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@ -52,17 +52,55 @@ f = \x y -> x (x (x y))
```
## Questions
> How does one do the equations?
> CLI is functional?
Not really. It fits the functional mindset.
Commands are:
- pure, input leads to output
- composable with the pipe, kinda like `(.)`
- They can be composed like higher order functions, i.e. one command can be the input to another command
> Lazy and singly-linked lists, what's the relation?
In reality though, they are not functional. Their main goal is to interact with the system (a.k.a. a mutable state), which obviously breaks the functional paradigm.
> Y combinator?
A function, which allows us to define recursive functions without giving them a name. It gives us a fixed point of a function, i.e. a function that doesn't change when you apply it to itself.
In other words, finds a value $x$ such that $f(x) = x$.
```hs
y f = f (y f) -- this is the Y combinator
```
Example:
```hs
fact = \f n -> if n == 0 then 1 else n * f (n-1) -- n! = f(n) = n * f(n-1) = n * (n-1) * f(n-2) = ...
```
If we were to not use the Y combinator, we would have to define the function as:
```hs
fact = \n -> if n == 0 then 1 else n * fact (n-1)
```
> In which cases would it be impossible to not use the Y combinator?
Whenever we are working with a system that has no named functions, but we still want recursion.
In the context of Haskell, using the Y combinator (in the classical lambda calculus way) is elegant, yet not necessary.
Rewriting our factorial function using `where`:
```hs
fact :: Int -> Int
fact n = f n
where
f 0 = 1
f n = n * f (n-1)
```
is way more readable and intuitive.
## Resources
- [course](https://www.cis.upenn.edu/~cis1940/spring15/lectures.html)
- [standard list](https://hackage.haskell.org/package/base-4.21.0.0/docs/Data-List.html)
[^1]: need to find the actual rigorous way of doing this
[^1]: need to find the actual rigorous way of doing this
[^2]: Referential transparency