open Printf
+open MetadataTypes
+
+let pp_relation r =
+ match r with
+ | Eq i -> sprintf "= %d" i
+ | Ge i -> sprintf ">= %d" i
+ | Gt i -> sprintf "> %d" i
+ | Le i -> sprintf "<= %d" i
+ | Lt i -> sprintf "< %d" i
+
let pp_position = function
- | `MainConclusion -> "MainConclusion"
- | `MainHypothesis -> "MainHypothesis"
+ | `MainConclusion (Some d) -> sprintf "MainConclusion(%s)" (pp_relation d)
+ | `MainConclusion None -> sprintf "MainConclusion"
+ | `MainHypothesis (Some d) -> sprintf "MainHypothesis(%s)" (pp_relation d)
+ | `MainHypothesis None -> "MainHypothesis"
| `InConclusion -> "InConclusion"
| `InHypothesis -> "InHypothesis"
| `InBody -> "InBody"
+let pp_position_tag = function
+ | `MainConclusion _ -> mainconcl_pos
+ | `MainHypothesis _ -> mainhyp_pos
+ | `InConclusion -> inconcl_pos
+ | `InHypothesis -> inhyp_pos
+ | `InBody -> inbody_pos
+
+let columns_of_position pos =
+ match pos with
+ | `MainConclusion (Some (Eq d)) -> `String mainconcl_pos, `Int d
+ | `MainConclusion None -> `String mainconcl_pos, `Null
+ | `MainHypothesis (Some (Eq d)) -> `String mainhyp_pos, `Int d
+ | `MainHypothesis None -> `String mainhyp_pos, `Null
+ | `InConclusion -> `String inconcl_pos, `Null
+ | `InHypothesis -> `String inhyp_pos, `Null
+ | `InBody -> `String inbody_pos, `Null
+ | _ -> assert false
+
+(*
let metadata_ns = "http://www.cs.unibo.it/helm/schemas/schema-helm"
let uri_of_pos pos = String.concat "#" [metadata_ns; pp_position pos]
-
-let pp_sort = function
- | Cic.Prop -> "Prop"
- | Cic.Set -> "Set"
- | Cic.Type _ -> "Type"
- | Cic.CProp -> "CProp"
+*)
type t = [ `Int of int | `String of string | `Null ]
-let columns_of_metadata ~about metadatas =
- let position p = `String (pp_position p) in
- let sort s = `String (pp_sort s) in
+let columns_of_metadata_aux ~about metadata =
+ let sort s = `String (CicPp.ppsort s) in
let source = `String about in
- let depth d = `Int d in
- let depth_opt = function None -> `Null | Some d -> `Int d in
let occurrence u = `String u in
List.fold_left
(fun (sort_cols, rel_cols, obj_cols) metadata ->
match metadata with
- | `Sort (s, p, d) ->
- [source; position p; depth d; sort s] :: sort_cols, rel_cols, obj_cols
- | `Rel (p, d) ->
- sort_cols, [source; position p; depth d] :: rel_cols, obj_cols
- | `Obj (o, p, d) ->
+ | `Sort (s, p) ->
+ let (p, d) = columns_of_position (p :> position) in
+ [source; p; d; sort s] :: sort_cols, rel_cols, obj_cols
+ | `Rel p ->
+ let (p, d) = columns_of_position (p :> position) in
+ sort_cols, [source; p; d] :: rel_cols, obj_cols
+ | `Obj (o, p) ->
+ let (p, d) = columns_of_position p in
sort_cols, rel_cols,
- [source; occurrence o; position p; depth_opt d] :: obj_cols)
- ([], [], []) metadatas
+ [source; occurrence o; p; d] :: obj_cols)
+ ([], [], []) metadata
-let columns_of_ind_metadata ind_metadata =
+let columns_of_metadata metadata =
List.fold_left
- (fun (sort_cols, rel_cols, obj_cols) (uri, _, metadatas) ->
- let (s, r, o) = columns_of_metadata ~about:uri metadatas in
+ (fun (sort_cols, rel_cols, obj_cols) (uri, _, metadata) ->
+ let (s, r, o) = columns_of_metadata_aux ~about:uri metadata in
(List.append sort_cols s, List.append rel_cols r, List.append obj_cols o))
- ([], [], []) ind_metadata
+ ([], [], []) metadata
+let pp_constr =
+ function
+ | `Sort (sort, p) ->
+ sprintf "Sort %s; [%s]"
+ (CicPp.ppsort sort) (String.concat ";" (List.map pp_position p))
+ | `Rel p -> sprintf "Rel [%s]" (String.concat ";" (List.map pp_position p))
+ | `Obj (uri, p) -> sprintf "Obj %s; [%s]"
+ uri (String.concat ";" (List.map pp_position p))
+
+(*
let pp_columns ?(sep = "\n") (sort_cols, rel_cols, obj_cols) =
String.concat sep
([ "Sort" ] @ List.map Dbi.sdebug (sort_cols :> Dbi.sql_t list list) @
[ "Rel" ] @ List.map Dbi.sdebug (rel_cols :> Dbi.sql_t list list) @
[ "Obj" ] @ List.map Dbi.sdebug (obj_cols :> Dbi.sql_t list list))
+*)
+