I don't think it's common to fill an unrolled loop with conditional exits. That breaks most of the instruction scheduling which unrolling allows. What's more common is to check beforehand that the loop has at least
n iterations remaining before entering into the unrolled section.
To acheive this the compiler may generate elaborate preamble and postamble to align the loop data for better vectorisation or better instruction scheduling, and to handle the remainder of the iterations which do not divide evenly into the unrolled section of the loop.
It can turn out (worst possible case) that the loop only runs zero or one time, or maybe twice in exceptional circumstances. Then only a small part of the loop would be executed, but many extra tests would be performed to get there. Worse; the alignment preamble might mean that different branch conditions occur in different calls, causing additional branch misprediction stalls.
These are all meant to cancel out over a large number of iterations, but for short loops this doesn't happen.
On top of this, you have the increased code size, where all of these unrolled loops together contribute to reducing icache efficiency.
And some architectures special-case very short loops to use their internal buffers without even referring to the cache.
And modern architectures have fairly extensive instruction reordering, even around memory accesses, which means that the compiler's reordering of the loop might offer no additional benefits even in the best case.