I am trying to create an array of strings in C. If I use this code:

char (*a[2])[14];

gcc gives me "warning: assignment from incompatible pointer type". What is the correct way to do this?

edit: I am curious why this should give a compiler warning since if I do printf(a[1]);, it correctly prints "hmm".

  • 14
    Just for the record, char (*a[2])[14] is an array of two pointers to an array of 14 chars.
    – avakar
    Jul 6, 2009 at 19:05
  • 5
    I thought it was fourteen pointers to arrays of two chars xD
    – fortran
    Jul 6, 2009 at 20:18
  • 126
    Most useful advice I ever read for deciphering C types: "Start at the name, read right when you can, left when you must": char (*a[2])[14] - start at a, move right: "array of two", move left: "pointer to", bracket complete so read right: "array of forteen", read left: "char"... Put it together and we have "a is array of two pointers to arrays of forteen chars" Feb 7, 2015 at 16:09
  • 6
    @dotancohen: That tip is what finally convinced me to write pointers as char *str rather than char* str. Coming from a Delphi/Pascal background, I was very accustomed to the latter way until I came across more complex types. The former way still looks ugly to me, but makes type notation more consistent (IMO). Apr 14, 2015 at 6:05

15 Answers 15


If you don't want to change the strings, then you could simply do

const char *a[2];
a[0] = "blah";
a[1] = "hmm";

When you do it like this you will allocate an array of two pointers to const char. These pointers will then be set to the addresses of the static strings "blah" and "hmm".

If you do want to be able to change the actual string content, the you have to do something like

char a[2][14];
strcpy(a[0], "blah");
strcpy(a[1], "hmm");

This will allocate two consecutive arrays of 14 chars each, after which the content of the static strings will be copied into them.


There are several ways to create an array of strings in C. If all the strings are going to be the same length (or at least have the same maximum length), you simply declare a 2-d array of char and assign as necessary:

strcpy(strs[0], aString); // where aString is either an array or pointer to char
strcpy(strs[1], "foo");

You can add a list of initializers as well:

char strs[NUMBER_OF_STRINGS][STRING_LENGTH+1] = {"foo", "bar", "bletch", ...};

This assumes the size and number of strings in the initializer match up with your array dimensions. In this case, the contents of each string literal (which is itself a zero-terminated array of char) are copied to the memory allocated to strs. The problem with this approach is the possibility of internal fragmentation; if you have 99 strings that are 5 characters or less, but 1 string that's 20 characters long, 99 strings are going to have at least 15 unused characters; that's a waste of space.

Instead of using a 2-d array of char, you can store a 1-d array of pointers to char:

char *strs[NUMBER_OF_STRINGS];

Note that in this case, you've only allocated memory to hold the pointers to the strings; the memory for the strings themselves must be allocated elsewhere (either as static arrays or by using malloc() or calloc()). You can use the initializer list like the earlier example:

char *strs[NUMBER_OF_STRINGS] = {"foo", "bar", "bletch", ...};

Instead of copying the contents of the string constants, you're simply storing the pointers to them. Note that string constants may not be writable; you can reassign the pointer, like so:

strs[i] = "bar";
strs[i] = "foo"; 

But you may not be able to change the string's contents; i.e.,

strs[i] = "bar";
strcpy(strs[i], "foo");

may not be allowed.

You can use malloc() to dynamically allocate the buffer for each string and copy to that buffer:

strs[i] = malloc(strlen("foo") + 1);
strcpy(strs[i], "foo");


char (*a[2])[14];

Declares a as a 2-element array of pointers to 14-element arrays of char.

  • 3
    @Slater: yes, if it's the result of a malloc call.
    – John Bode
    Sep 7, 2012 at 13:00
  • 1
    Why can we only use strcpy on String arrays declared as a 2D array. Why does standard assignment fail?
    – Andrew S
    Feb 7, 2014 at 4:20
  • 5
    @AndrewS: The complete answer won't fit into a comment, but basically it's an artifact of how C treats array expressions; under most circumstances, an expression of type T [N] is converted to an expression of type T *, and the value of the expression is the address of the first element. So if you wrote str = "foo", you'd be trying to assign the address of the first character of "foo" to the array str, which doesn't work. See this answer for more details.
    – John Bode
    Feb 7, 2014 at 15:33
  • @JohnBode could you please add the small tweak? char *strs[NUMBER_OF_STRINGS] = {0}; This helps prevent future problems by initializing strs to NULL. A lot of people read this post when the do google searches on array of strings in C.
    – cokedude
    Sep 8, 2015 at 0:17
  • 1
    char strs[NUMBER_OF_STRINGS][STRING_LENGTH+1] = {"foo", "bar", "bletch", ...}; could be changed to char strs[NUMBER_OF_STRINGS][MAX_STRING_LENGTH+1] = {"foo", "bar", "bletch", ...}; for clarity.
    – 71GA
    Feb 3, 2020 at 7:01

Ack! Constant strings:

const char *strings[] = {"one","two","three"};

If I remember correctly.

Oh, and you want to use strcpy for assignment, not the = operator. strcpy_s is safer, but it's neither in C89 nor in C99 standards.

strcpy(arr[0], "blah");

Update: Thomas says strlcpy is the way to go. [not portable]

  • 6
    It's possible in both C89 and C99. It also doesn't matter whether it's with const or without it, although the former is preferred.
    – avakar
    Jul 6, 2009 at 19:01
  • 1
    Well, const is new, and you used to have to specify the size of the outer array (3 in this case), but otherwise this is perfectly acceptable K&R C. I have an old C book copyrighted 1984 that has a section showing how to do this. They call it a "ragged array". Of course it had no "operators", and strcpy_s is a new one on me.
    – T.E.D.
    Jul 6, 2009 at 20:02
  • 7
    strcpy_s is a Microsoft function. It should probably be avoided because it is not in standard C.
    – Cromulent
    Jul 7, 2009 at 4:26
  • 5
    strcpy_s and other "safe functions" are standardized as ISO/IEC TR 24731 (it's an ISO published standard and as such isn't available online for free; the most recent draft is open-std.org/jtc1/sc22/wg14/www/docs/n1225.pdf) Jul 7, 2009 at 21:44
  • 1
    Actually, the proper way to copy zero-terminated C strings is to use strlcpy unless you are 100% sure you don't need to. Dec 19, 2016 at 13:18

Here are some of your options:

char a1[][14] = { "blah", "hmm" };
char* a2[] = { "blah", "hmm" };
char (*a3[])[] = { &"blah", &"hmm" };  // only since you brought up the syntax -

printf(a1[0]); // prints blah
printf(a2[0]); // prints blah
printf(*a3[0]); // prints blah

The advantage of a2 is that you can then do the following with string literals

a2[0] = "hmm";
a2[1] = "blah";

And for a3 you may do the following:

a3[0] = &"hmm";
a3[1] = &"blah";

For a1 you will have to use strcpy() (better yet strncpy()) even when assigning string literals. The reason is that a2, and a3 are arrays of pointers and you can make their elements (i.e. pointers) point to any storage, whereas a1 is an array of 'array of chars' and so each element is an array that "owns" its own storage (which means it gets destroyed when it goes out of scope) - you can only copy stuff into its storage.

This also brings us to the disadvantage of using a2 and a3 - since they point to static storage (where string literals are stored) the contents of which cannot be reliably changed (viz. undefined behavior), if you want to assign non-string literals to the elements of a2 or a3 - you will first have to dynamically allocate enough memory and then have their elements point to this memory, and then copy the characters into it - and then you have to be sure to deallocate the memory when done.

Bah - I miss C++ already ;)

p.s. Let me know if you need examples.

  • I needed string arrays for an Arduino project. At the end I used the a2 style. I initially tried the a1 style defining my string array as char a1[][2] = { "F3", "G3" ...etc. } as it was intended to store 2-character long strings. This gave unexpected output because I forgot the null-terminator would mean each string should have a size of at least 3 to store the 2 characters. Using the a2 style, I didn't need to specify the length of the string, and it could accommodate varying string lengths as well so I have decided to stick with that :-) Nov 18, 2019 at 18:11
  • char (*a3[])[] = { &"blah", &"hmm" }; => does not work in g++ Apple LLVM version 9.1.0, but it works in gcc
    – 1234
    Dec 23, 2019 at 0:51

If you don't want to keep track of number of strings in array and want to iterate over them, just add NULL string in the end:

char *strings[]={ "one", "two", "three", NULL };

int i=0;
while(strings[i]) {
  printf("%s\n", strings[i]);
  //do something
  • I believe this is valid only in C++. In C, NULL is not guaranteed to be zero, therefore the loop may not break when it should. Correct me if I am wrong.
    – Palec
    Apr 6, 2017 at 19:04
  • 3
    No idea :) You may compare with NULL in while statement if you like.
    – Sergey
    Apr 10, 2017 at 3:40

Or you can declare a struct type, that contains a character arry(1 string), them create an array of the structs and thus a multi-element array

typedef struct name
   char name[100]; // 100 character array

   name yourString[10]; // 10 strings
   printf("Enter something\n:);
   // maybe put a for loop and a few print ststements to simplify code
   // this is just for example 

One of the advantages of this over any other method is that this allows you to scan directly into the string without having to use strcpy;


If the strings are static, you're best off with:

const char *my_array[] = {"eenie","meenie","miney"};

While not part of basic ANSI C, chances are your environment supports the syntax. These strings are immutable (read-only), and thus in many environments use less overhead than dynamically building a string array.

For example in small micro-controller projects, this syntax uses program memory rather than (usually) more precious ram memory. AVR-C is an example environment supporting this syntax, but so do most of the other ones.



char* strings[3];
strings[0] = "foo";
strings[1] = "bar";
strings[2] = "baz";
  • 8
    @Zifre: I wholly disagree. It very much is part of the type - a "char pointer" in this case. What would you say anyway... it's part of the variable name? I have seen many a competent programmer use this style.
    – Noldorin
    Jul 6, 2009 at 19:56
  • 14
    Just for anyone else reading this, I would like to point out that Bjarne Stroustrup puts the * by the type... Mar 29, 2013 at 18:40
  • 1
    @MirroredFate: Correct. Indeed, it's recommended practice in C++ from what I know. Semantically it makes no sense to me to put it by the identifier, because of the way it's used. :/
    – Noldorin
    Mar 29, 2013 at 19:47
  • 16
    @Noldorin char* foo, bar; what is the type of bar?
    – mASOUD
    Nov 3, 2015 at 17:37
  • 10
    C was developed by Dennis Ritchie in 1972 and in 1988 he and Brian Kernighan published the second edition of K&R - The C Programming Language, a book many holds as de facto standard for C. They put the * by the identifier. Feb 22, 2016 at 7:21

The string literals are const char *s.

And your use of parenthesis is odd. You probably mean

const char *a[2] = {"blah", "hmm"};

which declares an array of two pointers to constant characters, and initializes them to point at two hardcoded string constants.


Your code is creating an array of function pointers. Try

char* a[size];


char a[size1][size2];


See wikibooks to arrays and pointers

  • 1
    hats off for your different approach... People like you make stack to overflow... Feb 24, 2017 at 9:20

hello you can try this bellow :

 char arr[nb_of_string][max_string_length]; 
 strcpy(arr[0], "word");

a nice example of using, array of strings in c if you want it

#include <stdio.h>
#include <string.h>

int main(int argc, char *argv[]){

int i, j, k;

// to set you array
//const arr[nb_of_string][max_string_length]
char array[3][100];

char temp[100];
char word[100];

for (i = 0; i < 3; i++){
    printf("type word %d : ",i+1);
    scanf("%s", word);
    strcpy(array[i], word);

for (k=0; k<3-1; k++){
    for (i=0; i<3-1; i++)
        for (j=0; j<strlen(array[i]); j++)
            // if a letter ascii code is bigger we swap values
            if (array[i][j] > array[i+1][j])
                strcpy(temp, array[i+1]);
                strcpy(array[i+1], array[i]);
                strcpy(array[i], temp);

                j = 999;

            // if a letter ascii code is smaller we stop
            if (array[i][j] < array[i+1][j])
                    j = 999;


for (i=0; i<3; i++)

return 0;

Each element is a pointer to its first character

const char *a[2] = {"blah", "hmm"};
char name[10][10]
int i,j,n;//here "n" is number of enteries
printf("\nEnter size of array = ");
        printf("\nEnter name = ");
//printing the data

Here try this!!!

  • 1
    can you explain why do you need the for-loop with the variable j ,i.e, for(j=0;j<1;j++)?
    – SouvikMaji
    Jul 3, 2015 at 14:46

I was missing somehow more dynamic array of strings, where amount of strings could be varied depending on run-time selection, but otherwise strings should be fixed.

I've ended up of coding code snippet like this:

#define INIT_STRING_ARRAY(...)          \
    {                                   \
        char* args[] = __VA_ARGS__;     \
        ev = args;                      \
        count = _countof(args);         \

void InitEnumIfAny(String& key, CMFCPropertyGridProperty* item)
    char** ev = nullptr;
    int count = 0;

    if( key.Compare("horizontal_alignment") )
        INIT_STRING_ARRAY( { "top", "bottom" } )

    if (key.Compare("boolean"))
        INIT_STRING_ARRAY( { "yes", "no" } )

    if( ev == nullptr )

    for( int i = 0; i < count; i++)


char** ev picks up pointer to array strings, and count picks up amount of strings using _countof function. (Similar to sizeof(arr) / sizeof(arr[0])).

And there is extra Ansi to unicode conversion using A2T macro, but that might be optional for your case.


A good way is to define a string your self.

#include <stdio.h>
typedef char string[]
int main() {
    string test = "string";
    return 0;

It's really that simple.

  • 5
    You're missing a ;, and how does this create an array of strings?
    – keyser
    May 25, 2014 at 14:58