eval.cmi: mathql.cmo
func.cmi: mathql.cmo
sortedby.cmi: mathql.cmo
-select.cmi: mathql.cmo
-pattern.cmi: mathql.cmo
+select.cmi: mathql.cmo mathql_semantics.cmo
+intersect.cmi: mathql_semantics.cmo
+union.cmi: mathql_semantics.cmo
+pattern.cmi: mathql.cmo mathql_semantics.cmo
+use.cmi: mathql.cmo mathql_semantics.cmo
mqint.cmi: mathql.cmo
+mathql_semantics.cmo: mathql.cmo
+mathql_semantics.cmx: mathql.cmx
dbconn.cmo: mathql.cmo dbconn.cmi
dbconn.cmx: mathql.cmx dbconn.cmi
eval.cmo: mathql.cmo eval.cmi
diff.cmx: diff.cmi
sortedby.cmo: func.cmi mathql.cmo utility.cmi sortedby.cmi
sortedby.cmx: func.cmx mathql.cmx utility.cmx sortedby.cmi
-select.cmo: func.cmi mathql.cmo utility.cmi select.cmi
-select.cmx: func.cmx mathql.cmx utility.cmx select.cmi
-intersect.cmo: intersect.cmi
-intersect.cmx: intersect.cmi
-union.cmo: union.cmi
-union.cmx: union.cmi
-pattern.cmo: dbconn.cmi eval.cmi utility.cmi pattern.cmi
-pattern.cmx: dbconn.cmx eval.cmx utility.cmx pattern.cmi
-use.cmo: dbconn.cmi utility.cmi use.cmi
-use.cmx: dbconn.cmx utility.cmx use.cmi
-mqint.cmo: dbconn.cmi diff.cmi eval.cmi intersect.cmi mathql.cmo pattern.cmi \
- select.cmi sortedby.cmi union.cmi use.cmi utility.cmi mqint.cmi
-mqint.cmx: dbconn.cmx diff.cmx eval.cmx intersect.cmx mathql.cmx pattern.cmx \
- select.cmx sortedby.cmx union.cmx use.cmx utility.cmx mqint.cmi
+select.cmo: func.cmi mathql.cmo mathql_semantics.cmo utility.cmi select.cmi
+select.cmx: func.cmx mathql.cmx mathql_semantics.cmx utility.cmx select.cmi
+intersect.cmo: mathql_semantics.cmo intersect.cmi
+intersect.cmx: mathql_semantics.cmx intersect.cmi
+union.cmo: mathql_semantics.cmo union.cmi
+union.cmx: mathql_semantics.cmx union.cmi
+pattern.cmo: dbconn.cmi eval.cmi mathql_semantics.cmo utility.cmi pattern.cmi
+pattern.cmx: dbconn.cmx eval.cmx mathql_semantics.cmx utility.cmx pattern.cmi
+use.cmo: dbconn.cmi mathql_semantics.cmo utility.cmi use.cmi
+use.cmx: dbconn.cmx mathql_semantics.cmx utility.cmx use.cmi
+mqint.cmo: dbconn.cmi diff.cmi eval.cmi intersect.cmi mathql.cmo \
+ mathql_semantics.cmo pattern.cmi select.cmi sortedby.cmi union.cmi \
+ use.cmi utility.cmi mqint.cmi
+mqint.cmx: dbconn.cmx diff.cmx eval.cmx intersect.cmx mathql.cmx \
+ mathql_semantics.cmx pattern.cmx select.cmx sortedby.cmx union.cmx \
+ use.cmx utility.cmx mqint.cmi
sortedby.mli select.mli intersect.mli union.mli \
pattern.mli use.mli mqint.mli
-IMPLEMENTATION_FILES = mathql.ml $(INTERFACE_FILES:%.mli=%.ml)
+IMPLEMENTATION_FILES = mathql.ml mathql_semantics.ml \
+ $(INTERFACE_FILES:%.mli=%.ml)
-EXTRA_OBJECTS_TO_INSTALL = mathql.ml mathql.cmi
+EXTRA_OBJECTS_TO_INSTALL = mathql.ml mathql.cmi mathql_semantics.ml \
+ mathql_semantics.cmi
EXTRA_OBJECTS_TO_CLEAN =
* TODO: bisogna scegliere se questi parametri vengono
* passati come argomento
*)
-(*let connection_param = "dbname=helm";;*)
-let connection_param = "host=dotto.cs.unibo.it dbname=helm user=helm";;
+let connection_param = "dbname=helm";;
+(*let connection_param = "host=dotto.cs.unibo.it dbname=helm user=helm";;*)
(*
* connessione al db
* http://cs.unibo.it/helm/.
*)
-(*
- * implementazione del comando INTERSECT
- *)
-
-(*
- * eccezione sollevata quando il join dei contesti
- * deve essere vuoto
- *)
-exception Join_must_be_empty;;
+exception NotCompatible;;
-(*
- * join fra due contesti
- *)
-let xres_join_context h1 l1 h2 l2 =
- match (l1, l2) with
- ([], _) -> l2
- | (_, []) -> l1
- | (_, _) ->
- let hh = h2 @ (List.find_all (function t -> not (List.mem t h2)) h1)
- and m1 = List.combine h1 l1
- and m2 = List.combine h2 l2
- in
- List.map
- (fun elem ->
- let value1 = try (List.assoc elem m1) with Not_found -> List.assoc elem m2
- and value2 = try (List.assoc elem m2) with Not_found -> List.assoc elem m1
- in
- if value1 = value2 then value1 else raise Join_must_be_empty
- )
- hh
+(* intersect_attributes is successful iff there is no attribute with *)
+(* two different values in the two lists. The returned list is the *)
+(* union of the two lists. *)
+let rec intersect_attributes (attr1, attr2) =
+ match attr1, attr2 with
+ [],_ -> attr2
+ | _,[] -> attr1
+ | (key1,value1)::tl1, (key2,_)::_ when key1 < key2 ->
+ (key1,value1)::(intersect_attributes (tl1,attr2))
+ | (key1,_)::_, (key2,value2)::tl2 when key2 < key1 ->
+ (key2,value2)::(intersect_attributes (attr1,tl2))
+ | entry1::tl1, entry2::tl2 when entry1 = entry2 ->
+ entry1::(intersect_attributes (tl1,tl2))
+ | _, _ -> raise NotCompatible (* same keys, different values *)
;;
-(*
- *
- *)
-let intersect_tails h1 t1 h2 t2 =
- let rec aux t1 t2 =
- match (t1, t2) with
- ([], _)
- | (_, []) -> []
- | ((l1::tl1)::tll1, (l2::tl2)::tll2) ->
- if l1 = l2 then
- try
- (*match xres_join_context h1 tl1 h2 tl2 with
- [] -> aux tll1 tll2
- | t -> (l1::(xres_join_context h1 tl1 h2 tl2))::(aux tll1 tll2)*)
- (l1::(tl1 @ tl2))::(aux tll1 tll2)
- with
- Join_must_be_empty -> aux tll1 tll2
- else
- if l1 < l2 then
- aux tll1 t2
- else
- aux t1 tll2
- | _ -> assert false
- in
- aux t1 t2
+(* preserves order and gets rid of duplicates *)
+let rec intersect_ex l1 l2 =
+ let module S = Mathql_semantics in
+ match (l1, l2) with
+ [],_
+ | _,[] -> []
+ | {S.uri = uri1}::tl1,
+ {S.uri = uri2}::_ when uri1 < uri2 -> intersect_ex tl1 l2
+ | {S.uri = uri1}::_,
+ {S.uri = uri2}::tl2 when uri2 < uri1 -> intersect_ex l1 tl2
+ | {S.uri = uri1 ; S.attributes = attributes1}::tl1,
+ {S.uri = uri2 ; S.attributes = attributes2}::tl2 ->
+ try
+ let attributes' = intersect_attributes (attributes1,attributes2) in
+ {S.uri = uri1 ; S.attributes = attributes'}::(intersect_ex tl1 tl2)
+ with
+ NotCompatible ->
+ intersect_ex tl1 tl2
;;
-(*
- * implementazione del comando INTERSECT
- *)
let intersect_ex l1 l2 =
- let _ = print_string ("INTERSECT ")
- and t = Unix.time () in
- let result =
- match (l1, l2) with
- ((head1::tail1), (head2::tail2)) ->
- (match (head1, head2) with
- ([], _) -> assert false (* gli header non devono mai essere vuoti *)
- | (_, []) -> assert false (* devono contenere almeno [retVal] *)
- | (_, _) ->
- (match (tail1, tail2) with
- ([], _) -> [["retVal"]] (* se una delle due code e' vuota... *)
- | (_, []) -> [["retVal"]] (* ... l'intersezione e' vuota *)
- | (_, _) ->
- [head2 @
- (List.find_all
- (function t -> not (List.mem t head2))
- head1
- )
- ] (* header del risultato finale *)
- @
- intersect_tails (List.tl head1) tail1 (List.tl head2) tail2
- (*
- List.fold_left
- (fun par1 elem1 -> par1 @
- List.map
- (fun elem2 ->
- [(List.hd elem1)] @
- (xres_join_context (List.tl head1) (List.tl elem1)
- (List.tl head2) (List.tl elem2)
- )
- )
- (List.find_all (* *)
- (fun elem2 -> (* trova tutti gli elementi della lista tail2 *)
- ((List.hd elem1) = (List.hd elem2)) && (* che stanno in tail1 *)
- not ((xres_join_context (List.tl head1) (List.tl elem1)
- (List.tl head2) (List.tl elem2)) = [])
- (* e per i quali la xres_join_context non sia vuota *)
- )
- tail2 (* List.find_all *)
- )
- )
- []
- tail1 (* per ogni elemento di tail1 applica la List.fold_left *)
- *)
- ) (* match *)
- )
- | _ -> []
- in
- let _ = print_endline (string_of_float (Unix.time () -. t)); flush stdout in
- result
+ let before = Unix.time () in
+ let res = intersect_ex l1 l2 in
+ let after = Unix.time () in
+ let ll1 = string_of_int (List.length l1) in
+ let ll2 = string_of_int (List.length l2) in
+ let diff = string_of_float (after -. before) in
+ prerr_endline
+ ("INTERSECT(" ^ ll1 ^ "," ^ ll2 ^ ") = " ^ string_of_int (List.length res) ^
+ ": " ^ diff ^ "s") ;
+ flush stderr ;
+ res
;;
-
* http://cs.unibo.it/helm/.
*)
-val intersect_ex : string list list -> string list list -> string list list
+val intersect_ex :
+ Mathql_semantics.result -> Mathql_semantics.result -> Mathql_semantics.result
| MQMConclusion (* main conclusion *)
| MQConclusion (* inner conclusion *)
+type mqorder =
+ | MQAsc
+ | MQDesc
+
type mqbool =
| MQTrue
| MQFalse
| MQOr of mqbool * mqbool
| MQNot of mqbool
| MQIs of mqstring * mqstring (* operands *)
+ | MQSetEqual of mqlist * mqlist (* the two lists denote the *)
+ (* same set *)
+ | MQSubset of mqlist * mqlist (* the two lists denote two *)
+ (* sets, the first one *)
+ (* subsect of the second one. *)
-type mqorder =
- | MQAsc
- | MQDesc
-
-type mqlist =
+and mqlist =
| MQSelect of mqrvar * mqlist * mqbool (* rvar, list, boolean *)
| MQUse of mqlist * mqsvar (* list, Position attribute *)
| MQUsedBy of mqlist * mqsvar (* list, Position attribute *)
| MQDiff of mqlist * mqlist (* *)
| MQIntersect of mqlist * mqlist (* *)
| MQSortedBy of mqlist * mqorder * mqfunc (* *)
+ | MQRVarOccur of mqrvar
type mquery =
| MQList of mqlist
--- /dev/null
+(* Copyright (C) 2000, HELM Team.
+ *
+ * This file is part of HELM, an Hypertextual, Electronic
+ * Library of Mathematics, developed at the Computer Science
+ * Department, University of Bologna, Italy.
+ *
+ * HELM is free software; you can redistribute it and/or
+ * modify it under the terms of the GNU General Public License
+ * as published by the Free Software Foundation; either version 2
+ * of the License, or (at your option) any later version.
+ *
+ * HELM is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License
+ * along with HELM; if not, write to the Free Software
+ * Foundation, Inc., 59 Temple Place - Suite 330, Boston,
+ * MA 02111-1307, USA.
+ *
+ * For details, see the HELM World-Wide-Web page,
+ * http://cs.unibo.it/helm/.
+ *)
+
+(* attributes are sorted w.r.t. their name in increasing order *)
+type attributed_uri =
+ { uri: string ; attributes : (Mathql.mqsvar * string) list }
+
+type attributed_uri_env =
+ (Mathql.mqrvar * attributed_uri) list
+
+type result = attributed_uri list
*)
let init () = Dbconn.init ();;
-(*
- * esecuzione di una query
- *
- * parametri:
- * q
- *
- * output: string list list; risultato internto formato da uri + contesto.
- *)
-let rec execute_ex q =
- match q with
+(* execute_ex env q *)
+(* [env] is the attributed uri environment in which the query [q] *)
+(* must be evaluated *)
+(* [q] is the query to evaluate *)
+(* It returns a [Mathql_semantics.result] *)
+let rec execute_ex env =
+ function
MQSelect (apvar, alist, abool) ->
- select_ex apvar (execute_ex alist) abool
+ select_ex env apvar (execute_ex env alist) abool
| MQUsedBy (alist, asvar) ->
- use_ex (execute_ex alist) asvar "F" (*"refObj"*)
+ use_ex (execute_ex env alist) asvar "F" (*"refObj"*)
| MQUse (alist, asvar) ->
- use_ex (execute_ex alist) asvar "B" (*"backPointer"*)
+ use_ex (execute_ex env alist) asvar "B" (*"backPointer"*)
| MQPattern (apreamble, apattern, afragid) ->
pattern_ex apreamble apattern afragid
| MQUnion (l1, l2) ->
- union_ex (execute_ex l1) (execute_ex l2)
+ union_ex (execute_ex env l1) (execute_ex env l2)
+(*
| MQDiff (l1, l2) ->
- diff_ex (execute_ex l1) (execute_ex l2)
+ diff_ex (execute_ex env l1) (execute_ex env l2)
| MQSortedBy (l, o, f) ->
- sortedby_ex (execute_ex l) o f
+ sortedby_ex (execute_ex env l) o f
+*)
| MQIntersect (l1, l2) ->
- intersect_ex (execute_ex l1) (execute_ex l2)
+ intersect_ex (execute_ex env l1) (execute_ex env l2)
+ | MQRVarOccur rvar -> [List.assoc rvar env]
;;
+(* Let's initialize the execute in Select, creating a cyclical recursion *)
+Select.execute := execute_ex;;
+
(*
* converte il risultato interno di una query (uri + contesto)
* in un risultato di sole uri
* la uri puo' far parte del risultato.
*)
let xres_to_res l =
- let tmp = List.map List.hd (List.tl l) in
+ let tmp = List.map (function {Mathql_semantics.uri = uri} -> uri) l in
MQRefs
(List.map
(function l ->
*)
let execute q =
match q with
- MQList qq -> xres_to_res (execute_ex qq)
+ MQList qq -> xres_to_res (execute_ex [] qq)
;;
(*
open Dbconn;;
open Utility;;
open Eval;;
+open Mathql_semantics;;
let pattern_ex apreamble apattern afragid =
let c = pgc () in
let res =
c#exec (qq)
in
- [["retVal"]] @ List.map (fun l -> [l]) (pgresult_to_string_list res)
+ List.map
+ (function uri -> {uri = uri ; attributes = []})
+ (pgresult_to_string_list res)
;;
*)
val pattern_ex :
- string ->
- Mathql.mquptoken list ->
- int option * int option -> string list list
+ string -> Mathql.mquptoken list -> int option * int option ->
+ Mathql_semantics.result
open Func;;
open Utility;;
-(*
- * valutazione di una stringa
- *)
-let stringeval s l =
- match s with
- MQCons s ->
- s
- | MQFunc (f, rvar) ->
- apply_func f (List.assoc rvar l)
- | MQRVar rvar ->
- List.assoc rvar l
- | MQSVar svar ->
- List.assoc svar l
- | MQMConclusion ->
- "MainConclusion"
- | MQConclusion ->
- "InConclusion"
+exception ExecuteFunctionNotInitialized;;
+let execute =
+ ref
+ (function _ -> raise ExecuteFunctionNotInitialized)
;;
(*
- *
+ * valutazione di una stringa
*)
-let rec is_good l abool =
- match abool with
- MQAnd (b1, b2) ->
- (is_good l b1) && (is_good l b2)
- | MQOr (b1, b2) ->
- (is_good l b1) || (is_good l b2)
- | MQNot b1 ->
- not (is_good l b1)
- | MQTrue ->
- true
- | MQFalse ->
- false
- | MQIs (s1, s2) ->
- (stringeval s1 l) = (stringeval s2 l)
+let stringeval env =
+ let module S = Mathql_semantics in
+ function
+ MQCons s ->
+ s
+ | MQFunc (f, rvar) ->
+ let {S.uri = uri} = List.assoc rvar env in
+ apply_func f uri
+ | MQRVar rvar ->
+ let {S.uri = uri} = List.assoc rvar env in
+ uri
+ | MQSVar svar ->
+ let (_,{S.attributes = attributes}) = List.hd env in
+ List.assoc svar attributes
+ | MQMConclusion ->
+ "MainConclusion"
+ | MQConclusion ->
+ "InConclusion"
;;
(*
*
*)
-let rec replace avar newval l =
- match l with
- MQAnd (b1, b2) -> MQAnd (replace avar newval b1, replace avar newval b2)
- | MQOr (b1, b2) -> MQOr (replace avar newval b1, replace avar newval b2)
- | MQNot b1 -> MQNot (replace avar newval b1)
- | MQIs (s1, s2) ->
- let ns1 = (
- match s1 with
- MQRVar v when v = avar -> MQRVar newval
- | MQFunc (f, v) when v = avar -> MQFunc (f, newval)
- | _ -> s1
- )
- and ns2 = (
- match s2 with
- MQRVar v when v = avar -> MQRVar newval
- | MQFunc (f, v) when v = avar -> MQFunc (f, newval)
- | _ -> s2
- )
- in
- MQIs (ns1, ns2)
- | _ -> l (* i casi non compresi sono MQTrue e MQFalse *)
+let rec is_good env =
+ let module S = Mathql_semantics in
+ function
+ MQAnd (b1, b2) ->
+ (is_good env b1) && (is_good env b2)
+ | MQOr (b1, b2) ->
+ (is_good env b1) || (is_good env b2)
+ | MQNot b1 ->
+ not (is_good env b1)
+ | MQTrue ->
+ true
+ | MQFalse ->
+ false
+ | MQIs (s1, s2) ->
+ (stringeval env s1) = (stringeval env s2)
+(*CSC: magari le prossime funzioni dovrebbero andare in un file a parte, *)
+(*CSC: insieme alla [execute] che utilizzano *)
+ | MQSetEqual (q1,q2) ->
+ (* set_of_result returns an ordered list of uris without duplicates *)
+ let rec set_of_result =
+ function
+ _,[] -> []
+ | (Some olduri as v),{S.uri = uri}::tl when uri = olduri ->
+ set_of_result (v,tl)
+ | _,{S.uri = uri}::tl ->
+ uri::(set_of_result (Some uri, tl))
+ in
+ let ul1 = set_of_result (None,!execute env q1) in
+ let ul2 = set_of_result (None,!execute env q2) in
+prerr_endline ("MQSETEQUAL(" ^ string_of_int (List.length (!execute env q1)) ^ ">" ^ string_of_int (List.length ul1) ^ "," ^ string_of_int (List.length (!execute env q2)) ^ ">" ^ string_of_int (List.length ul2) ^ ")") ; flush stderr ;
+ (try
+ List.fold_left2 (fun b uri1 uri2 -> b && uri1=uri2) true ul1 ul2
+ with
+ _ -> false)
+ | MQSubset (q1,q2) ->
+(*CSC: codice cut&paste da sopra: ridurlo facendo un'unica funzione h.o. *)
+ (* set_of_result returns an ordered list of uris without duplicates *)
+ let rec set_of_result =
+ function
+ _,[] -> []
+ | (Some olduri as v),{S.uri = uri}::tl when uri = olduri ->
+ set_of_result (v,tl)
+ | _,{S.uri = uri}::tl ->
+ uri::(set_of_result (Some uri, tl))
+ in
+ let ul1 = set_of_result (None,!execute env q1) in
+ let ul2 = set_of_result (None,!execute env q2) in
+prerr_endline ("MQSUBSET(" ^ string_of_int (List.length (!execute env q1)) ^ ">" ^ string_of_int (List.length ul1) ^ "," ^ string_of_int (List.length (!execute env q2)) ^ ">" ^ string_of_int (List.length ul2) ^ ")") ; flush stderr ;
+ let rec is_subset s1 s2 =
+ match s1,s2 with
+ [],_ -> true
+ | _,[] -> false
+ | uri1::tl1,uri2::tl2 when uri1 = uri2 ->
+ is_subset tl1 tl2
+ | uri1::_,uri2::tl2 when uri1 > uri2 ->
+ is_subset s1 tl2
+ | _,_ -> false
+ in
+ is_subset ul1 ul2
;;
-(*let rec print_booltree b =
- match b with
- MQAnd (b1, b2) ->
- let i = print_booltree b1 in
- let j = print_string " AND " in
- print_booltree b2
- | MQOr (b1, b2) ->
- let i = print_booltree b1 in
- let j = print_string " OR " in
- print_booltree b2
- | MQNot b1 ->
- let j = print_string " NOT " in
- print_booltree b1
- | MQTrue ->
- print_string " TRUE "
- | MQFalse ->
- print_string " FALSE "
- | MQIs (s1, s2) ->
- let s1v = match s1 with
- MQCons s ->
- "'" ^ s ^ "'"
- | MQFunc (f, rvar) ->
- (
- match f with
- MQName -> "NAME " ^ rvar
- | MQTheory -> "THEORY" ^ rvar
- | MQTitle -> "TITLE" ^ rvar
- | MQContributor -> "contributor" ^ rvar
- | MQCreator -> "creator" ^ rvar
- | MQPublisher -> "publisher" ^ rvar
- | MQSubject -> "subject" ^ rvar
- | MQDescription -> "description" ^ rvar
- | MQDate -> "date" ^ rvar
- | MQType -> "type" ^ rvar
- | MQFormat -> "format" ^ rvar
- | MQIdentifier -> "identifier" ^ rvar
- | MQLanguage -> "language" ^ rvar
- | MQRelation -> "relation" ^ rvar
- | MQSource -> "source" ^ rvar
- | MQCoverage -> "coverage" ^ rvar
- | MQRights -> "rights" ^ rvar
- | MQInstitution -> "institution" ^ rvar
- | MQContact -> "contact" ^ rvar
- | MQFirstVersion -> "firstversion" ^ rvar
- | MQModified -> "modified" ^ rvar
- )
- | MQRVar rvar ->
- rvar
- | MQSVar svar ->
- svar
- | MQMConclusion ->
- "MainConclusion"
- | MQConclusion ->
- "InConclusion"
- and s2v = match s2 with
- MQCons s ->
- s
- | MQFunc (f, rvar) ->
- (
- match f with
- MQName -> "NAME " ^ rvar
- | MQTheory -> "THEORY" ^ rvar
- | MQTitle -> "TITLE" ^ rvar
- | MQContributor -> "contributor" ^ rvar
- | MQCreator -> "creator" ^ rvar
- | MQPublisher -> "publisher" ^ rvar
- | MQSubject -> "subject" ^ rvar
- | MQDescription -> "description" ^ rvar
- | MQDate -> "date" ^ rvar
- | MQType -> "type" ^ rvar
- | MQFormat -> "format" ^ rvar
- | MQIdentifier -> "identifier" ^ rvar
- | MQLanguage -> "language" ^ rvar
- | MQRelation -> "relation" ^ rvar
- | MQSource -> "source" ^ rvar
- | MQCoverage -> "coverage" ^ rvar
- | MQRights -> "rights" ^ rvar
- | MQInstitution -> "institution" ^ rvar
- | MQContact -> "contact" ^ rvar
- | MQFirstVersion -> "firstversion" ^ rvar
- | MQModified -> "modified" ^ rvar
- )
- | MQRVar rvar ->
- rvar
- | MQSVar svar ->
- svar
- | MQMConclusion ->
- "MainConclusion"
- | MQConclusion ->
- "InConclusion"
- in
- print_string (s1v ^ " = " ^ s2v)
-;;
-*)
(*
* implementazione del comando SELECT
*)
-let select_ex avar alist abool =
- let _ = print_string ("SELECT ")
+let select_ex env avar alist abool =
+ let _ = print_string ("SELECT = ")
and t = Unix.time () in
let result =
- let wrt = replace avar "retVal" abool in
- (*let j = print_booltree wrt in*)
- [List.hd alist]
- @
- List.find_all
- (fun l -> is_good (List.combine (List.hd alist) l) wrt)
- (List.tl alist)
+ List.filter (function entry -> is_good ((avar,entry)::env) abool) alist
in
- let _ = print_endline (string_of_float (Unix.time () -. t)); flush stdout in
- result
+ print_string (string_of_int (List.length result) ^ ": ") ;
+ print_endline (string_of_float (Unix.time () -. t) ^ "s") ;
+ flush stdout ;
+ result
;;
-
* http://cs.unibo.it/helm/.
*)
+exception ExecuteFunctionNotInitialized;;
+val execute:
+ (Mathql_semantics.attributed_uri_env ->
+ Mathql.mqlist -> Mathql_semantics.result) ref
+
val select_ex :
- Mathql.mqrvar ->
- Mathql.mqsvar list list -> Mathql.mqbool -> Mathql.mqsvar list list
+ Mathql_semantics.attributed_uri_env ->
+ Mathql.mqrvar -> Mathql_semantics.result -> Mathql.mqbool ->
+ Mathql_semantics.result
* implementazione del comando UNION
*)
+(*
(*
*
*)
) (* match *)
)
;;
+*)
+(* preserves order and gets rid of duplicates *)
+let rec union_ex l1 l2 =
+ let module S = Mathql_semantics in
+ match (l1, l2) with
+ [],l
+ | l,[] -> l
+ | ({S.uri = uri1} as entry1)::tl1,
+ ({S.uri = uri2} as entry2)::_ when uri1 < uri2 || entry1 < entry2 ->
+ entry1::(union_ex tl1 l2)
+ | ({S.uri = uri1} as entry1)::_,
+ ({S.uri = uri2} as entry2)::tl2 when uri2 < uri1 || entry2 < entry1 ->
+ entry2::(union_ex l1 tl2)
+ | entry1::tl1,entry2::tl2 -> (* same entry *)
+ entry1::(union_ex tl1 tl2)
+;;
+
+let union_ex l1 l2 =
+ let before = Unix.time () in
+ let res = union_ex l1 l2 in
+ let after = Unix.time () in
+ let ll1 = string_of_int (List.length l1) in
+ let ll2 = string_of_int (List.length l2) in
+ let diff = string_of_float (after -. before) in
+ prerr_endline ("UNION(" ^ ll1 ^ "," ^ ll2 ^ "): " ^ diff ^ "s") ;
+ flush stderr ;
+ res
+;;
* http://cs.unibo.it/helm/.
*)
-val union_ex : string list list -> string list list -> string list list
+val union_ex :
+ Mathql_semantics.result -> Mathql_semantics.result -> Mathql_semantics.result
* comando USE/USED BY
*)
let use_ex alist asvar usek =
- let _ = print_string ("USE ")
- and t = Unix.time () in
- let result =
- let c = pgc ()
- in
- [ (List.hd alist) @ [asvar] ]
- @
+let module S = Mathql_semantics in
+let _ = print_string ("USE ")
+and t = Unix.time () in
+let result =
+ let c = pgc () in
Sort.list
- (fun l m -> List.hd l < List.hd m)
+ (fun {S.uri = uri1} {S.uri = uri2} -> uri1 < uri2)
(List.fold_left
- (fun parziale xres ->
+ (fun parziale {S.uri = uri ; S.attributes = attributes} ->
+ print_string uri ;
(*let r1 = helm_property_id usek
and r2 = helm_property_id "position"
and r3 = helm_property_id "occurrence"
"where " ^ "t" ^ r1 ^ ".att0 = '" ^ (List.hd xres) ^ "' and t" ^ r1 ^
".att1 = t" ^ r2 ^ ".att0 and t" ^ r1 ^ ".att1 = t" ^ r3 ^
".att0 order by t" ^ r3 ^ ".att1 asc"*)
- let tv = pgresult_to_string (c#exec ("select id from registry where uri='" ^ (List.hd xres) ^ "'")) in
- let qq = "select uri, context from t" ^ tv ^ " where back_for='" ^ usek ^ "'"
+ let tv =
+ pgresult_to_string
+ (c#exec ("select id from registry where uri='" ^ uri ^ "'"))
+ in
+ let qq =
+ "select uri, context from t" ^ tv ^ " where back_for='" ^ usek ^
+ "' order by uri asc"
in
let res = c#exec qq in
(List.map
- (fun l -> [List.hd l] @ List.tl xres @ List.tl l)
- res#get_list
- )
- @
+ (function
+ [uri;context] -> {S.uri = uri ; S.attributes = [asvar, context]}
+ | _ -> assert false
+ ) res#get_list
+ ) @
parziale
- )
- []
- (List.tl alist)
+ ) [] alist
)
- in
- let _ = print_endline (string_of_float (Unix.time () -. t)); flush stdout in
+in
+print_string (" = " ^ string_of_int (List.length result) ^ ": ") ;
+print_endline (string_of_float (Unix.time () -. t) ^ "s") ;
+flush stdout ;
result
;;
* http://cs.unibo.it/helm/.
*)
-val use_ex : string list list -> string -> string -> string list list
+val use_ex :
+ Mathql_semantics.result -> Mathql.mqsvar -> string -> Mathql_semantics.result