/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2005 by Gadi Cohen * * Largely based on php_hebrev by Zeev Suraski * Heavily modified by Gadi Cohen aka Kinslayer * * All files in this archive are subject to the GNU General Public License. * See the file COPYING in the source tree root for full license agreement. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ #include #include #include #include "file.h" #include "lcd.h" #include "rbunicode.h" #include "arabjoin.h" //#define _HEB_BUFFER_LENGTH (MAX_PATH + LCD_WIDTH/2 + 3 + 2 + 2) * 2 #define _HEB_BLOCK_TYPE_ENG 1 #define _HEB_BLOCK_TYPE_HEB 0 #define _HEB_ORIENTATION_LTR 1 #define _HEB_ORIENTATION_RTL 0 #define ischar(c) ((c > 0x0589 && c < 0x0700) || (c >= 0xfb50 && c <= 0xfefc) ? 1 : 0) #define _isblank(c) ((c==' ' || c=='\t') ? 1 : 0) #define _isnewline(c) ((c=='\n' || c=='\r') ? 1 : 0) #define XOR(a,b) ((a||b) && !(a&&b)) arab_t * arab_lookup(unsigned short uchar) { if (uchar >= 0x621 && uchar <= 0x63a) return &(jointable[uchar - 0x621]); if (uchar >= 0x640 && uchar <= 0x64a) return &(jointable[uchar - 0x621 - 5]); if (uchar >= 0x671 && uchar <= 0x6d5) return &(jointable[uchar - 0x621 - 5 - 38]); if (uchar == 0x200D) /* Support for the zero-width joiner */ return ‍ return 0; } void arabjoin(unsigned short * stringprt, int length){ bool connected = false; unsigned short * writeprt = stringprt; arab_t * prev = 0; arab_t * cur; arab_t * ligature = 0; short uchar; int i; for (i = 0; i <= length; i++) { cur = arab_lookup(uchar = *stringprt++); /* Skip non-arabic chars */ if (cur == 0) { if (prev) { /* Finish the last char */ if (connected) { *writeprt++ = prev->final; connected = false; } else *writeprt++ = prev->isolated; prev = 0; *writeprt++ = uchar; } else { *writeprt++ = uchar; } continue; } /* nothing to do for arabic char if the previous was non-arabic */ if (prev == 0) { prev = cur; continue; } /* if it's LAM, check for LAM+ALEPH ligatures */ if (prev->isolated == 0xfedd) { switch (cur->isolated) { case 0xfe8d: ligature = &(lamaleph[0]); break; case 0xfe87: ligature = &(lamaleph[1]); break; case 0xfe83: ligature = &(lamaleph[2]); break; case 0xfe81: ligature = &(lamaleph[3]); } } if (ligature) { /* replace the 2 glyphs by their ligature */ prev = ligature; ligature = 0; } else { if (connected) { /* previous char has something connected to it */ if (prev->medial && cur->final) /* Can we connect to it? */ *writeprt++ = prev->medial; else { *writeprt++ = prev->final; connected = false; } } else { if (prev->initial && cur->final) { /* Can we connect to it? */ *writeprt++ = prev->initial; connected = true; } else *writeprt++ = prev->isolated; } prev = cur; } } } unsigned short *bidi_l2v(const unsigned char *str, int orientation) { int length = utf8length(str); static unsigned short utf16_buf[MAX_PATH+1]; static unsigned short bidi_buf[MAX_PATH+1]; unsigned short *heb_str, *target, *tmp; // *broken_str int block_start, block_end, block_type, block_length, i; //long max_chars=0; //int begin, end, char_count, orig_begin; if (!str || !*str) return &(unsigned short){0}; //tmp = str; target = tmp = utf16_buf; while (*str) str = utf8decode(str, target++); *target = 0; /* properly join any arabic chars */ arabjoin(utf16_buf, length); block_start=block_end=block_length=0; heb_str = bidi_buf; if (orientation) { target = heb_str; } else { target = heb_str + length; *target = 0; target--; } if (ischar(*tmp)) block_type = _HEB_BLOCK_TYPE_HEB; else block_type = _HEB_BLOCK_TYPE_ENG; do { while((XOR(ischar(*(tmp+1)),block_type) || _isblank(*(tmp+1)) || ispunct((int)*(tmp+1)) || *(tmp+1)=='\n') && block_end < length-1) { tmp++; block_end++; block_length++; } if (block_type != orientation) { while ((_isblank(*tmp) || ispunct((int)*tmp)) && *tmp!='/' && *tmp!='-' && block_end>block_start) { tmp--; block_end--; } } for (i=block_start; i<=block_end; i++) { *target = (block_type == orientation) ? *(utf16_buf+i) : *(utf16_buf+block_end-i+block_start); if (block_type!=orientation) { switch (*target) { case '(': *target = ')'; break; case ')': *target = '('; break; default: break; } } target += orientation ? 1 : -1; } block_type = !block_type; block_start=block_end+1; } while(block_end0) { char_count++; begin--; if (begin<=0 || _isnewline(heb_str[begin])) { while(begin>0 && _isnewline(heb_str[begin-1])) { begin--; char_count++; } break; } } if (char_count==max_chars) { /* try to avoid breaking words */ int new_char_count = char_count; int new_begin = begin; while (new_char_count>0) { if (_isblank(heb_str[new_begin]) || _isnewline(heb_str[new_begin])) { break; } new_begin++; new_char_count--; } if (new_char_count>0) { char_count=new_char_count; begin=new_begin; } } orig_begin=begin; /* if (_isblank(heb_str[begin])) { heb_str[begin]='\n'; } */ /* skip leading newlines */ while (begin<=end && _isnewline(heb_str[begin])) { begin++; } /* copy content */ for (i=begin; i<=end; i++) { *target = heb_str[i]; target++; } for (i=orig_begin; i<=end && _isnewline(heb_str[i]); i++) { *target = heb_str[i]; target++; } begin=orig_begin; if (begin<=0) { *target = 0; break; } begin--; end=begin; } return broken_str; #endif return heb_str; }