/** @file str.c * @brief String related functions * * This file implements some often used string functions. * Some functions are more portable versions of standard * functions but others are original ones. */ #include #include #include "faux/ctype.h" #include "faux/str.h" /* TODO: Are that vars really needed? */ //const char *lub_string_esc_default = "`|$<>&()#;\\\"!"; //const char *lub_string_esc_regex = "^$.*+[](){}"; //const char *lub_string_esc_quoted = "\\\""; /** @brief Free the memory allocated for the string. * * Safely free the memory allocated for the string. You can use NULL * pointer with this function. POSIX's free() checks for the NULL pointer * but not all systems do so. * * @param [in] str String to free */ void faux_str_free(char *str) { faux_free(str); } /** @brief Duplicates the string. * * Duplicates the string. Same as standard strdup() function. Allocates * memory with malloc(). Checks for NULL pointer. * * @warning Resulting string must be freed by faux_str_free(). * * @param [in] str String to duplicate. * @return Pointer to allocated string or NULL. */ char *faux_str_dup(const char *str) { if (!str) return NULL; return strdup(str); } /** @brief Duplicates the first n bytes of the string. * * Duplicates at most n bytes of the string. Allocates * memory with malloc(). Checks for NULL pointer. Function will allocate * n + 1 bytes to store string and terminating null byte. * * @warning Resulting string must be freed by faux_str_free(). * * @param [in] str String to duplicate. * @param [in] n Number of bytes to copy. * @return Pointer to allocated string or NULL. */ char *faux_str_dupn(const char *str, size_t n) { char *res = NULL; size_t len = 0; if (!str) return NULL; len = strlen(str); len = (len < n) ? len : n; res = faux_zmalloc(len + 1); if (!res) return NULL; strncpy(res, str, len); res[len] = '\0'; return res; } /** @brief Generates lowercase copy of input string. * * Allocates the copy of input string and convert that copy to lowercase. * * @warning Resulting string must be freed by faux_str_free(). * * @param [in] str String to convert. * @return Pointer to lowercase string copy or NULL. */ char *faux_str_tolower(const char *str) { char *res = faux_str_dup(str); char *p = res; if (!res) return NULL; while (*p) { *p = faux_ctype_tolower(*p); p++; } return res; } /** @brief Generates uppercase copy of input string. * * Allocates the copy of input string and convert that copy to uppercase. * * @warning Resulting string must be freed by faux_str_free(). * * @param [in] str String to convert. * @return Pointer to lowercase string copy or NULL. */ char *faux_str_toupper(const char *str) { char *res = faux_str_dup(str); char *p = res; if (!res) return NULL; while (*p) { *p = faux_ctype_toupper(*p); p++; } return res; } /** @brief Add n bytes of text to existent string. * * Concatenate two strings. Add n bytes of second string to the end of the * first one. The first argument is address of string pointer. The pointer * can be changed due to realloc() features. The first pointer can be NULL. * In this case the memory will be malloc()-ed and stored to the first pointer. * * @param [in,out] str Address of first string pointer. * @param [in] text Text to add to the first string. * @param [in] n Number of bytes to add. * @return Pointer to resulting string or NULL. */ char *faux_str_catn(char **str, const char *text, size_t n) { size_t str_len = 0; size_t text_len = 0; char *res = NULL; char *p = NULL; if (!text) return *str; str_len = (*str) ? strlen(*str) : 0; text_len = strlen(text); text_len = (text_len < n) ? text_len : n; res = realloc(*str, str_len + text_len + 1); if (!res) return NULL; p = res + str_len; strncpy(p, text, text_len); p[text_len] = '\0'; *str = res; return res; } /** @brief Add some text to existent string. * * Concatenate two strings. Add second string to the end of the first one. * The first argument is address of string pointer. The pointer can be * changed due to realloc() features. The first pointer can be NULL. In this * case the memory will be malloc()-ed and stored to the first pointer. * * @param [in,out] str Address of first string pointer. * @param [in] text Text to add to the first string. * @return Pointer to resulting string or NULL. */ char *faux_str_cat(char **str, const char *text) { size_t len = 0; if (!text) return *str; len = strlen(text); return faux_str_catn(str, text, len); } /** @brief Service function to compare to chars in right way. * * The problem is char type can be signed or unsigned on different * platforms. So stright comparision can return different results. * * @param [in] char1 First char * @param [in] char2 Second char * @return * < 0 if char1 < char2 * = 0 if char1 = char2 * > 0 if char1 > char2 */ static int faux_str_cmp_chars(char char1, char char2) { unsigned char ch1 = (unsigned char)char1; unsigned char ch2 = (unsigned char)char2; return (int)ch1 - (int)ch2; } /** @brief Compare n first characters of two strings ignoring case. * * The difference beetween this function an standard strncasecmp() is * faux function uses faux ctype functions. It can be important for * portability. * * @param [in] str1 First string to compare. * @param [in] str2 Second string to compare. * @param [in] n Number of characters to compare. * @return < 0, 0, > 0, see the strcasecmp(). */ int faux_str_ncasecmp(const char *str1, const char *str2, size_t n) { const char *p1 = str1; const char *p2 = str2; size_t num = n; while (*p1 != '\0' && *p2 != '\0' && num != 0) { int res = faux_str_cmp_chars(faux_ctype_tolower(*p1), faux_ctype_tolower(*p2)); if (res != 0) return res; p1++; p2++; num--; } if (0 == n) // It means n first characters are equal. return 0; return faux_str_cmp_chars(faux_ctype_tolower(*p1), faux_ctype_tolower(*p2)); } /** @brief Compare two strings ignoring case. * * The difference beetween this function an standard strcasecmp() is * faux function uses faux ctype functions. It can be important for * portability. * * @param [in] str1 First string to compare. * @param [in] str2 Second string to compare. * @return < 0, 0, > 0, see the strcasecmp(). */ int faux_str_casecmp(const char *str1, const char *str2) { const char *p1 = str1; const char *p2 = str2; while (*p1 != '\0' && *p2 != '\0') { int res = faux_str_cmp_chars(faux_ctype_tolower(*p1), faux_ctype_tolower(*p2)); if (res != 0) return res; p1++; p2++; } return faux_str_cmp_chars(faux_ctype_tolower(*p1), faux_ctype_tolower(*p2)); } const char *lub_string_nocasestr(const char *cs, const char *ct) { const char *p = NULL; const char *result = NULL; while (*cs) { const char *q = cs; p = ct; while (*p && *q && (faux_ctype_tolower(*p) == faux_ctype_tolower(*q))) { p++, q++; } if (0 == *p) { break; } cs++; } if (p && !*p) { result = cs; } return result; } // TODO: Is it needed? /* char *lub_string_ndecode(const char *string, unsigned int len) { const char *s = string; char *res, *p; int esc = 0; if (!string) return NULL; p = res = faux_zmalloc(len + 1); while (*s && (s < (string +len))) { if (!esc) { if ('\\' == *s) esc = 1; else *p = *s; } else { // switch (*s) { // case 'r': // case 'n': // *p = '\n'; // break; // case 't': // *p = '\t'; // break; // default: // *p = *s; // break; // } // *p = *s; esc = 0; } if (!esc) p++; s++; } *p = '\0'; return res; } */ // TODO: Is it needed? /* inline char *lub_string_decode(const char *string) { return lub_string_ndecode(string, strlen(string)); } */ // TODO: Is it needed? /*----------------------------------------------------------- */ /* * This needs to escape any dangerous characters within the command line * to prevent gaining access to the underlying system shell. */ /* char *lub_string_encode(const char *string, const char *escape_chars) { char *result = NULL; const char *p; if (!escape_chars) return lub_string_dup(string); if (string && !(*string)) // Empty string return lub_string_dup(string); for (p = string; p && *p; p++) { // find any special characters and prefix them with '\' size_t len = strcspn(p, escape_chars); lub_string_catn(&result, p, len); p += len; if (*p) { lub_string_catn(&result, "\\", 1); lub_string_catn(&result, p, 1); } else { break; } } return result; } */ // TODO: Is it needed? /*--------------------------------------------------------- */ /* unsigned int lub_string_equal_part(const char *str1, const char *str2, bool_t utf8) { unsigned int cnt = 0; if (!str1 || !str2) return cnt; while (*str1 && *str2) { if (*str1 != *str2) break; cnt++; str1++; str2++; } if (!utf8) return cnt; // UTF8 features if (cnt && (UTF8_11 == (*(str1 - 1) & UTF8_MASK))) cnt--; return cnt; } */ // TODO: Is it needed? /*--------------------------------------------------------- */ /* const char *lub_string_suffix(const char *string) { const char *p1, *p2; p1 = p2 = string; while (*p1) { if (faux_ctype_isspace(*p1)) { p2 = p1; p2++; } p1++; } return p2; } */ // TODO: Is it needed? /*--------------------------------------------------------- */ /* const char *lub_string_nextword(const char *string, size_t *len, size_t *offset, size_t *quoted) { const char *word; *quoted = 0; // Find the start of a word (not including an opening quote) while (*string && isspace(*string)) { string++; (*offset)++; } // Is this the start of a quoted string ? if (*string == '"') { *quoted = 1; string++; } word = string; *len = 0; // Find the end of the word while (*string) { if (*string == '\\') { string++; (*len)++; if (*string) { (*len)++; string++; } continue; } // End of word if (!*quoted && isspace(*string)) break; if (*string == '"') { // End of a quoted string *quoted = 2; break; } (*len)++; string++; } return word; } */ // TODO: Is it needed? /*--------------------------------------------------------- */ /* unsigned int lub_string_wordcount(const char *line) { const char *word; unsigned int result = 0; size_t len = 0, offset = 0; size_t quoted; for (word = lub_string_nextword(line, &len, &offset, "ed); *word || quoted; word = lub_string_nextword(word + len, &len, &offset, "ed)) { // account for the terminating quotation mark len += quoted ? quoted - 1 : 0; result++; } return result; } */