The following statements represent my understanding of type systems (which suffers from too little hands-on experience outside the Java world); please correct any errors.
The static/dynamic distinction seems pretty clear-cut:
- Statically typed langauges assign each variable, field and parameter a type and the compiler prevents assignments between incompatible types. Examples: C, Java, Pascal.
- Type inference allows statically typed languages to look like (and have some of the advantages of) dynamically typed ones, by inferring types from the context so that you don't have to declare them most of the time - but unlike in dynamic languages, you cannot e.g. use a variable to hold a string initially and then assign an integer to it. Examples: Haskell, Scala
I am much less certain about the strong/weak distinction, and I suspect that it's not very clearly defined:
- Strongly typed languages assign each runtime value a type and only allow operations to be performed that are defined for that type, otherwise there is an explicit type error.
- Weakly typed languages don't have runtime type checks - if you try to perform an operation on a value that it does not support, the results are unpredictable. It may actually do something useful, but more likely you'll get corrupted data, a crash, or some undecipherable secondary error.
- There seems to be at least two different kinds of weakly typed languages (or perhaps a continuum):
- In C and assembler, values are basically buckets of bits, so anything is possible and if you get the compiler to dereference the first 4 bytes of a null-terminated string, you better hope it leads somewhere that does not contain legal machine code.
- But these implicit conversions seem to apply mainly to string/integer/float variables - does that really warrant the classification as weakly typed? Or are there other issues where these languages's type system may obfuscate errors?