I've often heard that functional programming solves a lot of problems that are difficult in procedural/imperative programming. But I've also heard that it isn't great at some other problems that procedural programming is just naturally great at.
Before I crack open my book on Haskell and dive into functional programming, I'd like at least a basic idea of what I can really use it for (outside the examples in the book). So, what are those things that functional programming excels at? What are the problems that it is not well suited for?
I've got some good answers about this so far. I can't wait to start learning Haskell now--I just have to wait until I master C :)
Reasons why functional programming is great:
- Very concise and succinct -- it can express complex ideas in short, unobfuscated statements.
- Is easier to verify than imperative languages -- good where safety in a system is critical.
- Purity of functions and immutability of data makes concurrent programming more plausible.
- Well suited for scripting and writing compilers (I would appreciate to know why though).
- Math related problems are solved simply and beautifully.
Areas where functional programming struggles:
- Debatable: web applications (though I guess this would depend on the application).
- Desktop applications (although it depends on the language probably, F# would be good at this wouldn't it?).
- Anything where performance is critical, such as game engines.
- Anything involving lots of program state.