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Consider piece of code

int main(int argc,char* argv[]){
        int *arrPtr = new int[4];
        for (int i=0;i<4;i++)
                arrPtr[i]=i*2;


        for (int i=0;i<10;i++){
                arrPtr++;
                cout<<"arrPtr ["<<i<<"]\t"<<*arrPtr<<endl;
        }
        cout<<endl;
        return 0; }

When I compile this program

g++ main.cpp -o main && ./main

It gives me

arrPtr [0]  2
arrPtr [1]  4
arrPtr [2]  6
arrPtr [3]  0
arrPtr [4]  135145
arrPtr [5]  0
arrPtr [6]  0
arrPtr [7]  0
arrPtr [8]  0
arrPtr [9]  0

I want to be able to detect (throw or check) when arrPtr is not pointing to "valid" element. In the code above last valid element is arrPtr[3].

No "Me Too" answers please!

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5  
You can't. Just pass the size along, in one form or another. E.g. use std::vector instead of plain arrays (and access it via v.at(i) instead of v[i]). –  atzz Aug 3 '12 at 12:18
    
@atzz oops saw your comment after posting.. –  Roman Saveljev Aug 3 '12 at 12:20
    
Note that if you have an array of values (not a dynamically allocated pointer), it is always possible to get the size by doing sizeof(array)/sizeof(type_of_array). That said, you obviously need the homogenous type to calculate this. –  RageD Aug 3 '12 at 12:25

4 Answers 4

up vote 5 down vote accepted

Use a vector.

int main()
{
    std::vector<int> a(4);

    for (size_t i = 0; i < 4; ++i)
        a[i] = i * 2;
    for (size_t i = 0; i < 10; ++i)
        std::cout << i << ": " << a.at(i) << std::endl;
}

Result:

0: 0
1: 2
2: 4
3: 6
terminate called after throwing an instance of 'std::out_of_range'
  what():  vector::_M_range_check
Aborted
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No thats the thing, I am not suppose to use vectors as I am working on generic framework. User may use `MyClass *c=new MyClass[]' –  mkhan3189 Aug 3 '12 at 12:23
    
@mkhan3189: then you're stuck. Bounds checking cannot be done portably, except by std::vector. –  larsmans Aug 3 '12 at 12:25
4  
@mkhan3189 What is not generic about using vectors? This is the way to go, period. –  Konrad Rudolph Aug 3 '12 at 12:27
1  
@mkhan3189 Have you considered taking iterators in your own functions (same as the standard library functions)? This work with vectors, arrays, or really any container. –  hvd Aug 3 '12 at 12:27
1  
@mkhan3189 Any technique you used for that is wrong, sorry. It simply isn't possible in C++, and no matter what you try, there will be cases where it doesn't work. It cannot work in the general case, because the same pointer value could simultaneously point to different arrays of different lengths (if two arrays of different lengths appear in a union). And it likely won't work in practise, because there will often be addressable memory after the end of the array. –  hvd Aug 3 '12 at 12:39

Others have shown the solution for this concrete problem: use std::vector instead of raw pointers (do this anyway!) and element access via .at().

However, in general you should simply make sure that the situation never arises in your code. Out of bounds errors are not situations that you should handle at runtime, they are bugs in your code and need to be removed beforehand.

There are several strategies for that – for instance, don’t use indexed access. Most such instances can be replaced by iterator access which, although not automatically safe, makes it much harder to make errors.

Better yet, avoid loops where possible and use higher-order algorithms from the C++ standard library instead.

As an example what a loop-less code could look like:

std::vector<int> arr;
std::generate_n(std::back_inserter(arr), 4,
    [] {
        static int current = 0;
        return current++ * 2;
    });
std::copy(begin(arr), end(arr), std::ostream_iterator<int>(std::cout, "\n"));

This style takes some getting used to but it drastically reduces the opportunity to make errors in code, and renders some error classes impossible a propri.

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This topic has been widely discussed. Generally, in C-language, it's not possible to detect whether a pointer is pointing to a place in an array without knowing some information of the array in advance.

As @Charlie Martin mentioned in his answer to this post, this is because the boundary-check will cost additional operations. As C is commonly used to make speed-sensitive programs(such as hardware driver), boundary-checking is not implemented in the language, but by people who needs it himself.

So, if you want to do the boundary-check, you have to do something like :

int *start = new int[4];
int size=4;
int *arrPtr;
...
for (int i=0,arrPtr=start;i<10;i++){
    arrPtr++;
    if(arrPtr>=start && arrPtr <start+size) // the boundary checking by yourself
       cout<<"arrPtr ["<<i<<"]\t"<<*arrPtr<<endl;
}

In this way the language can let you to decide whether it's worth and necessary to use the additional operations to do the boundary-checking.

And of course, once you decide that you need the boundary-checking in your program, there're already-implemented higher-level data types such as vector.

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It is impossible with plain C-arrays. You can use std::vector, which has API for elements access with bounds checking.

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