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|
(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2012 *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
open Pp
open Pcoq
open Constr
open Prim
open Glob_term
open Term
open Names
open Libnames
open Topconstr
open Util
open Tok
open Compat
let constr_kw =
[ "forall"; "fun"; "match"; "fix"; "cofix"; "with"; "in"; "for";
"end"; "as"; "let"; "if"; "then"; "else"; "return";
"Prop"; "Set"; "Type"; ".("; "_"; "..";
"`{"; "`("; "{|"; "|}" ]
let _ = List.iter Lexer.add_keyword constr_kw
let mk_cast = function
(c,(_,None)) -> c
| (c,(_,Some ty)) -> CCast(join_loc (constr_loc c) (constr_loc ty), c, CastConv (DEFAULTcast, ty))
let binders_of_names l =
List.map (fun (loc, na) ->
LocalRawAssum ([loc, na], Default Explicit,
CHole (loc, Some (Evd.BinderType na)))) l
let binders_of_lidents l =
List.map (fun (loc, id) ->
LocalRawAssum ([loc, Name id], Default Glob_term.Explicit,
CHole (loc, Some (Evd.BinderType (Name id))))) l
let mk_fixb (id,bl,ann,body,(loc,tyc)) =
let ty = match tyc with
Some ty -> ty
| None -> CHole (loc, None) in
(id,ann,bl,ty,body)
let mk_cofixb (id,bl,ann,body,(loc,tyc)) =
let _ = Option.map (fun (aloc,_) ->
Util.user_err_loc
(aloc,"Constr:mk_cofixb",
Pp.str"Annotation forbidden in cofix expression.")) (fst ann) in
let ty = match tyc with
Some ty -> ty
| None -> CHole (loc, None) in
(id,bl,ty,body)
let mk_fix(loc,kw,id,dcls) =
if kw then
let fb = List.map mk_fixb dcls in
CFix(loc,id,fb)
else
let fb = List.map mk_cofixb dcls in
CCoFix(loc,id,fb)
let mk_single_fix (loc,kw,dcl) =
let (id,_,_,_,_) = dcl in mk_fix(loc,kw,id,[dcl])
let err () = raise Stream.Failure
(* Hack to parse "(x:=t)" as an explicit argument without conflicts with the *)
(* admissible notation "(x t)" *)
let lpar_id_coloneq =
Gram.Entry.of_parser "test_lpar_id_coloneq"
(fun strm ->
match get_tok (stream_nth 0 strm) with
| KEYWORD "(" ->
(match get_tok (stream_nth 1 strm) with
| IDENT s ->
(match get_tok (stream_nth 2 strm) with
| KEYWORD ":=" ->
stream_njunk 3 strm;
Names.id_of_string s
| _ -> err ())
| _ -> err ())
| _ -> err ())
let impl_ident_head =
Gram.Entry.of_parser "impl_ident_head"
(fun strm ->
match get_tok (stream_nth 0 strm) with
| KEYWORD "{" ->
(match get_tok (stream_nth 1 strm) with
| IDENT ("wf"|"struct"|"measure") -> err ()
| IDENT s ->
stream_njunk 2 strm;
Names.id_of_string s
| _ -> err ())
| _ -> err ())
let name_colon =
Gram.Entry.of_parser "name_colon"
(fun strm ->
match get_tok (stream_nth 0 strm) with
| IDENT s ->
(match get_tok (stream_nth 1 strm) with
| KEYWORD ":" ->
stream_njunk 2 strm;
Name (Names.id_of_string s)
| _ -> err ())
| KEYWORD "_" ->
(match get_tok (stream_nth 1 strm) with
| KEYWORD ":" ->
stream_njunk 2 strm;
Anonymous
| _ -> err ())
| _ -> err ())
let aliasvar = function CPatAlias (loc, _, id) -> Some (loc,Name id) | _ -> None
GEXTEND Gram
GLOBAL: binder_constr lconstr constr operconstr sort global
constr_pattern lconstr_pattern Constr.ident
closed_binder open_binders binder binders binders_fixannot
record_declaration typeclass_constraint pattern appl_arg;
Constr.ident:
[ [ id = Prim.ident -> id
(* This is used in quotations and Syntax *)
| id = METAIDENT -> id_of_string id ] ]
;
Prim.name:
[ [ "_" -> (loc, Anonymous) ] ]
;
global:
[ [ r = Prim.reference -> r ] ]
;
constr_pattern:
[ [ c = constr -> c ] ]
;
lconstr_pattern:
[ [ c = lconstr -> c ] ]
;
sort:
[ [ "Set" -> GProp Pos
| "Prop" -> GProp Null
| "Type" -> GType None ] ]
;
lconstr:
[ [ c = operconstr LEVEL "200" -> c ] ]
;
constr:
[ [ c = operconstr LEVEL "8" -> c
| "@"; f=global -> CAppExpl(loc,(None,f),[]) ] ]
;
operconstr:
[ "200" RIGHTA
[ c = binder_constr -> c ]
| "100" RIGHTA
[ c1 = operconstr; "<:"; c2 = binder_constr ->
CCast(loc,c1, CastConv (VMcast,c2))
| c1 = operconstr; "<:"; c2 = SELF ->
CCast(loc,c1, CastConv (VMcast,c2))
| c1 = operconstr; ":";c2 = binder_constr ->
CCast(loc,c1, CastConv (DEFAULTcast,c2))
| c1 = operconstr; ":"; c2 = SELF ->
CCast(loc,c1, CastConv (DEFAULTcast,c2))
| c1 = operconstr; ":>" ->
CCast(loc,c1, CastCoerce) ]
| "99" RIGHTA [ ]
| "90" RIGHTA
[ c1 = operconstr; "->"; c2 = binder_constr -> CArrow(loc,c1,c2)
| c1 = operconstr; "->"; c2 = SELF -> CArrow(loc,c1,c2)]
| "10" LEFTA
[ f=operconstr; args=LIST1 appl_arg -> CApp(loc,(None,f),args)
| "@"; f=global; args=LIST0 NEXT -> CAppExpl(loc,(None,f),args)
| "@"; (locid,id) = pattern_identref; args=LIST1 identref ->
let args = List.map (fun x -> CRef (Ident x), None) args in
CApp(loc,(None,CPatVar(locid,(true,id))),args) ]
| "9"
[ ".."; c = operconstr LEVEL "0"; ".." ->
CAppExpl (loc,(None,Ident (loc,Topconstr.ldots_var)),[c]) ]
| "8" [ ]
| "1" LEFTA
[ c=operconstr; ".("; f=global; args=LIST0 appl_arg; ")" ->
CApp(loc,(Some (List.length args+1),CRef f),args@[c,None])
| c=operconstr; ".("; "@"; f=global;
args=LIST0 (operconstr LEVEL "9"); ")" ->
CAppExpl(loc,(Some (List.length args+1),f),args@[c])
| c=operconstr; "%"; key=IDENT -> CDelimiters (loc,key,c) ]
| "0"
[ c=atomic_constr -> c
| c=match_constr -> c
| "("; c = operconstr LEVEL "200"; ")" ->
(match c with
CPrim (_,Numeral z) when Bigint.is_pos_or_zero z ->
CNotation(loc,"( _ )",([c],[],[]))
| _ -> c)
| "{|"; c = record_declaration; "|}" -> c
| "`{"; c = operconstr LEVEL "200"; "}" ->
CGeneralization (loc, Implicit, None, c)
| "`("; c = operconstr LEVEL "200"; ")" ->
CGeneralization (loc, Explicit, None, c)
] ]
;
forall:
[ [ "forall" -> () ] ]
;
lambda:
[ [ "fun" -> () ] ]
;
record_declaration:
[ [ fs = LIST0 record_field_declaration SEP ";" -> CRecord (loc, None, fs)
(* | c = lconstr; "with"; fs = LIST1 record_field_declaration SEP ";" -> *)
(* CRecord (loc, Some c, fs) *)
] ]
;
record_field_declaration:
[ [ id = global; params = LIST0 identref; ":="; c = lconstr ->
(id, Topconstr.abstract_constr_expr c (binders_of_lidents params)) ] ]
;
binder_constr:
[ [ forall; bl = open_binders; ","; c = operconstr LEVEL "200" ->
mkCProdN loc bl c
| lambda; bl = open_binders; "=>"; c = operconstr LEVEL "200" ->
mkCLambdaN loc bl c
| "let"; id=name; bl = binders; ty = type_cstr; ":=";
c1 = operconstr LEVEL "200"; "in"; c2 = operconstr LEVEL "200" ->
let loc1 = join_loc (local_binders_loc bl) (constr_loc c1) in
CLetIn(loc,id,mkCLambdaN loc1 bl (mk_cast(c1,ty)),c2)
| "let"; fx = single_fix; "in"; c = operconstr LEVEL "200" ->
let fixp = mk_single_fix fx in
let (li,id) = match fixp with
CFix(_,id,_) -> id
| CCoFix(_,id,_) -> id
| _ -> assert false in
CLetIn(loc,(li,Name id),fixp,c)
| "let"; lb = ["("; l=LIST0 name SEP ","; ")" -> l | "()" -> []];
po = return_type;
":="; c1 = operconstr LEVEL "200"; "in";
c2 = operconstr LEVEL "200" ->
CLetTuple (loc,lb,po,c1,c2)
| "let"; "'"; p=pattern; ":="; c1 = operconstr LEVEL "200";
"in"; c2 = operconstr LEVEL "200" ->
CCases (loc, LetPatternStyle, None, [(c1,(None,None))], [(loc, [(loc,[p])], c2)])
| "let"; "'"; p=pattern; ":="; c1 = operconstr LEVEL "200";
rt = case_type; "in"; c2 = operconstr LEVEL "200" ->
CCases (loc, LetPatternStyle, Some rt, [(c1, (aliasvar p, None))], [(loc, [(loc, [p])], c2)])
| "let"; "'"; p=pattern; "in"; t = operconstr LEVEL "200";
":="; c1 = operconstr LEVEL "200"; rt = case_type;
"in"; c2 = operconstr LEVEL "200" ->
CCases (loc, LetPatternStyle, Some rt, [(c1, (aliasvar p, Some t))], [(loc, [(loc, [p])], c2)])
| "if"; c=operconstr LEVEL "200"; po = return_type;
"then"; b1=operconstr LEVEL "200";
"else"; b2=operconstr LEVEL "200" ->
CIf (loc, c, po, b1, b2)
| c=fix_constr -> c ] ]
;
appl_arg:
[ [ id = lpar_id_coloneq; c=lconstr; ")" ->
(c,Some (loc,ExplByName id))
| c=operconstr LEVEL "9" -> (c,None) ] ]
;
atomic_constr:
[ [ g=global -> CRef g
| s=sort -> CSort (loc,s)
| n=INT -> CPrim (loc, Numeral (Bigint.of_string n))
| s=string -> CPrim (loc, String s)
| "_" -> CHole (loc, None)
| id=pattern_ident -> CPatVar(loc,(false,id)) ] ]
;
fix_constr:
[ [ fx1=single_fix -> mk_single_fix fx1
| (_,kw,dcl1)=single_fix; "with"; dcls=LIST1 fix_decl SEP "with";
"for"; id=identref ->
mk_fix(loc,kw,id,dcl1::dcls)
] ]
;
single_fix:
[ [ kw=fix_kw; dcl=fix_decl -> (loc,kw,dcl) ] ]
;
fix_kw:
[ [ "fix" -> true
| "cofix" -> false ] ]
;
fix_decl:
[ [ id=identref; bl=binders_fixannot; ty=type_cstr; ":=";
c=operconstr LEVEL "200" ->
(id,fst bl,snd bl,c,ty) ] ]
;
match_constr:
[ [ "match"; ci=LIST1 case_item SEP ","; ty=OPT case_type; "with";
br=branches; "end" -> CCases(loc,RegularStyle,ty,ci,br) ] ]
;
case_item:
[ [ c=operconstr LEVEL "100"; p=pred_pattern -> (c,p) ] ]
;
pred_pattern:
[ [ ona = OPT ["as"; id=name -> id];
ty = OPT ["in"; t=lconstr -> t] -> (ona,ty) ] ]
;
case_type:
[ [ "return"; ty = operconstr LEVEL "100" -> ty ] ]
;
return_type:
[ [ a = OPT [ na = OPT["as"; na=name -> na];
ty = case_type -> (na,ty) ] ->
match a with
| None -> None, None
| Some (na,t) -> (na, Some t)
] ]
;
branches:
[ [ OPT"|"; br=LIST0 eqn SEP "|" -> br ] ]
;
mult_pattern:
[ [ pl = LIST1 pattern LEVEL "99" SEP "," -> (loc,pl) ] ]
;
eqn:
[ [ pll = LIST1 mult_pattern SEP "|";
"=>"; rhs = lconstr -> (loc,pll,rhs) ] ]
;
recordpattern:
[ [ id = global; ":="; pat = pattern -> (id, pat) ] ]
;
pattern:
[ "200" RIGHTA [ ]
| "100" RIGHTA
[ p = pattern; "|"; pl = LIST1 pattern SEP "|" -> CPatOr (loc,p::pl) ]
| "99" RIGHTA [ ]
| "10" LEFTA
[ p = pattern; "as"; id = ident ->
CPatAlias (loc, p, id) ]
| "9" RIGHTA
[ p = pattern; lp = LIST1 NEXT ->
(match p with
| CPatAtom (_, Some r) -> CPatCstr (loc, r, lp)
| _ -> Util.user_err_loc
(cases_pattern_expr_loc p, "compound_pattern",
Pp.str "Constructor expected."))
|"@"; r = Prim.reference; lp = LIST1 NEXT ->
CPatCstrExpl (loc, r, lp) ]
| "1" LEFTA
[ c = pattern; "%"; key=IDENT -> CPatDelimiters (loc,key,c) ]
| "0"
[ r = Prim.reference -> CPatAtom (loc,Some r)
| "{|"; pat = LIST0 recordpattern SEP ";" ; "|}" -> CPatRecord (loc, pat)
| "_" -> CPatAtom (loc,None)
| "("; p = pattern LEVEL "200"; ")" ->
(match p with
CPatPrim (_,Numeral z) when Bigint.is_pos_or_zero z ->
CPatNotation(loc,"( _ )",([p],[]))
| _ -> p)
| n = INT -> CPatPrim (loc, Numeral (Bigint.of_string n))
| s = string -> CPatPrim (loc, String s) ] ]
;
impl_ident_tail:
[ [ "}" -> fun id -> LocalRawAssum([id], Default Implicit, CHole(loc, None))
| idl=LIST1 name; ":"; c=lconstr; "}" ->
(fun id -> LocalRawAssum (id::idl,Default Implicit,c))
| idl=LIST1 name; "}" ->
(fun id -> LocalRawAssum (id::idl,Default Implicit,CHole (loc, None)))
| ":"; c=lconstr; "}" ->
(fun id -> LocalRawAssum ([id],Default Implicit,c))
] ]
;
fixannot:
[ [ "{"; IDENT "struct"; id=identref; "}" -> (Some id, CStructRec)
| "{"; IDENT "wf"; rel=constr; id=OPT identref; "}" -> (id, CWfRec rel)
| "{"; IDENT "measure"; m=constr; id=OPT identref;
rel=OPT constr; "}" -> (id, CMeasureRec (m,rel))
] ]
;
binders_fixannot:
[ [ id = impl_ident_head; assum = impl_ident_tail; bl = binders_fixannot ->
(assum (loc, Name id) :: fst bl), snd bl
| f = fixannot -> [], f
| b = binder; bl = binders_fixannot -> b @ fst bl, snd bl
| -> [], (None, CStructRec)
] ]
;
open_binders:
(* Same as binders but parentheses around a closed binder are optional if
the latter is unique *)
[ [ (* open binder *)
id = name; idl = LIST0 name; ":"; c = lconstr ->
[LocalRawAssum (id::idl,Default Explicit,c)]
(* binders factorized with open binder *)
| id = name; idl = LIST0 name; bl = binders ->
binders_of_names (id::idl) @ bl
| id1 = name; ".."; id2 = name ->
[LocalRawAssum ([id1;(loc,Name ldots_var);id2],
Default Explicit,CHole (loc,None))]
| bl = closed_binder; bl' = binders ->
bl@bl'
] ]
;
binders:
[ [ l = LIST0 binder -> List.flatten l ] ]
;
binder:
[ [ id = name -> [LocalRawAssum ([id],Default Explicit,CHole (loc, None))]
| bl = closed_binder -> bl ] ]
;
closed_binder:
[ [ "("; id=name; idl=LIST1 name; ":"; c=lconstr; ")" ->
[LocalRawAssum (id::idl,Default Explicit,c)]
| "("; id=name; ":"; c=lconstr; ")" ->
[LocalRawAssum ([id],Default Explicit,c)]
| "("; id=name; ":="; c=lconstr; ")" ->
[LocalRawDef (id,c)]
| "("; id=name; ":"; t=lconstr; ":="; c=lconstr; ")" ->
[LocalRawDef (id,CCast (join_loc (constr_loc t) loc,c, CastConv (DEFAULTcast,t)))]
| "{"; id=name; "}" ->
[LocalRawAssum ([id],Default Implicit,CHole (loc, None))]
| "{"; id=name; idl=LIST1 name; ":"; c=lconstr; "}" ->
[LocalRawAssum (id::idl,Default Implicit,c)]
| "{"; id=name; ":"; c=lconstr; "}" ->
[LocalRawAssum ([id],Default Implicit,c)]
| "{"; id=name; idl=LIST1 name; "}" ->
List.map (fun id -> LocalRawAssum ([id],Default Implicit,CHole (loc, None))) (id::idl)
| "`("; tc = LIST1 typeclass_constraint SEP "," ; ")" ->
List.map (fun (n, b, t) -> LocalRawAssum ([n], Generalized (Implicit, Explicit, b), t)) tc
| "`{"; tc = LIST1 typeclass_constraint SEP "," ; "}" ->
List.map (fun (n, b, t) -> LocalRawAssum ([n], Generalized (Implicit, Implicit, b), t)) tc
] ]
;
typeclass_constraint:
[ [ "!" ; c = operconstr LEVEL "200" -> (loc, Anonymous), true, c
| "{"; id = name; "}"; ":" ; expl = [ "!" -> true | -> false ] ; c = operconstr LEVEL "200" ->
id, expl, c
| iid=name_colon ; expl = [ "!" -> true | -> false ] ; c = operconstr LEVEL "200" ->
(loc, iid), expl, c
| c = operconstr LEVEL "200" ->
(loc, Anonymous), false, c
] ]
;
type_cstr:
[ [ c=OPT [":"; c=lconstr -> c] -> (loc,c) ] ]
;
END;;
|