what is f# code example
Example 1: F#
F# is a general purpose, strongly typed, multi-paradigm
programming language that encompasses functional, imperative,
nd object-oriented programming methods. F# is most often used
as a cross-platform Common Language Infrastructure language, but
it can also generate JavaScript and graphics processing unit code.
Example 2: f# syntax
// single line comments use a double slash
(* multi line comments use (* . . . *) pair
-end of multi line comment- *)
// ======== "Variables" (but not really) ==========
// The "let" keyword defines an (immutable) value
let myInt = 5
let myFloat = 3.14
let myString = "hello" //note that no types needed
// ======== Lists ============
let twoToFive = [2;3;4;5] // Square brackets create a list with
// semicolon delimiters.
let oneToFive = 1 :: twoToFive // :: creates list with new 1st element
// The result is [1;2;3;4;5]
let zeroToFive = [0;1] @ twoToFive // @ concats two lists
// IMPORTANT: commas are never used as delimiters, only semicolons!
// ======== Functions ========
// The "let" keyword also defines a named function.
let square x = x * x // Note that no parens are used.
square 3 // Now run the function. Again, no parens.
let add x y = x + y // don't use add (x,y)! It means something
// completely different.
add 2 3 // Now run the function.
// to define a multiline function, just use indents. No semicolons needed.
let evens list =
let isEven x = x%2 = 0 // Define "isEven" as an inner ("nested") function
List.filter isEven list // List.filter is a library function
// with two parameters: a boolean function
// and a list to work on
evens oneToFive // Now run the function
// You can use parens to clarify precedence. In this example,
// do "map" first, with two args, then do "sum" on the result.
// Without the parens, "List.map" would be passed as an arg to List.sum
let sumOfSquaresTo100 =
List.sum ( List.map square [1..100] )
// You can pipe the output of one operation to the next using "|>"
// Here is the same sumOfSquares function written using pipes
let sumOfSquaresTo100piped =
[1..100] |> List.map square |> List.sum // "square" was defined earlier
// you can define lambdas (anonymous functions) using the "fun" keyword
let sumOfSquaresTo100withFun =
[1..100] |> List.map (fun x->x*x) |> List.sum
// In F# returns are implicit -- no "return" needed. A function always
// returns the value of the last expression used.
// ======== Pattern Matching ========
// Match..with.. is a supercharged case/switch statement.
let simplePatternMatch =
let x = "a"
match x with
| "a" -> printfn "x is a"
| "b" -> printfn "x is b"
| _ -> printfn "x is something else" // underscore matches anything
// Some(..) and None are roughly analogous to Nullable wrappers
let validValue = Some(99)
let invalidValue = None
// In this example, match..with matches the "Some" and the "None",
// and also unpacks the value in the "Some" at the same time.
let optionPatternMatch input =
match input with
| Some i -> printfn "input is an int=%d" i
| None -> printfn "input is missing"
optionPatternMatch validValue
optionPatternMatch invalidValue
// ========= Complex Data Types =========
// Tuple types are pairs, triples, etc. Tuples use commas.
let twoTuple = 1,2
let threeTuple = "a",2,true
// Record types have named fields. Semicolons are separators.
type Person = {First:string; Last:string}
let person1 = {First="john"; Last="Doe"}
// Union types have choices. Vertical bars are separators.
type Temp =
| DegreesC of float
| DegreesF of float
let temp = DegreesF 98.6
// Types can be combined recursively in complex ways.
// E.g. here is a union type that contains a list of the same type:
type Employee =
| Worker of Person
| Manager of Employee list
let jdoe = {First="John";Last="Doe"}
let worker = Worker jdoe
// ========= Printing =========
// The printf/printfn functions are similar to the
// Console.Write/WriteLine functions in C#.
printfn "Printing an int %i, a float %f, a bool %b" 1 2.0 true
printfn "A string %s, and something generic %A" "hello" [1;2;3;4]
// all complex types have pretty printing built in
printfn "twoTuple=%A,\nPerson=%A,\nTemp=%A,\nEmployee=%A"
twoTuple person1 temp worker
// There are also sprintf/sprintfn functions for formatting data
// into a string, similar to String.Format.