arabic letter shaping part */
} else {
/*
* No letter shaping:
* just make sure the destination is large enough and copy the string.
*/
if(destCapacity<sourceLength) {
/* this catches preflighting, too */
*pErrorCode=U_BUFFER_OVERFLOW_ERROR;
return sourceLength;
}
uprv_memcpy(dest, source, sourceLength*U_SIZEOF_UCHAR);
destLength=sourceLength;
}
/*
* Perform number shaping.
* With UTF-16 or UTF-32, the length of the string is constant.
* The easiest way to do this is to operate on the destination and
* "shape" the digits in-place.
*/
if((options&U_SHAPE_DIGITS_MASK)!=U_SHAPE_DIGITS_NOOP) {
UChar digitBase;
int32_t i;
/* select the requested digit group */
switch(options&U_SHAPE_DIGIT_TYPE_MASK) {
case U_SHAPE_DIGIT_TYPE_AN:
digitBase=0x660; /* Unicode: "Arabic-Indic digits" */
break;
case U_SHAPE_DIGIT_TYPE_AN_EXTENDED:
digitBase=0x6f0; /* Unicode: "Eastern Arabic-Indic digits (Persian and Urdu)" */
break;
default:
/* will never occur because of validity checks above */
digitBase=0;
break;
}
/* perform the requested operation */
switch(options&U_SHAPE_DIGITS_MASK) {
case U_SHAPE_DIGITS_EN2AN:
/* add (digitBase-'0') to each European (ASCII) digit code point */
digitBase-=0x30;
for(i=0; i<destLength; ++i) {
if(((uint32_t)dest[i]-0x30)<10) {
dest[i]+=digitBase;
}
}
break;
case U_SHAPE_DIGITS_AN2EN:
/* subtract (digitBase-'0') from each Arabic digit code point */
for(i=0; i<destLength; ++i) {
if(((uint32_t)dest[i]-(uint32_t)digitBase)<10) {
dest[i]-=digitBase-0x30;
}
}
break;
case U_SHAPE_DIGITS_ALEN2AN_INIT_LR:
_shapeToArabicDigitsWithContext(dest, destLength,
digitBase,
(UBool)((options&U_SHAPE_TEXT_DIRECTION_MASK)==U_SHAPE_TEXT_DIRECTION_LOGICAL),
FALSE);
break;
case U_SHAPE_DIGITS_ALEN2AN_INIT_AL:
_shapeToArabicDigitsWithContext(dest, destLength,
digitBase,
(UBool)((options&U_SHAPE_TEXT_DIRECTION_MASK)==U_SHAPE_TEXT_DIRECTION_LOGICAL),
TRUE);
break;
default:
/* will never occur because of validity checks above */
break;
}
}
return u_terminateUChars(dest, destCapacity, destLength, pErrorCode);
}
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