To me it's a somewhat philosophical design decision.
It's very nice to have instances which are valid as long as they exist, from ctor time onwards. For many nontrivial cases this may require throwing exceptions from the ctor if a memory/resource allocation can't be made.
Some other approaches are the init() method which comes with some issues of its own. One of which is ensuring init() actually gets called.
A variant is using a lazy approach to automatically call init() the first time an accessor/mutator gets called, but that requires any potential caller to have to worry about the object being valid. (As opposed to the "it exists, hence it's valid philosophy").
I've seen various proposed design patterns to deal with this issue too. Such as being able to create an initial object via ctor, but having to call init() to get your hands on a contained, initialized object with accesors/mutators.
Each approach has its ups and downs; I have used all of these successfully. If you don't make ready-to-use objects from the instant they're created, then I recommend a heavy dose of asserts or exceptions to make sure users don't interact before init().
I wrote from a C++ programmers perspective. I also assume you are properly using the RAII idiom to handle resources being released when exceptions are thrown.