--- name: Nim filename: learnNim.nim contributors: - ["Jason J. Ayala P.", "http://JasonAyala.com"] - ["Dennis Felsing", "https://dennis.felsing.org"] --- Nim (formerly Nimrod) is a statically typed, imperative programming language that gives the programmer power without compromises on runtime efficiency. Nim is efficient, expressive, and elegant. ```nim # Single-line comments start with a # #[ This is a multiline comment. In Nim, multiline comments can be nested, beginning with #[ ... and ending with ]# ]# discard """ This can also work as a multiline comment. Or for unparsable, broken code """ var # Declare (and assign) variables, letter: char = 'n' # with or without type annotations lang = "N" & "im" nLength: int = len(lang) boat: float truth: bool = false let # Use let to declare and bind variables *once*. legs = 400 # legs is immutable. arms = 2_000 # _ are ignored and are useful for long numbers. aboutPi = 3.15 const # Constants are computed at compile time. This provides debug = true # performance and is useful in compile time expressions. compileBadCode = false when compileBadCode: # `when` is a compile time `if` legs = legs + 1 # This error will never be compiled. const input = readline(stdin) # Const values must be known at compile time. discard 1 > 2 # Note: The compiler will complain if the result of an expression # is unused. `discard` bypasses this. # # Data Structures # # Tuples var child: tuple[name: string, age: int] # Tuples have *both* field names today: tuple[sun: string, temp: float] # *and* order. child = (name: "Rudiger", age: 2) # Assign all at once with literal () today.sun = "Overcast" # or individual fields. today[1] = 70.1 # or by index. let impostor = ("Rudiger", 2) # Two tuples are the same as long as they have assert child == impostor # the same type and the same contents # Sequences var drinks: seq[string] drinks = @["Water", "Juice", "Chocolate"] # @[V1,..,Vn] is the sequence literal drinks.add("Milk") if "Milk" in drinks: echo "We have Milk and ", drinks.len - 1, " other drinks" let myDrink = drinks[2] # # Defining Types # # Defining your own types puts the compiler to work for you. It's what makes # static typing powerful and useful. type Name = string # A type alias gives you a new type that is interchangeable Age = int # with the old type but is more descriptive. Person = tuple[name: Name, age: Age] # Define data structures too. AnotherSyntax = tuple fieldOne: string secondField: int var john: Person = (name: "John B.", age: 17) newage: int = 18 # It would be better to use Age than int john.age = newage # But still works because int and Age are synonyms type Cash = distinct int # `distinct` makes a new type incompatible with its Desc = distinct string # base type. var money: Cash = 100.Cash # `.Cash` converts the int to our type description: Desc = "Interesting".Desc when compileBadCode: john.age = money # Error! age is of type int and money is Cash john.name = description # Compiler says: "No way!" # # More Types and Data Structures # # Objects are similar to tuples, but they *require* names of the fields type Room = ref object # reference to an object, useful for big objects or windows: int # objects inside objects doors: int = 1 # Change the default value of a field (since Nim 2.0) House = object address: string rooms: seq[Room] var defaultHouse = House() # initialize with default values defaultRoom = new Room() # create new instance of ref object sesameHouse = House(address: "123 Sesame St.", rooms: @[defaultRoom]) # Enumerations allow a type to have one of a limited number of values type Color = enum cRed, cBlue, cGreen Direction = enum # Alternative formatting dNorth dWest dEast dSouth var orient = dNorth # `orient` is of type Direction, with the value `dNorth` pixel = cGreen # `pixel` is of type Color, with the value `cGreen` discard dNorth > dEast # Enums are usually an "ordinal" type # Subranges specify a limited valid range type DieFaces = range[1..20] # Only an int from 1 to 20 is a valid value var my_roll: DieFaces = 13 when compileBadCode: my_roll = 23 # Error! # Arrays type RollCounter = array[DieFaces, int] # Arrays are fixed length and DirNames = array[Direction, string] # indexed by any ordinal type. Truths = array[42..44, bool] var counter: RollCounter directions: DirNames possible: Truths possible = [false, false, false] # Literal arrays are created with [V1,..,Vn] possible[42] = true directions[dNorth] = "Ahh. The Great White North!" directions[dWest] = "No, don't go there." my_roll = 13 counter[my_roll] += 1 counter[my_roll] += 1 var anotherArray = ["Default index", "starts at", "0"] # More data structures are available, including tables, sets, lists, queues, # and crit bit trees. # http://nim-lang.org/docs/lib.html#collections-and-algorithms # # IO and Control Flow # # `case`, `readLine()` echo "Read any good books lately?" case readLine(stdin) of "no", "No": echo "Go to your local library." of "yes", "Yes": echo "Carry on, then." else: echo "That's great; I assume." # `while`, `if`, `continue`, `break` import strutils as str # http://nim-lang.org/docs/strutils.html echo "I'm thinking of a number between 41 and 43. Guess which!" let number: int = 42 var raw_guess: string guess: int # Variables in Nim are always initialized with a zero value while guess != number: raw_guess = readLine(stdin) if raw_guess == "": continue # Skip this iteration guess = str.parseInt(raw_guess) if guess == 1001: echo("AAAAAAGGG!") break elif guess > number: echo("Nope. Too high.") elif guess < number: echo(guess, " is too low") else: echo("Yeeeeeehaw!") # # Iteration # for i, elem in ["Yes", "No", "Maybe so"]: # Or just `for elem in` echo(elem, " is at index: ", i) for k, v in items(@[(person: "You", power: 100), (person: "Me", power: 9000)]): echo v let myString = """ an `string` to play with """ # Multiline raw string for line in splitLines(myString): echo(line) for i, c in myString: # Index and letter. Or `for j in` for just letter if i mod 2 == 0: continue # Compact `if` form elif c == 'X': break else: echo(c) # # Procedures # type Answer = enum aYes, aNo proc ask(question: string): Answer = echo(question, " (y/n)") while true: case readLine(stdin) of "y", "Y", "yes", "Yes": return Answer.aYes # Enums can be qualified of "n", "N", "no", "No": return Answer.aNo else: echo("Please be clear: yes or no") proc addSugar(amount: int = 2) = # Default amount is 2, returns nothing assert(amount > 0 and amount < 9000, "Crazy Sugar") for a in 1..amount: echo(a, " sugar...") case ask("Would you like sugar in your tea?") of aYes: addSugar(3) of aNo: echo "Oh do take a little!" addSugar() # No need for an `else` here. Only `yes` and `no` are possible. # # FFI # # Because Nim compiles to C, FFI is easy: proc strcmp(a, b: cstring): cint {.importc: "strcmp", nodecl.} let cmp = strcmp("C?", "Easy!") ``` Additionally, Nim separates itself from its peers with metaprogramming, performance, and compile-time features. ## Further Reading * [Home Page](http://nim-lang.org) * [Download](http://nim-lang.org/download.html) * [Community](http://nim-lang.org/community.html) * [FAQ](http://nim-lang.org/question.html) * [Documentation](http://nim-lang.org/documentation.html) * [Manual](http://nim-lang.org/docs/manual.html) * [Standard Library](http://nim-lang.org/docs/lib.html) * [Rosetta Code](http://rosettacode.org/wiki/Category:Nim)