# NULL-pointer associated with vector

In my ray tracer I am constructing a Bounding Volume Hierarchy. I have used a couple of days trying to fix this error but I seem to be doing something fundamentally wrong.

This first method is the construction being called is the one below using a typedef std::vector Objects array.

``````void BVH::build(Objects* objs)
{
// construct the bounding volume hierarchy
int size = objs->size();

// Calculate the bounding box for this node
BBox bb = (*objs)[0]->boundingBox();
for ( int p = 1; p < size; p++ )
bb.expandToInclude( (*objs)[p]->boundingBox());
Vector3 pivot = (bb.max + bb.min) * 0.5f;
tree.bbox = bb;

int split = qsplit(objs, size, pivot.x, 0);

tree.left = subdivision(objs, split, 1);
tree.right = subdivision(&objs[split], size - split, 1);
}
``````

This method is used by the one below to construct the leaf nodes in my binary tree.

``````Node* BVH::makeLeaf(Objects* objs, int num)
{
Node* node = new Node;
if ( num == 1 ) { node->objs = &objs[0]; }
else if ( num == 2 ) { node->objs = ((&objs)[0],(&objs)[1]); }
node->isLeaf = true;
return node;
}
``````

This is a recursive method using the array of Objects to split and construct nodes and leaf nodes.

``````Node* BVH::subdivision(Objects* objs, int size, int axis)
{
if ( size == 1 ) { return makeLeaf(objs, 1); }
if ( size == 2 ) { return makeLeaf(objs, 2); }

Node* node = new Node;
node->isLeaf = false;

BBox bb = (*objs)[0]->boundingBox();
for ( int p = 1; p < size; p++ )
bb.expandToInclude((*objs)[p]->boundingBox());
node->bbox = bb;
Vector3 pivot = (bb.max + bb.min) * 0.5f;

int split = qsplit(objs, size, pivot[axis], axis);

node->left = subdivision(objs, split, (axis + 1) % 3);
node->right = subdivision(&objs[split], size - split, (axis + 1) % 3);

return node;
}
``````

Running this code will give me an segmentation-fault inside subdivision.

Here's a post of the null pointer from gdb:

``````debug: Loading "teapot.obj"...
debug: Loaded "teapot.obj" with 576 triangles

Program received signal SIGSEGV, Segmentation fault.
0x000000000040bb9e in BVH::subdivision (this=0x61f0c0, objs=0x61f100, size=5, axis=1) at BVH.cpp:44
44      BBox bb = (*objs)[0]->boundingBox();
(gdb) bt
0  0x000000000040bb9e in BVH::subdivision (this=0x61f0c0, objs=0x61f100, size=5, axis=1) at BVH.cpp:44
1  0x000000000040bdef in BVH::subdivision (this=0x61f0c0, objs=0x61f0a0, size=9, axis=0) at BVH.cpp:56
2  0x000000000040bd62 in BVH::subdivision (this=0x61f0c0, objs=0x61f0a0, size=18, axis=2) at BVH.cpp:53
3  0x000000000040bd62 in BVH::subdivision (this=0x61f0c0, objs=0x61f0a0, size=36, axis=1) at BVH.cpp:53
4  0x000000000040bd62 in BVH::subdivision (this=0x61f0c0, objs=0x61f0a0, size=72, axis=0) at BVH.cpp:53
5  0x000000000040bd62 in BVH::subdivision (this=0x61f0c0, objs=0x61f0a0, size=144, axis=2) at BVH.cpp:53
6  0x000000000040bd62 in BVH::subdivision (this=0x61f0c0, objs=0x61f0a0, size=288, axis=1) at BVH.cpp:53
7  0x000000000040b9ca in BVH::build (this=0x61f0c0, objs=0x61f0a0) at BVH.cpp:21
8  0x00000000004121ac in Scene::preCalc (this=0x61f0a0) at Scene.cpp:42
9  0x0000000000402fde in makeTeapotScene () at assignment1.cpp:113
10 0x000000000040f973 in main (argc=1, argv=0x7fffffffe798) at main.cpp:65
(gdb) p (*objs)[0]
\$1 = (Object *&) @0x0: <error reading variable>
``````
-
Why are you using a pointer to a `vector`, and a `vector` that holds pointers, and why are you combining those two :) ? – us2012 Mar 13 '13 at 21:41
Because the guy who made the framework defined this build function to receive this vector<Object*> which I totally agree is crazy, but never the less is what I have to deal with. – miniwolf Mar 13 '13 at 21:43
In the meantime, it may be worth using valgrind: gdb only catches the problems once it's definitely too late, valgrind may give you valuable infos if you're accidentally accessing arrays out of bounds or similar things. – us2012 Mar 13 '13 at 21:45

``````(&objs)[0]
``````

Is the same as

``````*(&objs)
``````

which is the same as

``````objs
``````

In the same way,

``````(&objs)[1]
``````

is the same as

``````objs + 1
``````

which is most likely not the address of a valid object.

The line

``````node->objs = ((&objs)[0],(&objs)[1]);
``````

since it uses the comma operator, throws away the value of `(&objs)[0]` and sets `node->objs` to `objs + 1`, which is invalid.

It's unclear what you expect that assignment to accomplish, so I have no idea what you should replace it with.

-
After a talk with a friend of mine I replaced that piece of gode with: node->objs = new std::vector<Object*>; if ( num == 1 ) node->objs->push_back((*objs)[0]); } else if ( num == 2 ) { node->objs->push_back((*objs)[0]); node->objs->push_back((*objs)[1]); } – miniwolf Mar 13 '13 at 21:49
+1 for this answer. @miniwolf, you still have the same problem in at least one more place: `node->right = subdivision(&objs[split]...` – us2012 Mar 13 '13 at 21:50

After using many hours on this interesting typedef, I got help from a friend and we wrote an adapter method to turn

``````vector<Object*>* into vector<Object*>&
``````

which gave every method a much cleaner and nicer look.

``````void BVH::build(Objects* objs_orig)
{
m_objects = objs_orig;
std::vector<Object*>* objs = objs_orig;
return build(*objs);
}

void BVH::build(const std::vector<Object*>& objs)
{
tree = makeTree(objs, 1);
}
``````
-