Sat, 26 Oct 2019 15:38:50 +0200
bash completion now handles spaces correctly in both quoted and unquoted strings
/* * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS HEADER. * * Copyright 2017 Mike Becker, Olaf Wintermann All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ /** * Bounded string implementation. * * The UCX strings (<code>sstr_t</code>) provide an alternative to C strings. * The main difference to C strings is, that <code>sstr_t</code> does <b>not * need to be <code>NULL</code>-terminated</b>. Instead the length is stored * within the structure. * * When using <code>sstr_t</code>, developers must be full aware of what type * of string (<code>NULL</code>-terminated) or not) they are using, when * accessing the <code>char* ptr</code> directly. * * The UCX string module provides some common string functions, known from * standard libc, working with <code>sstr_t</code>. * * @file string.h * @author Mike Becker * @author Olaf Wintermann */ #ifndef UCX_STRING_H #define UCX_STRING_H #include "ucx.h" #include "allocator.h" #include <stddef.h> /* * Use this macro to disable the shortcuts if you experience macro collision. */ #ifndef UCX_NO_SSTR_SHORTCUTS /** * Shortcut for a <code>sstr_t struct</code> * or <code>scstr_t struct</code> literal. */ #define ST(s) { s, sizeof(s)-1 } /** Shortcut for the conversion of a C string to a <code>sstr_t</code>. */ #define S(s) sstrn(s, sizeof(s)-1) /** Shortcut for the conversion of a C string to a <code>scstr_t</code>. */ #define SC(s) scstrn(s, sizeof(s)-1) #endif /* UCX_NO_SSTR_SHORTCUTS */ /* * Use this macro to disable the format macros. */ #ifndef UCX_NO_SSTR_FORMAT_MACROS /** Expands a sstr_t or scstr_t to printf arguments. */ #define SFMT(s) (int) (s).length, (s).ptr /** Format specifier for a sstr_t or scstr_t. */ #define PRIsstr ".*s" #endif /* UCX_NO_SSTR_FORMAT_MACROS */ #ifdef __cplusplus extern "C" { #endif /** * The UCX string structure. */ typedef struct { /** A pointer to the string * (<b>not necessarily <code>NULL</code>-terminated</b>) */ char *ptr; /** The length of the string */ size_t length; } sstr_t; /** * The UCX string structure for immutable (constant) strings. */ typedef struct { /** A constant pointer to the immutable string * (<b>not necessarily <code>NULL</code>-terminated</b>) */ const char *ptr; /** The length of the string */ size_t length; } scstr_t; #ifdef __cplusplus } #endif #ifdef __cplusplus /** * One of two type adjustment functions that return a scstr_t. * * Used <b>internally</b> to convert a UCX string to an immutable UCX string. * * <b>Do not use this function manually.</b> * * @param str some sstr_t * @return an immutable (scstr_t) version of the provided string. */ inline scstr_t s2scstr(sstr_t s) { scstr_t c; c.ptr = s.ptr; c.length = s.length; return c; } /** * One of two type adjustment functions that return a scstr_t. * * Used <b>internally</b> to convert a UCX string to an immutable UCX string. * This variant is used, when the string is already immutable and no operation * needs to be performed. * * <b>Do not use this function manually.</b> * * @param str some scstr_t * @return the argument itself */ inline scstr_t s2scstr(scstr_t str) { return str; } /** * Converts a UCX string to an immutable UCX string (scstr_t). * @param str some UCX string * @return the an immutable version of the provided string */ #define SCSTR(s) s2scstr(s) #else /** * One of two type adjustment functions that return a scstr_t. * * Used <b>internally</b> to convert a UCX string to an immutable UCX string. * This variant is used, when the string is already immutable and no operation * needs to be performed. * * <b>Do not use this function manually.</b> * * @param str some scstr_t * @return the argument itself */ scstr_t ucx_sc2sc(scstr_t str); /** * One of two type adjustment functions that return a scstr_t. * * Used <b>internally</b> to convert a UCX string to an immutable UCX string. * * <b>Do not use this function manually.</b> * * @param str some sstr_t * @return an immutable (scstr_t) version of the provided string. */ scstr_t ucx_ss2sc(sstr_t str); #if __STDC_VERSION__ >= 201112L /** * Converts a UCX string to an immutable UCX string (scstr_t). * @param str some UCX string * @return the an immutable version of the provided string */ #define SCSTR(str) _Generic(str, sstr_t: ucx_ss2sc, scstr_t: ucx_sc2sc)(str) #elif defined(__GNUC__) || defined(__clang__) /** * Converts a UCX string to an immutable UCX string (scstr_t). * @param str some UCX string * @return the an immutable version of the provided string */ #define SCSTR(str) __builtin_choose_expr( \ __builtin_types_compatible_p(typeof(str), sstr_t), \ ucx_ss2sc, \ ucx_sc2sc)(str) #elif defined(__sun) /** * Converts a UCX string to an immutable UCX string (scstr_t). * @param str some UCX string * @return the an immutable version of the provided string */ #define SCSTR(str) ({typeof(str) ucx_tmp_var_str = str; \ scstr_t ucx_tmp_var_c; \ ucx_tmp_var_c.ptr = ucx_tmp_var_str.ptr;\ ucx_tmp_var_c.length = ucx_tmp_var_str.length;\ ucx_tmp_var_c; }) #else /* no generics and no builtins */ /** * Converts a UCX string to an immutable UCX string (scstr_t). * * This <b>internal</b> function (ab)uses the C standard an expects one single * argument which is then implicitly converted to scstr_t without a warning. * * <b>Do not use this function manually.</b> * * @return the an immutable version of the provided string */ scstr_t ucx_ss2c_s(); /** * Converts a UCX string to an immutable UCX string (scstr_t). * @param str some UCX string * @return the an immutable version of the provided string */ #define SCSTR(str) ucx_ss2c_s(str) #endif /* C11 feature test */ #endif /* C++ */ #ifdef __cplusplus extern "C" { #endif /** * Creates a new sstr_t based on a C string. * * The length is implicitly inferred by using a call to <code>strlen()</code>. * * <b>Note:</b> the sstr_t will hold a <i>reference</i> to the C string. If you * do want a copy, use sstrdup() on the return value of this function. * * If you need to wrap a constant string, use scstr(). * * @param cstring the C string to wrap * @return a new sstr_t containing the C string * * @see sstrn() */ sstr_t sstr(char *cstring); /** * Creates a new sstr_t of the specified length based on a C string. * * <b>Note:</b> the sstr_t will hold a <i>reference</i> to the C string. If you * do want a copy, use sstrdup() on the return value of this function. * * If you need to wrap a constant string, use scstrn(). * * @param cstring the C string to wrap * @param length the length of the string * @return a new sstr_t containing the C string * * @see sstr() * @see S() */ sstr_t sstrn(char *cstring, size_t length); /** * Creates a new scstr_t based on a constant C string. * * The length is implicitly inferred by using a call to <code>strlen()</code>. * * <b>Note:</b> the scstr_t will hold a <i>reference</i> to the C string. If you * do want a copy, use scstrdup() on the return value of this function. * * @param cstring the C string to wrap * @return a new scstr_t containing the C string * * @see scstrn() */ scstr_t scstr(const char *cstring); /** * Creates a new scstr_t of the specified length based on a constant C string. * * <b>Note:</b> the scstr_t will hold a <i>reference</i> to the C string. If you * do want a copy, use scstrdup() on the return value of this function. * * * @param cstring the C string to wrap * @param length the length of the string * @return a new scstr_t containing the C string * * @see scstr() */ scstr_t scstrn(const char *cstring, size_t length); /** * Returns the cumulated length of all specified strings. * * <b>Attention:</b> if the count argument does not match the count of the * specified strings, the behavior is undefined. * * @param count the total number of specified strings (so at least 1) * @param ... all strings * @return the cumulated length of all strings */ size_t scstrnlen(size_t count, ...); /** * Alias for scstrnlen() which automatically converts the arguments. * * @param count the total number of specified strings (so at least 1) * @param ... all strings * @return the cumulated length of all strings */ #define sstrnlen(count, ...) scstrnlen(count, __VA_ARGS__) /** * Concatenates two or more strings. * * The resulting string will be allocated by standard <code>malloc()</code>. * So developers <b>MUST</b> pass the sstr_t.ptr to <code>free()</code>. * * The sstr_t.ptr of the return value will <i>always</i> be <code>NULL</code>- * terminated. * * @param count the total number of strings to concatenate * @param s1 first string * @param ... all remaining strings * @return the concatenated string */ sstr_t scstrcat(size_t count, scstr_t s1, ...); /** * Alias for scstrcat() which automatically converts the arguments. * * @param count the total number of strings to concatenate * @param s1 first string * @param ... all remaining strings * @return the concatenated string */ #define sstrcat(count, s1, ...) scstrcat(count, SCSTR(s1), __VA_ARGS__) /** * Concatenates two or more strings using a UcxAllocator. * * See scstrcat() for details. * * @param a the allocator to use * @param count the total number of strings to concatenate * @param s1 first string * @param ... all remaining strings * @return the concatenated string */ sstr_t scstrcat_a(UcxAllocator *a, size_t count, scstr_t s1, ...); /** * Alias for scstrcat_a() which automatically converts the arguments. * * See sstrcat() for details. * * @param a the allocator to use * @param count the total number of strings to concatenate * @param s1 first string * @param ... all remaining strings * @return the concatenated string */ #define sstrcat_a(a, count, s1, ...) \ scstrcat_a(a, count, SCSTR(s1), __VA_ARGS__) /** * Returns a substring starting at the specified location. * * <b>Attention:</b> the new string references the same memory area as the * input string and will <b>NOT</b> be <code>NULL</code>-terminated. * Use sstrdup() to get a copy. * * @param string input string * @param start start location of the substring * @return a substring of <code>string</code> starting at <code>start</code> * * @see sstrsubsl() * @see sstrchr() */ sstr_t sstrsubs(sstr_t string, size_t start); /** * Returns a substring with a maximum length starting at the specified location. * * <b>Attention:</b> the new string references the same memory area as the * input string and will <b>NOT</b> be <code>NULL</code>-terminated. * Use sstrdup() to get a copy. * * @param string input string * @param start start location of the substring * @param length the maximum length of the substring * @return a substring of <code>string</code> starting at <code>start</code> * with a maximum length of <code>length</code> * * @see sstrsubs() * @see sstrchr() */ sstr_t sstrsubsl(sstr_t string, size_t start, size_t length); /** * Returns a substring of an immutable string starting at the specified * location. * * <b>Attention:</b> the new string references the same memory area as the * input string and will <b>NOT</b> be <code>NULL</code>-terminated. * Use scstrdup() to get a copy. * * @param string input string * @param start start location of the substring * @return a substring of <code>string</code> starting at <code>start</code> * * @see scstrsubsl() * @see scstrchr() */ scstr_t scstrsubs(scstr_t string, size_t start); /** * Returns a substring of an immutable string with a maximum length starting * at the specified location. * * <b>Attention:</b> the new string references the same memory area as the * input string and will <b>NOT</b> be <code>NULL</code>-terminated. * Use scstrdup() to get a copy. * * @param string input string * @param start start location of the substring * @param length the maximum length of the substring * @return a substring of <code>string</code> starting at <code>start</code> * with a maximum length of <code>length</code> * * @see scstrsubs() * @see scstrchr() */ scstr_t scstrsubsl(scstr_t string, size_t start, size_t length); /** * Returns a substring starting at the location of the first occurrence of the * specified character. * * If the string does not contain the character, an empty string is returned. * * @param string the string where to locate the character * @param chr the character to locate * @return a substring starting at the first location of <code>chr</code> * * @see sstrsubs() */ sstr_t sstrchr(sstr_t string, int chr); /** * Returns a substring starting at the location of the last occurrence of the * specified character. * * If the string does not contain the character, an empty string is returned. * * @param string the string where to locate the character * @param chr the character to locate * @return a substring starting at the last location of <code>chr</code> * * @see sstrsubs() */ sstr_t sstrrchr(sstr_t string, int chr); /** * Returns an immutable substring starting at the location of the first * occurrence of the specified character. * * If the string does not contain the character, an empty string is returned. * * @param string the string where to locate the character * @param chr the character to locate * @return a substring starting at the first location of <code>chr</code> * * @see scstrsubs() */ scstr_t scstrchr(scstr_t string, int chr); /** * Returns an immutable substring starting at the location of the last * occurrence of the specified character. * * If the string does not contain the character, an empty string is returned. * * @param string the string where to locate the character * @param chr the character to locate * @return a substring starting at the last location of <code>chr</code> * * @see scstrsubs() */ scstr_t scstrrchr(scstr_t string, int chr); /** * Returns a substring starting at the location of the first occurrence of the * specified string. * * If the string does not contain the other string, an empty string is returned. * * If <code>match</code> is an empty string, the complete <code>string</code> is * returned. * * @param string the string to be scanned * @param match string containing the sequence of characters to match * @return a substring starting at the first occurrence of * <code>match</code>, or an empty string, if the sequence is not * present in <code>string</code> */ sstr_t scstrsstr(sstr_t string, scstr_t match); /** * Alias for scstrsstr() which automatically converts the match string. * * @param string the string to be scanned * @param match string containing the sequence of characters to match * @return a substring starting at the first occurrence of * <code>match</code>, or an empty string, if the sequence is not * present in <code>string</code> */ #define sstrstr(string, match) scstrsstr(string, SCSTR(match)) /** * Returns an immutable substring starting at the location of the * first occurrence of the specified immutable string. * * If the string does not contain the other string, an empty string is returned. * * If <code>match</code> is an empty string, the complete <code>string</code> is * returned. * * @param string the string to be scanned * @param match string containing the sequence of characters to match * @return a substring starting at the first occurrence of * <code>match</code>, or an empty string, if the sequence is not * present in <code>string</code> */ scstr_t scstrscstr(scstr_t string, scstr_t match); /** * Alias for scstrscstr() which automatically converts the match string. * * @param string the string to be scanned * @param match string containing the sequence of characters to match * @return a substring starting at the first occurrence of * <code>match</code>, or an empty string, if the sequence is not * present in <code>string</code> */ #define sstrscstr(string, match) scstrscstr(string, SCSTR(match)) /** * Splits a string into parts by using a delimiter string. * * This function will return <code>NULL</code>, if one of the following happens: * <ul> * <li>the string length is zero</li> * <li>the delimeter length is zero</li> * <li>the string equals the delimeter</li> * <li>memory allocation fails</li> * </ul> * * The integer referenced by <code>count</code> is used as input and determines * the maximum size of the resulting array, i.e. the maximum count of splits to * perform + 1. * * The integer referenced by <code>count</code> is also used as output and is * set to * <ul> * <li>-2, on memory allocation errors</li> * <li>-1, if either the string or the delimiter is an empty string</li> * <li>0, if the string equals the delimiter</li> * <li>1, if the string does not contain the delimiter</li> * <li>the count of array items, otherwise</li> * </ul> * * If the string starts with the delimiter, the first item of the resulting * array will be an empty string. * * If the string ends with the delimiter and the maximum list size is not * exceeded, the last array item will be an empty string. * In case the list size would be exceeded, the last array item will be the * remaining string after the last split, <i>including</i> the terminating * delimiter. * * <b>Attention:</b> The array pointer <b>AND</b> all sstr_t.ptr of the array * items must be manually passed to <code>free()</code>. Use sstrsplit_a() with * an allocator to managed memory, to avoid this. * * @param string the string to split * @param delim the delimiter string * @param count IN: the maximum size of the resulting array (0 = no limit), * OUT: the actual size of the array * @return a sstr_t array containing the split strings or * <code>NULL</code> on error * * @see scstrsplit_a() */ sstr_t* scstrsplit(scstr_t string, scstr_t delim, ssize_t *count); /** * Alias for scstrsplit() which automatically converts the arguments. * * @param string the string to split * @param delim the delimiter string * @param count IN: the maximum size of the resulting array (0 = no limit), * OUT: the actual size of the array * @return a sstr_t array containing the split strings or * <code>NULL</code> on error * * @see sstrsplit_a() */ #define sstrsplit(string, delim, count) \ scstrsplit(SCSTR(string), SCSTR(delim), count) /** * Performing scstrsplit() using a UcxAllocator. * * <i>Read the description of scstrsplit() for details.</i> * * The memory for the sstr_t.ptr pointers of the array items and the memory for * the sstr_t array itself are allocated by using the UcxAllocator.malloc() * function. * * <b>Note:</b> the allocator is not used for memory that is freed within the * same call of this function (locally scoped variables). * * @param allocator the UcxAllocator used for allocating memory * @param string the string to split * @param delim the delimiter string * @param count IN: the maximum size of the resulting array (0 = no limit), * OUT: the actual size of the array * @return a sstr_t array containing the split strings or * <code>NULL</code> on error * * @see scstrsplit() */ sstr_t* scstrsplit_a(UcxAllocator *allocator, scstr_t string, scstr_t delim, ssize_t *count); /** * Alias for scstrsplit_a() which automatically converts the arguments. * * @param allocator the UcxAllocator used for allocating memory * @param string the string to split * @param delim the delimiter string * @param count IN: the maximum size of the resulting array (0 = no limit), * OUT: the actual size of the array * @return a sstr_t array containing the split strings or * <code>NULL</code> on error * * @see sstrsplit() */ #define sstrsplit_a(allocator, string, delim, count) \ scstrsplit_a(allocator, SCSTR(string), SCSTR(delim), count) /** * Compares two UCX strings with standard <code>memcmp()</code>. * * At first it compares the scstr_t.length attribute of the two strings. The * <code>memcmp()</code> function is called, if and only if the lengths match. * * @param s1 the first string * @param s2 the second string * @return -1, if the length of s1 is less than the length of s2 or 1, if the * length of s1 is greater than the length of s2 or the result of * <code>memcmp()</code> otherwise (i.e. 0 if the strings match) */ int scstrcmp(scstr_t s1, scstr_t s2); /** * Alias for scstrcmp() which automatically converts its arguments. * * @param s1 the first string * @param s2 the second string * @return -1, if the length of s1 is less than the length of s2 or 1, if the * length of s1 is greater than the length of s2 or the result of * <code>memcmp()</code> otherwise (i.e. 0 if the strings match) */ #define sstrcmp(s1, s2) scstrcmp(SCSTR(s1), SCSTR(s2)) /** * Compares two UCX strings ignoring the case. * * At first it compares the scstr_t.length attribute of the two strings. If and * only if the lengths match, both strings are compared char by char ignoring * the case. * * @param s1 the first string * @param s2 the second string * @return -1, if the length of s1 is less than the length of s2 or 1, if the * length of s1 is greater than the length of s2 or the result of the platform * specific string comparison function ignoring the case. */ int scstrcasecmp(scstr_t s1, scstr_t s2); /** * Alias for scstrcasecmp() which automatically converts the arguments. * * @param s1 the first string * @param s2 the second string * @return -1, if the length of s1 is less than the length of s2 or 1, if the * length of s1 is greater than the length of s2 or the result of the platform * specific string comparison function ignoring the case. */ #define sstrcasecmp(s1, s2) scstrcasecmp(SCSTR(s1), SCSTR(s2)) /** * Creates a duplicate of the specified string. * * The new sstr_t will contain a copy allocated by standard * <code>malloc()</code>. So developers <b>MUST</b> pass the sstr_t.ptr to * <code>free()</code>. * * The sstr_t.ptr of the return value will <i>always</i> be <code>NULL</code>- * terminated and mutable, regardless of the argument. * * @param string the string to duplicate * @return a duplicate of the string * @see scstrdup_a() */ sstr_t scstrdup(scstr_t string); /** * Alias for scstrdup() which automatically converts the argument. * * @param string the string to duplicate * @return a duplicate of the string * @see sstrdup_a() */ #define sstrdup(string) scstrdup(SCSTR(string)) /** * Creates a duplicate of the specified string using a UcxAllocator. * * The new sstr_t will contain a copy allocated by the allocators * UcxAllocator.malloc() function. So it is implementation depended, whether the * returned sstr_t.ptr pointer must be passed to the allocators * UcxAllocator.free() function manually. * * The sstr_t.ptr of the return value will <i>always</i> be <code>NULL</code>- * terminated and mutable, regardless of the argument. * * @param allocator a valid instance of a UcxAllocator * @param string the string to duplicate * @return a duplicate of the string * @see scstrdup() */ sstr_t scstrdup_a(UcxAllocator *allocator, scstr_t string); /** * Alias for scstrdup_a() which automatically converts the argument. * * @param allocator a valid instance of a UcxAllocator * @param string the string to duplicate * @return a duplicate of the string * @see scstrdup() */ #define sstrdup_a(allocator, string) scstrdup_a(allocator, SCSTR(string)) /** * Omits leading and trailing spaces. * * This function returns a new sstr_t containing a trimmed version of the * specified string. * * <b>Note:</b> the new sstr_t references the same memory, thus you * <b>MUST NOT</b> pass the sstr_t.ptr of the return value to * <code>free()</code>. It is also highly recommended to avoid assignments like * <code>mystr = sstrtrim(mystr);</code> as you lose the reference to the * source string. Assignments of this type are only permitted, if the * sstr_t.ptr of the source string does not need to be freed or if another * reference to the source string exists. * * @param string the string that shall be trimmed * @return a new sstr_t containing the trimmed string */ sstr_t sstrtrim(sstr_t string); /** * Omits leading and trailing spaces. * * This function returns a new scstr_t containing a trimmed version of the * specified string. * * <b>Note:</b> the new scstr_t references the same memory, thus you * <b>MUST NOT</b> pass the scstr_t.ptr of the return value to * <code>free()</code>. It is also highly recommended to avoid assignments like * <code>mystr = scstrtrim(mystr);</code> as you lose the reference to the * source string. Assignments of this type are only permitted, if the * scstr_t.ptr of the source string does not need to be freed or if another * reference to the source string exists. * * @param string the string that shall be trimmed * @return a new scstr_t containing the trimmed string */ scstr_t scstrtrim(scstr_t string); /** * Checks, if a string has a specific prefix. * @param string the string to check * @param prefix the prefix the string should have * @return 1, if and only if the string has the specified prefix, 0 otherwise */ int scstrprefix(scstr_t string, scstr_t prefix); /** * Alias for scstrprefix() which automatically converts the arguments. * * @param string the string to check * @param prefix the prefix the string should have * @return 1, if and only if the string has the specified prefix, 0 otherwise */ #define sstrprefix(string, prefix) scstrprefix(SCSTR(string), SCSTR(prefix)) /** * Checks, if a string has a specific suffix. * @param string the string to check * @param suffix the suffix the string should have * @return 1, if and only if the string has the specified suffix, 0 otherwise */ int scstrsuffix(scstr_t string, scstr_t suffix); /** * Alias for scstrsuffix() which automatically converts the arguments. * * @param string the string to check * @param suffix the suffix the string should have * @return 1, if and only if the string has the specified suffix, 0 otherwise */ #define sstrsuffix(string, suffix) scstrsuffix(SCSTR(string), SCSTR(suffix)) /** * Returns a lower case version of a string. * * This function creates a duplicate of the input string, first. See the * documentation of scstrdup() for the implications. * * @param string the input string * @return the resulting lower case string * @see scstrdup() */ sstr_t scstrlower(scstr_t string); /** * Alias for scstrlower() which automatically converts the argument. * * @param string the input string * @return the resulting lower case string */ #define sstrlower(string) scstrlower(SCSTR(string)) /** * Returns a lower case version of a string. * * This function creates a duplicate of the input string, first. See the * documentation of scstrdup_a() for the implications. * * @param allocator the allocator used for duplicating the string * @param string the input string * @return the resulting lower case string * @see scstrdup_a() */ sstr_t scstrlower_a(UcxAllocator *allocator, scstr_t string); /** * Alias for scstrlower_a() which automatically converts the argument. * * @param allocator the allocator used for duplicating the string * @param string the input string * @return the resulting lower case string */ #define sstrlower_a(allocator, string) scstrlower_a(allocator, SCSTR(string)) /** * Returns a upper case version of a string. * * This function creates a duplicate of the input string, first. See the * documentation of scstrdup() for the implications. * * @param string the input string * @return the resulting upper case string * @see scstrdup() */ sstr_t scstrupper(scstr_t string); /** * Alias for scstrupper() which automatically converts the argument. * * @param string the input string * @return the resulting upper case string */ #define sstrupper(string) scstrupper(SCSTR(string)) /** * Returns a upper case version of a string. * * This function creates a duplicate of the input string, first. See the * documentation of scstrdup_a() for the implications. * * @param allocator the allocator used for duplicating the string * @param string the input string * @return the resulting upper case string * @see scstrdup_a() */ sstr_t scstrupper_a(UcxAllocator *allocator, scstr_t string); /** * Alias for scstrupper_a() which automatically converts the argument. * * @param allocator the allocator used for duplicating the string * @param string the input string * @return the resulting upper case string */ #define sstrupper_a(allocator, string) scstrupper_a(allocator, string) #ifdef __cplusplus } #endif #endif /* UCX_STRING_H */