/* $Id$ */ /* * Copyright (C) 2008-2011 Teluu Inc. (http://www.teluu.com) * Copyright (C) 2003-2008 Benny Prijono * * This program 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 2 of the License, or * (at your option) any later version. * * This program 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, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ #ifndef __PJ_STRING_H__ #define __PJ_STRING_H__ /** * @file string.h * @brief PJLIB String Operations. */ #include #include PJ_BEGIN_DECL /** * @defgroup PJ_PSTR String Operations * @ingroup PJ_DS * @{ * This module provides string manipulation API. * * \section pj_pstr_not_null_sec PJLIB String is NOT Null Terminated! * * That is the first information that developers need to know. Instead * of using normal C string, strings in PJLIB are represented as * pj_str_t structure below: * *
 *   typedef struct pj_str_t
 *   {
 *       char      *ptr;
 *       pj_size_t  slen;
 *   } pj_str_t;
 * 
* * There are some advantages of using this approach: * - the string can point to arbitrary location in memory even * if the string in that location is not null terminated. This is * most usefull for text parsing, where the parsed text can just * point to the original text in the input. If we use C string, * then we will have to copy the text portion from the input * to a string variable. * - because the length of the string is known, string copy operation * can be made more efficient. * * Most of APIs in PJLIB that expect or return string will represent * the string as pj_str_t instead of normal C string. * * \section pj_pstr_examples_sec Examples * * For some examples, please see: * - @ref page_pjlib_string_test */ /** * Check if a string is truncated and if yes, put a suffix of ".." * to indicate the truncation. * This macro is used to check the result of pj_ansi_snprintf(). * * @param ret The return value of pj_ansi_snprintf(). * @param str The string. * @param len The length of the string buffer. */ #define PJ_CHECK_TRUNC_STR(ret, str, len) \ if ((ret) >= (len) || (ret) < 0) pj_ansi_strcpy((str) + (len) - 3, "..") /** * Create string initializer from a normal C string. * * @param str Null terminated string to be stored. * * @return pj_str_t. */ PJ_IDECL(pj_str_t) pj_str(char *str); /** * Create constant string from normal C string. * * @param str The string to be initialized. * @param s Null terminated string. * * @return pj_str_t. */ PJ_INLINE(const pj_str_t*) pj_cstr(pj_str_t *str, const char *s) { str->ptr = (char*)s; str->slen = s ? (pj_ssize_t)strlen(s) : 0; return str; } /** * Set the pointer and length to the specified value. * * @param str the string. * @param ptr pointer to set. * @param length length to set. * * @return the string. */ PJ_INLINE(pj_str_t*) pj_strset( pj_str_t *str, char *ptr, pj_size_t length) { str->ptr = ptr; str->slen = (pj_ssize_t)length; return str; } /** * Set the pointer and length of the string to the source string, which * must be NULL terminated. * * @param str the string. * @param src pointer to set. * * @return the string. */ PJ_INLINE(pj_str_t*) pj_strset2( pj_str_t *str, char *src) { str->ptr = src; str->slen = src ? (pj_ssize_t)strlen(src) : 0; return str; } /** * Set the pointer and the length of the string. * * @param str The target string. * @param begin The start of the string. * @param end The end of the string. * * @return the target string. */ PJ_INLINE(pj_str_t*) pj_strset3( pj_str_t *str, char *begin, char *end ) { str->ptr = begin; str->slen = (pj_ssize_t)(end-begin); return str; } /** * Assign string. * * @param dst The target string. * @param src The source string. * * @return the target string. */ PJ_IDECL(pj_str_t*) pj_strassign( pj_str_t *dst, pj_str_t *src ); /** * Copy string contents. * * @param dst The target string. * @param src The source string. * * @return the target string. */ PJ_IDECL(pj_str_t*) pj_strcpy(pj_str_t *dst, const pj_str_t *src); /** * Copy string contents. * * @param dst The target string. * @param src The source string. * * @return the target string. */ PJ_IDECL(pj_str_t*) pj_strcpy2(pj_str_t *dst, const char *src); /** * Copy source string to destination up to the specified max length. * * @param dst The target string. * @param src The source string. * @param max Maximum characters to copy. * * @return the target string. */ PJ_IDECL(pj_str_t*) pj_strncpy(pj_str_t *dst, const pj_str_t *src, pj_ssize_t max); /** * Copy source string to destination up to the specified max length, * and NULL terminate the destination. If source string length is * greater than or equal to max, then max-1 will be copied. * * @param dst The target string. * @param src The source string. * @param max Maximum characters to copy. * * @return the target string. */ PJ_IDECL(pj_str_t*) pj_strncpy_with_null(pj_str_t *dst, const pj_str_t *src, pj_ssize_t max); /** * Duplicate string. * * @param pool The pool. * @param dst The string result. * @param src The string to duplicate. * * @return the string result. */ PJ_IDECL(pj_str_t*) pj_strdup(pj_pool_t *pool, pj_str_t *dst, const pj_str_t *src); /** * Duplicate string and NULL terminate the destination string. * * @param pool The pool. * @param dst The string result. * @param src The string to duplicate. * * @return The string result. */ PJ_IDECL(pj_str_t*) pj_strdup_with_null(pj_pool_t *pool, pj_str_t *dst, const pj_str_t *src); /** * Duplicate string. * * @param pool The pool. * @param dst The string result. * @param src The string to duplicate. * * @return the string result. */ PJ_IDECL(pj_str_t*) pj_strdup2(pj_pool_t *pool, pj_str_t *dst, const char *src); /** * Duplicate string and NULL terminate the destination string. * * @param pool The pool. * @param dst The string result. * @param src The string to duplicate. * * @return The string result. */ PJ_IDECL(pj_str_t*) pj_strdup2_with_null(pj_pool_t *pool, pj_str_t *dst, const char *src); /** * Duplicate string. * * @param pool The pool. * @param src The string to duplicate. * * @return the string result. */ PJ_IDECL(pj_str_t) pj_strdup3(pj_pool_t *pool, const char *src); /** * Return the length of the string. * * @param str The string. * * @return the length of the string. */ PJ_INLINE(pj_size_t) pj_strlen( const pj_str_t *str ) { return str->slen; } /** * Return the pointer to the string data. * * @param str The string. * * @return the pointer to the string buffer. */ PJ_INLINE(const char*) pj_strbuf( const pj_str_t *str ) { return str->ptr; } /** * Compare strings. * * @param str1 The string to compare. * @param str2 The string to compare. * * @return * - < 0 if str1 is less than str2 * - 0 if str1 is identical to str2 * - > 0 if str1 is greater than str2 */ PJ_IDECL(int) pj_strcmp( const pj_str_t *str1, const pj_str_t *str2); /** * Compare strings. * * @param str1 The string to compare. * @param str2 The string to compare. * * @return * - < 0 if str1 is less than str2 * - 0 if str1 is identical to str2 * - > 0 if str1 is greater than str2 */ PJ_IDECL(int) pj_strcmp2( const pj_str_t *str1, const char *str2 ); /** * Compare strings. * * @param str1 The string to compare. * @param str2 The string to compare. * @param len The maximum number of characters to compare. * * @return * - < 0 if str1 is less than str2 * - 0 if str1 is identical to str2 * - > 0 if str1 is greater than str2 */ PJ_IDECL(int) pj_strncmp( const pj_str_t *str1, const pj_str_t *str2, pj_size_t len); /** * Compare strings. * * @param str1 The string to compare. * @param str2 The string to compare. * @param len The maximum number of characters to compare. * * @return * - < 0 if str1 is less than str2 * - 0 if str1 is identical to str2 * - > 0 if str1 is greater than str2 */ PJ_IDECL(int) pj_strncmp2( const pj_str_t *str1, const char *str2, pj_size_t len); /** * Perform case-insensitive comparison to the strings. * * @param str1 The string to compare. * @param str2 The string to compare. * * @return * - < 0 if str1 is less than str2 * - 0 if str1 is equal to str2 * - > 0 if str1 is greater than str2 */ PJ_IDECL(int) pj_stricmp(const pj_str_t *str1, const pj_str_t *str2); /** * Perform lowercase comparison to the strings which consists of only * alnum characters. More over, it will only return non-zero if both * strings are not equal, not the usual negative or positive value. * * If non-alnum inputs are given, then the function may mistakenly * treat two strings as equal. * * @param str1 The string to compare. * @param str2 The string to compare. * @param len The length to compare. * * @return * - 0 if str1 is equal to str2 * - (-1) if not equal. */ #if defined(PJ_HAS_STRICMP_ALNUM) && PJ_HAS_STRICMP_ALNUM!=0 PJ_IDECL(int) strnicmp_alnum(const char *str1, const char *str2, int len); #else #define strnicmp_alnum pj_ansi_strnicmp #endif /** * Perform lowercase comparison to the strings which consists of only * alnum characters. More over, it will only return non-zero if both * strings are not equal, not the usual negative or positive value. * * If non-alnum inputs are given, then the function may mistakenly * treat two strings as equal. * * @param str1 The string to compare. * @param str2 The string to compare. * * @return * - 0 if str1 is equal to str2 * - (-1) if not equal. */ #if defined(PJ_HAS_STRICMP_ALNUM) && PJ_HAS_STRICMP_ALNUM!=0 PJ_IDECL(int) pj_stricmp_alnum(const pj_str_t *str1, const pj_str_t *str2); #else #define pj_stricmp_alnum pj_stricmp #endif /** * Perform case-insensitive comparison to the strings. * * @param str1 The string to compare. * @param str2 The string to compare. * * @return * - < 0 if str1 is less than str2 * - 0 if str1 is identical to str2 * - > 0 if str1 is greater than str2 */ PJ_IDECL(int) pj_stricmp2( const pj_str_t *str1, const char *str2); /** * Perform case-insensitive comparison to the strings. * * @param str1 The string to compare. * @param str2 The string to compare. * @param len The maximum number of characters to compare. * * @return * - < 0 if str1 is less than str2 * - 0 if str1 is identical to str2 * - > 0 if str1 is greater than str2 */ PJ_IDECL(int) pj_strnicmp( const pj_str_t *str1, const pj_str_t *str2, pj_size_t len); /** * Perform case-insensitive comparison to the strings. * * @param str1 The string to compare. * @param str2 The string to compare. * @param len The maximum number of characters to compare. * * @return * - < 0 if str1 is less than str2 * - 0 if str1 is identical to str2 * - > 0 if str1 is greater than str2 */ PJ_IDECL(int) pj_strnicmp2( const pj_str_t *str1, const char *str2, pj_size_t len); /** * Concatenate strings. * * @param dst The destination string. * @param src The source string. */ PJ_IDECL(void) pj_strcat(pj_str_t *dst, const pj_str_t *src); /** * Concatenate strings. * * @param dst The destination string. * @param src The source string. */ PJ_IDECL(void) pj_strcat2(pj_str_t *dst, const char *src); /** * Finds a character in a string. * * @param str The string. * @param chr The character to find. * * @return the pointer to first character found, or NULL. */ PJ_INLINE(char*) pj_strchr( const pj_str_t *str, int chr) { if (str->slen == 0) return NULL; return (char*) memchr((char*)str->ptr, chr, str->slen); } /** * Find the first index of character, in a string, that does not belong to a * set of characters. * * @param str The string. * @param set_char The string containing the set of characters. * * @return the index of the first character in the str that doesn't belong to * set_char. If str starts with a character not in set_char, return 0. */ PJ_DECL(pj_ssize_t) pj_strspn(const pj_str_t *str, const pj_str_t *set_char); /** * Find the first index of character, in a string, that does not belong to a * set of characters. * * @param str The string. * @param set_char The string containing the set of characters. * * @return the index of the first character in the str that doesn't belong to * set_char. If str starts with a character not in set_char, return 0. */ PJ_DECL(pj_ssize_t) pj_strspn2(const pj_str_t *str, const char *set_char); /** * Find the first index of character, in a string, that belong to a set of * characters. * * @param str The string. * @param set_char The string containing the set of characters. * * @return the index of the first character in the str that belong to * set_char. If no match is found, return the length of str. */ PJ_DECL(pj_ssize_t) pj_strcspn(const pj_str_t *str, const pj_str_t *set_char); /** * Find the first index of character, in a string, that belong to a set of * characters. * * @param str The string. * @param set_char The string containing the set of characters. * * @return the index of the first character in the str that belong to * set_char. If no match is found, return the length of str. */ PJ_DECL(pj_ssize_t) pj_strcspn2(const pj_str_t *str, const char *set_char); /** * Find tokens from a string using the delimiter. * * @param str The string. * @param delim The string containing the delimiter. It might contain * multiple character treated as unique set. If same character * was found on the set, it will be skipped. * @param tok The string containing the token. * @param start_idx The search will start from this index. * * @return the index of token from the str, or the length of the str * if the token is not found. */ PJ_DECL(pj_ssize_t) pj_strtok(const pj_str_t *str, const pj_str_t *delim, pj_str_t *tok, pj_size_t start_idx); /** * Find tokens from a string using the delimiter. * * @param str The string. * @param delim The string containing the delimiter. It might contain * multiple character treated as unique set. If same character * was found on the set, it will be skipped. * @param tok The string containing the token. * @param start_idx The search will start from this index. * * @return the index of token from the str, or the length of the str * if the token is not found. */ PJ_DECL(pj_ssize_t) pj_strtok2(const pj_str_t *str, const char *delim, pj_str_t *tok, pj_size_t start_idx); /** * Find the occurence of a substring substr in string str. * * @param str The string to search. * @param substr The string to search fo. * * @return the pointer to the position of substr in str, or NULL. Note * that if str is not NULL terminated, the returned pointer * is pointing to non-NULL terminated string. */ PJ_DECL(char*) pj_strstr(const pj_str_t *str, const pj_str_t *substr); /** * Performs substring lookup like pj_strstr() but ignores the case of * both strings. * * @param str The string to search. * @param substr The string to search fo. * * @return the pointer to the position of substr in str, or NULL. Note * that if str is not NULL terminated, the returned pointer * is pointing to non-NULL terminated string. */ PJ_DECL(char*) pj_stristr(const pj_str_t *str, const pj_str_t *substr); /** * Remove (trim) leading whitespaces from the string. * * @param str The string. * * @return the string. */ PJ_DECL(pj_str_t*) pj_strltrim( pj_str_t *str ); /** * Remove (trim) the trailing whitespaces from the string. * * @param str The string. * * @return the string. */ PJ_DECL(pj_str_t*) pj_strrtrim( pj_str_t *str ); /** * Remove (trim) leading and trailing whitespaces from the string. * * @param str The string. * * @return the string. */ PJ_IDECL(pj_str_t*) pj_strtrim( pj_str_t *str ); /** * Initialize the buffer with some random string. Note that the * generated string is not NULL terminated. * * @param str the string to store the result. * @param length the length of the random string to generate. * * @return the string. */ PJ_DECL(char*) pj_create_random_string(char *str, pj_size_t length); /** * Convert string to signed integer. The conversion will stop as * soon as non-digit character is found or all the characters have * been processed. * * @param str the string. * * @return the integer. */ PJ_DECL(long) pj_strtol(const pj_str_t *str); /** * Convert string to signed long integer. The conversion will stop as * soon as non-digit character is found or all the characters have * been processed. * * @param str the string. * @param value Pointer to a long to receive the value. * * @return PJ_SUCCESS if successful. Otherwise: * PJ_ETOOSMALL if the value was an impossibly long negative number. * In this case *value will be set to LONG_MIN. * \n * PJ_ETOOBIG if the value was an impossibly long positive number. * In this case, *value will be set to LONG_MAX. * \n * PJ_EINVAL if the input string was NULL, the value pointer was NULL * or the input string could not be parsed at all such as starting with * a character other than a '+', '-' or not in the '0' - '9' range. * In this case, *value will be left untouched. */ PJ_DECL(pj_status_t) pj_strtol2(const pj_str_t *str, long *value); /** * Convert string to unsigned integer. The conversion will stop as * soon as non-digit character is found or all the characters have * been processed. * * @param str the string. * * @return the unsigned integer. */ PJ_DECL(unsigned long) pj_strtoul(const pj_str_t *str); /** * Convert strings to an unsigned long-integer value. * This function stops reading the string input either when the number * of characters has exceeded the length of the input or it has read * the first character it cannot recognize as part of a number, that is * a character greater than or equal to base. * * @param str The input string. * @param endptr Optional pointer to receive the remainder/unparsed * portion of the input. * @param base Number base to use. * * @return the unsigned integer number. */ PJ_DECL(unsigned long) pj_strtoul2(const pj_str_t *str, pj_str_t *endptr, unsigned base); /** * Convert string to unsigned long integer. The conversion will stop as * soon as non-digit character is found or all the characters have * been processed. * * @param str The input string. * @param value Pointer to an unsigned long to receive the value. * @param base Number base to use. * * @return PJ_SUCCESS if successful. Otherwise: * PJ_ETOOBIG if the value was an impossibly long positive number. * In this case, *value will be set to ULONG_MAX. * \n * PJ_EINVAL if the input string was NULL, the value pointer was NULL * or the input string could not be parsed at all such as starting * with a character outside the base character range. In this case, * *value will be left untouched. */ PJ_DECL(pj_status_t) pj_strtoul3(const pj_str_t *str, unsigned long *value, unsigned base); /** * Convert string to float. * * @param str the string. * * @return the value. */ PJ_DECL(float) pj_strtof(const pj_str_t *str); /** * Utility to convert unsigned integer to string. Note that the * string will be NULL terminated. * * @param val the unsigned integer value. * @param buf the buffer * * @return the number of characters written */ PJ_DECL(int) pj_utoa(unsigned long val, char *buf); /** * Convert unsigned integer to string with minimum digits. Note that the * string will be NULL terminated. * * @param val The unsigned integer value. * @param buf The buffer. * @param min_dig Minimum digits to be printed, or zero to specify no * minimum digit. * @param pad The padding character to be put in front of the string * when the digits is less than minimum. * * @return the number of characters written. */ PJ_DECL(int) pj_utoa_pad( unsigned long val, char *buf, int min_dig, int pad); /** * Fill the memory location with zero. * * @param dst The destination buffer. * @param size The number of bytes. */ PJ_INLINE(void) pj_bzero(void *dst, pj_size_t size) { #if defined(PJ_HAS_BZERO) && PJ_HAS_BZERO!=0 bzero(dst, size); #else memset(dst, 0, size); #endif } /** * Fill the memory location with value. * * @param dst The destination buffer. * @param c Character to set. * @param size The number of characters. * * @return the value of dst. */ PJ_INLINE(void*) pj_memset(void *dst, int c, pj_size_t size) { return memset(dst, c, size); } /** * Copy buffer. * * @param dst The destination buffer. * @param src The source buffer. * @param size The size to copy. * * @return the destination buffer. */ PJ_INLINE(void*) pj_memcpy(void *dst, const void *src, pj_size_t size) { return memcpy(dst, src, size); } /** * Move memory. * * @param dst The destination buffer. * @param src The source buffer. * @param size The size to copy. * * @return the destination buffer. */ PJ_INLINE(void*) pj_memmove(void *dst, const void *src, pj_size_t size) { return memmove(dst, src, size); } /** * Compare buffers. * * @param buf1 The first buffer. * @param buf2 The second buffer. * @param size The size to compare. * * @return negative, zero, or positive value. */ PJ_INLINE(int) pj_memcmp(const void *buf1, const void *buf2, pj_size_t size) { return memcmp(buf1, buf2, size); } /** * Find character in the buffer. * * @param buf The buffer. * @param c The character to find. * @param size The size to check. * * @return the pointer to location where the character is found, or NULL if * not found. */ PJ_INLINE(void*) pj_memchr(const void *buf, int c, pj_size_t size) { return (void*)memchr((void*)buf, c, size); } /** * @} */ #if PJ_FUNCTIONS_ARE_INLINED # include #endif PJ_END_DECL #endif /* __PJ_STRING_H__ */