+++ /dev/null
-<!doctype html>
-<html>
- <head>
- <title>CodeMirror: LiveScript mode</title>
- <link rel="stylesheet" href="../../lib/codemirror.css">
- <script src="../../lib/codemirror.js"></script>
- <script src="livescript.js"></script>
- <style>.CodeMirror {font-size: 80%;border-top: 1px solid silver; border-bottom: 1px solid silver;}</style>
- <link rel="stylesheet" href="../../doc/docs.css">
- <link rel="stylesheet" href="../../theme/solarized.css">
- </head>
- <body>
- <h1>CodeMirror: LiveScript mode</h1>
- <form><textarea id="code" name="code">
-# LiveScript mode for CodeMirror
-# The following script, prelude.ls, is used to
-# demonstrate LiveScript mode for CodeMirror.
-# https://github.com/gkz/prelude-ls
-
-export objToFunc = objToFunc = (obj) ->
- (key) -> obj[key]
-
-export each = (f, xs) -->
- if typeof! xs is \Object
- for , x of xs then f x
- else
- for x in xs then f x
- xs
-
-export map = (f, xs) -->
- f = objToFunc f if typeof! f isnt \Function
- type = typeof! xs
- if type is \Object
- {[key, f x] for key, x of xs}
- else
- result = [f x for x in xs]
- if type is \String then result * '' else result
-
-export filter = (f, xs) -->
- f = objToFunc f if typeof! f isnt \Function
- type = typeof! xs
- if type is \Object
- {[key, x] for key, x of xs when f x}
- else
- result = [x for x in xs when f x]
- if type is \String then result * '' else result
-
-export reject = (f, xs) -->
- f = objToFunc f if typeof! f isnt \Function
- type = typeof! xs
- if type is \Object
- {[key, x] for key, x of xs when not f x}
- else
- result = [x for x in xs when not f x]
- if type is \String then result * '' else result
-
-export partition = (f, xs) -->
- f = objToFunc f if typeof! f isnt \Function
- type = typeof! xs
- if type is \Object
- passed = {}
- failed = {}
- for key, x of xs
- (if f x then passed else failed)[key] = x
- else
- passed = []
- failed = []
- for x in xs
- (if f x then passed else failed)push x
- if type is \String
- passed *= ''
- failed *= ''
- [passed, failed]
-
-export find = (f, xs) -->
- f = objToFunc f if typeof! f isnt \Function
- if typeof! xs is \Object
- for , x of xs when f x then return x
- else
- for x in xs when f x then return x
- void
-
-export head = export first = (xs) ->
- return void if not xs.length
- xs.0
-
-export tail = (xs) ->
- return void if not xs.length
- xs.slice 1
-
-export last = (xs) ->
- return void if not xs.length
- xs[*-1]
-
-export initial = (xs) ->
- return void if not xs.length
- xs.slice 0 xs.length - 1
-
-export empty = (xs) ->
- if typeof! xs is \Object
- for x of xs then return false
- return yes
- not xs.length
-
-export values = (obj) ->
- [x for , x of obj]
-
-export keys = (obj) ->
- [x for x of obj]
-
-export len = (xs) ->
- xs = values xs if typeof! xs is \Object
- xs.length
-
-export cons = (x, xs) -->
- if typeof! xs is \String then x + xs else [x] ++ xs
-
-export append = (xs, ys) -->
- if typeof! ys is \String then xs + ys else xs ++ ys
-
-export join = (sep, xs) -->
- xs = values xs if typeof! xs is \Object
- xs.join sep
-
-export reverse = (xs) ->
- if typeof! xs is \String
- then (xs / '')reverse! * ''
- else xs.slice!reverse!
-
-export fold = export foldl = (f, memo, xs) -->
- if typeof! xs is \Object
- for , x of xs then memo = f memo, x
- else
- for x in xs then memo = f memo, x
- memo
-
-export fold1 = export foldl1 = (f, xs) --> fold f, xs.0, xs.slice 1
-
-export foldr = (f, memo, xs) --> fold f, memo, xs.slice!reverse!
-
-export foldr1 = (f, xs) -->
- xs.=slice!reverse!
- fold f, xs.0, xs.slice 1
-
-export unfoldr = export unfold = (f, b) -->
- if (f b)?
- [that.0] ++ unfoldr f, that.1
- else
- []
-
-export andList = (xs) ->
- for x in xs when not x
- return false
- true
-
-export orList = (xs) ->
- for x in xs when x
- return true
- false
-
-export any = (f, xs) -->
- f = objToFunc f if typeof! f isnt \Function
- for x in xs when f x
- return yes
- no
-
-export all = (f, xs) -->
- f = objToFunc f if typeof! f isnt \Function
- for x in xs when not f x
- return no
- yes
-
-export unique = (xs) ->
- result = []
- if typeof! xs is \Object
- for , x of xs when x not in result then result.push x
- else
- for x in xs when x not in result then result.push x
- if typeof! xs is \String then result * '' else result
-
-export sort = (xs) ->
- xs.concat!sort (x, y) ->
- | x > y => 1
- | x < y => -1
- | _ => 0
-
-export sortBy = (f, xs) -->
- return [] unless xs.length
- xs.concat!sort f
-
-export compare = (f, x, y) -->
- | (f x) > (f y) => 1
- | (f x) < (f y) => -1
- | otherwise => 0
-
-export sum = (xs) ->
- result = 0
- if typeof! xs is \Object
- for , x of xs then result += x
- else
- for x in xs then result += x
- result
-
-export product = (xs) ->
- result = 1
- if typeof! xs is \Object
- for , x of xs then result *= x
- else
- for x in xs then result *= x
- result
-
-export mean = export average = (xs) -> (sum xs) / len xs
-
-export concat = (xss) -> fold append, [], xss
-
-export concatMap = (f, xs) --> fold ((memo, x) -> append memo, f x), [], xs
-
-export listToObj = (xs) ->
- {[x.0, x.1] for x in xs}
-
-export maximum = (xs) -> fold1 (>?), xs
-
-export minimum = (xs) -> fold1 (<?), xs
-
-export scan = export scanl = (f, memo, xs) -->
- last = memo
- if typeof! xs is \Object
- then [memo] ++ [last = f last, x for , x of xs]
- else [memo] ++ [last = f last, x for x in xs]
-
-export scan1 = export scanl1 = (f, xs) --> scan f, xs.0, xs.slice 1
-
-export scanr = (f, memo, xs) -->
- xs.=slice!reverse!
- scan f, memo, xs .reverse!
-
-export scanr1 = (f, xs) -->
- xs.=slice!reverse!
- scan f, xs.0, xs.slice 1 .reverse!
-
-export replicate = (n, x) -->
- result = []
- i = 0
- while i < n, ++i then result.push x
- result
-
-export take = (n, xs) -->
- | n <= 0
- if typeof! xs is \String then '' else []
- | not xs.length => xs
- | otherwise => xs.slice 0, n
-
-export drop = (n, xs) -->
- | n <= 0 => xs
- | not xs.length => xs
- | otherwise => xs.slice n
-
-export splitAt = (n, xs) --> [(take n, xs), (drop n, xs)]
-
-export takeWhile = (p, xs) -->
- return xs if not xs.length
- p = objToFunc p if typeof! p isnt \Function
- result = []
- for x in xs
- break if not p x
- result.push x
- if typeof! xs is \String then result * '' else result
-
-export dropWhile = (p, xs) -->
- return xs if not xs.length
- p = objToFunc p if typeof! p isnt \Function
- i = 0
- for x in xs
- break if not p x
- ++i
- drop i, xs
-
-export span = (p, xs) --> [(takeWhile p, xs), (dropWhile p, xs)]
-
-export breakIt = (p, xs) --> span (not) << p, xs
-
-export zip = (xs, ys) -->
- result = []
- for zs, i in [xs, ys]
- for z, j in zs
- result.push [] if i is 0
- result[j]?push z
- result
-
-export zipWith = (f,xs, ys) -->
- f = objToFunc f if typeof! f isnt \Function
- if not xs.length or not ys.length
- []
- else
- [f.apply this, zs for zs in zip.call this, xs, ys]
-
-export zipAll = (...xss) ->
- result = []
- for xs, i in xss
- for x, j in xs
- result.push [] if i is 0
- result[j]?push x
- result
-
-export zipAllWith = (f, ...xss) ->
- f = objToFunc f if typeof! f isnt \Function
- if not xss.0.length or not xss.1.length
- []
- else
- [f.apply this, xs for xs in zipAll.apply this, xss]
-
-export compose = (...funcs) ->
- ->
- args = arguments
- for f in funcs
- args = [f.apply this, args]
- args.0
-
-export curry = (f) ->
- curry$ f # using util method curry$ from livescript
-
-export id = (x) -> x
-
-export flip = (f, x, y) --> f y, x
-
-export fix = (f) ->
- ( (g, x) -> -> f(g g) ...arguments ) do
- (g, x) -> -> f(g g) ...arguments
-
-export lines = (str) ->
- return [] if not str.length
- str / \\n
-
-export unlines = (strs) -> strs * \\n
-
-export words = (str) ->
- return [] if not str.length
- str / /[ ]+/
-
-export unwords = (strs) -> strs * ' '
-
-export max = (>?)
-
-export min = (<?)
-
-export negate = (x) -> -x
-
-export abs = Math.abs
-
-export signum = (x) ->
- | x < 0 => -1
- | x > 0 => 1
- | otherwise => 0
-
-export quot = (x, y) --> ~~(x / y)
-
-export rem = (%)
-
-export div = (x, y) --> Math.floor x / y
-
-export mod = (%%)
-
-export recip = (1 /)
-
-export pi = Math.PI
-
-export tau = pi * 2
-
-export exp = Math.exp
-
-export sqrt = Math.sqrt
-
-# changed from log as log is a
-# common function for logging things
-export ln = Math.log
-
-export pow = (^)
-
-export sin = Math.sin
-
-export tan = Math.tan
-
-export cos = Math.cos
-
-export asin = Math.asin
-
-export acos = Math.acos
-
-export atan = Math.atan
-
-export atan2 = (x, y) --> Math.atan2 x, y
-
-# sinh
-# tanh
-# cosh
-# asinh
-# atanh
-# acosh
-
-export truncate = (x) -> ~~x
-
-export round = Math.round
-
-export ceiling = Math.ceil
-
-export floor = Math.floor
-
-export isItNaN = (x) -> x isnt x
-
-export even = (x) -> x % 2 == 0
-
-export odd = (x) -> x % 2 != 0
-
-export gcd = (x, y) -->
- x = Math.abs x
- y = Math.abs y
- until y is 0
- z = x % y
- x = y
- y = z
- x
-
-export lcm = (x, y) -->
- Math.abs Math.floor (x / (gcd x, y) * y)
-
-# meta
-export installPrelude = !(target) ->
- unless target.prelude?isInstalled
- target <<< out$ # using out$ generated by livescript
- target <<< target.prelude.isInstalled = true
-
-export prelude = out$
-</textarea></form>
- <script>
- var editor = CodeMirror.fromTextArea(document.getElementById("code"), {
- theme: "solarized light",
- lineNumbers: true
- });
- </script>
-
- <p><strong>MIME types defined:</strong> <code>text/x-livescript</code>.</p>
-
- <p>The LiveScript mode was written by Kenneth Bentley (<a href="LICENSE">license</a>).</p>
-
- </body>
-</html>
git://git.onelab.eu / myslice.git / blobdiff