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This feels like a really stupid thing to ask, but I had someone taking a programming class ask me for some help on an assignment and I see this in their code (no comments on the Hungarian notation please):

void read_dictionary( string ar_dictionary[25], int & dictionary_size ) {...

Which, as mainly a C# programmer (I learned about C and C++ in college) I didn't even know you could do. I was always told, and have read since that you're supposed to have

void read_dictionary( string ar_dictionary[], int ar_dictionary_size, int & dictionary_size ) {...

I'm told that the professor gave them this and that it works, so what does declaring a fixed size array like that even mean? C++ has no native way of knowing the size of an array being passed to it (even if I think that might've been changed in the newest spec)

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It has native way to know the array size: this method. If you tell it how great the array is, it will believe it is. – user529758 Apr 29 '12 at 4:58
The 25 in the parameter declaration is ignored by the compiler. It's the same as string ar_dictionary[]. – Cody Gray Apr 29 '12 at 4:59
@H2CO3 There is nothing the function can do with that number, nor any way for the compiler to check if what is being passed to it is that size... – cost Apr 29 '12 at 5:05
@CodyGray Oh is that what it is? That would make the most sense, given what I know about C++. I never even tried that syntax, I figured the compiler would throw an error. Can you say that in an answer so I can mark that as the answer? – cost Apr 29 '12 at 5:06
I'd say this is a duplicate of: stackoverflow.com/questions/2276329/… – James Custer Apr 29 '12 at 5:18
up vote 9 down vote accepted

In a one dimensional array It has no significance and is ignored by the compiler. In a two or more dimensional array It can be useful and is used by the function as a way to determine the row length of the matrix(or multi dimensional array). for example :

int 2dArr(int arr[][10]){
   return arr[1][2];

this function would know the address of arr[1][2] according to the specified length, and also the compiler should not accept different sizes of arrays for this function -

int arr[30][30];

is not allowed and would be a compiler error(g++) :

error: cannot convert int (*)[30] to int (*)[10]
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What do you mean the function would know the address? – cost Apr 29 '12 at 5:30
accessing the array at [x][y] means accessing the element at row y and column x. for this you have to know what is the length of the row. arr[1][2] is the same as arr[2*10 + 1]. – WeaselFox Apr 29 '12 at 7:59

The 25 in the parameter declaration is ignored by the compiler. It's the same as if you'd written string ar_dictionary[]. This is because a parameter declaration of array type is implicitly adjusted to a pointer to the element's type.

So the following three function declarations are equivalent:

void read_dictionary(string ar_dictionary[25], int& dictionary_size)
void read_dictionary(string ar_dictionary[],   int& dictionary_size)
void read_dictionary(string *ar_dictionary,    int& dictionary_size)

Even in the case of the first function, with the size of the array explicitly declared, sizeof(ar_dictionary) will return the same value as sizeof(void*).

See this sample on Codepad:

#include <string>
#include <iostream>

using namespace std;

void read_dictionary(string ar_dictionary[25], int& dictionary_size)
    cout << sizeof(ar_dictionary) << endl;  
    cout << sizeof(void*) << endl;  

int main()
    string test[25];
    int dictionary_size = 25;
    read_dictionary(test, dictionary_size);

    return 0;

Output (the exact value is, of course, implementation-dependent; this is purely for example purposes):

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Does WeaselFox's answer make any sense to you? If it's just decayed to a pointer, then what he said shouldn't be true. I'm a bit confused – cost Apr 29 '12 at 5:31
In the first one, sizeof(ar_dictionary) will return sizeof(void*) too? – Spidey Apr 29 '12 at 5:31
Arrays with multiple dimensions work differently than those with a single dimension. I'm not sure what that has to do with anything; the question only concerns one-dimensional arrays. @cos – Cody Gray Apr 29 '12 at 8:36
@Spidey: Yes. Added an example to my answer. – Cody Gray Apr 29 '12 at 8:39
There are actually two different rules in play here. One is that an expression of array type, in most contexts, is implicitly converted to ("decays" to) a pointer to the array's first element. The other is that a parameter declaration of array type is adjusted to a pointer to the element type. The language could have had either rule without the other, but it has both. They work together to -- well, to cause confusion. – Keith Thompson Apr 29 '12 at 8:58

I always though that passing fixed size C++ arrays was a "half baked" feature of C++. For example, ignored size matching or only being able to specify the first index size, etc... Until recently I learn this idiom:

template<size_t N1, size_t N2> // enable_if magic can be added as well
  ... do something with array m...knowing its size!

Reference: Can someone explain this template code that gives me the size of an array?

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