I had exactly the case in our library. We had a generic string mapping module that could use different sizes for the index, 8, 16 or 32 bit (for historic reasons). So the code was full of code like that:
if(map->idxSiz == 1)
return ((BYTE *)map->idx)[Pos] = ...whatever
if(map->idxSiz == 2)
return ((WORD *)map->idx)[Pos] = ...whatever
return ((LONG *)map->idx)[Pos] = ...whatever
There were 100 of lines like that. In a first step I changed it an union and I found it was more readable.
case 1: return map->idx.u8[Pos] = ...whatever
case 2: return map->idx.u16[Pos] = ...whatever
case 3: return map->idx.u32[Pos] = ...whatever
This alowed me to see better what was going on and I could then decide to remove completely the idxSiz variants using only 32 bit indexes. But this was only possible once the code got more readable.
PS: That was only a minor part of our project which is about several 100 thousands of line of code written by people who do not exist anymore. So the changes in code are gradual so as not to break the applications.
Conclusion: Even if people are less used to the union variant, I prefer it because it can make the code much lighter to read. On big projects, it is extremely important to make the code more readable, even if it is yourself that will read it later.
Edit: Added the comment, as comments do not format code:
The change to switch came before (this is now the real code as it was)
case 2: ((uint16_t*)this->iSort)[Pos-1] = (uint16_t)this->header.nUz; break;
case 4: ((uint32_t*)this->iSort)[Pos-1] = this->header.nUz; break;
was changed to
case 2: this->iSort.u16[Pos-1] = this->header.nUz; break;
case 4: this->iSort.u32[Pos-1] = this->header.nUz; break;
I shouldn't have combined all the beautification I did in the code and only show that step. But I posted my answer from home where I had no access to the code