I am new to C and am currently studying arrays. I would like to check if a certain value is in an array but I am running in some issues (not only syntax-wise but also from understanding-wise).

My goal is to have a function which I can call, give it two arguments - the value to search for and the array to search in - and get a 0 or 1 based on whether it was found or not back.

My approach is the following:

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

int valueinarray(float val, float *arr[]);

int main()
    float arr[] = {5, 4.5, 4, 3.5, 3, 2.5,};
    int test = valueinarray(4.5, *arr[]);
    printf("%d", test);

    return 0;

int valueinarray(float val, float *arr[]){
    int i;
    for(i = 0; i < sizeof(*arr[]); i++){
        if(*arr[i] == val) return 1;
    return 0;

I have two questions now especially regarding the syntax:

  1. If I create a function with a pointer as one of its' parameters, do I have to refer to it using "*arr[]" inside the function the whole time? Or is "arr[]" or even "arr" enough?

  2. Do I understand it correctly that I am unable to pass a whole array to a function so I use a pointer instead?

Moreover, my approach is wrong and I do not see why. Iterating over the array seems to work just fine and even checking if a certain value is in it works as well, the issue seems to be in the way I call the function. I read about double pointers, is this a scenario where they're needed? If not, what are they needed for?

Thanks a lot.

  • 2
    You also need to pass the length of the array. You cannot compute it in the function. – Weather Vane Sep 28 '16 at 8:41
  • 1
    The function argument float *arr[] is an array of pointers. I suggest either float arr[] or float *arr). In any case, you need to tell the function how many elements the array has. – Weather Vane Sep 28 '16 at 8:43
  • 1
    You should not compare floating point values for equality. – mch Sep 28 '16 at 8:46
  • 1
    Aside: checking floating point values for equality is not good, please see Is floating point math broken? – Weather Vane Sep 28 '16 at 8:47
  • Well, my intention is to verify the user's input. I want to check if he put a "legit" coin in the machine (1 dollar coin for example). Is there a more suitable approach than what I am doing? – gusgxrha Sep 28 '16 at 8:48
up vote 0 down vote accepted
float arr[] = ...;

declares an array(because of []) of floats(because of the float keyword) that is called arr. Similarly in a function declaration:

int valueinarray(float val, float *arr[]);

means that the second argument is a pointer(because of *) to an array(because of[]) which isn't what you need at all. You need to accept just an array:

int valueinarray(float val, float arr[]);

folowing this logic your code would look like this:

int valueinarray(float val, float arr[])
    int i;
    for(i = 0; i < sizeof(arr) / sizeof(arr[0]); i++)
        if(arr[i] == val)
            return 1;
    return 0;

Notice a number of changes:

  1. The function parameter arr is now an array.

  2. The expression

    sizeof(arr) / sizeof(arr[0]) first takes the size of arr the array in bytes. Then divides it by the size in bytes of the first element in it. And now we are left with the number of elements. If it were a char array, then this is not needed is 1 char takes up 1 byte. For any other type it is necessary. As a side note you could've divided by sizeof(float), but this makes it harder for you if you change the type and is a worse practice than sizeof(arr[0]).

If you didn't divide you could have an array of 10 floats, but you could try to access 40. So you'd be meddling with 120 bytes of the memory right after your array that aren't yours.

Also the asterisk * dereferences outside of declarations. If you have:

int a[5];
int x = 5;
int *pointerToInt = &x;

then x is a label for some memory (variable) that stores the value 5. &x is a pointer to the memory that stores the label. The opposite of & is *. Whlie pointerToInt equals &x, *pointerToInt equals x. Also *a equals a[0], but isn't literally the same, *(a+1) equals a[1].

  • You are amazing, thanks a lot! – gusgxrha Sep 28 '16 at 10:38
  • 1
    "the second argument is a pointer(because of *) to an array(because of[])" this is not quiet right, In the context of defining function parameters a float a[] is equivalent to float *a and float *a[] is equivalent to float**a. None of those as is a pointer to an array of float. The first is a pointer to float the second a pointer to pointer to float. A pointer to an array of float would be defined like float (*a)[42]. a points to a float[42]. The explicit mentioning of the size is mandatory. – alk Sep 28 '16 at 10:38
  • Huh I knew that passing an array promotes it to a pointer, but wasn't aware pointers to arrays were promoted to double pointers. – Dimitroff Sep 28 '16 at 11:27
  • 1
    Pointers of arrays are not promoted to double pointers. Arrays of Pointers are promoted to double pointers. So float (*a)[42] will not be promoted to float **a, but float *a[] will. – mch Sep 29 '16 at 9:42

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