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What is the difference between the following declarations:

int* arr1[8];
int (*arr2)[8];
int *(arr3[8]);

What is the general rule for understanding more complex declarations?

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Here is a great article about reading complex declarations in C: unixwiz.net/techtips/reading-cdecl.html –  jesper Jan 27 '13 at 13:00
@jesper: that's an excellent explanation –  Amro Sep 13 '14 at 10:25

9 Answers 9

up vote 207 down vote accepted
int* arr[8]; // An array of int pointers.
int (*arr)[8]; // A pointer to an array of integers

The third one is same as the first.

The general rule is operator precedence. It can get even much more complex as function pointers come into the picture.

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So, for 32 bit systems: int* arr[8]; /* 8x4 bytes allocated, for each pointer / int (*arr)[8]; / 4 bytes allocated, only a pointer */ –  George May 13 '09 at 18:43
Nope. int* arr[8]: 8x4 bytes allocated total, 4 bytes for each pointer. int (*arr)[8] is right, 4 bytes. –  Mehrdad Afshari May 13 '09 at 18:49
I should have re-read what I wrote. I meant 4 for each pointer. Thanks for the help! –  George May 13 '09 at 18:59
The reason that the first one is the same as the last is that it's always allowed to wrap parentheses around declarators. P[N] is an array declarator. P(....) is a function declarator and *P is a pointer declarator. So everything in the following is the same as without any parentheses (except for the one of the functions' "()": int (((*p))); void ((g(void))); int *(a[1]); void (*(p())). –  Johannes Schaub - litb May 13 '09 at 20:21
+1 for the well written supporting reference. Other articles at that site look worth knowing about too. –  RBerteig May 14 '09 at 1:41

As a rule of thumb, right unary operators (like [], (), etc) take preference over left ones. So, int *(*ptr)()[]; would be a pointer that points to a function that returns an array of pointers to int (get the right operators as soon as you can as you get out of the parenthesis)

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In pointer to an integer if pointer is incremented then it goes next integer.

in array of pointer if pointer is incremented it jumps to next array

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LOL . Amazing explanation. –  Atul Gangwar Dec 14 '14 at 8:10

I think we can use the simple rule ..

example int * (*ptr)()[];
start from ptr 

" ptr is a pointer to " go towards right ..its ")" now go left its a "(" come out go right "()" so " to a function which takes no arguments " go left "and returns a pointer " go right "to an array" go left " of integers "

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int *a[4]; // Array of 4 pointers to int

int (*a)[4]; //a is a pointer to an integer array of size 4

int (*a[8])[5]; //a is an array of pointers to integer array of size 5 
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Shouldn't the 3rd one be: a is an array of pointers to integer array of size 8 ? I mean each of the integer arrays will be of size 8 right? –  Rushil May 2 '12 at 7:47
@Rushil: no, the last subscript ([5]) represents the inner dimension. This means that (*a[8]) is the first dimension, and is thus the outer representation of the array. What each element within a points to is a different integer array of size 5. –  blissfreak Jan 25 '13 at 17:19
Thanks for the third one. I'm looking for how to write array of pointers to array. –  Deqing Aug 6 '13 at 14:39
typedef int (*PointerToIntArray)[];
typedef int *ArrayOfIntPointers[];
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The answer for the last two can also be deducted from the golden rule in C:

Declaration follows use.

int (*arr2)[8];

What happens if you dereference arr2? You get an array of 8 integers.

int *(arr3[8]);

What happens if you take an element from arr3? You get a pointer to an integer.

This also helps when dealing with pointers to functions. To take sigjuice's example:

float *(*x)(void )

What happens when you dereference x? You get a function that you can call with no arguments. What happens when you call it? It will return a pointer to a float.

Operator precedence is always tricky, though. However, using parentheses can actually also be confusing because declaration follows use. At least, to me, intuitively arr2 looks like an array of 8 pointers to ints, but it is actually the other way around. Just takes some getting used to. Reason enough to always add a comment to these declarations, if you ask me :)

edit: example

By the way, I just stumbled across the following situation: a function that has a static matrix and that uses pointer arithmetic to see if the row pointer is out of bounds. Example:

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

#define NUM_ELEM(ar) (sizeof(ar) / sizeof((ar)[0]))

int *
put_off(const int newrow[2])
    static int mymatrix[3][2];
    static int (*rowp)[2] = mymatrix;
    int (* const border)[] = mymatrix + NUM_ELEM(mymatrix);

    memcpy(rowp, newrow, sizeof(*rowp));
    rowp += 1;
    if (rowp == border) {
        rowp = mymatrix;

    return *rowp;

main(int argc, char *argv[])
    int i = 0;
    int row[2] = {0, 1};
    int *rout;

    for (i = 0; i < 6; i++) {
        row[0] = i;
        row[1] += i;
        rout = put_off(row);
        printf("%d (%p): [%d, %d]\n", i, (void *) rout, rout[0], rout[1]);

    return 0;


0 (0x804a02c): [0, 0]
1 (0x804a034): [0, 0]
2 (0x804a024): [0, 1]
3 (0x804a02c): [1, 2]
4 (0x804a034): [2, 4]
5 (0x804a024): [3, 7]

Note that the value of border never changes, so the compiler can optimize that away. This is different from what you might initially want to use: const int (*border)[3]: that declares border as a pointer to an array of 3 integers that will not change value as long as the variable exists. However, that pointer may be pointed to any other such array at any time. We want that kind of behaviour for the argument, instead (because this function does not change any of those integers). Declaration follows use.

(p.s.: feel free to improve this sample!)

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Use the cdecl program, as suggested by K&R.

$ cdecl
Type `help' or `?' for help
cdecl> explain int* arr1[8];
declare arr1 as array 8 of pointer to int
cdecl> explain int (*arr2)[8]
declare arr2 as pointer to array 8 of int
cdecl> explain int *(arr3[8])
declare arr3 as array 8 of pointer to int

It works the other way too.

cdecl> declare x as pointer to function(void) returning pointer to float
float *(*x)(void )
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Also available online here: cdecl.org –  Dave Gallagher Nov 1 '10 at 18:22
No they knew that apart from them Gods, normal mortals would also use their creation... and use it forever. –  yati sagade Oct 10 '11 at 23:56
Better than having to sign 10 contracts in some other 1000km-high abstracted language. –  ActiveTrayPrntrTagDataStrDrvr Nov 21 '13 at 15:21

I don't know if it has an official name, but I call it the Right-Left Thingy(TM).

Start at the variable, then go right, and left, and right...and so on.

int* arr1[8];

arr1 is an array of 8 pointers to integers.

int (*arr2)[8];

arr2 is a pointer (the parenthesis block the right-left) to an array of 8 integers.

int *(arr3[8]);

arr3 is an array of 8 pointers to integers.

This should help you out with complex declarations.

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It is called reading "boustrophedonically" :) –  dogeen Sep 3 '10 at 19:29
I have heard it referred to by the name of "The Spiral Rule", which can be found here. –  InkBlend May 27 '13 at 3:04
@InkBlend: The spiral rule is different from right-left rule. The former fails in cases like int *a[][10] while the latter succeeds. –  legends2k Oct 9 '13 at 13:51
@dogeen I thought that term had something to do with Bjarne Stroustrup :) –  Anirudh Ramanathan Nov 21 '13 at 6:52
Finally found a solution, Thanks –  A.s. Bhullar Jul 28 '14 at 16:29

protected by Lundin Dec 12 '14 at 7:13

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