1 /************************************************************************
7 * This is an implemention of Unicode's Bidirectional Algorithm
10 * http://www.unicode.org/reports/tr9/
12 * Author: Ahmad Khalifa
15 * Revision Details: (Updated by Revision Control System)
21 * (www.arabeyes.org - under MIT license)
23 ************************************************************************/
28 * - Explicit marks need to be handled (they are not 100% now)
32 #include <stdlib.h> /* definition of wchar_t*/
36 #define LMASK 0x3F /* Embedding Level mask */
37 #define OMASK 0xC0 /* Override mask */
38 #define OISL 0x80 /* Override is L */
39 #define OISR 0x40 /* Override is R */
41 /* For standalone compilation in a testing mode.
42 * Still depends on the PuTTY headers for snewn and sfree, but can avoid
43 * _linking_ with any other PuTTY code. */
45 #define safemalloc malloc
50 #define STYPE(xh) ((((xh) >= SHAPE_FIRST) && ((xh) <= SHAPE_LAST)) ? \
51 shapetypes[(xh)-SHAPE_FIRST].type : SU) /*))*/
52 #define SISOLATED(xh) (shapetypes[(xh)-SHAPE_FIRST].form_b)
53 #define SFINAL(xh) ((xh)+1)
54 #define SINITIAL(xh) ((xh)+2)
55 #define SMEDIAL(ch) ((ch)+3)
57 #define leastGreaterOdd(x) ( ((x)+1) | 1 )
58 #define leastGreaterEven(x) ( ((x)+2) &~ 1 )
60 typedef struct bidi_char
{
65 /* function declarations */
66 void flipThisRun(bidi_char
*from
, unsigned char* level
, int max
, int count
);
67 int findIndexOfRun(unsigned char* level
, int start
, int count
, int tlevel
);
68 unsigned char getType(int ch
);
69 unsigned char setOverrideBits(unsigned char level
, unsigned char override
);
70 int getPreviousLevel(unsigned char* level
, int from
);
71 int do_shape(bidi_char
*line
, bidi_char
*to
, int count
);
72 int do_bidi(bidi_char
*line
, int count
);
73 void doMirror(wchar_t* ch
);
100 SL
, /* Left-Joining, doesnt exist in U+0600 - U+06FF */
101 SR
, /* Right-Joining, ie has Isolated, Final */
102 SD
, /* Dual-Joining, ie has Isolated, Final, Initial, Medial */
103 SU
, /* Non-Joining */
104 SC
/* Join-Causing, like U+0640 (TATWEEL) */
112 /* Kept near the actual table, for verification. */
113 #define SHAPE_FIRST 0x621
114 #define SHAPE_LAST 0x64A
116 const shape_node shapetypes
[] = {
117 /* index, Typ, Iso, Ligature Index*/
118 /* 621 */ {SU
, 0xFE80},
119 /* 622 */ {SR
, 0xFE81},
120 /* 623 */ {SR
, 0xFE83},
121 /* 624 */ {SR
, 0xFE85},
122 /* 625 */ {SR
, 0xFE87},
123 /* 626 */ {SD
, 0xFE89},
124 /* 627 */ {SR
, 0xFE8D},
125 /* 628 */ {SD
, 0xFE8F},
126 /* 629 */ {SR
, 0xFE93},
127 /* 62A */ {SD
, 0xFE95},
128 /* 62B */ {SD
, 0xFE99},
129 /* 62C */ {SD
, 0xFE9D},
130 /* 62D */ {SD
, 0xFEA1},
131 /* 62E */ {SD
, 0xFEA5},
132 /* 62F */ {SR
, 0xFEA9},
133 /* 630 */ {SR
, 0xFEAB},
134 /* 631 */ {SR
, 0xFEAD},
135 /* 632 */ {SR
, 0xFEAF},
136 /* 633 */ {SD
, 0xFEB1},
137 /* 634 */ {SD
, 0xFEB5},
138 /* 635 */ {SD
, 0xFEB9},
139 /* 636 */ {SD
, 0xFEBD},
140 /* 637 */ {SD
, 0xFEC1},
141 /* 638 */ {SD
, 0xFEC5},
142 /* 639 */ {SD
, 0xFEC9},
143 /* 63A */ {SD
, 0xFECD},
150 /* 641 */ {SD
, 0xFED1},
151 /* 642 */ {SD
, 0xFED5},
152 /* 643 */ {SD
, 0xFED9},
153 /* 644 */ {SD
, 0xFEDD},
154 /* 645 */ {SD
, 0xFEE1},
155 /* 646 */ {SD
, 0xFEE5},
156 /* 647 */ {SD
, 0xFEE9},
157 /* 648 */ {SR
, 0xFEED},
158 /* 649 */ {SR
, 0xFEEF}, /* SD */
159 /* 64A */ {SD
, 0xFEF1}
163 * Flips the text buffer, according to max level, and
167 * from: text buffer, on which to apply flipping
168 * level: resolved levels buffer
169 * max: the maximum level found in this line (should be unsigned char)
170 * count: line size in bidi_char
172 void flipThisRun(bidi_char
*from
, unsigned char *level
, int max
, int count
)
178 while (i
<count
&& j
<count
) {
180 /* find the start of the run of level=max */
182 i
= j
= findIndexOfRun(level
, i
, count
, max
);
183 /* find the end of the run */
184 while (i
<count
&& tlevel
<= level
[i
]) {
187 for (k
= i
- 1; k
> j
; k
--, j
++) {
196 * Finds the index of a run with level equals tlevel
198 int findIndexOfRun(unsigned char* level
, int start
, int count
, int tlevel
)
201 for (i
=start
; i
<count
; i
++) {
202 if (tlevel
== level
[i
]) {
210 * Returns the bidi character type of ch.
212 * The data table in this function is constructed from the Unicode
213 * Character Database, downloadable from unicode.org at the URL
215 * http://www.unicode.org/Public/UNIDATA/UnicodeData.txt
217 * by the following fragment of Perl:
219 perl -ne 'split ";"; $num = hex $_[0]; $type = $_[4];' \
220 -e '$fl = ($_[1] =~ /First/ ? 1 : $_[1] =~ /Last/ ? 2 : 0);' \
221 -e 'if ($type eq $runtype and ($runend == $num-1 or ' \
222 -e ' ($fl==2 and $pfl==1))) {$runend = $num;} else { &reset; }' \
223 -e '$pfl=$fl; END { &reset }; sub reset {' \
224 -e 'printf" {0x%04x, 0x%04x, %s},\n",$runstart,$runend,$runtype' \
225 -e ' if defined $runstart and $runtype ne "ON";' \
226 -e '$runstart=$runend=$num; $runtype=$type;}' \
230 unsigned char getType(int ch
)
232 static const struct {
233 int first
, last
, type
;
235 {0x0000, 0x0008, BN
},
239 {0x000c, 0x000c, WS
},
241 {0x000e, 0x001b, BN
},
244 {0x0020, 0x0020, WS
},
245 {0x0023, 0x0025, ET
},
246 {0x002b, 0x002b, ES
},
247 {0x002c, 0x002c, CS
},
248 {0x002d, 0x002d, ES
},
249 {0x002e, 0x002f, CS
},
250 {0x0030, 0x0039, EN
},
251 {0x003a, 0x003a, CS
},
254 {0x007f, 0x0084, BN
},
256 {0x0086, 0x009f, BN
},
257 {0x00a0, 0x00a0, CS
},
258 {0x00a2, 0x00a5, ET
},
260 {0x00ad, 0x00ad, BN
},
261 {0x00b0, 0x00b1, ET
},
262 {0x00b2, 0x00b3, EN
},
264 {0x00b9, 0x00b9, EN
},
274 {0x0300, 0x0357, NSM
},
275 {0x035d, 0x036f, NSM
},
285 {0x0483, 0x0486, NSM
},
286 {0x0488, 0x0489, NSM
},
295 {0x0591, 0x05a1, NSM
},
296 {0x05a3, 0x05b9, NSM
},
297 {0x05bb, 0x05bd, NSM
},
299 {0x05bf, 0x05bf, NSM
},
301 {0x05c1, 0x05c2, NSM
},
303 {0x05c4, 0x05c4, NSM
},
306 {0x0600, 0x0603, AL
},
307 {0x060c, 0x060c, CS
},
308 {0x060d, 0x060d, AL
},
309 {0x0610, 0x0615, NSM
},
310 {0x061b, 0x061b, AL
},
311 {0x061f, 0x061f, AL
},
312 {0x0621, 0x063a, AL
},
313 {0x0640, 0x064a, AL
},
314 {0x064b, 0x0658, NSM
},
315 {0x0660, 0x0669, AN
},
316 {0x066a, 0x066a, ET
},
317 {0x066b, 0x066c, AN
},
318 {0x066d, 0x066f, AL
},
319 {0x0670, 0x0670, NSM
},
320 {0x0671, 0x06d5, AL
},
321 {0x06d6, 0x06dc, NSM
},
322 {0x06dd, 0x06dd, AL
},
323 {0x06de, 0x06e4, NSM
},
324 {0x06e5, 0x06e6, AL
},
325 {0x06e7, 0x06e8, NSM
},
326 {0x06ea, 0x06ed, NSM
},
327 {0x06ee, 0x06ef, AL
},
328 {0x06f0, 0x06f9, EN
},
329 {0x06fa, 0x070d, AL
},
330 {0x070f, 0x070f, BN
},
331 {0x0710, 0x0710, AL
},
332 {0x0711, 0x0711, NSM
},
333 {0x0712, 0x072f, AL
},
334 {0x0730, 0x074a, NSM
},
335 {0x074d, 0x074f, AL
},
336 {0x0780, 0x07a5, AL
},
337 {0x07a6, 0x07b0, NSM
},
338 {0x07b1, 0x07b1, AL
},
339 {0x0901, 0x0902, NSM
},
341 {0x093c, 0x093c, NSM
},
343 {0x0941, 0x0948, NSM
},
345 {0x094d, 0x094d, NSM
},
347 {0x0951, 0x0954, NSM
},
349 {0x0962, 0x0963, NSM
},
351 {0x0981, 0x0981, NSM
},
359 {0x09bc, 0x09bc, NSM
},
361 {0x09c1, 0x09c4, NSM
},
364 {0x09cd, 0x09cd, NSM
},
368 {0x09e2, 0x09e3, NSM
},
370 {0x09f2, 0x09f3, ET
},
372 {0x0a01, 0x0a02, NSM
},
381 {0x0a3c, 0x0a3c, NSM
},
383 {0x0a41, 0x0a42, NSM
},
384 {0x0a47, 0x0a48, NSM
},
385 {0x0a4b, 0x0a4d, NSM
},
389 {0x0a70, 0x0a71, NSM
},
391 {0x0a81, 0x0a82, NSM
},
399 {0x0abc, 0x0abc, NSM
},
401 {0x0ac1, 0x0ac5, NSM
},
402 {0x0ac7, 0x0ac8, NSM
},
405 {0x0acd, 0x0acd, NSM
},
408 {0x0ae2, 0x0ae3, NSM
},
410 {0x0af1, 0x0af1, ET
},
411 {0x0b01, 0x0b01, NSM
},
419 {0x0b3c, 0x0b3c, NSM
},
421 {0x0b3f, 0x0b3f, NSM
},
423 {0x0b41, 0x0b43, NSM
},
426 {0x0b4d, 0x0b4d, NSM
},
427 {0x0b56, 0x0b56, NSM
},
432 {0x0b82, 0x0b82, NSM
},
445 {0x0bc0, 0x0bc0, NSM
},
449 {0x0bcd, 0x0bcd, NSM
},
452 {0x0bf9, 0x0bf9, ET
},
459 {0x0c3e, 0x0c40, NSM
},
461 {0x0c46, 0x0c48, NSM
},
462 {0x0c4a, 0x0c4d, NSM
},
463 {0x0c55, 0x0c56, NSM
},
472 {0x0cbc, 0x0cbc, NSM
},
476 {0x0ccc, 0x0ccd, NSM
},
487 {0x0d41, 0x0d43, NSM
},
490 {0x0d4d, 0x0d4d, NSM
},
500 {0x0dca, 0x0dca, NSM
},
502 {0x0dd2, 0x0dd4, NSM
},
503 {0x0dd6, 0x0dd6, NSM
},
507 {0x0e31, 0x0e31, NSM
},
509 {0x0e34, 0x0e3a, NSM
},
510 {0x0e3f, 0x0e3f, ET
},
512 {0x0e47, 0x0e4e, NSM
},
526 {0x0eb1, 0x0eb1, NSM
},
528 {0x0eb4, 0x0eb9, NSM
},
529 {0x0ebb, 0x0ebc, NSM
},
533 {0x0ec8, 0x0ecd, NSM
},
537 {0x0f18, 0x0f19, NSM
},
539 {0x0f35, 0x0f35, NSM
},
541 {0x0f37, 0x0f37, NSM
},
543 {0x0f39, 0x0f39, NSM
},
546 {0x0f71, 0x0f7e, NSM
},
548 {0x0f80, 0x0f84, NSM
},
550 {0x0f86, 0x0f87, NSM
},
552 {0x0f90, 0x0f97, NSM
},
553 {0x0f99, 0x0fbc, NSM
},
555 {0x0fc6, 0x0fc6, NSM
},
562 {0x102d, 0x1030, NSM
},
564 {0x1032, 0x1032, NSM
},
565 {0x1036, 0x1037, NSM
},
567 {0x1039, 0x1039, NSM
},
569 {0x1058, 0x1059, NSM
},
604 {0x1680, 0x1680, WS
},
609 {0x1712, 0x1714, NSM
},
611 {0x1732, 0x1734, NSM
},
614 {0x1752, 0x1753, NSM
},
617 {0x1772, 0x1773, NSM
},
619 {0x17b7, 0x17bd, NSM
},
621 {0x17c6, 0x17c6, NSM
},
623 {0x17c9, 0x17d3, NSM
},
625 {0x17db, 0x17db, ET
},
627 {0x17dd, 0x17dd, NSM
},
629 {0x180b, 0x180d, NSM
},
630 {0x180e, 0x180e, WS
},
634 {0x18a9, 0x18a9, NSM
},
636 {0x1920, 0x1922, NSM
},
638 {0x1927, 0x192b, NSM
},
640 {0x1932, 0x1932, NSM
},
642 {0x1939, 0x193b, NSM
},
667 {0x2000, 0x200a, WS
},
668 {0x200b, 0x200d, BN
},
671 {0x2028, 0x2028, WS
},
673 {0x202a, 0x202a, LRE
},
674 {0x202b, 0x202b, RLE
},
675 {0x202c, 0x202c, PDF
},
676 {0x202d, 0x202d, LRO
},
677 {0x202e, 0x202e, RLO
},
678 {0x202f, 0x202f, WS
},
679 {0x2030, 0x2034, ET
},
680 {0x2044, 0x2044, CS
},
681 {0x205f, 0x205f, WS
},
682 {0x2060, 0x2063, BN
},
683 {0x206a, 0x206f, BN
},
684 {0x2070, 0x2070, EN
},
686 {0x2074, 0x2079, EN
},
687 {0x207a, 0x207b, ET
},
689 {0x2080, 0x2089, EN
},
690 {0x208a, 0x208b, ET
},
691 {0x20a0, 0x20b1, ET
},
692 {0x20d0, 0x20ea, NSM
},
702 {0x212e, 0x212e, ET
},
708 {0x2212, 0x2213, ET
},
711 {0x2488, 0x249b, EN
},
714 {0x3000, 0x3000, WS
},
717 {0x302a, 0x302f, NSM
},
721 {0x3099, 0x309a, NSM
},
746 {0xfb1e, 0xfb1e, NSM
},
748 {0xfb29, 0xfb29, ET
},
755 {0xfb50, 0xfbb1, AL
},
756 {0xfbd3, 0xfd3d, AL
},
757 {0xfd50, 0xfd8f, AL
},
758 {0xfd92, 0xfdc7, AL
},
759 {0xfdf0, 0xfdfc, AL
},
760 {0xfe00, 0xfe0f, NSM
},
761 {0xfe20, 0xfe23, NSM
},
762 {0xfe50, 0xfe50, CS
},
763 {0xfe52, 0xfe52, CS
},
764 {0xfe55, 0xfe55, CS
},
765 {0xfe5f, 0xfe5f, ET
},
766 {0xfe62, 0xfe63, ET
},
767 {0xfe69, 0xfe6a, ET
},
768 {0xfe70, 0xfe74, AL
},
769 {0xfe76, 0xfefc, AL
},
770 {0xfeff, 0xfeff, BN
},
771 {0xff03, 0xff05, ET
},
772 {0xff0b, 0xff0b, ET
},
773 {0xff0c, 0xff0c, CS
},
774 {0xff0d, 0xff0d, ET
},
775 {0xff0e, 0xff0e, CS
},
776 {0xff0f, 0xff0f, ES
},
777 {0xff10, 0xff19, EN
},
778 {0xff1a, 0xff1a, CS
},
786 {0xffe0, 0xffe1, ET
},
787 {0xffe5, 0xffe6, ET
},
788 {0x10000, 0x1000b, L
},
789 {0x1000d, 0x10026, L
},
790 {0x10028, 0x1003a, L
},
791 {0x1003c, 0x1003d, L
},
792 {0x1003f, 0x1004d, L
},
793 {0x10050, 0x1005d, L
},
794 {0x10080, 0x100fa, L
},
795 {0x10100, 0x10100, L
},
796 {0x10102, 0x10102, L
},
797 {0x10107, 0x10133, L
},
798 {0x10137, 0x1013f, L
},
799 {0x10300, 0x1031e, L
},
800 {0x10320, 0x10323, L
},
801 {0x10330, 0x1034a, L
},
802 {0x10380, 0x1039d, L
},
803 {0x1039f, 0x1039f, L
},
804 {0x10400, 0x1049d, L
},
805 {0x104a0, 0x104a9, L
},
806 {0x10800, 0x10805, R
},
807 {0x10808, 0x10808, R
},
808 {0x1080a, 0x10835, R
},
809 {0x10837, 0x10838, R
},
810 {0x1083c, 0x1083c, R
},
811 {0x1083f, 0x1083f, R
},
812 {0x1d000, 0x1d0f5, L
},
813 {0x1d100, 0x1d126, L
},
814 {0x1d12a, 0x1d166, L
},
815 {0x1d167, 0x1d169, NSM
},
816 {0x1d16a, 0x1d172, L
},
817 {0x1d173, 0x1d17a, BN
},
818 {0x1d17b, 0x1d182, NSM
},
819 {0x1d183, 0x1d184, L
},
820 {0x1d185, 0x1d18b, NSM
},
821 {0x1d18c, 0x1d1a9, L
},
822 {0x1d1aa, 0x1d1ad, NSM
},
823 {0x1d1ae, 0x1d1dd, L
},
824 {0x1d400, 0x1d454, L
},
825 {0x1d456, 0x1d49c, L
},
826 {0x1d49e, 0x1d49f, L
},
827 {0x1d4a2, 0x1d4a2, L
},
828 {0x1d4a5, 0x1d4a6, L
},
829 {0x1d4a9, 0x1d4ac, L
},
830 {0x1d4ae, 0x1d4b9, L
},
831 {0x1d4bb, 0x1d4bb, L
},
832 {0x1d4bd, 0x1d4c3, L
},
833 {0x1d4c5, 0x1d505, L
},
834 {0x1d507, 0x1d50a, L
},
835 {0x1d50d, 0x1d514, L
},
836 {0x1d516, 0x1d51c, L
},
837 {0x1d51e, 0x1d539, L
},
838 {0x1d53b, 0x1d53e, L
},
839 {0x1d540, 0x1d544, L
},
840 {0x1d546, 0x1d546, L
},
841 {0x1d54a, 0x1d550, L
},
842 {0x1d552, 0x1d6a3, L
},
843 {0x1d6a8, 0x1d7c9, L
},
844 {0x1d7ce, 0x1d7ff, EN
},
845 {0x20000, 0x2a6d6, L
},
846 {0x2f800, 0x2fa1d, L
},
847 {0xe0001, 0xe0001, BN
},
848 {0xe0020, 0xe007f, BN
},
849 {0xe0100, 0xe01ef, NSM
},
850 {0xf0000, 0xffffd, L
},
851 {0x100000, 0x10fffd, L
}
861 if (ch
< lookup
[k
].first
)
863 else if (ch
> lookup
[k
].last
)
866 return lookup
[k
].type
;
870 * If we reach here, the character was not in any of the
871 * intervals listed in the lookup table. This means we return
872 * ON (`Other Neutrals'). This is the appropriate code for any
873 * character genuinely not listed in the Unicode table, and
874 * also the table above has deliberately left out any
875 * characters _explicitly_ listed as ON (to save space!).
881 * The most significant 2 bits of each level are used to store
882 * Override status of each character
883 * This function sets the override bits of level according
884 * to the value in override, and reurns the new byte.
886 unsigned char setOverrideBits(unsigned char level
, unsigned char override
)
890 else if (override
== R
)
892 else if (override
== L
)
898 * Find the most recent run of the same value in `level', and
899 * return the value _before_ it. Used to process U+202C POP
900 * DIRECTIONAL FORMATTING.
902 int getPreviousLevel(unsigned char* level
, int from
)
905 unsigned char current
= level
[--from
];
907 while (from
>= 0 && level
[from
] == current
)
918 /* The Main shaping function, and the only one to be used
919 * by the outside world.
921 * line: buffer to apply shaping to. this must be passed by doBidi() first
922 * to: output buffer for the shaped data
923 * count: number of characters in line
925 int do_shape(bidi_char
*line
, bidi_char
*to
, int count
)
927 int i
, tempShape
, ligFlag
;
929 for (ligFlag
=i
=0; i
<count
; i
++) {
931 tempShape
= STYPE(line
[i
].wc
);
940 tempShape
= (i
+1 < count ?
STYPE(line
[i
+1].wc
) : SU
);
941 if ((tempShape
== SL
) || (tempShape
== SD
) || (tempShape
== SC
))
942 to
[i
].wc
= SFINAL((SISOLATED(line
[i
].wc
)));
944 to
[i
].wc
= SISOLATED(line
[i
].wc
);
950 tempShape
= (i
+1 < count ?
STYPE(line
[i
+1].wc
) : SU
);
951 if (line
[i
].wc
== 0x644) {
952 if (i
> 0) switch (line
[i
-1].wc
) {
955 if ((tempShape
== SL
) || (tempShape
== SD
) || (tempShape
== SC
))
962 if ((tempShape
== SL
) || (tempShape
== SD
) || (tempShape
== SC
))
969 if ((tempShape
== SL
) || (tempShape
== SD
) || (tempShape
== SC
))
976 if ((tempShape
== SL
) || (tempShape
== SD
) || (tempShape
== SC
))
989 if ((tempShape
== SL
) || (tempShape
== SD
) || (tempShape
== SC
)) {
990 tempShape
= (i
> 0 ?
STYPE(line
[i
-1].wc
) : SU
);
991 if ((tempShape
== SR
) || (tempShape
== SD
) || (tempShape
== SC
))
992 to
[i
].wc
= SMEDIAL((SISOLATED(line
[i
].wc
)));
994 to
[i
].wc
= SFINAL((SISOLATED(line
[i
].wc
)));
998 tempShape
= (i
> 0 ?
STYPE(line
[i
-1].wc
) : SU
);
999 if ((tempShape
== SR
) || (tempShape
== SD
) || (tempShape
== SC
))
1000 to
[i
].wc
= SINITIAL((SISOLATED(line
[i
].wc
)));
1002 to
[i
].wc
= SISOLATED(line
[i
].wc
);
1012 * The Main Bidi Function, and the only function that should
1013 * be used by the outside world.
1015 * line: a buffer of size count containing text to apply
1016 * the Bidirectional algorithm to.
1019 int do_bidi(bidi_char
*line
, int count
)
1021 unsigned char* types
;
1022 unsigned char* levels
;
1023 unsigned char paragraphLevel
;
1024 unsigned char currentEmbedding
;
1025 unsigned char currentOverride
;
1026 unsigned char tempType
;
1027 int i
, j
, imax
, yes
, bover
;
1029 /* Check the presence of R or AL types as optimization */
1031 for (i
=0; i
<count
; i
++) {
1032 int type
= getType(line
[i
].wc
);
1033 if (type
== R
|| type
== AL
) {
1041 /* Initialize types, levels */
1042 types
= snewn(count
, unsigned char);
1043 levels
= snewn(count
, unsigned char);
1045 /* Rule (P1) NOT IMPLEMENTED
1046 * P1. Split the text into separate paragraphs. A paragraph separator is
1047 * kept with the previous paragraph. Within each paragraph, apply all the
1048 * other rules of this algorithm.
1052 * P2. In each paragraph, find the first character of type L, AL, or R.
1053 * P3. If a character is found in P2 and it is of type AL or R, then set
1054 * the paragraph embedding level to one; otherwise, set it to zero.
1057 for (i
=0; i
<count
; i
++) {
1058 int type
= getType(line
[i
].wc
);
1059 if (type
== R
|| type
== AL
) {
1062 } else if (type
== L
)
1067 * X1. Begin by setting the current embedding level to the paragraph
1068 * embedding level. Set the directional override status to neutral.
1070 currentEmbedding
= paragraphLevel
;
1071 currentOverride
= ON
;
1073 /* Rule (X2), (X3), (X4), (X5), (X6), (X7), (X8)
1074 * X2. With each RLE, compute the least greater odd embedding level.
1075 * X3. With each LRE, compute the least greater even embedding level.
1076 * X4. With each RLO, compute the least greater odd embedding level.
1077 * X5. With each LRO, compute the least greater even embedding level.
1078 * X6. For all types besides RLE, LRE, RLO, LRO, and PDF:
1079 * a. Set the level of the current character to the current
1081 * b. Whenever the directional override status is not neutral,
1082 * reset the current character type to the directional
1084 * X7. With each PDF, determine the matching embedding or override code.
1085 * If there was a valid matching code, restore (pop) the last
1086 * remembered (pushed) embedding level and directional override.
1087 * X8. All explicit directional embeddings and overrides are completely
1088 * terminated at the end of each paragraph. Paragraph separators are not
1089 * included in the embedding. (Useless here) NOT IMPLEMENTED
1092 for (i
=0; i
<count
; i
++) {
1093 tempType
= getType(line
[i
].wc
);
1096 currentEmbedding
= levels
[i
] = leastGreaterOdd(currentEmbedding
);
1097 levels
[i
] = setOverrideBits(levels
[i
], currentOverride
);
1098 currentOverride
= ON
;
1102 currentEmbedding
= levels
[i
] = leastGreaterEven(currentEmbedding
);
1103 levels
[i
] = setOverrideBits(levels
[i
], currentOverride
);
1104 currentOverride
= ON
;
1108 currentEmbedding
= levels
[i
] = leastGreaterOdd(currentEmbedding
);
1109 tempType
= currentOverride
= R
;
1114 currentEmbedding
= levels
[i
] = leastGreaterEven(currentEmbedding
);
1115 tempType
= currentOverride
= L
;
1121 int prevlevel
= getPreviousLevel(levels
, i
);
1123 if (prevlevel
== -1) {
1124 currentEmbedding
= paragraphLevel
;
1125 currentOverride
= ON
;
1127 currentOverride
= currentEmbedding
& OMASK
;
1128 currentEmbedding
= currentEmbedding
& ~OMASK
;
1131 levels
[i
] = currentEmbedding
;
1134 /* Whitespace is treated as neutral for now */
1137 levels
[i
] = currentEmbedding
;
1139 if (currentOverride
!= ON
)
1140 tempType
= currentOverride
;
1144 levels
[i
] = currentEmbedding
;
1145 if (currentOverride
!= ON
)
1146 tempType
= currentOverride
;
1150 types
[i
] = tempType
;
1152 /* this clears out all overrides, so we can use levels safely... */
1153 /* checks bover first */
1155 for (i
=0; i
<count
; i
++)
1156 levels
[i
] = levels
[i
] & LMASK
;
1159 * X9. Remove all RLE, LRE, RLO, LRO, PDF, and BN codes.
1160 * Here, they're converted to BN.
1162 for (i
=0; i
<count
; i
++) {
1175 * W1. Examine each non-spacing mark (NSM) in the level run, and change
1176 * the type of the NSM to the type of the previous character. If the NSM
1177 * is at the start of the level run, it will get the type of sor.
1179 if (types
[0] == NSM
)
1180 types
[0] = paragraphLevel
;
1182 for (i
=1; i
<count
; i
++) {
1183 if (types
[i
] == NSM
)
1184 types
[i
] = types
[i
-1];
1185 /* Is this a safe assumption?
1186 * I assumed the previous, IS a character.
1191 * W2. Search backwards from each instance of a European number until the
1192 * first strong type (R, L, AL, or sor) is found. If an AL is found,
1193 * change the type of the European number to Arabic number.
1195 for (i
=0; i
<count
; i
++) {
1196 if (types
[i
] == EN
) {
1199 if (types
[j
] == AL
) {
1202 } else if (types
[j
] == R
|| types
[j
] == L
) {
1211 * W3. Change all ALs to R.
1213 * Optimization: on Rule Xn, we might set a flag on AL type
1214 * to prevent this loop in L R lines only...
1216 for (i
=0; i
<count
; i
++) {
1222 * W4. A single European separator between two European numbers changes
1223 * to a European number. A single common separator between two numbers
1224 * of the same type changes to that type.
1226 for (i
=1; i
<(count
-1); i
++) {
1227 if (types
[i
] == ES
) {
1228 if (types
[i
-1] == EN
&& types
[i
+1] == EN
)
1230 } else if (types
[i
] == CS
) {
1231 if (types
[i
-1] == EN
&& types
[i
+1] == EN
)
1233 else if (types
[i
-1] == AN
&& types
[i
+1] == AN
)
1239 * W5. A sequence of European terminators adjacent to European numbers
1240 * changes to all European numbers.
1242 * Optimization: lots here... else ifs need rearrangement
1244 for (i
=0; i
<count
; i
++) {
1245 if (types
[i
] == ET
) {
1246 if (i
> 0 && types
[i
-1] == EN
) {
1249 } else if (i
< count
-1 && types
[i
+1] == EN
) {
1252 } else if (i
< count
-1 && types
[i
+1] == ET
) {
1254 while (j
<count
&& types
[j
] == ET
) {
1264 * W6. Otherwise, separators and terminators change to Other Neutral:
1266 for (i
=0; i
<count
; i
++) {
1277 * W7. Search backwards from each instance of a European number until
1278 * the first strong type (R, L, or sor) is found. If an L is found,
1279 * then change the type of the European number to L.
1281 for (i
=0; i
<count
; i
++) {
1282 if (types
[i
] == EN
) {
1285 if (types
[j
] == L
) {
1288 } else if (types
[j
] == R
|| types
[j
] == AL
) {
1297 * N1. A sequence of neutrals takes the direction of the surrounding
1298 * strong text if the text on both sides has the same direction. European
1299 * and Arabic numbers are treated as though they were R.
1301 if (count
>= 2 && types
[0] == ON
) {
1302 if ((types
[1] == R
) || (types
[1] == EN
) || (types
[1] == AN
))
1304 else if (types
[1] == L
)
1307 for (i
=1; i
<(count
-1); i
++) {
1308 if (types
[i
] == ON
) {
1309 if (types
[i
-1] == L
) {
1311 while (j
<(count
-1) && types
[j
] == ON
) {
1314 if (types
[j
] == L
) {
1321 } else if ((types
[i
-1] == R
) ||
1322 (types
[i
-1] == EN
) ||
1323 (types
[i
-1] == AN
)) {
1325 while (j
<(count
-1) && types
[j
] == ON
) {
1328 if ((types
[j
] == R
) ||
1339 if (count
>= 2 && types
[count
-1] == ON
) {
1340 if (types
[count
-2] == R
|| types
[count
-2] == EN
|| types
[count
-2] == AN
)
1342 else if (types
[count
-2] == L
)
1347 * N2. Any remaining neutrals take the embedding direction.
1349 for (i
=0; i
<count
; i
++) {
1350 if (types
[i
] == ON
) {
1351 if ((levels
[i
] % 2) == 0)
1359 * I1. For all characters with an even (left-to-right) embedding
1360 * direction, those of type R go up one level and those of type AN or
1361 * EN go up two levels.
1363 for (i
=0; i
<count
; i
++) {
1364 if ((levels
[i
] % 2) == 0) {
1367 else if (types
[i
] == AN
|| types
[i
] == EN
)
1373 * I2. For all characters with an odd (right-to-left) embedding direction,
1374 * those of type L, EN or AN go up one level.
1376 for (i
=0; i
<count
; i
++) {
1377 if ((levels
[i
] % 2) == 1) {
1378 if (types
[i
] == L
|| types
[i
] == EN
|| types
[i
] == AN
)
1384 * L1. On each line, reset the embedding level of the following characters
1385 * to the paragraph embedding level:
1386 * (1)segment separators, (2)paragraph separators,
1387 * (3)any sequence of whitespace characters preceding
1388 * a segment separator or paragraph separator,
1389 * (4)and any sequence of white space characters
1390 * at the end of the line.
1391 * The types of characters used here are the original types, not those
1392 * modified by the previous phase.
1395 while (j
>0 && (getType(line
[j
].wc
) == WS
)) {
1398 if (j
< (count
-1)) {
1399 for (j
++; j
<count
; j
++)
1400 levels
[j
] = paragraphLevel
;
1402 for (i
=0; i
<count
; i
++) {
1403 tempType
= getType(line
[i
].wc
);
1404 if (tempType
== WS
) {
1406 while (j
<count
&& (getType(line
[j
].wc
) == WS
)) {
1409 if (j
==count
|| getType(line
[j
].wc
) == B
||
1410 getType(line
[j
].wc
) == S
) {
1411 for (j
--; j
>=i
; j
--) {
1412 levels
[j
] = paragraphLevel
;
1415 } else if (tempType
== B
|| tempType
== S
) {
1416 levels
[i
] = paragraphLevel
;
1420 /* Rule (L4) NOT IMPLEMENTED
1421 * L4. A character that possesses the mirrored property as specified by
1422 * Section 4.7, Mirrored, must be depicted by a mirrored glyph if the
1423 * resolved directionality of that character is R.
1425 /* Note: this is implemented before L2 for efficiency */
1426 for (i
=0; i
<count
; i
++)
1427 if ((levels
[i
] % 2) == 1)
1428 doMirror(&line
[i
].wc
);
1431 * L2. From the highest level found in the text to the lowest odd level on
1432 * each line, including intermediate levels not actually present in the
1433 * text, reverse any contiguous sequence of characters that are at that
1436 /* we flip the character string and leave the level array */
1439 tempType
= levels
[0];
1441 if (levels
[i
] > tempType
) {
1442 tempType
= levels
[i
];
1447 /* maximum level in tempType, its index in imax. */
1448 while (tempType
> 0) { /* loop from highest level to the least odd, */
1449 /* which i assume is 1 */
1450 flipThisRun(line
, levels
, tempType
, count
);
1454 /* Rule (L3) NOT IMPLEMENTED
1455 * L3. Combining marks applied to a right-to-left base character will at
1456 * this point precede their base character. If the rendering engine
1457 * expects them to follow the base characters in the final display
1458 * process, then the ordering of the marks and the base character must
1468 * Bad, Horrible function
1469 * takes a pointer to a character that is checked for
1470 * having a mirror glyph.
1472 void doMirror(wchar_t* ch
)
1474 if ((*ch
& 0xFF00) == 0) {
1476 case 0x0028: *ch
= 0x0029; break;
1477 case 0x0029: *ch
= 0x0028; break;
1478 case 0x003C: *ch
= 0x003E; break;
1479 case 0x003E: *ch
= 0x003C; break;
1480 case 0x005B: *ch
= 0x005D; break;
1481 case 0x005D: *ch
= 0x005B; break;
1482 case 0x007B: *ch
= 0x007D; break;
1483 case 0x007D: *ch
= 0x007B; break;
1484 case 0x00AB: *ch
= 0x00BB; break;
1485 case 0x00BB: *ch
= 0x00AB; break;
1487 } else if ((*ch
& 0xFF00) == 0x2000) {
1489 case 0x2039: *ch
= 0x203A; break;
1490 case 0x203A: *ch
= 0x2039; break;
1491 case 0x2045: *ch
= 0x2046; break;
1492 case 0x2046: *ch
= 0x2045; break;
1493 case 0x207D: *ch
= 0x207E; break;
1494 case 0x207E: *ch
= 0x207D; break;
1495 case 0x208D: *ch
= 0x208E; break;
1496 case 0x208E: *ch
= 0x208D; break;
1498 } else if ((*ch
& 0xFF00) == 0x2200) {
1500 case 0x2208: *ch
= 0x220B; break;
1501 case 0x2209: *ch
= 0x220C; break;
1502 case 0x220A: *ch
= 0x220D; break;
1503 case 0x220B: *ch
= 0x2208; break;
1504 case 0x220C: *ch
= 0x2209; break;
1505 case 0x220D: *ch
= 0x220A; break;
1506 case 0x2215: *ch
= 0x29F5; break;
1507 case 0x223C: *ch
= 0x223D; break;
1508 case 0x223D: *ch
= 0x223C; break;
1509 case 0x2243: *ch
= 0x22CD; break;
1510 case 0x2252: *ch
= 0x2253; break;
1511 case 0x2253: *ch
= 0x2252; break;
1512 case 0x2254: *ch
= 0x2255; break;
1513 case 0x2255: *ch
= 0x2254; break;
1514 case 0x2264: *ch
= 0x2265; break;
1515 case 0x2265: *ch
= 0x2264; break;
1516 case 0x2266: *ch
= 0x2267; break;
1517 case 0x2267: *ch
= 0x2266; break;
1518 case 0x2268: *ch
= 0x2269; break;
1519 case 0x2269: *ch
= 0x2268; break;
1520 case 0x226A: *ch
= 0x226B; break;
1521 case 0x226B: *ch
= 0x226A; break;
1522 case 0x226E: *ch
= 0x226F; break;
1523 case 0x226F: *ch
= 0x226E; break;
1524 case 0x2270: *ch
= 0x2271; break;
1525 case 0x2271: *ch
= 0x2270; break;
1526 case 0x2272: *ch
= 0x2273; break;
1527 case 0x2273: *ch
= 0x2272; break;
1528 case 0x2274: *ch
= 0x2275; break;
1529 case 0x2275: *ch
= 0x2274; break;
1530 case 0x2276: *ch
= 0x2277; break;
1531 case 0x2277: *ch
= 0x2276; break;
1532 case 0x2278: *ch
= 0x2279; break;
1533 case 0x2279: *ch
= 0x2278; break;
1534 case 0x227A: *ch
= 0x227B; break;
1535 case 0x227B: *ch
= 0x227A; break;
1536 case 0x227C: *ch
= 0x227D; break;
1537 case 0x227D: *ch
= 0x227C; break;
1538 case 0x227E: *ch
= 0x227F; break;
1539 case 0x227F: *ch
= 0x227E; break;
1540 case 0x2280: *ch
= 0x2281; break;
1541 case 0x2281: *ch
= 0x2280; break;
1542 case 0x2282: *ch
= 0x2283; break;
1543 case 0x2283: *ch
= 0x2282; break;
1544 case 0x2284: *ch
= 0x2285; break;
1545 case 0x2285: *ch
= 0x2284; break;
1546 case 0x2286: *ch
= 0x2287; break;
1547 case 0x2287: *ch
= 0x2286; break;
1548 case 0x2288: *ch
= 0x2289; break;
1549 case 0x2289: *ch
= 0x2288; break;
1550 case 0x228A: *ch
= 0x228B; break;
1551 case 0x228B: *ch
= 0x228A; break;
1552 case 0x228F: *ch
= 0x2290; break;
1553 case 0x2290: *ch
= 0x228F; break;
1554 case 0x2291: *ch
= 0x2292; break;
1555 case 0x2292: *ch
= 0x2291; break;
1556 case 0x2298: *ch
= 0x29B8; break;
1557 case 0x22A2: *ch
= 0x22A3; break;
1558 case 0x22A3: *ch
= 0x22A2; break;
1559 case 0x22A6: *ch
= 0x2ADE; break;
1560 case 0x22A8: *ch
= 0x2AE4; break;
1561 case 0x22A9: *ch
= 0x2AE3; break;
1562 case 0x22AB: *ch
= 0x2AE5; break;
1563 case 0x22B0: *ch
= 0x22B1; break;
1564 case 0x22B1: *ch
= 0x22B0; break;
1565 case 0x22B2: *ch
= 0x22B3; break;
1566 case 0x22B3: *ch
= 0x22B2; break;
1567 case 0x22B4: *ch
= 0x22B5; break;
1568 case 0x22B5: *ch
= 0x22B4; break;
1569 case 0x22B6: *ch
= 0x22B7; break;
1570 case 0x22B7: *ch
= 0x22B6; break;
1571 case 0x22C9: *ch
= 0x22CA; break;
1572 case 0x22CA: *ch
= 0x22C9; break;
1573 case 0x22CB: *ch
= 0x22CC; break;
1574 case 0x22CC: *ch
= 0x22CB; break;
1575 case 0x22CD: *ch
= 0x2243; break;
1576 case 0x22D0: *ch
= 0x22D1; break;
1577 case 0x22D1: *ch
= 0x22D0; break;
1578 case 0x22D6: *ch
= 0x22D7; break;
1579 case 0x22D7: *ch
= 0x22D6; break;
1580 case 0x22D8: *ch
= 0x22D9; break;
1581 case 0x22D9: *ch
= 0x22D8; break;
1582 case 0x22DA: *ch
= 0x22DB; break;
1583 case 0x22DB: *ch
= 0x22DA; break;
1584 case 0x22DC: *ch
= 0x22DD; break;
1585 case 0x22DD: *ch
= 0x22DC; break;
1586 case 0x22DE: *ch
= 0x22DF; break;
1587 case 0x22DF: *ch
= 0x22DE; break;
1588 case 0x22E0: *ch
= 0x22E1; break;
1589 case 0x22E1: *ch
= 0x22E0; break;
1590 case 0x22E2: *ch
= 0x22E3; break;
1591 case 0x22E3: *ch
= 0x22E2; break;
1592 case 0x22E4: *ch
= 0x22E5; break;
1593 case 0x22E5: *ch
= 0x22E4; break;
1594 case 0x22E6: *ch
= 0x22E7; break;
1595 case 0x22E7: *ch
= 0x22E6; break;
1596 case 0x22E8: *ch
= 0x22E9; break;
1597 case 0x22E9: *ch
= 0x22E8; break;
1598 case 0x22EA: *ch
= 0x22EB; break;
1599 case 0x22EB: *ch
= 0x22EA; break;
1600 case 0x22EC: *ch
= 0x22ED; break;
1601 case 0x22ED: *ch
= 0x22EC; break;
1602 case 0x22F0: *ch
= 0x22F1; break;
1603 case 0x22F1: *ch
= 0x22F0; break;
1604 case 0x22F2: *ch
= 0x22FA; break;
1605 case 0x22F3: *ch
= 0x22FB; break;
1606 case 0x22F4: *ch
= 0x22FC; break;
1607 case 0x22F6: *ch
= 0x22FD; break;
1608 case 0x22F7: *ch
= 0x22FE; break;
1609 case 0x22FA: *ch
= 0x22F2; break;
1610 case 0x22FB: *ch
= 0x22F3; break;
1611 case 0x22FC: *ch
= 0x22F4; break;
1612 case 0x22FD: *ch
= 0x22F6; break;
1613 case 0x22FE: *ch
= 0x22F7; break;
1615 } else if ((*ch
& 0xFF00) == 0x2300) {
1617 case 0x2308: *ch
= 0x2309; break;
1618 case 0x2309: *ch
= 0x2308; break;
1619 case 0x230A: *ch
= 0x230B; break;
1620 case 0x230B: *ch
= 0x230A; break;
1621 case 0x2329: *ch
= 0x232A; break;
1622 case 0x232A: *ch
= 0x2329; break;
1624 } else if ((*ch
& 0xFF00) == 0x2700) {
1626 case 0x2768: *ch
= 0x2769; break;
1627 case 0x2769: *ch
= 0x2768; break;
1628 case 0x276A: *ch
= 0x276B; break;
1629 case 0x276B: *ch
= 0x276A; break;
1630 case 0x276C: *ch
= 0x276D; break;
1631 case 0x276D: *ch
= 0x276C; break;
1632 case 0x276E: *ch
= 0x276F; break;
1633 case 0x276F: *ch
= 0x276E; break;
1634 case 0x2770: *ch
= 0x2771; break;
1635 case 0x2771: *ch
= 0x2770; break;
1636 case 0x2772: *ch
= 0x2773; break;
1637 case 0x2773: *ch
= 0x2772; break;
1638 case 0x2774: *ch
= 0x2775; break;
1639 case 0x2775: *ch
= 0x2774; break;
1640 case 0x27D5: *ch
= 0x27D6; break;
1641 case 0x27D6: *ch
= 0x27D5; break;
1642 case 0x27DD: *ch
= 0x27DE; break;
1643 case 0x27DE: *ch
= 0x27DD; break;
1644 case 0x27E2: *ch
= 0x27E3; break;
1645 case 0x27E3: *ch
= 0x27E2; break;
1646 case 0x27E4: *ch
= 0x27E5; break;
1647 case 0x27E5: *ch
= 0x27E4; break;
1648 case 0x27E6: *ch
= 0x27E7; break;
1649 case 0x27E7: *ch
= 0x27E6; break;
1650 case 0x27E8: *ch
= 0x27E9; break;
1651 case 0x27E9: *ch
= 0x27E8; break;
1652 case 0x27EA: *ch
= 0x27EB; break;
1653 case 0x27EB: *ch
= 0x27EA; break;
1655 } else if ((*ch
& 0xFF00) == 0x2900) {
1657 case 0x2983: *ch
= 0x2984; break;
1658 case 0x2984: *ch
= 0x2983; break;
1659 case 0x2985: *ch
= 0x2986; break;
1660 case 0x2986: *ch
= 0x2985; break;
1661 case 0x2987: *ch
= 0x2988; break;
1662 case 0x2988: *ch
= 0x2987; break;
1663 case 0x2989: *ch
= 0x298A; break;
1664 case 0x298A: *ch
= 0x2989; break;
1665 case 0x298B: *ch
= 0x298C; break;
1666 case 0x298C: *ch
= 0x298B; break;
1667 case 0x298D: *ch
= 0x2990; break;
1668 case 0x298E: *ch
= 0x298F; break;
1669 case 0x298F: *ch
= 0x298E; break;
1670 case 0x2990: *ch
= 0x298D; break;
1671 case 0x2991: *ch
= 0x2992; break;
1672 case 0x2992: *ch
= 0x2991; break;
1673 case 0x2993: *ch
= 0x2994; break;
1674 case 0x2994: *ch
= 0x2993; break;
1675 case 0x2995: *ch
= 0x2996; break;
1676 case 0x2996: *ch
= 0x2995; break;
1677 case 0x2997: *ch
= 0x2998; break;
1678 case 0x2998: *ch
= 0x2997; break;
1679 case 0x29B8: *ch
= 0x2298; break;
1680 case 0x29C0: *ch
= 0x29C1; break;
1681 case 0x29C1: *ch
= 0x29C0; break;
1682 case 0x29C4: *ch
= 0x29C5; break;
1683 case 0x29C5: *ch
= 0x29C4; break;
1684 case 0x29CF: *ch
= 0x29D0; break;
1685 case 0x29D0: *ch
= 0x29CF; break;
1686 case 0x29D1: *ch
= 0x29D2; break;
1687 case 0x29D2: *ch
= 0x29D1; break;
1688 case 0x29D4: *ch
= 0x29D5; break;
1689 case 0x29D5: *ch
= 0x29D4; break;
1690 case 0x29D8: *ch
= 0x29D9; break;
1691 case 0x29D9: *ch
= 0x29D8; break;
1692 case 0x29DA: *ch
= 0x29DB; break;
1693 case 0x29DB: *ch
= 0x29DA; break;
1694 case 0x29F5: *ch
= 0x2215; break;
1695 case 0x29F8: *ch
= 0x29F9; break;
1696 case 0x29F9: *ch
= 0x29F8; break;
1697 case 0x29FC: *ch
= 0x29FD; break;
1698 case 0x29FD: *ch
= 0x29FC; break;
1700 } else if ((*ch
& 0xFF00) == 0x2A00) {
1702 case 0x2A2B: *ch
= 0x2A2C; break;
1703 case 0x2A2C: *ch
= 0x2A2B; break;
1704 case 0x2A2D: *ch
= 0x2A2C; break;
1705 case 0x2A2E: *ch
= 0x2A2D; break;
1706 case 0x2A34: *ch
= 0x2A35; break;
1707 case 0x2A35: *ch
= 0x2A34; break;
1708 case 0x2A3C: *ch
= 0x2A3D; break;
1709 case 0x2A3D: *ch
= 0x2A3C; break;
1710 case 0x2A64: *ch
= 0x2A65; break;
1711 case 0x2A65: *ch
= 0x2A64; break;
1712 case 0x2A79: *ch
= 0x2A7A; break;
1713 case 0x2A7A: *ch
= 0x2A79; break;
1714 case 0x2A7D: *ch
= 0x2A7E; break;
1715 case 0x2A7E: *ch
= 0x2A7D; break;
1716 case 0x2A7F: *ch
= 0x2A80; break;
1717 case 0x2A80: *ch
= 0x2A7F; break;
1718 case 0x2A81: *ch
= 0x2A82; break;
1719 case 0x2A82: *ch
= 0x2A81; break;
1720 case 0x2A83: *ch
= 0x2A84; break;
1721 case 0x2A84: *ch
= 0x2A83; break;
1722 case 0x2A8B: *ch
= 0x2A8C; break;
1723 case 0x2A8C: *ch
= 0x2A8B; break;
1724 case 0x2A91: *ch
= 0x2A92; break;
1725 case 0x2A92: *ch
= 0x2A91; break;
1726 case 0x2A93: *ch
= 0x2A94; break;
1727 case 0x2A94: *ch
= 0x2A93; break;
1728 case 0x2A95: *ch
= 0x2A96; break;
1729 case 0x2A96: *ch
= 0x2A95; break;
1730 case 0x2A97: *ch
= 0x2A98; break;
1731 case 0x2A98: *ch
= 0x2A97; break;
1732 case 0x2A99: *ch
= 0x2A9A; break;
1733 case 0x2A9A: *ch
= 0x2A99; break;
1734 case 0x2A9B: *ch
= 0x2A9C; break;
1735 case 0x2A9C: *ch
= 0x2A9B; break;
1736 case 0x2AA1: *ch
= 0x2AA2; break;
1737 case 0x2AA2: *ch
= 0x2AA1; break;
1738 case 0x2AA6: *ch
= 0x2AA7; break;
1739 case 0x2AA7: *ch
= 0x2AA6; break;
1740 case 0x2AA8: *ch
= 0x2AA9; break;
1741 case 0x2AA9: *ch
= 0x2AA8; break;
1742 case 0x2AAA: *ch
= 0x2AAB; break;
1743 case 0x2AAB: *ch
= 0x2AAA; break;
1744 case 0x2AAC: *ch
= 0x2AAD; break;
1745 case 0x2AAD: *ch
= 0x2AAC; break;
1746 case 0x2AAF: *ch
= 0x2AB0; break;
1747 case 0x2AB0: *ch
= 0x2AAF; break;
1748 case 0x2AB3: *ch
= 0x2AB4; break;
1749 case 0x2AB4: *ch
= 0x2AB3; break;
1750 case 0x2ABB: *ch
= 0x2ABC; break;
1751 case 0x2ABC: *ch
= 0x2ABB; break;
1752 case 0x2ABD: *ch
= 0x2ABE; break;
1753 case 0x2ABE: *ch
= 0x2ABD; break;
1754 case 0x2ABF: *ch
= 0x2AC0; break;
1755 case 0x2AC0: *ch
= 0x2ABF; break;
1756 case 0x2AC1: *ch
= 0x2AC2; break;
1757 case 0x2AC2: *ch
= 0x2AC1; break;
1758 case 0x2AC3: *ch
= 0x2AC4; break;
1759 case 0x2AC4: *ch
= 0x2AC3; break;
1760 case 0x2AC5: *ch
= 0x2AC6; break;
1761 case 0x2AC6: *ch
= 0x2AC5; break;
1762 case 0x2ACD: *ch
= 0x2ACE; break;
1763 case 0x2ACE: *ch
= 0x2ACD; break;
1764 case 0x2ACF: *ch
= 0x2AD0; break;
1765 case 0x2AD0: *ch
= 0x2ACF; break;
1766 case 0x2AD1: *ch
= 0x2AD2; break;
1767 case 0x2AD2: *ch
= 0x2AD1; break;
1768 case 0x2AD3: *ch
= 0x2AD4; break;
1769 case 0x2AD4: *ch
= 0x2AD3; break;
1770 case 0x2AD5: *ch
= 0x2AD6; break;
1771 case 0x2AD6: *ch
= 0x2AD5; break;
1772 case 0x2ADE: *ch
= 0x22A6; break;
1773 case 0x2AE3: *ch
= 0x22A9; break;
1774 case 0x2AE4: *ch
= 0x22A8; break;
1775 case 0x2AE5: *ch
= 0x22AB; break;
1776 case 0x2AEC: *ch
= 0x2AED; break;
1777 case 0x2AED: *ch
= 0x2AEC; break;
1778 case 0x2AF7: *ch
= 0x2AF8; break;
1779 case 0x2AF8: *ch
= 0x2AF7; break;
1780 case 0x2AF9: *ch
= 0x2AFA; break;
1781 case 0x2AFA: *ch
= 0x2AF9; break;
1783 } else if ((*ch
& 0xFF00) == 0x3000) {
1785 case 0x3008: *ch
= 0x3009; break;
1786 case 0x3009: *ch
= 0x3008; break;
1787 case 0x300A: *ch
= 0x300B; break;
1788 case 0x300B: *ch
= 0x300A; break;
1789 case 0x300C: *ch
= 0x300D; break;
1790 case 0x300D: *ch
= 0x300C; break;
1791 case 0x300E: *ch
= 0x300F; break;
1792 case 0x300F: *ch
= 0x300E; break;
1793 case 0x3010: *ch
= 0x3011; break;
1794 case 0x3011: *ch
= 0x3010; break;
1795 case 0x3014: *ch
= 0x3015; break;
1796 case 0x3015: *ch
= 0x3014; break;
1797 case 0x3016: *ch
= 0x3017; break;
1798 case 0x3017: *ch
= 0x3016; break;
1799 case 0x3018: *ch
= 0x3019; break;
1800 case 0x3019: *ch
= 0x3018; break;
1801 case 0x301A: *ch
= 0x301B; break;
1802 case 0x301B: *ch
= 0x301A; break;
1804 } else if ((*ch
& 0xFF00) == 0xFF00) {
1806 case 0xFF08: *ch
= 0xFF09; break;
1807 case 0xFF09: *ch
= 0xFF08; break;
1808 case 0xFF1C: *ch
= 0xFF1E; break;
1809 case 0xFF1E: *ch
= 0xFF1C; break;
1810 case 0xFF3B: *ch
= 0xFF3D; break;
1811 case 0xFF3D: *ch
= 0xFF3B; break;
1812 case 0xFF5B: *ch
= 0xFF5D; break;
1813 case 0xFF5D: *ch
= 0xFF5B; break;
1814 case 0xFF5F: *ch
= 0xFF60; break;
1815 case 0xFF60: *ch
= 0xFF5F; break;
1816 case 0xFF62: *ch
= 0xFF63; break;
1817 case 0xFF63: *ch
= 0xFF62; break;
1827 int main(int argc
, char **argv
)
1829 static const struct { int type
; char *name
; } typetoname
[] = {
1830 #define TYPETONAME(X) { X , #X }
1854 for (i
= 1; i
< argc
; i
++) {
1855 unsigned long chr
= strtoul(argv
[i
], NULL
, 0);
1856 int type
= getType(chr
);
1857 assert(typetoname
[type
].type
== type
);
1858 printf("U+%04x: %s\n", chr
, typetoname
[type
].name
);