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I read many sample code about opengl picking. Nearly all of them use gluPerspective funcion for projection.I'm using glOrtho instead of gluPerspective function.

And my Selection function is as below(DrawBuffer is my paint code):

void Selection( int x, int y )
{
    GLuint buffer[512];
    GLint hits;

    GLint viewport[4];
    glGetIntegerv(GL_VIEWPORT, viewport);
    glSelectBuffer(512, buffer);

    (void)glRenderMode(GL_SELECT);

    glInitNames();
    glPushName(0);

    glMatrixMode(GL_PROJECTION);
    glPushMatrix();
    glLoadIdentity();

    GLdouble w = (double)m_ClientRect.Width();
    GLdouble h = (double)m_ClientRect.Height();
    gluPickMatrix((GLdouble)x, (GLdouble)(viewport[3] - y), 500, 500, viewport);
    glOrtho(-w / 2, w / 2, -h / 2, h / 2, -1000000.0, 100000.0);
    glMatrixMode(GL_MODELVIEW);
    DrawBuffer();
    glMatrixMode(GL_PROJECTION);
    glPopMatrix();
    glMatrixMode(GL_MODELVIEW);
    hits = glRenderMode(GL_RENDER);

    if (hits > 0)
    {
        TRACE(_T("%d %d %d %d %d\n"), hits, buffer[0], buffer[1], buffer[2], buffer[3]);
    }
}

But it doesn't work, I can't figure out the reason? Another problem is: When I using glDrawArrays function to draw many lines, how can I call glLoadName to flag each of them?

My raytracer algorithm is as follow:

void CGraphicView::KDSearch( PICKING_VERTEX *root, CRay *pRay, PICKING_VERTEX **found, double *dCurSplit )
{
    if (NULL == root)
    {
        return;
    }
    SearchNode(root, m_pRay, m_globaltMin, m_globaltMax, found, dCurSplit);
}

void CGraphicView::SearchNode( PICKING_VERTEX *node, CRay *pRay, double tmin, double tmax, PICKING_VERTEX **found, double *dCurSplit )
{
    if (NULL == node)
    {
        return;
    }
    if (node->bLeaf)
    {
        SearchLeaf(node, pRay, tmin, tmax, found, dCurSplit);
    }
    else
    {
        SearchSplit(node, pRay, tmin, tmax, found, dCurSplit);
    }
}

void CGraphicView::SearchSplit( PICKING_VERTEX *split, CRay *pRay, double tmin, double tmax, PICKING_VERTEX **found, double *dCurSplit )
{
    if (NULL == split)
    {
        return;
    }
    int axis = split->axis;
    double thit = pRay->GetSplit(axis, split->coor[axis]);

    Point3D pSrc(split->coor[0], split->coor[1], split->coor[2]);
    double scale = m_pCam->GetScale();
    double disP2L = DistanceP2L(pSrc, m_RayStart, m_RayEnd);
    if (disP2L * scale < MAX_DISTANCE && thit < *dCurSplit)
    {
        *found = split;
        *dCurSplit = thit;
    }

    PICKING_VERTEX *first = NULL, *second = NULL;
    if (IS_EQUAL_FLOAT(pRay->m_direction[axis], 0.0))
    {
        first = (pRay->m_origin[axis] < split->coor[axis]) ? split->left : split->right;
    }
    else
    {
        first = (pRay->m_direction[axis] > 0.0) ? split->left: split->right;
        second = (pRay->m_direction[axis] < 0.0) ? split->left : split->right;
    }

    if ((thit >= tmax || thit < 0))
    {
        SearchNode(first, pRay, tmin, tmax, found, dCurSplit);
    }
    else if (thit <= tmin)
    {
        SearchNode(second, pRay, tmin, tmax, found, dCurSplit);
    }
    else
    {
        SearchNode(first, pRay, tmin, thit, found, dCurSplit);
    }
}

void CGraphicView::SearchLeaf( PICKING_VERTEX *leaf, CRay *pRay, double tmin, double tmax, PICKING_VERTEX **found, double *dCurSplit )
{
    if (NULL == leaf)
    {
        return;
    }

    int axis = leaf->axis;
    double thit = pRay->GetSplit(axis, leaf->coor[axis]);

    Point3D pSrc(leaf->coor[0], leaf->coor[1], leaf->coor[2]);
    double scale = m_pCam->GetScale();
    double disP2L = DistanceP2L(pSrc, m_RayStart, m_RayEnd);
    if (disP2L * scale < MAX_DISTANCE && thit < *dCurSplit)
    {
        *found = leaf;
        *dCurSplit = thit;
    }

    ContinueSearch(leaf, pRay, tmin, tmax, found, dCurSplit);
}

void CGraphicView::ContinueSearch( PICKING_VERTEX *leaf, CRay *pRay, double tmin, double tmax, PICKING_VERTEX **found, double *dCurSplit )
{
    if (IS_EQUAL_FLOAT(tmax, m_globaltMax))
    {
        return;
    }
    else
    {
        tmin = tmax;
        tmax = m_globaltMax;
        SearchNode(m_root, pRay, tmin, tmax, found, dCurSplit);
    }
}
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2 Answers 2

When I using glDrawArrays function to draw many lines, how can I call glLoadName to flag each of them?

You can't. And frankly: You should not use OpenGL selection mode in the first place! It's slow, no current driver supports it (you'll always drop back into software emulation mode with it), it doesn't work (well) with shaders and is cumbersome to use.

A far better alternative is to either backproject selection rays into the scene or (if modern OpenGL is used) to use a transform feedback buffer applied in bounding boxes (or other kind of bounding volume) to sort geometry into a screen space Kd-tree from where you can quickly select what's been clicked onto.

share|improve this answer
    
Because I draw the lines with function glDrawArrays, so I cut the graphic into small lines and use the endpoints of lines to built KD tree, because in 3D, I must change the mouse coordinate to the world coordinate, the result is very big. –  Merlin May 24 '13 at 5:59
    
@Merlin: If performance is your primary concern, then stay away from OpenGL selection mode. It's about the slowest picking method there is. Also the size of the resulting data structure scales proportionally with the amount of lines. When you think about "very big", can you quantify it? kilobytes? Megabytes? What's the actual number? Don't guess, calculate, or make a sound estimation. –  datenwolf May 24 '13 at 7:36
    
:Because I am using glOrtho function, near and far parameters are -1000000.0 and 1000000.0, if setting too small some graphics may be missing, the 3D coordinate is too big in z-axis. –  Merlin May 24 '13 at 7:59
    
@Merlin: Ah, by big you mean "large numerical value". But that's no problem, because you're using floating point, where each number has the same size. Also for that Kd-tree the depth coordinate matters, only XY is of interest for picking. If doing a screen space KD-tree approach you can simply drop the Z coordinate. –  datenwolf May 24 '13 at 8:18
    
thx, Another problem, while doing a screen space KD-tree approach, I can't get a right answer. I can't figure out whether the problem lies in the KD-tree or my own problem. My KD-tree algorithm is follow link –  Merlin May 24 '13 at 8:32

Well, from memory one way to debug hits == 0 was to use exactly the same pick matrix for a normal render, or in this case just comment out the glRenderMode calls. If you don't see anything drawn, then no part of your scene intersects the pick area and the selection code is just doing what you told it to.

However, datenwolf is right and you really should avoid OpenGL selection mode. It's horrible.

A fairly simple way to implement picking that doesn't require raycasting or Kd-trees is to draw each object in a different color. Assuming every object has a unique identifier number (which you'd need for glLoadName anyway), convert it into an 3 byte RGB color value. Draw the scene into the back buffer only, then read the pixel under the mouse coordinates. That RGB value will be the identifier of the frontmost object.

share|improve this answer
    
There is something wrong with the function find_median of the kdtree I used. At the return statement, the judgement is incorrect. Can you help me figure out the return judgement. –  Merlin Jun 6 '13 at 7:09

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