const correctness helps compiler to generate faster code. For example, if you are passing a non-const pointer to a function compiler may assume that that function has modified the memory block that has referenced.
EDIT: (from Exceptional C++ Style 40 New Engineering Puzzles, Programming Problems, and Solutions)
Does declaring the parameter and/or the return value as const help the compiler generate more optimal code or otherwise improve its code generation?
In short, no, it probably doesn't.
Why or why not?
What could the compiler do better? Could it avoid a copy of the parameter or the return value? No, because the parameter is already passed by reference, and the return is already by reference. Could it put a copy of x or someY into read-only memory? No, because both x and someY live outside its scope and come from and/or are given to the outside world. Even if someY is dynamically allocated on the fly within f itself, it and its ownership are given up to the caller.
But what about possible optimizations of code that appears inside the body of f? Because of the const, could the compiler somehow improve the code it generates for the body of f?
Just because x and someY are declared const doesn't necessarily mean that their bits are physically const. Why not? Because either class might have mutable members or their moral equivalent, namely const_casts inside member functions. Indeed, the code inside f itself might perform const_casts or C-style casts that turn the const declarations into lies.
There is one case where saying const can really mean something, and that is when objects are made const at the point where they are defined. In that case, the compiler can often successfully put such "really const" objects into read-only memory, especially if they are PODs whose memory images can be created at compile time and therefore can be stored right inside the program's executable image itself. Such objects are colloquially called "ROM-able."
It's a common belief that const correctness helps compilers generate tighter code. Yes, const is indeed a Good Thing, but the point of this Item is that const is mainly for humans, rather than for compilers and optimizers.