If we consider the phrases "statically typed" and "dynamically typed" as jargon referring to when a language checks the validity of operations against types, then I think it is fair to characterize Mathematica using the jargon "untyped" -- in the sense that it "never" checks whether an operation is valid for a type.

I do like Belisarius' use of the term "type-agnostic", however. I say this because while almost all type-checking in the language is idiomatic (i.e. implemented by the programmer, not the language), so is the concept of applying an operator to typed operands!

Consider the "nonsensical" example of `1 + "foo"`

. I think it is fair to say that a significant fraction (approaching unity) of all Mathematica users trips over cases such as this as they are first learning the language. The problem is particularly evident when one is writing code in, say, the style of C. There is much discussion in Mathematica circles as to how to handle situations such as these.

On the other hand, this weakness is also Mathematica's greatest strength. Mathematica is optimized for creating new notations. Many, many notations have the concept of `+`

that behaves very similarly to addition in elementary arithmetic. When building such a notation, it would very inconvenient if Mathematica stepped in and complained that the operands to `+`

were not numbers. In such a higher-level application of Mathematica, the "nonsensical" example is not only "sensical", but actually crucial.

So, with that in mind, the question of type is frequently moot. Hence, I like Belisarius' "type-agnostic" characterization. Upvote him, I did ;)

**Edit**

I'll try to clarify what I had in mind when distinguishing between "untyped" and "type-agnostic".

Reading over the various answers and comments, I tried to figure out what the difference was between Mathematica and LISP. The latter is generally held up as an example of "dynamically typed", although the core LISP evaluator is very much like Mathematica with hardly any type-checking. The type errors we see in LISP programs are mostly issued by hard-coded checks in (typically built-in) functions. `+`

, for example, will only accept numeric arguments even though the evaluator itself could not care less one way or the other. Having said that, the "feel" of programming in LISP differs greatly from the "feel" of Mathematica (for me, at least). The `1 + "foo"`

example really captures that difference.

While I broadly agree with "untyped" as the characterization of Mathematica, I still felt that something was missing. Assembler seems untyped to me, as does early FORTRAN and pre-ANSI C. In those cases, the bit pattern of arguments was all that mattered, and the programs would continue on blithely if I passed a string argument where an integer was needed. Mathematica certainly shares this untyped behaviour. But there is a difference: in assembler and FORTRAN and C, it is extremely rare for this lack of type-checking to result in a good outcome. As I mentioned above, in Mathematica it is possible and sometimes even common to rely upon this kind of behaviour.

Enter "type-agnostic". I liked its non-committal stance, sounding less drastic than "untyped". I felt it reflected the essentially untyped nature of Mathematica, but left some wiggle room for those language features that readily support idiomatic type-checking in the LISP, dynamic style (i.e. the "head" idiom and supporting functionality).

So, in short, I feel that Mathematica hovers between being completely untyped and being dynamically-typed. "Type-agnostic" captured that sentiment for me. YMMV :)

I readily confess that no-one is likely to reconstruct anything I've written in this response simply from inspecting the phrases "untyped" and "type-agnostic". Again I emphasize that I think that "untyped" is a fair characterization of Mathematica, but I also like the fact that "type-agnostic" begs a lot of the questions being addressed by the various responses to this SO question.