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I'm trying to implement the Graham Scan in C++ but it doesn't work and I can't find why. Any lead would be appreciated. After some tries it seems that I always have m_M = 2 and the 2 points are the highest-y points, if that help.

Cross product to know if it's a right turn or a left turn.

qreal Interpolation::ccw(QPointF pt1, QPointF pt2, QPointF pt3)
{
    return (pt2.x()-pt1.x())*(pt3.y()-pt1.y()) - (pt2.y()-pt1.y())*(pt3.x()-pt1.x());
}

Dot product divided by the norm to have the cos because sorting the angle is the same as sorting the cos in [0, Pi].

qreal Interpolation::dp(QPointF pt1, QPointF pt2)
{
    return (pt2.x()-pt1.x())/qSqrt((pt2.x()-pt1.x())*(pt2.x()-pt1.x()) + (pt2.y()-pt1.y())*(pt2.y()-pt1.y()));
}

The main function:

void Interpolation::ConvexHull()
{
    QPointF points[m_N+1]; // My number of points
    QPointF pt_temp(m_pt[0]);
    qreal angle_temp(0);
    int k_temp(0);

Fill the array points with points[1] being the lower-y point:

    for (int i(1); i < m_N; ++i)
    {
        if (m_pt[i].y() < pt_temp.y())
        {
            points[i+1] = pt_temp;
            pt_temp = m_pt[i];
        }
        else
        {
            points[i+1] = m_pt[i];
        }
    }
    points[1] = pt_temp;

Sorting the points array by angle and doing points[m_N] = points[0]

    for (int i(2); i <= m_N; ++i)
    {
        pt_temp = points[i];
        angle_temp = dp(points[1], pt_temp);
        k_temp = i;
        for (int j(1); j <= m_N-i; ++j)
        {
            if (dp(points[1], points[i+j]) < angle_temp)
            {
                pt_temp = points[i+j];
                angle_temp = dp(points[1], points[i+j]);
                k_temp = i+j;
            }
        }
        points[k_temp] = points[i];
        points[i] = pt_temp;
    }
    points[0] = points[m_N];

Executing the Graham scan

    m_M = 1; // Number of points on the convex hull.

    for (int i(2); i <= m_N; ++i)
    {
        while (ccw(points[m_M-1], points[m_M], points[i]) <= 0)
        {
            if (m_M > 1)
            {
                m_M -= 1;
            }
            else if (i == m_N)
            {
                break;
            }
            else
            {
                i += 1;
            }
        }
        m_M += 1;
        pt_temp = points[m_M];
        points[m_M] = points[i];
        points[i] = points[m_M];
    }

Saving the points to m_convexHull which should be the list of the points on the hull with ConvexHull[m_M]=[ConvexHull[0]

    for (int i(0); i < m_M; ++i)
    {
        m_convexHull.push_back(points[i+1]);
    }
    m_convexHull.push_back(points[1]);
}
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  • Leo, please don't edit questions with a solution you found yourself. If you ask a question and then later find the answer on your own, post your answer as an answer, and leave the original post unchanged. After the time has elapsed, you can then accept your own answer. Jun 19, 2012 at 19:36
  • @JohnDibling I followed your advice and replaced the edit with a correct answer.
    – Leo
    Jun 19, 2012 at 19:38
  • 1
    Great, thanks. Now if a future StackOverflow user searches for this same problem, it will be easier to parse the problem from the solution. After a few minutes have passed, you can accept your answer. I've upvoted both the Q and A. Enjoy the rep. :) Jun 19, 2012 at 19:41

1 Answer 1

10

I found the problem. It lies with the sentence:

Dot product divided by the norm to have the cos because sorting the angle is the same as sorting the cos in [0, Pi].

The lower the angle, the higher the cos, so I just had to change this line of code:

            if (dp(points[1], points[i+j]) < angle_temp)

to:

            if (dp(points[1], points[i+j]) > angle_temp)

and now it works perfectly!

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