Loop-invariant code motion


In computer programming, loop-invariant code consists of statements or expressions which can be moved outside the body of a loop without affecting the semantics of the program. Loop-invariant code motion is a compiler optimization which performs this movement automatically.

Example

In the following code sample, two optimizations can be applied.

int i = 0;
while

Although the calculation x = y + z and x * x is loop-invariant, precautions must be taken before moving the code outside the loop. It is possible that the loop condition is false, and in such case, the loop body should not be executed at all. One way of guaranteeing correct behaviour is using a conditional branch outside of the loop. Evaluating the loop condition can have side effects, so an additional evaluation by the if construct should be compensated by replacing the while loop with a do while. If the code used do while in the first place, the whole guarding process is not needed, as the loop body is guaranteed to execute at least once.

int i = 0;
if

This code can be optimized further. For example, strength reduction could remove the two multiplications inside the loop, and induction variable elimination could then elide i completely. Since 6 * i must be in lock step with i itself, there is no need to have both.

Invariant code detection

Usually, a reaching definitions analysis is used to detect whether a statement or expression is loop invariant.
For example, if all reaching definitions for the operands of some simple expression are outside of the loop, the expression can be moved out of the loop.

Benefits

Loop-invariant code which has been hoisted out of a loop is executed less often, providing a speedup. Another effect of this transformation is allowing constants to be stored in registers and not having to calculate the address and access the memory at each iteration.
However, if too many variables are created, there will be high register pressure, especially on processors with few registers, like the 32-bit x86. If the compiler runs out of registers, some variables will be spilled. To counteract this, the inverse optimization can be performed, rematerialization.