Issue with implementing “Closest pair of points” in C++

I'm trying to implement Closest pair of points in C++ according to Cormen book and wikipedia article, I think that algorithm is correct, but it does work only for a very small data. Code is below:

``````#include <cstdio>
#include <algorithm>
#include <cmath>
#define REP(i,n) for(int i=0;i<n;i++)

using namespace std;

struct point
{
long long x, y;
};
struct dist
{
long long x_1,y_1,x_2,y_2, distance;
} dis;

inline bool OrdX(const point &a, const point &b)
{
if(a.x==b.x)
{
return a.y<b.y;
}
return a.x<b.x;
}

inline int OrdY(const point &a, const point &b)
{
if(a.y==b.y)
{
return a.x<b.x;
}
return a.y<b.y;
}

// is - function that check is a an element of X_L array
inline bool is(const point &a, point *X_L, int p, int k)
{
if(p<=k)
{
int center = (p+k)/2;

if(X_L[center].x == a.x)
{
return true;
}
if(X_L[center].x > a.x)
{
return is(a, X_L, p, center-1);
}
else
{
return is(a, X_L, center+1, k);
}
}

return false;
}

// odl - function takes two points and return distance between them ^2
inline long long odl(const point &a, const point &b)
{
return ((a.x-b.x)*(a.x-b.x))+((a.y-b.y)*(a.y-b.y));
}

int tmp;

// fun - function that returns the pair of closest points using divide & conquer
struct dist fun(int n, point *X, point *Y)
{
// if there are less that 4 points - it checks it using bruteforce
if(n<4)
{
if(odl(X[0], X[1]) < dis.distance)
{
dis.distance = odl(X[0],X[1]);
dis.x_1 = X[0].x;
dis.y_1 = X[0].y;
dis.x_2 = X[1].x;
dis.y_2 = X[1].y;
}

if(n==3)
{
if(odl(X[0], X[2]) < dis.distance)
{
dis.distance = odl(X[0],X[2]);
dis.x_1 = X[0].x;
dis.y_1 = X[0].y;
dis.x_2 = X[2].x;
dis.y_2 = X[2].y;
}
if(odl(X[1], X[2]) < dis.distance)
{
dis.distance = odl(X[1],X[2]);
dis.x_1 = X[1].x;
dis.y_1 = X[1].y;
dis.x_2 = X[2].x;
dis.y_2 = X[2].y;
}
}
}
// otherwise it divides points into two arrays and runs fun
// recursively foreach part
else
{
int p=n/2;

int PPP = (X[p].x + X[p-1].x)/2;

point *X_L = new point[p];
point *X_R = new point[n-p];
point *Y_L = new point[p];
point *Y_R = new point[n-p];

REP(i,p)
X_L[i] = X[i];

for(int r=p; r<n; r++)
{
X_R[r-p] = X[r];
}

int length_Y_L = 0;
int length_Y_R = 0;

REP(i,n)
{
if(is(Y[i], X_L, 0, p))
{
Y_L[length_Y_L++] = Y[i];
}
else
{
Y_R[length_Y_R++] = Y[i];
}
}

dist D_L = fun(p, X_L, Y_L);
dist D_R = fun(n-p, X_R, Y_R);
dist D;

if(D_L.distance < D_R.distance)
{
D = D_L;
}
else
{
D = D_R;
}

tmp = 0;
point *Y2 = new point[n];

double from = sqrt((double)D.distance);

for(int r=0; r<n; r++)
{
if(Y[r].x > (long long)PPP-from && Y[r].x < (long long)PPP + from)
{
Y2[tmp++] = Y[r];
}
}

//--tmp;
//int xxx = min(7, tmp-r);
int r = 0;
for(int j=1; j<min(7, tmp-r); j++)
{
if(odl(Y2[r], Y2[r+j]) < D.distance)
{
D.distance = odl(Y2[r], Y2[r+j]);
D.x_1 = Y2[r].x;
D.y_1 = Y2[r].y;
D.x_2 = Y2[r+j].x;
D.y_2 = Y2[r+j].y;
}
r++;
}

dis = D;

}
return dis;
}

int main()
{
int n;

n = 7;

point *X = new point[n];
point *Y = new point[n];

for(int i=0; i< 7; i++)
{
X[i].x = 0;
X[i].y = 10*i;
}

/*
REP(i,n)
{
scanf("%lld %lld", &X[i].x, &X[i].y);
}
*/
sort(X, X+n, OrdX);

REP(i,n)
Y[i] = X[i];

sort(Y, Y+n, OrdY);

dis.distance = odl(X[0], X[1]);

dis.x_1 = X[0].x;
dis.y_1 = X[0].y;
dis.x_2 = X[1].x;
dis.y_2 = X[1].y;

dist wynik = fun(n, X, Y);

printf(" %lld %lld\n %lld %lld\n", wynik.x_1, wynik.y_1, wynik.x_2, wynik.y_2);
return 0;
}
``````

and I get this error:

`````` malloc.c:3096: sYSMALLOc: Assertion `(old_top == (((mbinptr) (((char
*) &((av)->bins[((1) - 1) * 2])) - __builtin_offsetof (struct
malloc_chunk, fd)))) && old_size == 0) || ((unsigned long) (old_size)
>= (unsigned long)((((__builtin_offsetof (struct malloc_chunk,
fd_nextsize))+((2 * (sizeof(size_t))) - 1)) & ~((2 * (sizeof(size_t)))
- 1))) && ((old_top)->size & 0x1) && ((unsigned long)old_end &
``````

I've tried loooking for explanation of this error but can't find anything clear for me :/. Can You please help me to solve this ? Thanks

-
That's a nice wall of code you got there. Care to format it for us? –  sehe Apr 1 '12 at 20:14
At the fourth line I think "This code is so bad, would I have to maintain it, I'd rather write it anew over the weekend." And thus endedth my attempt at answering your question. –  sbi Apr 1 '12 at 20:16
sorry but I'm not good at writing C/C++ code, and such comments unfortunately doesn't solve my problem at all. I'm still learning, as all of us.. –  Conrad Apr 1 '12 at 20:20
@ the OP: I would fire up a debugger and step through it. –  pg1989 Apr 1 '12 at 20:21
@Conrad: for starters, 1) please don't abuse `#define`s. (Line 4 of your source is definitely an abuse.) 2) The `inline` keyword should only be used sparingly if at all (the compiler will inline things if it feels like it; the `inline` keyword is not usually required.) 3) use meaningful names, and comment your code! (what does `odl()` do? What does `fun()` do?) –  Li-aung Yip Apr 1 '12 at 20:26

The message means you've done something bad with dynamically allocated memory. Perhaps you freed an object twice, or wrote into memory beyond the beginning or end of an array-like dynamically allocated object.

On Linux, the tool `valgrind` may help pin-point the first place in your program's execution where it made a boo-boo.

``````#define REP(i,n) for(int i=0;i<n;i++)
``````

is poorly defined. The substitution of `n` should be parenthesized, because `n` could be an expression which has the wrong precedence with respect to the `<` operator. For instance: `REP(i, k < m ? z : w)`. You want:

``````#define REP(var,n) for(int var=0;var<(n);var++)
``````

The `var` reminds the programmer that this argument is a variable name, and not an arbitrary expression.

-
Even better (but still C style, not C++): `#define REP(type,var,n) for(type var=0;var<(n);var++)`. The reason is that the use is more informative: `REP(int,i,5) { printf("%d", i); }` –  MSalters Apr 2 '12 at 8:22

Your function `is` is redundant; that's just `std::binary_search`. That would help a lot with @sbi's problem of readability.

There's also quite a bit of redundancy in blocks like

``````        dis.distance = odl(X[0],X[1]);
dis.x_1 = X[0].x;
dis.y_1 = X[0].y;
dis.x_2 = X[1].x;
dis.y_2 = X[1].y;
``````

You can write a simple function `dist calcDist(point,point)` for this. You should probably move all the point definitions and associated functions to a separate header `"point.h"`, again to keep things readable.

As for the memory issue: first, the arrays `X_L` and `X_R` are not really necessary. They contain the same data as `X`, so you can make them pointers to `&(X[0])` and `&(X[p)` respectively. `Y_L` and `Y_R` are shuffled versions, so you do need to the arrays to copy data to. However, if you allocate them with `new[]`, you are responsible for cleanup with `delete[]`. It looks like you can just use a `std::vector<point> Y_L` instead. No need to do bookkeeping, `vector` does that for you. Just call `Y_L.push_back(Y[i])`.

-