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It is important to preserve the NULL terminating character as it is how C defines and manages variable length strings. All the C standard library functions require this for successful operation.
In general, apart from some length-restricted functions ( strncat(), strncmp,() and strncpy()), unless you create strings by hand you should not encounter any such problems, . You should use the many useful string handling functions and not really need to get your hands dirty dismantling and assembling strings.
All the string handling functions are prototyped in:
#include <string.h>
The common functions are described below:
char *stpcpy (const char *dest,const char *src)
-- Copy one
string into another.
int strcmp(const char *string1,const char *string2)
-
Compare string1 and string2 to determine alphabetic order.
char *strcpy(const char *string1,const char *string2)
-- Copy string2 to stringl.
char *strerror(int errnum)
-- Get error message corresponding
to specified error number.
int strlen(const char *string)
-- Determine the length of
a string.
char *strncat(const char *string1, char *string2, size_t n)
--
Append n characters from string2 to stringl.
int strncmp(const char *string1, char *string2, size_t n)
--
Compare first n characters of two strings.
char *strncpy(const char *string1,const char *string2, size_t n)
-- Copy first n characters of string2 to stringl .
int strcasecmp(const char *s1, const char *s2)
-- case
insensitive version of strcmp().
int strncasecmp(const char *s1, const char *s2, int n)
-- case
insensitive version of strncmp().
The use of most of the functions is straightforward, for example:
char *str1 = "HELLO"; char *str2; int length; length = strlen("HELLO"); /* length = 5 */ (void) strcpy(str2,str1);
Note that both strcat() and strcopy() both return a copy of their first argument which is the destination array. Note the order of the arguments is destination array followed by source array which is sometimes easy to get the wrong around when programming.
The strcmp() function lexically compares the two input strings and returns:
This can also confuse beginners and experience programmers forget this too.
The strncat(), strncmp,() and strncpy() copy functions are string restricted version of their more general counterparts. They perform a similar task but only up to the first n characters. Note the the NULL terminated requirement may get violated when using these functions, for example:
char *str1 = "HELLO"; char *str2; int length = 2; (void) strcpy(str2,str1, length); /* str2 = "HE" */
str2 is NOT NULL TERMINATED!! -- BEWARE
The library also provides several string searching functions:
char *strchr(const char *string, int c)
-- Find first
occurrence of character c in string.
char *strrchr(const char *string, int c)
-- Find last
occurrence of character c in string.
char *strstr(const char *s1, const char *s2)
-- locates
the first occurrence of the string s2
in string s1.
char *strpbrk(const char *s1, const char *s2)
-- returns a pointer to the first occurrence in
string s1 of any character from string s2, or a null pointer
if no character from s2 exists in s1
size_t strspn(const char *s1, const char *s2)
--
returns the number of characters at the begining of s1 that match
s2.
size_t strcspn(const char *s1, const char *s2)
--
returns the number of characters at the begining of s1 that do
not match s2.
char *strtok(char *s1, const char *s2)
-- break the
string pointed to by s1
into a sequence of tokens, each of which is delimited by one
or more characters from the string pointed to by s2.
char *strtok_r(char *s1, const char *s2, char **lasts)
-- has the same functionality as strtok() except
that a pointer to a string placeholder lasts must be supplied by the caller.
strchr() and strrchr() are the simplest to use, for example:
char *str1 = "Hello"; char *ans; ans = strchr(str1,'l');
After this execution, ans points to the location str1 + 2
strpbrk() is a more general function that searches for the first occurrence of any of a group of characters, for example:
char *str1 = "Hello"; char *ans; ans = strpbrk(str1,'aeiou');
Here, ans points to the location str1 + 1, the location of the first e.
strstr() returns a pointer to the specified search string or a null pointer if the string is not found. If s2 points to a string with zero length (that is, the string ""), the function returns s1. For example,
char *str1 = "Hello"; char *ans; ans = strstr(str1,'lo');
will yield ans = str + 3.
strtok() is a little more complicated in operation. If the first argument is not NULL then the function finds the position of any of the second argument characters. However, the position is remembered and any subsequent calls to strtok() will start from this position if on these subsequent calls the first argument is NULL. For example, If we wish to break up the string str1 at each space and print each token on a new line we could do:
char *str1 = "Hello Big Boy"; char *t1; for ( t1 = strtok(str1," "); t1 != NULL; t1 = strtok(NULL, " ") ) printf("%s\n",t1);
Here we use the for loop in a non-standard counting fashion:
We conclude this chapter with a related library #include <ctype.h>
which contains many useful functions to convert and test single
characters. The common functions are prototypes as follows:
Character testing:
int isalnum(int c)
-- True if c is alphanumeric.
int isalpha(int c)
-- True if c is a letter.
int isascii(int c)
-- True if c is ASCII .
int iscntrl(int c)
-- True if c is a control character.
int isdigit(int c)
-- True if c is a decimal digit
int isgraph(int c)
-- True if c is a graphical character.
int islower(int c)
-- True if c is a lowercase letter
int isprint(int c)
-- True if c is a printable character
int ispunct (int c)
-- True if c is a punctuation
character.
int isspace(int c)
-- True if c is a space character.
int isupper(int c)
-- True if c is an uppercase letter.
int isxdigit(int c)
-- True if c is a hexadecimal digit
Character Conversion:
int toascii(int c)
-- Convert c to ASCII .
tolower(int c)
-- Convert c to lowercase.
int toupper(int c)
-- Convert c to uppercase.
The use of these functions is straightforward and we do not give examples here.
Finally we briefly overview some basic memory operations.
Although not strictly string functions the functions are prototyped in
#include <string.h>
:
void *memchr (void *s, int c, size_t n)
-- Search for a character in
a buffer .
int memcmp (void *s1, void *s2, size_t n)
-- Compare two
buffers.
void *memcpy (void *dest, void *src, size_t n)
-- Copy one
buffer into another .
void *memmove (void *dest, void *src, size_t n)
-- Move a
number of bytes from one buffer lo another.
void *memset (void *s, int c, size_t n)
-- Set all bytes of
a buffer to a given character.
Their use is fairly straightforward and not dissimilar to comparable string operations (except the exact length (n) of the operations must be specified as there is no natural termination here).
Note that in all case to bytes of memory are copied. The sizeof() function comes in handy again here, for example:
char src[SIZE],dest[SIZE]; int isrc[SIZE],idest[SIZE]; memcpy(dest,src, SIZE); /* Copy chars (bytes) ok */ memcpy(idest,isrc, SIZE*sizeof(int)); /* Copy arrays of ints */
memmove() behaves in exactly the same way as memcpy() except that the source and destination locations may overlap.
memcmp() is similar to strcmp() except here unsigned bytes are compared and returns less than zero if s1 is less than s2 etc.
Exercise 12584
Write a function similar to strlen that can handle unterminated strings. Hint: you will need to know and pass in the length of the string.
Exercise 12585
Write a function that returns true if an input string is a palindrome of each other. A palindrome is a word that reads the same backwards as it does forwards e.g ABBA.
Exercise 12586
Suggest a possible implementation of the strtok() function:
How is the storage of the tokenised string achieved?
Exercise 12587
Write a function that converts all characters of an input string to upper case characters.
Exercise 12591
Write a program that will reverse the contents stored in memory in bytes. That is to say if we have n bytes in memory byte n becomes byte 0, byte n-1 becomes byte 1 etc.