int array gives crazy values unless all fields initalized to 0, why?

``````int TwoThrows();

int main(){

int Throws, Throw, Frequency[13]={0,0,0,0,0,0,0,0,0,0,0,0,0};
randomize();

cout << "\nThis program simulates throws of two dice.";
cout << "\n\nHow many throws : ";
cin >> Throws;

// Calls TwoThrows and saves in Frequency by value
for(int I=0; I<Throws; I++){
Throw=TwoThrows();   //2-12
Frequency[Throw]++;   //2-12

}

// Prints array:
for(int I=0; I<11; I++){
cout << I+2 << ":\t" << Frequency[I+2] << "\n";

}

return 0;
}

int TwoThrows(){
unsigned int I=(random(6)+1)+(random(6)+1);

return I;

}
``````

This prints:

2: 1317 3: 2724 4: 4145 5: 5513 6: 7056 7: 8343 8: 6982 9: 5580 10: 4176 11: 2776 12: 1388

Which is great.

However, what I want to know is, why did I have to set the array to {0,0,0,0,0,0,0,0,0,0,0,0,0}?

If I do NOT do that; i get:

2: 30626868 3: 1638233 4: 844545295 5: 1 6: 9 7: 4202510 8: 4199197 9: 844555757 10: 3 11: 4202574 12: 2130567168

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What would you have expected to get? – Oliver Charlesworth Mar 16 '13 at 14:24
@OliCharlesworth I would expect to get the proper distribution without initalizing it. Is this a limitation with Borland C++ builder 5, or is this how C++ always works? – DrOnline Mar 16 '13 at 14:26
Take note that `Frequency[13]={0}` would also suffice to say "make them all zero". – Drew Dormann Mar 16 '13 at 14:34

If you don't initialize the array, and then proceed to increment its elements, technically this is undefined behaviour.

What happens in practice is that the array's elements get whatever values happen to be on the stack when `main()` starts.

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@DrOnline: Since this is C++ and not C, just use `std::vector<int>`. It can easily initialize all the values upon construction. – NPE Mar 16 '13 at 14:29
@DrOnline: `int Frequency[13] = {};` – Benjamin Lindley Mar 16 '13 at 14:30
@DrOnline: There is a number of shortcuts you could take because the values are zero. However, a simple and general solution is to write a `for` loop. I doubt your tutor would object to that. – NPE Mar 16 '13 at 14:33
@DrOnline `int a[13] = {};` is perfectly valid C++. It is strange that it doesn't compile. Could you try `int a[13] = {0};`? – juanchopanza Mar 16 '13 at 14:39
@DrOnline: Either you're doing something else wrong, or your compiler is broken. Does this program work for you? liveworkspace.org/code/2bzDgB\$0 -- If it doesn't, your compiler is broken. – Benjamin Lindley Mar 16 '13 at 14:42

Local variables are put on the stack of the function. This area is not initialized by the compiler or the operating system. This means that the values of local variables are exactly what's in the memory when the function is called, which is unlikely to be something you want it to be.

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When you allocate an array you got place in memory so this place could be used before by anther application,So if don't initialize that place it would give you unexpected values according to which application was using that place.

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Try to understand it this way. All memory locations are charged and when we assign a specific memory location to a variable, it will translated the raw value that the location was holding, also referred to as garbage value and hence we get unexpected values.

But when you initialize a variable or array, the default garbage values are replaced with the designated values and we get the desired output.

Hope this helps.

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