-(* Copyright (C) 2004, HELM Team.
+(* Copyright (C) 2004-2005, HELM Team.
*
* This file is part of HELM, an Hypertextual, Electronic
* Library of Mathematics, developed at the Computer Science
let debug_print s =
if debug then prerr_endline ("Helm_registry debugging: " ^ s)
+ (** <helpers> *)
+
+let list_uniq l =
+ let rec aux last_element = function
+ | [] -> []
+ | hd :: tl ->
+ (match last_element with
+ | Some elt when elt = hd -> aux last_element tl
+ | _ -> hd :: aux (Some hd) tl)
+ in
+ aux None l
+
+let starts_with prefix =
+(*
+ let rex = Str.regexp (Str.quote prefix) in
+ fun s -> Str.string_match rex s 0
+*)
+ let prefix_len = String.length prefix in
+ fun s ->
+ try
+ String.sub s 0 prefix_len = prefix
+ with Invalid_argument _ -> false
+
+let hashtbl_keys tbl = Hashtbl.fold (fun k _ acc -> k :: acc) tbl []
+let hashtbl_pairs tbl = Hashtbl.fold (fun k v acc -> (k,v) :: acc) tbl []
+
+ (** </helpers> *)
+
exception Malformed_key of string
exception Key_not_found of string
exception Cyclic_definition of string
-exception Type_error of string * string * string (* expected type, value, msg *)
+exception Type_error of string (* expected type, value, msg *)
exception Parse_error of string * int * int * string (* file, line, col, msg *)
-exception Invalid_value of (string * string) * string (* key, value, descr *)
-
-type validator_id = int
(* root XML tag: used by save_to, ignored by load_from *)
let root_tag = "helm_registry"
-let get_next_validator_id =
- let next_id = ref 0 in
- fun () ->
- incr next_id;
- !next_id
-
let magic_size = 127
-let validators = Hashtbl.create magic_size
-let registry = Hashtbl.create magic_size
-let backup_registry () = Hashtbl.copy registry
-let restore_registry backup =
+let backup_registry registry = Hashtbl.copy registry
+let restore_registry backup registry =
Hashtbl.clear registry;
- Hashtbl.iter (fun key value -> Hashtbl.replace registry key value) backup
+ Hashtbl.iter (fun key value -> Hashtbl.add registry key value) backup
(* as \\w but:
* - no sequences of '_' longer than 1 are permitted
- * - no uppercase letter are permitted
*)
-let valid_step_rex_raw = "[a-z0-9]+\\(_[a-z0-9]+\\)*"
+let valid_step_rex_raw = "[a-zA-Z0-9]+\\(_[a-z0A-Z-9]+\\)*"
let valid_key_rex_raw =
- sprintf "%s\(\\.%s\)*" valid_step_rex_raw valid_step_rex_raw
+ sprintf "%s\\(\\.%s\\)*" valid_step_rex_raw valid_step_rex_raw
let valid_key_rex = Str.regexp ("^" ^ valid_key_rex_raw ^ "$")
let interpolated_key_rex = Str.regexp ("\\$(" ^ valid_key_rex_raw ^ ")")
let dot_rex = Str.regexp "\\."
let spaces_rex = Str.regexp "[ \t\n\r]+"
let heading_spaces_rex = Str.regexp "^[ \t\n\r]+"
+let margin_blanks_rex =
+ Str.regexp "^\\([ \t\n\r]*\\)\\([^ \t\n\r]*\\)\\([ \t\n\r]*\\)$"
+
+let strip_blanks s = Str.global_replace margin_blanks_rex "\\2" s
let split s =
(* trailing blanks are removed per default by split *)
Str.split spaces_rex (Str.global_replace heading_spaces_rex "" s)
let merge l = String.concat " " l
+let handle_type_error f x =
+ try f x with exn -> raise (Type_error (Printexc.to_string exn))
+
+ (** marshallers/unmarshallers *)
+let string x = x
+let int = handle_type_error int_of_string
+let float = handle_type_error float_of_string
+let bool = handle_type_error bool_of_string
+let of_string x = x
+let of_int = handle_type_error string_of_int
+let of_float = handle_type_error string_of_float
+let of_bool = handle_type_error string_of_bool
+
(* escapes for xml configuration file *)
let (escape, unescape) =
let (in_enc, out_enc) = (`Enc_utf8, `Enc_utf8) in
Netencoding.Html.decode ~in_enc ~out_enc ~entity_base:`Xml ())
let key_is_valid key =
-(* if not (Pcre.pmatch ~rex:valid_key_rex key) then *)
if not (Str.string_match valid_key_rex key 0) then
raise (Malformed_key key)
-let value_is_valid ~key ~value =
- List.iter
- (fun (validator, descr) ->
- if not (validator value) then
- raise (Invalid_value ((key, value), descr)))
- (Hashtbl.find_all validators key)
-
let set' registry ~key ~value =
debug_print (sprintf "Setting %s = %s" key value);
key_is_valid key;
- value_is_valid ~key ~value;
- Hashtbl.replace registry key value
+ Hashtbl.add registry key value
+
+let unset registry = Hashtbl.remove registry
-let unset = Hashtbl.remove registry
+let env_var_of_key = Str.global_replace dot_rex "__"
-let env_var_of_key key =
-(* Pcre.replace ~rex:dot_rex ~templ:"__" (String.uppercase key) *)
- Str.global_replace dot_rex "__" (String.uppercase key)
+let singleton = function
+ | [] ->
+ raise (Type_error ("empty list value found where singleton was expected"))
+ | hd :: _ -> hd
-let get key =
+let get registry key =
let rec aux stack key =
key_is_valid key;
if List.mem key stack then begin
let msg = (String.concat " -> " (List.rev stack)) ^ " -> " ^ key in
raise (Cyclic_definition msg)
end;
- let registry_value = (* internal value *)
- try
- Some (Hashtbl.find registry key)
- with Not_found -> None
- in
+ (* internal value *)
+ let registry_values = List.rev (Hashtbl.find_all registry key) in
let env_value = (* environment value *)
try
Some (Sys.getenv (env_var_of_key key))
with Not_found -> None
in
- let value = (* resulting value *)
- match (registry_value, env_value) with
- | Some reg, Some env -> env
- | Some reg, None -> reg
- | None, Some env -> env
- | None, None -> raise (Key_not_found key)
+ let values = (* resulting value *)
+ match registry_values, env_value with
+ | _, Some env -> [env]
+ | [], None -> raise (Key_not_found key)
+ | values, None -> values
in
- interpolate (key :: stack) value
+ List.map (interpolate (key :: stack)) values
and interpolate stack value =
Str.global_substitute interpolated_key_rex
(fun s ->
let matched = Str.matched_string s in
(* "$(var)" -> "var" *)
let key = String.sub matched 2 (String.length matched - 3) in
- aux stack key)
+ singleton (aux stack key))
value
in
- aux [] key
+ List.map strip_blanks (aux [] key)
-let set = set' registry
+let set registry = set' registry
-let mk_get_set type_name (from_string: string -> 'a) (to_string: 'a -> string) =
- let getter key =
- let value = get key in
- try
- from_string value
- with exn ->
- raise (Type_error (type_name, value, Printexc.to_string exn))
- in
- let setter ~key ~value = set ~key ~value:(to_string value) in
- (getter, setter)
+let has registry key = Hashtbl.mem registry key
+
+let get_typed registry unmarshaller key =
+ let value = singleton (get registry key) in
+ unmarshaller value
-let (get_string, set_string) = (get, set)
-let (get_int, set_int) = mk_get_set "int" int_of_string string_of_int
-let (get_float, set_float) = mk_get_set "float" float_of_string string_of_float
-let (get_bool, set_bool) = mk_get_set "bool" bool_of_string string_of_bool
-let (get_string_list, set_string_list) = mk_get_set "string list" split merge
+let set_typed registry marshaller ~key ~value =
+ set registry ~key ~value:(marshaller value)
-let get_opt getter key =
+let get_opt registry unmarshaller key =
try
- Some (getter key)
+ Some (unmarshaller (singleton (get registry key)))
with Key_not_found _ -> None
-let set_opt setter ~key ~value =
+
+let get_opt_default registry unmarshaller ~default key =
+ match get_opt registry unmarshaller key with
+ | None -> default
+ | Some v -> v
+
+let set_opt registry marshaller ~key ~value =
match value with
- | None -> unset key
- | Some value -> setter ~key ~value
-
-let add_validator ~key ~validator ~descr =
- let id = get_next_validator_id () in
- Hashtbl.add validators key (validator, descr);
- id
-
-open Pxp_dtd
-open Pxp_document
-open Pxp_types
-open Pxp_yacc
-
-let save_to =
- let dtd = new dtd default_config.warner `Enc_utf8 in
- let dot_RE = Str.regexp "\\." in
- let create_key_node key value = (* create a <key name="foo">value</key> *)
- let element =
- create_element_node ~valcheck:false default_spec dtd "key" ["name", key]
- in
- let data = create_data_node default_spec dtd value in
- element#append_node data;
- element
- in
- let is_section name =
- fun node ->
- match node#node_type with
- | T_element "section" ->
- (try node#attribute "name" = Value name with Not_found -> false)
- | _ -> false
+ | None -> unset registry key
+ | Some value -> set registry ~key ~value:(marshaller value)
+
+let get_list registry unmarshaller key =
+ try
+ List.map unmarshaller (get registry key)
+ with Key_not_found _ -> []
+
+let get_pair registry fst_unmarshaller snd_unmarshaller key =
+ let v = singleton (get registry key) in
+ match Str.split spaces_rex v with
+ | [fst; snd] -> fst_unmarshaller fst, snd_unmarshaller snd
+ | _ -> raise (Type_error "not a pair")
+
+let set_list registry marshaller ~key ~value =
+ List.iter (fun v -> set registry ~key ~value:(marshaller v)) value
+
+type xml_tree =
+ | Cdata of string
+ | Element of string * (string * string) list * xml_tree list
+
+let dot_RE = Str.regexp "\\."
+
+let xml_tree_of_registry registry =
+ let has_child name elements =
+ List.exists
+ (function
+ | Element (_, ["name", name'], _) when name = name' -> true
+ | _ -> false)
+ elements
in
- let add_key_node root sections key value =
- let rec aux node = function
- | [] ->
- let key_node = create_key_node key value in
- node#append_node key_node
- | section :: tl ->
- let next_node =
- try
- find ~deeply:false (is_section section) node
- with Not_found ->
- let section_node =
- create_element_node ~valcheck:false default_spec dtd
- "section" ["name", section]
- in
- node#append_node section_node;
- section_node
- in
- aux next_node tl
- in
- aux root sections
+ let rec get_child name = function
+ | [] -> assert false
+ | (Element (_, ["name", name'], _) as child) :: tl when name = name' ->
+ child, tl
+ | hd :: tl ->
+ let child, rest = get_child name tl in
+ child, hd :: rest
in
- fun fname ->
- let xml_root =
- create_element_node ~valcheck:false default_spec dtd "helm_registry" []
- in
- Hashtbl.iter
- (fun key value ->
- let sections, key =
- let hd, tl =
- match List.rev (Str.split dot_RE key) with
- | hd :: tl -> hd, tl
- | _ -> assert false
- in
- List.rev tl, hd
- in
- add_key_node xml_root sections key value)
- registry;
- let outchan = (* let's write xml output to fname *)
- if Unix.system "xmllint --version &> /dev/null" = Unix.WEXITED 0 then
- (* xmllint available, use it! *)
- Unix.open_process_out (sprintf
- "xmllint --format --encode utf8 -o '%s' -" fname)
+ let rec add_key path value tree =
+ match path, tree with
+ | [key], Element (name, attrs, children) ->
+ Element (name, attrs,
+ Element ("key", ["name", key],
+ [Cdata (strip_blanks value)]) :: children)
+ | dir :: path, Element (name, attrs, children) ->
+ if has_child dir children then
+ let child, rest = get_child dir children in
+ Element (name, attrs, add_key path value child :: rest)
else
- (* xmllint not available, write pxp ugly output directly to fname *)
- open_out fname
- in
- xml_root#write (`Out_channel outchan) `Enc_utf8;
- close_out outchan
-
-let load_from_absolute =
- let config = default_config in
- let entry = `Entry_document [ `Extend_dtd_fully; `Parse_xml_decl ] in
- let fold_key key_stack key =
- match key_stack with
- | [] -> key
- | _ -> String.concat "." key_stack ^ "." ^ key
+ Element (name, attrs,
+ ((add_key path value (Element ("section", ["name", dir], [])))
+ :: children))
+ | _ -> assert false
in
- fun fname ->
- debug_print ("Loading configuration from " ^ fname);
- let document =
- parse_wfdocument_entity config (from_file fname) default_spec
- in
- let rec aux key_stack node =
- node#iter_nodes (fun n ->
- try
- (match n#node_type with
- | T_element "section" ->
- let section = n#required_string_attribute "name" in
- aux (key_stack @ [section]) n
- | T_element "key" ->
- let key = n#required_string_attribute "name" in
- let value = n#data in
- set ~key:(fold_key key_stack key) ~value
- | _ -> ())
- with exn ->
- let (fname, line, pos) = n#position in
- raise (Parse_error (fname, line, pos,
- "Uncaught exception: " ^ Printexc.to_string exn)))
- in
- let backup = backup_registry () in
- Hashtbl.clear registry;
- try
- aux [] document#root
- with exn ->
- restore_registry backup;
- raise exn
+ Hashtbl.fold
+ (fun k v tree -> add_key ((Str.split dot_RE k)) v tree)
+ registry
+ (Element (root_tag, [], []))
+
+let rec stream_of_xml_tree = function
+ | Cdata s -> Xml.xml_cdata s
+ | Element (name, attrs, children) ->
+ Xml.xml_nempty name
+ (List.map (fun (n, v) -> (None, n, v)) attrs)
+ (stream_of_xml_trees children)
+and stream_of_xml_trees = function
+ | [] -> [< >]
+ | hd :: tl -> [< stream_of_xml_tree hd; stream_of_xml_trees tl >]
-let load_from ?path fname =
+let save_to registry fname =
+ let token_stream = stream_of_xml_tree (xml_tree_of_registry registry) in
+ let oc = open_out fname in
+ Xml.pp_to_outchan token_stream oc;
+ close_out oc
+
+let rec load_from_absolute ?path registry fname =
+ let _path = ref (match path with None -> [] | Some p -> p)in
+ (* <section> elements entered so far *)
+ let in_key = ref false in (* have we entered a <key> element? *)
+ let cdata = ref "" in (* collected cdata (inside <key> *)
+ let push_path name = _path := name :: !_path in
+ let pop_path () = _path := List.tl !_path in
+ let start_element tag attrs =
+ match tag, attrs with
+ | "section", ["name", name] -> push_path name
+ | "key", ["name", name] -> in_key := true; push_path name
+ | "helm_registry", _ -> ()
+ | "include", ["href", fname] ->
+ debug_print ("including file " ^ fname);
+ load_from_absolute ~path:!_path registry fname
+ | tag, _ ->
+ raise (Parse_error (fname, ~-1, ~-1,
+ (sprintf "unexpected element <%s> or wrong attribute set" tag)))
+ in
+ let end_element tag =
+ match tag with
+ | "section" -> pop_path ()
+ | "key" ->
+ let key = String.concat "." (List.rev !_path) in
+ set registry ~key ~value:!cdata;
+ cdata := "";
+ in_key := false;
+ pop_path ()
+ | "include" | "helm_registry" -> ()
+ | _ -> assert false
+ in
+ let character_data text =
+ if !in_key then cdata := !cdata ^ text
+ in
+ let callbacks = {
+ XmlPushParser.default_callbacks with
+ XmlPushParser.start_element = Some start_element;
+ XmlPushParser.end_element = Some end_element;
+ XmlPushParser.character_data = Some character_data;
+ } in
+ let xml_parser = XmlPushParser.create_parser callbacks in
+ let backup = backup_registry registry in
+ if path = None then Hashtbl.clear registry;
+ try
+ XmlPushParser.parse xml_parser (`File fname)
+ with exn ->
+ restore_registry backup registry;
+ raise exn
+
+let load_from registry ?path fname =
if Filename.is_relative fname then begin
let no_file_found = ref true in
let path =
let conffile = dir ^ "/" ^ fname in
if Sys.file_exists conffile then begin
no_file_found := false;
- load_from_absolute conffile
+ load_from_absolute registry conffile
end)
path;
if !no_file_found then
"Helm_registry.init: no configuration file named %s in [ %s ]"
fname (String.concat "; " path))
end else
- load_from_absolute fname
+ load_from_absolute registry fname
+
+let fold registry ?prefix ?(interpolate = true) f init =
+ let value_of k v =
+ if interpolate then singleton (get registry k) else strip_blanks v
+ in
+ match prefix with
+ | None -> Hashtbl.fold (fun k v acc -> f acc k (value_of k v)) registry init
+ | Some s ->
+ let key_matches = starts_with (s ^ ".") in
+ let rec fold_filter acc = function
+ | [] -> acc
+ | (k,v) :: tl when key_matches k ->
+ fold_filter (f acc k (value_of k v)) tl
+ | _ :: tl -> fold_filter acc tl
+ in
+ fold_filter init (hashtbl_pairs registry)
+
+let iter registry ?prefix ?interpolate f =
+ fold registry ?prefix ?interpolate (fun _ k v -> f k v) ()
+let to_list registry ?prefix ?interpolate () =
+ fold registry ?prefix ?interpolate (fun acc k v -> (k, v) :: acc) []
+
+let ls registry prefix =
+ let prefix = prefix ^ "." in
+ let prefix_len = String.length prefix in
+ let key_matches = starts_with prefix in
+ let matching_keys = (* collect matching keys' _postfixes_ *)
+ fold registry
+ (fun acc key _ ->
+ if key_matches key then
+ String.sub key prefix_len (String.length key - prefix_len) :: acc
+ else
+ acc)
+ []
+ in
+ let (sections, keys) =
+ List.fold_left
+ (fun (sections, keys) postfix ->
+ match Str.split dot_rex postfix with
+ | [key] -> (sections, key :: keys)
+ | hd_key :: _ -> (* length > 1 => nested section found *)
+ (hd_key :: sections, keys)
+ | _ -> assert false)
+ ([], []) matching_keys
+ in
+ (list_uniq (List.sort Pervasives.compare sections), keys)
+
+(** {2 API implementation}
+ * functional methods above are wrapped so that they work on a default
+ * (imperative) registry*)
+
+let default_registry = Hashtbl.create magic_size
- (* DEBUGGING ONLY *)
+let get key = singleton (get default_registry key)
+let set = set default_registry
+let has = has default_registry
+let fold ?prefix ?interpolate f init =
+ fold default_registry ?prefix ?interpolate f init
+let iter = iter default_registry
+let to_list = to_list default_registry
+let ls = ls default_registry
+let get_typed unmarshaller = get_typed default_registry unmarshaller
+let get_opt unmarshaller = get_opt default_registry unmarshaller
+let get_opt_default unmarshaller = get_opt_default default_registry unmarshaller
+let get_list unmarshaller = get_list default_registry unmarshaller
+let get_pair unmarshaller = get_pair default_registry unmarshaller
+let set_typed marshaller = set_typed default_registry marshaller
+let set_opt unmarshaller = set_opt default_registry unmarshaller
+let set_list marshaller = set_list default_registry marshaller
+let unset = unset default_registry
+let save_to = save_to default_registry
+let load_from = load_from default_registry
-let dump () = Hashtbl.iter (fun k v -> printf "%s = %s\n" k v) registry
+let get_string = get_typed string
+let get_int = get_typed int
+let get_float = get_typed float
+let get_bool = get_typed bool
+let set_string = set_typed of_string
+let set_int = set_typed of_int
+let set_float = set_typed of_float
+let set_bool = set_typed of_bool