The generated code for
switch-case conventionally uses a jump table. In this case, the direct return through a look-up table seems to be an optimization making use of the fact that every case here involves a return. Though the standard makes no guarantees to that effect, I would be surprised if a compiler were to generate a series of compares instead of a jump-table for a conventional switch-case.
Now coming to
if-else, it is the exact opposite. While
switch-case executes in constant time, irrespective of the number of branches,
if-else is optimized for a smaller number of branches. Here, you would expect the compiler to basically generate a series of comparisons in the order that you have written them.
So if I had used
if-else because I expect most calls to
square() to be for
1 and rarely for other values, then 'optimizing' this to a table-lookup could actually cause my code to run slower than I expect, defeating my purpose for using an
if instead of a
switch. So although it is debatable, I feel GCC is doing the right thing and clang is being overly aggressive in its optimization.
Someone had, in the comments, shared a link where clang does this optimization and generates lookup-table based code for
if-else as well. Something notable happens when we reduce the number of cases to just two (and a default) with clang. It once again generates identical code for both if and switch, but this time,
switches over to compares and moves instead of the lookup-table approach, for both. This means that even the switch-favoring clang knows that the 'if' pattern is more optimal when the number of cases is small!
In summary, a sequence of compares for
if-else and a jump-table for
switch-case is the standard pattern that compilers tend to follow and developers tend to expect when they write code. However, for certain special cases, some compilers might chose to break this pattern where they feel it provides better optimization. Other compilers might just choose to stick to the pattern anyway, even if apparently sub-optimal, trusting the developer to know what he wants. Both are valid approaches with their own advantages and disadvantages.