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);
}
}
```