# Formatting # ---------- # TODO: maybe this file should be split up into their respective sections: # operators -> operators # array literals -> array literals # string literals -> string literals # function invocations -> function invocations doesNotThrow -> CoffeeScript.compile "a = then b" test "multiple semicolon-separated statements in parentheticals", -> nonce = {} eq nonce, (1; 2; nonce) eq nonce, (-> return (1; 2; nonce))() # * Line Continuation # * Property Accesss # * Operators # * Array Literals # * Function Invocations # * String Literals # Property Access test "chained accesses split on period/newline, backwards and forwards", -> str = 'abc' result = str. split(''). reverse(). reverse(). reverse() arrayEq ['c','b','a'], result arrayEq ['c','b','a'], str. split(''). reverse(). reverse(). reverse() result = str .split('') .reverse() .reverse() .reverse() arrayEq ['c','b','a'], result arrayEq ['c','b','a'], str .split('') .reverse() .reverse() .reverse() arrayEq ['c','b','a'], str. split('') .reverse(). reverse() .reverse() # Operators test "newline suppression for operators", -> six = 1 + 2 + 3 eq 6, six test "`?.` and `::` should continue lines", -> ok not ( Date :: ?.foo ) #eq Object::toString, Date?. #prototype #:: #?.foo doesNotThrow -> CoffeeScript.compile """ oh. yes oh?. true oh:: return """ doesNotThrow -> CoffeeScript.compile """ a?[b..] a?[...b] a?[b..c] """ test "#1768: space between `::` and index is ignored", -> eq 'function', typeof String:: ['toString'] # Array Literals test "indented array literals don't trigger whitespace rewriting", -> getArgs = -> arguments result = getArgs( [[[[[], []], [[]]]], []]) eq 1, result.length # Function Invocations doesNotThrow -> CoffeeScript.compile """ obj = then fn 1, 1: 1 a: b: -> fn c, d: e f: 1 """ # String Literals test "indented heredoc", -> result = ((_) -> _)( """ abc """) eq "abc", result # Chaining - all open calls are closed by property access starting a new line # * chaining after # * indented argument # * function block # * indented object # # * single line arguments # * inline function literal # * inline object literal # # * chaining inside # * implicit object literal test "chaining after outdent", -> id = (x) -> x # indented argument ff = id parseInt "ff", 16 .toString() eq '255', ff # function block str = 'abc' zero = parseInt str.replace /\w/, (letter) -> 0 .toString() eq '0', zero # indented object a = id id a: 1 .a eq 1, a test "#1495, method call chaining", -> str = 'abc' result = str.split '' .join ', ' eq 'a, b, c', result result = str .split '' .join ', ' eq 'a, b, c', result eq 'a, b, c', (str .split '' .join ', ' ) eq 'abc', 'aaabbbccc'.replace /(\w)\1\1/g, '$1$1' .replace /([abc])\1/g, '$1' # Nested calls result = [1..3] .slice Math.max 0, 1 .concat [3] arrayEq [2, 3, 3], result # Single line function arguments result = [1..6] .map (x) -> x * x .filter (x) -> x % 2 is 0 .reverse() arrayEq [36, 16, 4], result # Single line implicit objects id = (x) -> x result = id a: 1 .a eq 1, result # The parens are forced result = str.split(''. split '' .join '' ).join ', ' eq 'a, b, c', result test "chaining should not wrap spilling ternary", -> throws -> CoffeeScript.compile """ if 0 then 1 else g a: 42 .h() """ test "chaining should wrap calls containing spilling ternary", -> f = (x) -> h: x id = (x) -> x result = f if true then 42 else id a: 2 .h eq 42, result test "chaining should work within spilling ternary", -> f = (x) -> h: x id = (x) -> x result = f if false then 1 else id a: 3 .a eq 3, result.h test "method call chaining inside objects", -> f = (x) -> c: 42 result = a: f 1 b: f a: 1 .c eq 42, result.b test "#4568: refine sameLine implicit object tagging", -> condition = yes fn = -> yes x = fn bar: { foo: 123 } if not condition eq x, undefined # Nested blocks caused by paren unwrapping test "#1492: Nested blocks don't cause double semicolons", -> js = CoffeeScript.compile '(0;0)' eq -1, js.indexOf ';;' test "#1195 Ignore trailing semicolons (before newlines or as the last char in a program)", -> preNewline = (numSemicolons) -> """ nonce = {}; nonce2 = {} f = -> nonce#{Array(numSemicolons+1).join(';')} nonce2 unless f() is nonce then throw new Error('; before linebreak should = newline') """ CoffeeScript.run(preNewline(n), bare: true) for n in [1,2,3] lastChar = '-> lastChar;' doesNotThrow -> CoffeeScript.compile lastChar, bare: true test "#1299: Disallow token misnesting", -> try CoffeeScript.compile ''' [{ ]} ''' ok no catch e eq 'unmatched ]', e.message test "#2981: Enforce initial indentation", -> try CoffeeScript.compile ' a\nb-' ok no catch e eq 'missing indentation', e.message test "'single-line' expression containing multiple lines", -> doesNotThrow -> CoffeeScript.compile """ (a, b) -> if a -a else if b then -b else null """ test "#1275: allow indentation before closing brackets", -> array = [ 1 2 3 ] eq array, array do -> ( a = 1 ) eq 1, a test "don’t allow mixing of spaces and tabs for indentation", -> try CoffeeScript.compile ''' new Layer x: 0 y: 1 ''' ok no catch e eq 'indentation mismatch', e.message test "each code block that starts at indentation 0 can use a different style", -> doesNotThrow -> CoffeeScript.compile ''' new Layer x: 0 y: 1 new Layer x: 0 y: 1 ''' test "tabs and spaces cannot be mixed for indentation", -> try CoffeeScript.compile ''' new Layer x: 0 y: 1 ''' ok no catch e eq 'mixed indentation', e.message test "#4487: Handle unusual outdentation", -> a = switch 1 when 2 no when 3 then no when 1 then yes eq yes, a b = do -> if no if no 1 2 3 eq b, undefined test "#3906: handle further indentation inside indented chain", -> eq 1, CoffeeScript.eval ''' z = b: -> d: 2 e = -> f = 3 z .b -> c .d e( f ) 1 ''' eq 1, CoffeeScript.eval ''' z = -> b: -> e: -> z() .b c: 'd' .e() f = [ 'g' ] 1 ''' eq 1, CoffeeScript.eval ''' z = -> c: -> c: -> z('b') .c 'a', {b: 'a'} .c() z( 'b' ) 1 ''' test "#3199: throw multiline implicit object", -> x = do -> if no then throw type: 'a' msg: 'b' eq undefined, x y = do -> if no then return type: 'a' msg: 'b' eq undefined, y test "#4576: multiple row function chaining", -> -> eq @a, 3 .call a: 3 test "#4576: function chaining on separate rows", -> do -> Promise .resolve() .then -> yes .then ok test "#3736: chaining after do IIFE", -> eq 3, do -> a: 3 .a eq 3, do (b = (c) -> c) -> a: 3 ?.a b = 3 eq 3, do ( b {d} = {} ) -> a: b .a # preserve existing chaining behavior for non-IIFE `do` b = c: -> 4 eq 4, do b .c