/* UTF-8 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 "lib/global.h" #include "lib/strutil.h" /* using function for utf-8 from glib */ static const char replch[] = "\xEF\xBF\xBD"; static gboolean str_unichar_iscombiningmark (gunichar uni) { GUnicodeType type; type = g_unichar_type (uni); return (type == G_UNICODE_COMBINING_MARK) || (type == G_UNICODE_ENCLOSING_MARK) || (type == G_UNICODE_NON_SPACING_MARK); } static void str_utf8_insert_replace_char (GString * buffer) { g_string_append (buffer, replch); } static int str_utf8_is_valid_string (const char *text) { return g_utf8_validate (text, -1, NULL); } static int str_utf8_is_valid_char (const char *ch, size_t size) { switch (g_utf8_get_char_validated (ch, size)) { case (gunichar) (-2): return (-2); case (gunichar) (-1): return (-1); default: return 1; } } static void str_utf8_cnext_char (const char **text) { (*text) = g_utf8_next_char (*text); } static void str_utf8_cprev_char (const char **text) { (*text) = g_utf8_prev_char (*text); } static void str_utf8_cnext_char_safe (const char **text) { if (str_utf8_is_valid_char (*text, -1) == 1) (*text) = g_utf8_next_char (*text); else (*text)++; } static void str_utf8_cprev_char_safe (const char **text) { const char *result, *t; result = g_utf8_prev_char (*text); t = result; str_utf8_cnext_char_safe (&t); if (t == *text) (*text) = result; else (*text)--; } static void str_utf8_fix_string (char *text) { while (text[0] != '\0') { gunichar uni; uni = g_utf8_get_char_validated (text, -1); if ((uni != (gunichar) (-1)) && (uni != (gunichar) (-2))) text = g_utf8_next_char (text); else { text[0] = '?'; text++; } } } static int str_utf8_isspace (const char *text) { gunichar uni; uni = g_utf8_get_char_validated (text, -1); return g_unichar_isspace (uni); } static int str_utf8_ispunct (const char *text) { gunichar uni; uni = g_utf8_get_char_validated (text, -1); return g_unichar_ispunct (uni); } static int str_utf8_isalnum (const char *text) { gunichar uni; uni = g_utf8_get_char_validated (text, -1); return g_unichar_isalnum (uni); } static int str_utf8_isdigit (const char *text) { gunichar uni; uni = g_utf8_get_char_validated (text, -1); return g_unichar_isdigit (uni); } static int str_utf8_isprint (const char *ch) { gunichar uni; uni = g_utf8_get_char_validated (ch, -1); return g_unichar_isprint (uni); } static gboolean str_utf8_iscombiningmark (const char *ch) { gunichar uni; uni = g_utf8_get_char_validated (ch, -1); return str_unichar_iscombiningmark (uni); } static int str_utf8_cnext_noncomb_char (const char **text) { int count = 0; while ((*text)[0] != '\0') { str_utf8_cnext_char_safe (text); count++; if (!str_utf8_iscombiningmark (*text)) break; } return count; } static int str_utf8_cprev_noncomb_char (const char **text, const char *begin) { int count = 0; while ((*text) != begin) { str_utf8_cprev_char_safe (text); count++; if (!str_utf8_iscombiningmark (*text)) break; } return count; } static int str_utf8_toupper (const char *text, char **out, size_t * remain) { gunichar uni; size_t left; uni = g_utf8_get_char_validated (text, -1); if (uni == (gunichar) (-1) || uni == (gunichar) (-2)) return 0; uni = g_unichar_toupper (uni); left = g_unichar_to_utf8 (uni, NULL); if (left >= *remain) return 0; left = g_unichar_to_utf8 (uni, *out); (*out) += left; (*remain) -= left; return 1; } static int str_utf8_tolower (const char *text, char **out, size_t * remain) { gunichar uni; size_t left; uni = g_utf8_get_char_validated (text, -1); if (uni == (gunichar) (-1) || uni == (gunichar) (-2)) return 0; uni = g_unichar_tolower (uni); left = g_unichar_to_utf8 (uni, NULL); if (left >= *remain) return 0; left = g_unichar_to_utf8 (uni, *out); (*out) += left; (*remain) -= left; return 1; } static int str_utf8_length (const char *text) { int result = 0; const char *start; const char *end; start = text; while (!g_utf8_validate (start, -1, &end) && start[0] != '\0') { if (start != end) result += g_utf8_strlen (start, end - start); result++; start = end + 1; } if (start == text) result = g_utf8_strlen (text, -1); else if (start[0] != '\0' && start != end) result += g_utf8_strlen (start, end - start); return result; } static int str_utf8_length2 (const char *text, int size) { int result = 0; const char *start; const char *end; start = text; while (!g_utf8_validate (start, -1, &end) && start[0] != '\0' && size > 0) { if (start != end) { result += g_utf8_strlen (start, min (end - start, size)); size -= end - start; } result += (size > 0); size--; start = end + 1; } if (start == text) result = g_utf8_strlen (text, size); else if (start[0] != '\0' && start != end && size > 0) result += g_utf8_strlen (start, min (end - start, size)); return result; } static int str_utf8_length_noncomb (const char *text) { int result = 0; const char *t = text; while (t[0] != '\0') { str_utf8_cnext_noncomb_char (&t); result++; } return result; } /* static void str_utf8_questmark_sustb (char **string, size_t * left, GString * buffer) { char *next = g_utf8_next_char (*string); (*left) -= next - (*string); (*string) = next; g_string_append_c (buffer, '?'); } */ static gchar * str_utf8_conv_gerror_message (GError * error, const char *def_msg) { if (error != NULL) return g_strdup (error->message); return g_strdup (def_msg != NULL ? def_msg : ""); } static estr_t str_utf8_vfs_convert_to (GIConv coder, const char *string, int size, GString * buffer) { estr_t result = ESTR_SUCCESS; if (coder == str_cnv_not_convert) g_string_append_len (buffer, string, size); else result = str_nconvert (coder, (char *) string, size, buffer); return result; } struct term_form { char text[BUF_MEDIUM * 6]; size_t width; gboolean compose; }; /* utiliti function, that make string valid in utf8 and all characters printable * return width of string too*/ static const struct term_form * str_utf8_make_make_term_form (const char *text, size_t length) { static struct term_form result; gunichar uni; size_t left; char *actual; result.text[0] = '\0'; result.width = 0; result.compose = FALSE; actual = result.text; /* check if text start with combining character, * add space at begin in this case */ if (length != 0 && text[0] != '\0') { uni = g_utf8_get_char_validated (text, -1); if ((uni != (gunichar) (-1)) && (uni != (gunichar) (-2)) && str_unichar_iscombiningmark (uni)) { actual[0] = ' '; actual++; result.width++; result.compose = TRUE; } } while (length != 0 && text[0] != '\0') { uni = g_utf8_get_char_validated (text, -1); if ((uni != (gunichar) (-1)) && (uni != (gunichar) (-2))) { if (g_unichar_isprint (uni)) { left = g_unichar_to_utf8 (uni, actual); actual += left; if (str_unichar_iscombiningmark (uni)) result.compose = TRUE; else { result.width++; if (g_unichar_iswide (uni)) result.width++; } } else { actual[0] = '.'; actual++; result.width++; } text = g_utf8_next_char (text); } else { text++; /*actual[0] = '?'; */ memcpy (actual, replch, strlen (replch)); actual += strlen (replch); result.width++; } if (length != (size_t) (-1)) length--; } actual[0] = '\0'; return &result; } static const char * str_utf8_term_form (const char *text) { static char result[BUF_MEDIUM * 6]; const struct term_form *pre_form; pre_form = str_utf8_make_make_term_form (text, (size_t) (-1)); if (pre_form->compose) { char *composed; composed = g_utf8_normalize (pre_form->text, -1, G_NORMALIZE_DEFAULT_COMPOSE); g_strlcpy (result, composed, sizeof (result)); g_free (composed); } else g_strlcpy (result, pre_form->text, sizeof (result)); return result; } struct utf8_tool { char *actual; size_t remain; const char *cheked; int ident; gboolean compose; }; /* utiliti function, that copy all characters from cheked to actual */ static gboolean utf8_tool_copy_chars_to_end (struct utf8_tool *tool) { tool->compose = FALSE; while (tool->cheked[0] != '\0') { gunichar uni; size_t left; uni = g_utf8_get_char (tool->cheked); tool->compose = tool->compose || str_unichar_iscombiningmark (uni); left = g_unichar_to_utf8 (uni, NULL); if (tool->remain <= left) return FALSE; left = g_unichar_to_utf8 (uni, tool->actual); tool->actual += left; tool->remain -= left; tool->cheked = g_utf8_next_char (tool->cheked); } return TRUE; } /* utiliti function, that copy characters from cheked to actual until ident is * smaller than to_ident */ static gboolean utf8_tool_copy_chars_to (struct utf8_tool *tool, int to_ident) { tool->compose = FALSE; while (tool->cheked[0] != '\0') { gunichar uni; size_t left; int w = 0; uni = g_utf8_get_char (tool->cheked); if (str_unichar_iscombiningmark (uni)) tool->compose = TRUE; else { w = 1; if (g_unichar_iswide (uni)) w++; if (tool->ident + w > to_ident) return TRUE; } left = g_unichar_to_utf8 (uni, NULL); if (tool->remain <= left) return FALSE; left = g_unichar_to_utf8 (uni, tool->actual); tool->actual += left; tool->remain -= left; tool->cheked = g_utf8_next_char (tool->cheked); tool->ident += w; } return TRUE; } /* utiliti function, add count spaces to actual */ static int utf8_tool_insert_space (struct utf8_tool *tool, int count) { if (count <= 0) return 1; if (tool->remain <= (gsize) count) return 0; memset (tool->actual, ' ', count); tool->actual += count; tool->remain -= count; return 1; } /* utiliti function, add one characters to actual */ static int utf8_tool_insert_char (struct utf8_tool *tool, char ch) { if (tool->remain <= 1) return 0; tool->actual[0] = ch; tool->actual++; tool->remain--; return 1; } /* utiliti function, thah skip characters from cheked until ident is greater or * equal to to_ident */ static gboolean utf8_tool_skip_chars_to (struct utf8_tool *tool, int to_ident) { gunichar uni; while (to_ident > tool->ident && tool->cheked[0] != '\0') { uni = g_utf8_get_char (tool->cheked); if (!str_unichar_iscombiningmark (uni)) { tool->ident++; if (g_unichar_iswide (uni)) tool->ident++; } tool->cheked = g_utf8_next_char (tool->cheked); } uni = g_utf8_get_char (tool->cheked); while (str_unichar_iscombiningmark (uni)) { tool->cheked = g_utf8_next_char (tool->cheked); uni = g_utf8_get_char (tool->cheked); } return TRUE; } static void utf8_tool_compose (char *buffer, size_t size) { char *composed; composed = g_utf8_normalize (buffer, -1, G_NORMALIZE_DEFAULT_COMPOSE); g_strlcpy (buffer, composed, size); g_free (composed); } static const char * str_utf8_fit_to_term (const char *text, int width, align_crt_t just_mode) { static char result[BUF_MEDIUM * 6]; const struct term_form *pre_form; struct utf8_tool tool; pre_form = str_utf8_make_make_term_form (text, (size_t) (-1)); tool.cheked = pre_form->text; tool.actual = result; tool.remain = sizeof (result); tool.compose = FALSE; if (pre_form->width <= (gsize) width) { tool.ident = 0; switch (HIDE_FIT (just_mode)) { case J_CENTER_LEFT: case J_CENTER: tool.ident = (width - pre_form->width) / 2; break; case J_RIGHT: tool.ident = width - pre_form->width; break; } utf8_tool_insert_space (&tool, tool.ident); utf8_tool_copy_chars_to_end (&tool); utf8_tool_insert_space (&tool, width - pre_form->width - tool.ident); } else if (IS_FIT (just_mode)) { tool.ident = 0; utf8_tool_copy_chars_to (&tool, width / 2); utf8_tool_insert_char (&tool, '~'); tool.ident = 0; utf8_tool_skip_chars_to (&tool, pre_form->width - width + 1); utf8_tool_copy_chars_to_end (&tool); utf8_tool_insert_space (&tool, width - (pre_form->width - tool.ident + 1)); } else { tool.ident = 0; switch (HIDE_FIT (just_mode)) { case J_CENTER: tool.ident = (width - pre_form->width) / 2; break; case J_RIGHT: tool.ident = width - pre_form->width; break; } utf8_tool_skip_chars_to (&tool, 0); utf8_tool_insert_space (&tool, tool.ident); utf8_tool_copy_chars_to (&tool, width); utf8_tool_insert_space (&tool, width - tool.ident); } tool.actual[0] = '\0'; if (tool.compose) utf8_tool_compose (result, sizeof (result)); return result; } static const char * str_utf8_term_trim (const char *text, int width) { static char result[BUF_MEDIUM * 6]; const struct term_form *pre_form; struct utf8_tool tool; if (width < 1) { result[0] = '\0'; return result; } pre_form = str_utf8_make_make_term_form (text, (size_t) (-1)); tool.cheked = pre_form->text; tool.actual = result; tool.remain = sizeof (result); tool.compose = FALSE; if ((gsize) width >= pre_form->width) utf8_tool_copy_chars_to_end (&tool); else if (width <= 3) { memset (tool.actual, '.', width); tool.actual += width; tool.remain -= width; } else { memset (tool.actual, '.', 3); tool.actual += 3; tool.remain -= 3; tool.ident = 0; utf8_tool_skip_chars_to (&tool, pre_form->width - width + 3); utf8_tool_copy_chars_to_end (&tool); } tool.actual[0] = '\0'; if (tool.compose) utf8_tool_compose (result, sizeof (result)); return result; } static int str_utf8_term_width2 (const char *text, size_t length) { const struct term_form *result; result = str_utf8_make_make_term_form (text, length); return result->width; } static int str_utf8_term_width1 (const char *text) { return str_utf8_term_width2 (text, (size_t) (-1)); } static int str_utf8_term_char_width (const char *text) { gunichar uni; uni = g_utf8_get_char_validated (text, -1); return (str_unichar_iscombiningmark (uni)) ? 0 : ((g_unichar_iswide (uni)) ? 2 : 1); } static const char * str_utf8_term_substring (const char *text, int start, int width) { static char result[BUF_MEDIUM * 6]; const struct term_form *pre_form; struct utf8_tool tool; pre_form = str_utf8_make_make_term_form (text, (size_t) (-1)); tool.cheked = pre_form->text; tool.actual = result; tool.remain = sizeof (result); tool.compose = FALSE; tool.ident = -start; utf8_tool_skip_chars_to (&tool, 0); if (tool.ident < 0) tool.ident = 0; utf8_tool_insert_space (&tool, tool.ident); utf8_tool_copy_chars_to (&tool, width); utf8_tool_insert_space (&tool, width - tool.ident); tool.actual[0] = '\0'; if (tool.compose) utf8_tool_compose (result, sizeof (result)); return result; } static const char * str_utf8_trunc (const char *text, int width) { static char result[MC_MAXPATHLEN * 6 * 2]; const struct term_form *pre_form; struct utf8_tool tool; pre_form = str_utf8_make_make_term_form (text, (size_t) (-1)); tool.cheked = pre_form->text; tool.actual = result; tool.remain = sizeof (result); tool.compose = FALSE; if (pre_form->width <= (gsize) width) utf8_tool_copy_chars_to_end (&tool); else { tool.ident = 0; utf8_tool_copy_chars_to (&tool, width / 2); utf8_tool_insert_char (&tool, '~'); tool.ident = 0; utf8_tool_skip_chars_to (&tool, pre_form->width - width + 1); utf8_tool_copy_chars_to_end (&tool); } tool.actual[0] = '\0'; if (tool.compose) utf8_tool_compose (result, sizeof (result)); return result; } static int str_utf8_offset_to_pos (const char *text, size_t length) { if (str_utf8_is_valid_string (text)) return g_utf8_offset_to_pointer (text, length) - text; else { int result; GString *buffer; buffer = g_string_new (text); str_utf8_fix_string (buffer->str); result = g_utf8_offset_to_pointer (buffer->str, length) - buffer->str; g_string_free (buffer, TRUE); return result; } } static int str_utf8_column_to_pos (const char *text, size_t pos) { int result = 0; int width = 0; while (text[0] != '\0') { gunichar uni; uni = g_utf8_get_char_validated (text, 6); if ((uni != (gunichar) (-1)) && (uni != (gunichar) (-2))) { if (g_unichar_isprint (uni)) { if (!str_unichar_iscombiningmark (uni)) { width++; if (g_unichar_iswide (uni)) width++; } } else { width++; } text = g_utf8_next_char (text); } else { text++; width++; } if ((gsize) width > pos) return result; result++; } return result; } static char * str_utf8_create_search_needle (const char *needle, int case_sen) { char *fold, *result; if (needle == NULL) return NULL; if (case_sen) return g_utf8_normalize (needle, -1, G_NORMALIZE_ALL); fold = g_utf8_casefold (needle, -1); result = g_utf8_normalize (fold, -1, G_NORMALIZE_ALL); g_free (fold); return result; } static void str_utf8_release_search_needle (char *needle, int case_sen) { (void) case_sen; g_free (needle); } static const char * str_utf8_search_first (const char *text, const char *search, int case_sen) { char *fold_text; char *deco_text; const char *match; const char *result = NULL; const char *m; fold_text = (case_sen) ? (char *) text : g_utf8_casefold (text, -1); deco_text = g_utf8_normalize (fold_text, -1, G_NORMALIZE_ALL); match = deco_text; do { match = g_strstr_len (match, -1, search); if (match != NULL) { if ((!str_utf8_iscombiningmark (match) || (match == deco_text)) && !str_utf8_iscombiningmark (match + strlen (search))) { result = text; m = deco_text; while (m < match) { str_utf8_cnext_noncomb_char (&m); str_utf8_cnext_noncomb_char (&result); } } else str_utf8_cnext_char (&match); } } while (match != NULL && result == NULL); g_free (deco_text); if (!case_sen) g_free (fold_text); return result; } static const char * str_utf8_search_last (const char *text, const char *search, int case_sen) { char *fold_text; char *deco_text; char *match; const char *result = NULL; const char *m; fold_text = (case_sen) ? (char *) text : g_utf8_casefold (text, -1); deco_text = g_utf8_normalize (fold_text, -1, G_NORMALIZE_ALL); do { match = g_strrstr_len (deco_text, -1, search); if (match != NULL) { if ((!str_utf8_iscombiningmark (match) || (match == deco_text)) && !str_utf8_iscombiningmark (match + strlen (search))) { result = text; m = deco_text; while (m < match) { str_utf8_cnext_noncomb_char (&m); str_utf8_cnext_noncomb_char (&result); } } else match[0] = '\0'; } } while (match != NULL && result == NULL); g_free (deco_text); if (!case_sen) g_free (fold_text); return result; } static char * str_utf8_normalize (const char *text) { GString *fixed; char *tmp; char *result; const char *start; const char *end; fixed = g_string_sized_new (4); start = text; while (!g_utf8_validate (start, -1, &end) && start[0] != '\0') { if (start != end) { tmp = g_utf8_normalize (start, end - start, G_NORMALIZE_ALL); g_string_append (fixed, tmp); g_free (tmp); } g_string_append_c (fixed, end[0]); start = end + 1; } if (start == text) { result = g_utf8_normalize (text, -1, G_NORMALIZE_ALL); g_string_free (fixed, TRUE); } else { if (start[0] != '\0' && start != end) { tmp = g_utf8_normalize (start, end - start, G_NORMALIZE_ALL); g_string_append (fixed, tmp); g_free (tmp); } result = g_string_free (fixed, FALSE); } return result; } static char * str_utf8_casefold_normalize (const char *text) { GString *fixed; char *tmp, *fold; char *result; const char *start; const char *end; fixed = g_string_sized_new (4); start = text; while (!g_utf8_validate (start, -1, &end) && start[0] != '\0') { if (start != end) { fold = g_utf8_casefold (start, end - start); tmp = g_utf8_normalize (fold, -1, G_NORMALIZE_ALL); g_string_append (fixed, tmp); g_free (tmp); g_free (fold); } g_string_append_c (fixed, end[0]); start = end + 1; } if (start == text) { fold = g_utf8_casefold (text, -1); result = g_utf8_normalize (fold, -1, G_NORMALIZE_ALL); g_free (fold); g_string_free (fixed, TRUE); } else { if (start[0] != '\0' && start != end) { fold = g_utf8_casefold (start, end - start); tmp = g_utf8_normalize (fold, -1, G_NORMALIZE_ALL); g_string_append (fixed, tmp); g_free (tmp); g_free (fold); } result = g_string_free (fixed, FALSE); } return result; } static int str_utf8_compare (const char *t1, const char *t2) { char *n1, *n2; int result; n1 = str_utf8_normalize (t1); n2 = str_utf8_normalize (t2); result = strcmp (n1, n2); g_free (n1); g_free (n2); return result; } static int str_utf8_ncompare (const char *t1, const char *t2) { char *n1, *n2; size_t l1, l2; int result; n1 = str_utf8_normalize (t1); n2 = str_utf8_normalize (t2); l1 = strlen (n1); l2 = strlen (n2); result = strncmp (n1, n2, min (l1, l2)); g_free (n1); g_free (n2); return result; } static int str_utf8_casecmp (const char *t1, const char *t2) { char *n1, *n2; int result; n1 = str_utf8_casefold_normalize (t1); n2 = str_utf8_casefold_normalize (t2); result = strcmp (n1, n2); g_free (n1); g_free (n2); return result; } static int str_utf8_ncasecmp (const char *t1, const char *t2) { char *n1, *n2; size_t l1, l2; int result; n1 = str_utf8_casefold_normalize (t1); n2 = str_utf8_casefold_normalize (t2); l1 = strlen (n1); l2 = strlen (n2); result = strncmp (n1, n2, min (l1, l2)); g_free (n1); g_free (n2); return result; } static int str_utf8_prefix (const char *text, const char *prefix) { char *t, *p; const char *nt, *np; const char *nnt, *nnp; int result; t = str_utf8_normalize (text); p = str_utf8_normalize (prefix); nt = t; np = p; nnt = t; nnp = p; while (nt[0] != '\0' && np[0] != '\0') { str_utf8_cnext_char_safe (&nnt); str_utf8_cnext_char_safe (&nnp); if (nnt - nt != nnp - np) break; if (strncmp (nt, np, nnt - nt) != 0) break; nt = nnt; np = nnp; } result = np - p; g_free (t); g_free (p); return result; } static int str_utf8_caseprefix (const char *text, const char *prefix) { char *t, *p; const char *nt, *np; const char *nnt, *nnp; int result; t = str_utf8_casefold_normalize (text); p = str_utf8_casefold_normalize (prefix); nt = t; np = p; nnt = t; nnp = p; while (nt[0] != '\0' && np[0] != '\0') { str_utf8_cnext_char_safe (&nnt); str_utf8_cnext_char_safe (&nnp); if (nnt - nt != nnp - np) break; if (strncmp (nt, np, nnt - nt) != 0) break; nt = nnt; np = nnp; } result = np - p; g_free (t); g_free (p); return result; } static char * str_utf8_create_key_gen (const char *text, int case_sen, gchar * (*keygen) (const gchar * text, gssize size)) { char *result; if (case_sen) result = str_utf8_normalize (text); else { gboolean dot; GString *fixed; const char *start, *end; char *fold, *key; dot = text[0] == '.'; fixed = g_string_sized_new (16); if (!dot) start = text; else { start = text + 1; g_string_append_c (fixed, '.'); } while (!g_utf8_validate (start, -1, &end) && start[0] != '\0') { if (start != end) { fold = g_utf8_casefold (start, end - start); key = keygen (fold, -1); g_string_append (fixed, key); g_free (key); g_free (fold); } g_string_append_c (fixed, end[0]); start = end + 1; } if (start == text) { fold = g_utf8_casefold (start, -1); result = keygen (fold, -1); g_free (fold); g_string_free (fixed, TRUE); } else if (dot && (start == text + 1)) { fold = g_utf8_casefold (start, -1); key = keygen (fold, -1); g_string_append (fixed, key); g_free (key); g_free (fold); result = g_string_free (fixed, FALSE); } else { if (start[0] != '\0' && start != end) { fold = g_utf8_casefold (start, end - start); key = keygen (fold, -1); g_string_append (fixed, key); g_free (key); g_free (fold); } result = g_string_free (fixed, FALSE); } } return result; } static char * str_utf8_create_key (const char *text, int case_sen) { return str_utf8_create_key_gen (text, case_sen, g_utf8_collate_key); } #ifdef MC__USE_STR_UTF8_CREATE_KEY_FOR_FILENAME static char * str_utf8_create_key_for_filename (const char *text, int case_sen) { return str_utf8_create_key_gen (text, case_sen, g_utf8_collate_key_for_filename); } #endif static int str_utf8_key_collate (const char *t1, const char *t2, int case_sen) { (void) case_sen; return strcmp (t1, t2); } static void str_utf8_release_key (char *key, int case_sen) { (void) case_sen; g_free (key); } struct str_class str_utf8_init (void) { struct str_class result; result.conv_gerror_message = str_utf8_conv_gerror_message; result.vfs_convert_to = str_utf8_vfs_convert_to; result.insert_replace_char = str_utf8_insert_replace_char; result.is_valid_string = str_utf8_is_valid_string; result.is_valid_char = str_utf8_is_valid_char; result.cnext_char = str_utf8_cnext_char; result.cprev_char = str_utf8_cprev_char; result.cnext_char_safe = str_utf8_cnext_char_safe; result.cprev_char_safe = str_utf8_cprev_char_safe; result.cnext_noncomb_char = str_utf8_cnext_noncomb_char; result.cprev_noncomb_char = str_utf8_cprev_noncomb_char; result.char_isspace = str_utf8_isspace; result.char_ispunct = str_utf8_ispunct; result.char_isalnum = str_utf8_isalnum; result.char_isdigit = str_utf8_isdigit; result.char_isprint = str_utf8_isprint; result.char_iscombiningmark = str_utf8_iscombiningmark; result.char_toupper = str_utf8_toupper; result.char_tolower = str_utf8_tolower; result.length = str_utf8_length; result.length2 = str_utf8_length2; result.length_noncomb = str_utf8_length_noncomb; result.fix_string = str_utf8_fix_string; result.term_form = str_utf8_term_form; result.fit_to_term = str_utf8_fit_to_term; result.term_trim = str_utf8_term_trim; result.term_width2 = str_utf8_term_width2; result.term_width1 = str_utf8_term_width1; result.term_char_width = str_utf8_term_char_width; result.term_substring = str_utf8_term_substring; result.trunc = str_utf8_trunc; result.offset_to_pos = str_utf8_offset_to_pos; result.column_to_pos = str_utf8_column_to_pos; result.create_search_needle = str_utf8_create_search_needle; result.release_search_needle = str_utf8_release_search_needle; result.search_first = str_utf8_search_first; result.search_last = str_utf8_search_last; result.compare = str_utf8_compare; result.ncompare = str_utf8_ncompare; result.casecmp = str_utf8_casecmp; result.ncasecmp = str_utf8_ncasecmp; result.prefix = str_utf8_prefix; result.caseprefix = str_utf8_caseprefix; result.create_key = str_utf8_create_key; #ifdef MC__USE_STR_UTF8_CREATE_KEY_FOR_FILENAME /* case insensitive sort files in "a1 a2 a10" order */ result.create_key_for_filename = str_utf8_create_key_for_filename; #else /* case insensitive sort files in "a1 a10 a2" order */ result.create_key_for_filename = str_utf8_create_key; #endif result.key_collate = str_utf8_key_collate; result.release_key = str_utf8_release_key; return result; }