I've got a kernel with a simple array declaration and initialization, and an extra function "get_smooth_vertex(...)", which I have changed so as to demonstrate a problem:

```
//More const __constant declarations
const __constant int edge_parents[12][2] = { {0,1}, {0,2}, {1,3}, {2,3}, {0,4}, {1,5}, {2,6}, {3,7}, {4,5}, {4,6}, {5,7}, {6,7} };
//More Functions
float3 get_smooth_vertex(const int edge_index, const float* cube_potentials) {
int i1 = edge_parents[edge_index][0];
int i2 = edge_parents[edge_index][1];
if (i1==i2) return (float3)(0);\n"
return (float3)(1);\n"
}
__kernel void march(const __global float* potentials, __global float* vertices, __global float* normals, const __constant float4* points, const int numof_points) {
//Lots of stuff.
//Call get_smooth_vertex(...) a few times
//More stuff.
}
```

The if path in "get_smooth_vertex(...)" always seems to get executed! Now, I can't imagine why this would be, because each pair in "edge_parents" is different. I checked "edge_index", and it is always >= 0 and always <= 11. Furthermore, none of the variables are aliased in global or local scope. The kernel (and host code, FWIW) compiles with no warnings or errors.

So, I can't figure out what's wrong--why would the indices equal each other? Alignment, maybe? Am I just completely forgetting how C works or something? Watch--it's going to be royal user error . . .

Thanks,

Ian