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I have been struggling with pointer and memory allocation in c for a while.

Here's my implementation for the max subarray problem. It seems to work fine (maybe have bugs). But I have a question about the memory storage for tuple struct object. As you can see, tuple is declared in the global storage. Later in the findMaxSubArray() function, three pointers to Tuple struct are declared. My question is we didn't declare Tuple struct object instances that the pointers (left, right, cross) are addressing how come the pointer dereferences (i.e., left->sum, etc) work. Does the GNU c compiler automatically allocate storage for them? (I don't understand x86 assembly code) Can someone please explain what's going on here? Much appreciated.

#include <iostream>
using namespace std;

#define NEGINFINITY -2 << 31

typedef struct {
  int lowPosition;
  int highPosition;
  int sum;
} Tuple;

Tuple tuple;

Tuple* findMaxCrossingSubArray(int a[], int low, int mid, int high) {
  int leftSum, rightSum;
  int leftMax, rightMax;
  int sum;

  leftSum = rightSum = NEGINFINITY; 
  sum = 0; 
  for (int i = mid; i >= low; --i) {
    sum += a[i]; 
    if (sum > leftSum) {
      leftSum = sum;
      leftMax = i;
    } 
  }

  sum = 0;
  for (int j = mid + 1; j <= high; ++j) {
    sum += a[j];
    if (sum > rightSum) {
      rightSum = sum;
      rightMax = j;
    }
  }

  tuple.lowPosition = leftMax;
  tuple.highPosition = rightMax;
  tuple.sum = leftSum + rightSum;
  return &tuple;
}

Tuple* findMaxSubArray(int* array, int low, int high) {
  Tuple *left, *right, *cross;
  if (high == low) {
    // base case
    tuple.lowPosition = low;
    tuple.highPosition = high;
    tuple.sum = array[low];
    return &tuple;
  } 
  else {
    int mid = (low + high) / 2; 
    left = findMaxSubArray(array, low, mid);
    right = findMaxSubArray(array, mid + 1, high);
    cross = findMaxCrossingSubArray(array, low, mid, high);

    if (left->sum > right->sum && left->sum > cross->sum)
      return left;
    else if (right->sum > left->sum && right->sum > cross->sum)
      return right;
    else
      return cross;
  }
}

int main() {
  Tuple *result;
  int data[] = {1, -2, 3, 10, -4, 7, 2, -5};
  result = findMaxSubArray(data, 0, 7);
  for (int i = 0; i < 8; ++i)
    cout << data[i] << " ";
  cout << endl;
  cout << "The sum of max subarray is " << result->sum 
       << " Starting at index " << result->lowPosition 
       << " ending at index " << result->highPosition << endl;

}
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1  
Does the GNU c compiler automatically allocate storage for them? Ans: NEVER –  Mahesh Aug 30 '11 at 3:31

3 Answers 3

up vote 1 down vote accepted

The global variable tuple is the only actual Tuple in this program. Memory for global variables is managed by the compiler.

In main, Tuple *result is just a pointer which, when you declared it, contains a random number (whatever happened to previously be in the space it now occupies) and thus result points to garbage (not a valid Tuple object).

Then you assign the result of findMaxSubArray to tuple. Since findMaxSubArray returns &tuple (in one way or another) which is a global variable, result points to the global variable tuple. So when you do result->sum, it's the same as doing tuple.sum.

In findMaxSubArray, the line Tuple *left, *right, *cross; declares three pointers to Tuples which contain a garbage value. In one branch of the if you don't use them and just return &tuple, the address of the global variable tuple. In the other branch, you set left, right, and cross to either findMaxCrossingSubArray or findMaxSubArray, which both return &tuple one way or the other.

I do suggest reading a book on C++ and forgetting everything you know about C while using C++ (but remember it all again when you program C again). They are not the same language. This code is riddled with things you learned from your C training (such as #define and typedef struct ... Tuple) for which C++ offers better facilities.

share|improve this answer
    
Thanks for your reply, Seth. Like you said, those pointers(left, right and cross) contain garbage data in the first place. Later on, they are assigned to the address of global variable tuple. Since they are pointing to the same memory location, the comparison will end up falling into the else branch which happens to be the right case. If the if condition changes, my implementation will definitely have problem. I guess I could replace Tuple struct with a class in my implementation. Can you elaborate what are the c++ facilities I can use in my implementation? Thanks a lot. –  itnovice Aug 31 '11 at 1:28
    
@itnovice I think that you'd be better served by starting a new question and asking that there. –  Seth Carnegie Aug 31 '11 at 1:43

The only Tuple ever actually allocated is the tuple at global scope. All the pointers to Tuple, e.g. Tuple* left just point to that global storage. So for example in:

 left = findMaxSubArray(array, low, mid);
 right = findMaxSubArray(array, mid + 1, high);

You will find that left and right both point to the same address and hence have the same pointed to values.

Without working out the detail, and noting that this is C++, not C, you can probably just change the Tuple* return types to Tuple return by value and work with automatic (stack) storage.

The code becomes something like:

Tuple findMaxSubArray(int* array, int low, int high) 
{
  Tuple left, right, cross;
  // blah blah
  if (something)
      return left;
  else
     return right;
 }
share|improve this answer
    
Thanks, Keith. Like you have pointed out, left, right and cross are pointing to the same memory location. If we return Tuple by value, the copy constructor will be invoked which introduces some overhead. Can I return Tuple by reference? Thanks –  itnovice Aug 31 '11 at 1:36

All of your pointers (left, right, and cross) will always point to same memory location of &tuple. If you want different tuples you need to use malloc to create different Tuple strucks on the heap.

share|improve this answer
    
Thanks uperez. Yes, all of the pointers are pointing to the same memory location. –  itnovice Aug 31 '11 at 1:38

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