/* GLIB - Library of useful routines for C programming * Copyright (C) 1995-1997 Peter Mattis, Spencer Kimball and Josh MacDonald * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library 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 * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the * Free Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ /* * Modified by the GLib Team and others 1997-2000. See the AUTHORS * file for a list of people on the GLib Team. See the ChangeLog * files for a list of changes. These files are distributed with * GLib at ftp://ftp.gtk.org/pub/gtk/. */ /* * MT safe */ #include "config.h" #ifdef HAVE_UNISTD_H #include #endif #include #include #include #include #include #include "gstring.h" #include "gprintf.h" /** * SECTION:string_chunks * @title: String Chunks * @short_description: efficient storage of groups of strings * * String chunks are used to store groups of strings. Memory is * allocated in blocks, and as strings are added to the #GStringChunk * they are copied into the next free position in a block. When a block * is full a new block is allocated. * * When storing a large number of strings, string chunks are more * efficient than using g_strdup() since fewer calls to malloc() are * needed, and less memory is wasted in memory allocation overheads. * * By adding strings with g_string_chunk_insert_const() it is also * possible to remove duplicates. * * To create a new #GStringChunk use g_string_chunk_new(). * * To add strings to a #GStringChunk use g_string_chunk_insert(). * * To add strings to a #GStringChunk, but without duplicating strings * which are already in the #GStringChunk, use * g_string_chunk_insert_const(). * * To free the entire #GStringChunk use g_string_chunk_free(). It is * not possible to free individual strings. **/ /** * GStringChunk: * * An opaque data structure representing String Chunks. It should only * be accessed by using the following functions. **/ struct _GStringChunk { GHashTable *const_table; GSList *storage_list; gsize storage_next; gsize this_size; gsize default_size; }; /* Hash Functions. */ /** * g_str_equal: * @v1: a key * @v2: a key to compare with @v1 * * Compares two strings for byte-by-byte equality and returns %TRUE * if they are equal. It can be passed to g_hash_table_new() as the * @key_equal_func parameter, when using strings as keys in a #GHashTable. * * Note that this function is primarily meant as a hash table comparison * function. For a general-purpose, %NULL-safe string comparison function, * see g_strcmp0(). * * Returns: %TRUE if the two keys match */ gboolean g_str_equal (gconstpointer v1, gconstpointer v2) { const gchar *string1 = v1; const gchar *string2 = v2; return strcmp (string1, string2) == 0; } /** * g_str_hash: * @v: a string key * * Converts a string to a hash value. * * This function implements the widely used "djb" hash apparently posted * by Daniel Bernstein to comp.lang.c some time ago. The 32 bit * unsigned hash value starts at 5381 and for each byte 'c' in the * string, is updated: hash = hash * 33 + c. This * function uses the signed value of each byte. * * It can be passed to g_hash_table_new() as the @hash_func parameter, * when using strings as keys in a #GHashTable. * * Returns: a hash value corresponding to the key **/ guint g_str_hash (gconstpointer v) { const signed char *p; guint32 h = 5381; for (p = v; *p != '\0'; p++) h = (h << 5) + h + *p; return h; } #define MY_MAXSIZE ((gsize)-1) static inline gsize nearest_power (gsize base, gsize num) { if (num > MY_MAXSIZE / 2) { return MY_MAXSIZE; } else { gsize n = base; while (n < num) n <<= 1; return n; } } /* String Chunks. */ /** * g_string_chunk_new: * @size: the default size of the blocks of memory which are * allocated to store the strings. If a particular string * is larger than this default size, a larger block of * memory will be allocated for it. * * Creates a new #GStringChunk. * * Returns: a new #GStringChunk */ GStringChunk* g_string_chunk_new (gsize size) { GStringChunk *new_chunk = g_new (GStringChunk, 1); gsize actual_size = 1; actual_size = nearest_power (1, size); new_chunk->const_table = NULL; new_chunk->storage_list = NULL; new_chunk->storage_next = actual_size; new_chunk->default_size = actual_size; new_chunk->this_size = actual_size; return new_chunk; } /** * g_string_chunk_free: * @chunk: a #GStringChunk * * Frees all memory allocated by the #GStringChunk. * After calling g_string_chunk_free() it is not safe to * access any of the strings which were contained within it. */ void g_string_chunk_free (GStringChunk *chunk) { GSList *tmp_list; g_return_if_fail (chunk != NULL); if (chunk->storage_list) { for (tmp_list = chunk->storage_list; tmp_list; tmp_list = tmp_list->next) g_free (tmp_list->data); g_slist_free (chunk->storage_list); } if (chunk->const_table) g_hash_table_destroy (chunk->const_table); g_free (chunk); } /** * g_string_chunk_clear: * @chunk: a #GStringChunk * * Frees all strings contained within the #GStringChunk. * After calling g_string_chunk_clear() it is not safe to * access any of the strings which were contained within it. * * Since: 2.14 */ void g_string_chunk_clear (GStringChunk *chunk) { GSList *tmp_list; g_return_if_fail (chunk != NULL); if (chunk->storage_list) { for (tmp_list = chunk->storage_list; tmp_list; tmp_list = tmp_list->next) g_free (tmp_list->data); g_slist_free (chunk->storage_list); chunk->storage_list = NULL; chunk->storage_next = chunk->default_size; chunk->this_size = chunk->default_size; } if (chunk->const_table) g_hash_table_remove_all (chunk->const_table); } /** * g_string_chunk_insert: * @chunk: a #GStringChunk * @string: the string to add * * Adds a copy of @string to the #GStringChunk. * It returns a pointer to the new copy of the string * in the #GStringChunk. The characters in the string * can be changed, if necessary, though you should not * change anything after the end of the string. * * Unlike g_string_chunk_insert_const(), this function * does not check for duplicates. Also strings added * with g_string_chunk_insert() will not be searched * by g_string_chunk_insert_const() when looking for * duplicates. * * Returns: a pointer to the copy of @string within * the #GStringChunk */ gchar* g_string_chunk_insert (GStringChunk *chunk, const gchar *string) { g_return_val_if_fail (chunk != NULL, NULL); return g_string_chunk_insert_len (chunk, string, -1); } /** * g_string_chunk_insert_const: * @chunk: a #GStringChunk * @string: the string to add * * Adds a copy of @string to the #GStringChunk, unless the same * string has already been added to the #GStringChunk with * g_string_chunk_insert_const(). * * This function is useful if you need to copy a large number * of strings but do not want to waste space storing duplicates. * But you must remember that there may be several pointers to * the same string, and so any changes made to the strings * should be done very carefully. * * Note that g_string_chunk_insert_const() will not return a * pointer to a string added with g_string_chunk_insert(), even * if they do match. * * Returns: a pointer to the new or existing copy of @string * within the #GStringChunk */ gchar* g_string_chunk_insert_const (GStringChunk *chunk, const gchar *string) { char* lookup; g_return_val_if_fail (chunk != NULL, NULL); if (!chunk->const_table) chunk->const_table = g_hash_table_new (g_str_hash, g_str_equal); lookup = (char*) g_hash_table_lookup (chunk->const_table, (gchar *)string); if (!lookup) { lookup = g_string_chunk_insert (chunk, string); g_hash_table_insert (chunk->const_table, lookup, lookup); } return lookup; } /** * g_string_chunk_insert_len: * @chunk: a #GStringChunk * @string: bytes to insert * @len: number of bytes of @string to insert, or -1 to insert a * nul-terminated string * * Adds a copy of the first @len bytes of @string to the #GStringChunk. * The copy is nul-terminated. * * Since this function does not stop at nul bytes, it is the caller's * responsibility to ensure that @string has at least @len addressable * bytes. * * The characters in the returned string can be changed, if necessary, * though you should not change anything after the end of the string. * * Return value: a pointer to the copy of @string within the #GStringChunk * * Since: 2.4 */ gchar* g_string_chunk_insert_len (GStringChunk *chunk, const gchar *string, gssize len) { gssize size; gchar* pos; g_return_val_if_fail (chunk != NULL, NULL); if (len < 0) size = strlen (string); else size = len; if ((chunk->storage_next + size + 1) > chunk->this_size) { gsize new_size = nearest_power (chunk->default_size, size + 1); chunk->storage_list = g_slist_prepend (chunk->storage_list, g_new (gchar, new_size)); chunk->this_size = new_size; chunk->storage_next = 0; } pos = ((gchar *) chunk->storage_list->data) + chunk->storage_next; *(pos + size) = '\0'; memcpy (pos, string, size); chunk->storage_next += size + 1; return pos; } /* Strings. */ static void g_string_maybe_expand (GString* string, gsize len) { if (string->len + len >= string->allocated_len) { string->allocated_len = nearest_power (1, string->len + len + 1); string->str = g_realloc (string->str, string->allocated_len); } } /** * g_string_sized_new: * @dfl_size: the default size of the space allocated to * hold the string * * Creates a new #GString, with enough space for @dfl_size * bytes. This is useful if you are going to add a lot of * text to the string and don't want it to be reallocated * too often. * * Returns: the new #GString */ GString* g_string_sized_new (gsize dfl_size) { GString *string = g_slice_new (GString); string->allocated_len = 0; string->len = 0; string->str = NULL; g_string_maybe_expand (string, MAX (dfl_size, 2)); string->str[0] = 0; return string; } /** * g_string_new: * @init: the initial text to copy into the string * * Creates a new #GString, initialized with the given string. * * Returns: the new #GString */ GString* g_string_new (const gchar *init) { GString *string; if (init == NULL || *init == '\0') string = g_string_sized_new (2); else { gint len; len = strlen (init); string = g_string_sized_new (len + 2); g_string_append_len (string, init, len); } return string; } /** * g_string_new_len: * @init: initial contents of the string * @len: length of @init to use * * Creates a new #GString with @len bytes of the @init buffer. * Because a length is provided, @init need not be nul-terminated, * and can contain embedded nul bytes. * * Since this function does not stop at nul bytes, it is the caller's * responsibility to ensure that @init has at least @len addressable * bytes. * * Returns: a new #GString */ GString* g_string_new_len (const gchar *init, gssize len) { GString *string; if (len < 0) return g_string_new (init); else { string = g_string_sized_new (len); if (init) g_string_append_len (string, init, len); return string; } } /** * g_string_free: * @string: a #GString * @free_segment: if %TRUE the actual character data is freed as well * * Frees the memory allocated for the #GString. * If @free_segment is %TRUE it also frees the character data. If * it's %FALSE, the caller gains ownership of the buffer and must * free it after use with g_free(). * * Returns: the character data of @string * (i.e. %NULL if @free_segment is %TRUE) */ gchar* g_string_free (GString *string, gboolean free_segment) { gchar *segment; g_return_val_if_fail (string != NULL, NULL); if (free_segment) { g_free (string->str); segment = NULL; } else segment = string->str; g_slice_free (GString, string); return segment; } /** * g_string_equal: * @v: a #GString * @v2: another #GString * * Compares two strings for equality, returning %TRUE if they are equal. * For use with #GHashTable. * * Returns: %TRUE if they strings are the same length and contain the * same bytes */ gboolean g_string_equal (const GString *v, const GString *v2) { gchar *p, *q; GString *string1 = (GString *) v; GString *string2 = (GString *) v2; gsize i = string1->len; if (i != string2->len) return FALSE; p = string1->str; q = string2->str; while (i) { if (*p != *q) return FALSE; p++; q++; i--; } return TRUE; } /** * g_string_hash: * @str: a string to hash * * Creates a hash code for @str; for use with #GHashTable. * * Returns: hash code for @str */ /* 31 bit hash function */ guint g_string_hash (const GString *str) { const gchar *p = str->str; gsize n = str->len; guint h = 0; while (n--) { h = (h << 5) - h + *p; p++; } return h; } /** * g_string_assign: * @string: the destination #GString. Its current contents * are destroyed. * @rval: the string to copy into @string * * Copies the bytes from a string into a #GString, * destroying any previous contents. It is rather like * the standard strcpy() function, except that you do not * have to worry about having enough space to copy the string. * * Returns: @string */ GString* g_string_assign (GString *string, const gchar *rval) { g_return_val_if_fail (string != NULL, NULL); g_return_val_if_fail (rval != NULL, string); /* Make sure assigning to itself doesn't corrupt the string. */ if (string->str != rval) { /* Assigning from substring should be ok since g_string_truncate does not realloc. */ g_string_truncate (string, 0); g_string_append (string, rval); } return string; } /** * g_string_truncate: * @string: a #GString * @len: the new size of @string * * Cuts off the end of the GString, leaving the first @len bytes. * * Returns: @string */ GString* g_string_truncate (GString *string, gsize len) { g_return_val_if_fail (string != NULL, NULL); string->len = MIN (len, string->len); string->str[string->len] = 0; return string; } /** * g_string_set_size: * @string: a #GString * @len: the new length * * Sets the length of a #GString. If the length is less than * the current length, the string will be truncated. If the * length is greater than the current length, the contents * of the newly added area are undefined. (However, as * always, string->str[string->len] will be a nul byte.) * * Return value: @string **/ GString* g_string_set_size (GString *string, gsize len) { g_return_val_if_fail (string != NULL, NULL); if (len >= string->allocated_len) g_string_maybe_expand (string, len - string->len); string->len = len; string->str[len] = 0; return string; } /** * g_string_insert_len: * @string: a #GString * @pos: position in @string where insertion should * happen, or -1 for at the end * @val: bytes to insert * @len: number of bytes of @val to insert * * Inserts @len bytes of @val into @string at @pos. * Because @len is provided, @val may contain embedded * nuls and need not be nul-terminated. If @pos is -1, * bytes are inserted at the end of the string. * * Since this function does not stop at nul bytes, it is * the caller's responsibility to ensure that @val has at * least @len addressable bytes. * * Returns: @string */ GString* g_string_insert_len (GString *string, gssize pos, const gchar *val, gssize len) { g_return_val_if_fail (string != NULL, NULL); g_return_val_if_fail (len == 0 || val != NULL, string); if (len == 0) return string; if (len < 0) len = strlen (val); if (pos < 0) pos = string->len; else g_return_val_if_fail (pos <= string->len, string); /* Check whether val represents a substring of string. This test probably violates chapter and verse of the C standards, since ">=" and "<=" are only valid when val really is a substring. In practice, it will work on modern archs. */ if (val >= string->str && val <= string->str + string->len) { gsize offset = val - string->str; gsize precount = 0; g_string_maybe_expand (string, len); val = string->str + offset; /* At this point, val is valid again. */ /* Open up space where we are going to insert. */ if (pos < string->len) g_memmove (string->str + pos + len, string->str + pos, string->len - pos); /* Move the source part before the gap, if any. */ if (offset < pos) { precount = MIN (len, pos - offset); memcpy (string->str + pos, val, precount); } /* Move the source part after the gap, if any. */ if (len > precount) memcpy (string->str + pos + precount, val + /* Already moved: */ precount + /* Space opened up: */ len, len - precount); } else { g_string_maybe_expand (string, len); /* If we aren't appending at the end, move a hunk * of the old string to the end, opening up space */ if (pos < string->len) g_memmove (string->str + pos + len, string->str + pos, string->len - pos); /* insert the new string */ if (len == 1) string->str[pos] = *val; else memcpy (string->str + pos, val, len); } string->len += len; string->str[string->len] = 0; return string; } #define SUB_DELIM_CHARS "!$&'()*+,;=" /** * g_string_append: * @string: a #GString * @val: the string to append onto the end of @string * * Adds a string onto the end of a #GString, expanding * it if necessary. * * Returns: @string */ GString* g_string_append (GString *string, const gchar *val) { g_return_val_if_fail (string != NULL, NULL); g_return_val_if_fail (val != NULL, string); return g_string_insert_len (string, -1, val, -1); } /** * g_string_append_len: * @string: a #GString * @val: bytes to append * @len: number of bytes of @val to use * * Appends @len bytes of @val to @string. Because @len is * provided, @val may contain embedded nuls and need not * be nul-terminated. * * Since this function does not stop at nul bytes, it is * the caller's responsibility to ensure that @val has at * least @len addressable bytes. * * Returns: @string */ GString* g_string_append_len (GString *string, const gchar *val, gssize len) { g_return_val_if_fail (string != NULL, NULL); g_return_val_if_fail (len == 0 || val != NULL, string); return g_string_insert_len (string, -1, val, len); } /** * g_string_append_c: * @string: a #GString * @c: the byte to append onto the end of @string * * Adds a byte onto the end of a #GString, expanding * it if necessary. * * Returns: @string */ #undef g_string_append_c GString* g_string_append_c (GString *string, gchar c) { g_return_val_if_fail (string != NULL, NULL); return g_string_insert_c (string, -1, c); } /** * g_string_append_unichar: * @string: a #GString * @wc: a Unicode character * * Converts a Unicode character into UTF-8, and appends it * to the string. * * Return value: @string **/ GString* g_string_append_unichar (GString *string, gunichar wc) { g_return_val_if_fail (string != NULL, NULL); return g_string_insert_unichar (string, -1, wc); } /** * g_string_prepend: * @string: a #GString * @val: the string to prepend on the start of @string * * Adds a string on to the start of a #GString, * expanding it if necessary. * * Returns: @string */ GString* g_string_prepend (GString *string, const gchar *val) { g_return_val_if_fail (string != NULL, NULL); g_return_val_if_fail (val != NULL, string); return g_string_insert_len (string, 0, val, -1); } /** * g_string_prepend_len: * @string: a #GString * @val: bytes to prepend * @len: number of bytes in @val to prepend * * Prepends @len bytes of @val to @string. * Because @len is provided, @val may contain * embedded nuls and need not be nul-terminated. * * Since this function does not stop at nul bytes, * it is the caller's responsibility to ensure that * @val has at least @len addressable bytes. * * Returns: @string */ GString* g_string_prepend_len (GString *string, const gchar *val, gssize len) { g_return_val_if_fail (string != NULL, NULL); g_return_val_if_fail (val != NULL, string); return g_string_insert_len (string, 0, val, len); } /** * g_string_prepend_c: * @string: a #GString * @c: the byte to prepend on the start of the #GString * * Adds a byte onto the start of a #GString, * expanding it if necessary. * * Returns: @string */ GString* g_string_prepend_c (GString *string, gchar c) { g_return_val_if_fail (string != NULL, NULL); return g_string_insert_c (string, 0, c); } /** * g_string_prepend_unichar: * @string: a #GString * @wc: a Unicode character * * Converts a Unicode character into UTF-8, and prepends it * to the string. * * Return value: @string **/ GString* g_string_prepend_unichar (GString *string, gunichar wc) { g_return_val_if_fail (string != NULL, NULL); return g_string_insert_unichar (string, 0, wc); } /** * g_string_insert: * @string: a #GString * @pos: the position to insert the copy of the string * @val: the string to insert * * Inserts a copy of a string into a #GString, * expanding it if necessary. * * Returns: @string */ GString* g_string_insert (GString *string, gssize pos, const gchar *val) { g_return_val_if_fail (string != NULL, NULL); g_return_val_if_fail (val != NULL, string); if (pos >= 0) g_return_val_if_fail (pos <= string->len, string); return g_string_insert_len (string, pos, val, -1); } /** * g_string_insert_c: * @string: a #GString * @pos: the position to insert the byte * @c: the byte to insert * * Inserts a byte into a #GString, expanding it if necessary. * * Returns: @string */ GString* g_string_insert_c (GString *string, gssize pos, gchar c) { g_return_val_if_fail (string != NULL, NULL); g_string_maybe_expand (string, 1); if (pos < 0) pos = string->len; else g_return_val_if_fail (pos <= string->len, string); /* If not just an append, move the old stuff */ if (pos < string->len) g_memmove (string->str + pos + 1, string->str + pos, string->len - pos); string->str[pos] = c; string->len += 1; string->str[string->len] = 0; return string; } /** * g_string_insert_unichar: * @string: a #GString * @pos: the position at which to insert character, or -1 to * append at the end of the string * @wc: a Unicode character * * Converts a Unicode character into UTF-8, and insert it * into the string at the given position. * * Return value: @string **/ GString* g_string_insert_unichar (GString *string, gssize pos, gunichar wc) { gint charlen, first, i; gchar *dest; g_return_val_if_fail (string != NULL, NULL); /* Code copied from g_unichar_to_utf() */ if (wc < 0x80) { first = 0; charlen = 1; } else if (wc < 0x800) { first = 0xc0; charlen = 2; } else if (wc < 0x10000) { first = 0xe0; charlen = 3; } else if (wc < 0x200000) { first = 0xf0; charlen = 4; } else if (wc < 0x4000000) { first = 0xf8; charlen = 5; } else { first = 0xfc; charlen = 6; } /* End of copied code */ g_string_maybe_expand (string, charlen); if (pos < 0) pos = string->len; else g_return_val_if_fail (pos <= string->len, string); /* If not just an append, move the old stuff */ if (pos < string->len) g_memmove (string->str + pos + charlen, string->str + pos, string->len - pos); dest = string->str + pos; /* Code copied from g_unichar_to_utf() */ for (i = charlen - 1; i > 0; --i) { dest[i] = (wc & 0x3f) | 0x80; wc >>= 6; } dest[0] = wc | first; /* End of copied code */ string->len += charlen; string->str[string->len] = 0; return string; } /** * g_string_overwrite: * @string: a #GString * @pos: the position at which to start overwriting * @val: the string that will overwrite the @string starting at @pos * * Overwrites part of a string, lengthening it if necessary. * * Return value: @string * * Since: 2.14 **/ GString * g_string_overwrite (GString *string, gsize pos, const gchar *val) { g_return_val_if_fail (val != NULL, string); return g_string_overwrite_len (string, pos, val, strlen (val)); } /** * g_string_overwrite_len: * @string: a #GString * @pos: the position at which to start overwriting * @val: the string that will overwrite the @string starting at @pos * @len: the number of bytes to write from @val * * Overwrites part of a string, lengthening it if necessary. * This function will work with embedded nuls. * * Return value: @string * * Since: 2.14 **/ GString * g_string_overwrite_len (GString *string, gsize pos, const gchar *val, gssize len) { gsize end; g_return_val_if_fail (string != NULL, NULL); if (!len) return string; g_return_val_if_fail (val != NULL, string); g_return_val_if_fail (pos <= string->len, string); if (len < 0) len = strlen (val); end = pos + len; if (end > string->len) g_string_maybe_expand (string, end - string->len); memcpy (string->str + pos, val, len); if (end > string->len) { string->str[end] = '\0'; string->len = end; } return string; } /** * g_string_erase: * @string: a #GString * @pos: the position of the content to remove * @len: the number of bytes to remove, or -1 to remove all * following bytes * * Removes @len bytes from a #GString, starting at position @pos. * The rest of the #GString is shifted down to fill the gap. * * Returns: @string */ GString* g_string_erase (GString *string, gssize pos, gssize len) { g_return_val_if_fail (string != NULL, NULL); g_return_val_if_fail (pos >= 0, string); g_return_val_if_fail (pos <= string->len, string); if (len < 0) len = string->len - pos; else { g_return_val_if_fail (pos + len <= string->len, string); if (pos + len < string->len) g_memmove (string->str + pos, string->str + pos + len, string->len - (pos + len)); } string->len -= len; string->str[string->len] = 0; return string; } /** * g_string_ascii_down: * @string: a GString * * Converts all upper case ASCII letters to lower case ASCII letters. * * Return value: passed-in @string pointer, with all the upper case * characters converted to lower case in place, with * semantics that exactly match g_ascii_tolower(). **/ GString* g_string_ascii_down (GString *string) { gchar *s; gint n; g_return_val_if_fail (string != NULL, NULL); n = string->len; s = string->str; while (n) { *s = g_ascii_tolower (*s); s++; n--; } return string; } /** * g_string_ascii_up: * @string: a GString * * Converts all lower case ASCII letters to upper case ASCII letters. * * Return value: passed-in @string pointer, with all the lower case * characters converted to upper case in place, with * semantics that exactly match g_ascii_toupper(). **/ GString* g_string_ascii_up (GString *string) { gchar *s; gint n; g_return_val_if_fail (string != NULL, NULL); n = string->len; s = string->str; while (n) { *s = g_ascii_toupper (*s); s++; n--; } return string; } /** * g_string_down: * @string: a #GString * * Converts a #GString to lowercase. * * Returns: the #GString. * * Deprecated:2.2: This function uses the locale-specific * tolower() function, which is almost never the right thing. * Use g_string_ascii_down() or g_utf8_strdown() instead. */ GString* g_string_down (GString *string) { guchar *s; glong n; g_return_val_if_fail (string != NULL, NULL); n = string->len; s = (guchar *) string->str; while (n) { if (isupper (*s)) *s = tolower (*s); s++; n--; } return string; } /** * g_string_up: * @string: a #GString * * Converts a #GString to uppercase. * * Return value: @string * * Deprecated:2.2: This function uses the locale-specific * toupper() function, which is almost never the right thing. * Use g_string_ascii_up() or g_utf8_strup() instead. **/ GString* g_string_up (GString *string) { guchar *s; glong n; g_return_val_if_fail (string != NULL, NULL); n = string->len; s = (guchar *) string->str; while (n) { if (islower (*s)) *s = toupper (*s); s++; n--; } return string; } /** * g_string_append_vprintf: * @string: a #GString * @format: the string format. See the printf() documentation * @args: the list of arguments to insert in the output * * Appends a formatted string onto the end of a #GString. * This function is similar to g_string_append_printf() * except that the arguments to the format string are passed * as a va_list. * * Since: 2.14 */ void g_string_append_vprintf (GString *string, const gchar *format, va_list args) { gchar *buf; gint len; g_return_if_fail (string != NULL); g_return_if_fail (format != NULL); len = g_vasprintf (&buf, format, args); if (len >= 0) { g_string_maybe_expand (string, len); memcpy (string->str + string->len, buf, len + 1); string->len += len; g_free (buf); } } /** * g_string_vprintf: * @string: a #GString * @format: the string format. See the printf() documentation * @args: the parameters to insert into the format string * * Writes a formatted string into a #GString. * This function is similar to g_string_printf() except that * the arguments to the format string are passed as a va_list. * * Since: 2.14 */ void g_string_vprintf (GString *string, const gchar *format, va_list args) { g_string_truncate (string, 0); g_string_append_vprintf (string, format, args); } /** * g_string_sprintf: * @string: a #GString * @format: the string format. See the sprintf() documentation * @...: the parameters to insert into the format string * * Writes a formatted string into a #GString. * This is similar to the standard sprintf() function, * except that the #GString buffer automatically expands * to contain the results. The previous contents of the * #GString are destroyed. * * Deprecated: This function has been renamed to g_string_printf(). */ /** * g_string_printf: * @string: a #GString * @format: the string format. See the printf() documentation * @...: the parameters to insert into the format string * * Writes a formatted string into a #GString. * This is similar to the standard sprintf() function, * except that the #GString buffer automatically expands * to contain the results. The previous contents of the * #GString are destroyed. */ void g_string_printf (GString *string, const gchar *format, ...) { va_list args; g_string_truncate (string, 0); va_start (args, format); g_string_append_vprintf (string, format, args); va_end (args); } /** * g_string_sprintfa: * @string: a #GString * @format: the string format. See the sprintf() documentation * @...: the parameters to insert into the format string * * Appends a formatted string onto the end of a #GString. * This function is similar to g_string_sprintf() except that * the text is appended to the #GString. * * Deprecated: This function has been renamed to g_string_append_printf() */ /** * g_string_append_printf: * @string: a #GString * @format: the string format. See the printf() documentation * @...: the parameters to insert into the format string * * Appends a formatted string onto the end of a #GString. * This function is similar to g_string_printf() except * that the text is appended to the #GString. */ void g_string_append_printf (GString *string, const gchar *format, ...) { va_list args; va_start (args, format); g_string_append_vprintf (string, format, args); va_end (args); }