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175 lines
5.0 KiB
Markdown
175 lines
5.0 KiB
Markdown
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---
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language: hy
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filename: learnhy.hy
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contributors:
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- ["Abhishek L", "http://twitter.com/abhishekl"]
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---
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Hy is a lisp dialect built on top of python. This is achieved by
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converting hy code to python's abstract syntax tree (ast). This allows
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hy to call native python code or python to call native hy code as well
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This tutorial works for hy ≥ 0.9.12
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```clojure
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;; this gives an gentle introduction to hy for a quick trial head to
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;; http://try-hy.appspot.com
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;;
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; Semicolon comments, like other LISPS
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;; s-expression basics
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; lisp programs are made of symbolic expressions or sexps which
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; resemble
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(some-function args)
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; now the quintessential hello world
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(print "hello world")
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;; simple data types
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; All simple data types are exactly similar to their python counterparts
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; which
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42 ; => 42
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3.14 ; => 3.14
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True ; => True
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4+10j ; => (4+10j) a complex number
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; lets start with some really simple arithmetic
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(+ 4 1) ;=> 5
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; the operator is applied to all arguments, like other lisps
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(+ 4 1 2 3) ;=> 10
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(- 2 1) ;=> 1
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(* 4 2) ;=> 8
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(/ 4 1) ;=> 4
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(% 4 2) ;=> 0 the modulo operator
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; power is represented by ** operator like python
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(** 3 2) ;=> 9
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; nesting forms will do the expected thing
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(+ 2 (* 4 2)) ;=> 10
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; also logical operators and or not and equal to etc. do as expected
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(= 5 4) ;=> False
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(not (= 5 4)) ;=> True
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;; variables
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; variables are set using setv, variable names can use utf-8 except
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; for ()[]{}",'`;#|
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(setv a 42)
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(setv π 3.14159)
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(def *foo* 42)
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;; other container data types
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; strings, lists, tuples & dicts
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; these are exactly same as python's container types
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"hello world" ;=> "hello world"
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; string operations work similar to python
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(+ "hello " "world") ;=> "hello world"
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; lists are created using [], indexing starts at 0
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(setv mylist [1 2 3 4])
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; tuples are immutable data structures
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(setv mytuple (, 1 2))
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; dictionaries are key value pairs
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(setv dict1 {"key1" 42 "key2" 21})
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; :name can be used to define keywords in hy which can be used for keys
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(setv dict2 {:key1 41 :key2 20})
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; use `get' to get the element at an index/key
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(get mylist 1) ;=> 2
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(get dict1 "key1") ;=> 42
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; Alternatively if keywords were used they can directly be called
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(:key1 dict2) ;=> 41
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;; functions and other program constructs
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; functions are defined using defn, the last sexp is returned by default
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(defn greet [name]
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"A simple greeting" ; an optional docstring
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(print "hello " name))
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(greet "bilbo") ;=> "hello bilbo"
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; functions can take optional arguments as well as keyword arguments
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(defn foolist [arg1 &optional [arg2 2]]
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[arg1 arg2])
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(foolists 3) ;=> [3 2]
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(foolists 10 3) ;=> [10 3]
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; anonymous functions are created using `fn' or `lambda' constructs
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; which are similiar to `defn'
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(map (fn [x] (* x x)) [1 2 3 4]) ;=> [1 4 9 16]
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;; Sequence operations
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; hy has some builtin utils for sequence operations etc.
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; retrieve the first element using `first' or `car'
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(setv mylist [1 2 3 4])
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(setv mydict {"a" 1 "b" 2})
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(first mylist) ;=> 1
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; slice lists using slice
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(slice mylist 1 3) ;=> [2 3]
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; get elements from a list or dict using `get'
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(get mylist 1) ;=> 2
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(get mydict "b") ;=> 2
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; list indexing starts from 0 same as python
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; assoc can set elements at keys/indexes
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(assoc mylist 2 10) ; makes mylist [1 2 10 4]
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(assoc mydict "c" 3) ; makes mydict {"a" 1 "b" 2 "c" 3}
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; there are a whole lot of other core functions which makes working with
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; sequences fun
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;; Python interop
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;; import works just like in python
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(import datetime)
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(import [functools [partial reduce]]) ; imports fun1 and fun2 from module1
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(import [matplotlib.pyplot :as plt]) ; doing an import foo as bar
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; all builtin python methods etc. are accessible from hy
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; a.foo(arg) is called as (.foo a arg)
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(.split (.strip "hello world ")) ;=> ["hello" "world"]
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;; Conditionals
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; (if condition (body-if-true) (body-if-false)
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(if (= passcode "moria")
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(print "welcome")
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(print "Speak friend, and Enter!"))
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; nest multiple if else if clauses with cond
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(cond
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[(= someval 42)
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(print "Life, universe and everything else!")]
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[(> someval 42)
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(print "val too large")]
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[(< someval 42)
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(print "val too small")])
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; group statements with do, these are executed sequentially
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; forms like defn have an implicit do
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(do
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(setv someval 10)
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(print "someval is set to " someval)) ;=> 10
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; create lexical bindings with `let', all variables defined thusly
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; have local scope
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(let [[nemesis {"superman" "lex luther"
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"sherlock" "moriarty"
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"seinfeld" "newman"}]]
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(for [(, h v) (.items nemesis)]
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(print (.format "{0}'s nemesis was {1}" h v))))
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;; classes
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; classes are defined in the following way
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(defclass Wizard [object]
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[[--init-- (fn [self spell]
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(setv self.spell spell) ; init the spell attr
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None)]
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[get-spell (fn [self]
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self.spell)]])
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;; do checkout hylang.org
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```
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### Further Reading
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This tutorial is just a very basic introduction to hy/lisp/python.
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Hy docs are here: [http://hy.readthedocs.org](http://hy.readthedocs.org)
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Hy's Github repo: [http://github.com/hylang/hy](http://github.com/hylang/hy)
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On freenode irc #hy, twitter hashtag #hylang
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