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---
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language: Paren
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filename: learnparen.paren
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contributors:
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- ["KIM Taegyoon", "https://github.com/kimtg"]
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---
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[Paren](https://bitbucket.org/ktg/paren) is a dialect of Lisp. It is designed to be an embedded language.
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Some examples are from http://learnxinyminutes.com/docs/racket/ .
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```lisp
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;;; Comments
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# comments
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;; Single line comments start with a semicolon or a sharp sign
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;; 1. Primitive Datatypes and Operators
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;;; Numbers
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123 ; int
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3.14 ; double
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6.02e+23 ; double
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(int 3.14) ; => 3 : int
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(double 123) ; => 123 : double
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;; Function application is written (f x y z ...)
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;; where f is a function and x, y, z, ... are operands
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;; If you want to create a literal list of data, use (quote) to stop it from
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;; being evaluated
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(quote (+ 1 2)) ; => (+ 1 2)
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;; Now, some arithmetic operations
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(+ 1 1) ; => 2
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(- 8 1) ; => 7
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(* 10 2) ; => 20
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(^ 2 3) ; => 8
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(/ 5 2) ; => 2
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(% 5 2) ; => 1
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(/ 5.0 2) ; => 2.5
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;;; Booleans
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true ; for true
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false ; for false
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(! true) ; => false
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(&& true false (prn "doesn't get here")) ; => false
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(|| false true (prn "doesn't get here")) ; => true
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;;; Characters are ints.
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(char-at "A" 0) ; => 65
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(chr 65) ; => "A"
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;;; Strings are fixed-length array of characters.
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"Hello, world!"
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"Benjamin \"Bugsy\" Siegel" ; backslash is an escaping character
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"Foo\tbar\r\n" ; includes C escapes: \t \r \n
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;; Strings can be added too!
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(strcat "Hello " "world!") ; => "Hello world!"
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;; A string can be treated like a list of characters
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(char-at "Apple" 0) ; => 65
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;; Printing is pretty easy
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(pr "I'm" "Paren. ") (prn "Nice to meet you!")
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;; 2. Variables
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;; You can create or set a variable using (set)
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;; a variable name can use any character except: ();#"
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(set some-var 5) ; => 5
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some-var ; => 5
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;; Accessing a previously unassigned variable is an exception
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; x ; => Unknown variable: x : nil
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;; Local binding: Use lambda calculus! `a' and `b' are bound to `1' and `2' only within the (fn ...)
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((fn (a b) (+ a b)) 1 2) ; => 3
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;; 3. Collections
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;;; Lists
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;; Lists are vector-like data structures. (Random access is O(1).)
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(cons 1 (cons 2 (cons 3 (list)))) ; => (1 2 3)
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;; `list' is a convenience variadic constructor for lists
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(list 1 2 3) ; => (1 2 3)
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;; and a quote can also be used for a literal list value
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(quote (+ 1 2)) ; => (+ 1 2)
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;; Can still use `cons' to add an item to the beginning of a list
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(cons 0 (list 1 2 3)) ; => (0 1 2 3)
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;; Lists are a very basic type, so there is a *lot* of functionality for
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;; them, a few examples:
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(map inc (list 1 2 3)) ; => (2 3 4)
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(filter (fn (x) (== 0 (% x 2))) (list 1 2 3 4)) ; => (2 4)
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(length (list 1 2 3 4)) ; => 4
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;; 3. Functions
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;; Use `fn' to create functions.
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;; A function always returns the value of its last expression
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(fn () "Hello World") ; => (fn () Hello World) : fn
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;; Use parentheses to call all functions, including a lambda expression
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((fn () "Hello World")) ; => "Hello World"
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;; Assign a function to a var
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(set hello-world (fn () "Hello World"))
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(hello-world) ; => "Hello World"
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;; You can shorten this using the function definition syntatcic sugae:
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(defn hello-world2 () "Hello World")
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;; The () in the above is the list of arguments for the function
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(set hello
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(fn (name)
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(strcat "Hello " name)))
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(hello "Steve") ; => "Hello Steve"
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;; ... or equivalently, using a sugared definition:
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(defn hello2 (name)
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(strcat "Hello " name))
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;; 4. Equality
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;; for numbers use `=='
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(== 3 3.0) ; => true
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(== 2 1) ; => false
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;; 5. Control Flow
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;;; Conditionals
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(if true ; test expression
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"this is true" ; then expression
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"this is false") ; else expression
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; => "this is true"
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;;; Loops
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;; for loop is for number
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;; (for SYMBOL START END STEP EXPR ..)
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(for i 0 10 2 (pr i "")) ; => prints 0 2 4 6 8 10
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(for i 0.0 10 2.5 (pr i "")) ; => prints 0 2.5 5 7.5 10
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;; while loop
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((fn (i)
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(while (< i 10)
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(pr i)
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(++ i))) 0) ; => prints 0123456789
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;; 6. Mutation
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;; Use `set' to assign a new value to a variable or a place
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(set n 5) ; => 5
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(set n (inc n)) ; => 6
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n ; => 6
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(set a (list 1 2)) ; => (1 2)
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(set (nth 0 a) 3) ; => 3
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a ; => (3 2)
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;; 7. Macros
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;; Macros let you extend the syntax of the language.
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;; Paren macros are easy.
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;; In fact, (defn) is a macro.
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(defmacro setfn (name ...) (set name (fn ...)))
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(defmacro defn (name ...) (def name (fn ...)))
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;; Let's add an infix notation
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(defmacro infix (a op ...) (op a ...))
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(infix 1 + 2 (infix 3 * 4)) ; => 15
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;; Macros are not hygienic, you can clobber existing variables!
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;; They are code transformations.
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```
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