# How to implement a 2-dimensional array of struct in C

Hey *, I'm currently trying to understand how to implement a 2-dimensional array of struct in C. My code is crashing all the time and I'm really about to let it end like all my approaches getting firm to C: garbage. This is what I got:

``````typedef struct {
int i;
} test;

test* t[20][20];
*t = (test*) malloc(sizeof(test) * 20 * 20);
``````

My glorious error:

error: incompatible types when assigning to type ‘struct test *[20]’ from type ‘struct test *’

Do I have to allocate the memory seperately for every 2nd dimension? I'm getting nuts. It should be so simple. One day I will build a time-machine and magnetize some c-compiler-floppies...

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## 5 Answers

This should be enough:

``````typedef struct {
int i;
} test;

test t[20][20];
``````

That will declare a 2-dimensional array of `test` of size 20 x 20. There's no need to use malloc.

If you want to dynamically allocate your array you can do this:

``````// in a function of course
test **t = (test **)malloc(20 * sizeof(test *));
for (i = 0; i < 20; ++i)
t[i] = (test *)malloc(20 * sizeof(test));
``````
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``````test **t;

t = (test **)malloc(sizeof(test *) * 20);
for (i = 0; i < 20; i++) {
t[i] = (test *)malloc(sizeof(test) * 20);
}
``````
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You're missing a 20. –  IVlad Jul 18 '10 at 11:57
Fixed. I hate c. –  BobTurbo Jul 18 '10 at 12:00

Other answers show how to fix it but they don't explain why. As the compiler hinted, the type of `t` in your original example is actually `test *[20]` which is why your cast to `test *` wasn't enough.

In C, the name of an array T of dimension N is actually of type `*T[dim0][dim1]...[dimN-1]`. Fun.

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From my observation, you may not know exactly what you want and confuse on the struct and pointer arithmetic. Please go through the following 2 possibilities.

1) A two dimensional array with each element has a pointer to `test`. In this case the memory of all the pointers to `test`s are already statically allocated. But, the memory of the real `test`s are not ready. In this case you must fill in the `test [i][j]` one by one.

Each of the `test` is discrete in the memory and you have the advantage of create or destroy them individually dynamically.

``````typedef struct {
int i;
} test;

test* t[20][20];
/* or instead of statically allocated the memory of all the pointers to tests
you can do the following to dynamically allocate the memory
test ***t;
t = (test***)malloc(sizeof(test *) * 20 * 20);
*/

for (int i=0; i < 20; i++){
for (int j=0; j < 20; j++){
t[i][j] = malloc(sizeof(test));
}
}
``````

2) A two dimensional array with each element is a `test`. In this case the memory of all the `test`s are already allocated. Also, the memory of the real `test`s are ready to use without extra preparation.

All of the `test`s are continuous in the memory as a big block and is always there. This mean that you may waste a chunk of memory if you only need all `test`s at certain peak time and most of the time you only use a few of them.

``````typedef struct {
int i;
} test;

test t[20][20];
/* or instead of statically allocated the memory of all tests
you can do the following to dynamically allocate the memory
test **t;
t = (test**)malloc(sizeof(test) * 20 * 20);
*/
``````
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Also, as long as your inner dimension size is constant, you can allocate a variable number of counts of that inner dimension

``````int n = ...;
test (*t)[20] = malloc(sizeof (*t) * n);
t[0 .. (n-1)][0 .. 19] = ...;
``````
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