/** \file wutil.c Wide character equivalents of various standard unix functions. */ #include "config.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #if HAVE_LIBINTL_H #include #endif #include "fallback.h" #include "util.h" #include "common.h" #include "wutil.h" typedef std::string cstring; /** Minimum length of the internal covnersion buffers */ #define TMP_LEN_MIN 256 #ifndef PATH_MAX #ifdef MAXPATHLEN #define PATH_MAX MAXPATHLEN #else /** Fallback length of MAXPATHLEN. Just a hopefully sane value... */ #define PATH_MAX 4096 #endif #endif /** For wgettext: Number of string_buffer_t in the ring of buffers */ #define BUFF_COUNT 4 /** For wgettext: The ring of string_buffer_t */ static string_buffer_t buff[BUFF_COUNT]; /** For wgettext: Current position in the ring */ static int curr_buff=0; /** For wgettext: Buffer used by translate_wcs2str */ static char *wcs2str_buff=0; /** For wgettext: Size of buffer used by translate_wcs2str */ static size_t wcs2str_buff_count=0; void wutil_init() { } void wutil_destroy() { } bool wreaddir(DIR *dir, std::wstring &outPath, bool *is_dir) { struct dirent *d = readdir( dir ); if ( !d ) return false; outPath = str2wcstring(d->d_name); if (is_dir) *is_dir = (d->d_type == DT_DIR); return true; } wchar_t *wgetcwd( wchar_t *buff, size_t sz ) { char *buffc = (char *)malloc( sz*MAX_UTF8_BYTES); char *res; wchar_t *ret = 0; if( !buffc ) { errno = ENOMEM; return 0; } res = getcwd( buffc, sz*MAX_UTF8_BYTES ); if( res ) { if( (size_t)-1 != mbstowcs( buff, buffc, sizeof( wchar_t ) * sz ) ) { ret = buff; } } free( buffc ); return ret; } int wchdir( const wcstring &dir ) { cstring tmp = wcs2string(dir); return chdir( tmp.c_str() ); } FILE *wfopen(const wcstring &path, const char *mode) { cstring tmp = wcs2string(path); return fopen(tmp.c_str(), mode); } FILE *wfreopen(const wcstring &path, const char *mode, FILE *stream) { cstring tmp = wcs2string(path); return freopen(tmp.c_str(), mode, stream); } int wopen(const wcstring &pathname, int flags, ...) { cstring tmp = wcs2string(pathname); int res=-1; va_list argp; if( ! (flags & O_CREAT) ) { res = open(tmp.c_str(), flags); } else { va_start( argp, flags ); res = open(tmp.c_str(), flags, va_arg(argp, int) ); va_end( argp ); } return res; } int wcreat(const wcstring &pathname, mode_t mode) { cstring tmp = wcs2string(pathname); return creat(tmp.c_str(), mode); } DIR *wopendir(const wcstring &name) { cstring tmp = wcs2string(name); return opendir(tmp.c_str()); } int wstat(const wcstring &file_name, struct stat *buf) { cstring tmp = wcs2string(file_name); return stat(tmp.c_str(), buf); } int lwstat(const wcstring &file_name, struct stat *buf) { // fprintf(stderr, "%s\n", __PRETTY_FUNCTION__); cstring tmp = wcs2string(file_name); return lstat(tmp.c_str(), buf); } int waccess(const wcstring &file_name, int mode) { cstring tmp = wcs2string(file_name); return access(tmp.c_str(), mode); } int wunlink(const wcstring &file_name) { cstring tmp = wcs2string(file_name); return unlink(tmp.c_str()); } void wperror(const wcstring &s) { int e = errno; if( !s.empty() ) { fwprintf( stderr, L"%ls: ", s.c_str() ); } fwprintf( stderr, L"%s\n", strerror( e ) ); } #ifdef HAVE_REALPATH_NULL wchar_t *wrealpath(const wcstring &pathname, wchar_t *resolved_path) { cstring tmp = wcs2string(pathname); char *narrow_res = realpath( tmp.c_str(), 0 ); wchar_t *res; if( !narrow_res ) return 0; if( resolved_path ) { wchar_t *tmp2 = str2wcs( narrow_res ); wcslcpy( resolved_path, tmp2, PATH_MAX ); free( tmp2 ); res = resolved_path; } else { res = str2wcs( narrow_res ); } free( narrow_res ); return res; } #else wchar_t *wrealpath(const wchar_t *pathname, wchar_t *resolved_path) { cstring tmp = wcs2string(pathname); char narrow_buff[PATH_MAX]; char *narrow_res = realpath( tmp.c_str(), narrow_buff ); wchar_t *res; if( !narrow_res ) return 0; if( resolved_path ) { wchar_t *tmp2 = str2wcs( narrow_res ); wcslcpy( resolved_path, tmp2, PATH_MAX ); free( tmp2 ); res = resolved_path; } else { res = str2wcs( narrow_res ); } return res; } #endif wcstring wdirname( const wcstring &path ) { char *tmp = wcs2str(path.c_str()); char *narrow_res = dirname( tmp ); wcstring result = format_string(L"%s", narrow_res); free(tmp); return result; } wcstring wbasename( const wcstring &path ) { char *tmp = wcs2str(path.c_str()); char *narrow_res = basename( tmp ); wcstring result = format_string(L"%s", narrow_res); free(tmp); return result; } /* Really init wgettext */ static void wgettext_really_init() { for( size_t i=0; i wcs2str_buff_count ) { wcs2str_buff = (char *)realloc( wcs2str_buff, len ); if( !wcs2str_buff ) { DIE_MEM(); } } return wcs2str_internal( in, wcs2str_buff); } const wchar_t *wgettext( const wchar_t *in ) { ASSERT_IS_MAIN_THREAD(); if( !in ) return in; wgettext_init_if_necessary(); char *mbs_in = wgettext_wcs2str( in ); char *out = gettext( mbs_in ); wchar_t *wres=0; sb_clear( &buff[curr_buff] ); sb_printf( &buff[curr_buff], L"%s", out ); wres = (wchar_t *)buff[curr_buff].buff; curr_buff = (curr_buff+1)%BUFF_COUNT; return wres; } wcstring wgettext2(const wcstring &in) { wgettext_init_if_necessary(); std::string mbs_in = wcs2string(in); char *out = gettext( mbs_in.c_str() ); wcstring result = format_string(L"%s", out); return result; } const wchar_t *wgetenv( const wcstring &name ) { ASSERT_IS_MAIN_THREAD(); cstring name_narrow = wcs2string(name); char *res_narrow = getenv( name_narrow.c_str() ); static wcstring out; if( !res_narrow ) return 0; out = format_string(L"%s", res_narrow); return out.c_str(); } int wmkdir( const wcstring &name, int mode ) { cstring name_narrow = wcs2string(name); return mkdir( name_narrow.c_str(), mode ); } int wrename( const wcstring &old, const wcstring &newv ) { cstring old_narrow = wcs2string(old); cstring new_narrow =wcs2string(newv); return rename( old_narrow.c_str(), new_narrow.c_str() ); }