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Character Arrays and Strings

Character Arrays and Strings. Strings. A group of characters can be stored in an array namely called as character arrays. Character arrays can also be called as strings. A string constant is a one dimensional array of characters terminated by a null(‘’).

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Character Arrays and Strings

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  1. Character Arrays and Strings

  2. Strings • A group of characters can be stored in an array namely called as character arrays. • Character arrays can also be called as strings. • A string constant is a one dimensional array of characters terminated by a null(‘\0’).

  3. The general form of declaring a string variable is: char string_name[size]; • The size determines the number of characters in the string_name. Ex: char city[10]; char name[30]; • C permits a character array to be initialized in either of the following two forms: char city[9]=“NEW YORK”; char city[9]={‘N’,’E’,’W’,’ ‘,’Y’,’O’,’R’,’K’,’\0’};

  4. Ex: char n[]={‘H’,’E’,’L’,’L’,’O’,’\0’}; • Each character in the array occupies one byte of memory and the last character is always ‘\0’. • ‘\0’ is a null character. • The terminating null ‘\0’ is important because it is the only way the functions that work with a string can know where the string ends. char n[]=“HELLO”; • C inserts the null character automatically.

  5. We can also declare the size much larger than the string size in the initializer. Ex: char str[10]=“Good”; • This creates a character array of size 10, places the value “Good” in it, terminates with the null character, and initializes all other elements to NULL. • However, the following declaration is illegal. Ex: char str2[3]=“Good”;

  6. We cannot separate the initialization from declaration. Ex: char str3[5]; str3=“Good”; is not allowed. • Similarly, char s1[4]=“abc”; char s2[4]; s2=s1; /* Error */

  7. Reading string from terminal • The function scanf can be used with %s format specification to read in a string of characters. Ex: char address[10]. scanf(“%s”,address); • In case of character arrays, the ampersand(&) is not required before the variable name. • The problem with scanf is that it terminates its input on the first white it finds.

  8. The %s used in printf() is a format specification for printing out a string and to receive a string from the keyboard. • scanf() is not capable of receiving multi-word strings. • The way to get around the limitation is to use the functions gets() and puts().

  9. Using getchar and gets functions getchar(): • The getchar function call takes the form: char ch; ch=getchar(); • getchar function has no parameters. gets function: • It is a library function available in the <stdio.h>. • It takes one parameter and called as under gets(str);

  10. Writing strings to screen Using printf function: printf(%s,name); • Can be used to display the entire contents of the array name. • We can also specify the precision with which the array is displayed. Ex: printf(“%10.4s”,name); • Indicates that the four characters are to be printed in a field width of 10 columns.

  11. Using putchar and puts functions putchar(): • It takes the following form: char ch=‘A’; putchar(ch); • It requires one parameter. puts(): • It is a library function available in <stdio.h> • This a one parameter function and is invoked as under: puts(str); Where str is a string variable containing a string value.

  12. Arithmetic operations on characters • C allows us to manipulate characters the same way we do with numbers. Ex: x=‘a’; printf(“%d\n”,x); • The c library supports a function that converts a string of digits into their integer values. • The function takes the following form: x=atoi(string); String conversion functions are stored in the header file <stdlib.h>

  13. Pointers and strings: • Suppose we wish to store “Hello”. • We may either store it in a string or we may ask the C compiler to store it at some location in memory and assign the address of the string in a char pointer. char str[]=“Hello”; char *p=“Hello”; • We cannot assign a string to another. But, we can assign a char pointer to another char pointer.

  14. strcat() function: The strcat function joins two strings together. It takes the following form: strcat(string1,string2); String1 and string2 are character arrays. When the function strcat is executed, string2 is appended to string1. It does so by removing the null character at the end of string1 and placing string2 from there.

  15. strcat function may also append a string constant to a string variable. • The following is valid. strcat(part1,”Good”); • C permits nesting of strcat functions. Ex: strcat(strcat(string1,string2),string3);

  16. strcmp() function: • The strcmp function compares two strings identified by the arguments and has the value 0 if they are equal. • If they are not, it has the numeric difference between the first non matching characters in the strings. • It takes the following form: strcmp(string1,string2);

  17. String1 and string2 may be string variables or string constants. Ex: strcmp(name1,name2); strcmp(name1,”John”); strcmp(“their” ,”there”);

  18. strcpy() function: • It takes the following form: strcpy(string1,string2); and assign the contents of string2 to string1. • String2 may be a character array variable or a string constant. Ex: strcpy(city ,”delhi”); strcpy(city1,city2);

  19. strlen() function: • This function counts and returns the number of characters in a string. • It takes the form n=strlen(string); • Where n is an integer variable, which receives the value of the length of the string. • The counting ends at the first null character.

  20. strncpy() functions: • This function copies only the left-most n characters of the source string to the target string variable. • This a three-parameter function and is invoked as follows: Ex: strncpy(s1,s2,5);

  21. Strncmp() function: • This function has three parameters as shown below: strncmp(s1,s2,n); • This compares the left-most n characters of s1 to s2 and returns • 0 if they are equal. • negative number, if s1 substring is less than s2, and • Positive number, otherwise.

  22. Strncat() function: • It takes the following form: strncat(s1,s2,n); • This call will concatenate the left-most n characters of s2 to the end of s1. Ex: s1: hello s2:world after strncat(s1,s2,5) s1:helloworld

  23. strstr() function: • It is a two-parameter function that can be used to locate a sub-string in a string. • It takes the form: strstr(s1,s2); strstr(s1,”ABC”); • The function strstr searches the string s1 to see whether the string s2 is contained in s1. • If yes, the function returns the position of the first occurrence of the sub-string. • Otherwise, it returns a NULL pointer.

  24. Ex: if(strstr(s1,s2)==NULL) printf(“substring not found”); else printf(“s2 is a substring of s1”); • We also have the functions to determine the existence of a character in a string. Ex: strchr(s1,’m’); • Will locate the first occurrence of the character ‘m’. Ex: strrchr(s2,’m’); • will locate the last occurrence of the character ‘m’.

  25. Standard Library String Functions Function Use strlen Finds length of a string. strlwr Converts a string to lowercase. strupr Converts a string to uppercase. strcat Appends one string at the end of another. strncat Appends first n characters of a string at the end of another. strcpy copies a string into another.

  26. Function Use strncpy copies first n characters of one string into another. strcmp compares two strings. strncmp compares first n characters of two strings. strcmpi compares two strings without regard to case. stricmp identical to strcmpi.

  27. Function Use strnicmp Compares first n characters of two strings without regard to case. strdup Duplicates a string. strchr Finds first occurrence of a given character in a string. strrchr Finds last occurrence of a given character in a string. strstr Finds first occurrence of a given string in a string.

  28. Function Use strset Sets all characters of string to a given character. strnset Sets first n characters of a string to a given character. strrev Reverses string.

  29. Two dimensional array of characters • It can be initialized as follows: type variable-name[][]; • The first subscript gives the number of names in the array. • The second subscript gives the length of each item in the array. Ex: char list[6][10]={ “akshay”, “parag”, “raman”, “srinivas”, “gopal”, “rajesh” };

  30. The names would be stored in the memory as shown in fig: s 65454 a k h a y \0 65464 p r a \0 a g 65474 a a n \0 r m 65484 i s \0 s r n i v a a \0 g o p l 65494 s h r a j e \0 65504

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