/** * slibc — Yet another C library * Copyright © 2015 Mattias Andrée (maandree@member.fsf.org) * * 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 3 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, see . */ #ifndef _STRING_H #define _STRING_H #include #include #if (defined(_BSD_SOURCE) || defined(_GNU_SOURCE)) && !defined(__PORTABLE) # include #endif /** * `NULL`'s canonical header is */ #ifndef NULL # define NULL ((void*)0) #endif #define __NEED_size_t #define __NEED_locale_t #include /** * Return a textual representation of an error code. * This error code must from `errno`. * * This implementation of `strerror` cannot fail. however * POSIX specifies that it can fail, any may only set `errno` * if it does fail. You should therefore, set `errno` to * zero before calling this function, and inspect `errno` * when it returns, as there is no reserved return value * that indicates and error. * * The returned value must not be modified or freed. * * As a slibc-specific modification, this function is MT-Safe. * * @param errnum The error code. * @return A description of the error. */ char* strerror(int) __GCC_ONLY(__attribute__((returns_nonnull, warn_unused_result))); /** * Return a textual representation of an error code. * This error code must from `errno`. * * POSIX specifies `errno` may only be set on failure, * and reserves no return value to indicate such. * You should therefore, set `errno` to zero before calling * this function, and inspect `errno` when it returns. * * The returned value must not be modified or freed. * * @param errnum The error code. * @param locale The locale, must be a valid locale and not * `LC_GLOBAL_LOCALE`, lest the behaviour is undefined. * @return A description of the error. */ char* strerror_l(int, locale_t) __GCC_ONLY(__attribute__((warn_unused_result))); /* TODO attributes */ #if !defined(__PORTABLE) /** * Reenterant variant of `strerror`. * * This is an XSI-compliant extension. However the name * is not part of the XSI specification, `strerror_r` * should be used. It is defined to this function if * `(_POSIX_C_SOURCE >= 200112L || _XOPEN_SOURCE >= 600) && !_GNU_SOURCE`. * However it is not defined if _SLIBC_SOURCE is defined. * * @param errnum The error code. * @param buf Buffer where the description shall be stored. * @param buflen The allocation size of `buf`. * @return Zero on success, value for `errno` on error * * @throws ERANGE `buf` was too small to store the description. */ int __xsi_strerror_r(int, char*, size_t); /* XSI-compliant strerror_r */ /** * Reenterant variant of `strerror`. * * This is a GNU-specific extension. However the name * is not part of the GNU specification, `strerror_r` should * be used. It is defined to this function unless * `(_POSIX_C_SOURCE >= 200112L || _XOPEN_SOURCE >= 600) && !_GNU_SOURCE`. * However it is not defined if _SLIBC_SOURCE is defined. * * @param errnum The error code. * @param buf Buffer where the description shall be stored. * @param buflen The allocation size of `buf`. * @return `buf` on success, `NULL` on error. On error, `errno` * is set to indicate the error. * * @throws ERANGE `buf` was too small to store the description. */ char* __gnu_strerror_r(int, char*, size_t); /* GNU-specific strerror_r */ # if (_POSIX_C_SOURCE >= 200112L || _XOPEN_SOURCE >= 600) && !defined(_GNU_SOURCE) # define strerror_r __xsi_strerror_r # else # define strerror_r __gnu_strerror_r # endif #endif /** * Returns the number of bytes in a NUL-terminated * string. This excludes the NUL byte. * * @param str The string. * @return The number of bytes before the first NUL byte. */ size_t strlen(const char*) __GCC_ONLY(__attribute__((nonnull, warn_unused_result, pure))); #if (defined(_POSIX_SOURCE) || defined(_POSIX_C_SOURCE) || \ defined(_XOPEN_SOURCE) || defined(_GNU_SOURCE) || \ defined(_BSD_SOURCE)) && !defined(__PORTABLE) /** * Variant of `strlen` that only inspects the * beginning of s string. * * @param str The string. * @param maxlen The number of bytes to inspect, at most. * @return The number of bytes before, the first NUL byte. * `maxlen` if no NUL byte was found. */ size_t strnlen(const char*, size_t) __GCC_ONLY(__attribute__((warn_unused_result, pure))); #endif /** * Override a memory segment with a repeated character. * * @param segment The beginning of the memory segment. * @param c The character (8 bits wide.) * @param size The size of the memory segment. * @return `segment` is returned. */ void* memset(void*, int, size_t); /** * Copy a memory segment to another, non-overlapping, segment. * * @param whither The destination memory segment. * @param whence The source memory segment. * @param size The number of bytes to copy. * @return `whither` is returned. */ void* memcpy(void* restrict, const void* restrict, size_t); #if defined(_GNU_SOURCE) && !defined(__PORTABLE) /** * Copy a memory segment to another, non-overlapping, segment. * * This is a GNU extension. * * @param whither The destination memory segment. * @param whence The source memory segment. * @param size The number of bytes to copy. * @return `whither + size` is returned. */ void* mempcpy(void* restrict, const void* restrict, size_t); #endif /** * Copy a memory segment to another, possibly overlapping, segment. * * @param whither The destination memory segment. * @param whence The source memory segment. * @param size The number of bytes to copy. * @return `whither` is returned. */ void* memmove(void*, const void*, size_t); #if defined(_SLIBC_SOURCE) && defined(_GNU_SOURCE) && !defined(__PORTABLE) /** * Copy a memory segment to another, possibly overlapping, segment. * * This is a slibc extension added for completeness. * It is only available if GNU extensions are available. * * @param whither The destination memory segment. * @param whence The source memory segment. * @param size The number of bytes to copy. * @return `whither + size` is returned. */ void* mempmove(void*, const void*, size_t); #endif /** * Copy a memory segment to another, non-overlapping, segment, * but stop if a specific byte is encountered. * * @param whither The destination memory segment. * @param whence The source memory segment. * @param c The byte to stop at if encountered. * @param size The maximum number of bytes to copy. * @return `NULL` if `c` was not encountered, otherwise * the position of `c` translated to `whither`, * that is, the address of `whither` plus the * number of copied characters; the address of * one character passed the last written character. */ void* memccpy(void* restrict, const void* restrict, int, size_t); #if defined(_SLIBC_SOURCE) && !defined(__PORTABLE) /** * Copy a memory segment to another, possibly overlapping, segment, * but stop if a specific byte is encountered. * * This is a slibc extension added for completeness. * * @param whither The destination memory segment. * @param whence The source memory segment. * @param c The byte to stop at if encountered. * @param size The maximum number of bytes to copy. * @return `NULL` if `c` was not encountered, otherwise * the position of `c` translated to `whither`, * that is, the address of `whither` plus the * number of copied characters; the address of * one character passed the last written character. */ void* memcmove(void*, const void*, int, size_t); #endif /** * Copy a memory segment to another, non-overlapping, segment, * stop when a NUL byte is encountered. * * @param whither The destination memory segment. * @param whence The source memory segment. * @return `whither` is returned. */ char* strcpy(char* restrict, const char* restrict) __GCC_ONLY(__attribute__((returns_nonnull, nonnull))); /** * Copy a memory segment to another, non-overlapping, segment, * stop when a NUL byte is encountered. * * @param whither The destination memory segment. * @param whence The source memory segment. * @return `whither + strlen(whence)` is returned. */ char* stpcpy(char* restrict, const char* restrict) __GCC_ONLY(__attribute__((returns_nonnull, nonnull))); #if defined(_SLIBC_SOURCE) && !defined(__PORTABLE) /** * Copy a memory segment to another, non-overlapping, segment, * stop when a NUL byte or a specified byte is encountered. * * This is a slibc extension added for completeness. * * @param whither The destination memory segment. * @param whence The source memory segment. * @param c The stop byte. * @return `NULL` if `c` was not encountered, otherwise * the position of `c` translated to `whither`, * that is, the address of `whither` plus the * number of copied characters; the address of * one character passed the last written non-NUL * character. */ char* strccpy(char* restrict, const char* restrict, int) __GCC_ONLY(__attribute__((nonnull))); /** * Copy a memory segment to another, non-overlapping, segment, * stop when a NUL byte or a specified substring is encountered. * * This is a slibc extension added for completeness. * * @param whither The destination memory segment. * @param whence The source memory segment. * @param str The substring, ignored if `NULL`. * @return `NULL` if `str` was not encountered, otherwise * the position of `str` translated to `whither`, * that is, the address of `whither` plus the * number of copied characters; the address of * one character passed the last written non-NUL * character. */ char* strstrcpy(char* restrict, const char* restrict, const char* restrict) __GCC_ONLY(__attribute__((nonnull(1, 2)))); #endif /** * Copy a memory segment to another, non-overlapping, segment, * stop when a NUL byte is encountered. * * @param whither The destination memory segment. * @param whence The source memory segment. * @param maxlen The maximum number of bytes to copy. * NOTE that if the resulting string at least this * long, no NUL byte will be written to `whither'. * On the otherhand, if the resultnig string is * shorter, `whither` will be filled with NUL bytes * until this amount of bytes have been written. * @return `whither` is returned. */ char* strncpy(char* restrict, const char* restrict, size_t) __GCC_ONLY(__attribute__((returns_nonnull, nonnull))); #if defined(_GNU_SOURCE) && !defined(__PORTABLE) /** * Copy a memory segment to another, non-overlapping, segment, * stop when a NUL byte is encountered. * * This is a GNU extension. * * @param whither The destination memory segment. * @param whence The source memory segment. * @param maxlen The maximum number of bytes to copy. * NOTE that if the resulting string at least this * long, no NUL byte will be written to `whither'. * On the otherhand, if the resultnig string is * shorter, `whither` will be filled with NUL bytes * until this amount of bytes have been written. * @return `whither` plus the number of written bytes, * excluding NUL bytes, is returned. */ char* stpncpy(char* restrict, const char* restrict, size_t) __GCC_ONLY(__attribute__((returns_nonnull, nonnull))); # if defined(_SLIBC_SOURCE) /** * Copy a memory segment to another, non-overlapping, segment, * stop when a NUL byte or a specified byte is encountered. * * This is a slibc extension added for completeness. * It is only available if GNU extensions are available. * * @param whither The destination memory segment. * @param whence The source memory segment. * @param c The stop byte. * @param maxlen The maximum number of bytes to copy. * NOTE that if the resulting string at least this * long, no NUL byte will be written to `whither'. * On the otherhand, if the resultnig string is * shorter, `whither` will be filled with NUL bytes * until this amount of bytes have been written. * @return `NULL` if `c` was not encountered, otherwise * the position of `c` translated to `whither`, * that is, the address of `whither` plus the * number of copied characters; the address of * one character passed the last written non-NUL * character. */ char* strcncpy(char* restrict, const char* restrict, int, size_t) __GCC_ONLY(__attribute__((nonnull))); /** * Copy a memory segment to another, non-overlapping, segment, * stop when a NUL byte or a specified substring is encountered. * * This is a slibc extension added for completeness. * It is only available if GNU extensions are available. * * @param whither The destination memory segment. * @param whence The source memory segment. * @param str The substring, ignored if `NULL`. * @param maxlen The maximum number of bytes to copy. * NOTE that if the resulting string at least this * long, no NUL byte will be written to `whither'. * On the otherhand, if the resultnig string is * shorter, `whither` will be filled with NUL bytes * until this amount of bytes have been written. * @return `NULL` if `str` was not encountered, otherwise * the position of `str` translated to `whither`, * that is, the address of `whither` plus the * number of copied characters; the address of * one character passed the last written non-NUL * character. */ char* strstrncpy(char* restrict, const char* restrict, const char* restrict, size_t) __GCC_ONLY(__attribute__((nonnull(1, 2)))); # endif #endif #if defined(_SLIBC_SOURCE) && !defined(__PORTABLE) /** * Copy a memory segment to another, possibly overlapping, segment, * stop when a NUL byte is encountered. * * This is a slibc extension added for completeness. * * @param whither The destination memory segment. * @param whence The source memory segment. * @return `whither` is returned. */ char* strmove(char*, const char*) __GCC_ONLY(__attribute__((returns_nonnull, nonnull))); /** * Copy a memory segment to another, possibly overlapping, segment, * stop when a NUL byte is encountered. * * This is a slibc extension added for completeness. * * @param whither The destination memory segment. * @param whence The source memory segment. * @return `whither + strlen(whence)` is returned. */ char* stpmove(char*, const char*) __GCC_ONLY(__attribute__((returns_nonnull, nonnull))); /** * Copy a memory segment to another, possibly overlapping, segment, * stop when a NUL byte or a specified byte is encountered. * * This is a slibc extension added for completeness. * * @param whither The destination memory segment. * @param whence The source memory segment. * @param c The stop byte. * @return `NULL` if `c` was not encountered, otherwise * the position of `c` translated to `whither`, * that is, the address of `whither` plus the * number of copied characters; the address of * one character passed the last written non-NUL * character. */ char* strcmove(char*, const char*, int) __GCC_ONLY(__attribute__((nonnull))); /** * Copy a memory segment to another, possibly overlapping, segment, * stop when a NUL byte or a specified substring is encountered. * * This is a slibc extension added for completeness. * * @param whither The destination memory segment. * @param whence The source memory segment. * @param str The substring, ignored if `NULL`. * @return `NULL` if `str` was not encountered, otherwise * the position of `str` translated to `whither`, * that is, the address of `whither` plus the * number of copied characters; the address of * one character passed the last written non-NUL * character. */ char* strstrmove(char*, const char*, const char* restrict) __GCC_ONLY(__attribute__((nonnull(1, 2)))); /** * Copy a memory segment to another, possibly overlapping, segment, * stop when a NUL byte is encountered. * * @param whither The destination memory segment. * @param whence The source memory segment. * @param maxlen The maximum number of bytes to copy. * NOTE that if the resulting string at least this * long, no NUL byte will be written to `whither'. * On the otherhand, if the resultnig string is * shorter, `whither` will be filled with NUL bytes * until this amount of bytes have been written. * @return `whither` is returned. */ char* strnmove(char*, const char*, size_t) __GCC_ONLY(__attribute__((returns_nonnull, nonnull))); # if defined(_GNU_SOURCE) /** * Copy a memory segment to another, possibly overlapping, segment, * stop when a NUL byte is encountered. * * This is a slibc extension added for completeness. * It is only available if GNU extensions are available. * * @param whither The destination memory segment. * @param whence The source memory segment. * @param maxlen The maximum number of bytes to copy. * NOTE that if the resulting string at least this * long, no NUL byte will be written to `whither'. * On the otherhand, if the resultnig string is * shorter, `whither` will be filled with NUL bytes * until this amount of bytes have been written. * @return `whither` plus the number of written bytes, * excluding NUL bytes, is returned. */ char* stpnmove(char*, const char*, size_t) __GCC_ONLY(__attribute__((returns_nonnull, nonnull))); /** * Copy a memory segment to another, possibly overlapping, segment, * stop when a NUL byte or a specified byte is encountered. * * This is a slibc extension added for completeness. * It is only available if GNU extensions are available. * * @param whither The destination memory segment. * @param whence The source memory segment. * @param c The stop byte. * @param maxlen The maximum number of bytes to copy. * NOTE that if the resulting string at least this * long, no NUL byte will be written to `whither'. * On the otherhand, if the resultnig string is * shorter, `whither` will be filled with NUL bytes * until this amount of bytes have been written. * @return `NULL` if `c` was not encountered, otherwise * the position of `c` translated to `whither`, * that is, the address of `whither` plus the * number of copied characters; the address of * one character passed the last written non-NUL * character. */ char* strcnmove(char*, const char*, int, size_t) __GCC_ONLY(__attribute__((nonnull))); /** * Copy a memory segment to another, possibly overlapping, segment, * stop when a NUL byte or a specified substring is encountered. * * This is a slibc extension added for completeness. * It is only available if GNU extensions are available. * * @param whither The destination memory segment. * @param whence The source memory segment. * @param str The substring, ignored if `NULL`. * @param maxlen The maximum number of bytes to copy. * NOTE that if the resulting string at least this * long, no NUL byte will be written to `whither'. * On the otherhand, if the resultnig string is * shorter, `whither` will be filled with NUL bytes * until this amount of bytes have been written. * @return `NULL` if `str` was not encountered, otherwise * the position of `str` translated to `whither`, * that is, the address of `whither` plus the * number of copied characters; the address of * one character passed the last written non-NUL * character. */ char* strstrnmove(char*, const char*, const char* restrict, size_t) __GCC_ONLY(__attribute__((nonnull(1, 2)))); # endif #endif /** * Concatenate a string to the end of another string. * The resulting strings must not overlap with the appended string. * * The use of this function is often a bad idea. * * @param whither The string to extend. * @param whence The string to append. * @return `whither` is returned. */ char* strcat(char* restrict, const char* restrict) __GCC_ONLY(__attribute__((nonnull))); /* stpcat does not exsits because use of it would be very inefficient. */ /** * Concatenate a string to the end of another string. * The resulting strings must not overlap with the appended string. * * The use of this function is often a really bad idea. * * @param whither The string to extend. * @param whence The string to append. * @param maxlen The maximum number of bytes to copy. * NOTE that if the resulting string at least this * long, no NUL byte will be written to `whither'. * On the otherhand, if the resultnig string is * shorter, `whither` will be filled with NUL bytes * until this amount of bytes have been written. * @return `whither` is returned. */ char* strncat(char* restrict, const char* restrict, size_t) __GCC_ONLY(__attribute__((nonnull))); /* stpncat does not exsits because use of it would be very inefficient. */ /** * Duplicate a string. * * @param string The string to duplicate. * @return The new string. `NULL` is returned on error * and `errno` is set to indicate the error. * * @throws ENOMEM The process could not allocate sufficient amount of memory. */ char* strdup(const char*) __GCC_ONLY(__attribute__((malloc, nonnull, warn_unused_result))); #if !defined(__PORTABLE) # if defined(_GNU_SOURCE) /** * Duplicate a string. * * This is a GNU extension. * * @param string The string to duplicate. * @param maxlen Truncate the string to this length, if it is longer. * A NUL byte is guaranteed to always be written * upon successful completion. * @return The new string. `NULL` is returned on error * and `errno` is set to indicate the error. * * @throws ENOMEM The process could not allocate sufficient amount of memory. */ char* strndup(const char*, size_t) __GCC_ONLY(__attribute__((malloc, nonnull, warn_unused_result))); # endif # if defined(_SLIBC_SOURCE) /** * Duplicate a memory segment. * * This is a slibc extension. * * @param segment The memory segment to duplicate. * @param size The size of the memory segment. * @return The new segment. `NULL` is returned on error * and `errno` is set to indicate the error. * * @throws ENOMEM The process could not allocate sufficient amount of memory. */ void* memdup(const void*, size_t) __GCC_ONLY(__attribute__((malloc, nonnull, warn_unused_result))); # endif # if defined (__GNUC__) # if defined(_GNU_SOURCE) || defined(_SLIBC_SOURCE) /** * Duplicate a string, using dymanic stack allocation (`alloca`). * * This is a GNU-compliant slibc extension. * This macro is only available when using GCC. * * @param string:const char* The string to duplicate. * @return :size_t The new string. There is no way to * detect whether the allocation failed. */ # define strdupa(string) \ ({ \ const char* __s = (string); \ size_t __n = strlen(__s) + 1; \ char* __r = __builtin_alloca(__n * sizeof(char)); \ memcpy(__r, __s, __n * sizeof(char)); \ }) # endif # if defined(_GNU_SOURCE) /** * Duplicate a string, using dymanic stack allocation (`alloca`). * * This is a GNU extension. * This macro is only available when using GCC. * * @param string:const char* The string to duplicate. * @param maxlen:size_t Truncate the string to this length, if it is longer. * A NUL byte is guaranteed to always be written. * @return :size_t The new string. There is no way to * detect whether the allocation failed. */ # define strndupa(string, maxlen) \ ({ \ const char* __s = (string); \ size_t __n = strnlen(__s, (maxlen)) + 1; \ char* __r = __builtin_alloca(__n * sizeof(char)); \ memcpy(__r, __s, __n * sizeof(char)); \ }) # endif # if defined(_SLIBC_SOURCE) /** * Duplicate a memory segment, using dymanic stack allocation (`alloca`). * * This is a slibc extension. * This macro is only available when using GCC. * * @param segment:const void* The memory segment to duplicate. * @param size:size_t The size of the memory segment. * @return :size_t The new segment. There is no way to * detect whether the allocation failed. */ # define memdupa(segment, size) \ ({ \ size_t __n = (size); \ void* __r = __builtin_alloca(__n); \ memcpy(__r, (segment), __n); \ }) # endif # endif #endif /** * Compare two memory segments alphabetically in a case sensitive manner. * * @param a A negative value is returned if this is the lesser. * @param b A positive value is returned if this is the lesser. * @param size The size of the segments. * @return Zero is returned if `a` and `b` are equal, otherwise, * see the specifications for `a` and `b`. */ int memcmp(const void*, const void*, size_t) __GCC_ONLY(__attribute__((warn_unused_result, pure))); #if defined(_SLIBC_SOURCE) && !defined(__PORTABLE) /** * Compare two memory segments alphabetically in a case insensitive manner. * * This is a slibc extension added because it was useful * in implementing slibc itself. * * @param a A negative value is returned if this is the lesser. * @param b A positive value is returned if this is the lesser. * @param size The size of the segments. * @return Zero is returned if `a` and `b` are equal, otherwise, * see the specifications for `a` and `b`. */ int memcasecmp(const void*, const void*, size_t) __GCC_ONLY(__attribute__((warn_unused_result, pure))); #endif /** * Compare two strings alphabetically in a case sensitive manner. * * @param a A negative value is returned if this is the lesser. * @param b A positive value is returned if this is the lesser. * @return Zero is returned if `a` and `b` are equal, otherwise, * see the specifications for `a` and `b`. */ int strcmp(const char*, const char*) __GCC_ONLY(__attribute__((warn_unused_result, nonnull, pure))); /** * Compare two strings alphabetically in a case sensitive manner. * * @param a A negative value is returned if this is the lesser. * @param b A positive value is returned if this is the lesser. * @param length The maximum number of characters to compare. * @return Zero is returned if `a` and `b` are equal, otherwise, * see the specifications for `a` and `b`. */ int strncmp(const char*, const char*, size_t) __GCC_ONLY(__attribute__((warn_unused_result, nonnull, pure))); #if defined(_GNU_SOURCE) && !defined(__PORTABLE) int strverscmp(const char*, const char*) __GCC_ONLY(__attribute__((warn_unused_result, nonnull, pure))); /* TODO document and implement strverscmp */ #endif /** * Find the first occurrence of a byte in a memory segment. * * @param segment The memory segment to search. * @param c The sought after character. * @param size The size of the memory segment. * @return Pointer to the first occurrence of `c`, * `NULL` if none were found. */ void* memchr(const void*, int, size_t) __GCC_ONLY(__attribute__((warn_unused_result, pure))); #if (defined(_GNU_SOURCE) || defined(_SLIBC_SOURCE)) && !defined(__PORTABLE) /** * Find the first occurrence of a byte in a memory segment. * The memory segment must be known to contain the sought after byte. * * This is a GNU-compliant slibc extension. * * @param segment The memory segment to search. * @param c The sought after character. * @return Pointer to the first occurrence of `c`. */ void* rawmemchr(const void*, int) __GCC_ONLY(__attribute__((warn_unused_result, returns_nonnull, nonnull, pure))); #endif /** * Find the last occurrence of a byte in a memory segment. * * For improved performace, use this function instead * of `strrchr` if you already know the length of the * string. * * @param segment The memory segment to search. * @param c The sought after character. * @param size The size of the memory segment. * @return Pointer to the last occurrence of `c`, * `NULL` if none were found. */ void* memrchr(const void*, int, size_t) __GCC_ONLY(__attribute__((warn_unused_result, pure))); /** * Find the first occurrence of a byte in a string. * * `s = strchr(s, 0)` is a faster alternative to * `s = s + strlen(s)`. * * @param string The string to search. * The terminating NUL character is * considered a part of the string. * @param c The sought after character. * @return Pointer to the first occurrence of `c`, * `NULL` if none were found. */ char* strchr(const char*, int) __GCC_ONLY(__attribute__((warn_unused_result, nonnull, pure))); #if (defined(_GNU_SOURCE) || defined(_SLIBC_SOURCE)) && !defined(__PORTABLE) /** * Find the first occurrence of a byte in a string, or * if there is no such byte, the end of the string. * * This is a GNU-compliant slibc extension. * * @param string The string to search. * The terminating NUL character is * considered a part of the string. * @param c The sought after character. * @return Pointer to the first occurrence of `c`, * Pointer to the terminating NUL character * if none were found. */ char* strchrnul(const char*, int) __GCC_ONLY(__attribute__((warn_unused_result, returns_nonnull, nonnull, pure))); #endif /** * Find the last occurrence of a byte in a string. * * For improved performace, use `memrchr` instead of * this function if you already know the length of the * string. * * @param string The string to search. * The terminating NUL character is * considered a part of the string. * @param c The sought after character. * @return Pointer to the last occurrence of `c`, * `NULL` if none were found. */ char* strrchr(const char*, int) __GCC_ONLY(__attribute__((warn_unused_result, nonnull, pure))); /** * Finds the first occurrence of a substring. * This search is case sensitive. * * @param haystack The string to search. * @param needle The sought after substring. * @return Pointer to the first occurrence of the * substring, `NULL` if not found. */ char* strstr(const char*, const char*) __GCC_ONLY(__attribute__((warn_unused_result, nonnull, pure))); /** * Finds the first occurrence of a substring. * This search is case insensitive. * * @param haystack The string to search. * @param needle The sought after substring. * @return Pointer to the first occurrence of the * substring, `NULL` if not found. */ char* strcasestr(const char*, const char*) __GCC_ONLY(__attribute__((warn_unused_result, nonnull, pure))); #if defined(_SLIBC_SOURCE) && !defined(__PORTABLE) /** * Finds the first occurrence of a substring. * This search is case sensitive. * * This is a slibc extension added for because it was useful * in implementing slibc itself. * * @param haystack The string to search. * @param needle The sought after substring. * @param maxlen The maximum number of character to search. * @return Pointer to the first occurrence of the * substring, `NULL` if not found. */ char* strnstr(const char*, const char*, size_t) __GCC_ONLY(__attribute__((warn_unused_result, nonnull, pure))); /** * Finds the first occurrence of a substring. * This search is case insensitive. * * This is a slibc extension added for completeness. * * @param haystack The string to search. * @param needle The sought after substring. * @param maxlen The maximum number of character to search. * @return Pointer to the first occurrence of the * substring, `NULL` if not found. */ char* strncasestr(const char*, const char*, size_t) __GCC_ONLY(__attribute__((warn_unused_result, nonnull, pure))); /** * Finds the first occurrence of a substring. * This search is case sensitive. * It must already be known that such a substring exists. * * This is a slibc extension. * * @param haystack The string to search. * @param needle The sought after substring. * @return Pointer to the first occurrence of the substring. */ char* rawstrstr(const char*, const char*) __GCC_ONLY(__attribute__((warn_unused_result, nonnull, returns_nonnull, pure))); /** * Finds the first occurrence of a substring. * This search is case insensitive. * It must already be known that such a substring exists. * * This is a slibc extension. * * @param haystack The string to search. * @param needle The sought after substring. * @return Pointer to the first occurrence of the substring. */ char* rawstrcasestr(const char*, const char*) __GCC_ONLY(__attribute__((warn_unused_result, nonnull, returns_nonnull, pure))); /** * Finds the first occurrence of a substring. * This search is case insensitive. * * This is a slibc extension added because it was useful * in implementing slibc itself. * * @param haystack The string to search. * @param haystack_length The number of character to search. * @param needle The sought after substring. * @param needle_length The length of `needle`. * @return Pointer to the first occurrence of * the substring, `NULL` if not found. */ void* memcasemem(const void*, size_t, const void*, size_t) __GCC_ONLY(__attribute__((warn_unused_result, pure))); /** * Check whether a string starts with a specific string. * This check is case sensitive. * * This is a slibc extension. * * @param string The string to inspect. * @param desired The desired beginning of the string. * @return `string` if `string` begins with * `desired`, `NULL` otherwise. */ char* strstarts(const char*, const char*) __GCC_ONLY(__attribute__((warn_unused_result, nonnull, pure))); /** * Check whether a string ends with a specific string. * This check is case sensitive. * * This is a slibc extension. * * @param string The string to inspect. * @param desired The desired ending of the string. * @return The `string`, where `desired` beings if * `string` ends with `desired`, `NULL` otherwise. */ char* strends(const char*, const char*) __GCC_ONLY(__attribute__((warn_unused_result, nonnull, pure))); /** * Check whether a string starts with a specific string. * This check is case insensitive. * * This is a slibc extension. * * @param string The string to inspect. * @param desired The desired beginning of the string. * @return `string` if `string` begins with * `desired`, `NULL` otherwise. */ char* strcasestarts(const char*, const char*) __GCC_ONLY(__attribute__((warn_unused_result, nonnull, pure))); /** * Check whether a string ends with a specific string. * This check is case insensitive. * * This is a slibc extension. * * @param string The string to inspect. * @param desired The desired ending of the string. * @return The `string`, where `desired` beings if * `string` ends with `desired`, `NULL` otherwise. */ char* strcaseends(const char*, const char*) __GCC_ONLY(__attribute__((warn_unused_result, nonnull, pure))); #endif #if (defined(_GNU_SOURCE) || defined(_SLIBC_SOURCE)) && !defined(__PORTABLE) /** * Finds the first occurrence of a substring. * This search is case sensitive. * * This is a GNU-compliant slibc extension. It was useful * in implementing slibc itself. * * @param haystack The string to search. * @param haystack_length The number of character to search. * @param needle The sought after substring. * @param needle_length The length of `needle`. * @return Pointer to the first occurrence of * the substring, `NULL` if not found. */ void* memmem(const void*, size_t, const void*, size_t) __GCC_ONLY(__attribute__((warn_unused_result, pure))); #endif /* TODO Add case right-to-left substring searching functions. */ /** * Returns length of the initial substring * that consists entirely of a set of specified * bytes. * * @param string The string. * @param skipset Bytes allowed in the substring. * @return The length of the substring. */ size_t strspn(const char*, const char*) __GCC_ONLY(__attribute__((warn_unused_result, nonnull, pure))); /** * Returns length of the initial substring * that consists entirely of the complement * of a set of specified bytes. * * @param string The string. * @param stopset Bytes disallowed in the substring. * @return The length of the substring. */ size_t strcspn(const char*, const char*) __GCC_ONLY(__attribute__((warn_unused_result, nonnull, pure))); /** * This function works like `strcspn`, * except it returns the pointer to the * location of the first found non-matching * byte. * * @param string The string. * @param stopset Bytes disallowed in the substring. * @return A pointer to the first occurrence in * `string` of a byte found in `stopset`. * `NULL` is returned if none is found. */ char* strpbrk(const char*, const char*) __GCC_ONLY(__attribute__((warn_unused_result, nonnull, pure))); /** * Tokenise a string. * * @param string The string to tokenise on the first, * `NULL` on subsequent calls. * All bytes found in `delimiters` will * be overriden with NUL bytes. * @param delimiters Delimiting bytes (not characters). * @return The next non-empty string that does not * contain a byte from `delimiters`. The * returned string will be as long as possible. * `NULL` is returned the search as reached * the end of the string, and there therefore * are no more tokens. */ char* strtok(char* restrict, const char* restrict) __GCC_ONLY(__attribute__((warn_unused_result, nonnull(2)))); /** * Tokenise a string. * * @param string The string to tokenise on the first, * `NULL` on subsequent calls. * All bytes found in `delimiters` will * be overriden with NUL bytes. * @param delimiters Delimiting bytes (not characters). * @param state Pointer to a `char*` that the function * can use to keep track of its state. * It is reasonable to make it point to `NULL` * on the first call. * @return The next non-empty string that does not * contain a byte from `delimiters`. The * returned string will be as long as possible. * `NULL` is returned the search as reached * the end of the string, and there therefore * are no more tokens. */ char* strtok_r(char* restrict, const char* restrict, char** restrict) __GCC_ONLY(__attribute__((warn_unused_result, nonnull(2, 3)))); /** * Tokenise a string. * * @param string Pointer to the string to tokenise on the first call, * will be updated to keep track of the state. * All bytes found in `delimiters` will * be overriden with NUL bytes. * @param delimiters Delimiting bytes (not characters). * @return The next, possibly empty, string that does * not contain a byte from `delimiters`. The * returned string will be as long as possible. * `NULL` is returned the search as reached * the end of the string, and there therefore * are no more tokens. */ char* strsep(char** restrict, const char* restrict) __GCC_ONLY(__attribute__((warn_unused_result, nonnull))); #if defined(_GNU_SOURCE) && !defined(__PORTABLE) && !defined(basename) /** * Get the basename of a filename. * * This is a GNU extension, include * to override it with the XPG-compliant implementation. * * @param filename The filename. * @return The basename, it is either a substring * of `filename` or, if `filename` is `NULL` * or is empty, a statically allocationed string, * so it must not freed or edited. */ char* __gnu_basename(const char*) __GCC_ONLY(__attribute__((warn_unused_result, pure))); # define basename __gnu_basename #endif #if defined(_GNU_SOURCE) && !defined(__PORTABLE) /** * Shuffles all bytes in a string. * * This is a GNU joke extension. * * @param anagram An anagram of the output, will be modified. * @retrun The string, which will `== anagram`. */ char* strfry(char*); /** * Performs an inplace bitwise XOR:ing of * a memory segment. The pattern is 00101010. * * This is a GNU extension. * * @param segment The memory segment. * @param size The size of the memory segment. * @return `segment` is returned */ char* memfrob(char*, size_t); #endif #endif