0xV3NOMx
Linux ip-172-26-7-228 5.4.0-1103-aws #111~18.04.1-Ubuntu SMP Tue May 23 20:04:10 UTC 2023 x86_64



Your IP : 18.216.167.229


Current Path : /var/www/html/gsh/libgd-gd-2.2.3/src/
Upload File :
Current File : /var/www/html/gsh/libgd-gd-2.2.3/src/gdkanji.c

/* gdkanji.c (Kanji code converter)                            */
/*                 written by Masahito Yamaga (ma@yama-ga.com) */

#ifdef HAVE_CONFIG_H
#include "config.h"
#endif

#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "gd.h"
#include "gdhelpers.h"
#include "gd_errors.h"

#ifdef HAVE_ERRNO_H
#include <errno.h>
#endif

#include <stdarg.h>
#if defined(HAVE_ICONV_H)
#include <iconv.h>
#endif

#ifndef HAVE_ICONV_T_DEF
typedef void *iconv_t;
#endif

#ifndef HAVE_ICONV
#define ICONV_CONST /**/
iconv_t iconv_open (const char *, const char *);
size_t iconv (iconv_t, ICONV_CONST char **, size_t *, char **, size_t *);
int iconv_close (iconv_t);

iconv_t
iconv_open (const char *tocode, const char *fromcode)
{
	(void)tocode;
	(void)fromcode;
	return (iconv_t) (-1);
}

size_t
iconv (iconv_t cd, ICONV_CONST char **inbuf, size_t * inbytesleft,
       char **outbuf, size_t * outbytesleft)
{
	(void)cd;
	(void)inbuf;
	(void)inbytesleft;
	(void)outbuf;
	(void)outbytesleft;
	return 0;
}

int
iconv_close (iconv_t cd)
{
	(void)cd;
	return 0;
}

#endif /* !HAVE_ICONV */

#define LIBNAME "any2eucjp()"

#if defined(__MSC__) || defined(__BORLANDC__) || defined(__TURBOC__) || defined(_Windows) || defined(MSDOS)
#ifndef SJISPRE
#define SJISPRE 1
#endif
#endif

#ifdef TRUE
#undef TRUE
#endif
#ifdef FALSE
#undef FALSE
#endif

#define TRUE  1
#define FALSE 0

#define NEW 1
#define OLD 2
#define ESCI 3
#define NEC 4
#define EUC 5
#define SJIS 6
#define EUCORSJIS 7
#define ASCII 8

#define NEWJISSTR "JIS7"
#define OLDJISSTR "jis"
#define EUCSTR    "eucJP"
#define SJISSTR   "SJIS"

#define ESC 27
#define SS2 142

/* DetectKanjiCode() derived from DetectCodeType() by Ken Lunde. */

static int
DetectKanjiCode (unsigned char *str)
{
	static int whatcode = ASCII;
	int oldcode = ASCII;
	int c, i;
	char *lang = NULL;

	c = '\1';
	i = 0;

	if (whatcode != EUCORSJIS && whatcode != ASCII) {
		oldcode = whatcode;
		whatcode = ASCII;
	}

	while ((whatcode == EUCORSJIS || whatcode == ASCII) && c != '\0') {
		if ((c = str[i++]) != '\0') {
			if (c == ESC) {
				c = str[i++];
				if (c == '$') {
					c = str[i++];
					if (c == 'B')
						whatcode = NEW;
					else if (c == '@')
						whatcode = OLD;
				} else if (c == '(') {
					c = str[i++];
					if (c == 'I')
						whatcode = ESCI;
				} else if (c == 'K')
					whatcode = NEC;
			} else if ((c >= 129 && c <= 141) || (c >= 143 && c <= 159))
				whatcode = SJIS;
			else if (c == SS2) {
				c = str[i++];
				if ((c >= 64 && c <= 126) || (c >= 128 && c <= 160)
				        || (c >= 224 && c <= 252))
					whatcode = SJIS;
				else if (c >= 161 && c <= 223)
					whatcode = EUCORSJIS;
			} else if (c >= 161 && c <= 223) {
				c = str[i++];
				if (c >= 240 && c <= 254)
					whatcode = EUC;
				else if (c >= 161 && c <= 223)
					whatcode = EUCORSJIS;
				else if (c >= 224 && c <= 239) {
					whatcode = EUCORSJIS;
					while (c >= 64 && c != '\0' && whatcode == EUCORSJIS) {
						if (c >= 129) {
							if (c <= 141 || (c >= 143 && c <= 159))
								whatcode = SJIS;
							else if (c >= 253 && c <= 254)
								whatcode = EUC;
						}
						c = str[i++];
					}
				} else if (c <= 159)
					whatcode = SJIS;
			} else if (c >= 240 && c <= 254)
				whatcode = EUC;
			else if (c >= 224 && c <= 239) {
				c = str[i++];
				if ((c >= 64 && c <= 126) || (c >= 128 && c <= 160))
					whatcode = SJIS;
				else if (c >= 253 && c <= 254)
					whatcode = EUC;
				else if (c >= 161 && c <= 252)
					whatcode = EUCORSJIS;
			}
		}
	}

#ifdef DEBUG
	if (whatcode == ASCII)
		gd_error_ex(GD_DEBUG, "Kanji code not included.");
	else if (whatcode == EUCORSJIS)
		gd_error_ex(GD_DEBUG, "Kanji code not detected.");
	else
		gd_error_ex(GD_DEBUG, "Kanji code detected at %d byte.", i);
#endif

	if (whatcode == EUCORSJIS && oldcode != ASCII)
		whatcode = oldcode;

	if (whatcode == EUCORSJIS) {
		if (getenv ("LC_ALL"))
			lang = getenv ("LC_ALL");
		else if (getenv ("LC_CTYPE"))
			lang = getenv ("LC_CTYPE");
		else if (getenv ("LANG"))
			lang = getenv ("LANG");

		if (lang) {
			if (strcmp (lang, "ja_JP.SJIS") == 0 ||
#ifdef hpux
			        strcmp (lang, "japanese") == 0 ||
#endif
			        strcmp (lang, "ja_JP.mscode") == 0 ||
			        strcmp (lang, "ja_JP.PCK") == 0)
				whatcode = SJIS;
			else if (strncmp (lang, "ja", 2) == 0)
#ifdef SJISPRE
				whatcode = SJIS;
#else
				whatcode = EUC;
#endif
		}
	}

	if (whatcode == EUCORSJIS)
#ifdef SJISPRE
		whatcode = SJIS;
#else
		whatcode = EUC;
#endif

	return whatcode;
}

/* SJIStoJIS() is sjis2jis() by Ken Lunde. */

static void
SJIStoJIS (int *p1, int *p2)
{
	register unsigned char c1 = *p1;
	register unsigned char c2 = *p2;
	register int adjust = c2 < 159;
	register int rowOffset = c1 < 160 ? 112 : 176;
	register int cellOffset = adjust ? (31 + (c2 > 127)) : 126;

	*p1 = ((c1 - rowOffset) << 1) - adjust;
	*p2 -= cellOffset;
}

/* han2zen() was derived from han2zen() written by Ken Lunde. */

#define IS_DAKU(c) ((c >= 182 && c <= 196) || (c >= 202 && c <= 206) || (c == 179))
#define IS_HANDAKU(c) (c >= 202 && c <= 206)

static void
han2zen (int *p1, int *p2)
{
	int c = *p1;
	int daku = FALSE;
	int handaku = FALSE;
	int mtable[][2] = {
		{129, 66},
		{129, 117},
		{129, 118},
		{129, 65},
		{129, 69},
		{131, 146},
		{131, 64},
		{131, 66},
		{131, 68},
		{131, 70},
		{131, 72},
		{131, 131},
		{131, 133},
		{131, 135},
		{131, 98},
		{129, 91},
		{131, 65},
		{131, 67},
		{131, 69},
		{131, 71},
		{131, 73},
		{131, 74},
		{131, 76},
		{131, 78},
		{131, 80},
		{131, 82},
		{131, 84},
		{131, 86},
		{131, 88},
		{131, 90},
		{131, 92},
		{131, 94},
		{131, 96},
		{131, 99},
		{131, 101},
		{131, 103},
		{131, 105},
		{131, 106},
		{131, 107},
		{131, 108},
		{131, 109},
		{131, 110},
		{131, 113},
		{131, 116},
		{131, 119},
		{131, 122},
		{131, 125},
		{131, 126},
		{131, 128},
		{131, 129},
		{131, 130},
		{131, 132},
		{131, 134},
		{131, 136},
		{131, 137},
		{131, 138},
		{131, 139},
		{131, 140},
		{131, 141},
		{131, 143},
		{131, 147},
		{129, 74},
		{129, 75}
	};

	if (*p2 == 222 && IS_DAKU (*p1))
		daku = TRUE;		/* Daku-ten */
	else if (*p2 == 223 && IS_HANDAKU (*p1))
		handaku = TRUE;		/* Han-daku-ten */

	*p1 = mtable[c - 161][0];
	*p2 = mtable[c - 161][1];

	if (daku) {
		if ((*p2 >= 74 && *p2 <= 103) || (*p2 >= 110 && *p2 <= 122))
			(*p2)++;
		else if (*p2 == 131 || *p2 == 69)
			*p2 = 148;
	} else if (handaku && *p2 >= 110 && *p2 <= 122)
		(*p2) += 2;
}

/* Recast strcpy to handle unsigned chars used below. */

#define ustrcpy(A,B) (strcpy((char*)(A),(const char*)(B)))

#define ustrncpy(A,B, maxsize) (strncpy((char*)(A),(const char*)(B), maxsize))

static void
do_convert (unsigned char **to_p, unsigned char **from_p, const char *code)
{
	unsigned char *to = *to_p;
	unsigned char *from = *from_p;
#ifdef HAVE_ICONV
	iconv_t cd;
	size_t from_len, to_len;

	if ((cd = iconv_open (EUCSTR, code)) == (iconv_t) - 1) {
		gd_error ("iconv_open() error");
#ifdef HAVE_ERRNO_H
		if (errno == EINVAL)
			gd_error ("invalid code specification: \"%s\" or \"%s\"", EUCSTR, code);
#endif
		ustrcpy (to, from);
		return;
	}

	from_len = strlen ((const char *)from) + 1;
	to_len = BUFSIZ;

	if ((int) (iconv (cd, (char **)from_p, &from_len, (char **)to_p, &to_len))
	        == -1) {
#ifdef HAVE_ERRNO_H
		if (errno == EINVAL)
			gd_error ("invalid end of input string");
		else if (errno == EILSEQ)
			gd_error ("invalid code in input string");
		else if (errno == E2BIG)
			gd_error ("output buffer overflow at do_convert()");
		else
#endif
			gd_error ("something happen");
		ustrcpy (to, from);
		return;
	}

	if (iconv_close (cd) != 0) {
		gd_error ("iconv_close() error");
	}
#else
	int p1, p2, i, j;
	int jisx0208 = FALSE;
	int hankaku = FALSE;

	j = 0;
	if (strcmp (code, NEWJISSTR) == 0 || strcmp (code, OLDJISSTR) == 0) {
		for (i = 0; from[i] != '\0' && j < BUFSIZ; i++) {
			if (from[i] == ESC) {
				i++;
				if (from[i] == '$') {
					jisx0208 = TRUE;
					hankaku = FALSE;
					i++;
				} else if (from[i] == '(') {
					jisx0208 = FALSE;
					i++;
					if (from[i] == 'I')	/* Hankaku Kana */
						hankaku = TRUE;
					else
						hankaku = FALSE;
				}
			} else {
				if (jisx0208)
					to[j++] = from[i] + 128;
				else if (hankaku) {
					to[j++] = SS2;
					to[j++] = from[i] + 128;
				} else
					to[j++] = from[i];
			}
		}
	} else if (strcmp (code, SJISSTR) == 0) {
		for (i = 0; from[i] != '\0' && j < BUFSIZ; i++) {
			p1 = from[i];
			if (p1 < 127)
				to[j++] = p1;
			else if ((p1 >= 161) && (p1 <= 223)) {
				/* Hankaku Kana */
				to[j++] = SS2;
				to[j++] = p1;
			} else {
				p2 = from[++i];
				SJIStoJIS (&p1, &p2);
				to[j++] = p1 + 128;
				to[j++] = p2 + 128;
			}
		}
	} else {
		gd_error ("invalid code specification: \"%s\"", code);
		return;
	}

	if (j >= BUFSIZ) {
		gd_error ("output buffer overflow at do_convert()");
		ustrcpy (to, from);
	} else
		to[j] = '\0';
#endif /* HAVE_ICONV */
}

static int
do_check_and_conv (unsigned char *to, unsigned char *from)
{
	static unsigned char tmp[BUFSIZ];
	unsigned char *tmp_p = &tmp[0];
	int p1, p2, i, j;
	int kanji = TRUE;
	int copy_string = FALSE;

	switch (DetectKanjiCode (from)) {
	case NEW:
		gd_error_ex(GD_DEBUG, "Kanji code is New JIS.");
		do_convert (&tmp_p, &from, NEWJISSTR);
		break;
	case OLD:
		gd_error_ex(GD_DEBUG, "Kanji code is Old JIS.");
		do_convert (&tmp_p, &from, OLDJISSTR);
		break;
	case ESCI:
		gd_error_ex(GD_DEBUG, "This string includes Hankaku-Kana (jisx0201) escape sequence [ESC] + ( + I.");
		do_convert (&tmp_p, &from, NEWJISSTR);
		break;
	case NEC:
		gd_error_ex(GD_DEBUG, "Kanji code is NEC Kanji.");
		gd_error("cannot convert NEC Kanji.");
		copy_string = TRUE;
		kanji = FALSE;
		break;
	case EUC:
		gd_error_ex(GD_DEBUG, "Kanji code is EUC.");
		copy_string = TRUE;
		break;
	case SJIS:
		gd_error_ex(GD_DEBUG, "Kanji code is SJIS.");
		do_convert (&tmp_p, &from, SJISSTR);
		break;
	case EUCORSJIS:
		gd_error_ex(GD_DEBUG, "Kanji code is EUC or SJIS.");
		copy_string = TRUE;
		kanji = FALSE;
		break;
	case ASCII:
		gd_error_ex(GD_DEBUG, "This is ASCII string.");
		copy_string = TRUE;
		kanji = FALSE;
		break;
	default:
		gd_error_ex(GD_DEBUG, "This string includes unknown code.");
		copy_string = TRUE;
		kanji = FALSE;
		break;
	}

	if (copy_string) {
		ustrncpy (tmp, from, BUFSIZ);
		tmp[BUFSIZ-1] = '\0';
	}

	/* Hankaku Kana ---> Zenkaku Kana */
	if (kanji) {
		j = 0;
		for (i = 0; tmp[i] != '\0' && j < BUFSIZ; i++) {
			if (tmp[i] == SS2) {
				p1 = tmp[++i];
				if (tmp[i + 1] == SS2) {
					p2 = tmp[i + 2];
					if (p2 == 222 || p2 == 223)
						i += 2;
					else
						p2 = 0;
				} else
					p2 = 0;
				han2zen (&p1, &p2);
				SJIStoJIS (&p1, &p2);
				to[j++] = p1 + 128;
				to[j++] = p2 + 128;
			} else
				to[j++] = tmp[i];
		}

		if (j >= BUFSIZ) {
			gd_error("output buffer overflow at Hankaku --> Zenkaku");
			ustrcpy (to, tmp);
		} else
			to[j] = '\0';
	} else
		ustrcpy (to, tmp);

	return kanji;
}

int
any2eucjp (unsigned char *dest, unsigned char *src, unsigned int dest_max)
{
	static unsigned char tmp_dest[BUFSIZ];
	int ret;

	if (strlen ((const char *) src) >= BUFSIZ) {
		gd_error("input string too large");
		return -1;
	}
	if (dest_max > BUFSIZ) {
		gd_error
		("invalid maximum size of destination\nit should be less than %d.",
		 BUFSIZ);
		return -1;
	}
	ret = do_check_and_conv (tmp_dest, src);
	if (strlen ((const char *) tmp_dest) >= dest_max) {
		gd_error("output buffer overflow");
		ustrcpy (dest, src);
		return -1;
	}
	ustrcpy (dest, tmp_dest);
	return ret;
}

#if 0
unsigned int
strwidth (unsigned char *s)
{
	unsigned char *t;
	unsigned int i;

	t = (unsigned char *) gdMalloc (BUFSIZ);
	any2eucjp (t, s, BUFSIZ);
	i = strlen (t);
	gdFree (t);
	return i;
}

#ifdef DEBUG
int
main ()
{
	unsigned char input[BUFSIZ];
	unsigned char *output;
	unsigned char *str;
	int c, i = 0;

	while ((c = fgetc (stdin)) != '\n' && i < BUFSIZ)
		input[i++] = c;
	input[i] = '\0';

	printf ("input : %d bytes\n", strlen ((const char *) input));
	printf ("output: %d bytes\n", strwidth (input));

	output = (unsigned char *) gdMalloc (BUFSIZ);
	any2eucjp (output, input, BUFSIZ);
	str = output;
	while (*str != '\0')
		putchar (*(str++));
	putchar ('\n');
	gdFree (output);

	return 0;
}
#endif
#endif