I have a standard scene graph written in opengl with c++.

My scene graph has nodes and shapes.

Nodes are matrices, and they draw all of their children after applying their matrix.

```
void Node::draw(Affine3f amatrix) const
{
amatrix = amatrix * matrix;
for (Drawable* child : childern)
{
child->draw(amatrix);
}
}
```

Shapes are simply packaged vbos, they take the matrix from the draw call, set it as the uniform modelview matrix, and then draw the vbo.

```
void Shape::draw(Affine3f mat) const
{
renderer.setModelView(mat);
myVertices.draw();
}
```

I love this design, it is very simple and flexible. But, it is very inefficient, with tons of CPU side matrix multiplications and tons of draw calls.

My question is:

**How can I optimize this design, removing both unneeded matrix multiplications and unnecessary draw calls?**

Like not recalculating matrices each draw(only calculate changed) and uniting the shapes so that they can be drawn with one call.

Some more information:

- Shapes are static(for now), the vertices contained will never change.
- There is a mix of static geometry(live at root node with no manipulation) and dynamic geometry(children of manipulated nodes)