/************************************************************************* * * $Id$ * * Copyright (C) 2001 Bjorn Reese and Daniel Stenberg. * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THIS SOFTWARE IS PROVIDED ``AS IS'' AND WITHOUT ANY EXPRESS OR IMPLIED * WARRANTIES, INCLUDING, WITHOUT LIMITATION, THE IMPLIED WARRANTIES OF * MERCHANTIBILITY AND FITNESS FOR A PARTICULAR PURPOSE. THE AUTHORS AND * CONTRIBUTORS ACCEPT NO RESPONSIBILITY IN ANY CONCEIVABLE MANNER. * ************************************************************************/ static const char rcsid[] = "@(#)$Id$"; /************************************************************************* * Include files */ #include #include #include #include #include #include "triostr.h" /************************************************************************* * Definitions */ #ifndef NULL # define NULL 0 #endif #define NIL ((char)0) #ifndef FALSE # define FALSE (1 == 0) # define TRUE (! FALSE) #endif #define BOOLEAN_T int #if defined(TRIO_COMPILER_SUPPORTS_C99) # define USE_STRTOD # define USE_STRTOF #elif defined(TRIO_COMPILER_MSVC) # define USE_STRTOD #endif #if defined(TRIO_PLATFORM_UNIX) # define USE_STRCASECMP # define USE_STRNCASECMP # define USE_STRERROR # if defined(TRIO_PLATFORM_QNX) # define strcasecmp(x,y) stricmp(x,y) # define strncasecmp(x,y,n) strnicmp(x,y,n) # endif #elif defined(TRIO_PLATFORM_WIN32) # define USE_STRCASECMP # define strcasecmp(x,y) strcmpi(x,y) #endif /************************************************************************* * Structures */ struct _trio_string_t { char *content; size_t length; size_t allocated; }; /************************************************************************* * Static String Functions */ #if defined(TRIO_DOCUMENTATION) # include "doc/doc_static.h" #endif /** @addtogroup StaticStrings @{ */ /** Create new string. @param size Size of new string. @return Pointer to string, or NULL if allocation failed. */ TRIO_PUBLIC TRIO_INLINE char * trio_create(size_t size) { return (char *)TRIO_MALLOC(size); } /** Destroy string. @param string String to be freed. */ TRIO_PUBLIC TRIO_INLINE void trio_destroy(char *string) { if (string) { TRIO_FREE(string); } } /** Count the number of characters in a string. @param string String to measure. @return Number of characters in @string. */ TRIO_PUBLIC TRIO_INLINE size_t trio_length(const char *string) { return strlen(string); } /* * TrioDuplicateMax */ TRIO_PRIVATE char * TrioDuplicateMax(const char *source, size_t size) { char *target; assert(source); /* Make room for string plus a terminating zero */ size++; target = trio_create(size); if (target) { trio_copy_max(target, size, source); } return target; } /** Append @p source at the end of @p target. @param target Target string. @param source Source string. @return Boolean value indicating success or failure. @pre @p target must point to a memory chunk with sufficient room to contain the @p target string and @p source string. @pre No boundary checking is performed, so insufficient memory will result in a buffer overrun. @post @p target will be zero terminated. */ TRIO_PUBLIC int trio_append(char *target, const char *source) { assert(target); assert(source); return (strcat(target, source) != NULL); } /** Append at most @p max characters from @p source to @p target. @param target Target string. @param max Maximum number of characters to append. @param source Source string. @return Boolean value indicating success or failure. @pre @p target must point to a memory chuck with sufficient room to contain the @p target string and the @p source string (at most @p max characters). @pre No boundary checking is performed, so insufficient memory will result in a buffer overrun. @post @p target will be zero terminated. */ TRIO_PUBLIC int trio_append_max(char *target, size_t max, const char *source) { size_t length; assert(target); assert(source); length = trio_length(target); if (max > length) { strncat(target, source, max - length - 1); } return TRUE; } /** Determine if a string contains a substring. @param string String to be searched. @param substring String to be found. @return Boolean value indicating success or failure. */ TRIO_PUBLIC TRIO_INLINE int trio_contains(const char *string, const char *substring) { assert(string); assert(substring); return (0 != strstr(string, substring)); } /** Copy @p source to @p target. @param target Target string. @param source Source string. @return Boolean value indicating success or failure. @pre @p target must point to a memory chunk with sufficient room to contain the @p source string. @pre No boundary checking is performed, so insufficient memory will result in a buffer overrun. @post @p target will be zero terminated. */ TRIO_PUBLIC int trio_copy(char *target, const char *source) { assert(target); assert(source); (void)strcpy(target, source); return TRUE; } /** Copy at most @p max characters from @p source to @p target. @param target Target string. @param max Maximum number of characters to append. @param source Source string. @return Boolean value indicating success or failure. @pre @p target must point to a memory chunk with sufficient room to contain the @p source string (at most @p max characters). @pre No boundary checking is performed, so insufficient memory will result in a buffer overrun. @post @p target will be zero terminated. */ TRIO_PUBLIC int trio_copy_max(char *target, size_t max, const char *source) { assert(target); assert(source); assert(max > 0); /* Includes != 0 */ (void)strncpy(target, source, max - 1); target[max - 1] = (char)0; return TRUE; } /** Duplicate @p source. @param source Source string. @return A copy of the @p source string. @post @p target will be zero terminated. */ TRIO_PUBLIC char * trio_duplicate(const char *source) { return TrioDuplicateMax(source, trio_length(source)); } /** Duplicate at most @p max characters of @p source. @param source Source string. @param max Maximum number of characters to duplicate. @return A copy of the @p source string. @post @p target will be zero terminated. */ TRIO_PUBLIC char * trio_duplicate_max(const char *source, size_t max) { size_t length; assert(source); assert(max > 0); length = trio_length(source); if (length > max) { length = max; } return TrioDuplicateMax(source, length); } /** Compare if two strings are equal. @param first First string. @param second Second string. @return Boolean indicating whether the two strings are equal or not. Case-insensitive comparison. */ TRIO_PUBLIC int trio_equal(const char *first, const char *second) { assert(first); assert(second); if ((first != NULL) && (second != NULL)) { #if defined(USE_STRCASECMP) return (0 == strcasecmp(first, second)); #else while ((*first != NIL) && (*second != NIL)) { if (toupper(*first) != toupper(*second)) { break; } first++; second++; } return ((*first == NIL) && (*second == NIL)); #endif } return FALSE; } /** Compare if two strings are equal. @param first First string. @param second Second string. @return Boolean indicating whether the two strings are equal or not. Case-sensitive comparison. */ TRIO_PUBLIC int trio_equal_case(const char *first, const char *second) { assert(first); assert(second); if ((first != NULL) && (second != NULL)) { return (0 == strcmp(first, second)); } return FALSE; } /** Compare if two strings up until the first @p max characters are equal. @param first First string. @param max Maximum number of characters to compare. @param second Second string. @return Boolean indicating whether the two strings are equal or not. Case-sensitive comparison. */ TRIO_PUBLIC int trio_equal_case_max(const char *first, size_t max, const char *second) { assert(first); assert(second); if ((first != NULL) && (second != NULL)) { return (0 == strncmp(first, second, max)); } return FALSE; } /** Compare if two strings are equal. @param first First string. @param second Second string. @return Boolean indicating whether the two strings are equal or not. Collating characters are considered equal. */ TRIO_PUBLIC int trio_equal_locale(const char *first, const char *second) { assert(first); assert(second); #if defined(LC_COLLATE) return (strcoll(first, second) == 0); #else return trio_equal(first, second); #endif } /** Compare if two strings up until the first @p max characters are equal. @param first First string. @param max Maximum number of characters to compare. @param second Second string. @return Boolean indicating whether the two strings are equal or not. Case-insensitive comparison. */ TRIO_PUBLIC int trio_equal_max(const char *first, size_t max, const char *second) { assert(first); assert(second); if ((first != NULL) && (second != NULL)) { #if defined(USE_STRNCASECMP) return (0 == strncasecmp(first, second, max)); #else /* Not adequately tested yet */ size_t cnt = 0; while ((*first != NIL) && (*second != NIL) && (cnt <= max)) { if (toupper(*first) != toupper(*second)) { break; } first++; second++; cnt++; } return ((cnt == max) || ((*first == NIL) && (*second == NIL))); #endif } return FALSE; } /** Provide a textual description of an error code (errno). @param error_number Error number. @return Textual description of @p error_number. */ TRIO_PUBLIC const char * trio_error(int error_number) { #if defined(USE_STRERROR) return strerror(error_number); #else return "unknown"; #endif } /** Format the date/time according to @p format. @param target Target string. @param max Maximum number of characters to format. @param format Formatting string. @param datetime Date/time structure. @return Number of formatted characters. The formatting string accepts the same specifiers as the standard C function strftime. */ TRIO_PUBLIC size_t trio_format_date_max(char *target, size_t max, const char *format, const struct tm *datetime) { assert(target); assert(format); assert(datetime); assert(max > 0); return strftime(target, max, format, datetime); } /** Calculate a hash value for a string. @param string String to be calculated on. @param type Hash function. @return Calculated hash value. @p type can be one of the following @li @c TRIO_HASH_PLAIN Plain hash function. */ TRIO_PUBLIC unsigned long trio_hash(const char *string, int type) { unsigned long value = 0L; char ch; assert(string); switch (type) { case TRIO_HASH_PLAIN: while ( (ch = *string++) != NIL ) { value *= 31; value += (unsigned long)ch; } break; default: assert(FALSE); break; } return value; } /** Find first occurrence of a character in a string. @param string String to be searched. @param character Character to be found. @param A pointer to the found character, or NULL if character was not found. */ TRIO_PUBLIC TRIO_INLINE char * trio_index(const char *string, char character) { assert(string); return strchr(string, character); } /** Find last occurrence of a character in a string. @param string String to be searched. @param character Character to be found. @param A pointer to the found character, or NULL if character was not found. */ TRIO_PUBLIC TRIO_INLINE char * trio_index_last(const char *string, char character) { assert(string); return strchr(string, character); } /** Convert the alphabetic letters in the string to lower-case. @param target String to be converted. @return Number of processed characters (converted or not). */ TRIO_PUBLIC TRIO_INLINE int trio_lower(char *target) { assert(target); return trio_span_function(target, target, tolower); } /** Compare two strings using wildcards. @param string String to be searched. @param pattern Pattern, including wildcards, to search for. @return Boolean value indicating success or failure. Case-insensitive comparison. The following wildcards can be used @li @c * Match any number of characters. @li @c ? Match a single character. */ TRIO_PUBLIC int trio_match(const char *string, const char *pattern) { assert(string); assert(pattern); for (; ('*' != *pattern); ++pattern, ++string) { if (NIL == *string) { return (NIL == *pattern); } if ((toupper((int)*string) != toupper((int)*pattern)) && ('?' != *pattern)) { return FALSE; } } /* two-line patch to prevent *too* much recursiveness: */ while ('*' == pattern[1]) pattern++; do { if ( trio_match(string, &pattern[1]) ) { return TRUE; } } while (*string++); return FALSE; } /** Compare two strings using wildcards. @param string String to be searched. @param pattern Pattern, including wildcards, to search for. @return Boolean value indicating success or failure. Case-sensitive comparison. The following wildcards can be used @li @c * Match any number of characters. @li @c ? Match a single character. */ TRIO_PUBLIC int trio_match_case(const char *string, const char *pattern) { assert(string); assert(pattern); for (; ('*' != *pattern); ++pattern, ++string) { if (NIL == *string) { return (NIL == *pattern); } if ((*string != *pattern) && ('?' != *pattern)) { return FALSE; } } /* two-line patch to prevent *too* much recursiveness: */ while ('*' == pattern[1]) pattern++; do { if ( trio_match_case(string, &pattern[1]) ) { return TRUE; } } while (*string++); return FALSE; } /** Execute a function on each character in string. @param target Target string. @param source Source string. @param Function Function to be executed. @return Number of processed characters. */ TRIO_PUBLIC size_t trio_span_function(char *target, const char *source, int (*Function)(int)) { size_t count = 0; assert(target); assert(source); assert(Function); while (*source != NIL) { *target++ = Function(*source++); count++; } return count; } /** Search for a substring in a string. @param string String to be searched. @param substring String to be found. @return Pointer to first occurrence of @p substring in @p string, or NULL if no match was found. */ TRIO_PUBLIC TRIO_INLINE char * trio_substring(const char *string, const char *substring) { assert(string); assert(substring); return strstr(string, substring); } /** Search for a substring in the first @p max characters of a string. @param string String to be searched. @param max Maximum characters to be searched. @param substring String to be found. @return Pointer to first occurrence of @p substring in @p string, or NULL if no match was found. */ TRIO_PUBLIC char * trio_substring_max(const char *string, size_t max, const char *substring) { size_t count; size_t size; char *result = NULL; assert(string); assert(substring); size = trio_length(substring); if (size <= max) { for (count = 0; count <= max - size; count++) { if (trio_equal_max(substring, size, &string[count])) { result = (char *)&string[count]; break; } } } return result; } /** Tokenize string. @param string String to be tokenized. @param tokens String containing list of delimiting characters. @return Start of new token. @warning @p string will be destroyed. */ TRIO_PUBLIC TRIO_INLINE char * trio_tokenize(char *string, const char *delimiters) { assert(delimiters); return strtok(string, delimiters); } /** Convert string to floating-point number. @param source String to be converted. @param endp Pointer to end of the converted string. @return A floating-point number. The following Extended Backus-Naur form is used @verbatim double ::= [ ] ( | | ) [ [ ] ] number ::= 1*( ) digit ::= ( '0' | '1' | '2' | '3' | '4' | '5' | '6' | '7' | '8' | '9' ) exponential ::= ( 'e' | 'E' ) sign ::= ( '-' | '+' ) decimal_point ::= '.' @endverbatim */ /* FIXME: Add EBNF for hex-floats */ TRIO_PUBLIC double trio_to_double(const char *source, const char **endp) { #if defined(USE_STRTOD) return strtod(source, (char **)endp); #else /* Preliminary code */ int isNegative = FALSE; int isExponentNegative = FALSE; unsigned long integer = 0; unsigned long fraction = 0; unsigned long fracdiv = 1; unsigned long exponent = 0; double value = 0.0; /* First try hex-floats */ if ((source[0] == '0') && ((source[1] == 'x') || (source[1] == 'X'))) { source += 2; while (isxdigit((int)*source)) { integer *= 16; integer += (isdigit((int)*source) ? (*source - '0') : 10 + (toupper((int)*source) - 'A')); source++; } if (*source == '.') { source++; while (isxdigit((int)*source)) { fraction *= 16; fraction += (isdigit((int)*source) ? (*source - '0') : 10 + (toupper((int)*source) - 'A')); fracdiv *= 16; source++; } if ((*source == 'p') || (*source == 'P')) { source++; if ((*source == '+') || (*source == '-')) { isExponentNegative = (*source == '-'); source++; } while (isdigit((int)*source)) { exponent *= 10; exponent += (*source - '0'); source++; } } } } else /* Then try normal decimal floats */ { isNegative = (*source == '-'); /* Skip sign */ if ((*source == '+') || (*source == '-')) source++; /* Integer part */ while (isdigit((int)*source)) { integer *= 10; integer += (*source - '0'); source++; } if (*source == '.') { source++; /* skip decimal point */ while (isdigit((int)*source)) { fraction *= 10; fraction += (*source - '0'); fracdiv *= 10; source++; } } if ((*source == 'e') || (*source == 'E') #if TRIO_MICROSOFT || (*source == 'd') || (*source == 'D') #endif ) { source++; /* Skip exponential indicator */ isExponentNegative = (*source == '-'); if ((*source == '+') || (*source == '-')) source++; while (isdigit((int)*source)) { exponent *= 10; exponent += (*source - '0'); source++; } } } value = (double)integer; if (fraction != 0) { value += (double)fraction / (double)fracdiv; } if (exponent != 0) { if (isExponentNegative) value /= pow((double)10, (double)exponent); else value *= pow((double)10, (double)exponent); } if (isNegative) value = -value; if (endp) *endp = source; return value; #endif } /** Convert string to floating-point number. @param source String to be converted. @param endp Pointer to end of the converted string. @return A floating-point number. See @ref trio_to_double. */ TRIO_PUBLIC TRIO_INLINE float trio_to_float(const char *source, const char **endp) { #if defined(USE_STRTOF) return strtof(source, (char **)endp); #else return (float)trio_to_double(source, endp); #endif } /** Convert string to signed integer. @param string String to be converted. @param endp Pointer to end of converted string. @param base Radix number of number. */ TRIO_PUBLIC TRIO_INLINE long trio_to_long(const char *string, char **endp, int base) { assert(string); assert((base >= 2) && (base <= 36)); return strtol(string, endp, base); } /** Convert string to unsigned integer. @param string String to be converted. @param endp Pointer to end of converted string. @param base Radix number of number. */ TRIO_PUBLIC TRIO_INLINE unsigned long trio_to_unsigned_long(const char *string, char **endp, int base) { assert(string); assert((base >= 2) && (base <= 36)); return strtoul(string, endp, base); } /** Convert the alphabetic letters in the string to upper-case. @param target The string to be converted. @return The number of processed characters (converted or not). */ TRIO_PUBLIC TRIO_INLINE int trio_upper(char *target) { assert(target); return trio_span_function(target, target, toupper); } /** @} End of StaticStrings */ /************************************************************************* * Dynamic String Functions */ #if defined(TRIO_DOCUMENTATION) # include "doc/doc_dynamic.h" #endif /** @addtogroup DynamicStrings @{ */ /* * TrioStringAlloc */ TRIO_PRIVATE trio_string_t * TrioStringAlloc(void) { trio_string_t *self; self = (trio_string_t *)TRIO_MALLOC(sizeof(trio_string_t)); if (self) { self->content = NULL; self->length = 0; self->allocated = 0; } return self; } /* * TrioStringGrow * * The size of the string will be increased by 'delta' characters. If * 'delta' is zero, the size will be doubled. */ TRIO_PRIVATE BOOLEAN_T TrioStringGrow(trio_string_t *self, size_t delta) { BOOLEAN_T status = FALSE; char *new_content; size_t new_size; new_size = (delta == 0) ? ( (self->allocated == 0) ? 1 : self->allocated * 2 ) : self->allocated + delta; new_content = (char *)TRIO_REALLOC(self->content, new_size); if (new_content) { self->content = new_content; self->allocated = new_size; status = TRUE; } return status; } /* * TrioStringGrowTo * * The size of the string will be increased to 'length' plus one characters. * If 'length' is less than the original size, the original size will be * used (that is, the size of the string is never decreased). */ TRIO_PRIVATE BOOLEAN_T TrioStringGrowTo(trio_string_t *self, size_t length) { length++; /* Room for terminating zero */ return (self->allocated < length) ? TrioStringGrow(self, length - self->allocated) : TRUE; } /** Create a new dynamic string. @param initial_size Initial size of the buffer. @return Newly allocated dynamic string, or NULL if memory allocation failed. */ TRIO_PUBLIC trio_string_t * trio_string_create(int initial_size) { trio_string_t *self; self = TrioStringAlloc(); if (self) { if (TrioStringGrow(self, (size_t)((initial_size > 0) ? initial_size : 1))) { self->content[0] = (char)0; self->allocated = initial_size; } else { trio_string_destroy(self); self = NULL; } } return self; } /** Deallocate the dynamic string and its contents. @param self Dynamic string */ TRIO_PUBLIC void trio_string_destroy(trio_string_t *self) { assert(self); if (self) { trio_destroy(self->content); TRIO_FREE(self); } } /** Get a pointer to the content. @param self Dynamic string. @param offset Offset into content. @return Pointer to the content. @p Offset can be zero, positive, or negative. If @p offset is zero, then the start of the content will be returned. If @p offset is positive, then a pointer to @p offset number of characters from the beginning of the content is returned. If @p offset is negative, then a pointer to @p offset number of characters from the ending of the string, starting at the terminating zero, is returned. */ TRIO_PUBLIC char * trio_string_get(trio_string_t *self, int offset) { char *result = NULL; assert(self); if (self->content != NULL) { if (self->length == 0) { (void)trio_string_length(self); } if (offset >= 0) { if (offset > self->length) { offset = self->length; } } else { offset += self->length + 1; if (offset < 0) { offset = 0; } } result = &(self->content[offset]); } return result; } /** Extract the content. @param self Dynamic String @return Content of dynamic string. The content is removed from the dynamic string. This enables destruction of the dynamic string without deallocation of the content. */ TRIO_PUBLIC char * trio_string_extract(trio_string_t *self) { char *result; assert(self); result = self->content; /* FIXME: Allocate new empty buffer? */ self->content = NULL; self->length = self->allocated = 0; return result; } /** Set the content of the dynamic string. @param self Dynamic String @param buffer The new content. Sets the content of the dynamic string to a copy @p buffer. An existing content will be deallocated first, if necessary. @remark This function will make a copy of @p buffer. You are responsible for deallocating @p buffer yourself. */ TRIO_PUBLIC void trio_xstring_set(trio_string_t *self, char *buffer) { assert(self); trio_destroy(self->content); self->content = trio_duplicate(buffer); } /* * trio_string_size */ TRIO_PUBLIC int trio_string_size(trio_string_t *self) { assert(self); return self->allocated; } /* * trio_string_terminate */ TRIO_PUBLIC void trio_string_terminate(trio_string_t *self) { char *end; assert(self); end = trio_string_get(self, -1); if (end) { *end = NIL; } } /** Append the second string to the first. @param self Dynamic string to be modified. @param other Dynamic string to copy from. @return Boolean value indicating success or failure. */ TRIO_PUBLIC int trio_string_append(trio_string_t *self, trio_string_t *other) { size_t length; assert(self); assert(other); length = self->length + other->length; if (!TrioStringGrowTo(self, length)) goto error; trio_copy(&self->content[self->length], other->content); self->length = length; return TRUE; error: return FALSE; } /* * trio_xstring_append */ TRIO_PUBLIC int trio_xstring_append(trio_string_t *self, const char *other) { size_t length; assert(self); assert(other); length = self->length + trio_length(other); if (!TrioStringGrowTo(self, length)) goto error; trio_copy(&self->content[self->length], other); self->length = length; return TRUE; error: return FALSE; } /* * trio_xstring_append_char */ TRIO_PUBLIC int trio_xstring_append_char(trio_string_t *self, char character) { assert(self); if (self->length >= trio_string_size(self)) { if (!TrioStringGrow(self, 0)) goto error; } self->content[self->length] = character; self->length++; return TRUE; error: return FALSE; } /** Search for the first occurrence of second parameter in the first. @param self Dynamic string to be modified. @param other Dynamic string to copy from. @return Boolean value indicating success or failure. */ TRIO_PUBLIC int trio_string_contains(trio_string_t *self, trio_string_t *other) { assert(self); assert(other); return trio_contains(self->content, other->content); } /* * trio_xstring_contains */ TRIO_PUBLIC int trio_xstring_contains(trio_string_t *self, const char *other) { assert(self); assert(other); return trio_contains(self->content, other); } /* * trio_string_copy */ TRIO_PUBLIC int trio_string_copy(trio_string_t *self, trio_string_t *other) { assert(self); assert(other); self->length = 0; return trio_string_append(self, other); } /* * trio_xstring_copy */ TRIO_PUBLIC int trio_xstring_copy(trio_string_t *self, const char *other) { assert(self); assert(other); self->length = 0; return trio_xstring_append(self, other); } /* * trio_string_duplicate */ TRIO_PUBLIC trio_string_t * trio_string_duplicate(trio_string_t *other) { trio_string_t *self; assert(other); self = TrioStringAlloc(); if (self) { self->content = TrioDuplicateMax(other->content, other->length); if (self->content) { self->length = other->length; self->allocated = self->length + 1; } else { self->length = self->allocated = 0; } } return self; } /* * trio_xstring_duplicate */ TRIO_PUBLIC trio_string_t * trio_xstring_duplicate(const char *other) { trio_string_t *self; assert(other); self = TrioStringAlloc(); if (self) { self->content = TrioDuplicateMax(other, trio_length(other)); if (self->content) { self->length = trio_length(self->content); self->allocated = self->length + 1; } else { self->length = self->allocated = 0; } } return self; } /* * trio_string_equal */ TRIO_PUBLIC int trio_string_equal(trio_string_t *self, trio_string_t *other) { assert(self); assert(other); return trio_equal(self->content, other->content); } /* * trio_xstring_equal */ TRIO_PUBLIC int trio_xstring_equal(trio_string_t *self, const char *other) { assert(self); assert(other); return trio_equal(self->content, other); } /* * trio_string_equal_max */ TRIO_PUBLIC int trio_string_equal_max(trio_string_t *self, size_t max, trio_string_t *other) { assert(self); assert(other); return trio_equal_max(self->content, max, other->content); } /* * trio_xstring_equal_max */ TRIO_PUBLIC int trio_xstring_equal_max(trio_string_t *self, size_t max, const char *other) { assert(self); assert(other); return trio_equal_max(self->content, max, other); } /* * trio_string_equal_case */ TRIO_PUBLIC int trio_string_equal_case(trio_string_t *self, trio_string_t *other) { assert(self); assert(other); return trio_equal_case(self->content, other->content); } /* * trio_xstring_equal_case */ TRIO_PUBLIC int trio_xstring_equal_case(trio_string_t *self, const char *other) { assert(self); assert(other); return trio_equal_case(self->content, other); } /* * trio_string_equal_case_max */ TRIO_PUBLIC int trio_string_equal_case_max(trio_string_t *self, size_t max, trio_string_t *other) { assert(self); assert(other); return trio_equal_case_max(self->content, max, other->content); } /* * trio_xstring_equal_case_max */ TRIO_PUBLIC int trio_xstring_equal_case_max(trio_string_t *self, size_t max, const char *other) { assert(self); assert(other); return trio_equal_case_max(self->content, max, other); } /* * trio_string_format_data_max */ TRIO_PUBLIC size_t trio_string_format_date_max(trio_string_t *self, size_t max, const char *format, const struct tm *datetime) { assert(self); return trio_format_date_max(self->content, max, format, datetime); } /* * trio_string_index */ TRIO_PUBLIC char * trio_string_index(trio_string_t *self, int character) { assert(self); return trio_index(self->content, character); } /* * trio_string_index_last */ TRIO_PUBLIC char * trio_string_index_last(trio_string_t *self, int character) { assert(self); return trio_index_last(self->content, character); } /* * trio_string_length */ TRIO_PUBLIC int trio_string_length(trio_string_t *self) { assert(self); if (self->length == 0) { self->length = trio_length(self->content); } return self->length; } /* * trio_string_lower */ TRIO_PUBLIC int trio_string_lower(trio_string_t *self) { assert(self); return trio_lower(self->content); } /* * trio_string_match */ TRIO_PUBLIC int trio_string_match(trio_string_t *self, trio_string_t *other) { assert(self); assert(other); return trio_match(self->content, other->content); } /* * trio_xstring_match */ TRIO_PUBLIC int trio_xstring_match(trio_string_t *self, const char *other) { assert(self); assert(other); return trio_match(self->content, other); } /* * trio_string_match_case */ TRIO_PUBLIC int trio_string_match_case(trio_string_t *self, trio_string_t *other) { assert(self); assert(other); return trio_match_case(self->content, other->content); } /* * trio_xstring_match_case */ TRIO_PUBLIC int trio_xstring_match_case(trio_string_t *self, const char *other) { assert(self); assert(other); return trio_match_case(self->content, other); } /* * trio_string_substring */ TRIO_PUBLIC char * trio_string_substring(trio_string_t *self, trio_string_t *other) { assert(self); assert(other); return trio_substring(self->content, other->content); } /* * trio_xstring_substring */ TRIO_PUBLIC char * trio_xstring_substring(trio_string_t *self, const char *other) { assert(self); assert(other); return trio_substring(self->content, other); } /* * trio_string_upper */ TRIO_PUBLIC int trio_string_upper(trio_string_t *self) { assert(self); return trio_upper(self->content); } /** @} End of DynamicStrings */