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|
/* vi:set ts=8 sts=4 sw=4 noet:
*
* VIM - Vi IMproved by Bram Moolenaar
* Multibyte extensions partly by Sung-Hoon Baek
*
* Do ":help uganda" in Vim to read copying and usage conditions.
* Do ":help credits" in Vim to see a list of people who contributed.
* See README.txt for an overview of the Vim source code.
*/
/*
* mbyte.c: Code specifically for handling multi-byte characters.
*
* The encoding used in the core is set with 'encoding'. When 'encoding' is
* changed, the following four variables are set (for speed).
* Currently these types of character encodings are supported:
*
* "enc_dbcs" When non-zero it tells the type of double byte character
* encoding (Chinese, Korean, Japanese, etc.).
* The cell width on the display is equal to the number of
* bytes. (exception: DBCS_JPNU with first byte 0x8e)
* Recognizing the first or second byte is difficult, it
* requires checking a byte sequence from the start.
* "enc_utf8" When TRUE use Unicode characters in UTF-8 encoding.
* The cell width on the display needs to be determined from
* the character value.
* Recognizing bytes is easy: 0xxx.xxxx is a single-byte
* char, 10xx.xxxx is a trailing byte, 11xx.xxxx is a leading
* byte of a multi-byte character.
* To make things complicated, up to six composing characters
* are allowed. These are drawn on top of the first char.
* For most editing the sequence of bytes with composing
* characters included is considered to be one character.
* "enc_unicode" When 2 use 16-bit Unicode characters (or UTF-16).
* When 4 use 32-but Unicode characters.
* Internally characters are stored in UTF-8 encoding to
* avoid NUL bytes. Conversion happens when doing I/O.
* "enc_utf8" will also be TRUE.
*
* "has_mbyte" is set when "enc_dbcs" or "enc_utf8" is non-zero.
*
* If none of these is TRUE, 8-bit bytes are used for a character. The
* encoding isn't currently specified (TODO).
*
* 'encoding' specifies the encoding used in the core. This is in registers,
* text manipulation, buffers, etc. Conversion has to be done when characters
* in another encoding are received or send:
*
* clipboard
* ^
* | (2)
* V
* +---------------+
* (1) | | (3)
* keyboard ----->| core |-----> display
* | |
* +---------------+
* ^
* | (4)
* V
* file
*
* (1) Typed characters arrive in the current locale. Conversion is to be
* done when 'encoding' is different from 'termencoding'.
* (2) Text will be made available with the encoding specified with
* 'encoding'. If this is not sufficient, system-specific conversion
* might be required.
* (3) For the GUI the correct font must be selected, no conversion done.
* Otherwise, conversion is to be done when 'encoding' differs from
* 'termencoding'. (Different in the GTK+ 2 port -- 'termencoding'
* is always used for both input and output and must always be set to
* "utf-8". gui_mch_init() does this automatically.)
* (4) The encoding of the file is specified with 'fileencoding'. Conversion
* is to be done when it's different from 'encoding'.
*
* The viminfo file is a special case: Only text is converted, not file names.
* Vim scripts may contain an ":encoding" command. This has an effect for
* some commands, like ":menutrans"
*/
#include "vim.h"
#ifdef WIN32UNIX
# ifndef WIN32_LEAN_AND_MEAN
# define WIN32_LEAN_AND_MEAN
# endif
# if defined(FEAT_GUI) || defined(FEAT_XCLIPBOARD)
# include <X11/Xwindows.h>
# define WINBYTE wBYTE
# else
# include <windows.h>
# define WINBYTE BYTE
# endif
# ifdef WIN32
# undef WIN32 // Some windows.h define WIN32, we don't want that here.
# endif
#else
# define WINBYTE BYTE
#endif
#if (defined(MSWIN) || defined(WIN32UNIX)) && !defined(__MINGW32__)
# include <winnls.h>
#endif
#ifdef FEAT_GUI_X11
# include <X11/Intrinsic.h>
#endif
#ifdef X_LOCALE
# include <X11/Xlocale.h>
# if !defined(HAVE_MBLEN) && !defined(mblen)
# define mblen _Xmblen
# endif
#endif
#ifdef HAVE_WCHAR_H
# include <wchar.h>
#endif
#if 0
// This has been disabled, because several people reported problems with the
// wcwidth() and iswprint() library functions, esp. for Hebrew.
# ifdef __STDC_ISO_10646__
# define USE_WCHAR_FUNCTIONS
# endif
#endif
static int dbcs_char2len(int c);
static int dbcs_char2bytes(int c, char_u *buf);
static int dbcs_ptr2len(char_u *p);
static int dbcs_ptr2len_len(char_u *p, int size);
static int utf_ptr2cells_len(char_u *p, int size);
static int dbcs_char2cells(int c);
static int dbcs_ptr2cells_len(char_u *p, int size);
static int dbcs_ptr2char(char_u *p);
static int dbcs_head_off(char_u *base, char_u *p);
#ifdef FEAT_EVAL
static int cw_value(int c);
#endif
/*
* Lookup table to quickly get the length in bytes of a UTF-8 character from
* the first byte of a UTF-8 string.
* Bytes which are illegal when used as the first byte have a 1.
* The NUL byte has length 1.
*/
static char utf8len_tab[256] =
{
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,
2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,
3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,4,4,4,4,4,4,4,4,5,5,5,5,6,6,1,1,
};
/*
* Like utf8len_tab above, but using a zero for illegal lead bytes.
*/
static char utf8len_tab_zero[256] =
{
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,
1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,
3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,3,4,4,4,4,4,4,4,4,5,5,5,5,6,6,0,0,
};
/*
* Canonical encoding names and their properties.
* "iso-8859-n" is handled by enc_canonize() directly.
*/
static struct
{ char *name; int prop; int codepage;}
enc_canon_table[] =
{
#define IDX_LATIN_1 0
{"latin1", ENC_8BIT + ENC_LATIN1, 1252},
#define IDX_ISO_2 1
{"iso-8859-2", ENC_8BIT, 0},
#define IDX_ISO_3 2
{"iso-8859-3", ENC_8BIT, 0},
#define IDX_ISO_4 3
{"iso-8859-4", ENC_8BIT, 0},
#define IDX_ISO_5 4
{"iso-8859-5", ENC_8BIT, 0},
#define IDX_ISO_6 5
{"iso-8859-6", ENC_8BIT, 0},
#define IDX_ISO_7 6
{"iso-8859-7", ENC_8BIT, 0},
#define IDX_ISO_8 7
{"iso-8859-8", ENC_8BIT, 0},
#define IDX_ISO_9 8
{"iso-8859-9", ENC_8BIT, 0},
#define IDX_ISO_10 9
{"iso-8859-10", ENC_8BIT, 0},
#define IDX_ISO_11 10
{"iso-8859-11", ENC_8BIT, 0},
#define IDX_ISO_13 11
{"iso-8859-13", ENC_8BIT, 0},
#define IDX_ISO_14 12
{"iso-8859-14", ENC_8BIT, 0},
#define IDX_ISO_15 13
{"iso-8859-15", ENC_8BIT + ENC_LATIN9, 0},
#define IDX_KOI8_R 14
{"koi8-r", ENC_8BIT, 0},
#define IDX_KOI8_U 15
{"koi8-u", ENC_8BIT, 0},
#define IDX_UTF8 16
{"utf-8", ENC_UNICODE, 0},
#define IDX_UCS2 17
{"ucs-2", ENC_UNICODE + ENC_ENDIAN_B + ENC_2BYTE, 0},
#define IDX_UCS2LE 18
{"ucs-2le", ENC_UNICODE + ENC_ENDIAN_L + ENC_2BYTE, 0},
#define IDX_UTF16 19
{"utf-16", ENC_UNICODE + ENC_ENDIAN_B + ENC_2WORD, 0},
#define IDX_UTF16LE 20
{"utf-16le", ENC_UNICODE + ENC_ENDIAN_L + ENC_2WORD, 0},
#define IDX_UCS4 21
{"ucs-4", ENC_UNICODE + ENC_ENDIAN_B + ENC_4BYTE, 0},
#define IDX_UCS4LE 22
{"ucs-4le", ENC_UNICODE + ENC_ENDIAN_L + ENC_4BYTE, 0},
// For debugging DBCS encoding on Unix.
#define IDX_DEBUG 23
{"debug", ENC_DBCS, DBCS_DEBUG},
#define IDX_EUC_JP 24
{"euc-jp", ENC_DBCS, DBCS_JPNU},
#define IDX_SJIS 25
{"sjis", ENC_DBCS, DBCS_JPN},
#define IDX_EUC_KR 26
{"euc-kr", ENC_DBCS, DBCS_KORU},
#define IDX_EUC_CN 27
{"euc-cn", ENC_DBCS, DBCS_CHSU},
#define IDX_EUC_TW 28
{"euc-tw", ENC_DBCS, DBCS_CHTU},
#define IDX_BIG5 29
{"big5", ENC_DBCS, DBCS_CHT},
// MS-DOS and MS-Windows codepages are included here, so that they can be
// used on Unix too. Most of them are similar to ISO-8859 encodings, but
// not exactly the same.
#define IDX_CP437 30
{"cp437", ENC_8BIT, 437}, // like iso-8859-1
#define IDX_CP737 31
{"cp737", ENC_8BIT, 737}, // like iso-8859-7
#define IDX_CP775 32
{"cp775", ENC_8BIT, 775}, // Baltic
#define IDX_CP850 33
{"cp850", ENC_8BIT, 850}, // like iso-8859-4
#define IDX_CP852 34
{"cp852", ENC_8BIT, 852}, // like iso-8859-1
#define IDX_CP855 35
{"cp855", ENC_8BIT, 855}, // like iso-8859-2
#define IDX_CP857 36
{"cp857", ENC_8BIT, 857}, // like iso-8859-5
#define IDX_CP860 37
{"cp860", ENC_8BIT, 860}, // like iso-8859-9
#define IDX_CP861 38
{"cp861", ENC_8BIT, 861}, // like iso-8859-1
#define IDX_CP862 39
{"cp862", ENC_8BIT, 862}, // like iso-8859-1
#define IDX_CP863 40
{"cp863", ENC_8BIT, 863}, // like iso-8859-8
#define IDX_CP865 41
{"cp865", ENC_8BIT, 865}, // like iso-8859-1
#define IDX_CP866 42
{"cp866", ENC_8BIT, 866}, // like iso-8859-5
#define IDX_CP869 43
{"cp869", ENC_8BIT, 869}, // like iso-8859-7
#define IDX_CP874 44
{"cp874", ENC_8BIT, 874}, // Thai
#define IDX_CP932 45
{"cp932", ENC_DBCS, DBCS_JPN},
#define IDX_CP936 46
{"cp936", ENC_DBCS, DBCS_CHS},
#define IDX_CP949 47
{"cp949", ENC_DBCS, DBCS_KOR},
#define IDX_CP950 48
{"cp950", ENC_DBCS, DBCS_CHT},
#define IDX_CP1250 49
{"cp1250", ENC_8BIT, 1250}, // Czech, Polish, etc.
#define IDX_CP1251 50
{"cp1251", ENC_8BIT, 1251}, // Cyrillic
// cp1252 is considered to be equal to latin1
#define IDX_CP1253 51
{"cp1253", ENC_8BIT, 1253}, // Greek
#define IDX_CP1254 52
{"cp1254", ENC_8BIT, 1254}, // Turkish
#define IDX_CP1255 53
{"cp1255", ENC_8BIT, 1255}, // Hebrew
#define IDX_CP1256 54
{"cp1256", ENC_8BIT, 1256}, // Arabic
#define IDX_CP1257 55
{"cp1257", ENC_8BIT, 1257}, // Baltic
#define IDX_CP1258 56
{"cp1258", ENC_8BIT, 1258}, // Vietnamese
#define IDX_MACROMAN 57
{"macroman", ENC_8BIT + ENC_MACROMAN, 0}, // Mac OS
#define IDX_DECMCS 58
{"dec-mcs", ENC_8BIT, 0}, // DEC MCS
#define IDX_HPROMAN8 59
{"hp-roman8", ENC_8BIT, 0}, // HP Roman8
#define IDX_COUNT 60
};
/*
* Aliases for encoding names.
*/
static struct
{ char *name; int canon;}
enc_alias_table[] =
{
{"ansi", IDX_LATIN_1},
{"iso-8859-1", IDX_LATIN_1},
{"latin2", IDX_ISO_2},
{"latin3", IDX_ISO_3},
{"latin4", IDX_ISO_4},
{"cyrillic", IDX_ISO_5},
{"arabic", IDX_ISO_6},
{"greek", IDX_ISO_7},
#ifdef MSWIN
{"hebrew", IDX_CP1255},
#else
{"hebrew", IDX_ISO_8},
#endif
{"latin5", IDX_ISO_9},
{"turkish", IDX_ISO_9}, // ?
{"latin6", IDX_ISO_10},
{"nordic", IDX_ISO_10}, // ?
{"thai", IDX_ISO_11}, // ?
{"latin7", IDX_ISO_13},
{"latin8", IDX_ISO_14},
{"latin9", IDX_ISO_15},
{"utf8", IDX_UTF8},
{"unicode", IDX_UCS2},
{"ucs2", IDX_UCS2},
{"ucs2be", IDX_UCS2},
{"ucs-2be", IDX_UCS2},
{"ucs2le", IDX_UCS2LE},
{"utf16", IDX_UTF16},
{"utf16be", IDX_UTF16},
{"utf-16be", IDX_UTF16},
{"utf16le", IDX_UTF16LE},
{"ucs4", IDX_UCS4},
{"ucs4be", IDX_UCS4},
{"ucs-4be", IDX_UCS4},
{"ucs4le", IDX_UCS4LE},
{"utf32", IDX_UCS4},
{"utf-32", IDX_UCS4},
{"utf32be", IDX_UCS4},
{"utf-32be", IDX_UCS4},
{"utf32le", IDX_UCS4LE},
{"utf-32le", IDX_UCS4LE},
{"932", IDX_CP932},
{"949", IDX_CP949},
{"936", IDX_CP936},
{"gbk", IDX_CP936},
{"950", IDX_CP950},
{"eucjp", IDX_EUC_JP},
{"unix-jis", IDX_EUC_JP},
{"ujis", IDX_EUC_JP},
{"shift-jis", IDX_SJIS},
{"pck", IDX_SJIS}, // Sun: PCK
{"euckr", IDX_EUC_KR},
{"5601", IDX_EUC_KR}, // Sun: KS C 5601
{"euccn", IDX_EUC_CN},
{"gb2312", IDX_EUC_CN},
{"euctw", IDX_EUC_TW},
#if defined(MSWIN) || defined(WIN32UNIX) || defined(MACOS_X)
{"japan", IDX_CP932},
{"korea", IDX_CP949},
{"prc", IDX_CP936},
{"chinese", IDX_CP936},
{"taiwan", IDX_CP950},
{"big5", IDX_CP950},
#else
{"japan", IDX_EUC_JP},
{"korea", IDX_EUC_KR},
{"prc", IDX_EUC_CN},
{"chinese", IDX_EUC_CN},
{"taiwan", IDX_EUC_TW},
{"cp950", IDX_BIG5},
{"950", IDX_BIG5},
#endif
{"mac", IDX_MACROMAN},
{"mac-roman", IDX_MACROMAN},
{NULL, 0}
};
#ifndef CP_UTF8
# define CP_UTF8 65001 // magic number from winnls.h
#endif
/*
* Find encoding "name" in the list of canonical encoding names.
* Returns -1 if not found.
*/
static int
enc_canon_search(char_u *name)
{
int i;
for (i = 0; i < IDX_COUNT; ++i)
if (STRCMP(name, enc_canon_table[i].name) == 0)
return i;
return -1;
}
/*
* Find canonical encoding "name" in the list and return its properties.
* Returns 0 if not found.
*/
int
enc_canon_props(char_u *name)
{
int i;
i = enc_canon_search(name);
if (i >= 0)
return enc_canon_table[i].prop;
#ifdef MSWIN
if (name[0] == 'c' && name[1] == 'p' && VIM_ISDIGIT(name[2]))
{
CPINFO cpinfo;
// Get info on this codepage to find out what it is.
if (GetCPInfo(atoi((char *)name + 2), &cpinfo) != 0)
{
if (cpinfo.MaxCharSize == 1) // some single-byte encoding
return ENC_8BIT;
if (cpinfo.MaxCharSize == 2
&& (cpinfo.LeadByte[0] != 0 || cpinfo.LeadByte[1] != 0))
// must be a DBCS encoding
return ENC_DBCS;
}
return 0;
}
#endif
if (STRNCMP(name, "2byte-", 6) == 0)
return ENC_DBCS;
if (STRNCMP(name, "8bit-", 5) == 0 || STRNCMP(name, "iso-8859-", 9) == 0)
return ENC_8BIT;
return 0;
}
/*
* Set up for using multi-byte characters.
* Called in three cases:
* - by main() to initialize (p_enc == NULL)
* - by set_init_1() after 'encoding' was set to its default.
* - by do_set() when 'encoding' has been set.
* p_enc must have been passed through enc_canonize() already.
* Sets the "enc_unicode", "enc_utf8", "enc_dbcs" and "has_mbyte" flags.
* Fills mb_bytelen_tab[] and returns NULL when there are no problems.
* When there is something wrong: Returns an error message and doesn't change
* anything.
*/
char *
mb_init(void)
{
int i;
int idx;
int n;
int enc_dbcs_new = 0;
#if defined(USE_ICONV) && !defined(MSWIN) && !defined(WIN32UNIX) \
&& !defined(MACOS_CONVERT)
# define LEN_FROM_CONV
vimconv_T vimconv;
char_u *p;
#endif
if (p_enc == NULL)
{
// Just starting up: set the whole table to one's.
for (i = 0; i < 256; ++i)
mb_bytelen_tab[i] = 1;
input_conv.vc_type = CONV_NONE;
input_conv.vc_factor = 1;
output_conv.vc_type = CONV_NONE;
return NULL;
}
#ifdef MSWIN
if (p_enc[0] == 'c' && p_enc[1] == 'p' && VIM_ISDIGIT(p_enc[2]))
{
CPINFO cpinfo;
// Get info on this codepage to find out what it is.
if (GetCPInfo(atoi((char *)p_enc + 2), &cpinfo) != 0)
{
if (cpinfo.MaxCharSize == 1)
{
// some single-byte encoding
enc_unicode = 0;
enc_utf8 = FALSE;
}
else if (cpinfo.MaxCharSize == 2
&& (cpinfo.LeadByte[0] != 0 || cpinfo.LeadByte[1] != 0))
{
// must be a DBCS encoding, check below
enc_dbcs_new = atoi((char *)p_enc + 2);
}
else
goto codepage_invalid;
}
else if (GetLastError() == ERROR_INVALID_PARAMETER)
{
codepage_invalid:
return N_("E543: Not a valid codepage");
}
}
#endif
else if (STRNCMP(p_enc, "8bit-", 5) == 0
|| STRNCMP(p_enc, "iso-8859-", 9) == 0)
{
// Accept any "8bit-" or "iso-8859-" name.
enc_unicode = 0;
enc_utf8 = FALSE;
}
else if (STRNCMP(p_enc, "2byte-", 6) == 0)
{
#ifdef MSWIN
// Windows: accept only valid codepage numbers, check below.
if (p_enc[6] != 'c' || p_enc[7] != 'p'
|| (enc_dbcs_new = atoi((char *)p_enc + 8)) == 0)
return e_invarg;
#else
// Unix: accept any "2byte-" name, assume current locale.
enc_dbcs_new = DBCS_2BYTE;
#endif
}
else if ((idx = enc_canon_search(p_enc)) >= 0)
{
i = enc_canon_table[idx].prop;
if (i & ENC_UNICODE)
{
// Unicode
enc_utf8 = TRUE;
if (i & (ENC_2BYTE | ENC_2WORD))
enc_unicode = 2;
else if (i & ENC_4BYTE)
enc_unicode = 4;
else
enc_unicode = 0;
}
else if (i & ENC_DBCS)
{
// 2byte, handle below
enc_dbcs_new = enc_canon_table[idx].codepage;
}
else
{
// Must be 8-bit.
enc_unicode = 0;
enc_utf8 = FALSE;
}
}
else // Don't know what encoding this is, reject it.
return e_invarg;
if (enc_dbcs_new != 0)
{
#ifdef MSWIN
// Check if the DBCS code page is OK.
if (!IsValidCodePage(enc_dbcs_new))
goto codepage_invalid;
#endif
enc_unicode = 0;
enc_utf8 = FALSE;
}
enc_dbcs = enc_dbcs_new;
has_mbyte = (enc_dbcs != 0 || enc_utf8);
#if defined(MSWIN) || defined(FEAT_CYGWIN_WIN32_CLIPBOARD)
enc_codepage = encname2codepage(p_enc);
enc_latin9 = (STRCMP(p_enc, "iso-8859-15") == 0);
#endif
// Detect an encoding that uses latin1 characters.
enc_latin1like = (enc_utf8 || STRCMP(p_enc, "latin1") == 0
|| STRCMP(p_enc, "iso-8859-15") == 0);
/*
* Set the function pointers.
*/
if (enc_utf8)
{
mb_ptr2len = utfc_ptr2len;
mb_ptr2len_len = utfc_ptr2len_len;
mb_char2len = utf_char2len;
mb_char2bytes = utf_char2bytes;
mb_ptr2cells = utf_ptr2cells;
mb_ptr2cells_len = utf_ptr2cells_len;
mb_char2cells = utf_char2cells;
mb_off2cells = utf_off2cells;
mb_ptr2char = utf_ptr2char;
mb_head_off = utf_head_off;
}
else if (enc_dbcs != 0)
{
mb_ptr2len = dbcs_ptr2len;
mb_ptr2len_len = dbcs_ptr2len_len;
mb_char2len = dbcs_char2len;
mb_char2bytes = dbcs_char2bytes;
mb_ptr2cells = dbcs_ptr2cells;
mb_ptr2cells_len = dbcs_ptr2cells_len;
mb_char2cells = dbcs_char2cells;
mb_off2cells = dbcs_off2cells;
mb_ptr2char = dbcs_ptr2char;
mb_head_off = dbcs_head_off;
}
else
{
mb_ptr2len = latin_ptr2len;
mb_ptr2len_len = latin_ptr2len_len;
mb_char2len = latin_char2len;
mb_char2bytes = latin_char2bytes;
mb_ptr2cells = latin_ptr2cells;
mb_ptr2cells_len = latin_ptr2cells_len;
mb_char2cells = latin_char2cells;
mb_off2cells = latin_off2cells;
mb_ptr2char = latin_ptr2char;
mb_head_off = latin_head_off;
}
/*
* Fill the mb_bytelen_tab[] for MB_BYTE2LEN().
*/
#ifdef LEN_FROM_CONV
// When 'encoding' is different from the current locale mblen() won't
// work. Use conversion to "utf-8" instead.
vimconv.vc_type = CONV_NONE;
if (enc_dbcs)
{
p = enc_locale();
if (p == NULL || STRCMP(p, p_enc) != 0)
{
convert_setup(&vimconv, p_enc, (char_u *)"utf-8");
vimconv.vc_fail = TRUE;
}
vim_free(p);
}
#endif
for (i = 0; i < 256; ++i)
{
// Our own function to reliably check the length of UTF-8 characters,
// independent of mblen().
if (enc_utf8)
n = utf8len_tab[i];
else if (enc_dbcs == 0)
n = 1;
else
{
#if defined(MSWIN) || defined(WIN32UNIX)
// enc_dbcs is set by setting 'fileencoding'. It becomes a Windows
// CodePage identifier, which we can pass directly in to Windows
// API
n = IsDBCSLeadByteEx(enc_dbcs, (WINBYTE)i) ? 2 : 1;
#else
# if defined(__amigaos4__) || defined(__ANDROID__) || \
!(defined(HAVE_MBLEN) || defined(X_LOCALE))
/*
* if mblen() is not available, character which MSB is turned on
* are treated as leading byte character. (note : This assumption
* is not always true.)
*/
n = (i & 0x80) ? 2 : 1;
# else
char buf[MB_MAXBYTES + 1];
if (i == NUL) // just in case mblen() can't handle ""
n = 1;
else
{
buf[0] = i;
buf[1] = 0;
# ifdef LEN_FROM_CONV
if (vimconv.vc_type != CONV_NONE)
{
/*
* string_convert() should fail when converting the first
* byte of a double-byte character.
*/
p = string_convert(&vimconv, (char_u *)buf, NULL);
if (p != NULL)
{
vim_free(p);
n = 1;
}
else
n = 2;
}
else
# endif
{
/*
* mblen() should return -1 for invalid (means the leading
* multibyte) character. However there are some platforms
* where mblen() returns 0 for invalid character.
* Therefore, following condition includes 0.
*/
vim_ignored = mblen(NULL, 0); // First reset the state.
if (mblen(buf, (size_t)1) <= 0)
n = 2;
else
n = 1;
}
}
# endif
#endif
}
mb_bytelen_tab[i] = n;
}
#ifdef LEN_FROM_CONV
convert_setup(&vimconv, NULL, NULL);
#endif
// The cell width depends on the type of multi-byte characters.
(void)init_chartab();
// When enc_utf8 is set or reset, (de)allocate ScreenLinesUC[]
screenalloc(FALSE);
// When using Unicode, set default for 'fileencodings'.
if (enc_utf8 && !option_was_set((char_u *)"fencs"))
set_string_option_direct((char_u *)"fencs", -1,
(char_u *)"ucs-bom,utf-8,default,latin1", OPT_FREE, 0);
#if defined(HAVE_BIND_TEXTDOMAIN_CODESET) && defined(FEAT_GETTEXT)
// GNU gettext 0.10.37 supports this feature: set the codeset used for
// translated messages independently from the current locale.
(void)bind_textdomain_codeset(VIMPACKAGE,
enc_utf8 ? "utf-8" : (char *)p_enc);
#endif
#ifdef MSWIN
// When changing 'encoding' while starting up, then convert the command
// line arguments from the active codepage to 'encoding'.
if (starting != 0)
fix_arg_enc();
#endif
// Fire an autocommand to let people do custom font setup. This must be
// after Vim has been setup for the new encoding.
apply_autocmds(EVENT_ENCODINGCHANGED, NULL, (char_u *)"", FALSE, curbuf);
#ifdef FEAT_SPELL
// Need to reload spell dictionaries
spell_reload();
#endif
return NULL;
}
/*
* Return the size of the BOM for the current buffer:
* 0 - no BOM
* 2 - UCS-2 or UTF-16 BOM
* 4 - UCS-4 BOM
* 3 - UTF-8 BOM
*/
int
bomb_size(void)
{
int n = 0;
if (curbuf->b_p_bomb && !curbuf->b_p_bin)
{
if (*curbuf->b_p_fenc == NUL)
{
if (enc_utf8)
{
if (enc_unicode != 0)
n = enc_unicode;
else
n = 3;
}
}
else if (STRCMP(curbuf->b_p_fenc, "utf-8") == 0)
n = 3;
else if (STRNCMP(curbuf->b_p_fenc, "ucs-2", 5) == 0
|| STRNCMP(curbuf->b_p_fenc, "utf-16", 6) == 0)
n = 2;
else if (STRNCMP(curbuf->b_p_fenc, "ucs-4", 5) == 0)
n = 4;
}
return n;
}
#if defined(FEAT_QUICKFIX) || defined(PROTO)
/*
* Remove all BOM from "s" by moving remaining text.
*/
void
remove_bom(char_u *s)
{
if (enc_utf8)
{
char_u *p = s;
while ((p = vim_strbyte(p, 0xef)) != NULL)
{
if (p[1] == 0xbb && p[2] == 0xbf)
STRMOVE(p, p + 3);
else
++p;
}
}
}
#endif
/*
* Get class of pointer:
* 0 for blank or NUL
* 1 for punctuation
* 2 for an (ASCII) word character
* >2 for other word characters
*/
int
mb_get_class(char_u *p)
{
return mb_get_class_buf(p, curbuf);
}
int
mb_get_class_buf(char_u *p, buf_T *buf)
{
if (MB_BYTE2LEN(p[0]) == 1)
{
if (p[0] == NUL || VIM_ISWHITE(p[0]))
return 0;
if (vim_iswordc_buf(p[0], buf))
return 2;
return 1;
}
if (enc_dbcs != 0 && p[0] != NUL && p[1] != NUL)
return dbcs_class(p[0], p[1]);
if (enc_utf8)
return utf_class_buf(utf_ptr2char(p), buf);
return 0;
}
/*
* Get class of a double-byte character. This always returns 3 or bigger.
* TODO: Should return 1 for punctuation.
*/
int
dbcs_class(unsigned lead, unsigned trail)
{
switch (enc_dbcs)
{
// please add classify routine for your language in here
case DBCS_JPNU: // ?
case DBCS_JPN:
{
// JIS code classification
unsigned char lb = lead;
unsigned char tb = trail;
// convert process code to JIS
# if defined(MSWIN) || defined(WIN32UNIX) || defined(MACOS_X)
// process code is SJIS
if (lb <= 0x9f)
lb = (lb - 0x81) * 2 + 0x21;
else
lb = (lb - 0xc1) * 2 + 0x21;
if (tb <= 0x7e)
tb -= 0x1f;
else if (tb <= 0x9e)
tb -= 0x20;
else
{
tb -= 0x7e;
lb += 1;
}
# else
/*
* XXX: Code page identification can not use with all
* system! So, some other encoding information
* will be needed.
* In japanese: SJIS,EUC,UNICODE,(JIS)
* Note that JIS-code system don't use as
* process code in most system because it uses
* escape sequences(JIS is context depend encoding).
*/
// assume process code is JAPANESE-EUC
lb &= 0x7f;
tb &= 0x7f;
# endif
// exceptions
switch (lb << 8 | tb)
{
case 0x2121: // ZENKAKU space
return 0;
case 0x2122: // TOU-TEN (Japanese comma)
case 0x2123: // KU-TEN (Japanese period)
case 0x2124: // ZENKAKU comma
case 0x2125: // ZENKAKU period
return 1;
case 0x213c: // prolongedsound handled as KATAKANA
return 13;
}
// sieved by KU code
switch (lb)
{
case 0x21:
case 0x22:
// special symbols
return 10;
case 0x23:
// alphanumeric
return 11;
case 0x24:
// hiragana
return 12;
case 0x25:
// katakana
return 13;
case 0x26:
// greek
return 14;
case 0x27:
// russian
return 15;
case 0x28:
// lines
return 16;
default:
// kanji
return 17;
}
}
case DBCS_KORU: // ?
case DBCS_KOR:
{
// KS code classification
unsigned char c1 = lead;
unsigned char c2 = trail;
/*
* 20 : Hangul
* 21 : Hanja
* 22 : Symbols
* 23 : Alphanumeric/Roman Letter (Full width)
* 24 : Hangul Letter(Alphabet)
* 25 : Roman Numeral/Greek Letter
* 26 : Box Drawings
* 27 : Unit Symbols
* 28 : Circled/Parenthesized Letter
* 29 : Hiragana/Katakana
* 30 : Cyrillic Letter
*/
if (c1 >= 0xB0 && c1 <= 0xC8)
// Hangul
return 20;
#if defined(MSWIN) || defined(WIN32UNIX)
else if (c1 <= 0xA0 || c2 <= 0xA0)
// Extended Hangul Region : MS UHC(Unified Hangul Code)
// c1: 0x81-0xA0 with c2: 0x41-0x5A, 0x61-0x7A, 0x81-0xFE
// c1: 0xA1-0xC6 with c2: 0x41-0x5A, 0x61-0x7A, 0x81-0xA0
return 20;
#endif
else if (c1 >= 0xCA && c1 <= 0xFD)
// Hanja
return 21;
else switch (c1)
{
case 0xA1:
case 0xA2:
// Symbols
return 22;
case 0xA3:
// Alphanumeric
return 23;
case 0xA4:
// Hangul Letter(Alphabet)
return 24;
case 0xA5:
// Roman Numeral/Greek Letter
return 25;
case 0xA6:
// Box Drawings
return 26;
case 0xA7:
// Unit Symbols
return 27;
case 0xA8:
case 0xA9:
if (c2 <= 0xAF)
return 25; // Roman Letter
else if (c2 >= 0xF6)
return 22; // Symbols
else
// Circled/Parenthesized Letter
return 28;
case 0xAA:
case 0xAB:
// Hiragana/Katakana
return 29;
case 0xAC:
// Cyrillic Letter
return 30;
}
}
default:
break;
}
return 3;
}
/*
* mb_char2len() function pointer.
* Return length in bytes of character "c".
* Returns 1 for a single-byte character.
*/
int
latin_char2len(int c UNUSED)
{
return 1;
}
static int
dbcs_char2len(
int c)
{
if (c >= 0x100)
return 2;
return 1;
}
/*
* mb_char2bytes() function pointer.
* Convert a character to its bytes.
* Returns the length in bytes.
*/
int
latin_char2bytes(int c, char_u *buf)
{
buf[0] = c;
return 1;
}
static int
dbcs_char2bytes(int c, char_u *buf)
{
if (c >= 0x100)
{
buf[0] = (unsigned)c >> 8;
buf[1] = c;
// Never use a NUL byte, it causes lots of trouble. It's an invalid
// character anyway.
if (buf[1] == NUL)
buf[1] = '\n';
return 2;
}
buf[0] = c;
return 1;
}
/*
* mb_ptr2len() function pointer.
* Get byte length of character at "*p" but stop at a NUL.
* For UTF-8 this includes following composing characters.
* Returns 0 when *p is NUL.
*/
int
latin_ptr2len(char_u *p)
{
return MB_BYTE2LEN(*p);
}
static int
dbcs_ptr2len(
char_u *p)
{
int len;
// Check if second byte is not missing.
len = MB_BYTE2LEN(*p);
if (len == 2 && p[1] == NUL)
len = 1;
return len;
}
/*
* mb_ptr2len_len() function pointer.
* Like mb_ptr2len(), but limit to read "size" bytes.
* Returns 0 for an empty string.
* Returns 1 for an illegal char or an incomplete byte sequence.
*/
int
latin_ptr2len_len(char_u *p, int size)
{
if (size < 1 || *p == NUL)
return 0;
return 1;
}
static int
dbcs_ptr2len_len(char_u *p, int size)
{
int len;
if (size < 1 || *p == NUL)
return 0;
if (size == 1)
return 1;
// Check that second byte is not missing.
len = MB_BYTE2LEN(*p);
if (len == 2 && p[1] == NUL)
len = 1;
return len;
}
struct interval
{
long first;
long last;
};
/*
* Return TRUE if "c" is in "table[size / sizeof(struct interval)]".
*/
static int
intable(struct interval *table, size_t size, int c)
{
int mid, bot, top;
// first quick check for Latin1 etc. characters
if (c < table[0].first)
return FALSE;
// binary search in table
bot = 0;
top = (int)(size / sizeof(struct interval) - 1);
while (top >= bot)
{
mid = (bot + top) / 2;
if (table[mid].last < c)
bot = mid + 1;
else if (table[mid].first > c)
top = mid - 1;
else
return TRUE;
}
return FALSE;
}
// Sorted list of non-overlapping intervals of East Asian Ambiguous
// characters, generated with ../runtime/tools/unicode.vim.
static struct interval ambiguous[] =
{
{0x00a1, 0x00a1},
{0x00a4, 0x00a4},
{0x00a7, 0x00a8},
{0x00aa, 0x00aa},
{0x00ad, 0x00ae},
{0x00b0, 0x00b4},
{0x00b6, 0x00ba},
{0x00bc, 0x00bf},
{0x00c6, 0x00c6},
{0x00d0, 0x00d0},
{0x00d7, 0x00d8},
{0x00de, 0x00e1},
{0x00e6, 0x00e6},
{0x00e8, 0x00ea},
{0x00ec, 0x00ed},
{0x00f0, 0x00f0},
{0x00f2, 0x00f3},
{0x00f7, 0x00fa},
{0x00fc, 0x00fc},
{0x00fe, 0x00fe},
{0x0101, 0x0101},
{0x0111, 0x0111},
{0x0113, 0x0113},
{0x011b, 0x011b},
{0x0126, 0x0127},
{0x012b, 0x012b},
{0x0131, 0x0133},
{0x0138, 0x0138},
{0x013f, 0x0142},
{0x0144, 0x0144},
{0x0148, 0x014b},
{0x014d, 0x014d},
{0x0152, 0x0153},
{0x0166, 0x0167},
{0x016b, 0x016b},
{0x01ce, 0x01ce},
{0x01d0, 0x01d0},
{0x01d2, 0x01d2},
{0x01d4, 0x01d4},
{0x01d6, 0x01d6},
{0x01d8, 0x01d8},
{0x01da, 0x01da},
{0x01dc, 0x01dc},
{0x0251, 0x0251},
{0x0261, 0x0261},
{0x02c4, 0x02c4},
{0x02c7, 0x02c7},
{0x02c9, 0x02cb},
{0x02cd, 0x02cd},
{0x02d0, 0x02d0},
{0x02d8, 0x02db},
{0x02dd, 0x02dd},
{0x02df, 0x02df},
{0x0300, 0x036f},
{0x0391, 0x03a1},
{0x03a3, 0x03a9},
{0x03b1, 0x03c1},
{0x03c3, 0x03c9},
{0x0401, 0x0401},
{0x0410, 0x044f},
{0x0451, 0x0451},
{0x2010, 0x2010},
{0x2013, 0x2016},
{0x2018, 0x2019},
{0x201c, 0x201d},
{0x2020, 0x2022},
{0x2024, 0x2027},
{0x2030, 0x2030},
{0x2032, 0x2033},
{0x2035, 0x2035},
{0x203b, 0x203b},
{0x203e, 0x203e},
{0x2074, 0x2074},
{0x207f, 0x207f},
{0x2081, 0x2084},
{0x20ac, 0x20ac},
{0x2103, 0x2103},
{0x2105, 0x2105},
{0x2109, 0x2109},
{0x2113, 0x2113},
{0x2116, 0x2116},
{0x2121, 0x2122},
{0x2126, 0x2126},
{0x212b, 0x212b},
{0x2153, 0x2154},
{0x215b, 0x215e},
{0x2160, 0x216b},
{0x2170, 0x2179},
{0x2189, 0x2189},
{0x2190, 0x2199},
{0x21b8, 0x21b9},
{0x21d2, 0x21d2},
{0x21d4, 0x21d4},
{0x21e7, 0x21e7},
{0x2200, 0x2200},
{0x2202, 0x2203},
{0x2207, 0x2208},
{0x220b, 0x220b},
{0x220f, 0x220f},
{0x2211, 0x2211},
{0x2215, 0x2215},
{0x221a, 0x221a},
{0x221d, 0x2220},
{0x2223, 0x2223},
{0x2225, 0x2225},
{0x2227, 0x222c},
{0x222e, 0x222e},
{0x2234, 0x2237},
{0x223c, 0x223d},
{0x2248, 0x2248},
{0x224c, 0x224c},
{0x2252, 0x2252},
{0x2260, 0x2261},
{0x2264, 0x2267},
{0x226a, 0x226b},
{0x226e, 0x226f},
{0x2282, 0x2283},
{0x2286, 0x2287},
{0x2295, 0x2295},
{0x2299, 0x2299},
{0x22a5, 0x22a5},
{0x22bf, 0x22bf},
{0x2312, 0x2312},
{0x2460, 0x24e9},
{0x24eb, 0x254b},
{0x2550, 0x2573},
{0x2580, 0x258f},
{0x2592, 0x2595},
{0x25a0, 0x25a1},
{0x25a3, 0x25a9},
{0x25b2, 0x25b3},
{0x25b6, 0x25b7},
{0x25bc, 0x25bd},
{0x25c0, 0x25c1},
{0x25c6, 0x25c8},
{0x25cb, 0x25cb},
{0x25ce, 0x25d1},
{0x25e2, 0x25e5},
{0x25ef, 0x25ef},
{0x2605, 0x2606},
{0x2609, 0x2609},
{0x260e, 0x260f},
{0x261c, 0x261c},
{0x261e, 0x261e},
{0x2640, 0x2640},
{0x2642, 0x2642},
{0x2660, 0x2661},
{0x2663, 0x2665},
{0x2667, 0x266a},
{0x266c, 0x266d},
{0x266f, 0x266f},
{0x269e, 0x269f},
{0x26bf, 0x26bf},
{0x26c6, 0x26cd},
{0x26cf, 0x26d3},
{0x26d5, 0x26e1},
{0x26e3, 0x26e3},
{0x26e8, 0x26e9},
{0x26eb, 0x26f1},
{0x26f4, 0x26f4},
{0x26f6, 0x26f9},
{0x26fb, 0x26fc},
{0x26fe, 0x26ff},
{0x273d, 0x273d},
{0x2776, 0x277f},
{0x2b56, 0x2b59},
{0x3248, 0x324f},
{0xe000, 0xf8ff},
{0xfe00, 0xfe0f},
{0xfffd, 0xfffd},
{0x1f100, 0x1f10a},
{0x1f110, 0x1f12d},
{0x1f130, 0x1f169},
{0x1f170, 0x1f18d},
{0x1f18f, 0x1f190},
{0x1f19b, 0x1f1ac},
{0xe0100, 0xe01ef},
{0xf0000, 0xffffd},
{0x100000, 0x10fffd}
};
#if defined(FEAT_TERMINAL) || defined(PROTO)
/*
* utf_char2cells() with different argument type for libvterm.
*/
int
utf_uint2cells(UINT32_T c)
{
if (c >= 0x100 && utf_iscomposing((int)c))
return 0;
return utf_char2cells((int)c);
}
#endif
/*
* For UTF-8 character "c" return 2 for a double-width character, 1 for others.
* Returns 4 or 6 for an unprintable character.
* Is only correct for characters >= 0x80.
* When p_ambw is "double", return 2 for a character with East Asian Width
* class 'A'(mbiguous).
*/
int
utf_char2cells(int c)
{
// Sorted list of non-overlapping intervals of East Asian double width
// characters, generated with ../runtime/tools/unicode.vim.
static struct interval doublewidth[] =
{
{0x1100, 0x115f},
{0x231a, 0x231b},
{0x2329, 0x232a},
{0x23e9, 0x23ec},
{0x23f0, 0x23f0},
{0x23f3, 0x23f3},
{0x25fd, 0x25fe},
{0x2614, 0x2615},
{0x2648, 0x2653},
{0x267f, 0x267f},
{0x2693, 0x2693},
{0x26a1, 0x26a1},
{0x26aa, 0x26ab},
{0x26bd, 0x26be},
{0x26c4, 0x26c5},
{0x26ce, 0x26ce},
{0x26d4, 0x26d4},
{0x26ea, 0x26ea},
{0x26f2, 0x26f5},
{0x26fa, 0x26fa},
{0x26fd, 0x26fd},
{0x2705, 0x2705},
{0x270a, 0x270b},
{0x2728, 0x2728},
{0x274c, 0x274c},
{0x274e, 0x274e},
{0x2753, 0x2755},
{0x2757, 0x2757},
{0x2795, 0x2797},
{0x27b0, 0x27b0},
{0x27bf, 0x27bf},
{0x2b1b, 0x2b1c},
{0x2b50, 0x2b50},
{0x2b55, 0x2b55},
{0x2e80, 0x2e99},
{0x2e9b, 0x2ef3},
{0x2f00, 0x2fd5},
{0x2ff0, 0x2ffb},
{0x3000, 0x303e},
{0x3041, 0x3096},
{0x3099, 0x30ff},
{0x3105, 0x312f},
{0x3131, 0x318e},
{0x3190, 0x31ba},
{0x31c0, 0x31e3},
{0x31f0, 0x321e},
{0x3220, 0x3247},
{0x3250, 0x4dbf},
{0x4e00, 0xa48c},
{0xa490, 0xa4c6},
{0xa960, 0xa97c},
{0xac00, 0xd7a3},
{0xf900, 0xfaff},
{0xfe10, 0xfe19},
{0xfe30, 0xfe52},
{0xfe54, 0xfe66},
{0xfe68, 0xfe6b},
{0xff01, 0xff60},
{0xffe0, 0xffe6},
{0x16fe0, 0x16fe3},
{0x17000, 0x187f7},
{0x18800, 0x18af2},
{0x1b000, 0x1b11e},
{0x1b150, 0x1b152},
{0x1b164, 0x1b167},
{0x1b170, 0x1b2fb},
{0x1f004, 0x1f004},
{0x1f0cf, 0x1f0cf},
{0x1f18e, 0x1f18e},
{0x1f191, 0x1f19a},
{0x1f200, 0x1f202},
{0x1f210, 0x1f23b},
{0x1f240, 0x1f248},
{0x1f250, 0x1f251},
{0x1f260, 0x1f265},
{0x1f300, 0x1f320},
{0x1f32d, 0x1f335},
{0x1f337, 0x1f37c},
{0x1f37e, 0x1f393},
{0x1f3a0, 0x1f3ca},
{0x1f3cf, 0x1f3d3},
{0x1f3e0, 0x1f3f0},
{0x1f3f4, 0x1f3f4},
{0x1f3f8, 0x1f43e},
{0x1f440, 0x1f440},
{0x1f442, 0x1f4fc},
{0x1f4ff, 0x1f53d},
{0x1f54b, 0x1f54e},
{0x1f550, 0x1f567},
{0x1f57a, 0x1f57a},
{0x1f595, 0x1f596},
{0x1f5a4, 0x1f5a4},
{0x1f5fb, 0x1f64f},
{0x1f680, 0x1f6c5},
{0x1f6cc, 0x1f6cc},
{0x1f6d0, 0x1f6d2},
{0x1f6d5, 0x1f6d5},
{0x1f6eb, 0x1f6ec},
{0x1f6f4, 0x1f6fa},
{0x1f7e0, 0x1f7eb},
{0x1f90d, 0x1f971},
{0x1f973, 0x1f976},
{0x1f97a, 0x1f9a2},
{0x1f9a5, 0x1f9aa},
{0x1f9ae, 0x1f9ca},
{0x1f9cd, 0x1f9ff},
{0x1fa70, 0x1fa73},
{0x1fa78, 0x1fa7a},
{0x1fa80, 0x1fa82},
{0x1fa90, 0x1fa95},
{0x20000, 0x2fffd},
{0x30000, 0x3fffd}
};
// Sorted list of non-overlapping intervals of Emoji characters that don't
// have ambiguous or double width,
// based on http://unicode.org/emoji/charts/emoji-list.html
static struct interval emoji_wide[] =
{
{0x23ed, 0x23ef},
{0x23f1, 0x23f2},
{0x23f8, 0x23fa},
{0x24c2, 0x24c2},
{0x261d, 0x261d},
{0x26c8, 0x26c8},
{0x26cf, 0x26cf},
{0x26d1, 0x26d1},
{0x26d3, 0x26d3},
{0x26e9, 0x26e9},
{0x26f0, 0x26f1},
{0x26f7, 0x26f9},
{0x270c, 0x270d},
{0x2934, 0x2935},
{0x1f170, 0x1f189},
{0x1f1e6, 0x1f1ff},
{0x1f321, 0x1f321},
{0x1f324, 0x1f32c},
{0x1f336, 0x1f336},
{0x1f37d, 0x1f37d},
{0x1f396, 0x1f397},
{0x1f399, 0x1f39b},
{0x1f39e, 0x1f39f},
{0x1f3cb, 0x1f3ce},
{0x1f3d4, 0x1f3df},
{0x1f3f3, 0x1f3f5},
{0x1f3f7, 0x1f3f7},
{0x1f43f, 0x1f43f},
{0x1f441, 0x1f441},
{0x1f4fd, 0x1f4fd},
{0x1f549, 0x1f54a},
{0x1f56f, 0x1f570},
{0x1f573, 0x1f579},
{0x1f587, 0x1f587},
{0x1f58a, 0x1f58d},
{0x1f590, 0x1f590},
{0x1f5a5, 0x1f5a5},
{0x1f5a8, 0x1f5a8},
{0x1f5b1, 0x1f5b2},
{0x1f5bc, 0x1f5bc},
{0x1f5c2, 0x1f5c4},
{0x1f5d1, 0x1f5d3},
{0x1f5dc, 0x1f5de},
{0x1f5e1, 0x1f5e1},
{0x1f5e3, 0x1f5e3},
{0x1f5e8, 0x1f5e8},
{0x1f5ef, 0x1f5ef},
{0x1f5f3, 0x1f5f3},
{0x1f5fa, 0x1f5fa},
{0x1f6cb, 0x1f6cf},
{0x1f6e0, 0x1f6e5},
{0x1f6e9, 0x1f6e9},
{0x1f6f0, 0x1f6f0},
{0x1f6f3, 0x1f6f3}
};
if (c >= 0x100)
{
#if defined(FEAT_EVAL) || defined(USE_WCHAR_FUNCTIONS)
int n;
#endif
#ifdef FEAT_EVAL
n = cw_value(c);
if (n != 0)
return n;
#endif
#ifdef USE_WCHAR_FUNCTIONS
/*
* Assume the library function wcwidth() works better than our own
* stuff. It should return 1 for ambiguous width chars!
*/
n = wcwidth(c);
if (n < 0)
return 6; // unprintable, displays <xxxx>
if (n > 1)
return n;
#else
if (!utf_printable(c))
return 6; // unprintable, displays <xxxx>
if (intable(doublewidth, sizeof(doublewidth), c))
return 2;
#endif
if (p_emoji && intable(emoji_wide, sizeof(emoji_wide), c))
return 2;
}
// Characters below 0x100 are influenced by 'isprint' option
else if (c >= 0x80 && !vim_isprintc(c))
return 4; // unprintable, displays <xx>
if (c >= 0x80 && *p_ambw == 'd' && intable(ambiguous, sizeof(ambiguous), c))
return 2;
return 1;
}
/*
* mb_ptr2cells() function pointer.
* Return the number of display cells character at "*p" occupies.
* This doesn't take care of unprintable characters, use ptr2cells() for that.
*/
int
latin_ptr2cells(char_u *p UNUSED)
{
return 1;
}
int
utf_ptr2cells(
char_u *p)
{
int c;
// Need to convert to a character number.
if (*p >= 0x80)
{
c = utf_ptr2char(p);
// An illegal byte is displayed as <xx>.
if (utf_ptr2len(p) == 1 || c == NUL)
return 4;
// If the char is ASCII it must be an overlong sequence.
if (c < 0x80)
return char2cells(c);
return utf_char2cells(c);
}
return 1;
}
int
dbcs_ptr2cells(char_u *p)
{
// Number of cells is equal to number of bytes, except for euc-jp when
// the first byte is 0x8e.
if (enc_dbcs == DBCS_JPNU && *p == 0x8e)
return 1;
return MB_BYTE2LEN(*p);
}
/*
* mb_ptr2cells_len() function pointer.
* Like mb_ptr2cells(), but limit string length to "size".
* For an empty string or truncated character returns 1.
*/
int
latin_ptr2cells_len(char_u *p UNUSED, int size UNUSED)
{
return 1;
}
static int
utf_ptr2cells_len(char_u *p, int size)
{
int c;
// Need to convert to a wide character.
if (size > 0 && *p >= 0x80)
{
if (utf_ptr2len_len(p, size) < utf8len_tab[*p])
return 1; // truncated
c = utf_ptr2char(p);
// An illegal byte is displayed as <xx>.
if (utf_ptr2len(p) == 1 || c == NUL)
return 4;
// If the char is ASCII it must be an overlong sequence.
if (c < 0x80)
return char2cells(c);
return utf_char2cells(c);
}
return 1;
}
static int
dbcs_ptr2cells_len(char_u *p, int size)
{
// Number of cells is equal to number of bytes, except for euc-jp when
// the first byte is 0x8e.
if (size <= 1 || (enc_dbcs == DBCS_JPNU && *p == 0x8e))
return 1;
return MB_BYTE2LEN(*p);
}
/*
* mb_char2cells() function pointer.
* Return the number of display cells character "c" occupies.
* Only takes care of multi-byte chars, not "^C" and such.
*/
int
latin_char2cells(int c UNUSED)
{
return 1;
}
static int
dbcs_char2cells(int c)
{
// Number of cells is equal to number of bytes, except for euc-jp when
// the first byte is 0x8e.
if (enc_dbcs == DBCS_JPNU && ((unsigned)c >> 8) == 0x8e)
return 1;
// use the first byte
return MB_BYTE2LEN((unsigned)c >> 8);
}
/*
* Return the number of cells occupied by string "p".
* Stop at a NUL character. When "len" >= 0 stop at character "p[len]".
*/
int
mb_string2cells(char_u *p, int len)
{
int i;
int clen = 0;
for (i = 0; (len < 0 || i < len) && p[i] != NUL; i += (*mb_ptr2len)(p + i))
clen += (*mb_ptr2cells)(p + i);
return clen;
}
/*
* mb_off2cells() function pointer.
* Return number of display cells for char at ScreenLines[off].
* We make sure that the offset used is less than "max_off".
*/
int
latin_off2cells(unsigned off UNUSED, unsigned max_off UNUSED)
{
return 1;
}
int
dbcs_off2cells(unsigned off, unsigned max_off)
{
// never check beyond end of the line
if (off >= max_off)
return 1;
// Number of cells is equal to number of bytes, except for euc-jp when
// the first byte is 0x8e.
if (enc_dbcs == DBCS_JPNU && ScreenLines[off] == 0x8e)
return 1;
return MB_BYTE2LEN(ScreenLines[off]);
}
int
utf_off2cells(unsigned off, unsigned max_off)
{
return (off + 1 < max_off && ScreenLines[off + 1] == 0) ? 2 : 1;
}
/*
* mb_ptr2char() function pointer.
* Convert a byte sequence into a character.
*/
int
latin_ptr2char(char_u *p)
{
return *p;
}
static int
dbcs_ptr2char(char_u *p)
{
if (MB_BYTE2LEN(*p) > 1 && p[1] != NUL)
return (p[0] << 8) + p[1];
return *p;
}
/*
* Convert a UTF-8 byte sequence to a character number.
* If the sequence is illegal or truncated by a NUL the first byte is
* returned.
* For an overlong sequence this may return zero.
* Does not include composing characters, of course.
*/
int
utf_ptr2char(char_u *p)
{
int len;
if (p[0] < 0x80) // be quick for ASCII
return p[0];
len = utf8len_tab_zero[p[0]];
if (len > 1 && (p[1] & 0xc0) == 0x80)
{
if (len == 2)
return ((p[0] & 0x1f) << 6) + (p[1] & 0x3f);
if ((p[2] & 0xc0) == 0x80)
{
if (len == 3)
return ((p[0] & 0x0f) << 12) + ((p[1] & 0x3f) << 6)
+ (p[2] & 0x3f);
if ((p[3] & 0xc0) == 0x80)
{
if (len == 4)
return ((p[0] & 0x07) << 18) + ((p[1] & 0x3f) << 12)
+ ((p[2] & 0x3f) << 6) + (p[3] & 0x3f);
if ((p[4] & 0xc0) == 0x80)
{
if (len == 5)
return ((p[0] & 0x03) << 24) + ((p[1] & 0x3f) << 18)
+ ((p[2] & 0x3f) << 12) + ((p[3] & 0x3f) << 6)
+ (p[4] & 0x3f);
if ((p[5] & 0xc0) == 0x80 && len == 6)
return ((p[0] & 0x01) << 30) + ((p[1] & 0x3f) << 24)
+ ((p[2] & 0x3f) << 18) + ((p[3] & 0x3f) << 12)
+ ((p[4] & 0x3f) << 6) + (p[5] & 0x3f);
}
}
}
}
// Illegal value, just return the first byte
return p[0];
}
/*
* Convert a UTF-8 byte sequence to a wide character.
* String is assumed to be terminated by NUL or after "n" bytes, whichever
* comes first.
* The function is safe in the sense that it never accesses memory beyond the
* first "n" bytes of "s".
*
* On success, returns decoded codepoint, advances "s" to the beginning of
* next character and decreases "n" accordingly.
*
* If end of string was reached, returns 0 and, if "n" > 0, advances "s" past
* NUL byte.
*
* If byte sequence is illegal or incomplete, returns -1 and does not advance
* "s".
*/
static int
utf_safe_read_char_adv(char_u **s, size_t *n)
{
int c, k;
if (*n == 0) // end of buffer
return 0;
k = utf8len_tab_zero[**s];
if (k == 1)
{
// ASCII character or NUL
(*n)--;
return *(*s)++;
}
if ((size_t)k <= *n)
{
// We have a multibyte sequence and it isn't truncated by buffer
// limits so utf_ptr2char() is safe to use. Or the first byte is
// illegal (k=0), and it's also safe to use utf_ptr2char().
c = utf_ptr2char(*s);
// On failure, utf_ptr2char() returns the first byte, so here we
// check equality with the first byte. The only non-ASCII character
// which equals the first byte of its own UTF-8 representation is
// U+00C3 (UTF-8: 0xC3 0x83), so need to check that special case too.
// It's safe even if n=1, else we would have k=2 > n.
if (c != (int)(**s) || (c == 0xC3 && (*s)[1] == 0x83))
{
// byte sequence was successfully decoded
*s += k;
*n -= k;
return c;
}
}
// byte sequence is incomplete or illegal
return -1;
}
/*
* Get character at **pp and advance *pp to the next character.
* Note: composing characters are skipped!
*/
int
mb_ptr2char_adv(char_u **pp)
{
int c;
c = (*mb_ptr2char)(*pp);
*pp += (*mb_ptr2len)(*pp);
return c;
}
/*
* Get character at **pp and advance *pp to the next character.
* Note: composing characters are returned as separate characters.
*/
int
mb_cptr2char_adv(char_u **pp)
{
int c;
c = (*mb_ptr2char)(*pp);
if (enc_utf8)
*pp += utf_ptr2len(*pp);
else
*pp += (*mb_ptr2len)(*pp);
return c;
}
#if defined(FEAT_ARABIC) || defined(PROTO)
/*
* Check if the character pointed to by "p2" is a composing character when it
* comes after "p1". For Arabic sometimes "ab" is replaced with "c", which
* behaves like a composing character.
*/
int
utf_composinglike(char_u *p1, char_u *p2)
{
int c2;
c2 = utf_ptr2char(p2);
if (utf_iscomposing(c2))
return TRUE;
if (!arabic_maycombine(c2))
return FALSE;
return arabic_combine(utf_ptr2char(p1), c2);
}
#endif
/*
* Convert a UTF-8 byte string to a wide character. Also get up to MAX_MCO
* composing characters.
*/
int
utfc_ptr2char(
char_u *p,
int *pcc) // return: composing chars, last one is 0
{
int len;
int c;
int cc;
int i = 0;
c = utf_ptr2char(p);
len = utf_ptr2len(p);
// Only accept a composing char when the first char isn't illegal.
if ((len > 1 || *p < 0x80)
&& p[len] >= 0x80
&& UTF_COMPOSINGLIKE(p, p + len))
{
cc = utf_ptr2char(p + len);
for (;;)
{
pcc[i++] = cc;
if (i == MAX_MCO)
break;
len += utf_ptr2len(p + len);
if (p[len] < 0x80 || !utf_iscomposing(cc = utf_ptr2char(p + len)))
break;
}
}
if (i < MAX_MCO) // last composing char must be 0
pcc[i] = 0;
return c;
}
/*
* Convert a UTF-8 byte string to a wide character. Also get up to MAX_MCO
* composing characters. Use no more than p[maxlen].
*/
int
utfc_ptr2char_len(
char_u *p,
int *pcc, // return: composing chars, last one is 0
int maxlen)
{
int len;
int c;
int cc;
int i = 0;
c = utf_ptr2char(p);
len = utf_ptr2len_len(p, maxlen);
// Only accept a composing char when the first char isn't illegal.
if ((len > 1 || *p < 0x80)
&& len < maxlen
&& p[len] >= 0x80
&& UTF_COMPOSINGLIKE(p, p + len))
{
cc = utf_ptr2char(p + len);
for (;;)
{
pcc[i++] = cc;
if (i == MAX_MCO)
break;
len += utf_ptr2len_len(p + len, maxlen - len);
if (len >= maxlen
|| p[len] < 0x80
|| !utf_iscomposing(cc = utf_ptr2char(p + len)))
break;
}
}
if (i < MAX_MCO) // last composing char must be 0
pcc[i] = 0;
return c;
}
/*
* Convert the character at screen position "off" to a sequence of bytes.
* Includes the composing characters.
* "buf" must at least have the length MB_MAXBYTES + 1.
* Only to be used when ScreenLinesUC[off] != 0.
* Returns the produced number of bytes.
*/
int
utfc_char2bytes(int off, char_u *buf)
{
int len;
int i;
len = utf_char2bytes(ScreenLinesUC[off], buf);
for (i = 0; i < Screen_mco; ++i)
{
if (ScreenLinesC[i][off] == 0)
break;
len += utf_char2bytes(ScreenLinesC[i][off], buf + len);
}
return len;
}
/*
* Get the length of a UTF-8 byte sequence, not including any following
* composing characters.
* Returns 0 for "".
* Returns 1 for an illegal byte sequence.
*/
int
utf_ptr2len(char_u *p)
{
int len;
int i;
if (*p == NUL)
return 0;
len = utf8len_tab[*p];
for (i = 1; i < len; ++i)
if ((p[i] & 0xc0) != 0x80)
return 1;
return len;
}
/*
* Return length of UTF-8 character, obtained from the first byte.
* "b" must be between 0 and 255!
* Returns 1 for an invalid first byte value.
*/
int
utf_byte2len(int b)
{
return utf8len_tab[b];
}
/*
* Get the length of UTF-8 byte sequence "p[size]". Does not include any
* following composing characters.
* Returns 1 for "".
* Returns 1 for an illegal byte sequence (also in incomplete byte seq.).
* Returns number > "size" for an incomplete byte sequence.
* Never returns zero.
*/
int
utf_ptr2len_len(char_u *p, int size)
{
int len;
int i;
int m;
len = utf8len_tab[*p];
if (len == 1)
return 1; // NUL, ascii or illegal lead byte
if (len > size)
m = size; // incomplete byte sequence.
else
m = len;
for (i = 1; i < m; ++i)
if ((p[i] & 0xc0) != 0x80)
return 1;
return len;
}
/*
* Return the number of bytes the UTF-8 encoding of the character at "p" takes.
* This includes following composing characters.
*/
int
utfc_ptr2len(char_u *p)
{
int len;
int b0 = *p;
#ifdef FEAT_ARABIC
int prevlen;
#endif
if (b0 == NUL)
return 0;
if (b0 < 0x80 && p[1] < 0x80) // be quick for ASCII
return 1;
// Skip over first UTF-8 char, stopping at a NUL byte.
len = utf_ptr2len(p);
// Check for illegal byte.
if (len == 1 && b0 >= 0x80)
return 1;
/*
* Check for composing characters. We can handle only the first six, but
* skip all of them (otherwise the cursor would get stuck).
*/
#ifdef FEAT_ARABIC
prevlen = 0;
#endif
for (;;)
{
if (p[len] < 0x80 || !UTF_COMPOSINGLIKE(p + prevlen, p + len))
return len;
// Skip over composing char
#ifdef FEAT_ARABIC
prevlen = len;
#endif
len += utf_ptr2len(p + len);
}
}
/*
* Return the number of bytes the UTF-8 encoding of the character at "p[size]"
* takes. This includes following composing characters.
* Returns 0 for an empty string.
* Returns 1 for an illegal char or an incomplete byte sequence.
*/
int
utfc_ptr2len_len(char_u *p, int size)
{
int len;
#ifdef FEAT_ARABIC
int prevlen;
#endif
if (size < 1 || *p == NUL)
return 0;
if (p[0] < 0x80 && (size == 1 || p[1] < 0x80)) // be quick for ASCII
return 1;
// Skip over first UTF-8 char, stopping at a NUL byte.
len = utf_ptr2len_len(p, size);
// Check for illegal byte and incomplete byte sequence.
if ((len == 1 && p[0] >= 0x80) || len > size)
return 1;
/*
* Check for composing characters. We can handle only the first six, but
* skip all of them (otherwise the cursor would get stuck).
*/
#ifdef FEAT_ARABIC
prevlen = 0;
#endif
while (len < size)
{
int len_next_char;
if (p[len] < 0x80)
break;
/*
* Next character length should not go beyond size to ensure that
* UTF_COMPOSINGLIKE(...) does not read beyond size.
*/
len_next_char = utf_ptr2len_len(p + len, size - len);
if (len_next_char > size - len)
break;
if (!UTF_COMPOSINGLIKE(p + prevlen, p + len))
break;
// Skip over composing char
#ifdef FEAT_ARABIC
prevlen = len;
#endif
len += len_next_char;
}
return len;
}
/*
* Return the number of bytes the UTF-8 encoding of character "c" takes.
* This does not include composing characters.
*/
int
utf_char2len(int c)
{
if (c < 0x80)
return 1;
if (c < 0x800)
return 2;
if (c < 0x10000)
return 3;
if (c < 0x200000)
return 4;
if (c < 0x4000000)
return 5;
return 6;
}
/*
* Convert Unicode character "c" to UTF-8 string in "buf[]".
* Returns the number of bytes.
*/
int
utf_char2bytes(int c, char_u *buf)
{
if (c < 0x80) // 7 bits
{
buf[0] = c;
return 1;
}
if (c < 0x800) // 11 bits
{
buf[0] = 0xc0 + ((unsigned)c >> 6);
buf[1] = 0x80 + (c & 0x3f);
return 2;
}
if (c < 0x10000) // 16 bits
{
buf[0] = 0xe0 + ((unsigned)c >> 12);
buf[1] = 0x80 + (((unsigned)c >> 6) & 0x3f);
buf[2] = 0x80 + (c & 0x3f);
return 3;
}
if (c < 0x200000) // 21 bits
{
buf[0] = 0xf0 + ((unsigned)c >> 18);
buf[1] = 0x80 + (((unsigned)c >> 12) & 0x3f);
buf[2] = 0x80 + (((unsigned)c >> 6) & 0x3f);
buf[3] = 0x80 + (c & 0x3f);
return 4;
}
if (c < 0x4000000) // 26 bits
{
buf[0] = 0xf8 + ((unsigned)c >> 24);
buf[1] = 0x80 + (((unsigned)c >> 18) & 0x3f);
buf[2] = 0x80 + (((unsigned)c >> 12) & 0x3f);
buf[3] = 0x80 + (((unsigned)c >> 6) & 0x3f);
buf[4] = 0x80 + (c & 0x3f);
return 5;
}
// 31 bits
buf[0] = 0xfc + ((unsigned)c >> 30);
buf[1] = 0x80 + (((unsigned)c >> 24) & 0x3f);
buf[2] = 0x80 + (((unsigned)c >> 18) & 0x3f);
buf[3] = 0x80 + (((unsigned)c >> 12) & 0x3f);
buf[4] = 0x80 + (((unsigned)c >> 6) & 0x3f);
buf[5] = 0x80 + (c & 0x3f);
return 6;
}
#if defined(FEAT_TERMINAL) || defined(PROTO)
/*
* utf_iscomposing() with different argument type for libvterm.
*/
int
utf_iscomposing_uint(UINT32_T c)
{
return utf_iscomposing((int)c);
}
#endif
/*
* Return TRUE if "c" is a composing UTF-8 character. This means it will be
* drawn on top of the preceding character.
* Based on code from Markus Kuhn.
*/
int
utf_iscomposing(int c)
{
// Sorted list of non-overlapping intervals.
// Generated by ../runtime/tools/unicode.vim.
static struct interval combining[] =
{
{0x0300, 0x036f},
{0x0483, 0x0489},
{0x0591, 0x05bd},
{0x05bf, 0x05bf},
{0x05c1, 0x05c2},
{0x05c4, 0x05c5},
{0x05c7, 0x05c7},
{0x0610, 0x061a},
{0x064b, 0x065f},
{0x0670, 0x0670},
{0x06d6, 0x06dc},
{0x06df, 0x06e4},
{0x06e7, 0x06e8},
{0x06ea, 0x06ed},
{0x0711, 0x0711},
{0x0730, 0x074a},
{0x07a6, 0x07b0},
{0x07eb, 0x07f3},
{0x07fd, 0x07fd},
{0x0816, 0x0819},
{0x081b, 0x0823},
{0x0825, 0x0827},
{0x0829, 0x082d},
{0x0859, 0x085b},
{0x08d3, 0x08e1},
{0x08e3, 0x0903},
{0x093a, 0x093c},
{0x093e, 0x094f},
{0x0951, 0x0957},
{0x0962, 0x0963},
{0x0981, 0x0983},
{0x09bc, 0x09bc},
{0x09be, 0x09c4},
{0x09c7, 0x09c8},
{0x09cb, 0x09cd},
{0x09d7, 0x09d7},
{0x09e2, 0x09e3},
{0x09fe, 0x09fe},
{0x0a01, 0x0a03},
{0x0a3c, 0x0a3c},
{0x0a3e, 0x0a42},
{0x0a47, 0x0a48},
{0x0a4b, 0x0a4d},
{0x0a51, 0x0a51},
{0x0a70, 0x0a71},
{0x0a75, 0x0a75},
{0x0a81, 0x0a83},
{0x0abc, 0x0abc},
{0x0abe, 0x0ac5},
{0x0ac7, 0x0ac9},
{0x0acb, 0x0acd},
{0x0ae2, 0x0ae3},
{0x0afa, 0x0aff},
{0x0b01, 0x0b03},
{0x0b3c, 0x0b3c},
{0x0b3e, 0x0b44},
{0x0b47, 0x0b48},
{0x0b4b, 0x0b4d},
{0x0b56, 0x0b57},
{0x0b62, 0x0b63},
{0x0b82, 0x0b82},
{0x0bbe, 0x0bc2},
{0x0bc6, 0x0bc8},
{0x0bca, 0x0bcd},
{0x0bd7, 0x0bd7},
{0x0c00, 0x0c04},
{0x0c3e, 0x0c44},
{0x0c46, 0x0c48},
{0x0c4a, 0x0c4d},
{0x0c55, 0x0c56},
{0x0c62, 0x0c63},
{0x0c81, 0x0c83},
{0x0cbc, 0x0cbc},
{0x0cbe, 0x0cc4},
{0x0cc6, 0x0cc8},
{0x0cca, 0x0ccd},
{0x0cd5, 0x0cd6},
{0x0ce2, 0x0ce3},
{0x0d00, 0x0d03},
{0x0d3b, 0x0d3c},
{0x0d3e, 0x0d44},
{0x0d46, 0x0d48},
{0x0d4a, 0x0d4d},
{0x0d57, 0x0d57},
{0x0d62, 0x0d63},
{0x0d82, 0x0d83},
{0x0dca, 0x0dca},
{0x0dcf, 0x0dd4},
{0x0dd6, 0x0dd6},
{0x0dd8, 0x0ddf},
{0x0df2, 0x0df3},
{0x0e31, 0x0e31},
{0x0e34, 0x0e3a},
{0x0e47, 0x0e4e},
{0x0eb1, 0x0eb1},
{0x0eb4, 0x0ebc},
{0x0ec8, 0x0ecd},
{0x0f18, 0x0f19},
{0x0f35, 0x0f35},
{0x0f37, 0x0f37},
{0x0f39, 0x0f39},
{0x0f3e, 0x0f3f},
{0x0f71, 0x0f84},
{0x0f86, 0x0f87},
{0x0f8d, 0x0f97},
{0x0f99, 0x0fbc},
{0x0fc6, 0x0fc6},
{0x102b, 0x103e},
{0x1056, 0x1059},
{0x105e, 0x1060},
{0x1062, 0x1064},
{0x1067, 0x106d},
{0x1071, 0x1074},
{0x1082, 0x108d},
{0x108f, 0x108f},
{0x109a, 0x109d},
{0x135d, 0x135f},
{0x1712, 0x1714},
{0x1732, 0x1734},
{0x1752, 0x1753},
{0x1772, 0x1773},
{0x17b4, 0x17d3},
{0x17dd, 0x17dd},
{0x180b, 0x180d},
{0x1885, 0x1886},
{0x18a9, 0x18a9},
{0x1920, 0x192b},
{0x1930, 0x193b},
{0x1a17, 0x1a1b},
{0x1a55, 0x1a5e},
{0x1a60, 0x1a7c},
{0x1a7f, 0x1a7f},
{0x1ab0, 0x1abe},
{0x1b00, 0x1b04},
{0x1b34, 0x1b44},
{0x1b6b, 0x1b73},
{0x1b80, 0x1b82},
{0x1ba1, 0x1bad},
{0x1be6, 0x1bf3},
{0x1c24, 0x1c37},
{0x1cd0, 0x1cd2},
{0x1cd4, 0x1ce8},
{0x1ced, 0x1ced},
{0x1cf4, 0x1cf4},
{0x1cf7, 0x1cf9},
{0x1dc0, 0x1df9},
{0x1dfb, 0x1dff},
{0x20d0, 0x20f0},
{0x2cef, 0x2cf1},
{0x2d7f, 0x2d7f},
{0x2de0, 0x2dff},
{0x302a, 0x302f},
{0x3099, 0x309a},
{0xa66f, 0xa672},
{0xa674, 0xa67d},
{0xa69e, 0xa69f},
{0xa6f0, 0xa6f1},
{0xa802, 0xa802},
{0xa806, 0xa806},
{0xa80b, 0xa80b},
{0xa823, 0xa827},
{0xa880, 0xa881},
{0xa8b4, 0xa8c5},
{0xa8e0, 0xa8f1},
{0xa8ff, 0xa8ff},
{0xa926, 0xa92d},
{0xa947, 0xa953},
{0xa980, 0xa983},
{0xa9b3, 0xa9c0},
{0xa9e5, 0xa9e5},
{0xaa29, 0xaa36},
{0xaa43, 0xaa43},
{0xaa4c, 0xaa4d},
{0xaa7b, 0xaa7d},
{0xaab0, 0xaab0},
{0xaab2, 0xaab4},
{0xaab7, 0xaab8},
{0xaabe, 0xaabf},
{0xaac1, 0xaac1},
{0xaaeb, 0xaaef},
{0xaaf5, 0xaaf6},
{0xabe3, 0xabea},
{0xabec, 0xabed},
{0xfb1e, 0xfb1e},
{0xfe00, 0xfe0f},
{0xfe20, 0xfe2f},
{0x101fd, 0x101fd},
{0x102e0, 0x102e0},
{0x10376, 0x1037a},
{0x10a01, 0x10a03},
{0x10a05, 0x10a06},
{0x10a0c, 0x10a0f},
{0x10a38, 0x10a3a},
{0x10a3f, 0x10a3f},
{0x10ae5, 0x10ae6},
{0x10d24, 0x10d27},
{0x10f46, 0x10f50},
{0x11000, 0x11002},
{0x11038, 0x11046},
{0x1107f, 0x11082},
{0x110b0, 0x110ba},
{0x11100, 0x11102},
{0x11127, 0x11134},
{0x11145, 0x11146},
{0x11173, 0x11173},
{0x11180, 0x11182},
{0x111b3, 0x111c0},
{0x111c9, 0x111cc},
{0x1122c, 0x11237},
{0x1123e, 0x1123e},
{0x112df, 0x112ea},
{0x11300, 0x11303},
{0x1133b, 0x1133c},
{0x1133e, 0x11344},
{0x11347, 0x11348},
{0x1134b, 0x1134d},
{0x11357, 0x11357},
{0x11362, 0x11363},
{0x11366, 0x1136c},
{0x11370, 0x11374},
{0x11435, 0x11446},
{0x1145e, 0x1145e},
{0x114b0, 0x114c3},
{0x115af, 0x115b5},
{0x115b8, 0x115c0},
{0x115dc, 0x115dd},
{0x11630, 0x11640},
{0x116ab, 0x116b7},
{0x1171d, 0x1172b},
{0x1182c, 0x1183a},
{0x119d1, 0x119d7},
{0x119da, 0x119e0},
{0x119e4, 0x119e4},
{0x11a01, 0x11a0a},
{0x11a33, 0x11a39},
{0x11a3b, 0x11a3e},
{0x11a47, 0x11a47},
{0x11a51, 0x11a5b},
{0x11a8a, 0x11a99},
{0x11c2f, 0x11c36},
{0x11c38, 0x11c3f},
{0x11c92, 0x11ca7},
{0x11ca9, 0x11cb6},
{0x11d31, 0x11d36},
{0x11d3a, 0x11d3a},
{0x11d3c, 0x11d3d},
{0x11d3f, 0x11d45},
{0x11d47, 0x11d47},
{0x11d8a, 0x11d8e},
{0x11d90, 0x11d91},
{0x11d93, 0x11d97},
{0x11ef3, 0x11ef6},
{0x16af0, 0x16af4},
{0x16b30, 0x16b36},
{0x16f4f, 0x16f4f},
{0x16f51, 0x16f87},
{0x16f8f, 0x16f92},
{0x1bc9d, 0x1bc9e},
{0x1d165, 0x1d169},
{0x1d16d, 0x1d172},
{0x1d17b, 0x1d182},
{0x1d185, 0x1d18b},
{0x1d1aa, 0x1d1ad},
{0x1d242, 0x1d244},
{0x1da00, 0x1da36},
{0x1da3b, 0x1da6c},
{0x1da75, 0x1da75},
{0x1da84, 0x1da84},
{0x1da9b, 0x1da9f},
{0x1daa1, 0x1daaf},
{0x1e000, 0x1e006},
{0x1e008, 0x1e018},
{0x1e01b, 0x1e021},
{0x1e023, 0x1e024},
{0x1e026, 0x1e02a},
{0x1e130, 0x1e136},
{0x1e2ec, 0x1e2ef},
{0x1e8d0, 0x1e8d6},
{0x1e944, 0x1e94a},
{0xe0100, 0xe01ef}
};
return intable(combining, sizeof(combining), c);
}
/*
* Return TRUE for characters that can be displayed in a normal way.
* Only for characters of 0x100 and above!
*/
int
utf_printable(int c)
{
#ifdef USE_WCHAR_FUNCTIONS
/*
* Assume the iswprint() library function works better than our own stuff.
*/
return iswprint(c);
#else
// Sorted list of non-overlapping intervals.
// 0xd800-0xdfff is reserved for UTF-16, actually illegal.
static struct interval nonprint[] =
{
{0x070f, 0x070f}, {0x180b, 0x180e}, {0x200b, 0x200f}, {0x202a, 0x202e},
{0x206a, 0x206f}, {0xd800, 0xdfff}, {0xfeff, 0xfeff}, {0xfff9, 0xfffb},
{0xfffe, 0xffff}
};
return !intable(nonprint, sizeof(nonprint), c);
#endif
}
// Sorted list of non-overlapping intervals of all Emoji characters,
// based on http://unicode.org/emoji/charts/emoji-list.html
// Generated by ../runtime/tools/unicode.vim.
// Excludes 0x00a9 and 0x00ae because they are considered latin1.
static struct interval emoji_all[] =
{
{0x203c, 0x203c},
{0x2049, 0x2049},
{0x2122, 0x2122},
{0x2139, 0x2139},
{0x2194, 0x2199},
{0x21a9, 0x21aa},
{0x231a, 0x231b},
{0x2328, 0x2328},
{0x23cf, 0x23cf},
{0x23e9, 0x23f3},
{0x23f8, 0x23fa},
{0x24c2, 0x24c2},
{0x25aa, 0x25ab},
{0x25b6, 0x25b6},
{0x25c0, 0x25c0},
{0x25fb, 0x25fe},
{0x2600, 0x2604},
{0x260e, 0x260e},
{0x2611, 0x2611},
{0x2614, 0x2615},
{0x2618, 0x2618},
{0x261d, 0x261d},
{0x2620, 0x2620},
{0x2622, 0x2623},
{0x2626, 0x2626},
{0x262a, 0x262a},
{0x262e, 0x262f},
{0x2638, 0x263a},
{0x2640, 0x2640},
{0x2642, 0x2642},
{0x2648, 0x2653},
{0x265f, 0x2660},
{0x2663, 0x2663},
{0x2665, 0x2666},
{0x2668, 0x2668},
{0x267b, 0x267b},
{0x267e, 0x267f},
{0x2692, 0x2697},
{0x2699, 0x2699},
{0x269b, 0x269c},
{0x26a0, 0x26a1},
{0x26aa, 0x26ab},
{0x26b0, 0x26b1},
{0x26bd, 0x26be},
{0x26c4, 0x26c5},
{0x26c8, 0x26c8},
{0x26ce, 0x26cf},
{0x26d1, 0x26d1},
{0x26d3, 0x26d4},
{0x26e9, 0x26ea},
{0x26f0, 0x26f5},
{0x26f7, 0x26fa},
{0x26fd, 0x26fd},
{0x2702, 0x2702},
{0x2705, 0x2705},
{0x2708, 0x270d},
{0x270f, 0x270f},
{0x2712, 0x2712},
{0x2714, 0x2714},
{0x2716, 0x2716},
{0x271d, 0x271d},
{0x2721, 0x2721},
{0x2728, 0x2728},
{0x2733, 0x2734},
{0x2744, 0x2744},
{0x2747, 0x2747},
{0x274c, 0x274c},
{0x274e, 0x274e},
{0x2753, 0x2755},
{0x2757, 0x2757},
{0x2763, 0x2764},
{0x2795, 0x2797},
{0x27a1, 0x27a1},
{0x27b0, 0x27b0},
{0x27bf, 0x27bf},
{0x2934, 0x2935},
{0x2b05, 0x2b07},
{0x2b1b, 0x2b1c},
{0x2b50, 0x2b50},
{0x2b55, 0x2b55},
{0x3030, 0x3030},
{0x303d, 0x303d},
{0x3297, 0x3297},
{0x3299, 0x3299},
{0x1f004, 0x1f004},
{0x1f0cf, 0x1f0cf},
{0x1f170, 0x1f189},
{0x1f18e, 0x1f18e},
{0x1f191, 0x1f19a},
{0x1f1e6, 0x1f1ff},
{0x1f201, 0x1f202},
{0x1f21a, 0x1f21a},
{0x1f22f, 0x1f22f},
{0x1f232, 0x1f23a},
{0x1f250, 0x1f251},
{0x1f300, 0x1f321},
{0x1f324, 0x1f393},
{0x1f396, 0x1f397},
{0x1f399, 0x1f39b},
{0x1f39e, 0x1f3f0},
{0x1f3f3, 0x1f3f5},
{0x1f3f7, 0x1f4fd},
{0x1f4ff, 0x1f53d},
{0x1f549, 0x1f54e},
{0x1f550, 0x1f567},
{0x1f56f, 0x1f570},
{0x1f573, 0x1f57a},
{0x1f587, 0x1f587},
{0x1f58a, 0x1f58d},
{0x1f590, 0x1f590},
{0x1f595, 0x1f596},
{0x1f5a4, 0x1f5a5},
{0x1f5a8, 0x1f5a8},
{0x1f5b1, 0x1f5b2},
{0x1f5bc, 0x1f5bc},
{0x1f5c2, 0x1f5c4},
{0x1f5d1, 0x1f5d3},
{0x1f5dc, 0x1f5de},
{0x1f5e1, 0x1f5e1},
{0x1f5e3, 0x1f5e3},
{0x1f5e8, 0x1f5e8},
{0x1f5ef, 0x1f5ef},
{0x1f5f3, 0x1f5f3},
{0x1f5fa, 0x1f64f},
{0x1f680, 0x1f6c5},
{0x1f6cb, 0x1f6d2},
{0x1f6e0, 0x1f6e5},
{0x1f6e9, 0x1f6e9},
{0x1f6eb, 0x1f6ec},
{0x1f6f0, 0x1f6f0},
{0x1f6f3, 0x1f6f9},
{0x1f910, 0x1f93a},
{0x1f93c, 0x1f93e},
{0x1f940, 0x1f945},
{0x1f947, 0x1f970},
{0x1f973, 0x1f976},
{0x1f97a, 0x1f97a},
{0x1f97c, 0x1f9a2},
{0x1f9b0, 0x1f9b9},
{0x1f9c0, 0x1f9c2},
{0x1f9d0, 0x1f9ff}
};
/*
* Get class of a Unicode character.
* 0: white space
* 1: punctuation
* 2 or bigger: some class of word character.
*/
int
utf_class(int c)
{
return utf_class_buf(c, curbuf);
}
int
utf_class_buf(int c, buf_T *buf)
{
// sorted list of non-overlapping intervals
static struct clinterval
{
unsigned int first;
unsigned int last;
unsigned int class;
} classes[] =
{
{0x037e, 0x037e, 1}, // Greek question mark
{0x0387, 0x0387, 1}, // Greek ano teleia
{0x055a, 0x055f, 1}, // Armenian punctuation
{0x0589, 0x0589, 1}, // Armenian full stop
{0x05be, 0x05be, 1},
{0x05c0, 0x05c0, 1},
{0x05c3, 0x05c3, 1},
{0x05f3, 0x05f4, 1},
{0x060c, 0x060c, 1},
{0x061b, 0x061b, 1},
{0x061f, 0x061f, 1},
{0x066a, 0x066d, 1},
{0x06d4, 0x06d4, 1},
{0x0700, 0x070d, 1}, // Syriac punctuation
{0x0964, 0x0965, 1},
{0x0970, 0x0970, 1},
{0x0df4, 0x0df4, 1},
{0x0e4f, 0x0e4f, 1},
{0x0e5a, 0x0e5b, 1},
{0x0f04, 0x0f12, 1},
{0x0f3a, 0x0f3d, 1},
{0x0f85, 0x0f85, 1},
{0x104a, 0x104f, 1}, // Myanmar punctuation
{0x10fb, 0x10fb, 1}, // Georgian punctuation
{0x1361, 0x1368, 1}, // Ethiopic punctuation
{0x166d, 0x166e, 1}, // Canadian Syl. punctuation
{0x1680, 0x1680, 0},
{0x169b, 0x169c, 1},
{0x16eb, 0x16ed, 1},
{0x1735, 0x1736, 1},
{0x17d4, 0x17dc, 1}, // Khmer punctuation
{0x1800, 0x180a, 1}, // Mongolian punctuation
{0x2000, 0x200b, 0}, // spaces
{0x200c, 0x2027, 1}, // punctuation and symbols
{0x2028, 0x2029, 0},
{0x202a, 0x202e, 1}, // punctuation and symbols
{0x202f, 0x202f, 0},
{0x2030, 0x205e, 1}, // punctuation and symbols
{0x205f, 0x205f, 0},
{0x2060, 0x27ff, 1}, // punctuation and symbols
{0x2070, 0x207f, 0x2070}, // superscript
{0x2080, 0x2094, 0x2080}, // subscript
{0x20a0, 0x27ff, 1}, // all kinds of symbols
{0x2800, 0x28ff, 0x2800}, // braille
{0x2900, 0x2998, 1}, // arrows, brackets, etc.
{0x29d8, 0x29db, 1},
{0x29fc, 0x29fd, 1},
{0x2e00, 0x2e7f, 1}, // supplemental punctuation
{0x3000, 0x3000, 0}, // ideographic space
{0x3001, 0x3020, 1}, // ideographic punctuation
{0x3030, 0x3030, 1},
{0x303d, 0x303d, 1},
{0x3040, 0x309f, 0x3040}, // Hiragana
{0x30a0, 0x30ff, 0x30a0}, // Katakana
{0x3300, 0x9fff, 0x4e00}, // CJK Ideographs
{0xac00, 0xd7a3, 0xac00}, // Hangul Syllables
{0xf900, 0xfaff, 0x4e00}, // CJK Ideographs
{0xfd3e, 0xfd3f, 1},
{0xfe30, 0xfe6b, 1}, // punctuation forms
{0xff00, 0xff0f, 1}, // half/fullwidth ASCII
{0xff1a, 0xff20, 1}, // half/fullwidth ASCII
{0xff3b, 0xff40, 1}, // half/fullwidth ASCII
{0xff5b, 0xff65, 1}, // half/fullwidth ASCII
{0x1d000, 0x1d24f, 1}, // Musical notation
{0x1d400, 0x1d7ff, 1}, // Mathematical Alphanumeric Symbols
{0x1f000, 0x1f2ff, 1}, // Game pieces; enclosed characters
{0x1f300, 0x1f9ff, 1}, // Many symbol blocks
{0x20000, 0x2a6df, 0x4e00}, // CJK Ideographs
{0x2a700, 0x2b73f, 0x4e00}, // CJK Ideographs
{0x2b740, 0x2b81f, 0x4e00}, // CJK Ideographs
{0x2f800, 0x2fa1f, 0x4e00}, // CJK Ideographs
};
int bot = 0;
int top = sizeof(classes) / sizeof(struct clinterval) - 1;
int mid;
// First quick check for Latin1 characters, use 'iskeyword'.
if (c < 0x100)
{
if (c == ' ' || c == '\t' || c == NUL || c == 0xa0)
return 0; // blank
if (vim_iswordc_buf(c, buf))
return 2; // word character
return 1; // punctuation
}
// emoji
if (intable(emoji_all, sizeof(emoji_all), c))
return 3;
// binary search in table
while (top >= bot)
{
mid = (bot + top) / 2;
if (classes[mid].last < (unsigned int)c)
bot = mid + 1;
else if (classes[mid].first > (unsigned int)c)
top = mid - 1;
else
return (int)classes[mid].class;
}
// most other characters are "word" characters
return 2;
}
int
utf_ambiguous_width(int c)
{
return c >= 0x80 && (intable(ambiguous, sizeof(ambiguous), c)
|| intable(emoji_all, sizeof(emoji_all), c));
}
/*
* Code for Unicode case-dependent operations. Based on notes in
* http://www.unicode.org/Public/UNIDATA/CaseFolding.txt
* This code uses simple case folding, not full case folding.
* Last updated for Unicode 5.2.
*/
/*
* The following tables are built by ../runtime/tools/unicode.vim.
* They must be in numeric order, because we use binary search.
* An entry such as {0x41,0x5a,1,32} means that Unicode characters in the
* range from 0x41 to 0x5a inclusive, stepping by 1, are changed to
* folded/upper/lower by adding 32.
*/
typedef struct
{
int rangeStart;
int rangeEnd;
int step;
int offset;
} convertStruct;
static convertStruct foldCase[] =
{
{0x41,0x5a,1,32},
{0xb5,0xb5,-1,775},
{0xc0,0xd6,1,32},
{0xd8,0xde,1,32},
{0x100,0x12e,2,1},
{0x132,0x136,2,1},
{0x139,0x147,2,1},
{0x14a,0x176,2,1},
{0x178,0x178,-1,-121},
{0x179,0x17d,2,1},
{0x17f,0x17f,-1,-268},
{0x181,0x181,-1,210},
{0x182,0x184,2,1},
{0x186,0x186,-1,206},
{0x187,0x187,-1,1},
{0x189,0x18a,1,205},
{0x18b,0x18b,-1,1},
{0x18e,0x18e,-1,79},
{0x18f,0x18f,-1,202},
{0x190,0x190,-1,203},
{0x191,0x191,-1,1},
{0x193,0x193,-1,205},
{0x194,0x194,-1,207},
{0x196,0x196,-1,211},
{0x197,0x197,-1,209},
{0x198,0x198,-1,1},
{0x19c,0x19c,-1,211},
{0x19d,0x19d,-1,213},
{0x19f,0x19f,-1,214},
{0x1a0,0x1a4,2,1},
{0x1a6,0x1a6,-1,218},
{0x1a7,0x1a7,-1,1},
{0x1a9,0x1a9,-1,218},
{0x1ac,0x1ac,-1,1},
{0x1ae,0x1ae,-1,218},
{0x1af,0x1af,-1,1},
{0x1b1,0x1b2,1,217},
{0x1b3,0x1b5,2,1},
{0x1b7,0x1b7,-1,219},
{0x1b8,0x1bc,4,1},
{0x1c4,0x1c4,-1,2},
{0x1c5,0x1c5,-1,1},
{0x1c7,0x1c7,-1,2},
{0x1c8,0x1c8,-1,1},
{0x1ca,0x1ca,-1,2},
{0x1cb,0x1db,2,1},
{0x1de,0x1ee,2,1},
{0x1f1,0x1f1,-1,2},
{0x1f2,0x1f4,2,1},
{0x1f6,0x1f6,-1,-97},
{0x1f7,0x1f7,-1,-56},
{0x1f8,0x21e,2,1},
{0x220,0x220,-1,-130},
{0x222,0x232,2,1},
{0x23a,0x23a,-1,10795},
{0x23b,0x23b,-1,1},
{0x23d,0x23d,-1,-163},
{0x23e,0x23e,-1,10792},
{0x241,0x241,-1,1},
{0x243,0x243,-1,-195},
{0x244,0x244,-1,69},
{0x245,0x245,-1,71},
{0x246,0x24e,2,1},
{0x345,0x345,-1,116},
{0x370,0x372,2,1},
{0x376,0x376,-1,1},
{0x37f,0x37f,-1,116},
{0x386,0x386,-1,38},
{0x388,0x38a,1,37},
{0x38c,0x38c,-1,64},
{0x38e,0x38f,1,63},
{0x391,0x3a1,1,32},
{0x3a3,0x3ab,1,32},
{0x3c2,0x3c2,-1,1},
{0x3cf,0x3cf,-1,8},
{0x3d0,0x3d0,-1,-30},
{0x3d1,0x3d1,-1,-25},
{0x3d5,0x3d5,-1,-15},
{0x3d6,0x3d6,-1,-22},
{0x3d8,0x3ee,2,1},
{0x3f0,0x3f0,-1,-54},
{0x3f1,0x3f1,-1,-48},
{0x3f4,0x3f4,-1,-60},
{0x3f5,0x3f5,-1,-64},
{0x3f7,0x3f7,-1,1},
{0x3f9,0x3f9,-1,-7},
{0x3fa,0x3fa,-1,1},
{0x3fd,0x3ff,1,-130},
{0x400,0x40f,1,80},
{0x410,0x42f,1,32},
{0x460,0x480,2,1},
{0x48a,0x4be,2,1},
{0x4c0,0x4c0,-1,15},
{0x4c1,0x4cd,2,1},
{0x4d0,0x52e,2,1},
{0x531,0x556,1,48},
{0x10a0,0x10c5,1,7264},
{0x10c7,0x10cd,6,7264},
{0x13f8,0x13fd,1,-8},
{0x1c80,0x1c80,-1,-6222},
{0x1c81,0x1c81,-1,-6221},
{0x1c82,0x1c82,-1,-6212},
{0x1c83,0x1c84,1,-6210},
{0x1c85,0x1c85,-1,-6211},
{0x1c86,0x1c86,-1,-6204},
{0x1c87,0x1c87,-1,-6180},
{0x1c88,0x1c88,-1,35267},
{0x1c90,0x1cba,1,-3008},
{0x1cbd,0x1cbf,1,-3008},
{0x1e00,0x1e94,2,1},
{0x1e9b,0x1e9b,-1,-58},
{0x1e9e,0x1e9e,-1,-7615},
{0x1ea0,0x1efe,2,1},
{0x1f08,0x1f0f,1,-8},
{0x1f18,0x1f1d,1,-8},
{0x1f28,0x1f2f,1,-8},
{0x1f38,0x1f3f,1,-8},
{0x1f48,0x1f4d,1,-8},
{0x1f59,0x1f5f,2,-8},
{0x1f68,0x1f6f,1,-8},
{0x1f88,0x1f8f,1,-8},
{0x1f98,0x1f9f,1,-8},
{0x1fa8,0x1faf,1,-8},
{0x1fb8,0x1fb9,1,-8},
{0x1fba,0x1fbb,1,-74},
{0x1fbc,0x1fbc,-1,-9},
{0x1fbe,0x1fbe,-1,-7173},
{0x1fc8,0x1fcb,1,-86},
{0x1fcc,0x1fcc,-1,-9},
{0x1fd8,0x1fd9,1,-8},
{0x1fda,0x1fdb,1,-100},
{0x1fe8,0x1fe9,1,-8},
{0x1fea,0x1feb,1,-112},
{0x1fec,0x1fec,-1,-7},
{0x1ff8,0x1ff9,1,-128},
{0x1ffa,0x1ffb,1,-126},
{0x1ffc,0x1ffc,-1,-9},
{0x2126,0x2126,-1,-7517},
{0x212a,0x212a,-1,-8383},
{0x212b,0x212b,-1,-8262},
{0x2132,0x2132,-1,28},
{0x2160,0x216f,1,16},
{0x2183,0x2183,-1,1},
{0x24b6,0x24cf,1,26},
{0x2c00,0x2c2e,1,48},
{0x2c60,0x2c60,-1,1},
{0x2c62,0x2c62,-1,-10743},
{0x2c63,0x2c63,-1,-3814},
{0x2c64,0x2c64,-1,-10727},
{0x2c67,0x2c6b,2,1},
{0x2c6d,0x2c6d,-1,-10780},
{0x2c6e,0x2c6e,-1,-10749},
{0x2c6f,0x2c6f,-1,-10783},
{0x2c70,0x2c70,-1,-10782},
{0x2c72,0x2c75,3,1},
{0x2c7e,0x2c7f,1,-10815},
{0x2c80,0x2ce2,2,1},
{0x2ceb,0x2ced,2,1},
{0x2cf2,0xa640,31054,1},
{0xa642,0xa66c,2,1},
{0xa680,0xa69a,2,1},
{0xa722,0xa72e,2,1},
{0xa732,0xa76e,2,1},
{0xa779,0xa77b,2,1},
{0xa77d,0xa77d,-1,-35332},
{0xa77e,0xa786,2,1},
{0xa78b,0xa78b,-1,1},
{0xa78d,0xa78d,-1,-42280},
{0xa790,0xa792,2,1},
{0xa796,0xa7a8,2,1},
{0xa7aa,0xa7aa,-1,-42308},
{0xa7ab,0xa7ab,-1,-42319},
{0xa7ac,0xa7ac,-1,-42315},
{0xa7ad,0xa7ad,-1,-42305},
{0xa7ae,0xa7ae,-1,-42308},
{0xa7b0,0xa7b0,-1,-42258},
{0xa7b1,0xa7b1,-1,-42282},
{0xa7b2,0xa7b2,-1,-42261},
{0xa7b3,0xa7b3,-1,928},
{0xa7b4,0xa7be,2,1},
{0xa7c2,0xa7c2,-1,1},
{0xa7c4,0xa7c4,-1,-48},
{0xa7c5,0xa7c5,-1,-42307},
{0xa7c6,0xa7c6,-1,-35384},
{0xab70,0xabbf,1,-38864},
{0xff21,0xff3a,1,32},
{0x10400,0x10427,1,40},
{0x104b0,0x104d3,1,40},
{0x10c80,0x10cb2,1,64},
{0x118a0,0x118bf,1,32},
{0x16e40,0x16e5f,1,32},
{0x1e900,0x1e921,1,34}
};
/*
* Generic conversion function for case operations.
* Return the converted equivalent of "a", which is a UCS-4 character. Use
* the given conversion "table". Uses binary search on "table".
*/
static int
utf_convert(
int a,
convertStruct table[],
int tableSize)
{
int start, mid, end; // indices into table
int entries = tableSize / sizeof(convertStruct);
start = 0;
end = entries;
while (start < end)
{
// need to search further
mid = (end + start) / 2;
if (table[mid].rangeEnd < a)
start = mid + 1;
else
end = mid;
}
if (start < entries
&& table[start].rangeStart <= a
&& a <= table[start].rangeEnd
&& (a - table[start].rangeStart) % table[start].step == 0)
return (a + table[start].offset);
else
return a;
}
/*
* Return the folded-case equivalent of "a", which is a UCS-4 character. Uses
* simple case folding.
*/
int
utf_fold(int a)
{
if (a < 0x80)
// be fast for ASCII
return a >= 0x41 && a <= 0x5a ? a + 32 : a;
return utf_convert(a, foldCase, (int)sizeof(foldCase));
}
static convertStruct toLower[] =
{
{0x41,0x5a,1,32},
{0xc0,0xd6,1,32},
{0xd8,0xde,1,32},
{0x100,0x12e,2,1},
{0x130,0x130,-1,-199},
{0x132,0x136,2,1},
{0x139,0x147,2,1},
{0x14a,0x176,2,1},
{0x178,0x178,-1,-121},
{0x179,0x17d,2,1},
{0x181,0x181,-1,210},
{0x182,0x184,2,1},
{0x186,0x186,-1,206},
{0x187,0x187,-1,1},
{0x189,0x18a,1,205},
{0x18b,0x18b,-1,1},
{0x18e,0x18e,-1,79},
{0x18f,0x18f,-1,202},
{0x190,0x190,-1,203},
{0x191,0x191,-1,1},
{0x193,0x193,-1,205},
{0x194,0x194,-1,207},
{0x196,0x196,-1,211},
{0x197,0x197,-1,209},
{0x198,0x198,-1,1},
{0x19c,0x19c,-1,211},
{0x19d,0x19d,-1,213},
{0x19f,0x19f,-1,214},
{0x1a0,0x1a4,2,1},
{0x1a6,0x1a6,-1,218},
{0x1a7,0x1a7,-1,1},
{0x1a9,0x1a9,-1,218},
{0x1ac,0x1ac,-1,1},
{0x1ae,0x1ae,-1,218},
{0x1af,0x1af,-1,1},
{0x1b1,0x1b2,1,217},
{0x1b3,0x1b5,2,1},
{0x1b7,0x1b7,-1,219},
{0x1b8,0x1bc,4,1},
{0x1c4,0x1c4,-1,2},
{0x1c5,0x1c5,-1,1},
{0x1c7,0x1c7,-1,2},
{0x1c8,0x1c8,-1,1},
{0x1ca,0x1ca,-1,2},
{0x1cb,0x1db,2,1},
{0x1de,0x1ee,2,1},
{0x1f1,0x1f1,-1,2},
{0x1f2,0x1f4,2,1},
{0x1f6,0x1f6,-1,-97},
{0x1f7,0x1f7,-1,-56},
{0x1f8,0x21e,2,1},
{0x220,0x220,-1,-130},
{0x222,0x232,2,1},
{0x23a,0x23a,-1,10795},
{0x23b,0x23b,-1,1},
{0x23d,0x23d,-1,-163},
{0x23e,0x23e,-1,10792},
{0x241,0x241,-1,1},
{0x243,0x243,-1,-195},
{0x244,0x244,-1,69},
{0x245,0x245,-1,71},
{0x246,0x24e,2,1},
{0x370,0x372,2,1},
{0x376,0x376,-1,1},
{0x37f,0x37f,-1,116},
{0x386,0x386,-1,38},
{0x388,0x38a,1,37},
{0x38c,0x38c,-1,64},
{0x38e,0x38f,1,63},
{0x391,0x3a1,1,32},
{0x3a3,0x3ab,1,32},
{0x3cf,0x3cf,-1,8},
{0x3d8,0x3ee,2,1},
{0x3f4,0x3f4,-1,-60},
{0x3f7,0x3f7,-1,1},
{0x3f9,0x3f9,-1,-7},
{0x3fa,0x3fa,-1,1},
{0x3fd,0x3ff,1,-130},
{0x400,0x40f,1,80},
{0x410,0x42f,1,32},
{0x460,0x480,2,1},
{0x48a,0x4be,2,1},
{0x4c0,0x4c0,-1,15},
{0x4c1,0x4cd,2,1},
{0x4d0,0x52e,2,1},
{0x531,0x556,1,48},
{0x10a0,0x10c5,1,7264},
{0x10c7,0x10cd,6,7264},
{0x13a0,0x13ef,1,38864},
{0x13f0,0x13f5,1,8},
{0x1c90,0x1cba,1,-3008},
{0x1cbd,0x1cbf,1,-3008},
{0x1e00,0x1e94,2,1},
{0x1e9e,0x1e9e,-1,-7615},
{0x1ea0,0x1efe,2,1},
{0x1f08,0x1f0f,1,-8},
{0x1f18,0x1f1d,1,-8},
{0x1f28,0x1f2f,1,-8},
{0x1f38,0x1f3f,1,-8},
{0x1f48,0x1f4d,1,-8},
{0x1f59,0x1f5f,2,-8},
{0x1f68,0x1f6f,1,-8},
{0x1f88,0x1f8f,1,-8},
{0x1f98,0x1f9f,1,-8},
{0x1fa8,0x1faf,1,-8},
{0x1fb8,0x1fb9,1,-8},
{0x1fba,0x1fbb,1,-74},
{0x1fbc,0x1fbc,-1,-9},
{0x1fc8,0x1fcb,1,-86},
{0x1fcc,0x1fcc,-1,-9},
{0x1fd8,0x1fd9,1,-8},
{0x1fda,0x1fdb,1,-100},
{0x1fe8,0x1fe9,1,-8},
{0x1fea,0x1feb,1,-112},
{0x1fec,0x1fec,-1,-7},
{0x1ff8,0x1ff9,1,-128},
{0x1ffa,0x1ffb,1,-126},
{0x1ffc,0x1ffc,-1,-9},
{0x2126,0x2126,-1,-7517},
{0x212a,0x212a,-1,-8383},
{0x212b,0x212b,-1,-8262},
{0x2132,0x2132,-1,28},
{0x2160,0x216f,1,16},
{0x2183,0x2183,-1,1},
{0x24b6,0x24cf,1,26},
{0x2c00,0x2c2e,1,48},
{0x2c60,0x2c60,-1,1},
{0x2c62,0x2c62,-1,-10743},
{0x2c63,0x2c63,-1,-3814},
{0x2c64,0x2c64,-1,-10727},
{0x2c67,0x2c6b,2,1},
{0x2c6d,0x2c6d,-1,-10780},
{0x2c6e,0x2c6e,-1,-10749},
{0x2c6f,0x2c6f,-1,-10783},
{0x2c70,0x2c70,-1,-10782},
{0x2c72,0x2c75,3,1},
{0x2c7e,0x2c7f,1,-10815},
{0x2c80,0x2ce2,2,1},
{0x2ceb,0x2ced,2,1},
{0x2cf2,0xa640,31054,1},
{0xa642,0xa66c,2,1},
{0xa680,0xa69a,2,1},
{0xa722,0xa72e,2,1},
{0xa732,0xa76e,2,1},
{0xa779,0xa77b,2,1},
{0xa77d,0xa77d,-1,-35332},
{0xa77e,0xa786,2,1},
{0xa78b,0xa78b,-1,1},
{0xa78d,0xa78d,-1,-42280},
{0xa790,0xa792,2,1},
{0xa796,0xa7a8,2,1},
{0xa7aa,0xa7aa,-1,-42308},
{0xa7ab,0xa7ab,-1,-42319},
{0xa7ac,0xa7ac,-1,-42315},
{0xa7ad,0xa7ad,-1,-42305},
{0xa7ae,0xa7ae,-1,-42308},
{0xa7b0,0xa7b0,-1,-42258},
{0xa7b1,0xa7b1,-1,-42282},
{0xa7b2,0xa7b2,-1,-42261},
{0xa7b3,0xa7b3,-1,928},
{0xa7b4,0xa7be,2,1},
{0xa7c2,0xa7c2,-1,1},
{0xa7c4,0xa7c4,-1,-48},
{0xa7c5,0xa7c5,-1,-42307},
{0xa7c6,0xa7c6,-1,-35384},
{0xff21,0xff3a,1,32},
{0x10400,0x10427,1,40},
{0x104b0,0x104d3,1,40},
{0x10c80,0x10cb2,1,64},
{0x118a0,0x118bf,1,32},
{0x16e40,0x16e5f,1,32},
{0x1e900,0x1e921,1,34}
};
static convertStruct toUpper[] =
{
{0x61,0x7a,1,-32},
{0xb5,0xb5,-1,743},
{0xe0,0xf6,1,-32},
{0xf8,0xfe,1,-32},
{0xff,0xff,-1,121},
{0x101,0x12f,2,-1},
{0x131,0x131,-1,-232},
{0x133,0x137,2,-1},
{0x13a,0x148,2,-1},
{0x14b,0x177,2,-1},
{0x17a,0x17e,2,-1},
{0x17f,0x17f,-1,-300},
{0x180,0x180,-1,195},
{0x183,0x185,2,-1},
{0x188,0x18c,4,-1},
{0x192,0x192,-1,-1},
{0x195,0x195,-1,97},
{0x199,0x199,-1,-1},
{0x19a,0x19a,-1,163},
{0x19e,0x19e,-1,130},
{0x1a1,0x1a5,2,-1},
{0x1a8,0x1ad,5,-1},
{0x1b0,0x1b4,4,-1},
{0x1b6,0x1b9,3,-1},
{0x1bd,0x1bd,-1,-1},
{0x1bf,0x1bf,-1,56},
{0x1c5,0x1c5,-1,-1},
{0x1c6,0x1c6,-1,-2},
{0x1c8,0x1c8,-1,-1},
{0x1c9,0x1c9,-1,-2},
{0x1cb,0x1cb,-1,-1},
{0x1cc,0x1cc,-1,-2},
{0x1ce,0x1dc,2,-1},
{0x1dd,0x1dd,-1,-79},
{0x1df,0x1ef,2,-1},
{0x1f2,0x1f2,-1,-1},
{0x1f3,0x1f3,-1,-2},
{0x1f5,0x1f9,4,-1},
{0x1fb,0x21f,2,-1},
{0x223,0x233,2,-1},
{0x23c,0x23c,-1,-1},
{0x23f,0x240,1,10815},
{0x242,0x247,5,-1},
{0x249,0x24f,2,-1},
{0x250,0x250,-1,10783},
{0x251,0x251,-1,10780},
{0x252,0x252,-1,10782},
{0x253,0x253,-1,-210},
{0x254,0x254,-1,-206},
{0x256,0x257,1,-205},
{0x259,0x259,-1,-202},
{0x25b,0x25b,-1,-203},
{0x25c,0x25c,-1,42319},
{0x260,0x260,-1,-205},
{0x261,0x261,-1,42315},
{0x263,0x263,-1,-207},
{0x265,0x265,-1,42280},
{0x266,0x266,-1,42308},
{0x268,0x268,-1,-209},
{0x269,0x269,-1,-211},
{0x26a,0x26a,-1,42308},
{0x26b,0x26b,-1,10743},
{0x26c,0x26c,-1,42305},
{0x26f,0x26f,-1,-211},
{0x271,0x271,-1,10749},
{0x272,0x272,-1,-213},
{0x275,0x275,-1,-214},
{0x27d,0x27d,-1,10727},
{0x280,0x280,-1,-218},
{0x282,0x282,-1,42307},
{0x283,0x283,-1,-218},
{0x287,0x287,-1,42282},
{0x288,0x288,-1,-218},
{0x289,0x289,-1,-69},
{0x28a,0x28b,1,-217},
{0x28c,0x28c,-1,-71},
{0x292,0x292,-1,-219},
{0x29d,0x29d,-1,42261},
{0x29e,0x29e,-1,42258},
{0x345,0x345,-1,84},
{0x371,0x373,2,-1},
{0x377,0x377,-1,-1},
{0x37b,0x37d,1,130},
{0x3ac,0x3ac,-1,-38},
{0x3ad,0x3af,1,-37},
{0x3b1,0x3c1,1,-32},
{0x3c2,0x3c2,-1,-31},
{0x3c3,0x3cb,1,-32},
{0x3cc,0x3cc,-1,-64},
{0x3cd,0x3ce,1,-63},
{0x3d0,0x3d0,-1,-62},
{0x3d1,0x3d1,-1,-57},
{0x3d5,0x3d5,-1,-47},
{0x3d6,0x3d6,-1,-54},
{0x3d7,0x3d7,-1,-8},
{0x3d9,0x3ef,2,-1},
{0x3f0,0x3f0,-1,-86},
{0x3f1,0x3f1,-1,-80},
{0x3f2,0x3f2,-1,7},
{0x3f3,0x3f3,-1,-116},
{0x3f5,0x3f5,-1,-96},
{0x3f8,0x3fb,3,-1},
{0x430,0x44f,1,-32},
{0x450,0x45f,1,-80},
{0x461,0x481,2,-1},
{0x48b,0x4bf,2,-1},
{0x4c2,0x4ce,2,-1},
{0x4cf,0x4cf,-1,-15},
{0x4d1,0x52f,2,-1},
{0x561,0x586,1,-48},
{0x10d0,0x10fa,1,3008},
{0x10fd,0x10ff,1,3008},
{0x13f8,0x13fd,1,-8},
{0x1c80,0x1c80,-1,-6254},
{0x1c81,0x1c81,-1,-6253},
{0x1c82,0x1c82,-1,-6244},
{0x1c83,0x1c84,1,-6242},
{0x1c85,0x1c85,-1,-6243},
{0x1c86,0x1c86,-1,-6236},
{0x1c87,0x1c87,-1,-6181},
{0x1c88,0x1c88,-1,35266},
{0x1d79,0x1d79,-1,35332},
{0x1d7d,0x1d7d,-1,3814},
{0x1d8e,0x1d8e,-1,35384},
{0x1e01,0x1e95,2,-1},
{0x1e9b,0x1e9b,-1,-59},
{0x1ea1,0x1eff,2,-1},
{0x1f00,0x1f07,1,8},
{0x1f10,0x1f15,1,8},
{0x1f20,0x1f27,1,8},
{0x1f30,0x1f37,1,8},
{0x1f40,0x1f45,1,8},
{0x1f51,0x1f57,2,8},
{0x1f60,0x1f67,1,8},
{0x1f70,0x1f71,1,74},
{0x1f72,0x1f75,1,86},
{0x1f76,0x1f77,1,100},
{0x1f78,0x1f79,1,128},
{0x1f7a,0x1f7b,1,112},
{0x1f7c,0x1f7d,1,126},
{0x1f80,0x1f87,1,8},
{0x1f90,0x1f97,1,8},
{0x1fa0,0x1fa7,1,8},
{0x1fb0,0x1fb1,1,8},
{0x1fb3,0x1fb3,-1,9},
{0x1fbe,0x1fbe,-1,-7205},
{0x1fc3,0x1fc3,-1,9},
{0x1fd0,0x1fd1,1,8},
{0x1fe0,0x1fe1,1,8},
{0x1fe5,0x1fe5,-1,7},
{0x1ff3,0x1ff3,-1,9},
{0x214e,0x214e,-1,-28},
{0x2170,0x217f,1,-16},
{0x2184,0x2184,-1,-1},
{0x24d0,0x24e9,1,-26},
{0x2c30,0x2c5e,1,-48},
{0x2c61,0x2c61,-1,-1},
{0x2c65,0x2c65,-1,-10795},
{0x2c66,0x2c66,-1,-10792},
{0x2c68,0x2c6c,2,-1},
{0x2c73,0x2c76,3,-1},
{0x2c81,0x2ce3,2,-1},
{0x2cec,0x2cee,2,-1},
{0x2cf3,0x2cf3,-1,-1},
{0x2d00,0x2d25,1,-7264},
{0x2d27,0x2d2d,6,-7264},
{0xa641,0xa66d,2,-1},
{0xa681,0xa69b,2,-1},
{0xa723,0xa72f,2,-1},
{0xa733,0xa76f,2,-1},
{0xa77a,0xa77c,2,-1},
{0xa77f,0xa787,2,-1},
{0xa78c,0xa791,5,-1},
{0xa793,0xa793,-1,-1},
{0xa794,0xa794,-1,48},
{0xa797,0xa7a9,2,-1},
{0xa7b5,0xa7bf,2,-1},
{0xa7c3,0xa7c3,-1,-1},
{0xab53,0xab53,-1,-928},
{0xab70,0xabbf,1,-38864},
{0xff41,0xff5a,1,-32},
{0x10428,0x1044f,1,-40},
{0x104d8,0x104fb,1,-40},
{0x10cc0,0x10cf2,1,-64},
{0x118c0,0x118df,1,-32},
{0x16e60,0x16e7f,1,-32},
{0x1e922,0x1e943,1,-34}
};
/*
* Return the upper-case equivalent of "a", which is a UCS-4 character. Use
* simple case folding.
*/
int
utf_toupper(int a)
{
// If 'casemap' contains "keepascii" use ASCII style toupper().
if (a < 128 && (cmp_flags & CMP_KEEPASCII))
return TOUPPER_ASC(a);
#if defined(HAVE_TOWUPPER) && defined(__STDC_ISO_10646__)
// If towupper() is available and handles Unicode, use it.
if (!(cmp_flags & CMP_INTERNAL))
return towupper(a);
#endif
// For characters below 128 use locale sensitive toupper().
if (a < 128)
return TOUPPER_LOC(a);
// For any other characters use the above mapping table.
return utf_convert(a, toUpper, (int)sizeof(toUpper));
}
int
utf_islower(int a)
{
// German sharp s is lower case but has no upper case equivalent.
return (utf_toupper(a) != a) || a == 0xdf;
}
/*
* Return the lower-case equivalent of "a", which is a UCS-4 character. Use
* simple case folding.
*/
int
utf_tolower(int a)
{
// If 'casemap' contains "keepascii" use ASCII style tolower().
if (a < 128 && (cmp_flags & CMP_KEEPASCII))
return TOLOWER_ASC(a);
#if defined(HAVE_TOWLOWER) && defined(__STDC_ISO_10646__)
// If towlower() is available and handles Unicode, use it.
if (!(cmp_flags & CMP_INTERNAL))
return towlower(a);
#endif
// For characters below 128 use locale sensitive tolower().
if (a < 128)
return TOLOWER_LOC(a);
// For any other characters use the above mapping table.
return utf_convert(a, toLower, (int)sizeof(toLower));
}
int
utf_isupper(int a)
{
return (utf_tolower(a) != a);
}
static int
utf_strnicmp(
char_u *s1,
char_u *s2,
size_t n1,
size_t n2)
{
int c1, c2, cdiff;
char_u buffer[6];
for (;;)
{
c1 = utf_safe_read_char_adv(&s1, &n1);
c2 = utf_safe_read_char_adv(&s2, &n2);
if (c1 <= 0 || c2 <= 0)
break;
if (c1 == c2)
continue;
cdiff = utf_fold(c1) - utf_fold(c2);
if (cdiff != 0)
return cdiff;
}
// some string ended or has an incomplete/illegal character sequence
if (c1 == 0 || c2 == 0)
{
// some string ended. shorter string is smaller
if (c1 == 0 && c2 == 0)
return 0;
return c1 == 0 ? -1 : 1;
}
// Continue with bytewise comparison to produce some result that
// would make comparison operations involving this function transitive.
//
// If only one string had an error, comparison should be made with
// folded version of the other string. In this case it is enough
// to fold just one character to determine the result of comparison.
if (c1 != -1 && c2 == -1)
{
n1 = utf_char2bytes(utf_fold(c1), buffer);
s1 = buffer;
}
else if (c2 != -1 && c1 == -1)
{
n2 = utf_char2bytes(utf_fold(c2), buffer);
s2 = buffer;
}
while (n1 > 0 && n2 > 0 && *s1 != NUL && *s2 != NUL)
{
cdiff = (int)(*s1) - (int)(*s2);
if (cdiff != 0)
return cdiff;
s1++;
s2++;
n1--;
n2--;
}
if (n1 > 0 && *s1 == NUL)
n1 = 0;
if (n2 > 0 && *s2 == NUL)
n2 = 0;
if (n1 == 0 && n2 == 0)
return 0;
return n1 == 0 ? -1 : 1;
}
/*
* Version of strnicmp() that handles multi-byte characters.
* Needed for Big5, Shift-JIS and UTF-8 encoding. Other DBCS encodings can
* probably use strnicmp(), because there are no ASCII characters in the
* second byte.
* Returns zero if s1 and s2 are equal (ignoring case), the difference between
* two characters otherwise.
*/
int
mb_strnicmp(char_u *s1, char_u *s2, size_t nn)
{
int i, l;
int cdiff;
int n = (int)nn;
if (enc_utf8)
{
return utf_strnicmp(s1, s2, nn, nn);
}
else
{
for (i = 0; i < n; i += l)
{
if (s1[i] == NUL && s2[i] == NUL) // both strings end
return 0;
l = (*mb_ptr2len)(s1 + i);
if (l <= 1)
{
// Single byte: first check normally, then with ignore case.
if (s1[i] != s2[i])
{
cdiff = MB_TOLOWER(s1[i]) - MB_TOLOWER(s2[i]);
if (cdiff != 0)
return cdiff;
}
}
else
{
// For non-Unicode multi-byte don't ignore case.
if (l > n - i)
l = n - i;
cdiff = STRNCMP(s1 + i, s2 + i, l);
if (cdiff != 0)
return cdiff;
}
}
}
return 0;
}
/*
* "g8": show bytes of the UTF-8 char under the cursor. Doesn't matter what
* 'encoding' has been set to.
*/
void
show_utf8(void)
{
int len;
int rlen = 0;
char_u *line;
int clen;
int i;
// Get the byte length of the char under the cursor, including composing
// characters.
line = ml_get_cursor();
len = utfc_ptr2len(line);
if (len == 0)
{
msg("NUL");
return;
}
clen = 0;
for (i = 0; i < len; ++i)
{
if (clen == 0)
{
// start of (composing) character, get its length
if (i > 0)
{
STRCPY(IObuff + rlen, "+ ");
rlen += 2;
}
clen = utf_ptr2len(line + i);
}
sprintf((char *)IObuff + rlen, "%02x ",
(line[i] == NL) ? NUL : line[i]); // NUL is stored as NL
--clen;
rlen += (int)STRLEN(IObuff + rlen);
if (rlen > IOSIZE - 20)
break;
}
msg((char *)IObuff);
}
/*
* mb_head_off() function pointer.
* Return offset from "p" to the first byte of the character it points into.
* If "p" points to the NUL at the end of the string return 0.
* Returns 0 when already at the first byte of a character.
*/
int
latin_head_off(char_u *base UNUSED, char_u *p UNUSED)
{
return 0;
}
static int
dbcs_head_off(char_u *base, char_u *p)
{
char_u *q;
// It can't be a trailing byte when not using DBCS, at the start of the
// string or the previous byte can't start a double-byte.
if (p <= base || MB_BYTE2LEN(p[-1]) == 1 || *p == NUL)
return 0;
// This is slow: need to start at the base and go forward until the
// byte we are looking for. Return 1 when we went past it, 0 otherwise.
q = base;
while (q < p)
q += dbcs_ptr2len(q);
return (q == p) ? 0 : 1;
}
/*
* Special version of dbcs_head_off() that works for ScreenLines[], where
* single-width DBCS_JPNU characters are stored separately.
*/
int
dbcs_screen_head_off(char_u *base, char_u *p)
{
char_u *q;
// It can't be a trailing byte when not using DBCS, at the start of the
// string or the previous byte can't start a double-byte.
// For euc-jp an 0x8e byte in the previous cell always means we have a
// lead byte in the current cell.
if (p <= base
|| (enc_dbcs == DBCS_JPNU && p[-1] == 0x8e)
|| MB_BYTE2LEN(p[-1]) == 1
|| *p == NUL)
return 0;
// This is slow: need to start at the base and go forward until the
// byte we are looking for. Return 1 when we went past it, 0 otherwise.
// For DBCS_JPNU look out for 0x8e, which means the second byte is not
// stored as the next byte.
q = base;
while (q < p)
{
if (enc_dbcs == DBCS_JPNU && *q == 0x8e)
++q;
else
q += dbcs_ptr2len(q);
}
return (q == p) ? 0 : 1;
}
int
utf_head_off(char_u *base, char_u *p)
{
char_u *q;
char_u *s;
int c;
int len;
#ifdef FEAT_ARABIC
char_u *j;
#endif
if (*p < 0x80) // be quick for ASCII
return 0;
// Skip backwards over trailing bytes: 10xx.xxxx
// Skip backwards again if on a composing char.
for (q = p; ; --q)
{
// Move s to the last byte of this char.
for (s = q; (s[1] & 0xc0) == 0x80; ++s)
;
// Move q to the first byte of this char.
while (q > base && (*q & 0xc0) == 0x80)
--q;
// Check for illegal sequence. Do allow an illegal byte after where we
// started.
len = utf8len_tab[*q];
if (len != (int)(s - q + 1) && len != (int)(p - q + 1))
return 0;
if (q <= base)
break;
c = utf_ptr2char(q);
if (utf_iscomposing(c))
continue;
#ifdef FEAT_ARABIC
if (arabic_maycombine(c))
{
// Advance to get a sneak-peak at the next char
j = q;
--j;
// Move j to the first byte of this char.
while (j > base && (*j & 0xc0) == 0x80)
--j;
if (arabic_combine(utf_ptr2char(j), c))
continue;
}
#endif
break;
}
return (int)(p - q);
}
/*
* Whether space is NOT allowed before/after 'c'.
*/
int
utf_eat_space(int cc)
{
return ((cc >= 0x2000 && cc <= 0x206F) // General punctuations
|| (cc >= 0x2e00 && cc <= 0x2e7f) // Supplemental punctuations
|| (cc >= 0x3000 && cc <= 0x303f) // CJK symbols and punctuations
|| (cc >= 0xff01 && cc <= 0xff0f) // Full width ASCII punctuations
|| (cc >= 0xff1a && cc <= 0xff20) // ..
|| (cc >= 0xff3b && cc <= 0xff40) // ..
|| (cc >= 0xff5b && cc <= 0xff65)); // ..
}
/*
* Whether line break is allowed before "cc".
*/
int
utf_allow_break_before(int cc)
{
static const int BOL_prohibition_punct[] =
{
'!',
'%',
')',
',',
':',
';',
'>',
'?',
']',
'}',
0x2019, // ’ right single quotation mark
0x201d, // ” right double quotation mark
0x2020, // † dagger
0x2021, // ‡ double dagger
0x2026, // … horizontal ellipsis
0x2030, // ‰ per mille sign
0x2031, // ‱ per then thousand sign
0x203c, // ‼ double exclamation mark
0x2047, // ⁇ double question mark
0x2048, // ⁈ question exclamation mark
0x2049, // ⁉ exclamation question mark
0x2103, // ℃ degree celsius
0x2109, // ℉ degree fahrenheit
0x3001, // 、 ideographic comma
0x3002, // 。 ideographic full stop
0x3009, // 〉 right angle bracket
0x300b, // 》 right double angle bracket
0x300d, // 」 right corner bracket
0x300f, // 』 right white corner bracket
0x3011, // 】 right black lenticular bracket
0x3015, // 〕 right tortoise shell bracket
0x3017, // 〗 right white lenticular bracket
0x3019, // 〙 right white tortoise shell bracket
0x301b, // 〛 right white square bracket
0xff01, // ! fullwidth exclamation mark
0xff09, // ) fullwidth right parenthesis
0xff0c, // , fullwidth comma
0xff0e, // . fullwidth full stop
0xff1a, // : fullwidth colon
0xff1b, // ; fullwidth semicolon
0xff1f, // ? fullwidth question mark
0xff3d, // ] fullwidth right square bracket
0xff5d, // } fullwidth right curly bracket
};
int first = 0;
int last = sizeof(BOL_prohibition_punct)/sizeof(int) - 1;
int mid = 0;
while (first < last)
{
mid = (first + last)/2;
if (cc == BOL_prohibition_punct[mid])
return FALSE;
else if (cc > BOL_prohibition_punct[mid])
first = mid + 1;
else
last = mid - 1;
}
return cc != BOL_prohibition_punct[first];
}
/*
* Whether line break is allowed after "cc".
*/
static int
utf_allow_break_after(int cc)
{
static const int EOL_prohibition_punct[] =
{
'(',
'<',
'[',
'`',
'{',
//0x2014, // — em dash
0x2018, // ‘ left single quotation mark
0x201c, // “ left double quotation mark
//0x2053, // ~ swung dash
0x3008, // 〈 left angle bracket
0x300a, // 《 left double angle bracket
0x300c, // 「 left corner bracket
0x300e, // 『 left white corner bracket
0x3010, // 【 left black lenticular bracket
0x3014, // 〔 left tortoise shell bracket
0x3016, // 〖 left white lenticular bracket
0x3018, // 〘 left white tortoise shell bracket
0x301a, // 〚 left white square bracket
0xff08, // ( fullwidth left parenthesis
0xff3b, // [ fullwidth left square bracket
0xff5b, // { fullwidth left curly bracket
};
int first = 0;
int last = sizeof(EOL_prohibition_punct)/sizeof(int) - 1;
int mid = 0;
while (first < last)
{
mid = (first + last)/2;
if (cc == EOL_prohibition_punct[mid])
return FALSE;
else if (cc > EOL_prohibition_punct[mid])
first = mid + 1;
else
last = mid - 1;
}
return cc != EOL_prohibition_punct[first];
}
/*
* Whether line break is allowed between "cc" and "ncc".
*/
int
utf_allow_break(int cc, int ncc)
{
// don't break between two-letter punctuations
if (cc == ncc
&& (cc == 0x2014 // em dash
|| cc == 0x2026)) // horizontal ellipsis
return FALSE;
return utf_allow_break_after(cc) && utf_allow_break_before(ncc);
}
/*
* Copy a character from "*fp" to "*tp" and advance the pointers.
*/
void
mb_copy_char(char_u **fp, char_u **tp)
{
int l = (*mb_ptr2len)(*fp);
mch_memmove(*tp, *fp, (size_t)l);
*tp += l;
*fp += l;
}
/*
* Return the offset from "p" to the first byte of a character. When "p" is
* at the start of a character 0 is returned, otherwise the offset to the next
* character. Can start anywhere in a stream of bytes.
*/
int
mb_off_next(char_u *base, char_u *p)
{
int i;
int j;
if (enc_utf8)
{
if (*p < 0x80) // be quick for ASCII
return 0;
// Find the next character that isn't 10xx.xxxx
for (i = 0; (p[i] & 0xc0) == 0x80; ++i)
;
if (i > 0)
{
// Check for illegal sequence.
for (j = 0; p - j > base; ++j)
if ((p[-j] & 0xc0) != 0x80)
break;
if (utf8len_tab[p[-j]] != i + j)
return 0;
}
return i;
}
// Only need to check if we're on a trail byte, it doesn't matter if we
// want the offset to the next or current character.
return (*mb_head_off)(base, p);
}
/*
* Return the offset from "p" to the last byte of the character it points
* into. Can start anywhere in a stream of bytes.
*/
int
mb_tail_off(char_u *base, char_u *p)
{
int i;
int j;
if (*p == NUL)
return 0;
if (enc_utf8)
{
// Find the last character that is 10xx.xxxx
for (i = 0; (p[i + 1] & 0xc0) == 0x80; ++i)
;
// Check for illegal sequence.
for (j = 0; p - j > base; ++j)
if ((p[-j] & 0xc0) != 0x80)
break;
if (utf8len_tab[p[-j]] != i + j + 1)
return 0;
return i;
}
// It can't be the first byte if a double-byte when not using DBCS, at the
// end of the string or the byte can't start a double-byte.
if (enc_dbcs == 0 || p[1] == NUL || MB_BYTE2LEN(*p) == 1)
return 0;
// Return 1 when on the lead byte, 0 when on the tail byte.
return 1 - dbcs_head_off(base, p);
}
/*
* Find the next illegal byte sequence.
*/
void
utf_find_illegal(void)
{
pos_T pos = curwin->w_cursor;
char_u *p;
int len;
vimconv_T vimconv;
char_u *tofree = NULL;
vimconv.vc_type = CONV_NONE;
if (enc_utf8 && (enc_canon_props(curbuf->b_p_fenc) & ENC_8BIT))
{
// 'encoding' is "utf-8" but we are editing a 8-bit encoded file,
// possibly a utf-8 file with illegal bytes. Setup for conversion
// from utf-8 to 'fileencoding'.
convert_setup(&vimconv, p_enc, curbuf->b_p_fenc);
}
curwin->w_cursor.coladd = 0;
for (;;)
{
p = ml_get_cursor();
if (vimconv.vc_type != CONV_NONE)
{
vim_free(tofree);
tofree = string_convert(&vimconv, p, NULL);
if (tofree == NULL)
break;
p = tofree;
}
while (*p != NUL)
{
// Illegal means that there are not enough trail bytes (checked by
// utf_ptr2len()) or too many of them (overlong sequence).
len = utf_ptr2len(p);
if (*p >= 0x80 && (len == 1
|| utf_char2len(utf_ptr2char(p)) != len))
{
if (vimconv.vc_type == CONV_NONE)
curwin->w_cursor.col += (colnr_T)(p - ml_get_cursor());
else
{
int l;
len = (int)(p - tofree);
for (p = ml_get_cursor(); *p != NUL && len-- > 0; p += l)
{
l = utf_ptr2len(p);
curwin->w_cursor.col += l;
}
}
goto theend;
}
p += len;
}
if (curwin->w_cursor.lnum == curbuf->b_ml.ml_line_count)
break;
++curwin->w_cursor.lnum;
curwin->w_cursor.col = 0;
}
// didn't find it: don't move and beep
curwin->w_cursor = pos;
beep_flush();
theend:
vim_free(tofree);
convert_setup(&vimconv, NULL, NULL);
}
#if defined(FEAT_GUI_GTK) || defined(PROTO)
/*
* Return TRUE if string "s" is a valid utf-8 string.
* When "end" is NULL stop at the first NUL.
* When "end" is positive stop there.
*/
int
utf_valid_string(char_u *s, char_u *end)
{
int l;
char_u *p = s;
while (end == NULL ? *p != NUL : p < end)
{
l = utf8len_tab_zero[*p];
if (l == 0)
return FALSE; // invalid lead byte
if (end != NULL && p + l > end)
return FALSE; // incomplete byte sequence
++p;
while (--l > 0)
if ((*p++ & 0xc0) != 0x80)
return FALSE; // invalid trail byte
}
return TRUE;
}
#endif
#if defined(FEAT_GUI) || defined(PROTO)
/*
* Special version of mb_tail_off() for use in ScreenLines[].
*/
int
dbcs_screen_tail_off(char_u *base, char_u *p)
{
// It can't be the first byte if a double-byte when not using DBCS, at the
// end of the string or the byte can't start a double-byte.
// For euc-jp an 0x8e byte always means we have a lead byte in the current
// cell.
if (*p == NUL || p[1] == NUL
|| (enc_dbcs == DBCS_JPNU && *p == 0x8e)
|| MB_BYTE2LEN(*p) == 1)
return 0;
// Return 1 when on the lead byte, 0 when on the tail byte.
return 1 - dbcs_screen_head_off(base, p);
}
#endif
/*
* If the cursor moves on an trail byte, set the cursor on the lead byte.
* Thus it moves left if necessary.
* Return TRUE when the cursor was adjusted.
*/
void
mb_adjust_cursor(void)
{
mb_adjustpos(curbuf, &curwin->w_cursor);
}
/*
* Adjust position "*lp" to point to the first byte of a multi-byte character.
* If it points to a tail byte it's moved backwards to the head byte.
*/
void
mb_adjustpos(buf_T *buf, pos_T *lp)
{
char_u *p;
if (lp->col > 0 || lp->coladd > 1)
{
p = ml_get_buf(buf, lp->lnum, FALSE);
if (*p == NUL || (int)STRLEN(p) < lp->col)
lp->col = 0;
else
lp->col -= (*mb_head_off)(p, p + lp->col);
// Reset "coladd" when the cursor would be on the right half of a
// double-wide character.
if (lp->coladd == 1
&& p[lp->col] != TAB
&& vim_isprintc((*mb_ptr2char)(p + lp->col))
&& ptr2cells(p + lp->col) > 1)
lp->coladd = 0;
}
}
/*
* Return a pointer to the character before "*p", if there is one.
*/
char_u *
mb_prevptr(
char_u *line, // start of the string
char_u *p)
{
if (p > line)
MB_PTR_BACK(line, p);
return p;
}
/*
* Return the character length of "str". Each multi-byte character (with
* following composing characters) counts as one.
*/
int
mb_charlen(char_u *str)
{
char_u *p = str;
int count;
if (p == NULL)
return 0;
for (count = 0; *p != NUL; count++)
p += (*mb_ptr2len)(p);
return count;
}
#if (defined(FEAT_SPELL) || defined(FEAT_EVAL)) || defined(PROTO)
/*
* Like mb_charlen() but for a string with specified length.
*/
int
mb_charlen_len(char_u *str, int len)
{
char_u *p = str;
int count;
for (count = 0; *p != NUL && p < str + len; count++)
p += (*mb_ptr2len)(p);
return count;
}
#endif
/*
* Try to un-escape a multi-byte character.
* Used for the "to" and "from" part of a mapping.
* Return the un-escaped string if it is a multi-byte character, and advance
* "pp" to just after the bytes that formed it.
* Return NULL if no multi-byte char was found.
*/
char_u *
mb_unescape(char_u **pp)
{
static char_u buf[6];
int n;
int m = 0;
char_u *str = *pp;
// Must translate K_SPECIAL KS_SPECIAL KE_FILLER to K_SPECIAL and CSI
// KS_EXTRA KE_CSI to CSI.
// Maximum length of a utf-8 character is 4 bytes.
for (n = 0; str[n] != NUL && m < 4; ++n)
{
if (str[n] == K_SPECIAL
&& str[n + 1] == KS_SPECIAL
&& str[n + 2] == KE_FILLER)
{
buf[m++] = K_SPECIAL;
n += 2;
}
else if ((str[n] == K_SPECIAL
# ifdef FEAT_GUI
|| str[n] == CSI
# endif
)
&& str[n + 1] == KS_EXTRA
&& str[n + 2] == (int)KE_CSI)
{
buf[m++] = CSI;
n += 2;
}
else if (str[n] == K_SPECIAL
# ifdef FEAT_GUI
|| str[n] == CSI
# endif
)
break; // a special key can't be a multibyte char
else
buf[m++] = str[n];
buf[m] = NUL;
// Return a multi-byte character if it's found. An illegal sequence
// will result in a 1 here.
if ((*mb_ptr2len)(buf) > 1)
{
*pp = str + n + 1;
return buf;
}
// Bail out quickly for ASCII.
if (buf[0] < 128)
break;
}
return NULL;
}
/*
* Return TRUE if the character at "row"/"col" on the screen is the left side
* of a double-width character.
* Caller must make sure "row" and "col" are not invalid!
*/
int
mb_lefthalve(int row, int col)
{
return (*mb_off2cells)(LineOffset[row] + col,
LineOffset[row] + screen_Columns) > 1;
}
/*
* Correct a position on the screen, if it's the right half of a double-wide
* char move it to the left half. Returns the corrected column.
*/
int
mb_fix_col(int col, int row)
{
int off;
col = check_col(col);
row = check_row(row);
off = LineOffset[row] + col;
if (has_mbyte && ScreenLines != NULL && col > 0
&& ((enc_dbcs
&& ScreenLines[off] != NUL
&& dbcs_screen_head_off(ScreenLines + LineOffset[row],
ScreenLines + off))
|| (enc_utf8 && ScreenLines[off] == 0
&& ScreenLinesUC[off] == 0)))
return col - 1;
return col;
}
static int enc_alias_search(char_u *name);
/*
* Skip the Vim specific head of a 'encoding' name.
*/
char_u *
enc_skip(char_u *p)
{
if (STRNCMP(p, "2byte-", 6) == 0)
return p + 6;
if (STRNCMP(p, "8bit-", 5) == 0)
return p + 5;
return p;
}
/*
* Find the canonical name for encoding "enc".
* When the name isn't recognized, returns "enc" itself, but with all lower
* case characters and '_' replaced with '-'.
* Returns an allocated string. NULL for out-of-memory.
*/
char_u *
enc_canonize(char_u *enc)
{
char_u *r;
char_u *p, *s;
int i;
if (STRCMP(enc, "default") == 0)
{
// Use the default encoding as it's found by set_init_1().
r = get_encoding_default();
if (r == NULL)
r = (char_u *)"latin1";
return vim_strsave(r);
}
// copy "enc" to allocated memory, with room for two '-'
r = alloc(STRLEN(enc) + 3);
if (r != NULL)
{
// Make it all lower case and replace '_' with '-'.
p = r;
for (s = enc; *s != NUL; ++s)
{
if (*s == '_')
*p++ = '-';
else
*p++ = TOLOWER_ASC(*s);
}
*p = NUL;
// Skip "2byte-" and "8bit-".
p = enc_skip(r);
// Change "microsoft-cp" to "cp". Used in some spell files.
if (STRNCMP(p, "microsoft-cp", 12) == 0)
STRMOVE(p, p + 10);
// "iso8859" -> "iso-8859"
if (STRNCMP(p, "iso8859", 7) == 0)
{
STRMOVE(p + 4, p + 3);
p[3] = '-';
}
// "iso-8859n" -> "iso-8859-n"
if (STRNCMP(p, "iso-8859", 8) == 0 && p[8] != '-')
{
STRMOVE(p + 9, p + 8);
p[8] = '-';
}
// "latin-N" -> "latinN"
if (STRNCMP(p, "latin-", 6) == 0)
STRMOVE(p + 5, p + 6);
if (enc_canon_search(p) >= 0)
{
// canonical name can be used unmodified
if (p != r)
STRMOVE(r, p);
}
else if ((i = enc_alias_search(p)) >= 0)
{
// alias recognized, get canonical name
vim_free(r);
r = vim_strsave((char_u *)enc_canon_table[i].name);
}
}
return r;
}
/*
* Search for an encoding alias of "name".
* Returns -1 when not found.
*/
static int
enc_alias_search(char_u *name)
{
int i;
for (i = 0; enc_alias_table[i].name != NULL; ++i)
if (STRCMP(name, enc_alias_table[i].name) == 0)
return enc_alias_table[i].canon;
return -1;
}
#ifdef HAVE_LANGINFO_H
# include <langinfo.h>
#endif
#if !defined(FEAT_GUI_MSWIN) || defined(VIMDLL)
/*
* Get the canonicalized encoding from the specified locale string "locale"
* or from the environment variables LC_ALL, LC_CTYPE and LANG.
* Returns an allocated string when successful, NULL when not.
*/
char_u *
enc_locale_env(char *locale)
{
char *s = locale;
char *p;
int i;
char buf[50];
if (s == NULL || *s == NUL)
if ((s = getenv("LC_ALL")) == NULL || *s == NUL)
if ((s = getenv("LC_CTYPE")) == NULL || *s == NUL)
s = getenv("LANG");
if (s == NULL || *s == NUL)
return NULL;
// The most generic locale format is:
// language[_territory][.codeset][@modifier][+special][,[sponsor][_revision]]
// If there is a '.' remove the part before it.
// if there is something after the codeset, remove it.
// Make the name lowercase and replace '_' with '-'.
// Exception: "ja_JP.EUC" == "euc-jp", "zh_CN.EUC" = "euc-cn",
// "ko_KR.EUC" == "euc-kr"
if ((p = (char *)vim_strchr((char_u *)s, '.')) != NULL)
{
if (p > s + 2 && STRNICMP(p + 1, "EUC", 3) == 0
&& !isalnum((int)p[4]) && p[4] != '-' && p[-3] == '_')
{
// copy "XY.EUC" to "euc-XY" to buf[10]
STRCPY(buf + 10, "euc-");
buf[14] = p[-2];
buf[15] = p[-1];
buf[16] = 0;
s = buf + 10;
}
else
s = p + 1;
}
for (i = 0; i < (int)sizeof(buf) - 1 && s[i] != NUL; ++i)
{
if (s[i] == '_' || s[i] == '-')
buf[i] = '-';
else if (isalnum((int)s[i]))
buf[i] = TOLOWER_ASC(s[i]);
else
break;
}
buf[i] = NUL;
return enc_canonize((char_u *)buf);
}
#endif
/*
* Get the canonicalized encoding of the current locale.
* Returns an allocated string when successful, NULL when not.
*/
char_u *
enc_locale(void)
{
#ifdef MSWIN
char buf[50];
long acp = GetACP();
if (acp == 1200)
STRCPY(buf, "ucs-2le");
else if (acp == 1252) // cp1252 is used as latin1
STRCPY(buf, "latin1");
else if (acp == 65001)
STRCPY(buf, "utf-8");
else
sprintf(buf, "cp%ld", acp);
return enc_canonize((char_u *)buf);
#else
char *s;
# ifdef HAVE_NL_LANGINFO_CODESET
if ((s = nl_langinfo(CODESET)) == NULL || *s == NUL)
# endif
# if defined(HAVE_LOCALE_H) || defined(X_LOCALE)
if ((s = setlocale(LC_CTYPE, NULL)) == NULL || *s == NUL)
# endif
s = NULL;
return enc_locale_env(s);
#endif
}
# if defined(MSWIN) || defined(PROTO) || defined(FEAT_CYGWIN_WIN32_CLIPBOARD)
/*
* Convert an encoding name to an MS-Windows codepage.
* Returns zero if no codepage can be figured out.
*/
int
encname2codepage(char_u *name)
{
int cp;
char_u *p = name;
int idx;
if (STRNCMP(p, "8bit-", 5) == 0)
p += 5;
else if (STRNCMP(p_enc, "2byte-", 6) == 0)
p += 6;
if (p[0] == 'c' && p[1] == 'p')
cp = atoi((char *)p + 2);
else if ((idx = enc_canon_search(p)) >= 0)
cp = enc_canon_table[idx].codepage;
else
return 0;
if (IsValidCodePage(cp))
return cp;
return 0;
}
# endif
# if defined(USE_ICONV) || defined(PROTO)
/*
* Call iconv_open() with a check if iconv() works properly (there are broken
* versions).
* Returns (void *)-1 if failed.
* (should return iconv_t, but that causes problems with prototypes).
*/
void *
my_iconv_open(char_u *to, char_u *from)
{
iconv_t fd;
#define ICONV_TESTLEN 400
char_u tobuf[ICONV_TESTLEN];
char *p;
size_t tolen;
static int iconv_ok = -1;
if (iconv_ok == FALSE)
return (void *)-1; // detected a broken iconv() previously
#ifdef DYNAMIC_ICONV
// Check if the iconv.dll can be found.
if (!iconv_enabled(TRUE))
return (void *)-1;
#endif
fd = iconv_open((char *)enc_skip(to), (char *)enc_skip(from));
if (fd != (iconv_t)-1 && iconv_ok == -1)
{
/*
* Do a dummy iconv() call to check if it actually works. There is a
* version of iconv() on Linux that is broken. We can't ignore it,
* because it's wide-spread. The symptoms are that after outputting
* the initial shift state the "to" pointer is NULL and conversion
* stops for no apparent reason after about 8160 characters.
*/
p = (char *)tobuf;
tolen = ICONV_TESTLEN;
(void)iconv(fd, NULL, NULL, &p, &tolen);
if (p == NULL)
{
iconv_ok = FALSE;
iconv_close(fd);
fd = (iconv_t)-1;
}
else
iconv_ok = TRUE;
}
return (void *)fd;
}
/*
* Convert the string "str[slen]" with iconv().
* If "unconvlenp" is not NULL handle the string ending in an incomplete
* sequence and set "*unconvlenp" to the length of it.
* Returns the converted string in allocated memory. NULL for an error.
* If resultlenp is not NULL, sets it to the result length in bytes.
*/
static char_u *
iconv_string(
vimconv_T *vcp,
char_u *str,
int slen,
int *unconvlenp,
int *resultlenp)
{
const char *from;
size_t fromlen;
char *to;
size_t tolen;
size_t len = 0;
size_t done = 0;
char_u *result = NULL;
char_u *p;
int l;
from = (char *)str;
fromlen = slen;
for (;;)
{
if (len == 0 || ICONV_ERRNO == ICONV_E2BIG)
{
// Allocate enough room for most conversions. When re-allocating
// increase the buffer size.
len = len + fromlen * 2 + 40;
p = alloc(len);
if (p != NULL && done > 0)
mch_memmove(p, result, done);
vim_free(result);
result = p;
if (result == NULL) // out of memory
break;
}
to = (char *)result + done;
tolen = len - done - 2;
// Avoid a warning for systems with a wrong iconv() prototype by
// casting the second argument to void *.
if (iconv(vcp->vc_fd, (void *)&from, &fromlen, &to, &tolen)
!= (size_t)-1)
{
// Finished, append a NUL.
*to = NUL;
break;
}
// Check both ICONV_EINVAL and EINVAL, because the dynamically loaded
// iconv library may use one of them.
if (!vcp->vc_fail && unconvlenp != NULL
&& (ICONV_ERRNO == ICONV_EINVAL || ICONV_ERRNO == EINVAL))
{
// Handle an incomplete sequence at the end.
*to = NUL;
*unconvlenp = (int)fromlen;
break;
}
// Check both ICONV_EILSEQ and EILSEQ, because the dynamically loaded
// iconv library may use one of them.
else if (!vcp->vc_fail
&& (ICONV_ERRNO == ICONV_EILSEQ || ICONV_ERRNO == EILSEQ
|| ICONV_ERRNO == ICONV_EINVAL || ICONV_ERRNO == EINVAL))
{
// Can't convert: insert a '?' and skip a character. This assumes
// conversion from 'encoding' to something else. In other
// situations we don't know what to skip anyway.
*to++ = '?';
if ((*mb_ptr2cells)((char_u *)from) > 1)
*to++ = '?';
if (enc_utf8)
l = utfc_ptr2len_len((char_u *)from, (int)fromlen);
else
{
l = (*mb_ptr2len)((char_u *)from);
if (l > (int)fromlen)
l = (int)fromlen;
}
from += l;
fromlen -= l;
}
else if (ICONV_ERRNO != ICONV_E2BIG)
{
// conversion failed
VIM_CLEAR(result);
break;
}
// Not enough room or skipping illegal sequence.
done = to - (char *)result;
}
if (resultlenp != NULL && result != NULL)
*resultlenp = (int)(to - (char *)result);
return result;
}
# if defined(DYNAMIC_ICONV) || defined(PROTO)
/*
* Dynamically load the "iconv.dll" on Win32.
*/
# ifndef DYNAMIC_ICONV // must be generating prototypes
# define HINSTANCE int
# endif
static HINSTANCE hIconvDLL = 0;
static HINSTANCE hMsvcrtDLL = 0;
# ifndef DYNAMIC_ICONV_DLL
# define DYNAMIC_ICONV_DLL "iconv.dll"
# define DYNAMIC_ICONV_DLL_ALT1 "libiconv.dll"
# define DYNAMIC_ICONV_DLL_ALT2 "libiconv2.dll"
# define DYNAMIC_ICONV_DLL_ALT3 "libiconv-2.dll"
# endif
# ifndef DYNAMIC_MSVCRT_DLL
# define DYNAMIC_MSVCRT_DLL "msvcrt.dll"
# endif
/*
* Try opening the iconv.dll and return TRUE if iconv() can be used.
*/
int
iconv_enabled(int verbose)
{
if (hIconvDLL != 0 && hMsvcrtDLL != 0)
return TRUE;
// The iconv DLL file goes under different names, try them all.
// Do the "2" version first, it's newer.
#ifdef DYNAMIC_ICONV_DLL_ALT2
if (hIconvDLL == 0)
hIconvDLL = vimLoadLib(DYNAMIC_ICONV_DLL_ALT2);
#endif
#ifdef DYNAMIC_ICONV_DLL_ALT3
if (hIconvDLL == 0)
hIconvDLL = vimLoadLib(DYNAMIC_ICONV_DLL_ALT3);
#endif
if (hIconvDLL == 0)
hIconvDLL = vimLoadLib(DYNAMIC_ICONV_DLL);
#ifdef DYNAMIC_ICONV_DLL_ALT1
if (hIconvDLL == 0)
hIconvDLL = vimLoadLib(DYNAMIC_ICONV_DLL_ALT1);
#endif
if (hIconvDLL != 0)
hMsvcrtDLL = vimLoadLib(DYNAMIC_MSVCRT_DLL);
if (hIconvDLL == 0 || hMsvcrtDLL == 0)
{
// Only give the message when 'verbose' is set, otherwise it might be
// done whenever a conversion is attempted.
if (verbose && p_verbose > 0)
{
verbose_enter();
semsg(_(e_loadlib),
hIconvDLL == 0 ? DYNAMIC_ICONV_DLL : DYNAMIC_MSVCRT_DLL);
verbose_leave();
}
iconv_end();
return FALSE;
}
iconv = (void *)GetProcAddress(hIconvDLL, "libiconv");
iconv_open = (void *)GetProcAddress(hIconvDLL, "libiconv_open");
iconv_close = (void *)GetProcAddress(hIconvDLL, "libiconv_close");
iconvctl = (void *)GetProcAddress(hIconvDLL, "libiconvctl");
iconv_errno = get_dll_import_func(hIconvDLL, "_errno");
if (iconv_errno == NULL)
iconv_errno = (void *)GetProcAddress(hMsvcrtDLL, "_errno");
if (iconv == NULL || iconv_open == NULL || iconv_close == NULL
|| iconvctl == NULL || iconv_errno == NULL)
{
iconv_end();
if (verbose && p_verbose > 0)
{
verbose_enter();
semsg(_(e_loadfunc), "for libiconv");
verbose_leave();
}
return FALSE;
}
return TRUE;
}
void
iconv_end(void)
{
// Don't use iconv() when inputting or outputting characters.
if (input_conv.vc_type == CONV_ICONV)
convert_setup(&input_conv, NULL, NULL);
if (output_conv.vc_type == CONV_ICONV)
convert_setup(&output_conv, NULL, NULL);
if (hIconvDLL != 0)
FreeLibrary(hIconvDLL);
if (hMsvcrtDLL != 0)
FreeLibrary(hMsvcrtDLL);
hIconvDLL = 0;
hMsvcrtDLL = 0;
}
# endif // DYNAMIC_ICONV
# endif // USE_ICONV
#if defined(FEAT_EVAL) || defined(PROTO)
/*
* "getimstatus()" function
*/
void
f_getimstatus(typval_T *argvars UNUSED, typval_T *rettv)
{
# if defined(HAVE_INPUT_METHOD)
rettv->vval.v_number = im_get_status();
# endif
}
#endif
/*
* Setup "vcp" for conversion from "from" to "to".
* The names must have been made canonical with enc_canonize().
* vcp->vc_type must have been initialized to CONV_NONE.
* Note: cannot be used for conversion from/to ucs-2 and ucs-4 (will use utf-8
* instead).
* Afterwards invoke with "from" and "to" equal to NULL to cleanup.
* Return FAIL when conversion is not supported, OK otherwise.
*/
int
convert_setup(vimconv_T *vcp, char_u *from, char_u *to)
{
return convert_setup_ext(vcp, from, TRUE, to, TRUE);
}
/*
* As convert_setup(), but only when from_unicode_is_utf8 is TRUE will all
* "from" unicode charsets be considered utf-8. Same for "to".
*/
int
convert_setup_ext(
vimconv_T *vcp,
char_u *from,
int from_unicode_is_utf8,
char_u *to,
int to_unicode_is_utf8)
{
int from_prop;
int to_prop;
int from_is_utf8;
int to_is_utf8;
// Reset to no conversion.
#ifdef USE_ICONV
if (vcp->vc_type == CONV_ICONV && vcp->vc_fd != (iconv_t)-1)
iconv_close(vcp->vc_fd);
#endif
vcp->vc_type = CONV_NONE;
vcp->vc_factor = 1;
vcp->vc_fail = FALSE;
// No conversion when one of the names is empty or they are equal.
if (from == NULL || *from == NUL || to == NULL || *to == NUL
|| STRCMP(from, to) == 0)
return OK;
from_prop = enc_canon_props(from);
to_prop = enc_canon_props(to);
if (from_unicode_is_utf8)
from_is_utf8 = from_prop & ENC_UNICODE;
else
from_is_utf8 = from_prop == ENC_UNICODE;
if (to_unicode_is_utf8)
to_is_utf8 = to_prop & ENC_UNICODE;
else
to_is_utf8 = to_prop == ENC_UNICODE;
if ((from_prop & ENC_LATIN1) && to_is_utf8)
{
// Internal latin1 -> utf-8 conversion.
vcp->vc_type = CONV_TO_UTF8;
vcp->vc_factor = 2; // up to twice as long
}
else if ((from_prop & ENC_LATIN9) && to_is_utf8)
{
// Internal latin9 -> utf-8 conversion.
vcp->vc_type = CONV_9_TO_UTF8;
vcp->vc_factor = 3; // up to three as long (euro sign)
}
else if (from_is_utf8 && (to_prop & ENC_LATIN1))
{
// Internal utf-8 -> latin1 conversion.
vcp->vc_type = CONV_TO_LATIN1;
}
else if (from_is_utf8 && (to_prop & ENC_LATIN9))
{
// Internal utf-8 -> latin9 conversion.
vcp->vc_type = CONV_TO_LATIN9;
}
#ifdef MSWIN
// Win32-specific codepage <-> codepage conversion without iconv.
else if ((from_is_utf8 || encname2codepage(from) > 0)
&& (to_is_utf8 || encname2codepage(to) > 0))
{
vcp->vc_type = CONV_CODEPAGE;
vcp->vc_factor = 2; // up to twice as long
vcp->vc_cpfrom = from_is_utf8 ? 0 : encname2codepage(from);
vcp->vc_cpto = to_is_utf8 ? 0 : encname2codepage(to);
}
#endif
#ifdef MACOS_CONVERT
else if ((from_prop & ENC_MACROMAN) && (to_prop & ENC_LATIN1))
{
vcp->vc_type = CONV_MAC_LATIN1;
}
else if ((from_prop & ENC_MACROMAN) && to_is_utf8)
{
vcp->vc_type = CONV_MAC_UTF8;
vcp->vc_factor = 2; // up to twice as long
}
else if ((from_prop & ENC_LATIN1) && (to_prop & ENC_MACROMAN))
{
vcp->vc_type = CONV_LATIN1_MAC;
}
else if (from_is_utf8 && (to_prop & ENC_MACROMAN))
{
vcp->vc_type = CONV_UTF8_MAC;
}
#endif
#ifdef USE_ICONV
else
{
// Use iconv() for conversion.
vcp->vc_fd = (iconv_t)my_iconv_open(
to_is_utf8 ? (char_u *)"utf-8" : to,
from_is_utf8 ? (char_u *)"utf-8" : from);
if (vcp->vc_fd != (iconv_t)-1)
{
vcp->vc_type = CONV_ICONV;
vcp->vc_factor = 4; // could be longer too...
}
}
#endif
if (vcp->vc_type == CONV_NONE)
return FAIL;
return OK;
}
#if defined(FEAT_GUI) || defined(AMIGA) || defined(MSWIN) \
|| defined(PROTO)
/*
* Do conversion on typed input characters in-place.
* The input and output are not NUL terminated!
* Returns the length after conversion.
*/
int
convert_input(char_u *ptr, int len, int maxlen)
{
return convert_input_safe(ptr, len, maxlen, NULL, NULL);
}
#endif
/*
* Like convert_input(), but when there is an incomplete byte sequence at the
* end return that as an allocated string in "restp" and set "*restlenp" to
* the length. If "restp" is NULL it is not used.
*/
int
convert_input_safe(
char_u *ptr,
int len,
int maxlen,
char_u **restp,
int *restlenp)
{
char_u *d;
int dlen = len;
int unconvertlen = 0;
d = string_convert_ext(&input_conv, ptr, &dlen,
restp == NULL ? NULL : &unconvertlen);
if (d != NULL)
{
if (dlen <= maxlen)
{
if (unconvertlen > 0)
{
// Move the unconverted characters to allocated memory.
*restp = alloc(unconvertlen);
if (*restp != NULL)
mch_memmove(*restp, ptr + len - unconvertlen, unconvertlen);
*restlenp = unconvertlen;
}
mch_memmove(ptr, d, dlen);
}
else
// result is too long, keep the unconverted text (the caller must
// have done something wrong!)
dlen = len;
vim_free(d);
}
return dlen;
}
/*
* Convert text "ptr[*lenp]" according to "vcp".
* Returns the result in allocated memory and sets "*lenp".
* When "lenp" is NULL, use NUL terminated strings.
* Illegal chars are often changed to "?", unless vcp->vc_fail is set.
* When something goes wrong, NULL is returned and "*lenp" is unchanged.
*/
char_u *
string_convert(
vimconv_T *vcp,
char_u *ptr,
int *lenp)
{
return string_convert_ext(vcp, ptr, lenp, NULL);
}
/*
* Like string_convert(), but when "unconvlenp" is not NULL and there are is
* an incomplete sequence at the end it is not converted and "*unconvlenp" is
* set to the number of remaining bytes.
*/
char_u *
string_convert_ext(
vimconv_T *vcp,
char_u *ptr,
int *lenp,
int *unconvlenp)
{
char_u *retval = NULL;
char_u *d;
int len;
int i;
int l;
int c;
if (lenp == NULL)
len = (int)STRLEN(ptr);
else
len = *lenp;
if (len == 0)
return vim_strsave((char_u *)"");
switch (vcp->vc_type)
{
case CONV_TO_UTF8: // latin1 to utf-8 conversion
retval = alloc(len * 2 + 1);
if (retval == NULL)
break;
d = retval;
for (i = 0; i < len; ++i)
{
c = ptr[i];
if (c < 0x80)
*d++ = c;
else
{
*d++ = 0xc0 + ((unsigned)c >> 6);
*d++ = 0x80 + (c & 0x3f);
}
}
*d = NUL;
if (lenp != NULL)
*lenp = (int)(d - retval);
break;
case CONV_9_TO_UTF8: // latin9 to utf-8 conversion
retval = alloc(len * 3 + 1);
if (retval == NULL)
break;
d = retval;
for (i = 0; i < len; ++i)
{
c = ptr[i];
switch (c)
{
case 0xa4: c = 0x20ac; break; // euro
case 0xa6: c = 0x0160; break; // S hat
case 0xa8: c = 0x0161; break; // S -hat
case 0xb4: c = 0x017d; break; // Z hat
case 0xb8: c = 0x017e; break; // Z -hat
case 0xbc: c = 0x0152; break; // OE
case 0xbd: c = 0x0153; break; // oe
case 0xbe: c = 0x0178; break; // Y
}
d += utf_char2bytes(c, d);
}
*d = NUL;
if (lenp != NULL)
*lenp = (int)(d - retval);
break;
case CONV_TO_LATIN1: // utf-8 to latin1 conversion
case CONV_TO_LATIN9: // utf-8 to latin9 conversion
retval = alloc(len + 1);
if (retval == NULL)
break;
d = retval;
for (i = 0; i < len; ++i)
{
l = utf_ptr2len_len(ptr + i, len - i);
if (l == 0)
*d++ = NUL;
else if (l == 1)
{
int l_w = utf8len_tab_zero[ptr[i]];
if (l_w == 0)
{
// Illegal utf-8 byte cannot be converted
vim_free(retval);
return NULL;
}
if (unconvlenp != NULL && l_w > len - i)
{
// Incomplete sequence at the end.
*unconvlenp = len - i;
break;
}
*d++ = ptr[i];
}
else
{
c = utf_ptr2char(ptr + i);
if (vcp->vc_type == CONV_TO_LATIN9)
switch (c)
{
case 0x20ac: c = 0xa4; break; // euro
case 0x0160: c = 0xa6; break; // S hat
case 0x0161: c = 0xa8; break; // S -hat
case 0x017d: c = 0xb4; break; // Z hat
case 0x017e: c = 0xb8; break; // Z -hat
case 0x0152: c = 0xbc; break; // OE
case 0x0153: c = 0xbd; break; // oe
case 0x0178: c = 0xbe; break; // Y
case 0xa4:
case 0xa6:
case 0xa8:
case 0xb4:
case 0xb8:
case 0xbc:
case 0xbd:
case 0xbe: c = 0x100; break; // not in latin9
}
if (!utf_iscomposing(c)) // skip composing chars
{
if (c < 0x100)
*d++ = c;
else if (vcp->vc_fail)
{
vim_free(retval);
return NULL;
}
else
{
*d++ = 0xbf;
if (utf_char2cells(c) > 1)
*d++ = '?';
}
}
i += l - 1;
}
}
*d = NUL;
if (lenp != NULL)
*lenp = (int)(d - retval);
break;
# ifdef MACOS_CONVERT
case CONV_MAC_LATIN1:
retval = mac_string_convert(ptr, len, lenp, vcp->vc_fail,
'm', 'l', unconvlenp);
break;
case CONV_LATIN1_MAC:
retval = mac_string_convert(ptr, len, lenp, vcp->vc_fail,
'l', 'm', unconvlenp);
break;
case CONV_MAC_UTF8:
retval = mac_string_convert(ptr, len, lenp, vcp->vc_fail,
'm', 'u', unconvlenp);
break;
case CONV_UTF8_MAC:
retval = mac_string_convert(ptr, len, lenp, vcp->vc_fail,
'u', 'm', unconvlenp);
break;
# endif
# ifdef USE_ICONV
case CONV_ICONV: // conversion with output_conv.vc_fd
retval = iconv_string(vcp, ptr, len, unconvlenp, lenp);
break;
# endif
# ifdef MSWIN
case CONV_CODEPAGE: // codepage -> codepage
{
int retlen;
int tmp_len;
short_u *tmp;
// 1. codepage/UTF-8 -> ucs-2.
if (vcp->vc_cpfrom == 0)
tmp_len = utf8_to_utf16(ptr, len, NULL, NULL);
else
{
tmp_len = MultiByteToWideChar(vcp->vc_cpfrom,
unconvlenp ? MB_ERR_INVALID_CHARS : 0,
(char *)ptr, len, 0, 0);
if (tmp_len == 0
&& GetLastError() == ERROR_NO_UNICODE_TRANSLATION)
{
if (lenp != NULL)
*lenp = 0;
if (unconvlenp != NULL)
*unconvlenp = len;
retval = alloc(1);
if (retval)
retval[0] = NUL;
return retval;
}
}
tmp = ALLOC_MULT(short_u, tmp_len);
if (tmp == NULL)
break;
if (vcp->vc_cpfrom == 0)
utf8_to_utf16(ptr, len, tmp, unconvlenp);
else
MultiByteToWideChar(vcp->vc_cpfrom, 0,
(char *)ptr, len, tmp, tmp_len);
// 2. ucs-2 -> codepage/UTF-8.
if (vcp->vc_cpto == 0)
retlen = utf16_to_utf8(tmp, tmp_len, NULL);
else
retlen = WideCharToMultiByte(vcp->vc_cpto, 0,
tmp, tmp_len, 0, 0, 0, 0);
retval = alloc(retlen + 1);
if (retval != NULL)
{
if (vcp->vc_cpto == 0)
utf16_to_utf8(tmp, tmp_len, retval);
else
WideCharToMultiByte(vcp->vc_cpto, 0,
tmp, tmp_len,
(char *)retval, retlen, 0, 0);
retval[retlen] = NUL;
if (lenp != NULL)
*lenp = retlen;
}
vim_free(tmp);
break;
}
# endif
}
return retval;
}
#if defined(FEAT_EVAL) || defined(PROTO)
/*
* Table set by setcellwidths().
*/
typedef struct
{
long first;
long last;
char width;
} cw_interval_T;
static cw_interval_T *cw_table = NULL;
static size_t cw_table_size = 0;
/*
* Return 1 or 2 when "c" is in the cellwidth table.
* Return 0 if not.
*/
static int
cw_value(int c)
{
int mid, bot, top;
if (cw_table == NULL)
return 0;
// first quick check for Latin1 etc. characters
if (c < cw_table[0].first)
return 0;
// binary search in table
bot = 0;
top = (int)cw_table_size - 1;
while (top >= bot)
{
mid = (bot + top) / 2;
if (cw_table[mid].last < c)
bot = mid + 1;
else if (cw_table[mid].first > c)
top = mid - 1;
else
return cw_table[mid].width;
}
return 0;
}
static int
tv_nr_compare(const void *a1, const void *a2)
{
listitem_T *li1 = *(listitem_T **)a1;
listitem_T *li2 = *(listitem_T **)a2;
return li1->li_tv.vval.v_number - li2->li_tv.vval.v_number;
}
void
f_setcellwidths(typval_T *argvars, typval_T *rettv UNUSED)
{
list_T *l;
listitem_T *li;
int item;
int i;
listitem_T **ptrs;
cw_interval_T *table;
if (argvars[0].v_type != VAR_LIST || argvars[0].vval.v_list == NULL)
{
emsg(_(e_listreq));
return;
}
l = argvars[0].vval.v_list;
if (l->lv_len == 0)
{
// Clearing the table.
vim_free(cw_table);
cw_table = NULL;
cw_table_size = 0;
return;
}
ptrs = ALLOC_MULT(listitem_T *, l->lv_len);
if (ptrs == NULL)
return;
// Check that all entries are a list with three numbers, the range is
// valid and the cell width is valid.
item = 0;
for (li = l->lv_first; li != NULL; li = li->li_next)
{
listitem_T *lili;
varnumber_T n1;
if (li->li_tv.v_type != VAR_LIST || li->li_tv.vval.v_list == NULL)
{
semsg(_(e_list_item_nr_is_not_list), item);
vim_free(ptrs);
return;
}
lili = li->li_tv.vval.v_list->lv_first;
ptrs[item] = lili;
for (i = 0; lili != NULL; lili = lili->li_next, ++i)
{
if (lili->li_tv.v_type != VAR_NUMBER)
break;
if (i == 0)
{
n1 = lili->li_tv.vval.v_number;
if (n1 < 0x100)
{
emsg(_(e_only_values_of_0x100_and_higher_supported));
vim_free(ptrs);
return;
}
}
else if (i == 1 && lili->li_tv.vval.v_number < n1)
{
semsg(_(e_list_item_nr_range_invalid), item);
vim_free(ptrs);
return;
}
else if (i == 2 && (lili->li_tv.vval.v_number < 1
|| lili->li_tv.vval.v_number > 2))
{
semsg(_(e_list_item_nr_cell_width_invalid), item);
vim_free(ptrs);
return;
}
}
if (i != 3)
{
semsg(_(e_list_item_nr_does_not_contain_3_numbers), item);
vim_free(ptrs);
return;
}
++item;
}
// Sort the list on the first number.
qsort((void *)ptrs, (size_t)l->lv_len, sizeof(listitem_T *), tv_nr_compare);
table = ALLOC_MULT(cw_interval_T, l->lv_len);
if (table == NULL)
{
vim_free(ptrs);
return;
}
// Store the items in the new table.
item = 0;
for (item = 0; item < l->lv_len; ++item)
{
listitem_T *lili = ptrs[item];
varnumber_T n1;
n1 = lili->li_tv.vval.v_number;
if (item > 0 && n1 <= table[item - 1].last)
{
semsg(_(e_overlapping_ranges_for_nr), (long)n1);
vim_free(ptrs);
vim_free(table);
return;
}
table[item].first = n1;
lili = lili->li_next;
table[item].last = lili->li_tv.vval.v_number;
lili = lili->li_next;
table[item].width = lili->li_tv.vval.v_number;
}
vim_free(ptrs);
vim_free(cw_table);
cw_table = table;
cw_table_size = l->lv_len;
}
void
f_charclass(typval_T *argvars, typval_T *rettv UNUSED)
{
if (check_for_string(&argvars[0]) == FAIL)
return;
rettv->vval.v_number = mb_get_class(argvars[0].vval.v_string);
}
#endif
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