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Merge pull request #22 from sahanihit/master
Create Closest pair of points - Geometrical Algorithms
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| #include <iostream> | ||
| #include <float.h> | ||
| #include <stdlib.h> | ||
| #include <math.h> | ||
| using namespace std; | ||
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| struct Point | ||
| { | ||
| int x, y; | ||
| }; | ||
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| int compareX(const void* a, const void* b) | ||
| { | ||
| Point *p1 = (Point *)a, *p2 = (Point *)b; | ||
| return (p1->x != p2->x) ? (p1->x - p2->x) : (p1->y - p2->y); | ||
| } | ||
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| int compareY(const void* a, const void* b) | ||
| { | ||
| Point *p1 = (Point *)a, *p2 = (Point *)b; | ||
| return (p1->y != p2->y) ? (p1->y - p2->y) : (p1->x - p2->x); | ||
| } | ||
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| float dist(Point p1, Point p2) | ||
| { | ||
| return sqrt( (p1.x - p2.x)*(p1.x - p2.x) + | ||
| (p1.y - p2.y)*(p1.y - p2.y) | ||
| ); | ||
| } | ||
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| float bruteForce(Point P[], int n) | ||
| { | ||
| float min = FLT_MAX; | ||
| for (int i = 0; i < n; ++i) | ||
| for (int j = i+1; j < n; ++j) | ||
| if (dist(P[i], P[j]) < min) | ||
| min = dist(P[i], P[j]); | ||
| return min; | ||
| } | ||
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| float min(float x, float y) | ||
| { | ||
| return (x < y)? x : y; | ||
| } | ||
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| float stripClosest(Point strip[], int size, float d) | ||
| { | ||
| float min = d; // Initialize the minimum distance as d | ||
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| for (int i = 0; i < size; ++i) | ||
| for (int j = i+1; j < size && (strip[j].y - strip[i].y) < min; ++j) | ||
| if (dist(strip[i],strip[j]) < min) | ||
| min = dist(strip[i], strip[j]); | ||
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| return min; | ||
| } | ||
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| float closestUtil(Point Px[], Point Py[], int n) | ||
| { | ||
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| if (n <= 3) | ||
| return bruteForce(Px, n); | ||
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| int mid = n/2; | ||
| Point midPoint = Px[mid]; | ||
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| Point Pyl[mid]; | ||
| Point Pyr[n-mid]; | ||
| int li = 0, ri = 0; | ||
| for (int i = 0; i < n; i++) | ||
| { | ||
| if ((Py[i].x < midPoint.x || (Py[i].x == midPoint.x && Py[i].y < midPoint.y)) && li<mid) | ||
| Pyl[li++] = Py[i]; | ||
| else | ||
| Pyr[ri++] = Py[i]; | ||
| } | ||
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| float dl = closestUtil(Px, Pyl, mid); | ||
| float dr = closestUtil(Px + mid, Pyr, n-mid); | ||
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| float d = min(dl, dr); | ||
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| Point strip[n]; | ||
| int j = 0; | ||
| for (int i = 0; i < n; i++) | ||
| if (abs(Py[i].x - midPoint.x) < d) | ||
| strip[j] = Py[i], j++; | ||
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| return stripClosest(strip, j, d); | ||
| } | ||
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| float closest(Point P[], int n) | ||
| { | ||
| Point Px[n]; | ||
| Point Py[n]; | ||
| for (int i = 0; i < n; i++) | ||
| { | ||
| Px[i] = P[i]; | ||
| Py[i] = P[i]; | ||
| } | ||
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| qsort(Px, n, sizeof(Point), compareX); | ||
| qsort(Py, n, sizeof(Point), compareY); | ||
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| return closestUtil(Px, Py, n); | ||
| } | ||
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| // Driver program to test above functions | ||
| int main() | ||
| { | ||
| Point P[] = {{2, 3}, {12, 30}, {40, 50}, {5, 1}, {12, 10}, {3, 4}}; | ||
| int n = sizeof(P) / sizeof(P[0]); | ||
| cout << "The smallest distance is " << closest(P, n); | ||
| return 0; | ||
| } |