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pa_j_3.1x_6.xx.ml
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(* ------------------------------------------------------------------------- *)
(* New version. *)
(* ------------------------------------------------------------------------- *)
(* camlp5r *)
(* $Id: pa_o.ml,v 6.33 2010-11-16 16:48:21 deraugla Exp $ *)
(* Copyright (c) INRIA 2007-2010 *)
#load "pa_extend.cmo";
#load "q_MLast.cmo";
#load "pa_reloc.cmo";
open Pcaml;
Pcaml.syntax_name.val := "OCaml";
Pcaml.no_constructors_arity.val := True;
(* ------------------------------------------------------------------------- *)
(* The main/reloc.ml file. *)
(* ------------------------------------------------------------------------- *)
(* camlp5r *)
(* $Id: reloc.ml,v 6.15 2010-11-14 11:20:26 deraugla Exp $ *)
(* Copyright (c) INRIA 2007-2010 *)
#load "pa_macro.cmo";
open MLast;
value option_map f =
fun
[ Some x -> Some (f x)
| None -> None ]
;
value vala_map f =
IFNDEF STRICT THEN
fun x -> f x
ELSE
fun
[ Ploc.VaAnt s -> Ploc.VaAnt s
| Ploc.VaVal x -> Ploc.VaVal (f x) ]
END
;
value class_infos_map floc f x =
{ciLoc = floc x.ciLoc; ciVir = x.ciVir;
ciPrm =
let (x1, x2) = x.ciPrm in
(floc x1, x2);
ciNam = x.ciNam; ciExp = f x.ciExp}
;
value anti_loc qloc sh loc loc1 =
(*
...<:expr<.....$lid:...xxxxxxxx...$...>>...
|..|-----------------------------------| qloc
<-----> sh
|.........|------------| loc
|..|------| loc1
*)
let sh1 = Ploc.first_pos qloc + sh in
let sh2 = sh1 + Ploc.first_pos loc in
let line_nb_qloc = Ploc.line_nb qloc in
let line_nb_loc = Ploc.line_nb loc in
let line_nb_loc1 = Ploc.line_nb loc1 in
if line_nb_qloc < 0 || line_nb_loc < 0 || line_nb_loc1 < 0 then
Ploc.make_unlined
(sh2 + Ploc.first_pos loc1, sh2 + Ploc.last_pos loc1)
else
Ploc.make_loc (Ploc.file_name loc)
(line_nb_qloc + line_nb_loc + line_nb_loc1 - 2)
(if line_nb_loc1 = 1 then
if line_nb_loc = 1 then Ploc.bol_pos qloc
else sh1 + Ploc.bol_pos loc
else sh2 + Ploc.bol_pos loc1)
(sh2 + Ploc.first_pos loc1, sh2 + Ploc.last_pos loc1) ""
;
value rec reloc_ctyp floc sh =
self where rec self =
fun
[ TyAcc loc x1 x2 ->
let loc = floc loc in
TyAcc loc (self x1) (self x2)
| TyAli loc x1 x2 ->
let loc = floc loc in
TyAli loc (self x1) (self x2)
| TyAny loc ->
let loc = floc loc in
TyAny loc
| TyApp loc x1 x2 ->
let loc = floc loc in
TyApp loc (self x1) (self x2)
| TyArr loc x1 x2 ->
let loc = floc loc in
TyArr loc (self x1) (self x2)
| TyCls loc x1 ->
let loc = floc loc in
TyCls loc x1
| TyLab loc x1 x2 ->
let loc = floc loc in
TyLab loc x1 (self x2)
| TyLid loc x1 ->
let loc = floc loc in
TyLid loc x1
| TyMan loc x1 x2 x3 ->
let loc = floc loc in
TyMan loc (self x1) x2 (self x3)
| TyObj loc x1 x2 ->
let loc = floc loc in
TyObj loc (vala_map (List.map (fun (x1, x2) -> (x1, self x2))) x1) x2
| TyOlb loc x1 x2 ->
let loc = floc loc in
TyOlb loc x1 (self x2)
| TyPck loc x1 ->
let loc = floc loc in
TyPck loc (reloc_module_type floc sh x1)
| TyPol loc x1 x2 ->
let loc = floc loc in
TyPol loc x1 (self x2)
| TyPot loc x1 x2 ->
let loc = floc loc in
TyPot loc x1 (self x2)
| TyQuo loc x1 ->
let loc = floc loc in
TyQuo loc x1
| TyRec loc x1 ->
let loc = floc loc in
TyRec loc
(vala_map
(List.map (fun (loc, x1, x2, x3) -> (floc loc, x1, x2, self x3)))
x1)
| TySum loc x1 ->
let loc = floc loc in
TySum loc
(vala_map
(List.map
(fun (loc, x1, x2, x3) ->
(floc loc, x1, vala_map (List.map self) x2,
option_map self x3)))
x1)
| TyTup loc x1 ->
let loc = floc loc in
TyTup loc (vala_map (List.map self) x1)
| TyUid loc x1 ->
let loc = floc loc in
TyUid loc x1
| TyVrn loc x1 x2 ->
let loc = floc loc in
TyVrn loc (vala_map (List.map (reloc_poly_variant floc sh)) x1) x2
| IFDEF STRICT THEN
TyXtr loc x1 x2 ->
let loc = floc loc in
TyXtr loc x1 (option_map (vala_map self) x2)
END ]
and reloc_poly_variant floc sh =
fun
[ PvTag loc x1 x2 x3 ->
let loc = floc loc in
PvTag loc x1 x2 (vala_map (List.map (reloc_ctyp floc sh)) x3)
| PvInh loc x1 ->
let loc = floc loc in
PvInh loc (reloc_ctyp floc sh x1) ]
and reloc_patt floc sh =
self where rec self =
fun
[ PaAcc loc x1 x2 ->
let loc = floc loc in
PaAcc loc (self x1) (self x2)
| PaAli loc x1 x2 ->
let loc = floc loc in
PaAli loc (self x1) (self x2)
| PaAnt loc x1 ->
let new_floc loc1 = anti_loc (floc loc) sh loc loc1 in
reloc_patt new_floc sh x1
| PaAny loc ->
let loc = floc loc in
PaAny loc
| PaApp loc x1 x2 ->
let loc = floc loc in
PaApp loc (self x1) (self x2)
| PaArr loc x1 ->
let loc = floc loc in
PaArr loc (vala_map (List.map self) x1)
| PaChr loc x1 ->
let loc = floc loc in
PaChr loc x1
| PaFlo loc x1 ->
let loc = floc loc in
PaFlo loc x1
| PaInt loc x1 x2 ->
let loc = floc loc in
PaInt loc x1 x2
| PaLab loc x1 x2 ->
let loc = floc loc in
PaLab loc (self x1) (vala_map (option_map self) x2)
| PaLaz loc x1 ->
let loc = floc loc in
PaLaz loc (self x1)
| PaLid loc x1 ->
let loc = floc loc in
PaLid loc x1
| PaNty loc x1 ->
let loc = floc loc in
PaNty loc x1
| PaOlb loc x1 x2 ->
let loc = floc loc in
PaOlb loc (self x1) (vala_map (option_map (reloc_expr floc sh)) x2)
| PaOrp loc x1 x2 ->
let loc = floc loc in
PaOrp loc (self x1) (self x2)
| PaRec loc x1 ->
let loc = floc loc in
PaRec loc
(vala_map (List.map (fun (x1, x2) -> (self x1, self x2))) x1)
| PaRng loc x1 x2 ->
let loc = floc loc in
PaRng loc (self x1) (self x2)
| PaStr loc x1 ->
let loc = floc loc in
PaStr loc x1
| PaTup loc x1 ->
let loc = floc loc in
PaTup loc (vala_map (List.map self) x1)
| PaTyc loc x1 x2 ->
let loc = floc loc in
PaTyc loc (self x1) (reloc_ctyp floc sh x2)
| PaTyp loc x1 ->
let loc = floc loc in
PaTyp loc x1
| PaUid loc x1 ->
let loc = floc loc in
PaUid loc x1
| PaUnp loc x1 x2 ->
let loc = floc loc in
PaUnp loc x1 (option_map (reloc_module_type floc sh) x2)
| PaVrn loc x1 ->
let loc = floc loc in
PaVrn loc x1
| IFDEF STRICT THEN
PaXtr loc x1 x2 ->
let loc = floc loc in
PaXtr loc x1 (option_map (vala_map self) x2)
END ]
and reloc_expr floc sh =
self where rec self =
fun
[ ExAcc loc x1 x2 ->
let loc = floc loc in
ExAcc loc (self x1) (self x2)
| ExAnt loc x1 ->
let new_floc loc1 = anti_loc (floc loc) sh loc loc1 in
reloc_expr new_floc sh x1
| ExApp loc x1 x2 ->
let loc = floc loc in
ExApp loc (self x1) (self x2)
| ExAre loc x1 x2 ->
let loc = floc loc in
ExAre loc (self x1) (self x2)
| ExArr loc x1 ->
let loc = floc loc in
ExArr loc (vala_map (List.map self) x1)
| ExAsr loc x1 ->
let loc = floc loc in
ExAsr loc (self x1)
| ExAss loc x1 x2 ->
let loc = floc loc in
ExAss loc (self x1) (self x2)
| ExBae loc x1 x2 ->
let loc = floc loc in
ExBae loc (self x1) (vala_map (List.map self) x2)
| ExChr loc x1 ->
let loc = floc loc in
ExChr loc x1
| ExCoe loc x1 x2 x3 ->
let loc = floc loc in
ExCoe loc (self x1) (option_map (reloc_ctyp floc sh) x2) (reloc_ctyp floc sh x3)
| ExFlo loc x1 ->
let loc = floc loc in
ExFlo loc x1
| ExFor loc x1 x2 x3 x4 x5 ->
let loc = floc loc in
ExFor loc x1 (self x2) (self x3) x4 (vala_map (List.map self) x5)
| ExFun loc x1 ->
let loc = floc loc in
ExFun loc
(vala_map
(List.map
(fun (x1, x2, x3) ->
(reloc_patt floc sh x1, vala_map (option_map self) x2, self x3)))
x1)
| ExIfe loc x1 x2 x3 ->
let loc = floc loc in
ExIfe loc (self x1) (self x2) (self x3)
| ExInt loc x1 x2 ->
let loc = floc loc in
ExInt loc x1 x2
| ExLab loc x1 x2 ->
let loc = floc loc in
ExLab loc (reloc_patt floc sh x1) (vala_map (option_map self) x2)
| ExLaz loc x1 ->
let loc = floc loc in
ExLaz loc (self x1)
| ExLet loc x1 x2 x3 ->
let loc = floc loc in
ExLet loc x1
(vala_map (List.map (fun (x1, x2) -> (reloc_patt floc sh x1, self x2)))
x2)
(self x3)
| ExLid loc x1 ->
let loc = floc loc in
ExLid loc x1
| ExLmd loc x1 x2 x3 ->
let loc = floc loc in
ExLmd loc x1 (reloc_module_expr floc sh x2) (self x3)
| ExMat loc x1 x2 ->
let loc = floc loc in
ExMat loc (self x1)
(vala_map
(List.map
(fun (x1, x2, x3) ->
(reloc_patt floc sh x1, vala_map (option_map self) x2, self x3)))
x2)
| ExNew loc x1 ->
let loc = floc loc in
ExNew loc x1
| ExObj loc x1 x2 ->
let loc = floc loc in
ExObj loc (vala_map (option_map (reloc_patt floc sh)) x1)
(vala_map (List.map (reloc_class_str_item floc sh)) x2)
| ExOlb loc x1 x2 ->
let loc = floc loc in
ExOlb loc (reloc_patt floc sh x1) (vala_map (option_map self) x2)
| ExOvr loc x1 ->
let loc = floc loc in
ExOvr loc (vala_map (List.map (fun (x1, x2) -> (x1, self x2))) x1)
| ExPck loc x1 x2 ->
let loc = floc loc in
ExPck loc (reloc_module_expr floc sh x1)
(option_map (reloc_module_type floc sh) x2)
| ExRec loc x1 x2 ->
let loc = floc loc in
ExRec loc
(vala_map (List.map (fun (x1, x2) -> (reloc_patt floc sh x1, self x2)))
x1)
(option_map self x2)
| ExSeq loc x1 ->
let loc = floc loc in
ExSeq loc (vala_map (List.map self) x1)
| ExSnd loc x1 x2 ->
let loc = floc loc in
ExSnd loc (self x1) x2
| ExSte loc x1 x2 ->
let loc = floc loc in
ExSte loc (self x1) (self x2)
| ExStr loc x1 ->
let loc = floc loc in
ExStr loc x1
| ExTry loc x1 x2 ->
let loc = floc loc in
ExTry loc (self x1)
(vala_map
(List.map
(fun (x1, x2, x3) ->
(reloc_patt floc sh x1, vala_map (option_map self) x2, self x3)))
x2)
| ExTup loc x1 ->
let loc = floc loc in
ExTup loc (vala_map (List.map self) x1)
| ExTyc loc x1 x2 ->
let loc = floc loc in
ExTyc loc (self x1) (reloc_ctyp floc sh x2)
| ExUid loc x1 ->
let loc = floc loc in
ExUid loc x1
| ExVrn loc x1 ->
let loc = floc loc in
ExVrn loc x1
| ExWhi loc x1 x2 ->
let loc = floc loc in
ExWhi loc (self x1) (vala_map (List.map self) x2)
| IFDEF STRICT THEN
ExXtr loc x1 x2 ->
let loc = floc loc in
ExXtr loc x1 (option_map (vala_map self) x2)
END ]
and reloc_module_type floc sh =
self where rec self =
fun
[ MtAcc loc x1 x2 ->
let loc = floc loc in
MtAcc loc (self x1) (self x2)
| MtApp loc x1 x2 ->
let loc = floc loc in
MtApp loc (self x1) (self x2)
| MtFun loc x1 x2 x3 ->
let loc = floc loc in
MtFun loc x1 (self x2) (self x3)
| MtLid loc x1 ->
let loc = floc loc in
MtLid loc x1
| MtQuo loc x1 ->
let loc = floc loc in
MtQuo loc x1
| MtSig loc x1 ->
let loc = floc loc in
MtSig loc (vala_map (List.map (reloc_sig_item floc sh)) x1)
| MtTyo loc x1 ->
let loc = floc loc in
MtTyo loc (reloc_module_expr floc sh x1)
| MtUid loc x1 ->
let loc = floc loc in
MtUid loc x1
| MtWit loc x1 x2 ->
let loc = floc loc in
MtWit loc (self x1) (vala_map (List.map (reloc_with_constr floc sh)) x2)
| IFDEF STRICT THEN
MtXtr loc x1 x2 ->
let loc = floc loc in
MtXtr loc x1 (option_map (vala_map self) x2)
END ]
and reloc_sig_item floc sh =
self where rec self =
fun
[ SgCls loc x1 ->
let loc = floc loc in
SgCls loc
(vala_map (List.map (class_infos_map floc (reloc_class_type floc sh))) x1)
| SgClt loc x1 ->
let loc = floc loc in
SgClt loc
(vala_map (List.map (class_infos_map floc (reloc_class_type floc sh))) x1)
| SgDcl loc x1 ->
let loc = floc loc in
SgDcl loc (vala_map (List.map self) x1)
| SgDir loc x1 x2 ->
let loc = floc loc in
SgDir loc x1 (vala_map (option_map (reloc_expr floc sh)) x2)
| SgExc loc x1 x2 ->
let loc = floc loc in
SgExc loc x1 (vala_map (List.map (reloc_ctyp floc sh)) x2)
| SgExt loc x1 x2 x3 ->
let loc = floc loc in
SgExt loc x1 (reloc_ctyp floc sh x2) x3
| SgInc loc x1 ->
let loc = floc loc in
SgInc loc (reloc_module_type floc sh x1)
| SgMod loc x1 x2 ->
let loc = floc loc in
SgMod loc x1
(vala_map (List.map (fun (x1, x2) -> (x1, reloc_module_type floc sh x2)))
x2)
| SgMty loc x1 x2 ->
let loc = floc loc in
SgMty loc x1 (reloc_module_type floc sh x2)
| SgOpn loc x1 ->
let loc = floc loc in
SgOpn loc x1
| SgTyp loc x1 ->
let loc = floc loc in
SgTyp loc (vala_map (List.map (reloc_type_decl floc sh)) x1)
| SgUse loc x1 x2 ->
let loc = floc loc in
SgUse loc x1
(vala_map (List.map (fun (x1, loc) -> (self x1, floc loc))) x2)
| SgVal loc x1 x2 ->
let loc = floc loc in
SgVal loc x1 (reloc_ctyp floc sh x2)
| IFDEF STRICT THEN
SgXtr loc x1 x2 ->
let loc = floc loc in
SgXtr loc x1 (option_map (vala_map self) x2)
END ]
and reloc_with_constr floc sh =
fun
[ WcMod loc x1 x2 ->
let loc = floc loc in
WcMod loc x1 (reloc_module_expr floc sh x2)
| WcMos loc x1 x2 ->
let loc = floc loc in
WcMos loc x1 (reloc_module_expr floc sh x2)
| WcTyp loc x1 x2 x3 x4 ->
let loc = floc loc in
WcTyp loc x1 x2 x3 (reloc_ctyp floc sh x4)
| WcTys loc x1 x2 x3 ->
let loc = floc loc in
WcTys loc x1 x2 (reloc_ctyp floc sh x3) ]
and reloc_module_expr floc sh =
self where rec self =
fun
[ MeAcc loc x1 x2 ->
let loc = floc loc in
MeAcc loc (self x1) (self x2)
| MeApp loc x1 x2 ->
let loc = floc loc in
MeApp loc (self x1) (self x2)
| MeFun loc x1 x2 x3 ->
let loc = floc loc in
MeFun loc x1 (reloc_module_type floc sh x2) (self x3)
| MeStr loc x1 ->
let loc = floc loc in
MeStr loc (vala_map (List.map (reloc_str_item floc sh)) x1)
| MeTyc loc x1 x2 ->
let loc = floc loc in
MeTyc loc (self x1) (reloc_module_type floc sh x2)
| MeUid loc x1 ->
let loc = floc loc in
MeUid loc x1
| MeUnp loc x1 x2 ->
let loc = floc loc in
MeUnp loc (reloc_expr floc sh x1) (option_map (reloc_module_type floc sh) x2)
| IFDEF STRICT THEN
MeXtr loc x1 x2 ->
let loc = floc loc in
MeXtr loc x1 (option_map (vala_map self) x2)
END ]
and reloc_str_item floc sh =
self where rec self =
fun
[ StCls loc x1 ->
let loc = floc loc in
StCls loc
(vala_map (List.map (class_infos_map floc (reloc_class_expr floc sh))) x1)
| StClt loc x1 ->
let loc = floc loc in
StClt loc
(vala_map (List.map (class_infos_map floc (reloc_class_type floc sh))) x1)
| StDcl loc x1 ->
let loc = floc loc in
StDcl loc (vala_map (List.map self) x1)
| StDir loc x1 x2 ->
let loc = floc loc in
StDir loc x1 (vala_map (option_map (reloc_expr floc sh)) x2)
| StExc loc x1 x2 x3 ->
let loc = floc loc in
StExc loc x1 (vala_map (List.map (reloc_ctyp floc sh)) x2) x3
| StExp loc x1 ->
let loc = floc loc in
StExp loc (reloc_expr floc sh x1)
| StExt loc x1 x2 x3 ->
let loc = floc loc in
StExt loc x1 (reloc_ctyp floc sh x2) x3
| StInc loc x1 ->
let loc = floc loc in
StInc loc (reloc_module_expr floc sh x1)
| StMod loc x1 x2 ->
let loc = floc loc in
StMod loc x1
(vala_map (List.map (fun (x1, x2) -> (x1, reloc_module_expr floc sh x2)))
x2)
| StMty loc x1 x2 ->
let loc = floc loc in
StMty loc x1 (reloc_module_type floc sh x2)
| StOpn loc x1 ->
let loc = floc loc in
StOpn loc x1
| StTyp loc x1 ->
let loc = floc loc in
StTyp loc (vala_map (List.map (reloc_type_decl floc sh)) x1)
| StUse loc x1 x2 ->
let loc = floc loc in
StUse loc x1
(vala_map (List.map (fun (x1, loc) -> (self x1, floc loc))) x2)
| StVal loc x1 x2 ->
let loc = floc loc in
StVal loc x1
(vala_map
(List.map (fun (x1, x2) -> (reloc_patt floc sh x1, reloc_expr floc sh x2)))
x2)
| IFDEF STRICT THEN
StXtr loc x1 x2 ->
let loc = floc loc in
StXtr loc x1 (option_map (vala_map self) x2)
END ]
and reloc_type_decl floc sh x =
{tdNam = vala_map (fun (loc, x1) -> (floc loc, x1)) x.tdNam;
tdPrm = x.tdPrm; tdPrv = x.tdPrv; tdDef = reloc_ctyp floc sh x.tdDef;
tdCon =
vala_map (List.map (fun (x1, x2) -> (reloc_ctyp floc sh x1, reloc_ctyp floc sh x2)))
x.tdCon}
and reloc_class_type floc sh =
self where rec self =
fun
[ CtAcc loc x1 x2 ->
let loc = floc loc in
CtAcc loc (self x1) (self x2)
| CtApp loc x1 x2 ->
let loc = floc loc in
CtApp loc (self x1) (self x2)
| CtCon loc x1 x2 ->
let loc = floc loc in
CtCon loc (self x1) (vala_map (List.map (reloc_ctyp floc sh)) x2)
| CtFun loc x1 x2 ->
let loc = floc loc in
CtFun loc (reloc_ctyp floc sh x1) (self x2)
| CtIde loc x1 ->
let loc = floc loc in
CtIde loc x1
| CtSig loc x1 x2 ->
let loc = floc loc in
CtSig loc (vala_map (option_map (reloc_ctyp floc sh)) x1)
(vala_map (List.map (reloc_class_sig_item floc sh)) x2)
| IFDEF STRICT THEN
CtXtr loc x1 x2 ->
let loc = floc loc in
CtXtr loc x1 (option_map (vala_map self) x2)
END ]
and reloc_class_sig_item floc sh =
self where rec self =
fun
[ CgCtr loc x1 x2 ->
let loc = floc loc in
CgCtr loc (reloc_ctyp floc sh x1) (reloc_ctyp floc sh x2)
| CgDcl loc x1 ->
let loc = floc loc in
CgDcl loc (vala_map (List.map self) x1)
| CgInh loc x1 ->
let loc = floc loc in
CgInh loc (reloc_class_type floc sh x1)
| CgMth loc x1 x2 x3 ->
let loc = floc loc in
CgMth loc x1 x2 (reloc_ctyp floc sh x3)
| CgVal loc x1 x2 x3 ->
let loc = floc loc in
CgVal loc x1 x2 (reloc_ctyp floc sh x3)
| CgVir loc x1 x2 x3 ->
let loc = floc loc in
CgVir loc x1 x2 (reloc_ctyp floc sh x3) ]
and reloc_class_expr floc sh =
self where rec self =
fun
[ CeApp loc x1 x2 ->
let loc = floc loc in
CeApp loc (self x1) (reloc_expr floc sh x2)
| CeCon loc x1 x2 ->
let loc = floc loc in
CeCon loc x1 (vala_map (List.map (reloc_ctyp floc sh)) x2)
| CeFun loc x1 x2 ->
let loc = floc loc in
CeFun loc (reloc_patt floc sh x1) (self x2)
| CeLet loc x1 x2 x3 ->
let loc = floc loc in
CeLet loc x1
(vala_map
(List.map (fun (x1, x2) -> (reloc_patt floc sh x1, reloc_expr floc sh x2)))
x2)
(self x3)
| CeStr loc x1 x2 ->
let loc = floc loc in
CeStr loc (vala_map (option_map (reloc_patt floc sh)) x1)
(vala_map (List.map (reloc_class_str_item floc sh)) x2)
| CeTyc loc x1 x2 ->
let loc = floc loc in
CeTyc loc (self x1) (reloc_class_type floc sh x2)
| IFDEF STRICT THEN
CeXtr loc x1 x2 ->
let loc = floc loc in
CeXtr loc x1 (option_map (vala_map self) x2)
END ]
and reloc_class_str_item floc sh =
self where rec self =
fun
[ CrCtr loc x1 x2 ->
let loc = floc loc in
CrCtr loc (reloc_ctyp floc sh x1) (reloc_ctyp floc sh x2)
| CrDcl loc x1 ->
let loc = floc loc in
CrDcl loc (vala_map (List.map self) x1)
| CrInh loc x1 x2 ->
let loc = floc loc in
CrInh loc (reloc_class_expr floc sh x1) x2
| CrIni loc x1 ->
let loc = floc loc in
CrIni loc (reloc_expr floc sh x1)
| CrMth loc x1 x2 x3 x4 x5 ->
let loc = floc loc in
CrMth loc x1 x2 x3 (vala_map (option_map (reloc_ctyp floc sh)) x4)
(reloc_expr floc sh x5)
| CrVal loc x1 x2 x3 x4 ->
let loc = floc loc in
CrVal loc x1 x2 x3 (reloc_expr floc sh x4)
| CrVav loc x1 x2 x3 ->
let loc = floc loc in
CrVav loc x1 x2 (reloc_ctyp floc sh x3)
| CrVir loc x1 x2 x3 ->
let loc = floc loc in
CrVir loc x1 x2 (reloc_ctyp floc sh x3) ]
;
(* Equality over syntax trees *)
value eq_expr x y =
reloc_expr (fun _ -> Ploc.dummy) 0 x =
reloc_expr (fun _ -> Ploc.dummy) 0 y
;
value eq_patt x y =
reloc_patt (fun _ -> Ploc.dummy) 0 x =
reloc_patt (fun _ -> Ploc.dummy) 0 y
;
value eq_ctyp x y =
reloc_ctyp (fun _ -> Ploc.dummy) 0 x =
reloc_ctyp (fun _ -> Ploc.dummy) 0 y
;
value eq_str_item x y =
reloc_str_item (fun _ -> Ploc.dummy) 0 x =
reloc_str_item (fun _ -> Ploc.dummy) 0 y
;
value eq_sig_item x y =
reloc_sig_item (fun _ -> Ploc.dummy) 0 x =
reloc_sig_item (fun _ -> Ploc.dummy) 0 y
;
value eq_module_expr x y =
reloc_module_expr (fun _ -> Ploc.dummy) 0 x =
reloc_module_expr (fun _ -> Ploc.dummy) 0 y
;
value eq_module_type x y =
reloc_module_type (fun _ -> Ploc.dummy) 0 x =
reloc_module_type (fun _ -> Ploc.dummy) 0 y
;
value eq_class_sig_item x y =
reloc_class_sig_item (fun _ -> Ploc.dummy) 0 x =
reloc_class_sig_item (fun _ -> Ploc.dummy) 0 y
;
value eq_class_str_item x y =
reloc_class_str_item (fun _ -> Ploc.dummy) 0 x =
reloc_class_str_item (fun _ -> Ploc.dummy) 0 y
;
value eq_class_type x y =
reloc_class_type (fun _ -> Ploc.dummy) 0 x =
reloc_class_type (fun _ -> Ploc.dummy) 0 y
;
value eq_class_expr x y =
reloc_class_expr (fun _ -> Ploc.dummy) 0 x =
reloc_class_expr (fun _ -> Ploc.dummy) 0 y
;
(* ------------------------------------------------------------------------- *)
(* Now the lexer. *)
(* ------------------------------------------------------------------------- *)
(* camlp5r *)
(* $Id: plexer.ml,v 6.11 2010-10-04 20:14:58 deraugla Exp $ *)
(* Copyright (c) INRIA 2007-2010 *)
#load "pa_lexer.cmo";
(* ------------------------------------------------------------------------- *)
(* Added by JRH as a backdoor to change lexical conventions. *)
(* ------------------------------------------------------------------------- *)
value jrh_lexer = ref False;
open Versdep;
value no_quotations = ref False;
value error_on_unknown_keywords = ref False;
value dollar_for_antiquotation = ref True;
value specific_space_dot = ref False;
value force_antiquot_loc = ref False;
type context =
{ after_space : mutable bool;
dollar_for_antiquotation : bool;
specific_space_dot : bool;
find_kwd : string -> string;
line_cnt : int -> char -> unit;
set_line_nb : unit -> unit;
make_lined_loc : (int * int) -> string -> Ploc.t }
;
value err ctx loc msg =
Ploc.raise (ctx.make_lined_loc loc "") (Plexing.Error msg)
;
(* ------------------------------------------------------------------------- *)
(* JRH's hack to make the case distinction "unmixed" versus "mixed" *)
(* ------------------------------------------------------------------------- *)
value is_uppercase s = String.uppercase s = s;
value is_only_lowercase s = String.lowercase s = s && not(is_uppercase s);
value jrh_identifier find_kwd id =
let jflag = jrh_lexer.val in
if id = "set_jrh_lexer" then
(let _ = jrh_lexer.val := True in ("",find_kwd "true"))
else if id = "unset_jrh_lexer" then
(let _ = jrh_lexer.val := False in ("",find_kwd "false"))
else
try ("", find_kwd id) with
[ Not_found ->
if not(jflag) then
if is_uppercase (String.sub id 0 1) then ("UIDENT", id)
else ("LIDENT", id)
else if is_uppercase (String.sub id 0 1) &&
is_only_lowercase (String.sub id 1 (String.length id - 1))
(***** JRH: Carl's alternative version
then ("UIDENT", id)
else if is_uppercase (String.sub id 0 1) then ("LIDENT", "__uc_"^id)
else ("LIDENT", id)];
*****)
then ("UIDENT", id) else ("LIDENT", id)];
(* ------------------------------------------------------------------------- *)
(* Back to original file with the mod of using the above. *)
(* ------------------------------------------------------------------------- *)
value keyword_or_error ctx loc s =
try ("", ctx.find_kwd s) with
[ Not_found ->
if error_on_unknown_keywords.val then
err ctx loc ("illegal token: " ^ s)
else ("", s) ]
;
value stream_peek_nth n strm =
loop n (Stream.npeek n strm) where rec loop n =
fun
[ [] -> None
| [x] -> if n == 1 then Some x else None
| [_ :: l] -> loop (n - 1) l ]
;
value utf8_lexing = ref False;
value misc_letter buf strm =
if utf8_lexing.val then
match strm with lexer [ '\128'-'\225' | '\227'-'\255' ]
else
match strm with lexer [ '\128'-'\255' ]
;
value misc_punct buf strm =
if utf8_lexing.val then
match strm with lexer [ '\226' _ _ ]
else
match strm with parser []
;
value rec ident =
lexer
[ [ 'A'-'Z' | 'a'-'z' | '0'-'9' | '_' | ''' | misc_letter ] ident! | ]
;
value rec ident2 =
lexer
[ [ '!' | '?' | '~' | '=' | '@' | '^' | '&' | '+' | '-' | '*' | '/' |
'%' | '.' | ':' | '<' | '>' | '|' | '$' | misc_punct ]
ident2!
| ]
;
value rec ident3 =
lexer
[ [ '0'-'9' | 'A'-'Z' | 'a'-'z' | '_' | '!' | '%' | '&' | '*' | '+' | '-' |
'.' | '/' | ':' | '<' | '=' | '>' | '?' | '@' | '^' | '|' | '~' | ''' |
'$' | '\128'-'\255' ] ident3!
| ]
;
value binary = lexer [ '0' | '1' ];
value octal = lexer [ '0'-'7' ];
value decimal = lexer [ '0'-'9' ];
value hexa = lexer [ '0'-'9' | 'a'-'f' | 'A'-'F' ];
value end_integer =
lexer
[ "l"/ -> ("INT_l", $buf)
| "L"/ -> ("INT_L", $buf)
| "n"/ -> ("INT_n", $buf)
| -> ("INT", $buf) ]
;
value rec digits_under kind =
lexer
[ kind (digits_under kind)!
| "_" (digits_under kind)!
| end_integer ]
;
value digits kind =
lexer
[ kind (digits_under kind)!
| -> raise (Stream.Error "ill-formed integer constant") ]
;
value rec decimal_digits_under =
lexer [ [ '0'-'9' | '_' ] decimal_digits_under! | ]
;
value exponent_part =
lexer
[ [ 'e' | 'E' ] [ '+' | '-' | ]
'0'-'9' ? "ill-formed floating-point constant"
decimal_digits_under! ]
;
value number =
lexer
[ decimal_digits_under "." decimal_digits_under! exponent_part ->
("FLOAT", $buf)
| decimal_digits_under "." decimal_digits_under! -> ("FLOAT", $buf)
| decimal_digits_under exponent_part -> ("FLOAT", $buf)
| decimal_digits_under end_integer! ]
;
value char_after_bslash =
lexer
[ "'"/
| _ [ "'"/ | _ [ "'"/ | ] ] ]
;
value char ctx bp =
lexer
[ "\\" _ char_after_bslash!
| "\\" -> err ctx (bp, $pos) "char not terminated"
| ?= [ _ '''] _! "'"/ ]
;
value any ctx buf =
parser bp [: `c :] -> do { ctx.line_cnt bp c; $add c }
;
value rec string ctx bp =
lexer
[ "\""/
| "\\" (any ctx) (string ctx bp)!
| (any ctx) (string ctx bp)!
| -> err ctx (bp, $pos) "string not terminated" ]
;
value rec qstring ctx bp =
lexer
[ "`"/
| (any ctx) (qstring ctx bp)!
| -> err ctx (bp, $pos) "quotation not terminated" ]
;
value comment ctx bp =
comment where rec comment =
lexer
[ "*)"
| "*" comment!
| "(*" comment! comment!
| "(" comment!
| "\"" (string ctx bp)! [ -> $add "\"" ] comment!
| "'*)"
| "'*" comment!
| "'" (any ctx) comment!
| (any ctx) comment!
| -> err ctx (bp, $pos) "comment not terminated" ]
;
value rec quotation ctx bp =
lexer
[ ">>"/
| ">" (quotation ctx bp)!
| "<<" (quotation ctx bp)! [ -> $add ">>" ]! (quotation ctx bp)!
| "<:" ident! "<" (quotation ctx bp)! [ -> $add ">>" ]! (quotation ctx bp)!
| "<:" ident! (quotation ctx bp)!
| "<" (quotation ctx bp)!
| "\\"/ [ '>' | '<' | '\\' ] (quotation ctx bp)!
| "\\" (quotation ctx bp)!
| (any ctx) (quotation ctx bp)!
| -> err ctx (bp, $pos) "quotation not terminated" ]
;
value less_expected = "character '<' expected";
value less ctx bp buf strm =
if no_quotations.val then
match strm with lexer
[ [ -> $add "<" ] ident2! -> keyword_or_error ctx (bp, $pos) $buf ]
else
match strm with lexer
[ "<"/ (quotation ctx bp) -> ("QUOTATION", ":" ^ $buf)
| ":"/ ident! "<"/ ? less_expected [ -> $add ":" ]! (quotation ctx bp) ->
("QUOTATION", $buf)
| ":"/ ident! ":<"/ ? less_expected [ -> $add "@" ]! (quotation ctx bp) ->
("QUOTATION", $buf)
| [ -> $add "<" ] ident2! -> keyword_or_error ctx (bp, $pos) $buf ]
;
value rec antiquot_rest ctx bp =
lexer
[ "$"/
| "\\"/ (any ctx) (antiquot_rest ctx bp)!
| (any ctx) (antiquot_rest ctx bp)!
| -> err ctx (bp, $pos) "antiquotation not terminated" ]
;
value rec antiquot ctx bp =
lexer
[ "$"/ -> ":" ^ $buf
| [ 'a'-'z' | 'A'-'Z' | '0'-'9' | '!' | '_' ] (antiquot ctx bp)!
| ":" (antiquot_rest ctx bp)! -> $buf
| "\\"/ (any ctx) (antiquot_rest ctx bp)! -> ":" ^ $buf
| (any ctx) (antiquot_rest ctx bp)! -> ":" ^ $buf