The code is useless as it stands now, but perhaps the use anticipates future maintenance in which more lines will be added between the redundant initialization and assignment such that the initialization is no longer redundant.
The code may also have been the result of a deletion. That is, perhaps some code existed between the declaration and assignment, but was since removed, and no cleanup was done to merge the assignment into the initialization. Of course, there is no point to the code being the way it is; in this situation, we just have a historical explanation about how it got that way (and perhaps justification to change it).
Sometimes seemingly useless variable initializations occur as the result of someone having had to silence a compiler warning about a "potentially unused" variable, which can happen if there is more than one way to reach the block of code where the variable is used, and the compiler isn't sophisticated enough to prove that in all cases the variable is somehow initialized by assignment.
Initializing all variables at the point where they are declared is a good habit because it reduces the potential for unpredictable behavior as a result of uninitialized data. Some argue that certain static tools work less well when uninitialized variables are obliterated with initializations that give them inappropriate values, making bugs harder to find. However, bugs are more repeatable if they are based on initialized data, and the buggy behavior quite probably also portable among platforms, too.
Some languages initialize your locals for you. In Lisp, (let (x) ...) means that in the code block
x has the value
NIL, since there is no initializer. Static analysis of Lisp code can easily trace facts such as that
NIL is being inappropriately passed to a numeric function. In C and related languages, the issues are a bit different, because for type like
int, there is no equivalent of a wrong-type value such as
0 is substituted, which is a valid value and will not simply blow up the computations with a type mismatch. An inappropriate
0 can lead to an algorithmic bug in a calculation. In the case of pointers, however, the null pointer value is a reasonable facsimile of
NIL in that it is a programmer-visible, portable domain value which says "I do not point to any object". When a pointer in fact does not point to anything for the time being, it behooves us to give it this value rather than leave random bits in it which may accidentally point to an unintended object.