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authorGravatar Samuel Mimram <smimram@debian.org>2006-06-16 14:41:51 +0000
committerGravatar Samuel Mimram <smimram@debian.org>2006-06-16 14:41:51 +0000
commite978da8c41d8a3c19a29036d9c569fbe2a4616b0 (patch)
tree0de2a907ee93c795978f3c843155bee91c11ed60 /interp/constrintern.ml
parent3ef7797ef6fc605dfafb32523261fe1b023aeecb (diff)
Imported Upstream version 8.0pl3+8.1betaupstream/8.0pl3+8.1beta
Diffstat (limited to 'interp/constrintern.ml')
-rw-r--r--interp/constrintern.ml105
1 files changed, 50 insertions, 55 deletions
diff --git a/interp/constrintern.ml b/interp/constrintern.ml
index 6fcd9d7a..678fb87b 100644
--- a/interp/constrintern.ml
+++ b/interp/constrintern.ml
@@ -6,7 +6,7 @@
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
-(* $Id: constrintern.ml 8654 2006-03-22 15:36:58Z msozeau $ *)
+(* $Id: constrintern.ml 8924 2006-06-08 17:49:01Z notin $ *)
open Pp
open Util
@@ -22,6 +22,7 @@ open Cases
open Topconstr
open Nametab
open Notation
+open Inductiveops
(* To interpret implicits and arg scopes of recursive variables in
inductive types and recursive definitions *)
@@ -38,8 +39,8 @@ let interning_grammar = ref false
let for_grammar f x =
interning_grammar := true;
let a = f x in
- interning_grammar := false;
- a
+ interning_grammar := false;
+ a
let variables_bind = ref false
@@ -128,9 +129,9 @@ type coqdoc_state = Lexer.location_table * int * int
let coqdoc_freeze () =
let lt = Lexer.location_table() in
let state = (lt,!token_number,!last_pos) in
- token_number := 0;
- last_pos := 0;
- state
+ token_number := 0;
+ last_pos := 0;
+ state
let coqdoc_unfreeze (lt,tn,lp) =
Lexer.restore_location_table lt;
@@ -138,21 +139,13 @@ let coqdoc_unfreeze (lt,tn,lp) =
last_pos := lp
let add_glob loc ref =
-(*i
- let sp = Nametab.sp_of_global (Global.env ()) ref in
- let dir,_ = repr_path sp in
- let rec find_module d =
- try
- let qid = let dir,id = split_dirpath d in make_qualid dir id in
- let _ = Nametab.locate_loaded_library qid in d
- with Not_found -> find_module (dirpath_prefix d)
- in
- let s = string_of_dirpath (find_module dir) in
- i*)
let sp = Nametab.sp_of_global ref in
- let id = let _,id = repr_path sp in string_of_id id in
- let dp = string_of_dirpath (Lib.library_part ref) in
- dump_string (Printf.sprintf "R%d %s.%s\n" (fst (unloc loc)) dp id)
+ let lib_dp = Lib.library_part ref in
+ let mod_dp,id = repr_path sp in
+ let mod_dp_trunc = drop_dirpath_prefix lib_dp mod_dp in
+ let filepath = string_of_dirpath lib_dp in
+ let fullname = string_of_qualid (make_qualid mod_dp_trunc id) in
+ dump_string (Printf.sprintf "R%d %s %s\n" (fst (unloc loc)) filepath fullname)
let loc_of_notation f loc args ntn =
if args=[] or ntn.[0] <> '_' then fst (unloc loc)
@@ -165,15 +158,15 @@ let dump_notation_location pos ((path,df),sc) =
let rec next growing =
let loc = Lexer.location_function !token_number in
let (bp,_) = unloc loc in
- if growing then if bp >= pos then loc else (incr token_number;next true)
- else if bp = pos then loc
- else if bp > pos then (decr token_number;next false)
- else (incr token_number;next true) in
+ if growing then if bp >= pos then loc else (incr token_number;next true)
+ else if bp = pos then loc
+ else if bp > pos then (decr token_number;next false)
+ else (incr token_number;next true) in
let loc = next (pos >= !last_pos) in
- last_pos := pos;
- let path = string_of_dirpath path in
- let sc = match sc with Some sc -> " "^sc | None -> "" in
- dump_string (Printf.sprintf "R%d %s \"%s\"%s\n" (fst (unloc loc)) path df sc)
+ last_pos := pos;
+ let path = string_of_dirpath path in
+ let sc = match sc with Some sc -> " "^sc | None -> "" in
+ dump_string (Printf.sprintf "R%d %s \"%s\"%s\n" (fst (unloc loc)) path df sc)
(**********************************************************************)
(* Contracting "{ _ }" in notations *)
@@ -390,11 +383,6 @@ let check_constructor_length env loc cstr pl pl0 =
if n <> nargs && n <> nhyps (* i.e. with let's *) then
error_wrong_numarg_constructor_loc loc env cstr nargs
-let check_inductive_length env (loc,ind,nal) =
- let n = Inductiveops.inductive_nargs env ind in
- if n <> List.length nal then
- error_wrong_numarg_inductive_loc loc env ind n
-
(* Manage multiple aliases *)
(* [merge_aliases] returns the sets of all aliases encountered at this
@@ -506,20 +494,20 @@ let find_constructor ref =
try extended_locate qid
with Not_found ->
raise (InternalisationError (loc,NotAConstructor ref)) in
- match gref with
- | SyntacticDef sp ->
- let sdef = Syntax_def.search_syntactic_definition loc sp in
- patt_of_rawterm loc sdef
- | TrueGlobal r ->
- let rec unf = function
- | ConstRef cst ->
- let v = Environ.constant_value (Global.env()) cst in
- unf (global_of_constr v)
- | ConstructRef c ->
- if !dump then add_glob loc r;
- c, []
- | _ -> raise Not_found
- in unf r
+ match gref with
+ | SyntacticDef sp ->
+ let sdef = Syntax_def.search_syntactic_definition loc sp in
+ patt_of_rawterm loc sdef
+ | TrueGlobal r ->
+ let rec unf = function
+ | ConstRef cst ->
+ let v = Environ.constant_value (Global.env()) cst in
+ unf (global_of_constr v)
+ | ConstructRef c ->
+ if !dump then add_glob loc r;
+ c, []
+ | _ -> raise Not_found
+ in unf r
let find_pattern_variable = function
| Ident (loc,id) -> id
@@ -793,7 +781,7 @@ let internalise sigma globalenv env allow_soapp lvar c =
RStructRec,
List.fold_left intern_local_binder (env,[]) bl
| CWfRec c ->
- let before, after = list_chop (succ n) bl in
+ let before, after = list_chop (succ (out_some n)) bl in
let ((ids',_,_),rafter) =
List.fold_left intern_local_binder (env,[]) after in
let ro = RWfRec (intern (ids', tmp_scope, scopes) c) in
@@ -887,21 +875,21 @@ let internalise sigma globalenv env allow_soapp lvar c =
let (tm,ind),nal = intern_case_item env citm in
(tm,ind)::inds,List.fold_left (push_name_env lvar) env nal)
tms ([],env) in
- let rtnpo = option_app (intern_type env') rtnpo in
+ let rtnpo = option_map (intern_type env') rtnpo in
let eqns' = List.map (intern_eqn (List.length tms) env) eqns in
RCases (loc, rtnpo, tms, List.flatten eqns')
| CLetTuple (loc, nal, (na,po), b, c) ->
let env' = reset_tmp_scope env in
let ((b',(na',_)),ids) = intern_case_item env' (b,(na,None)) in
let env'' = List.fold_left (push_name_env lvar) env ids in
- let p' = option_app (intern_type env'') po in
+ let p' = option_map (intern_type env'') po in
RLetTuple (loc, nal, (na', p'), b',
intern (List.fold_left (push_name_env lvar) env nal) c)
| CIf (loc, c, (na,po), b1, b2) ->
let env' = reset_tmp_scope env in
let ((c',(na',_)),ids) = intern_case_item env' (c,(na,None)) in
let env'' = List.fold_left (push_name_env lvar) env ids in
- let p' = option_app (intern_type env'') po in
+ let p' = option_map (intern_type env'') po in
RIf (loc, c', (na', p'), intern env b1, intern env b2)
| CHole loc ->
RHole (loc, Evd.QuestionMark)
@@ -958,18 +946,25 @@ let internalise sigma globalenv env allow_soapp lvar c =
let tids = names_of_cases_indtype t in
let tids = List.fold_right Idset.add tids Idset.empty in
let t = intern_type (tids,None,scopes) t in
- let (_,_,nal as indsign) =
+ let (_,_,_,nal as indsign) =
match t with
- | RRef (loc,IndRef ind) -> (loc,ind,[])
+ | RRef (loc,IndRef ind) -> (loc,ind,0,[])
| RApp (loc,RRef (_,IndRef ind),l) ->
+ let nparams, nrealargs = inductive_nargs globalenv ind in
+ let nindargs = nparams + nrealargs in
+ if List.length l <> nindargs then
+ error_wrong_numarg_inductive_loc loc globalenv ind nindargs;
let nal = List.map (function
| RHole _ -> Anonymous
| RVar (_,id) -> Name id
| c ->
user_err_loc (loc_of_rawconstr c,"",str "Not a name")) l in
- (loc,ind,nal)
+ let parnal,realnal = list_chop nparams nal in
+ if List.exists ((<>) Anonymous) parnal then
+ user_err_loc (loc,"",
+ str "The parameters of inductive type must be implicit");
+ (loc,ind,nparams,realnal)
| _ -> error_bad_inductive_type (loc_of_rawconstr t) in
- check_inductive_length globalenv indsign;
nal, Some indsign
| None ->
[], None in