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jashkenas--coffeescript/test/test_functions.coffee
2010-09-20 12:02:16 +02:00

253 lines
4.4 KiB
CoffeeScript

x = 1
y = {}
y.x = -> 3
ok x is 1
ok typeof(y.x) is 'function'
ok y.x instanceof Function
ok y.x() is 3
# The empty function should not cause a syntax error.
->
() ->
# Multiple nested function declarations mixed with implicit calls should not
# cause a syntax error.
(one) -> (two) -> three four, (five) -> six seven, eight, (nine) ->
obj = {
name: 'Fred'
bound: ->
(=> ok(this.name is 'Fred'))()
unbound: ->
(-> ok(!this.name?))()
nested: ->
(=>
(=>
(=>
ok this.name is 'Fred'
)()
)()
)()
}
obj.unbound()
obj.bound()
obj.nested()
# Python decorator style wrapper that memoizes any function
memoize = (fn) ->
cache = {}
self = this
(args...) ->
key = args.toString()
return cache[key] if cache[key]
cache[key] = fn.apply(self, args)
Math = {
Add: (a, b) -> a + b
AnonymousAdd: ((a, b) -> a + b)
FastAdd: memoize (a, b) -> a + b
}
ok Math.Add(5, 5) is 10
ok Math.AnonymousAdd(10, 10) is 20
ok Math.FastAdd(20, 20) is 40
# Parens are optional on simple function calls.
ok 100 > 1 if 1 > 0
ok true unless false
ok true for i in [1..3]
okFunc = (f) -> ok(f())
okFunc -> true
# Optional parens can be used in a nested fashion.
call = (func) -> func()
result = call ->
inner = call ->
Math.Add(5, 5)
ok result is 10
# More fun with optional parens.
fn = (arg) -> arg
ok fn(fn {prop: 101}).prop is 101
# Multi-blocks with optional parens.
result = fn( ->
fn ->
"Wrapped"
)
ok result()() is 'Wrapped'
# And even with strange things like this:
funcs = [((x) -> x), ((x) -> x * x)]
result = funcs[1] 5
ok result is 25
result = ("hello".slice) 3
ok result is 'lo'
# And with multiple single-line functions on the same line.
func = (x) -> (x) -> (x) -> x
ok func(1)(2)(3) is 3
# Ensure that functions with the same name don't clash with helper functions.
del = -> 5
ok del() is 5
# Ensure that functions can have a trailing comma in their argument list
mult = (x, mids..., y) ->
x *= n for n in mids
x *= y
ok mult(1, 2,) is 2
ok mult(1, 2, 3,) is 6
ok mult(10,[1..6]...,) is 7200
# Test for inline functions with parentheses and implicit calls.
combine = (func, num) -> func() * num
result = combine (-> 1 + 2), 3
ok result is 9
# Test for calls/parens/multiline-chains.
f = (x) -> x
result = (f 1).toString()
.length
ok result is 1
# Test implicit calls in functions in parens:
result = ((val) ->
[].push val
val
)(10)
ok result is 10
# More paren compilation tests:
reverse = (obj) -> obj.reverse()
ok reverse([1, 2].concat 3).join(' ') is '3 2 1'
# Passing multiple functions without paren-wrapping is legal, and should compile.
sum = (one, two) -> one() + two()
result = sum ->
7 + 9
, ->
1 + 3
ok result is 20
# Implicit call with a trailing if statement as a param.
func = -> arguments[1]
result = func 'one', if false then 100 else 13
ok result is 13
# Test more function passing:
result = sum( ->
1 + 2
, ->
2 + 1
)
ok result is 6
sum = (a, b) -> a + b
result = sum(1
, 2)
ok result is 3
# This is a crazy one.
x = (obj, func) -> func obj
ident = (x) -> x
result = x {one: ident 1}, (obj) ->
inner = ident(obj)
ident inner
ok result.one is 1
# Assignment to a Object.prototype-named variable should not leak to outer scope.
(->
constructor = 'word'
)()
ok constructor isnt 'word'
# Trying an implicit object call with a trailing function.
a = null
meth = (arg, obj, func) -> a = [obj.a, arg, func()].join ' '
meth 'apple', b: 1, a: 13, ->
'orange'
ok a is '13 apple orange'
# Ensure that empty functions don't return mistaken values.
obj =
func: (@param, @rest...) ->
ok obj.func(101, 102, 103, 104) is undefined
ok obj.param is 101
ok obj.rest.join(' ') is '102 103 104'
# `@` and `this` should both be able to invoke a method.
func = (arg) -> ok arg is true
func.withAt = -> @ true
func.withThis = -> this true
func.withAt()
func.withThis()
# Ensure that constructors invoked with splats return a new object.
args = [1, 2, 3]
Type = (@args) ->
type = new Type args
ok type and type instanceof Type
ok type.args and type.args instanceof Array
ok v is args[i] for v, i in type.args
Type1 = (@a, @b, @c) ->
type1 = new Type1 args...
ok type1 and type1 instanceof Type1
ok type1.a is args[0] and type1.b is args[1] and type1.c is args[2]
# Ensure that constructors invoked with splats cache the function.
called = 0
get = -> if called++ then false else class Type
new get() args...