# What is the most efficient way to enumerate vertices of k dimensional hypercube in C++?

Basic Question: I have a k dimensional box. I have a vector of upper bounds and lower bounds. What is the most efficient way to enumerate the coordinates of the vertices?

Background: As an example, say I have a 3 dimensional box. What is the most efficient algorithm / code to obtain:

``````vertex[0] = ( 0, 0, 0 ) -> ( L_0, L_1, L_2 )
vertex[1] = ( 0, 0, 1 ) -> ( L_0, L_1, U_2 )
vertex[2] = ( 0, 1, 0 ) -> ( L_0, U_1, L_2 )
vertex[3] = ( 0, 1, 1 ) -> ( L_0, U_1, U_2 )

vertex[4] = ( 1, 0, 0 ) -> ( U_0, L_1, L_2 )
vertex[5] = ( 1, 0, 1 ) -> ( U_0, L_1, U_2 )
vertex[6] = ( 1, 1, 0 ) -> ( U_0, U_1, L_2 )
vertex[7] = ( 1, 1, 1 ) -> ( U_0, U_1, U_2 )
``````

where L_0 corresponds to the 0'th element of the lower bound vector & likewise U_2 is the 2nd element of the upper bound vector.

My Code:

``````const unsigned int nVertices = ((unsigned int)(floor(std::pow( 2.0, double(nDimensions)))));

for ( unsigned int idx=0; idx < nVertices; ++idx )
{
for ( unsigned int k=0; k < nDimensions; ++k )
{
if ( 0x00000001 & (idx >> k) )
{
bound[idx][k] = upperBound[k];
}
else
{
bound[idx][k] = lowerBound[k];
}
}
}
``````

where the variable `bound` is declared as:

``````std::vector< std::vector<double> > bound(nVertices);
``````

but I've pre-sized it so as not to waste time in the loop allocating memory. I need to call the above procedure about 50,000,000 times every time I run my algorithm -- so I need this to be really efficient.

Possible Sub-Questions: Does it tend to be faster to shift by k instead of always shifting by 1 and storing an intermediate result? (Should I be using >>= ??)

-
How opposed would you be to poking about in assembler? And, one more thing: Profile, Profile, Profile. Take the suggestions here and test then to see where they are fast and where they are slow. – Theo Belaire Dec 7 '10 at 3:56
How big is k? Is it fixed? – Emile Cormier Dec 7 '10 at 3:57
I've profiled the code using Vtune with MSVS 2005. I'm happy to work in assembler - though I compile to a variety of targets so I'm more particular to algorithmic suggestions than architecture specific, but if it really sings then all the better! -- I should note: Xeon X5550 & Core i7 930 targets primarily. – M. Tibbits Dec 7 '10 at 4:03
K is not fixed. I'm presently analyzing datasets with k = 25, 50, 100, 500. – M. Tibbits Dec 7 '10 at 4:03
Also, if you use size_t instead of unsigned int, you'll be able to access as many elements as your system's memory can hold. – Emile Cormier Dec 7 '10 at 5:22

It will probably go faster if you can reduce conditional branching:

``````bound[idx][k] = upperLowerBounds[(idx >> k) & 1][k];
``````

You might improve things even more if you can interleave the upper and lower bounds in a single array:

``````bound[idx][k] = upperLowerBounds[(k << 1) | (idx >> k)&1];
``````

I don't know if shifting `idx` incrementally helps. It's simple enough to implement, so it's worth a try.

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My first pass on implementing your suggestion gave me a 40% improvement. Thanx! – M. Tibbits Dec 7 '10 at 4:37