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Initialize Char Array in C

Created: February-01, 2021 | Updated: February-07, 2021

  1. Use {} Curly Braced List Notation to Initialize a char Array in C
  2. Use String Assignment to Initialize a char Array in C
  3. Use {{ }} Double Curly Braces to Initialize 2D char Array in C

This article will demonstrate multiple methods of how to initialize a char array in C.

Use {} Curly Braced List Notation to Initialize a char Array in C

A char array is mostly declared as a fixed-sized structure and often initialized immediately. Curly braced list notation is one of the available methods to initialize the char array with constant values. It's possible to specify only the portion of the elements in the curly braces as the remainder of chars is implicitly initialized with a null byte value. It can be useful if the char array needs to be printed as a character string. Since there's a null byte character guaranteed to be stored at the end of valid characters, then the printf function can be efficiently utilized with the %s format string specifier to output the array's content.

              #include <stdlib.h> #include <string.h> #include <stdio.h>  void printCharArray(char *arr, size_t len) {     printf("arr: ");     for (int i = 0; i < len; ++i) {         printf("%c, ", arr[i]);     }     printf("\n"); }  enum {LENGTH = 21, HEIGHT = 5};  int main(){     char c_arr[LENGTH] = {'a', 'b', 'c', 'd', 'e', 'f', 'g'};     printCharArray(c_arr, LENGTH);      exit(EXIT_SUCCESS); }                          

Output:

              arr: a, b, c, d, e, f, g, , , , , , , , , , , , , , ,                          

Use String Assignment to Initialize a char Array in C

Another useful method to initialize a char array is to assign a string value in the declaration statement. The string literal should have fewer characters than the length of the array; otherwise, there will be only part of the string stored and no terminating null character at the end of the buffer. Thus, if the user will try to print the array's content with the %s specifier, it might access the memory region after the last character and probably will throw a fault.

Note that c_arr has a length of 21 characters and is initialized with a 20 char long string. As a result, the 21st character in the array is guaranteed to be \0 byte, making the contents a valid character string.

              #include <stdlib.h> #include <string.h> #include <stdio.h>  void printCharArray(char *arr, size_t len) {     printf("arr: ");     for (size_t i = 0; i < len; ++i) {         printf("%c, ", arr[i]);     }     printf("\n"); }  enum {LENGTH = 21, HEIGHT = 5};  int main(){     char c_arr[LENGTH] = "array initialization";     char c_arr2[LENGTH] = "array initialization.f";     printCharArray(c_arr, LENGTH);     printCharArray(c_arr2, LENGTH);     printf("%s\n", c_arr);     printf("%s\n", c_arr2);      exit(EXIT_SUCCESS); }                          

Output:

              arr: a, r, r, a, y,  , i, n, i, t, i, a, l, i, z, a, t, i, o, n,  , arr: a, r, r, a, y,  , i, n, i, t, i, a, l, i, z, a, t, i, o, n, ., array initialization array initialization.//garbage values//                          

Use {{ }} Double Curly Braces to Initialize 2D char Array in C

The curly braced list can also be utilized to initialize two-dimensional char arrays. In this case, we declare a 5x5 char array and include five braced strings inside the outer curly braces. Note that each string literal in this example initializes the five-element rows of the matrix. The content of this two-dimensional array can't be printed with %s specifier as the length of each row matches the length of the string literals; thus, there's no terminating null byte stored implicitly during the initialization. Usually, the compiler will warn if the string literals are larger than the array rows.

              #include <stdlib.h> #include <string.h> #include <stdio.h>  enum {LENGTH = 5, HEIGHT = 5};  int main(){     char c_arr[HEIGHT][HEIGHT] = { {"hello"}, {"there"}, {"multi"}, {"dimen"}, {"sion."} };      for (size_t i = 0; i < HEIGHT; ++i) {         for (size_t j = 0; j < HEIGHT; ++j) {             printf("%c, ", c_arr[i][j]);         }         printf("\n");     }     printf("\n");      exit(EXIT_SUCCESS); }                          

Output:

              h, e, l, l, o, t, h, e, r, e, m, u, l, t, i, d, i, m, e, n, s, i, o, n, .,                          

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