a = [((x) -> x), ((x) -> x * x)] ok a.length is 2 neg = (3 -4) ok neg is -1 # Decimal number literals. value = .25 + .75 ok value is 1 value = 0.0 + -.25 - -.75 + 0.0 ok value is 0.5 # Decimals don't interfere with ranges. ok [0..10].join(' ') is '0 1 2 3 4 5 6 7 8 9 10' ok [0...10].join(' ') is '0 1 2 3 4 5 6 7 8 9' # Can call methods directly on numbers. 4.valueOf() is 4 func = -> return if true ok func() is undefined trailingComma = [1, 2, 3,] ok (trailingComma[0] is 1) and (trailingComma[2] is 3) and (trailingComma.length is 3) trailingComma = [ 1, 2, 3, 4, 5, 6 7, 8, 9, ] (sum = (sum or 0) + n) for n in trailingComma trailingComma = {k1: "v1", k2: 4, k3: (-> true),} ok trailingComma.k3() and (trailingComma.k2 is 4) and (trailingComma.k1 is "v1") ok {a: (num) -> num is 10 }.a 10 moe = { name: 'Moe' greet: (salutation) -> salutation + " " + @name hello: -> @['greet'] "Hello" 10: 'number' } ok moe.hello() is "Hello Moe" ok moe[10] is 'number' moe.hello = -> this['greet'] "Hello" ok moe.hello() is 'Hello Moe' obj = { is: -> yes, 'not': -> no, } ok obj.is() ok not obj.not() # Top-level object literal doesn't break things. obj: 1 # Funky indentation within non-comma-seperated arrays. result = [['a'] {b: 'c'}] ok result[0][0] is 'a' ok result[1]['b'] is 'c' # Object literals should be able to include keywords. obj = {class: 'höt'} obj.function = 'dog' ok obj.class + obj.function is 'hötdog' # But keyword assignment should be smart enough not to stringify variables. func = -> this == 'this' ok func() is false # New fancy implicit objects: config = development: server: 'localhost' timeout: 10 production: server: 'dreamboat' timeout: 1000 ok config.development.server is 'localhost' ok config.production.server is 'dreamboat' ok config.development.timeout is 10 ok config.production.timeout is 1000 obj = a: 1 b: 2 ok obj.a is 1 ok obj.b is 2 obj = a: 1, b: 2, ok obj.a is 1 ok obj.b is 2 # Implicit objects nesting. obj = options: value: yes fn: -> {} null ok obj.options.value is yes ok obj.fn() is null # Implicit arguments to function calls: func = (obj) -> obj.a result = func a: 10 ok result is 10 result = func "a": 20 ok result is 20 third = (a, b, c) -> c obj = one: 'one' two: third 'one', 'two', 'three' ok obj.one is 'one' ok obj.two is 'three' # Implicit objects with wacky indentation: obj = 'reverse': (obj) -> Array.prototype.reverse.call obj abc: -> @reverse( @reverse @reverse ['a', 'b', 'c'].reverse() ) one: [1, 2, a: 'b' 3, 4] red: orange: yellow: green: 'blue' indigo: 'violet' misdent: [[], [], [], []] ok obj.abc().join(' ') is 'a b c' ok obj.one.length is 5 ok obj.one[4] is 4 ok obj.one[2].a is 'b' ok (key for key of obj.red).length is 2 ok obj.red.orange.yellow.green is 'blue' ok obj.red.indigo is 'violet' ok obj.misdent.toString() is ',,,' second = (x, y) -> y obj = then second 'the', 1: 1 two: three: -> four five, six: seven three: 3 ok obj[1] is 1 ok obj.three is 3 # Implicit objects as part of chained calls. identity = (x) -> x.a b = identity identity identity a: a: a: 100 ok b is 100 # Inline JS eq '\\`', ` "\\\`" ` # Shorthand objects with property references. obj = one: 1 two: 2 object: -> {@one, @two} list: -> [@one, @two] result = obj.object() eq result.one, 1 eq result.two, 2 eq result.two, obj.list()[1] #542: Objects leading expression statement should be parenthesized. {f: -> ok yes }.f() + 1 #764: Boolean/Number should be indexable. ok 42['toString'] ok on['toString']