Take it with a grain of salt because I haven't touched a C++ compiler since 1999. So much has changed with the STL and C++ that maybe things have changed. However, this is what I recall.
The exception model in C++ is very different from the one in Java. You have to be a lot, lot, but lot more proactive in checking for errors (and in throwing your own custom exceptions).
In Java, a call to de-reference a reference is ultimately a bytecode instruction sent and interpreted by the JVM. The JVM always check (internally) if the reference is null , and when it finds that it is, it automatically throws a java.lang.NullPointerException.
If the JVM weren't programmed to do such a thing, an access to a null reference would cause the JVM to crash with a SEGFAULT - exactly the behavior one would expect with a compiled, unguarded language when encountering an unguarded null pointer de-referencing (not just C or C++ but also in Pascal, Ada, Assembly or even good old BASIC attempting to do a PEEK/POKE at an invalid address location.)
The way (at least in my time) in C++ (or in any of the languages I've mentioned) was to explicitly check if the pointer (or the address being assigned to a reference) was null. At that point, if the test returns true, you launch your exception. You don't blindly go after the pointer. You gotta explicitly test it for null (or have a very strongly guaranteed pre-condition that the pointer actually points to the thing you need to get access to) before de-referencing.
This is somewhat equivalent to the following Java pseudocode
if( myPossiblyBadReference == null )
throw java.lang.NullPointerException( "you suck!" );
// or throw my.own.NPEException(); // preferably a specialization of NullPointerException
doYourThingieWith( myPossiblyBadReference );
Things might be done differently now in C++, specially now with the C++0x stuff coming down the pipe (of which I have no clue about.) But at least, that's the behavior I had to deal with when coding in C++.
In other words, there is a lot more elbow grease involved in getting such things done. Remember that you are working at a lower level of abstraction from the one provided by the JVM.
The JVM is a barrier that gives you a lot of nice error-handling capabilities (one which we Java developers tend to rely too much on.) Those error-handling capabilities need to be explicitly be coded when you work at a lower level (not just in C++.)