The trouble with pseudocode is that it is easy to get "pseudo" enough that it becomes the same well of ambiguity that we are trying to avoid by getting away from natural languages. "Color be half of the background color?" The fact that this line appears before you iterate through your light sources is confusing. How can you be setting Ishadow before you iterate over light sources?
Maybe a better description would be:
given a ray in space
find nearest object with which ray intersects
for each point light
if normal at surface of intersected object points toward light (use dot product for this)
cast a ray into space from the surface toward the light
if ray intersection is closer than light* light is shadowed at this point
*If you're seeing strange artifacts in your shadows, there is a mistake that is made by every single programmer when they write their first ray tracer. Floating point (or double-precision) math is imprecise and you will frequently (about half the time) re-intersect yourself when doing a shadow trace. The explanation is a bit hard to describe without diagrams, but let me see what I can do.
If you have an intersection point on the surface of a sphere, under most circumstances, that point's representation in a floating point register is not mathematically exact. It is either slightly inside or slightly outside the sphere. If it is inside the sphere and you try to run an intersection test to a light source, the nearest intersection will be the sphere itself. The intersection distance will be very small, so you can simply reject any shadow ray intersection that is closer than, say .000001 units. If your geometry is all convex and incapable of legitimately shadowing itself, then you can simply skip testing the sphere when doing shadow tests.