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Propecia kaufen gĂĽnstig ! It works! Fantastical: a library for building F# futures from imperative code without boilerplate
This is the result of an experiment in building a library for F# futures from imperative code.
When I started learning F#, never wanted to build F# futures. I simply wanted to write imperative code that was easy to read. One of the most frustrating things when learning F# is that there isn't always an easy way to write a simple imperative function in F#.
If you're a beginner, this is one of the most frustrating things about F#. F# has an intuitive syntax, but it is difficult to learn at first. The way we've chosen to model this is take the simple things that are easily understandable in imperative code and use them as inputs to the F# Futures language extension. For example, you could do something like this
let f x =
The F# Future library takes this concept and gives you the ability to write something like the above without hassle of having to do a bunch of boilerplate
let f = (x => x).Then(y y + x)
There's also one other thing worth mentioning. If you have an asynchronous codebase, or are building something that you need to keep in sync with user input, you should use F#'s async/await keyword. F# is built around asynchronous code, so it's simple to program together with the futures.
What is Futures? Futures let you do asynchronous IO in F#
A Future is data structure that you build in the same way that you build any other type that you would write in imperative. make an instance of a Future type and use the.Then() method:
let a Future x = Ok
You then use the.Try() method to run a function against result
let b a = try SomeAsyncOperation (v)
When you use.Try() can get an answer back that tells you if the operation succeeded or failed. When you use.Once() can keep an execution in memory but only run this function once.
let c f = SomeAsyncOperation (v => v * 2, SomeAsyncOperation (i => i + 1))
The main difference between a closure and futures is that a future doesn't have access to the result of an operation. That means you'll have to explicitly call the then() method to pass arguments the function. functions call in future are called "scopes" and they passed the this value.
Here's using a function that counts the number of times each function is called. Instead of just calling function one and having the result of this called, we have to pass in the this value and count to the first function.
let c = count (SomeAsyncOperation (i => i + 1))
Here's calling a closure
let corr a b x = (func(a) -> + a.Calls() as i)
Here's a sample code that creates futures representing a function call and passes it to count
let Propec
