2016-11-19 22:46:35 +03:00
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/*
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* This is an implementation of wcwidth() and wcswidth() (defined in
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* IEEE Std 1002.1-2001) for Unicode.
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*
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* http://www.opengroup.org/onlinepubs/007904975/functions/wcwidth.html
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* http://www.opengroup.org/onlinepubs/007904975/functions/wcswidth.html
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*
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* In fixed-width output devices, Latin characters all occupy a single
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* "cell" position of equal width, whereas ideographic CJK characters
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* occupy two such cells. Interoperability between terminal-line
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* applications and (teletype-style) character terminals using the
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* UTF-8 encoding requires agreement on which character should advance
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* the cursor by how many cell positions. No established formal
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* standards exist at present on which Unicode character shall occupy
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* how many cell positions on character terminals. These routines are
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* a first attempt of defining such behavior based on simple rules
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* applied to data provided by the Unicode Consortium.
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*
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* For some graphical characters, the Unicode standard explicitly
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* defines a character-cell width via the definition of the East Asian
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* FullWidth (F), Wide (W), Half-width (H), and Narrow (Na) classes.
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* In all these cases, there is no ambiguity about which width a
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* terminal shall use. For characters in the East Asian Ambiguous (A)
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* class, the width choice depends purely on a preference of backward
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* compatibility with either historic CJK or Western practice.
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* Choosing single-width for these characters is easy to justify as
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* the appropriate long-term solution, as the CJK practice of
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* displaying these characters as double-width comes from historic
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* implementation simplicity (8-bit encoded characters were displayed
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* single-width and 16-bit ones double-width, even for Greek,
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* Cyrillic, etc.) and not any typographic considerations.
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*
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* Much less clear is the choice of width for the Not East Asian
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* (Neutral) class. Existing practice does not dictate a width for any
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* of these characters. It would nevertheless make sense
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* typographically to allocate two character cells to characters such
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* as for instance EM SPACE or VOLUME INTEGRAL, which cannot be
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* represented adequately with a single-width glyph. The following
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* routines at present merely assign a single-cell width to all
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* neutral characters, in the interest of simplicity. This is not
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* entirely satisfactory and should be reconsidered before
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* establishing a formal standard in this area. At the moment, the
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* decision which Not East Asian (Neutral) characters should be
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* represented by double-width glyphs cannot yet be answered by
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* applying a simple rule from the Unicode database content. Setting
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* up a proper standard for the behavior of UTF-8 character terminals
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* will require a careful analysis not only of each Unicode character,
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* but also of each presentation form, something the author of these
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* routines has avoided to do so far.
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*
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* http://www.unicode.org/unicode/reports/tr11/
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*
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* Markus Kuhn -- 2007-05-26 (Unicode 5.0)
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*
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* Permission to use, copy, modify, and distribute this software
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* for any purpose and without fee is hereby granted. The author
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* disclaims all warranties with regard to this software.
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*
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* Latest version: http://www.cl.cam.ac.uk/~mgk25/ucs/wcwidth.c
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*/
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2009-09-04 21:29:28 +04:00
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2016-08-29 00:51:31 +03:00
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#include <HsFFI.h>
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2020-03-03 01:05:40 +03:00
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#include <stdlib.h>
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#include <string.h>
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// The maximum size for a custom character width table is the total
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// number of possible characters as dictated by the compiler.
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#define MAX_CUSTOM_TABLE_SIZE (HS_CHAR_MAX + 1)
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2020-03-05 22:08:36 +03:00
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// The pointer to the start of the custom character width table, if
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// any. If this is NULL or this is set but the ready flag is false, the
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// built-in tree search logic is used.
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2020-03-03 01:05:40 +03:00
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static uint8_t* custom_table = NULL;
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2020-03-05 22:08:51 +03:00
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// The size of the custom table, in entries. This should only be set
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// if custom_table is not NULL. Its value should be the size of the
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// custom_table array.
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2020-03-03 01:05:40 +03:00
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static uint32_t custom_table_size = 0;
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2020-03-05 22:09:21 +03:00
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// A flag indicating whether the custom table is ready for
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// use. This should only be set once the table has been
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// allocated with vty_init_custom_table and initialized with
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// vty_set_custom_table_range.
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2020-03-03 01:05:40 +03:00
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static uint8_t custom_table_ready = 0;
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2016-11-19 22:46:35 +03:00
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struct interval {
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int first;
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int last;
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};
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/* auxiliary function for binary search in interval table */
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static int vty_bisearch(HsChar ucs, const struct interval *table, int max) {
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int min = 0;
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int mid;
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if (ucs < table[0].first || ucs > table[max].last)
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return 0;
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while (max >= min) {
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mid = (min + max) / 2;
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if (ucs > table[mid].last)
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min = mid + 1;
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else if (ucs < table[mid].first)
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max = mid - 1;
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else
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return 1;
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}
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return 0;
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}
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/* The following two functions define the column width of an ISO 10646
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* character as follows:
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*
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* - The null character (U+0000) has a column width of 0.
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*
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* - Other C0/C1 control characters and DEL will lead to a return
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* value of -1.
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*
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* - Non-spacing and enclosing combining characters (general
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* category code Mn or Me in the Unicode database) have a
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* column width of 0.
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*
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* - SOFT HYPHEN (U+00AD) has a column width of 1.
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*
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* - Other format characters (general category code Cf in the Unicode
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* database) and ZERO WIDTH SPACE (U+200B) have a column width of 0.
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*
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* - Hangul Jamo medial vowels and final consonants (U+1160-U+11FF)
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* have a column width of 0.
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*
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* - Spacing characters in the East Asian Wide (W) or East Asian
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* Full-width (F) category as defined in Unicode Technical
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* Report #11 have a column width of 2.
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*
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* - All remaining characters (including all printable
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* ISO 8859-1 and WGL4 characters, Unicode control characters,
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* etc.) have a column width of 1.
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*
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* This implementation assumes that wchar_t characters are encoded
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* in ISO 10646.
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*/
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2009-09-04 21:29:28 +04:00
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2020-03-06 01:18:02 +03:00
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static HsInt builtin_wcwidth(HsChar ucs)
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2009-09-04 21:29:28 +04:00
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{
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2016-11-19 22:46:35 +03:00
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/* sorted list of non-overlapping intervals of non-spacing characters */
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/* generated by "uniset +cat=Me +cat=Mn +cat=Cf -00AD +1160-11FF +200B c" */
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static const struct interval combining[] = {
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{ 0x0300, 0x036F }, { 0x0483, 0x0486 }, { 0x0488, 0x0489 },
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{ 0x0591, 0x05BD }, { 0x05BF, 0x05BF }, { 0x05C1, 0x05C2 },
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{ 0x05C4, 0x05C5 }, { 0x05C7, 0x05C7 }, { 0x0600, 0x0603 },
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{ 0x0610, 0x0615 }, { 0x064B, 0x065E }, { 0x0670, 0x0670 },
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{ 0x06D6, 0x06E4 }, { 0x06E7, 0x06E8 }, { 0x06EA, 0x06ED },
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{ 0x070F, 0x070F }, { 0x0711, 0x0711 }, { 0x0730, 0x074A },
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{ 0x07A6, 0x07B0 }, { 0x07EB, 0x07F3 }, { 0x0901, 0x0902 },
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{ 0x093C, 0x093C }, { 0x0941, 0x0948 }, { 0x094D, 0x094D },
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{ 0x0951, 0x0954 }, { 0x0962, 0x0963 }, { 0x0981, 0x0981 },
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{ 0x09BC, 0x09BC }, { 0x09C1, 0x09C4 }, { 0x09CD, 0x09CD },
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{ 0x09E2, 0x09E3 }, { 0x0A01, 0x0A02 }, { 0x0A3C, 0x0A3C },
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{ 0x0A41, 0x0A42 }, { 0x0A47, 0x0A48 }, { 0x0A4B, 0x0A4D },
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{ 0x0A70, 0x0A71 }, { 0x0A81, 0x0A82 }, { 0x0ABC, 0x0ABC },
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{ 0x0AC1, 0x0AC5 }, { 0x0AC7, 0x0AC8 }, { 0x0ACD, 0x0ACD },
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{ 0x0AE2, 0x0AE3 }, { 0x0B01, 0x0B01 }, { 0x0B3C, 0x0B3C },
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{ 0x0B3F, 0x0B3F }, { 0x0B41, 0x0B43 }, { 0x0B4D, 0x0B4D },
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{ 0x0B56, 0x0B56 }, { 0x0B82, 0x0B82 }, { 0x0BC0, 0x0BC0 },
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{ 0x0BCD, 0x0BCD }, { 0x0C3E, 0x0C40 }, { 0x0C46, 0x0C48 },
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{ 0x0C4A, 0x0C4D }, { 0x0C55, 0x0C56 }, { 0x0CBC, 0x0CBC },
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{ 0x0CBF, 0x0CBF }, { 0x0CC6, 0x0CC6 }, { 0x0CCC, 0x0CCD },
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{ 0x0CE2, 0x0CE3 }, { 0x0D41, 0x0D43 }, { 0x0D4D, 0x0D4D },
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{ 0x0DCA, 0x0DCA }, { 0x0DD2, 0x0DD4 }, { 0x0DD6, 0x0DD6 },
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{ 0x0E31, 0x0E31 }, { 0x0E34, 0x0E3A }, { 0x0E47, 0x0E4E },
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{ 0x0EB1, 0x0EB1 }, { 0x0EB4, 0x0EB9 }, { 0x0EBB, 0x0EBC },
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{ 0x0EC8, 0x0ECD }, { 0x0F18, 0x0F19 }, { 0x0F35, 0x0F35 },
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{ 0x0F37, 0x0F37 }, { 0x0F39, 0x0F39 }, { 0x0F71, 0x0F7E },
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{ 0x0F80, 0x0F84 }, { 0x0F86, 0x0F87 }, { 0x0F90, 0x0F97 },
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{ 0x0F99, 0x0FBC }, { 0x0FC6, 0x0FC6 }, { 0x102D, 0x1030 },
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{ 0x1032, 0x1032 }, { 0x1036, 0x1037 }, { 0x1039, 0x1039 },
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{ 0x1058, 0x1059 }, { 0x1160, 0x11FF }, { 0x135F, 0x135F },
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{ 0x1712, 0x1714 }, { 0x1732, 0x1734 }, { 0x1752, 0x1753 },
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{ 0x1772, 0x1773 }, { 0x17B4, 0x17B5 }, { 0x17B7, 0x17BD },
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{ 0x17C6, 0x17C6 }, { 0x17C9, 0x17D3 }, { 0x17DD, 0x17DD },
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{ 0x180B, 0x180D }, { 0x18A9, 0x18A9 }, { 0x1920, 0x1922 },
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{ 0x1927, 0x1928 }, { 0x1932, 0x1932 }, { 0x1939, 0x193B },
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{ 0x1A17, 0x1A18 }, { 0x1B00, 0x1B03 }, { 0x1B34, 0x1B34 },
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{ 0x1B36, 0x1B3A }, { 0x1B3C, 0x1B3C }, { 0x1B42, 0x1B42 },
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{ 0x1B6B, 0x1B73 }, { 0x1DC0, 0x1DCA }, { 0x1DFE, 0x1DFF },
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{ 0x200B, 0x200F }, { 0x202A, 0x202E }, { 0x2060, 0x2063 },
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{ 0x206A, 0x206F }, { 0x20D0, 0x20EF }, { 0x302A, 0x302F },
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{ 0x3099, 0x309A }, { 0xA806, 0xA806 }, { 0xA80B, 0xA80B },
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{ 0xA825, 0xA826 }, { 0xFB1E, 0xFB1E }, { 0xFE00, 0xFE0F },
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{ 0xFE20, 0xFE23 }, { 0xFEFF, 0xFEFF }, { 0xFFF9, 0xFFFB },
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{ 0x10A01, 0x10A03 }, { 0x10A05, 0x10A06 }, { 0x10A0C, 0x10A0F },
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{ 0x10A38, 0x10A3A }, { 0x10A3F, 0x10A3F }, { 0x1D167, 0x1D169 },
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{ 0x1D173, 0x1D182 }, { 0x1D185, 0x1D18B }, { 0x1D1AA, 0x1D1AD },
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{ 0x1D242, 0x1D244 }, { 0xE0001, 0xE0001 }, { 0xE0020, 0xE007F },
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{ 0xE0100, 0xE01EF }
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};
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/* test for 8-bit control characters */
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if (ucs == 0)
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return 0;
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if (ucs < 32 || (ucs >= 0x7f && ucs < 0xa0))
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return -1;
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/* binary search in table of non-spacing characters */
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if (vty_bisearch(ucs, combining,
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2020-02-28 20:22:29 +03:00
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sizeof(combining) / sizeof(struct interval) - 1))
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2016-11-19 22:46:35 +03:00
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return 0;
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/* if we arrive here, ucs is not a combining or C0/C1 control character */
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return 1 +
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(ucs >= 0x1100 &&
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(ucs <= 0x115f || /* Hangul Jamo init. consonants */
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ucs == 0x2329 || ucs == 0x232a ||
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(ucs >= 0x2e80 && ucs <= 0xa4cf &&
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ucs != 0x303f) || /* CJK ... Yi */
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(ucs >= 0xac00 && ucs <= 0xd7a3) || /* Hangul Syllables */
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(ucs >= 0xf900 && ucs <= 0xfaff) || /* CJK Compatibility Ideographs */
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(ucs >= 0xfe10 && ucs <= 0xfe19) || /* Vertical forms */
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(ucs >= 0xfe30 && ucs <= 0xfe6f) || /* CJK Compatibility Forms */
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(ucs >= 0xff00 && ucs <= 0xff60) || /* Fullwidth Forms */
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(ucs >= 0xffe0 && ucs <= 0xffe6) ||
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(ucs >= 0x20000 && ucs <= 0x2fffd) ||
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(ucs >= 0x30000 && ucs <= 0x3fffd)));
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2009-09-04 21:29:28 +04:00
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}
|
2020-03-03 01:05:40 +03:00
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// Return the width, in terminal cells, of the specified character.
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//
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// If the global custom width table is present, that table will be
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// consulted for the character's width. If the character is not in
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// the table, zero will be returned. If the custom width table is not
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// present, the built-in width table will be used.
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HsInt vty_mk_wcwidth(HsChar ch)
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{
|
2020-03-06 01:18:30 +03:00
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if (custom_table_ready) {
|
2020-03-05 22:07:08 +03:00
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if ((ch >= 0) && (ch < custom_table_size)) {
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2020-03-03 01:05:40 +03:00
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return custom_table[ch];
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} else {
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2020-03-06 01:18:40 +03:00
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return -1;
|
2020-03-03 01:05:40 +03:00
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}
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} else {
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return builtin_wcwidth(ch);
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}
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}
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// Initialize a custom character width table.
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//
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// This allocates a new character width table of the specified size
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// (in characters). If a custom table has already been allocated, this
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// returns 1. Otherwise it allocates a new table, initializes all of its
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// entries to zero, and returns zero.
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//
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// Note that this does *not* mark the table as ready for use. Until the
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// table is marked ready, it will not be used by vty_mk_wcwidth. To mark
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// the table as ready, call vty_activate_custom_table() after the table
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// has been set up with calls to vty_set_custom_table_range.
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int vty_init_custom_table(int size)
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{
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if (custom_table == NULL) {
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if (size > 0 && size <= MAX_CUSTOM_TABLE_SIZE) {
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custom_table_ready = 0;
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custom_table = malloc(size);
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bzero(custom_table, size);
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custom_table_size = size;
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return 0;
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} else {
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return 1;
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}
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} else {
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return 1;
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}
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}
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// Set the specified character range in the custom width table to the
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// specified width.
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//
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// This function sets 'width' as the character width for all entries
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// in the custom character table starting at the 'start' entry and
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// including all entries up to and including 'start + size - 1'.
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//
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// If this succeeds, it returns zero. If it fails, it returns 1. It
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// fails if the table is not allocated, marked as ready (i.e. it is in
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// use and has already been populated), or if the start or size values
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// are not in bounds for the table.
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int vty_set_custom_table_range(uint32_t start, uint32_t size, uint8_t width)
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{
|
2020-03-05 22:06:01 +03:00
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if ((custom_table == NULL) ||
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((start + size - 1) >= custom_table_size) ||
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custom_table_ready) {
|
2020-03-03 01:05:40 +03:00
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|
return 1;
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|
} else {
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|
memset(custom_table + start, (uint8_t) width, size);
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|
return 0;
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|
}
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}
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// Mark the allocated custom character width table as ready for use.
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|
//
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|
|
// After this call, further calls to vty_set_custom_table_range will
|
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|
|
// fail.
|
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|
|
//
|
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|
|
// This function returns 0 if it succeeds. If it fails, it returns 1.
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|
|
// It fails if the custom table is already ready or if it has not been
|
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|
// allocated.
|
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|
|
int vty_activate_custom_table()
|
|
|
|
{
|
|
|
|
if (custom_table_ready || (custom_table == NULL)) {
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|
|
|
return 1;
|
|
|
|
} else {
|
|
|
|
custom_table_ready = 1;
|
|
|
|
return 0;
|
|
|
|
}
|
|
|
|
}
|
|
|
|
|
|
|
|
// Returns whether a custom character width table has been marked ready.
|
|
|
|
int vty_custom_table_ready()
|
|
|
|
{
|
|
|
|
return ((custom_table != NULL) && custom_table_ready);
|
|
|
|
}
|
2020-03-04 03:17:02 +03:00
|
|
|
|
|
|
|
// Deallocate the custom width table.
|
|
|
|
//
|
|
|
|
// This does nothing if there is no allocated custom width table, or if
|
|
|
|
// there is one but it is in use (marked ready). This is only useful if
|
|
|
|
// an initial allocation succeeds, but range population fails, after
|
|
|
|
// which point the application may want to deallocate the table to avoid
|
|
|
|
// leaving it in an intermediate state.
|
|
|
|
void vty_deallocate_custom_table()
|
|
|
|
{
|
|
|
|
if ((custom_table != NULL) && (!custom_table_ready)) {
|
|
|
|
free(custom_table);
|
|
|
|
custom_table = NULL;
|
|
|
|
}
|
|
|
|
}
|