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- open StdLabels
- let identifier = "escaped_string"
- let description = "Check for unnecessary use of expression encoded in string"
- let active = ref true
- module TypeBuilder = Compose.Expression (Get_type)
- module Expression = TypeBuilder.Make (struct
- type t = Report.t list
- type t' = Report.t list
- let v : Get_type.t Lazy.t * t -> t' = snd
- (** Identify the expressions reprented as string. That’s here that the report
- are added.
- All the rest of the module only push thoses warning to the top level. *)
- let literal :
- S.pos -> (Get_type.t Lazy.t * t) T.literal list -> Get_type.t Lazy.t -> t
- =
- fun pos content _type_of ->
- match content with
- | [ T.Expression (t', _); T.Text "" ] -> (
- match Get_type.get_type (Lazy.force t') with
- | Get_type.Integer -> []
- | _ ->
- let msg = Report.debug pos "This expression can be simplified" in
- [ msg ])
- | _ -> []
- let ident :
- (S.pos, Get_type.t Lazy.t * t) S.variable -> Get_type.t Lazy.t -> t =
- fun variable _type_of ->
- match variable.index with None -> [] | Some (_, t) -> t
- let integer : S.pos -> string -> Get_type.t Lazy.t -> t =
- fun pos t _type_of ->
- ignore pos;
- ignore t;
- []
- let function_ :
- S.pos ->
- T.function_ ->
- (Get_type.t Lazy.t * t) list ->
- Get_type.t Lazy.t ->
- t =
- fun pos f expressions _type_of ->
- ignore pos;
- ignore f;
- let exprs =
- List.fold_left ~init:[] expressions ~f:(fun acc el ->
- List.rev_append (snd el) acc)
- in
- exprs
- let uoperator :
- S.pos -> T.uoperator -> Get_type.t Lazy.t * t -> Get_type.t Lazy.t -> t =
- fun pos op r _type_of ->
- ignore op;
- ignore pos;
- snd r
- let boperator :
- S.pos ->
- T.boperator ->
- Get_type.t Lazy.t * t ->
- Get_type.t Lazy.t * t ->
- Get_type.t Lazy.t ->
- t =
- fun pos op (_, r1) (_, r2) _type_of ->
- ignore pos;
- ignore op;
- r1 @ r2
- end)
- module Instruction :
- S.Instruction with type t' = Report.t list and type expression = Expression.t' =
- struct
- type t = Report.t list
- (** Internal type used in the evaluation *)
- type t' = t
- let v : t -> t' = Fun.id
- type expression = Expression.t'
- let call : S.pos -> T.keywords -> expression list -> t =
- fun pos k exprs ->
- ignore pos;
- ignore k;
- List.concat exprs
- let location : S.pos -> string -> t = fun _ _ -> []
- let comment : S.pos -> t = fun _ -> []
- let expression : expression -> t = Fun.id
- let act : S.pos -> label:expression -> t list -> t =
- fun pos ~label instructions ->
- ignore pos;
- List.concat (label :: instructions)
- let fold_clause : (expression, t) S.clause -> t =
- fun (_pos1, expression, ts) -> List.concat (expression :: ts)
- let if_ :
- S.pos ->
- (expression, t) S.clause ->
- elifs:(expression, t) S.clause list ->
- else_:(S.pos * t list) option ->
- t =
- fun pos clause ~elifs ~else_ ->
- ignore pos;
- let init =
- match else_ with
- | None -> fold_clause clause
- | Some (_, ts) -> List.rev_append (fold_clause clause) (List.concat ts)
- in
- List.fold_left elifs ~init ~f:(fun t clause ->
- List.rev_append (fold_clause clause) t)
- let assign :
- S.pos ->
- (S.pos, expression) S.variable ->
- T.assignation_operator ->
- expression ->
- t =
- fun pos variable op expression ->
- ignore pos;
- ignore op;
- match variable.index with
- | None -> expression
- | Some v -> List.rev_append v expression
- end
- module Location = struct
- type t = Report.t list
- type instruction = Instruction.t'
- let v = Fun.id
- let location : S.pos -> instruction list -> t =
- fun pos intructions ->
- ignore pos;
- List.concat intructions
- end
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