C: finding the number of elements in an array[]

In C: How do you find the number of elements in an array of structs, after sending it to a function?

int main(void) {
myStruct array[] = { struct1, struct2, struct3, struct4, struct5, struct6 };
printf("%d\n", sizeof(array));
printf("%d\n", sizeof(array[0]));
f(array);
}
void f(myStruct* array) {
printf("%d\n", sizeof(array));
printf("%d\n", sizeof(array[0]));
}


For some reason the printf in main shows different results than the printf in f. My need is to know how many elements are in the array.

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Because sizeof() is a compile-time operator and not a member function (as in C++). –  ruslik Nov 2 '10 at 22:20

You can't.

You have to pass the size to the function, eg:

void f(myStruct* array, size_t siz);


Also notice that in f array is a pointer, while in main it is an array. Arrays and pointers are different things.

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Why use size_t? Couldn't you just use an integer for array length, or is that not safe somehow? –  Christian Mann Nov 2 '10 at 19:09
@Christian Mann: Several reasons, including: the type of the value returned by sizeof is size_t; array sizes can never be negative, so it makes sense to use an unsigned type for the array size; size_t is guaranteed to be wide enough to hold the maximum number of bytes that can be allocated at any one time, whereas int is not (IOW, if an array of T can contain 2^64 bytes, then size_t is guaranteed to be 64 bits wide, but int is only guaranteed to be at least 16 bits wide); –  John Bode Nov 2 '10 at 19:16
An alternative to passing around size is to NULL-terminate the array, a time-tested solution, but this only works if you have an array of pointers (which is more common than an array of arrays in C). –  Lee-Man Nov 2 '10 at 20:14

In f array is a pointer, in main array is an array.

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And once you have a pointer you can't determine the number of elements. –  Let_Me_Be Nov 2 '10 at 18:53

You must pass that data as a separate parameter to the function. In C and C++ as soon as an array is passed to a function the array degenerates into a pointer. Pointers have no notion of how many elements are in the array they point to.

A common way to get the size is to declare the array and then immediately get the array element count by dividing the total size by the size of one element. Like this:

struct my_struct my_struct_array[] = {
{"data", 1, "this is data"},
{"more data", 2, "this is more data"},
{"yet more", 0, "and again more data"}
};
const size_t my_struct_array_count = sizeof(my_struct_array)/sizeof(my_struct_array[0]);

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In the code above, function f() has no way of knowing how many elements were in your original array. It's a feature of the language and there's no way around it. You'll have to pass the length.

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As the C reference says, you cannot do this unless either the last element is unique or you pass a count of array elements to the function.

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you have to end the array with a special value and in called function you have to count up to that value that is how strlen() works it counts up to NULL '\0' value.

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That is certainly one solution, but it's not the only one. –  Christian Mann Nov 2 '10 at 20:33
you are sending the function a pointer (an address in memory) how will it count, if it does not know where it is ending. There is no array type in C as we know in higher languages. You can create an array class in C++ which also stores its size (or use allready defined ones) –  bkilinc Nov 2 '10 at 21:33

You can't tell number of elements in an array in C consistently. Specially if you pass the array around through pointers.

Usually, if you must use array size in a function, pass it as a parameter to it.

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The number of elements in an array is always given by sizeof array / sizeof array[0]. As long as the array is an honest-to-god array it is very easy :) –  pmg Nov 2 '10 at 18:57

When you use sizeof in main, it's evaluating the array, and gives the size of the actual array.

When you use sizeof in f, you've passed the name of the array as an argument to a function, so it has decayed to a pointer, so sizeof tells you about the size of a pointer.

Generally speaking, if you pass an array to a function, you need to either write the function to only work with one specific size of array, or explicitly pass the size of array for it to work with on a particular invocation.

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You may use a format for your array. I am using string elements, it should work for struct.

#define NULL ""
#define SAME 0

static char *check[] = {
"des", "md5", "des3_ede", "rot13", "sha1", "sha224", "sha256",
"blowfish", "twofish", "serpent", "sha384", "sha512", "md4", "aes",
"cast6", "arc4", "michael_mic", "deflate", "crc32c", "tea", "xtea",
"khazad", "wp512", "wp384", "wp256", "tnepres", "xeta",  "fcrypt",
"camellia", "seed", "salsa20", "rmd128", "rmd160", "rmd256", "rmd320",
"lzo", "cts", "zlib", NULL
}; // 38 items, excluding NULL


in main ( )

char **algo = check;
int numberOfAlgo = 0;

while (SAME != strcmp(algo[numberOfAlgo], NULL)) {
printf("Algo: %s \n", algo[numberOfAlgo++]);
}

printf("There are %d algos in the check list. \n", numberOfAlgo);


You should get the output:

Algo: des
:
:
Algo: zlib

There are 38 algos in the check list.


Alternatively, if you do not want to use the NULL , do this instead:

numberOfAlgo = 0;

while (*algo) {
printf("Algo: %s \n", *algo);
algo++;         // go to the next item
numberOfAlgo++; // count the item
}

printf("There are %d algos in the check list. \n", numberOfAlgo);

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As an example to your solution:

Given

struct contain {
char* a;        //
int allowed;    //

struct suit {
struct t {
char* option;
int count;
} t;

struct inner {
char* option;
int count;
} inner;
} suit;
};


// eg. initialized

     struct contain structArrayToBeCheck[] = {
{
.a = "John",
.allowed = 1,

.suit = {
.t = {
.option = "ON",
.count = 7
},

.inner = {
.option = "OFF",
.count = 7
}
}
},
{
.a = "John",
.allowed = 1,

.suit = {
.t = {
.option = "ON",
.count = 7
},

.inner = {
.option = "OFF",
.count = 7
}
}
},
{
.a = "John",
.allowed = 1,

.suit = {
.t = {
.option = "ON",
.count = 7
},

.inner = {
.option = "OFF",
.count = 7
}
}
},
{
.a = "John",
.allowed = 1,

.suit = {
.t = {
.option = "ON",
.count = 7
},

.inner = {
.option = "OFF",
.count = 7
}
}
}

};


in main()

printf("Number of Struct within struct array: %d \n", sizeof(structArrayToBeCheck)/sizeof(struct contain));