open Types open CfimAst type 'id g_declaration_group = NonRec of 'id | Rec of 'id list [@@deriving show] type type_declaration_group = TypeDefId.id g_declaration_group [@@deriving show] type fun_declaration_group = FunDefId.id g_declaration_group [@@deriving show] (** Module declaration *) type declaration_group = | Type of type_declaration_group | Fun of fun_declaration_group [@@deriving show] type cfim_module = { declarations : declaration_group list; types : type_def list; functions : fun_def list; } (** CFIM module *) (** Split a module's declarations between types and functions *) let split_declarations (decls : declaration_group list) : type_declaration_group list * fun_declaration_group list = let rec split decls = match decls with | [] -> ([], []) | d :: decls' -> ( let types, funs = split decls' in match d with | Type decl -> (decl :: types, funs) | Fun decl -> (types, decl :: funs)) in split decls (** Split a module's declarations into two maps from type/fun ids to declaration groups. *) let split_declarations_to_group_maps (decls : declaration_group list) : type_declaration_group TypeDefId.Map.t * fun_declaration_group FunDefId.Map.t = let module G (M : Map.S) = struct let add_group (map : M.key g_declaration_group M.t) (group : M.key g_declaration_group) : M.key g_declaration_group M.t = match group with | NonRec id -> M.add id group map | Rec ids -> List.fold_left (fun map id -> M.add id group map) map ids let create_map (groups : M.key g_declaration_group list) : M.key g_declaration_group M.t = List.fold_left add_group M.empty groups end in let types, funs = split_declarations decls in let module TG = G (TypeDefId.Map) in let types = TG.create_map types in let module FG = G (FunDefId.Map) in let funs = FG.create_map funs in (types, funs)