This question is all about Semantics
If I give you this data:
12 what is it's type? You have no way of knowing for sure. Could be an integer - could be a float - could be a string. In that sense it's very much "untyped" data.
If I give you an imaginary language which lets you use operators like "add", "subtract", and "concatenate" on this data and some other arbitrary piece of data the "type" is somewhat irrelevant (to my imaginary language) (example: perhaps
add(12, a) yields
109 which is
12 plus the ascii value of
Let's talk C for a second. C pretty much lets you do whatever you want with any arbitrary piece of data. If you're using a function that takes two
uints - you could cast and pass anything you want - and the values will simply be interpreted as
uints. In that sense C is "untyped" (if you treat it in such a way).
However - and getting to Brendan's point - if I told you that "My age is
12" - then
12 has a type - at least we know it's numeric. With context everything has a type - regardless of the language.
This is why I said at the beginning - your question is one of semantics. What is the meaning of "untyped"? I think Brendan hit the nail on the head when he said "no static types" - because that's all it can possibly mean. Humans naturally classify things into types. We intuitively know that there is something fundamentally different between a car and a monkey - without ever being taught to make those distinctions.
Getting back to my example in the beginning - a language that "doesn't care about types" (per-se) may let you "add" an "age" and a "name" without producing a syntax error... but that doesn't mean it's a logically sound operation.
Is a system/language which doesn't enforce type safety at compile/build/interpretation time "untyped" or "dynamically typed"?
In my comment on someone else's answer I said:
To perform the same operation with C#, for example, I'd NEED an interface called