God I hate the term "code smell", but I can't think of anything more accurate.
I'm designing a high-level language & compiler to Whitespace in my spare time to learn about compiler construction, language design, and functional programming (compiler is being written in Haskell).
During the code generation phase of the compiler, I have to maintain "state"-ish data as I traverse the syntax tree. For example, when compiling flow-control statements I need to generate unique names for the labels to jump to (labels generated from a counter that's passed in, updated, & returned, and the old value of the counter must never be used again). Another example is when I come across in-line string literals in the syntax tree, they need to be permanently converted into heap variables (in Whitespace, strings are best stored on the heap). I'm currently wrapping the entire code generation module in the state monad to handle this.
I've been told that writing a compiler is a problem well suited to the functional paradigm, but I find that I'm designing this in much the same way I would design it in C (you really can write C in any language - even Haskell w/ state monads).
I want to learn how to think in Haskell (rather, in the functional paradigm) - not in C with Haskell syntax. Should I really try to eliminate/minimize use of the state monad, or is it a legitimate functional "design pattern"?
I've written multiple compilers in Haskell, and a state monad is a reasonable solution to many compiler problems. But you want to keep it abstract---don't make it obvious you're using a monad.
Here's an example from the Glasgow Haskell Compiler (which I did not write; I just work around a few edges), where we build control-flow graphs. Here are the basic ways to make graphs:
But as you've discovered, maintaining a supply of unique labels is tedious at best, so we provide these functions as well:
The whole
Graph
thing is an abstract type, and the translator just merrily constructs graphs in purely functional fashion, without being aware that anything monadic is going on. Then, when the graph is finally constructed, in order to turn it into an algebraic datatype we can generate code from, we give it a supply of unique labels, run the state monad, and pull out the data structure.The state monad is hidden underneath; although it's not exposed to the client, the definition of
Graph
is something like this:or a bit more accurately
With the state monad hidden behind a layer of abstraction, it's not smelly at all!
let's be careful about the terminology here. State is not per se bad; functional languages have state. What is a "code smell" is when you find yourself wanting to assign variables values and change them.
Of course, the Haskell state monad is there for just that reason -- as with I/O, it's letting you do unsafe and un-functional things in a constrained context.
So, yes, it's probably a code smell.