# iconv_open.m4 serial 7 dnl Copyright (C) 2007-2010 Free Software Foundation, Inc. dnl This file is free software; the Free Software Foundation dnl gives unlimited permission to copy and/or distribute it, dnl with or without modifications, as long as this notice is preserved. AC_DEFUN([gl_FUNC_ICONV_OPEN], [ AC_REQUIRE([AM_ICONV]) AC_REQUIRE([AC_CANONICAL_HOST]) AC_REQUIRE([gl_ICONV_H_DEFAULTS]) if test "$am_cv_func_iconv" = yes; then dnl Provide the override, for the sake of the C++ aliases. gl_REPLACE_ICONV_H dnl Test whether iconv_open accepts standardized encoding names. dnl We know that GNU libiconv and GNU libc do. AC_EGREP_CPP([gnu_iconv], [ #include #if defined _LIBICONV_VERSION || defined __GLIBC__ gnu_iconv #endif ], [gl_func_iconv_gnu=yes], [gl_func_iconv_gnu=no]) if test $gl_func_iconv_gnu = no; then iconv_flavor= case "$host_os" in aix*) iconv_flavor=ICONV_FLAVOR_AIX ;; irix*) iconv_flavor=ICONV_FLAVOR_IRIX ;; hpux*) iconv_flavor=ICONV_FLAVOR_HPUX ;; osf*) iconv_flavor=ICONV_FLAVOR_OSF ;; solaris*) iconv_flavor=ICONV_FLAVOR_SOLARIS ;; esac if test -n "$iconv_flavor"; then AC_DEFINE_UNQUOTED([ICONV_FLAVOR], [$iconv_flavor], [Define to a symbolic name denoting the flavor of iconv_open() implementation.]) gl_REPLACE_ICONV_OPEN fi fi fi ]) AC_DEFUN([gl_REPLACE_ICONV_OPEN], [ gl_REPLACE_ICONV_H REPLACE_ICONV_OPEN=1 AC_LIBOBJ([iconv_open]) ]) AC_DEFUN([gl_FUNC_ICONV_OPEN_UTF], [ AC_REQUIRE([gl_FUNC_ICONV_OPEN]) AC_REQUIRE([AC_CANONICAL_HOST]) dnl for cross-compiles AC_REQUIRE([gl_ICONV_H_DEFAULTS]) if test "$am_cv_func_iconv" = yes; then if test -n "$am_cv_proto_iconv_arg1"; then ICONV_CONST="const" else ICONV_CONST= fi AC_SUBST([ICONV_CONST]) AC_CACHE_CHECK([whether iconv supports conversion between UTF-8 and UTF-{16,32}{BE,LE}], [gl_cv_func_iconv_supports_utf], [ save_LIBS="$LIBS" LIBS="$LIBS $LIBICONV" AC_TRY_RUN([ #include #include #include #include #include #define ASSERT(expr) if (!(expr)) return 1; int main () { /* Test conversion from UTF-8 to UTF-16BE with no errors. */ { static const char input[] = "Japanese (\346\227\245\346\234\254\350\252\236) [\360\235\224\215\360\235\224\236\360\235\224\255]"; static const char expected[] = "\000J\000a\000p\000a\000n\000e\000s\000e\000 \000(\145\345\147\054\212\236\000)\000 \000[\330\065\335\015\330\065\335\036\330\065\335\055\000]"; iconv_t cd; char buf[100]; const char *inptr; size_t inbytesleft; char *outptr; size_t outbytesleft; size_t res; cd = iconv_open ("UTF-16BE", "UTF-8"); ASSERT (cd != (iconv_t)(-1)); inptr = input; inbytesleft = sizeof (input) - 1; outptr = buf; outbytesleft = sizeof (buf); res = iconv (cd, (ICONV_CONST char **) &inptr, &inbytesleft, &outptr, &outbytesleft); ASSERT (res == 0 && inbytesleft == 0); ASSERT (outptr == buf + (sizeof (expected) - 1)); ASSERT (memcmp (buf, expected, sizeof (expected) - 1) == 0); ASSERT (iconv_close (cd) == 0); } /* Test conversion from UTF-8 to UTF-16LE with no errors. */ { static const char input[] = "Japanese (\346\227\245\346\234\254\350\252\236) [\360\235\224\215\360\235\224\236\360\235\224\255]"; static const char expected[] = "J\000a\000p\000a\000n\000e\000s\000e\000 \000(\000\345\145\054\147\236\212)\000 \000[\000\065\330\015\335\065\330\036\335\065\330\055\335]\000"; iconv_t cd; char buf[100]; const char *inptr; size_t inbytesleft; char *outptr; size_t outbytesleft; size_t res; cd = iconv_open ("UTF-16LE", "UTF-8"); ASSERT (cd != (iconv_t)(-1)); inptr = input; inbytesleft = sizeof (input) - 1; outptr = buf; outbytesleft = sizeof (buf); res = iconv (cd, (ICONV_CONST char **) &inptr, &inbytesleft, &outptr, &outbytesleft); ASSERT (res == 0 && inbytesleft == 0); ASSERT (outptr == buf + (sizeof (expected) - 1)); ASSERT (memcmp (buf, expected, sizeof (expected) - 1) == 0); ASSERT (iconv_close (cd) == 0); } /* Test conversion from UTF-8 to UTF-32BE with no errors. */ { static const char input[] = "Japanese (\346\227\245\346\234\254\350\252\236) [\360\235\224\215\360\235\224\236\360\235\224\255]"; static const char expected[] = "\000\000\000J\000\000\000a\000\000\000p\000\000\000a\000\000\000n\000\000\000e\000\000\000s\000\000\000e\000\000\000 \000\000\000(\000\000\145\345\000\000\147\054\000\000\212\236\000\000\000)\000\000\000 \000\000\000[\000\001\325\015\000\001\325\036\000\001\325\055\000\000\000]"; iconv_t cd; char buf[100]; const char *inptr; size_t inbytesleft; char *outptr; size_t outbytesleft; size_t res; cd = iconv_open ("UTF-32BE", "UTF-8"); ASSERT (cd != (iconv_t)(-1)); inptr = input; inbytesleft = sizeof (input) - 1; outptr = buf; outbytesleft = sizeof (buf); res = iconv (cd, (ICONV_CONST char **) &inptr, &inbytesleft, &outptr, &outbytesleft); ASSERT (res == 0 && inbytesleft == 0); ASSERT (outptr == buf + (sizeof (expected) - 1)); ASSERT (memcmp (buf, expected, sizeof (expected) - 1) == 0); ASSERT (iconv_close (cd) == 0); } /* Test conversion from UTF-8 to UTF-32LE with no errors. */ { static const char input[] = "Japanese (\346\227\245\346\234\254\350\252\236) [\360\235\224\215\360\235\224\236\360\235\224\255]"; static const char expected[] = "J\000\000\000a\000\000\000p\000\000\000a\000\000\000n\000\000\000e\000\000\000s\000\000\000e\000\000\000 \000\000\000(\000\000\000\345\145\000\000\054\147\000\000\236\212\000\000)\000\000\000 \000\000\000[\000\000\000\015\325\001\000\036\325\001\000\055\325\001\000]\000\000\000"; iconv_t cd; char buf[100]; const char *inptr; size_t inbytesleft; char *outptr; size_t outbytesleft; size_t res; cd = iconv_open ("UTF-32LE", "UTF-8"); ASSERT (cd != (iconv_t)(-1)); inptr = input; inbytesleft = sizeof (input) - 1; outptr = buf; outbytesleft = sizeof (buf); res = iconv (cd, (ICONV_CONST char **) &inptr, &inbytesleft, &outptr, &outbytesleft); ASSERT (res == 0 && inbytesleft == 0); ASSERT (outptr == buf + (sizeof (expected) - 1)); ASSERT (memcmp (buf, expected, sizeof (expected) - 1) == 0); ASSERT (iconv_close (cd) == 0); } /* Test conversion from UTF-16BE to UTF-8 with no errors. This test fails on NetBSD 3.0. */ { static const char input[] = "\000J\000a\000p\000a\000n\000e\000s\000e\000 \000(\145\345\147\054\212\236\000)\000 \000[\330\065\335\015\330\065\335\036\330\065\335\055\000]"; static const char expected[] = "Japanese (\346\227\245\346\234\254\350\252\236) [\360\235\224\215\360\235\224\236\360\235\224\255]"; iconv_t cd; char buf[100]; const char *inptr; size_t inbytesleft; char *outptr; size_t outbytesleft; size_t res; cd = iconv_open ("UTF-8", "UTF-16BE"); ASSERT (cd != (iconv_t)(-1)); inptr = input; inbytesleft = sizeof (input) - 1; outptr = buf; outbytesleft = sizeof (buf); res = iconv (cd, (ICONV_CONST char **) &inptr, &inbytesleft, &outptr, &outbytesleft); ASSERT (res == 0 && inbytesleft == 0); ASSERT (outptr == buf + (sizeof (expected) - 1)); ASSERT (memcmp (buf, expected, sizeof (expected) - 1) == 0); ASSERT (iconv_close (cd) == 0); } return 0; }], [gl_cv_func_iconv_supports_utf=yes], [gl_cv_func_iconv_supports_utf=no], [ dnl We know that GNU libiconv, GNU libc, and Solaris >= 9 do. dnl OSF/1 5.1 has these encodings, but inserts a BOM in the "to" dnl direction. gl_cv_func_iconv_supports_utf=no if test $gl_func_iconv_gnu = yes; then gl_cv_func_iconv_supports_utf=yes else changequote(,)dnl case "$host_os" in solaris2.9 | solaris2.1[0-9]) gl_cv_func_iconv_supports_utf=yes ;; esac changequote([,])dnl fi ]) LIBS="$save_LIBS" ]) if test $gl_cv_func_iconv_supports_utf = no; then REPLACE_ICONV_UTF=1 AC_DEFINE([REPLACE_ICONV_UTF], [1], [Define if the iconv() functions are enhanced to handle the UTF-{16,32}{BE,LE} encodings.]) REPLACE_ICONV=1 gl_REPLACE_ICONV_OPEN AC_LIBOBJ([iconv]) AC_LIBOBJ([iconv_close]) fi fi ])