Objective Caml version 3.10.1+dev0 (2007-05-21) # * * * # type 'a t = { t : 'a; } # type 'a fold = { fold : 'b. f:('b -> 'a -> 'b) -> init:'b -> 'b; } # val f : 'a list -> 'a fold = # - : int = 6 # class ['a] ilist : 'a list -> object ('b) val l : 'a list method add : 'a -> 'b method fold : f:('c -> 'a -> 'c) -> init:'c -> 'c end # class virtual ['a] vlist : object ('b) method virtual add : 'a -> 'b method virtual fold : f:('c -> 'a -> 'c) -> init:'c -> 'c end # class ilist2 : int list -> object ('a) val l : int list method add : int -> 'a method fold : f:('b -> int -> 'b) -> init:'b -> 'b end # val ilist2 : 'a list -> 'a vlist = # class ['a] ilist3 : 'a list -> object ('b) val l : 'a list method add : 'a -> 'b method fold : f:('c -> 'a -> 'c) -> init:'c -> 'c end # class ['a] ilist4 : 'a list -> object ('b) val l : 'a list method add : 'a -> 'b method fold : f:('c -> 'a -> 'c) -> init:'c -> 'c end # class ['a] ilist5 : 'a list -> object ('b) val l : 'a list method add : 'a -> 'b method fold : f:('c -> 'a -> 'c) -> init:'c -> 'c method fold2 : f:('d -> 'a -> 'd) -> init:'d -> 'd end # class ['a] ilist6 : 'a list -> object ('b) val l : 'a list method add : 'a -> 'b method fold : f:('c -> 'a -> 'c) -> init:'c -> 'c method fold2 : f:('d -> 'a -> 'd) -> init:'d -> 'd end # class virtual ['a] olist : object method virtual fold : f:('a -> 'b -> 'b) -> init:'b -> 'b end # class ['a] onil : object method fold : f:('a -> 'b -> 'b) -> init:'b -> 'b end # class ['a] ocons : hd:'a -> tl:'a olist -> object val hd : 'a val tl : 'a olist method fold : f:('a -> 'b -> 'b) -> init:'b -> 'b end # class ['a] ostream : hd:'a -> tl:'a ostream -> object val hd : 'a val tl : 'a ostream method empty : bool method fold : f:('a -> 'b -> 'b) -> init:'b -> 'b end # class ['a] ostream1 : hd:'a -> tl:'b -> object ('b) val hd : 'a val tl : 'b method fold : f:('a -> 'c -> 'c) -> init:'c -> 'c method hd : 'a method tl : 'b end # class vari : object method m : [< `A | `B | `C ] -> int end # class vari : object method m : [< `A | `B | `C ] -> int end # module V : sig type v = [ `A | `B | `C ] val m : [< v ] -> int end # class varj : object method m : [< V.v ] -> int end # module type T = sig class vari : object method m : [< `A | `B | `C ] -> int end end # module M0 : sig class vari : object method m : [< `A | `B | `C ] -> int end end # module M : T # val v : M.vari = # - : int = 1 # class point : x:int -> y:int -> object val x : int val y : int method x : int method y : int end # class color_point : x:int -> y:int -> color:string -> object val color : string val x : int val y : int method color : string method x : int method y : int end # class circle : #point -> r:int -> object val p : point val r : int method distance : #point -> float end # val p0 : point = val p1 : point = val cp : color_point = val c : circle = val d : float = 11.4536240470737098 # val f : < m : 'a. 'a -> 'a > -> < m : 'a. 'a -> 'a > = # Characters 41-42: This expression has type < m : 'a. 'a -> 'a list > but is here used with type < m : 'a. 'a -> 'b > The universal variable 'a would escape its scope # class id : object method id : 'a -> 'a end # class type id_spec = object method id : 'a -> 'a end # class id_impl : object method id : 'a -> 'a end # class a : object method m : bool end and b : object method id : 'a -> 'a end # Characters 72-77: This method has type 'a -> 'a which is less general than 'b. 'b -> 'a # Characters 75-80: This method has type 'a -> 'a which is less general than 'b. 'b -> 'a # Characters 80-85: This method has type 'a -> 'a which is less general than 'b. 'b -> 'b # Characters 92-159: This method has type 'a -> 'a which is less general than 'b. 'b -> 'b # class c : object method m : 'a -> 'b -> 'a end # val f1 : id -> int * bool = # val f2 : id -> int * bool = # Characters 24-28: This expression has type bool but is here used with type int # val f4 : id -> int * bool = # class c : object method m : #id -> int * bool end # class id2 : object method id : 'a -> 'a method mono : int -> int end # val app : int * bool = (1, true) # Characters 4-25: The type abbreviation foo is cyclic # class ['a] bar : 'a -> object end # type 'a foo = 'a foo bar # - : (< m : 'b. 'b * 'a > as 'a) -> 'c * 'a = # - : (< m : 'b. 'a * 'b list > as 'a) -> 'a * 'c list = # val f : (< m : 'b. 'a * (< n : 'b; .. > as 'b) > as 'a) -> 'a * (< n : 'c; .. > as 'c) = # - : ( as 'b > as 'a) -> (< m : 'c; n : 'a; .. > as 'c) = # - : (< m : 'b. 'b * as 'c > as 'a) -> ('f * as 'e) = # - : < m : 'a. as 'b > -> 'b = # type sum = T of < id : 'a. 'a -> 'a > # - : sum -> 'a -> 'a = # type record = { r : < id : 'a. 'a -> 'a >; } # - : record -> 'a -> 'a = # - : record -> 'a -> 'a = # class myself : object ('a) method self : 'b -> 'a end # class number : object ('a) val num : int method num : int method prev : 'a method succ : 'a method switch : zero:(unit -> 'b) -> prev:('a -> 'b) -> 'b end # val id : 'a -> 'a = # class c : object method id : 'a -> 'a end # class c' : object method id : 'a -> 'a end # class d : object val mutable count : int method count : int method id : 'a -> 'a method old : 'b -> 'b end # class ['a] olist : 'a list -> object ('b) val l : 'a list method cons : 'a -> 'b method fold : f:('a -> 'c -> 'c) -> init:'c -> 'c end # val sum : int #olist -> int = # val count : 'a #olist -> int = # val append : 'a #olist -> ('a #olist as 'b) -> 'b = # type 'a t = unit # class o : object method x : [> `A ] t -> unit end # class c : object method m : d end and d : ?x:int -> unit -> object end # class d : ?x:int -> unit -> object end and c : object method m : d end # class type numeral = object method fold : ('a -> 'a) -> 'a -> 'a end class zero : object method fold : ('a -> 'a) -> 'a -> 'a end class next : #numeral -> object method fold : ('a -> 'a) -> 'a -> 'a end # class type node_type = object method as_variant : [> `Node of node_type ] end # class node : node_type # class node : object method as_variant : [> `Node of node_type ] end # type bad = { bad : 'a. 'a option ref; } # Characters 17-25: This field value has type 'a option ref which is less general than 'b. 'b option ref # type bad2 = { mutable bad2 : 'a. 'a option ref option; } # val bad2 : bad2 = {bad2 = None} # Characters 13-28: This field value has type 'a option ref option which is less general than 'b. 'b option ref option # val f : < m : 'a. as 'b > -> 'c -> unit = # val f : < m : 'a. 'a * ( as 'b) > -> 'b -> unit = # type 'a t = [ `A of 'a ] # class c : object method m : ([> 'a t ] as 'a) -> unit end # class c : object method m : ([> 'a t ] as 'a) -> unit end # class c : object method m : ([> 'a t ] as 'a) -> 'a end # class c : object method m : ([> `A ] as 'a) option -> 'a end # Characters 145-166: This type scheme cannot quantify 'a : it escapes this scope. # type ('a, 'b) list_visitor = < caseCons : 'b -> 'b list -> 'a; caseNil : 'a > type 'a alist = < visit : 'b. ('b, 'a) list_visitor -> 'b > class type ct = object ('a) method fold : ('b -> 'a -> 'b) -> 'b -> 'b end type t = { f : 'a 'b. ('b -> (#ct as 'a) -> 'b) -> 'b; } # Characters 19-25: The type abbreviation t is cyclic # class ['a] a : object constraint 'a = [> `A of 'a a ] end type t = [ `A of t a ] # Characters 71-80: Constraints are not satisfied in this type. Type ('a, 'b) t should be an instance of ('c, 'c) t # type 'a t = 'a and u = int t # type 'a t constraint 'a = int # Characters 26-32: Constraints are not satisfied in this type. Type 'a u t should be an instance of int t # type 'a u = 'a constraint 'a = int and 'a v = 'a u t constraint 'a = int # type g = int # type 'a t = unit constraint 'a = g # Characters 26-32: Constraints are not satisfied in this type. Type 'a u t should be an instance of g t # type 'a u = 'a constraint 'a = g and 'a v = 'a u t constraint 'a = int # Characters 38-58: In the definition of v, type 'a list u should be 'a u # type 'a t = 'a type 'a u = A of 'a t # type 'a t = < a : 'a > # - : ('a t as 'a) -> 'a t = # type u = 'a t as 'a # type t = A | B # - : [> `A ] * t -> int = # - : [> `A ] * t -> int = # - : [> `A ] option * t -> int = # - : [> `A ] option * t -> int = # - : t * [< `A | `B ] -> int = # - : [< `A | `B ] * t -> int = # Characters 0-41: Warning P: this pattern-matching is not exhaustive. Here is an example of a value that is not matched: (`AnyExtraTag, `AnyExtraTag) - : [> `A | `B ] * [> `A | `B ] -> int = # Characters 0-29: Warning P: this pattern-matching is not exhaustive. Here is an example of a value that is not matched: (_, 0) Characters 21-24: Warning U: this match case is unused. - : [< `B ] * int -> int = # Characters 0-29: Warning P: this pattern-matching is not exhaustive. Here is an example of a value that is not matched: (0, _) Characters 21-24: Warning U: this match case is unused. - : int * [< `B ] -> int = # Characters 69-135: Constraints are not satisfied in this type. Type ([> `B of 'a ], 'a) b as 'a should be an instance of (('b, [> `A of 'b ] as 'c) a as 'b, 'c) b # class type ['a, 'b] a = object constraint 'a = ('a, 'b) #a constraint 'b = ('a, 'b) #b method as_a : ('a, 'b) a method b : 'b end and ['a, 'b] b = object constraint 'a = ('a, 'b) #a constraint 'b = ('a, 'b) #b method a : 'a method as_b : ('a, 'b) b end class type ['a] ca = object ('b) constraint 'a = ('b, 'a) #b method as_a : ('b, 'a) a method b : 'a end class type ['a] cb = object ('b) constraint 'a = ('a, 'b) #a method a : 'a method as_b : ('a, 'b) b end type bt = 'a ca cb as 'a # class c : object method m : int end # val f : unit -> c = # val f : unit -> c = # Characters 11-60: Warning X: the following private methods were made public implicitly: n. val f : unit -> < m : int; n : int > = # Characters 11-56: This object is expected to have type c but has actually type < m : int; n : 'a > The first object type has no method n # Characters 11-69: This object is expected to have type < n : int > but has actually type < m : 'a > The second object type has no method n # Characters 66-124: This object is expected to have type < x : int; .. > but has actually type < x : int > Self type cannot be unified with a closed object type # val o : < x : int > = # Characters 76-77: This expression has type < m : 'b. 'b * < m : 'b * 'a > > as 'a but is here used with type < m : 'b. 'b * (< m : 'b * < m : 'd. 'd * 'c > > as 'c) > Types for method m are incompatible # Characters 176-177: This expression has type foo' = < m : 'a. 'a * 'a foo > but is here used with type bar' = < m : 'a. 'a * 'a bar > Type 'a foo = < m : 'a * 'a foo > is not compatible with type 'a bar = < m : 'a * < m : 'b. 'b * 'a bar > > Type 'a foo = < m : 'a * 'a foo > is not compatible with type < m : 'b. 'b * 'a bar > Types for method m are incompatible # Characters 67-68: This expression has type < m : 'a. 'a * ('a * < m : 'c. 'c * 'b > as 'b) > but is here used with type < m : 'a. 'a * ('a * < m : 'c. 'c * ('c * 'd) >) > as 'd Types for method m are incompatible # Characters 66-67: This expression has type < m : 'a. 'a * ('a * < m : 'c. 'c * 'b > as 'b) > but is here used with type < m : 'a. 'a * ('a * < m : 'c. 'c * ('a * 'd) >) > as 'd Types for method m are incompatible # Characters 51-52: This expression has type < m : 'b. 'b * ('b * 'a) > as 'a but is here used with type < m : 'b. 'b * ('b * < m : 'd. 'd * 'c > as 'c) > Types for method m are incompatible # Characters 14-115: Type < m : 'a. 'a -> ('a * (< m : 'd. 'd -> 'b as 'e > as 'c) as 'b) > is not a subtype of type < m : 'a. 'a -> ('a * 'f as 'h) as 'g > as 'f # Characters 88-150: Signature mismatch: Modules do not match: sig val f : (< m : 'b. 'b * ('b * 'a) > as 'a) -> unit end is not included in sig val f : < m : 'a. 'a * ('a * < m : 'c. 'c * 'b > as 'b) > -> unit end Values do not match: val f : (< m : 'b. 'b * ('b * 'a) > as 'a) -> unit is not included in val f : < m : 'a. 'a * ('a * < m : 'c. 'c * 'b > as 'b) > -> unit # Characters 78-132: Signature mismatch: Modules do not match: sig type t = < m : 'b. 'b * ('b * 'a) > as 'a end is not included in sig type t = < m : 'a. 'a * ('a * < m : 'c. 'c * 'b > as 'b) > end Type declarations do not match: type t = < m : 'b. 'b * ('b * 'a) > as 'a is not included in type t = < m : 'a. 'a * ('a * < m : 'c. 'c * 'b > as 'b) > # module M : sig type 'a t type u = < m : 'a. 'a t > end # module M : sig type 'a t val f : < m : 'a. 'a t > -> int end # module M : sig type 'a t val f : < m : 'a. 'a t > -> int end # val f : (< m : 'b. 'b -> (< m : 'b. 'b -> 'c * < > > as 'c) * < .. >; .. > as 'a) -> 'a -> bool = # type t = [ `A | `B ] # type v = private [> t ] # - : t -> v = # type u = private [< t ] # - : u -> v = # Characters 9-21: Type v = [> `A | `B ] is not a subtype of type u = [< `A | `B ] # type v = private [< t ] # Characters 9-21: Type u = [< `A | `B ] is not a subtype of type v = [< `A | `B ] # type p = < x : p > # type q = private < x : p; .. > # - : q -> p = # Characters 9-21: Type p = < x : p > is not a subtype of type q = < x : p; .. > # Characters 14-100: Type < m : 'a. ( as 'a) -> int > is not a subtype of type < m : 'b. ( as 'b) -> int > # val f2 : < m : 'a. (; .. > as 'a) -> int > -> < m : 'a. (; .. > as 'a) -> int > = # Characters 13-107: Type < m : 'a. (; .. > as 'a) -> int > is not a subtype of type < m : 'a. (; .. > as 'a) -> int > # Characters 11-55: Type ; .. > is not a subtype of type ; .. > The second object type has no method b # val f5 : < m : 'a. [< `A of ] as 'a > -> < m : 'a. [< `A of < > ] as 'a > = # Characters 13-83: Type < m : 'a. [< `A of < > ] as 'a > is not a subtype of type < m : 'a. [< `A of ] as 'a > # class c : object method id : 'a -> 'a end # type u = c option # val just : 'a option -> 'a = # val f : c -> 'a -> 'a = # val g : c -> 'a -> 'a = # val h : < id : 'a; .. > -> 'a = # * * * * * * * * * * * * * * * * * * *