In Beyond Java(Section 2.2.9), Brute Tate claims that "typing model" is one of the problems of C++. What does that mean?
What he means is that objects in C++ don't intrinsically have types. While you might write
Watch in wonder as Professor C performs trans-species mutations between
Compare this with JAVA, where not only types, but objects have intrinsic types. This may be due partly to the fact that there are no pointers and thus no access to memory, but the fact nonetheless exists that if you cast a
The weak typing present in C++ is rather detrimental, because it makes the compiler static type checks nearly useless if you want to truly abuse-proof your application, and also makes secure and robust software hard to write. For example, you need to be very careful whenever you access a "pointer" because it could really be any random bit pattern.
EDIT 1: The comments had very good points, and I'd like to add them here.
kts points out that Sun's JAVA does indeed have pointers if you look deeply enough. Thanks! I hadn't known, and that's rather cool. However, the fundamental point is that JAVA objects are typed and C types aren't. Yes, you can circumvent this, but this is the same as the difference between opt-in and opt-out spam: yes, you could abuse the JAVA pointers, but the default is that no abuse is possible. You'd have to opt in.
martin-york points out that the example I showed is a purely C phenomenon. This is true, but
Anyway, discouraging something doesn't make it not happen. I discourage bad coding, but I haven't seen it get me anywhere...
As for the feature being useful, it admittedly is (just look up "fast inverse square root" on Google or Wikipedia) but it is dangerous enough that, following Stroustroup's maxim that ugly operations should be ugly, the difficulty threshold should be significantly higher.
That it is hard to type C++ code. :-p
Seriously though, they are probably referring to the fact that C++ has a weak static type system, that can be easily circumvented. Some examples: typedefs are not real types, enumerated types are just ints, booleans and integers are equivalent in many cases, and so on.