Let's say I have :

```
f :: Double -> Double
f x = 3*x^2 + 5*x + 9
```

I would like to compute the derivative of this function and write

```
derivate f
```

so that

```
derivate f == \x -> 6*x + 5
```

but how to define `derivate`

?

```
derivate :: (a -> a) -> (a -> a)
derivate f = f' -- how to compute f'?
```

I'm aware there is no native way to do this, but is there a library that can?

Do we have to rely on "meta"-datatypes to achieve this?

```
data Computation = Add Exp Expr | Mult Expr Expr | Power Expr Expr -- etc
```

Then, is it not a pain to make a corresponding constructor for each function ? However, datatypes should not represent functions (except for parsers).

Is Pure a good alternative because of its term-rewriting feature? Doesn't it have its drawbacks as well?

Are lists affordable?

```
f :: [Double]
f = [3, 5, 9]
derivate :: (a -> [a])
derivate f = (*) <$> f <*> (getNs f)
compute f x = sum $
((*) . (^) x) <$> (getNs f) <*> f
getNs f = (reverse (iterate (length f) [0..]))
```

Haskell now looks like it depends on LISP with a less appropriate syntax. Function and arguments waiting to be used together are quite stored in datatypes. Plus, it's not very natural.

They don't seem to be "flexible" enough to be able my `derivate`

function other than polynomials, such as homographic functions.

Right now, for example, I would like to use derivatives for a game. The character runs on a floor made using a function, and I would like him to slide if the floor is steep enough.

I also need to solve equations for various purposes. Some examples:

I'm a spaceship and I want to take a nap. During my sleep, if I don't place myself carefully, I might crash on a planet because of gravity. I don't have enough gas to go far away from celestial objects and I don't have a map either.
So I must place myself between the objects in this area so that the sum of their gravitationnal influence on me is canceled.
`x`

and `y`

are my coordinates. `gravity`

is a function that takes two objects and return the vector of the gravitationnal force between them.
If there are two objects, say the Earth and the Moon, besides me, all I need to do to find where to go is to solve:

```
gravity earth spaceship + gravity moon spaceship == (0, 0)
```

It's much simpler and faster, etc., than to create a new function from scratch `equigravityPoint :: Object -> Object -> Object -> Point`

.

If there are 3 objects besides me, it's still simple.

```
gravity earth spaceship + gravity moon spaceship + gravity sun spaceship == (0, 0)
```

Same for 4, and n. Handling a list of objects is much simpler this way than with `equigravityPoint`

.

Other example.
I want to code an ennemy bot that shoots me.
If he just shoots targeting my current position, he will get me if I run towards me, but he'll miss me if I jump and fall on him.
A smarter bot thinks like that: "Well, he jumped from a wall. If I shoot targeting where he is now the bullet won't get him, because he will have moved until then. So I'm gonna anticipate where he'll be in a few seconds and shoot there so that the bullet and him reach this point at the same time".
Basically, I need the ability to compute trajectories. For example, for this case, I need the solution to `trajectoryBullet == trajectoryCharacter`

, which gives a point where the line and the parabola meet.

A similar and simpler example not involving speed. I'm a fireman bot and there's a building in fire. Another team of firemen is fighting the fire with their water guns. I am and there are people jumping from . While my friends are shooting water, I hold the trampoline. I need to go where the people will fall before they do. So I need trajectories and equation-solving.