/* Common strings utilities Copyright (C) 2007, 2011, 2013 The Free Software Foundation, Inc. Written by: Rostislav Benes, 2007 This file is part of the Midnight Commander. The Midnight Commander is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. The Midnight Commander is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ #include #include #include #include #include #include "lib/global.h" #include "lib/strutil.h" /*names, that are used for utf-8 */ static const char *str_utf8_encodings[] = { "utf-8", "utf8", NULL }; /* standard 8bit encodings, no wide or multibytes characters */ static const char *str_8bit_encodings[] = { "cp-1251", "cp1251", "cp-1250", "cp1250", "cp-866", "cp866", "ibm-866", "ibm866", "cp-850", "cp850", "cp-852", "cp852", "iso-8859", "iso8859", "koi8", NULL }; /* terminal encoding */ static char *codeset = NULL; static char *term_encoding = NULL; /* function for encoding specific operations */ static struct str_class used_class; GIConv str_cnv_to_term; GIConv str_cnv_from_term; GIConv str_cnv_not_convert = INVALID_CONV; /* if enc is same encoding like on terminal */ static int str_test_not_convert (const char *enc) { return g_ascii_strcasecmp (enc, codeset) == 0; } GIConv str_crt_conv_to (const char *to_enc) { return (!str_test_not_convert (to_enc)) ? g_iconv_open (to_enc, codeset) : str_cnv_not_convert; } GIConv str_crt_conv_from (const char *from_enc) { return (!str_test_not_convert (from_enc)) ? g_iconv_open (codeset, from_enc) : str_cnv_not_convert; } void str_close_conv (GIConv conv) { if (conv != str_cnv_not_convert) g_iconv_close (conv); } static estr_t _str_convert (GIConv coder, const char *string, int size, GString * buffer) { estr_t state = ESTR_SUCCESS; gssize left; gsize bytes_read = 0; gsize bytes_written = 0; errno = 0; /* FIXME: is it really needed? */ if (coder == INVALID_CONV) return ESTR_FAILURE; if (string == NULL || buffer == NULL) return ESTR_FAILURE; /* if (! used_class.is_valid_string (string)) { return ESTR_FAILURE; } */ if (size < 0) size = strlen (string); else { left = strlen (string); if (left < size) size = left; } left = size; g_iconv (coder, NULL, NULL, NULL, NULL); while (left != 0) { gchar *tmp_buff; GError *error = NULL; tmp_buff = g_convert_with_iconv ((const gchar *) string, left, coder, &bytes_read, &bytes_written, &error); if (error != NULL) { int code = error->code; g_error_free (error); error = NULL; switch (code) { case G_CONVERT_ERROR_NO_CONVERSION: /* Conversion between the requested character sets is not supported. */ tmp_buff = g_strnfill (strlen (string), '?'); g_string_append (buffer, tmp_buff); g_free (tmp_buff); return ESTR_FAILURE; case G_CONVERT_ERROR_ILLEGAL_SEQUENCE: /* Invalid byte sequence in conversion input. */ if ((tmp_buff == NULL) && (bytes_read != 0)) /* recode valid byte sequence */ tmp_buff = g_convert_with_iconv ((const gchar *) string, bytes_read, coder, NULL, NULL, NULL); if (tmp_buff != NULL) { g_string_append (buffer, tmp_buff); g_free (tmp_buff); } if ((int) bytes_read >= left) return ESTR_PROBLEM; string += bytes_read + 1; size -= (bytes_read + 1); left -= (bytes_read + 1); g_string_append_c (buffer, *(string - 1)); state = ESTR_PROBLEM; break; case G_CONVERT_ERROR_PARTIAL_INPUT: /* Partial character sequence at end of input. */ g_string_append (buffer, tmp_buff); g_free (tmp_buff); if ((int) bytes_read < left) { left = left - bytes_read; tmp_buff = g_strnfill (left, '?'); g_string_append (buffer, tmp_buff); g_free (tmp_buff); } return ESTR_PROBLEM; case G_CONVERT_ERROR_BAD_URI: /* Don't know how handle this error :( */ case G_CONVERT_ERROR_NOT_ABSOLUTE_PATH: /* Don't know how handle this error :( */ case G_CONVERT_ERROR_FAILED: /* Conversion failed for some reason. */ default: g_free (tmp_buff); return ESTR_FAILURE; } } else if (tmp_buff == NULL) { g_string_append (buffer, string); return ESTR_PROBLEM; } else if (*tmp_buff == '\0') { g_free (tmp_buff); g_string_append (buffer, string); return state; } else { g_string_append (buffer, tmp_buff); g_free (tmp_buff); string += bytes_read; left -= bytes_read; } } return state; } estr_t str_convert (GIConv coder, const char *string, GString * buffer) { return _str_convert (coder, string, -1, buffer); } estr_t str_nconvert (GIConv coder, const char *string, int size, GString * buffer) { return _str_convert (coder, string, size, buffer); } gchar * str_conv_gerror_message (GError * error, const char *def_msg) { return used_class.conv_gerror_message (error, def_msg); } estr_t str_vfs_convert_from (GIConv coder, const char *string, GString * buffer) { estr_t result = ESTR_SUCCESS; if (coder == str_cnv_not_convert) g_string_append (buffer, string != NULL ? string : ""); else result = _str_convert (coder, string, -1, buffer); return result; } estr_t str_vfs_convert_to (GIConv coder, const char *string, int size, GString * buffer) { return used_class.vfs_convert_to (coder, string, size, buffer); } void str_printf (GString * buffer, const char *format, ...) { va_list ap; va_start (ap, format); #if GLIB_CHECK_VERSION (2, 14, 0) g_string_append_vprintf (buffer, format, ap); #else { gchar *tmp; tmp = g_strdup_vprintf (format, ap); g_string_append (buffer, tmp); g_free (tmp); } #endif va_end (ap); } void str_insert_replace_char (GString * buffer) { used_class.insert_replace_char (buffer); } estr_t str_translate_char (GIConv conv, const char *keys, size_t ch_size, char *output, size_t out_size) { size_t left; size_t cnv; g_iconv (conv, NULL, NULL, NULL, NULL); left = (ch_size == (size_t) (-1)) ? strlen (keys) : ch_size; cnv = g_iconv (conv, (gchar **) & keys, &left, &output, &out_size); if (cnv == (size_t) (-1)) return (errno == EINVAL) ? ESTR_PROBLEM : ESTR_FAILURE; output[0] = '\0'; return ESTR_SUCCESS; } const char * str_detect_termencoding (void) { if (term_encoding == NULL) { /* On Linux, nl_langinfo (CODESET) returns upper case UTF-8 whether the LANG is set to utf-8 or UTF-8. On Mac OS X, it returns the same case as the LANG input. So let tranform result of nl_langinfo (CODESET) to upper case unconditionally. */ term_encoding = g_ascii_strup (nl_langinfo (CODESET), -1); } return term_encoding; } static int str_test_encoding_class (const char *encoding, const char **table) { int result = 0; if (encoding != NULL) { int t; for (t = 0; table[t] != NULL; t++) if (g_ascii_strncasecmp (encoding, table[t], strlen (table[t])) == 0) result++; } return result; } static void str_choose_str_functions (void) { if (str_test_encoding_class (codeset, str_utf8_encodings)) used_class = str_utf8_init (); else if (str_test_encoding_class (codeset, str_8bit_encodings)) used_class = str_8bit_init (); else used_class = str_ascii_init (); } gboolean str_isutf8 (const char *codeset_name) { return (str_test_encoding_class (codeset_name, str_utf8_encodings) != 0); } void str_init_strings (const char *termenc) { codeset = termenc != NULL ? g_ascii_strup (termenc, -1) : g_strdup (str_detect_termencoding ()); str_cnv_not_convert = g_iconv_open (codeset, codeset); if (str_cnv_not_convert == INVALID_CONV) { if (termenc != NULL) { g_free (codeset); codeset = g_strdup (str_detect_termencoding ()); str_cnv_not_convert = g_iconv_open (codeset, codeset); } if (str_cnv_not_convert == INVALID_CONV) { g_free (codeset); codeset = g_strdup (DEFAULT_CHARSET); str_cnv_not_convert = g_iconv_open (codeset, codeset); } } str_cnv_to_term = str_cnv_not_convert; str_cnv_from_term = str_cnv_not_convert; str_choose_str_functions (); } void str_uninit_strings (void) { if (str_cnv_not_convert != INVALID_CONV) g_iconv_close (str_cnv_not_convert); g_free (term_encoding); g_free (codeset); } const char * str_term_form (const char *text) { return used_class.term_form (text); } const char * str_fit_to_term (const char *text, int width, align_crt_t just_mode) { return used_class.fit_to_term (text, width, just_mode); } const char * str_term_trim (const char *text, int width) { return used_class.term_trim (text, width); } const char * str_term_substring (const char *text, int start, int width) { return used_class.term_substring (text, start, width); } char * str_get_next_char (char *text) { used_class.cnext_char ((const char **) &text); return text; } const char * str_cget_next_char (const char *text) { used_class.cnext_char (&text); return text; } void str_next_char (char **text) { used_class.cnext_char ((const char **) text); } void str_cnext_char (const char **text) { used_class.cnext_char (text); } char * str_get_prev_char (char *text) { used_class.cprev_char ((const char **) &text); return text; } const char * str_cget_prev_char (const char *text) { used_class.cprev_char (&text); return text; } void str_prev_char (char **text) { used_class.cprev_char ((const char **) text); } void str_cprev_char (const char **text) { used_class.cprev_char (text); } char * str_get_next_char_safe (char *text) { used_class.cnext_char_safe ((const char **) &text); return text; } const char * str_cget_next_char_safe (const char *text) { used_class.cnext_char_safe (&text); return text; } void str_next_char_safe (char **text) { used_class.cnext_char_safe ((const char **) text); } void str_cnext_char_safe (const char **text) { used_class.cnext_char_safe (text); } char * str_get_prev_char_safe (char *text) { used_class.cprev_char_safe ((const char **) &text); return text; } const char * str_cget_prev_char_safe (const char *text) { used_class.cprev_char_safe (&text); return text; } void str_prev_char_safe (char **text) { used_class.cprev_char_safe ((const char **) text); } void str_cprev_char_safe (const char **text) { used_class.cprev_char_safe (text); } int str_next_noncomb_char (char **text) { return used_class.cnext_noncomb_char ((const char **) text); } int str_cnext_noncomb_char (const char **text) { return used_class.cnext_noncomb_char (text); } int str_prev_noncomb_char (char **text, const char *begin) { return used_class.cprev_noncomb_char ((const char **) text, begin); } int str_cprev_noncomb_char (const char **text, const char *begin) { return used_class.cprev_noncomb_char (text, begin); } int str_is_valid_char (const char *ch, size_t size) { return used_class.is_valid_char (ch, size); } int str_term_width1 (const char *text) { return used_class.term_width1 (text); } int str_term_width2 (const char *text, size_t length) { return used_class.term_width2 (text, length); } int str_term_char_width (const char *text) { return used_class.term_char_width (text); } int str_offset_to_pos (const char *text, size_t length) { return used_class.offset_to_pos (text, length); } int str_length (const char *text) { return used_class.length (text); } int str_length_char (const char *text) { return str_cget_next_char_safe (text) - text; } int str_length2 (const char *text, int size) { return used_class.length2 (text, size); } int str_length_noncomb (const char *text) { return used_class.length_noncomb (text); } int str_column_to_pos (const char *text, size_t pos) { return used_class.column_to_pos (text, pos); } int str_isspace (const char *ch) { return used_class.char_isspace (ch); } int str_ispunct (const char *ch) { return used_class.char_ispunct (ch); } int str_isalnum (const char *ch) { return used_class.char_isalnum (ch); } int str_isdigit (const char *ch) { return used_class.char_isdigit (ch); } int str_toupper (const char *ch, char **out, size_t * remain) { return used_class.char_toupper (ch, out, remain); } int str_tolower (const char *ch, char **out, size_t * remain) { return used_class.char_tolower (ch, out, remain); } int str_isprint (const char *ch) { return used_class.char_isprint (ch); } gboolean str_iscombiningmark (const char *ch) { return used_class.char_iscombiningmark (ch); } const char * str_trunc (const char *text, int width) { return used_class.trunc (text, width); } char * str_create_search_needle (const char *needle, int case_sen) { return used_class.create_search_needle (needle, case_sen); } void str_release_search_needle (char *needle, int case_sen) { used_class.release_search_needle (needle, case_sen); } const char * str_search_first (const char *text, const char *search, int case_sen) { return used_class.search_first (text, search, case_sen); } const char * str_search_last (const char *text, const char *search, int case_sen) { return used_class.search_last (text, search, case_sen); } int str_is_valid_string (const char *text) { return used_class.is_valid_string (text); } int str_compare (const char *t1, const char *t2) { return used_class.compare (t1, t2); } int str_ncompare (const char *t1, const char *t2) { return used_class.ncompare (t1, t2); } int str_casecmp (const char *t1, const char *t2) { return used_class.casecmp (t1, t2); } int str_ncasecmp (const char *t1, const char *t2) { return used_class.ncasecmp (t1, t2); } int str_prefix (const char *text, const char *prefix) { return used_class.prefix (text, prefix); } int str_caseprefix (const char *text, const char *prefix) { return used_class.caseprefix (text, prefix); } void str_fix_string (char *text) { used_class.fix_string (text); } char * str_create_key (const char *text, int case_sen) { return used_class.create_key (text, case_sen); } char * str_create_key_for_filename (const char *text, int case_sen) { return used_class.create_key_for_filename (text, case_sen); } int str_key_collate (const char *t1, const char *t2, int case_sen) { return used_class.key_collate (t1, t2, case_sen); } void str_release_key (char *key, int case_sen) { used_class.release_key (key, case_sen); } void str_msg_term_size (const char *text, int *lines, int *columns) { char *p, *tmp; char *q; char c = '\0'; *lines = 1; *columns = 0; tmp = g_strdup (text); p = tmp; while (TRUE) { int width; q = strchr (p, '\n'); if (q != NULL) { c = q[0]; q[0] = '\0'; } width = str_term_width1 (p); if (width > *columns) *columns = width; if (q == NULL) break; q[0] = c; p = q + 1; (*lines)++; } g_free (tmp); } /* --------------------------------------------------------------------------------------------- */ char * strrstr_skip_count (const char *haystack, const char *needle, size_t skip_count) { char *semi; ssize_t len; len = strlen (haystack); do { semi = g_strrstr_len (haystack, len, needle); if (semi == NULL) return NULL; len = semi - haystack - 1; } while (skip_count-- != 0); return semi; } /* --------------------------------------------------------------------------------------------- */ /* Interprete string as a non-negative decimal integer, optionally multiplied by various values. * * @param str input value * @param invalid set to TRUE if "str" does not represent a number in this format * * @return non-integer representation of "str", 0 in case of error. */ uintmax_t parse_integer (const char *str, gboolean * invalid) { uintmax_t n; char *suffix; strtol_error_t e; e = xstrtoumax (str, &suffix, 10, &n, "bcEGkKMPTwYZ0"); if (e == LONGINT_INVALID_SUFFIX_CHAR && *suffix == 'x') { uintmax_t multiplier; multiplier = parse_integer (suffix + 1, invalid); if (multiplier != 0 && n * multiplier / multiplier != n) { *invalid = TRUE; return 0; } n *= multiplier; } else if (e != LONGINT_OK) { *invalid = TRUE; n = 0; } return n; } /* --------------------------------------------------------------------------------------------- */