3 /* 7.20 General utilities <stdlib.h>
5 This file is part of the Public Domain C Library (PDCLib).
6 Permission is granted to use, modify, and / or redistribute at will.
9 #ifndef _PDCLIB_STDLIB_H
10 #define _PDCLIB_STDLIB_H _PDCLIB_STDLIB_H
11 #include <_PDCLIB_int.h>
12 _PDCLIB_BEGIN_EXTERN_C
14 #ifndef _PDCLIB_SIZE_T_DEFINED
15 #define _PDCLIB_SIZE_T_DEFINED _PDCLIB_SIZE_T_DEFINED
16 typedef _PDCLIB_size_t size_t;
19 #ifndef _PDCLIB_NULL_DEFINED
20 #define _PDCLIB_NULL_DEFINED _PDCLIB_NULL_DEFINED
21 #define NULL _PDCLIB_NULL
24 #ifndef _PDCLIB_MB_CUR_MAX_DEFINED
25 #define _PDCLIB_MB_CUR_MAX_DEFINED
26 #define MB_CUR_MAX (_PDCLIB_mb_cur_max())
29 /* Numeric conversion functions */
31 /* TODO: atof(), strtof(), strtod(), strtold() */
33 double atof( const char * nptr ) _PDCLIB_nothrow;
34 double strtod( const char * _PDCLIB_restrict nptr, char * * _PDCLIB_restrict endptr ) _PDCLIB_nothrow;
35 float strtof( const char * _PDCLIB_restrict nptr, char * * _PDCLIB_restrict endptr ) _PDCLIB_nothrow;
36 long double strtold( const char * _PDCLIB_restrict nptr, char * * _PDCLIB_restrict endptr ) _PDCLIB_nothrow;
38 /* Seperate the character array nptr into three parts: A (possibly empty)
39 sequence of whitespace characters, a character representation of an integer
40 to the given base, and trailing invalid characters (including the terminating
41 null character). If base is 0, assume it to be 10, unless the integer
42 representation starts with 0x / 0X (setting base to 16) or 0 (setting base to
43 8). If given, base can be anything from 0 to 36, using the 26 letters of the
44 base alphabet (both lowercase and uppercase) as digits 10 through 35.
45 The integer representation is then converted into the return type of the
46 function. It can start with a '+' or '-' sign. If the sign is '-', the result
47 of the conversion is negated.
48 If the conversion is successful, the converted value is returned. If endptr
49 is not a NULL pointer, a pointer to the first trailing invalid character is
51 If no conversion could be performed, zero is returned (and nptr in *endptr,
52 if endptr is not a NULL pointer). If the converted value does not fit into
53 the return type, the functions return LONG_MIN, LONG_MAX, ULONG_MAX,
54 LLONG_MIN, LLONG_MAX, or ULLONG_MAX respectively, depending on the sign of
55 the integer representation and the return type, and errno is set to ERANGE.
57 /* There is strtoimax() and strtoumax() in <inttypes.h> operating on intmax_t /
58 uintmax_t, if the long long versions do not suit your needs.
60 long int strtol( const char * _PDCLIB_restrict nptr, char * * _PDCLIB_restrict endptr, int base ) _PDCLIB_nothrow;
61 long long int strtoll( const char * _PDCLIB_restrict nptr, char * * _PDCLIB_restrict endptr, int base ) _PDCLIB_nothrow;
62 unsigned long int strtoul( const char * _PDCLIB_restrict nptr, char * * _PDCLIB_restrict endptr, int base ) _PDCLIB_nothrow;
63 unsigned long long int strtoull( const char * _PDCLIB_restrict nptr, char * * _PDCLIB_restrict endptr, int base ) _PDCLIB_nothrow;
65 /* These functions are the equivalent of (int)strtol( nptr, NULL, 10 ),
66 strtol( nptr, NULL, 10 ) and strtoll(nptr, NULL, 10 ) respectively, with the
67 exception that they do not have to handle overflow situations in any defined
69 (PDCLib does not simply forward these to their strtox() equivalents, but
70 provides a simpler atox() function that saves a couple of tests and simply
71 continues with the conversion in case of overflow.)
73 int atoi( const char * nptr ) _PDCLIB_nothrow;
74 long int atol( const char * nptr ) _PDCLIB_nothrow;
75 long long int atoll( const char * nptr ) _PDCLIB_nothrow;
77 /* Pseudo-random sequence generation functions */
79 extern unsigned long int _PDCLIB_seed;
81 #define RAND_MAX 32767
83 /* Returns the next number in a pseudo-random sequence, which is between 0 and
85 (PDCLib uses the implementation suggested by the standard document, which is
86 next = next * 1103515245 + 12345; return (unsigned int)(next/65536) % 32768;)
88 int rand( void ) _PDCLIB_nothrow;
90 /* Initialize a new pseudo-random sequence with the starting seed. Same seeds
91 result in the same pseudo-random sequence. The default seed is 1.
93 void srand( unsigned int seed ) _PDCLIB_nothrow;
95 /* Memory management functions */
97 /* Allocate a chunk of heap memory of given size. If request could not be
98 satisfied, return NULL. Otherwise, return a pointer to the allocated
99 memory. Memory contents are undefined.
101 void * malloc( size_t size ) _PDCLIB_nothrow;
103 /* Allocate a chunk of heap memory that is large enough to hold nmemb elements
104 of the given size, and zero-initialize that memory. If request could not be
105 satisfied, return NULL. Otherwise, return a pointer to the allocated
108 void * calloc( size_t nmemb, size_t size ) _PDCLIB_nothrow;
110 /* De-allocate a chunk of heap memory previously allocated using malloc(),
111 calloc(), or realloc(), and pointed to by ptr. If ptr does not match a
112 pointer previously returned by the mentioned allocation functions, or
113 free() has already been called for this ptr, behaviour is undefined.
115 void free( void * ptr ) _PDCLIB_nothrow;
117 /* Resize a chunk of memory previously allocated with malloc() and pointed to
118 by ptr to the given size (which might be larger or smaller than the original
119 size). Returns a pointer to the reallocated memory, or NULL if the request
120 could not be satisfied. Note that the resizing might include a memcpy()
121 from the original location to a different one, so the return value might or
122 might not equal ptr. If size is larger than the original size, the value of
123 memory beyond the original size is undefined. If ptr is NULL, realloc()
124 behaves like malloc().
126 void * realloc( void * ptr, size_t size ) _PDCLIB_nothrow;
128 /* Communication with the environment */
130 /* These two can be passed to exit() or _Exit() as status values, to signal
131 successful and unsuccessful program termination, respectively. EXIT_SUCCESS
132 can be replaced by 0. How successful or unsuccessful program termination are
133 signaled to the environment, and what happens if exit() or _Exit() are being
134 called with a value that is neither of the three, is defined by the hosting
135 OS and its glue function.
137 #define EXIT_SUCCESS _PDCLIB_SUCCESS
138 #define EXIT_FAILURE _PDCLIB_FAILURE
140 /* Initiate abnormal process termination, unless programm catches SIGABRT and
141 does not return from the signal handler.
142 This implementantion flushes all streams, closes all files, and removes any
143 temporary files before exiting with EXIT_FAILURE.
144 abort() does not return.
146 _PDCLIB_noreturn void abort( void ) _PDCLIB_nothrow;
148 /* Register a function that will be called on exit(), or when main() returns.
149 At least 32 functions can be registered this way, and will be called in
150 reverse order of registration (last-in, first-out).
151 Returns zero if registration is successfull, nonzero if it failed.
153 int atexit( void (*func)( void ) ) _PDCLIB_nothrow;
155 /* Normal process termination. Functions registered by atexit() (see above) are
156 called, streams flushed, files closed and temporary files removed before the
157 program is terminated with the given status. (See comment for EXIT_SUCCESS
158 and EXIT_FAILURE above.)
159 exit() does not return.
161 _PDCLIB_noreturn void exit( int status ) _PDCLIB_nothrow;
163 /* Normal process termination. Functions registered by atexit() (see above) are
164 NOT CALLED. This implementation DOES flush streams, close files and removes
165 temporary files before the program is teminated with the given status. (See
166 comment for EXIT_SUCCESS and EXIT_FAILURE above.)
167 _Exit() does not return.
169 _PDCLIB_noreturn void _Exit( int status ) _PDCLIB_nothrow;
171 /* Search an environment-provided key-value map for the given key name, and
172 return a pointer to the associated value string (or NULL if key name cannot
173 be found). The value string pointed to might be overwritten by a subsequent
174 call to getenv(). The library never calls getenv() itself.
175 Details on the provided keys and how to set / change them are determined by
176 the hosting OS and its glue function.
178 char * getenv( const char * name ) _PDCLIB_nothrow;
180 /* If string is a NULL pointer, system() returns nonzero if a command processor
181 is available, and zero otherwise. If string is not a NULL pointer, it is
182 passed to the command processor. If system() returns, it does so with a
183 value that is determined by the hosting OS and its glue function.
185 int system( const char * string ) _PDCLIB_nothrow;
187 /* Searching and sorting */
189 /* Do a binary search for a given key in the array with a given base pointer,
190 which consists of nmemb elements that are of the given size each. To compare
191 the given key with an element from the array, the given function compar is
192 called (with key as first parameter and a pointer to the array member as
193 second parameter); the function should return a value less than, equal to,
194 or greater than 0 if the key is considered to be less than, equal to, or
195 greater than the array element, respectively.
196 The function returns a pointer to the first matching element found, or NULL
197 if no match is found.
201 void * bsearch( const void * key, const void * base, size_t nmemb, size_t size, int (*compar)( const void *, const void * ) );
203 /* Do a quicksort on an array with a given base pointer, which consists of
204 nmemb elements that are of the given size each. To compare two elements from
205 the array, the given function compar is called, which should return a value
206 less than, equal to, or greater than 0 if the first argument is considered
207 to be less than, equal to, or greater than the second argument, respectively.
208 If two elements are compared equal, their order in the sorted array is not
213 void qsort( void * base, size_t nmemb, size_t size, int (*compar)( const void *, const void * ) );
215 /* Integer arithmetic functions */
217 /* Return the absolute value of the argument. Note that on machines using two-
218 complement's notation (most modern CPUs), the largest negative value cannot
219 be represented as positive value. In this case, behaviour is unspecified.
221 int abs( int j ) _PDCLIB_nothrow;
222 long int labs( long int j ) _PDCLIB_nothrow;
223 long long int llabs( long long int j ) _PDCLIB_nothrow;
225 /* These structures each have a member quot and a member rem, of type int (for
226 div_t), long int (for ldiv_t) and long long it (for lldiv_t) respectively.
227 The order of the members is platform-defined to allow the div() functions
228 below to be implemented efficiently.
230 typedef struct _PDCLIB_div_t div_t;
231 typedef struct _PDCLIB_ldiv_t ldiv_t;
232 typedef struct _PDCLIB_lldiv_t lldiv_t;
234 /* Return quotient (quot) and remainder (rem) of an integer division in one of
237 div_t div( int numer, int denom ) _PDCLIB_nothrow;
238 ldiv_t ldiv( long int numer, long int denom ) _PDCLIB_nothrow;
239 lldiv_t lldiv( long long int numer, long long int denom ) _PDCLIB_nothrow;
241 /* TODO: Multibyte / wide character conversion functions */
243 /* TODO: Macro MB_CUR_MAX */
246 int mblen( const char * s, size_t n );
247 int mbtowc( wchar_t * _PDCLIB_restrict pwc, const char * _PDCLIB_restrict s, size_t n );
248 int wctomb( char * s, wchar_t wc );
249 size_t mbstowcs( wchar_t * _PDCLIB_restrict pwcs, const char * _PDCLIB_restrict s, size_t n );
250 size_t wcstombs( char * _PDCLIB_restrict s, const wchar_t * _PDCLIB_restrict pwcs, size_t n );