(* * Copyright 2012, INRIA * Julia Lawall, Gilles Muller * Copyright 2010-2011, INRIA, University of Copenhagen * Julia Lawall, Rene Rydhof Hansen, Gilles Muller, Nicolas Palix * Copyright 2005-2009, Ecole des Mines de Nantes, University of Copenhagen * Yoann Padioleau, Julia Lawall, Rene Rydhof Hansen, Henrik Stuart, Gilles Muller, Nicolas Palix * This file is part of Coccinelle. * * Coccinelle 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, according to version 2 of the License. * * Coccinelle 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 Coccinelle. If not, see . * * The authors reserve the right to distribute this or future versions of * Coccinelle under other licenses. *) # 0 "./get_metas.ml" (* --------------------------------------------------------------------- *) (* creates AsExpr, etc *) (* @ attached metavariables can only be associated with positions, so nothing to do for them *) module Ast = Ast_cocci module Ast0 = Ast0_cocci let map_split f l = List.split(List.map f l) let rewrap x (n,e) = (n,Ast0.rewrap x e) let mcode x = let nonpos l = List.filter (function Ast0.MetaPosTag _ -> false | _ -> true) l in (nonpos(Ast0.get_pos x),x) let option_default = [] let bind l1 l2 = let oldnames = List.map Ast0.meta_pos_name l2 in List.fold_left (function prev -> function e1 -> if List.mem (Ast0.meta_pos_name e1) oldnames then prev else e1::prev) l2 l1 let multibind l = let rec loop = function [] -> option_default | [x] -> x | x::xs -> bind x (loop xs) in loop l let map_split_bind f l = let (n,e) = List.split(List.map f l) in (multibind n,e) let get_option f = function Some x -> let (n,e) = f x in (n,Some e) | None -> (option_default,None) let do_disj starter lst mids ender processor rebuilder = let (starter_n,starter) = mcode starter in let (lst_n,lst) = map_split processor lst in let (mids_n,mids) = map_split mcode mids in let (ender_n,ender) = mcode ender in (multibind [starter_n;List.hd lst_n; multibind (List.map2 bind mids_n (List.tl lst_n));ender_n], rebuilder starter lst mids ender) let dots fn d = rewrap d (match Ast0.unwrap d with Ast0.DOTS(l) -> let (n,l) = map_split_bind fn l in (n, Ast0.DOTS(l)) | Ast0.CIRCLES(l) -> let (n,l) = map_split_bind fn l in (n, Ast0.CIRCLES(l)) | Ast0.STARS(l) -> let (n,l) = map_split_bind fn l in (n, Ast0.STARS(l))) let rec ident i = let (metas,i) = rewrap i (match Ast0.unwrap i with Ast0.Id(name) -> let (n,name) = mcode name in (n,Ast0.Id(name)) | Ast0.MetaId(name,constraints,seed,pure) -> let (n,name) = mcode name in (n,Ast0.MetaId(name,constraints,seed,pure)) | Ast0.MetaFunc(name,constraints,pure) -> let (n,name) = mcode name in (n,Ast0.MetaFunc(name,constraints,pure)) | Ast0.MetaLocalFunc(name,constraints,pure) -> let (n,name) = mcode name in (n,Ast0.MetaLocalFunc(name,constraints,pure)) | Ast0.AsIdent _ -> failwith "not possible" | Ast0.DisjId(starter,id_list,mids,ender) -> do_disj starter id_list mids ender ident (fun starter id_list mids ender -> Ast0.DisjId(starter,id_list,mids,ender)) | Ast0.OptIdent(id) -> let (n,id) = ident id in (n,Ast0.OptIdent(id)) | Ast0.UniqueIdent(id) -> let (n,id) = ident id in (n,Ast0.UniqueIdent(id))) in List.fold_left (function (other_metas,id) -> function Ast0.IdentTag(id_meta) -> (other_metas,Ast0.rewrap id (Ast0.AsIdent(id,id_meta))) | x -> (x::other_metas,id)) ([],i) metas and expression e = let (metas,e) = rewrap e (match Ast0.unwrap e with Ast0.Ident(id) -> let (n,id) = ident id in (n,Ast0.Ident(id)) | Ast0.Constant(const) -> let (n,const) = mcode const in (n,Ast0.Constant(const)) | Ast0.FunCall(fn,lp,args,rp) -> let (fn_n,fn) = expression fn in let (lp_n,lp) = mcode lp in let (args_n,args) = dots expression args in let (rp_n,rp) = mcode rp in (multibind [fn_n;lp_n;args_n;rp_n], Ast0.FunCall(fn,lp,args,rp)) | Ast0.Assignment(left,op,right,simple) -> let (left_n,left) = expression left in let (op_n,op) = mcode op in let (right_n,right) = expression right in (multibind [left_n;op_n;right_n], Ast0.Assignment(left,op,right,simple)) | Ast0.Sequence(left,op,right) -> let (left_n,left) = expression left in let (op_n,op) = mcode op in let (right_n,right) = expression right in (multibind [left_n;op_n;right_n], Ast0.Sequence(left,op,right)) | Ast0.CondExpr(exp1,why,exp2,colon,exp3) -> let (exp1_n,exp1) = expression exp1 in let (why_n,why) = mcode why in let (exp2_n,exp2) = get_option expression exp2 in let (colon_n,colon) = mcode colon in let (exp3_n,exp3) = expression exp3 in (multibind [exp1_n;why_n;exp2_n;colon_n;exp3_n], Ast0.CondExpr(exp1,why,exp2,colon,exp3)) | Ast0.Postfix(exp,op) -> let (exp_n,exp) = expression exp in let (op_n,op) = mcode op in (bind exp_n op_n, Ast0.Postfix(exp,op)) | Ast0.Infix(exp,op) -> let (exp_n,exp) = expression exp in let (op_n,op) = mcode op in (bind op_n exp_n, Ast0.Infix(exp,op)) | Ast0.Unary(exp,op) -> let (exp_n,exp) = expression exp in let (op_n,op) = mcode op in (bind op_n exp_n, Ast0.Unary(exp,op)) | Ast0.Binary(left,op,right) -> let (left_n,left) = expression left in let (op_n,op) = mcode op in let (right_n,right) = expression right in (multibind [left_n;op_n;right_n], Ast0.Binary(left,op,right)) | Ast0.Nested(left,op,right) -> let (left_n,left) = expression left in let (op_n,op) = mcode op in let (right_n,right) = expression right in (multibind [left_n;op_n;right_n], Ast0.Nested(left,op,right)) | Ast0.Paren(lp,exp,rp) -> let (lp_n,lp) = mcode lp in let (exp_n,exp) = expression exp in let (rp_n,rp) = mcode rp in (multibind [lp_n;exp_n;rp_n], Ast0.Paren(lp,exp,rp)) | Ast0.ArrayAccess(exp1,lb,exp2,rb) -> let (exp1_n,exp1) = expression exp1 in let (lb_n,lb) = mcode lb in let (exp2_n,exp2) = expression exp2 in let (rb_n,rb) = mcode rb in (multibind [exp1_n;lb_n;exp2_n;rb_n], Ast0.ArrayAccess(exp1,lb,exp2,rb)) | Ast0.RecordAccess(exp,pt,field) -> let (exp_n,exp) = expression exp in let (pt_n,pt) = mcode pt in let (field_n,field) = ident field in (multibind [exp_n;pt_n;field_n], Ast0.RecordAccess(exp,pt,field)) | Ast0.RecordPtAccess(exp,ar,field) -> let (exp_n,exp) = expression exp in let (ar_n,ar) = mcode ar in let (field_n,field) = ident field in (multibind [exp_n;ar_n;field_n], Ast0.RecordPtAccess(exp,ar,field)) | Ast0.Cast(lp,ty,rp,exp) -> let (lp_n,lp) = mcode lp in let (ty_n,ty) = typeC ty in let (rp_n,rp) = mcode rp in let (exp_n,exp) = expression exp in (multibind [lp_n;ty_n;rp_n;exp_n], Ast0.Cast(lp,ty,rp,exp)) | Ast0.SizeOfExpr(szf,exp) -> let (szf_n,szf) = mcode szf in let (exp_n,exp) = expression exp in (multibind [szf_n;exp_n],Ast0.SizeOfExpr(szf,exp)) | Ast0.SizeOfType(szf,lp,ty,rp) -> let (szf_n,szf) = mcode szf in let (lp_n,lp) = mcode lp in let (ty_n,ty) = typeC ty in let (rp_n,rp) = mcode rp in (multibind [szf_n;lp_n;ty_n;rp_n], Ast0.SizeOfType(szf,lp,ty,rp)) | Ast0.TypeExp(ty) -> let (ty_n,ty) = typeC ty in (ty_n,Ast0.TypeExp(ty)) | Ast0.Constructor(lp,ty,rp,init) -> let (lp_n,lp) = mcode lp in let (ty_n,ty) = typeC ty in let (rp_n,rp) = mcode rp in let (init_n,init) = initialiser init in (multibind [lp_n;ty_n;rp_n;init_n], Ast0.Constructor(lp,ty,rp,init)) | Ast0.MetaErr(name,constraints,pure) -> let (name_n,name) = mcode name in (name_n,Ast0.MetaErr(name,constraints,pure)) | Ast0.MetaExpr(name,constraints,ty,form,pure) -> let (name_n,name) = mcode name in (name_n,Ast0.MetaExpr(name,constraints,ty,form,pure)) | Ast0.MetaExprList(name,lenname,pure) -> let (name_n,name) = mcode name in (name_n,Ast0.MetaExprList(name,lenname,pure)) | Ast0.AsExpr _ -> failwith "not possible" | Ast0.EComma(cm) -> let (cm_n,cm) = mcode cm in (cm_n,Ast0.EComma(cm)) | Ast0.DisjExpr(starter,expr_list,mids,ender) -> do_disj starter expr_list mids ender expression (fun starter expr_list mids ender -> Ast0.DisjExpr(starter,expr_list,mids,ender)) | Ast0.NestExpr(starter,expr_dots,ender,whencode,multi) -> let (starter_n,starter) = mcode starter in let (expr_dots_n,expr_dots) = dots expression expr_dots in let (ender_n,ender) = mcode ender in let (whencode_n,whencode) = get_option expression whencode in (multibind [starter_n;expr_dots_n;ender_n;whencode_n], Ast0.NestExpr(starter,expr_dots,ender,whencode,multi)) | Ast0.Edots(dots,whencode) -> let (dots_n,dots) = mcode dots in let (whencode_n,whencode) = get_option expression whencode in (bind dots_n whencode_n,Ast0.Edots(dots,whencode)) | Ast0.Ecircles(dots,whencode) -> let (dots_n,dots) = mcode dots in let (whencode_n,whencode) = get_option expression whencode in (bind dots_n whencode_n,Ast0.Ecircles(dots,whencode)) | Ast0.Estars(dots,whencode) -> let (dots_n,dots) = mcode dots in let (whencode_n,whencode) = get_option expression whencode in (bind dots_n whencode_n,Ast0.Estars(dots,whencode)) | Ast0.OptExp(exp) -> let (exp_n,exp) = expression exp in (exp_n,Ast0.OptExp(exp)) | Ast0.UniqueExp(exp) -> let (exp_n,exp) = expression exp in (exp_n,Ast0.UniqueExp(exp))) in List.fold_left (function (other_metas,exp) -> function Ast0.ExprTag(exp_meta) -> (other_metas,Ast0.rewrap exp (Ast0.AsExpr(exp,exp_meta))) | Ast0.IdentTag(id_meta) -> (other_metas, Ast0.rewrap exp (Ast0.AsExpr(exp,Ast0.rewrap exp (Ast0.Ident(id_meta))))) | x -> (x::other_metas,exp)) ([],e) metas and typeC t = let (metas,t) = rewrap t (match Ast0.unwrap t with Ast0.ConstVol(cv,ty) -> let (cv_n,cv) = mcode cv in let (ty_n,ty) = typeC ty in (bind cv_n ty_n, Ast0.ConstVol(cv,ty)) | Ast0.BaseType(ty,strings) -> let (strings_n,strings) = map_split_bind mcode strings in (strings_n, Ast0.BaseType(ty,strings)) | Ast0.Signed(sign,ty) -> let (sign_n,sign) = mcode sign in let (ty_n,ty) = get_option typeC ty in (bind sign_n ty_n, Ast0.Signed(sign,ty)) | Ast0.Pointer(ty,star) -> let (ty_n,ty) = typeC ty in let (star_n,star) = mcode star in (bind ty_n star_n, Ast0.Pointer(ty,star)) | Ast0.FunctionPointer(ty,lp1,star,rp1,lp2,params,rp2) -> function_pointer (ty,lp1,star,rp1,lp2,params,rp2) [] | Ast0.FunctionType(ty,lp1,params,rp1) -> function_type (ty,lp1,params,rp1) [] | Ast0.Array(ty,lb,size,rb) -> array_type (ty,lb,size,rb) [] | Ast0.EnumName(kind,name) -> let (kind_n,kind) = mcode kind in let (name_n,name) = get_option ident name in (bind kind_n name_n, Ast0.EnumName(kind,name)) | Ast0.EnumDef(ty,lb,ids,rb) -> let (ty_n,ty) = typeC ty in let (lb_n,lb) = mcode lb in let (ids_n,ids) = dots expression ids in let (rb_n,rb) = mcode rb in (multibind [ty_n;lb_n;ids_n;rb_n], Ast0.EnumDef(ty,lb,ids,rb)) | Ast0.StructUnionName(kind,name) -> let (kind_n,kind) = mcode kind in let (name_n,name) = get_option ident name in (bind kind_n name_n, Ast0.StructUnionName(kind,name)) | Ast0.StructUnionDef(ty,lb,decls,rb) -> let (ty_n,ty) = typeC ty in let (lb_n,lb) = mcode lb in let (decls_n,decls) = dots declaration decls in let (rb_n,rb) = mcode rb in (multibind [ty_n;lb_n;decls_n;rb_n], Ast0.StructUnionDef(ty,lb,decls,rb)) | Ast0.TypeName(name) -> let (name_n,name) = mcode name in (name_n,Ast0.TypeName(name)) | Ast0.MetaType(name,pure) -> let (name_n,name) = mcode name in (name_n,Ast0.MetaType(name,pure)) | Ast0.AsType _ -> failwith "not possible" | Ast0.DisjType(starter,types,mids,ender) -> do_disj starter types mids ender typeC (fun starter types mids ender -> Ast0.DisjType(starter,types,mids,ender)) | Ast0.OptType(ty) -> let (ty_n,ty) = typeC ty in (ty_n, Ast0.OptType(ty)) | Ast0.UniqueType(ty) -> let (ty_n,ty) = typeC ty in (ty_n, Ast0.UniqueType(ty))) in List.fold_left (function (other_metas,ty) -> function Ast0.TypeCTag(ty_meta) -> (other_metas,Ast0.rewrap ty (Ast0.AsType(ty,ty_meta))) | x -> (x::other_metas,ty)) ([],t) metas and function_pointer (ty,lp1,star,rp1,lp2,params,rp2) extra = let (ty_n,ty) = typeC ty in let (lp1_n,lp1) = mcode lp1 in let (star_n,star) = mcode star in let (rp1_n,rp1) = mcode rp1 in let (lp2_n,lp2) = mcode lp2 in let (params_n,params) = dots parameterTypeDef params in let (rp2_n,rp2) = mcode rp2 in (* have to put the treatment of the identifier into the right position *) (multibind ([ty_n;lp1_n;star_n] @ extra @ [rp1_n;lp2_n;params_n;rp2_n]), Ast0.FunctionPointer(ty,lp1,star,rp1,lp2,params,rp2)) and function_type (ty,lp1,params,rp1) extra = let (ty_n,ty) = get_option typeC ty in let (lp1_n,lp1) = mcode lp1 in let (params_n,params) = dots parameterTypeDef params in let (rp1_n,rp1) = mcode rp1 in (* have to put the treatment of the identifier into the right position *) (multibind (ty_n :: extra @ [lp1_n;params_n;rp1_n]), Ast0.FunctionType(ty,lp1,params,rp1)) and array_type (ty,lb,size,rb) extra = let (ty_n,ty) = typeC ty in let (lb_n,lb) = mcode lb in let (size_n,size) = get_option expression size in let (rb_n,rb) = mcode rb in (multibind (ty_n :: extra @ [lb_n;size_n;rb_n]), Ast0.Array(ty,lb,size,rb)) and named_type ty id = let (id_n,id) = ident id in match Ast0.unwrap ty with Ast0.FunctionPointer(rty,lp1,star,rp1,lp2,params,rp2) -> let tyres = function_pointer (rty,lp1,star,rp1,lp2,params,rp2) [id_n] in (rewrap ty tyres, id) | Ast0.FunctionType(rty,lp1,params,rp1) -> let tyres = function_type (rty,lp1,params,rp1) [id_n] in (rewrap ty tyres, id) | Ast0.Array(rty,lb,size,rb) -> let tyres = array_type (rty,lb,size,rb) [id_n] in (rewrap ty tyres, id) | _ -> let (ty_n,ty) = typeC ty in ((bind ty_n id_n, ty), id) and declaration d = let (metas,d) = rewrap d (match Ast0.unwrap d with Ast0.MetaDecl(name,pure) -> let (n,name) = mcode name in (n,Ast0.MetaDecl(name,pure)) | Ast0.MetaField(name,pure) -> let (n,name) = mcode name in (n,Ast0.MetaField(name,pure)) | Ast0.MetaFieldList(name,lenname,pure) -> let (n,name) = mcode name in (n,Ast0.MetaFieldList(name,lenname,pure)) | Ast0.AsDecl _ -> failwith "not possible" | Ast0.Init(stg,ty,id,eq,ini,sem) -> let (stg_n,stg) = get_option mcode stg in let ((ty_id_n,ty),id) = named_type ty id in let (eq_n,eq) = mcode eq in let (ini_n,ini) = initialiser ini in let (sem_n,sem) = mcode sem in (multibind [stg_n;ty_id_n;eq_n;ini_n;sem_n], Ast0.Init(stg,ty,id,eq,ini,sem)) | Ast0.UnInit(stg,ty,id,sem) -> let (stg_n,stg) = get_option mcode stg in let ((ty_id_n,ty),id) = named_type ty id in let (sem_n,sem) = mcode sem in (multibind [stg_n;ty_id_n;sem_n], Ast0.UnInit(stg,ty,id,sem)) | Ast0.MacroDecl(name,lp,args,rp,sem) -> let (name_n,name) = ident name in let (lp_n,lp) = mcode lp in let (args_n,args) = dots expression args in let (rp_n,rp) = mcode rp in let (sem_n,sem) = mcode sem in (multibind [name_n;lp_n;args_n;rp_n;sem_n], Ast0.MacroDecl(name,lp,args,rp,sem)) | Ast0.MacroDeclInit(name,lp,args,rp,eq,ini,sem) -> let (name_n,name) = ident name in let (lp_n,lp) = mcode lp in let (args_n,args) = dots expression args in let (rp_n,rp) = mcode rp in let (eq_n,eq) = mcode eq in let (ini_n,ini) = initialiser ini in let (sem_n,sem) = mcode sem in (multibind [name_n;lp_n;args_n;rp_n;eq_n;ini_n;sem_n], Ast0.MacroDeclInit(name,lp,args,rp,eq,ini,sem)) | Ast0.TyDecl(ty,sem) -> let (ty_n,ty) = typeC ty in let (sem_n,sem) = mcode sem in (bind ty_n sem_n, Ast0.TyDecl(ty,sem)) | Ast0.Typedef(stg,ty,id,sem) -> let (stg_n,stg) = mcode stg in let (ty_n,ty) = typeC ty in let (id_n,id) = typeC id in let (sem_n,sem) = mcode sem in (multibind [stg_n;ty_n;id_n;sem_n], Ast0.Typedef(stg,ty,id,sem)) | Ast0.DisjDecl(starter,decls,mids,ender) -> do_disj starter decls mids ender declaration (fun starter decls mids ender -> Ast0.DisjDecl(starter,decls,mids,ender)) | Ast0.Ddots(dots,whencode) -> let (dots_n,dots) = mcode dots in let (whencode_n,whencode) = get_option declaration whencode in (bind dots_n whencode_n, Ast0.Ddots(dots,whencode)) | Ast0.OptDecl(decl) -> let (n,decl) = declaration decl in (n,Ast0.OptDecl(decl)) | Ast0.UniqueDecl(decl) -> let (n,decl) = declaration decl in (n,Ast0.UniqueDecl(decl))) in List.fold_left (function (other_metas,decl) -> function Ast0.DeclTag(decl_meta) -> (other_metas,Ast0.rewrap decl (Ast0.AsDecl(decl,decl_meta))) | x -> (x::other_metas,decl)) ([],d) metas and initialiser i = let (metas,i) = rewrap i (match Ast0.unwrap i with Ast0.MetaInit(name,pure) -> let (name_n,name) = mcode name in (name_n,Ast0.MetaInit(name,pure)) | Ast0.MetaInitList(name,lenname,pure) -> let (name_n,name) = mcode name in (name_n,Ast0.MetaInitList(name,lenname,pure)) | Ast0.AsInit _ -> failwith "not possible" | Ast0.InitExpr(exp) -> let (exp_n,exp) = expression exp in (exp_n,Ast0.InitExpr(exp)) | Ast0.InitList(lb,initlist,rb,ordered) -> let (lb_n,lb) = mcode lb in let (initlist_n,initlist) = dots initialiser initlist in let (rb_n,rb) = mcode rb in (multibind [lb_n;initlist_n;rb_n], Ast0.InitList(lb,initlist,rb,ordered)) | Ast0.InitGccExt(designators,eq,ini) -> let (dn,designators) = map_split_bind designator designators in let (eq_n,eq) = mcode eq in let (ini_n,ini) = initialiser ini in (multibind [dn;eq_n;ini_n], Ast0.InitGccExt(designators,eq,ini)) | Ast0.InitGccName(name,eq,ini) -> let (name_n,name) = ident name in let (eq_n,eq) = mcode eq in let (ini_n,ini) = initialiser ini in (multibind [name_n;eq_n;ini_n], Ast0.InitGccName(name,eq,ini)) | Ast0.IComma(cm) -> let (n,cm) = mcode cm in (n,Ast0.IComma(cm)) | Ast0.Idots(d,whencode) -> let (d_n,d) = mcode d in let (whencode_n,whencode) = get_option initialiser whencode in (bind d_n whencode_n, Ast0.Idots(d,whencode)) | Ast0.OptIni(i) -> let (n,i) = initialiser i in (n,Ast0.OptIni(i)) | Ast0.UniqueIni(i) -> let (n,i) = initialiser i in (n,Ast0.UniqueIni(i))) in List.fold_left (function (other_metas,init) -> function Ast0.InitTag(init_meta) -> (other_metas,Ast0.rewrap init (Ast0.AsInit(init,init_meta))) | x -> (x::other_metas,init)) ([],i) metas and designator = function Ast0.DesignatorField(dot,id) -> let (dot_n,dot) = mcode dot in let (id_n,id) = ident id in (bind dot_n id_n, Ast0.DesignatorField(dot,id)) | Ast0.DesignatorIndex(lb,exp,rb) -> let (lb_n,lb) = mcode lb in let (exp_n,exp) = expression exp in let (rb_n,rb) = mcode rb in (multibind [lb_n;exp_n;rb_n], Ast0.DesignatorIndex(lb,exp,rb)) | Ast0.DesignatorRange(lb,min,dots,max,rb) -> let (lb_n,lb) = mcode lb in let (min_n,min) = expression min in let (dots_n,dots) = mcode dots in let (max_n,max) = expression max in let (rb_n,rb) = mcode rb in (multibind [lb_n;min_n;dots_n;max_n;rb_n], Ast0.DesignatorRange(lb,min,dots,max,rb)) and parameterTypeDef p = match Ast0.unwrap p with Ast0.MetaParamList(name,lenname,pure) -> let (metas,p) = rewrap p (let (n,name) = mcode name in (n,Ast0.MetaParamList(name,lenname,pure))) in List.fold_left (function (other_metas,id) -> function ((Ast0.ExprTag(exp_meta)) as x) -> (match Ast0.unwrap exp_meta with Ast0.MetaExprList _ -> (other_metas,Ast0.rewrap p (Ast0.AsParam(p,exp_meta))) | _ -> (x::other_metas,id)) | x -> (x::other_metas,id)) ([],p) metas | _ -> rewrap p (match Ast0.unwrap p with Ast0.VoidParam(ty) -> let (n,ty) = typeC ty in (n,Ast0.VoidParam(ty)) | Ast0.Param(ty,Some id) -> let ((ty_id_n,ty),id) = named_type ty id in (ty_id_n, Ast0.Param(ty,Some id)) | Ast0.Param(ty,None) -> let (ty_n,ty) = typeC ty in (ty_n, Ast0.Param(ty,None)) | Ast0.MetaParam(name,pure) -> let (n,name) = mcode name in (n,Ast0.MetaParam(name,pure)) | Ast0.MetaParamList(name,lenname,pure) -> failwith "not possible" | Ast0.AsParam _ -> failwith "not possible" | Ast0.PComma(cm) -> let (n,cm) = mcode cm in (n,Ast0.PComma(cm)) | Ast0.Pdots(dots) -> let (n,dots) = mcode dots in (n,Ast0.Pdots(dots)) | Ast0.Pcircles(dots) -> let (n,dots) = mcode dots in (n,Ast0.Pcircles(dots)) | Ast0.OptParam(param) -> let (n,param) = parameterTypeDef param in (n,Ast0.OptParam(param)) | Ast0.UniqueParam(param) -> let (n,param) = parameterTypeDef param in (n,Ast0.UniqueParam(param))) and statement s = let (metas,s) = rewrap s (match Ast0.unwrap s with Ast0.FunDecl(bef,fi,name,lp,params,rp,lbrace,body,rbrace) -> let (fi_n,fi) = map_split_bind fninfo fi in let (name_n,name) = ident name in let (lp_n,lp) = mcode lp in let (params_n,params) = dots parameterTypeDef params in let (rp_n,rp) = mcode rp in let (lbrace_n,lbrace) = mcode lbrace in let (body_n,body) = dots statement body in let (rbrace_n,rbrace) = mcode rbrace in (multibind [fi_n;name_n;lp_n;params_n;rp_n;lbrace_n;body_n;rbrace_n], Ast0.FunDecl(bef,fi,name,lp,params,rp,lbrace,body,rbrace)) | Ast0.Decl(bef,decl) -> let (decl_n,decl) = declaration decl in (decl_n,Ast0.Decl(bef,decl)) | Ast0.Seq(lbrace,body,rbrace) -> let (lbrace_n,lbrace) = mcode lbrace in let (body_n,body) = dots statement body in let (rbrace_n,rbrace) = mcode rbrace in (multibind [lbrace_n;body_n;rbrace_n], Ast0.Seq(lbrace,body,rbrace)) | Ast0.ExprStatement(exp,sem) -> let (exp_n,exp) = get_option expression exp in let (sem_n,sem) = mcode sem in (bind exp_n sem_n, Ast0.ExprStatement(exp,sem)) | Ast0.IfThen(iff,lp,exp,rp,branch1,aft) -> let (iff_n,iff) = mcode iff in let (lp_n,lp) = mcode lp in let (exp_n,exp) = expression exp in let (rp_n,rp) = mcode rp in let (branch1_n,branch1) = statement branch1 in (multibind [iff_n;lp_n;exp_n;rp_n;branch1_n], Ast0.IfThen(iff,lp,exp,rp,branch1,aft)) | Ast0.IfThenElse(iff,lp,exp,rp,branch1,els,branch2,aft) -> let (iff_n,iff) = mcode iff in let (lp_n,lp) = mcode lp in let (exp_n,exp) = expression exp in let (rp_n,rp) = mcode rp in let (branch1_n,branch1) = statement branch1 in let (els_n,els) = mcode els in let (branch2_n,branch2) = statement branch2 in (multibind [iff_n;lp_n;exp_n;rp_n;branch1_n;els_n;branch2_n], Ast0.IfThenElse(iff,lp,exp,rp,branch1,els,branch2,aft)) | Ast0.While(whl,lp,exp,rp,body,aft) -> let (whl_n,whl) = mcode whl in let (lp_n,lp) = mcode lp in let (exp_n,exp) = expression exp in let (rp_n,rp) = mcode rp in let (body_n,body) = statement body in (multibind [whl_n;lp_n;exp_n;rp_n;body_n], Ast0.While(whl,lp,exp,rp,body,aft)) | Ast0.Do(d,body,whl,lp,exp,rp,sem) -> let (d_n,d) = mcode d in let (body_n,body) = statement body in let (whl_n,whl) = mcode whl in let (lp_n,lp) = mcode lp in let (exp_n,exp) = expression exp in let (rp_n,rp) = mcode rp in let (sem_n,sem) = mcode sem in (multibind [d_n;body_n;whl_n;lp_n;exp_n;rp_n;sem_n], Ast0.Do(d,body,whl,lp,exp,rp,sem)) | Ast0.For(fr,lp,first,e2,sem2,e3,rp,body,aft) -> let (fr_n,fr) = mcode fr in let (lp_n,lp) = mcode lp in let (first_n,first) = match Ast0.unwrap first with Ast0.ForExp(e1,sem1) -> let (e1_n,e1) = get_option expression e1 in let (sem1_n,sem1) = mcode sem1 in (bind e1_n sem1_n, Ast0.rewrap first (Ast0.ForExp(e1,sem1))) | Ast0.ForDecl (bef,decl) -> let (decl_n,decl) = declaration decl in (decl_n,Ast0.rewrap first (Ast0.ForDecl (bef,decl))) in let (e2_n,e2) = get_option expression e2 in let (sem2_n,sem2) = mcode sem2 in let (e3_n,e3) = get_option expression e3 in let (rp_n,rp) = mcode rp in let (body_n,body) = statement body in (multibind [fr_n;lp_n;first_n;e2_n;sem2_n;e3_n;rp_n;body_n], Ast0.For(fr,lp,first,e2,sem2,e3,rp,body,aft)) | Ast0.Iterator(nm,lp,args,rp,body,aft) -> let (nm_n,nm) = ident nm in let (lp_n,lp) = mcode lp in let (args_n,args) = dots expression args in let (rp_n,rp) = mcode rp in let (body_n,body) = statement body in (multibind [nm_n;lp_n;args_n;rp_n;body_n], Ast0.Iterator(nm,lp,args,rp,body,aft)) | Ast0.Switch(switch,lp,exp,rp,lb,decls,cases,rb) -> let (switch_n,switch) = mcode switch in let (lp_n,lp) = mcode lp in let (exp_n,exp) = expression exp in let (rp_n,rp) = mcode rp in let (lb_n,lb) = mcode lb in let (decls_n,decls) = dots statement decls in let (cases_n,cases) = dots case_line cases in let (rb_n,rb) = mcode rb in (multibind [switch_n;lp_n;exp_n;rp_n;lb_n;decls_n;cases_n;rb_n], Ast0.Switch(switch,lp,exp,rp,lb,decls,cases,rb)) | Ast0.Break(br,sem) -> let (br_n,br) = mcode br in let (sem_n,sem) = mcode sem in (bind br_n sem_n, Ast0.Break(br,sem)) | Ast0.Continue(cont,sem) -> let (cont_n,cont) = mcode cont in let (sem_n,sem) = mcode sem in (bind cont_n sem_n, Ast0.Continue(cont,sem)) | Ast0.Label(l,dd) -> let (l_n,l) = ident l in let (dd_n,dd) = mcode dd in (bind l_n dd_n, Ast0.Label(l,dd)) | Ast0.Goto(goto,l,sem) -> let (goto_n,goto) = mcode goto in let (l_n,l) = ident l in let (sem_n,sem) = mcode sem in (bind goto_n (bind l_n sem_n), Ast0.Goto(goto,l,sem)) | Ast0.Return(ret,sem) -> let (ret_n,ret) = mcode ret in let (sem_n,sem) = mcode sem in (bind ret_n sem_n, Ast0.Return(ret,sem)) | Ast0.ReturnExpr(ret,exp,sem) -> let (ret_n,ret) = mcode ret in let (exp_n,exp) = expression exp in let (sem_n,sem) = mcode sem in (multibind [ret_n;exp_n;sem_n], Ast0.ReturnExpr(ret,exp,sem)) | Ast0.MetaStmt(name,pure) -> let (name_n,name) = mcode name in (name_n,Ast0.MetaStmt(name,pure)) | Ast0.MetaStmtList(name,pure) -> let (name_n,name) = mcode name in (name_n,Ast0.MetaStmtList(name,pure)) | Ast0.AsStmt _ -> failwith "not possible" | Ast0.Disj(starter,statement_dots_list,mids,ender) -> do_disj starter statement_dots_list mids ender (dots statement) (fun starter statement_dots_list mids ender -> Ast0.Disj(starter,statement_dots_list,mids,ender)) | Ast0.Nest(starter,stmt_dots,ender,whn,multi) -> let (starter_n,starter) = mcode starter in let (stmt_dots_n,stmt_dots) = dots statement stmt_dots in let (ender_n,ender) = mcode ender in let (whn_n,whn) = map_split_bind (whencode (dots statement) statement) whn in (multibind [starter_n;stmt_dots_n;ender_n;whn_n], Ast0.Nest(starter,stmt_dots,ender,whn,multi)) | Ast0.Exp(exp) -> let (exp_n,exp) = expression exp in (exp_n,Ast0.Exp(exp)) | Ast0.TopExp(exp) -> let (exp_n,exp) = expression exp in (exp_n,Ast0.TopExp(exp)) | Ast0.Ty(ty) -> let (ty_n,ty) = typeC ty in (ty_n,Ast0.Ty(ty)) | Ast0.TopInit(init) -> let (init_n,init) = initialiser init in (init_n,Ast0.TopInit(init)) | Ast0.Dots(d,whn) -> let (d_n,d) = mcode d in let (whn_n,whn) = map_split_bind (whencode (dots statement) statement) whn in (bind d_n whn_n, Ast0.Dots(d,whn)) | Ast0.Circles(d,whn) -> let (d_n,d) = mcode d in let (whn_n,whn) = map_split_bind (whencode (dots statement) statement) whn in (bind d_n whn_n, Ast0.Circles(d,whn)) | Ast0.Stars(d,whn) -> let (d_n,d) = mcode d in let (whn_n,whn) = map_split_bind (whencode (dots statement) statement) whn in (bind d_n whn_n, Ast0.Stars(d,whn)) | Ast0.Include(inc,name) -> let (inc_n,inc) = mcode inc in let (name_n,name) = mcode name in (bind inc_n name_n, Ast0.Include(inc,name)) | Ast0.Undef(def,id) -> let (def_n,def) = mcode def in let (id_n,id) = ident id in (multibind [def_n;id_n],Ast0.Undef(def,id)) | Ast0.Define(def,id,params,body) -> let (def_n,def) = mcode def in let (id_n,id) = ident id in let (params_n,params) = define_parameters params in let (body_n,body) = dots statement body in (multibind [def_n;id_n;params_n;body_n], Ast0.Define(def,id,params,body)) | Ast0.OptStm(re) -> let (re_n,re) = statement re in (re_n,Ast0.OptStm(re)) | Ast0.UniqueStm(re) -> let (re_n,re) = statement re in (re_n,Ast0.UniqueStm(re))) in List.fold_left (function (other_metas,stmt) -> function Ast0.StmtTag(stmt_meta) -> (other_metas,Ast0.rewrap stmt (Ast0.AsStmt(stmt,stmt_meta))) | x -> (x::other_metas,stmt)) ([],s) metas (* not parameterizable for now... *) and define_parameters p = rewrap p (match Ast0.unwrap p with Ast0.NoParams -> (option_default,Ast0.NoParams) | Ast0.DParams(lp,params,rp) -> let (lp_n,lp) = mcode lp in let (params_n,params) = dots define_param params in let (rp_n,rp) = mcode rp in (multibind [lp_n;params_n;rp_n], Ast0.DParams(lp,params,rp))) and define_param p = rewrap p (match Ast0.unwrap p with Ast0.DParam(id) -> let (n,id) = ident id in (n,Ast0.DParam(id)) | Ast0.DPComma(comma) -> let (n,comma) = mcode comma in (n,Ast0.DPComma(comma)) | Ast0.DPdots(d) -> let (n,d) = mcode d in (n,Ast0.DPdots(d)) | Ast0.DPcircles(c) -> let (n,c) = mcode c in (n,Ast0.DPcircles(c)) | Ast0.OptDParam(dp) -> let (n,dp) = define_param dp in (n,Ast0.OptDParam(dp)) | Ast0.UniqueDParam(dp) -> let (n,dp) = define_param dp in (n,Ast0.UniqueDParam(dp))) and fninfo = function Ast0.FStorage(stg) -> let (n,stg) = mcode stg in (n,Ast0.FStorage(stg)) | Ast0.FType(ty) -> let (n,ty) = typeC ty in (n,Ast0.FType(ty)) | Ast0.FInline(inline) -> let (n,inline) = mcode inline in (n,Ast0.FInline(inline)) | Ast0.FAttr(init) -> let (n,init) = mcode init in (n,Ast0.FAttr(init)) and whencode notfn alwaysfn = function Ast0.WhenNot a -> let (n,a) = notfn a in (n,Ast0.WhenNot(a)) | Ast0.WhenAlways a -> let (n,a) = alwaysfn a in (n,Ast0.WhenAlways(a)) | Ast0.WhenModifier(x) -> (option_default,Ast0.WhenModifier(x)) | Ast0.WhenNotTrue(e) -> let (n,e) = expression e in (n,Ast0.WhenNotTrue(e)) | Ast0.WhenNotFalse(e) -> let (n,e) = expression e in (n,Ast0.WhenNotFalse(e)) and case_line c = rewrap c (match Ast0.unwrap c with Ast0.Default(def,colon,code) -> let (def_n,def) = mcode def in let (colon_n,colon) = mcode colon in let (code_n,code) = dots statement code in (multibind [def_n;colon_n;code_n], Ast0.Default(def,colon,code)) | Ast0.Case(case,exp,colon,code) -> let (case_n,case) = mcode case in let (exp_n,exp) = expression exp in let (colon_n,colon) = mcode colon in let (code_n,code) = dots statement code in (multibind [case_n;exp_n;colon_n;code_n], Ast0.Case(case,exp,colon,code)) | Ast0.DisjCase(starter,case_lines,mids,ender) -> do_disj starter case_lines mids ender case_line (fun starter case_lines mids ender -> Ast0.DisjCase(starter,case_lines,mids,ender)) | Ast0.OptCase(case) -> let (n,case) = case_line case in (n,Ast0.OptCase(case))) and top_level t = rewrap t (match Ast0.unwrap t with Ast0.FILEINFO(old_file,new_file) -> let (old_file_n,old_file) = mcode old_file in let (new_file_n,new_file) = mcode new_file in (bind old_file_n new_file_n,Ast0.FILEINFO(old_file,new_file)) | Ast0.NONDECL(statement_dots) -> let (n,statement_dots) = statement statement_dots in (n,Ast0.NONDECL(statement_dots)) | Ast0.CODE(stmt_dots) -> let (stmt_dots_n,stmt_dots) = dots statement stmt_dots in (stmt_dots_n, Ast0.CODE(stmt_dots)) | Ast0.TOPCODE(stmt_dots) -> let (stmt_dots_n,stmt_dots) = dots statement stmt_dots in (stmt_dots_n, Ast0.TOPCODE(stmt_dots)) | Ast0.ERRORWORDS(exps) -> let (n,exps) = map_split_bind expression exps in (n, Ast0.ERRORWORDS(exps)) | Ast0.OTHER(_) -> failwith "unexpected code") let process t = List.map (function x -> match top_level x with ([],code) -> code | (l,_) -> failwith (Printf.sprintf "rule starting on line %d contains unattached metavariables: %s" (Ast0.get_line x) (String.concat ", " (List.map (function nm -> let (r,n) = Ast0.unwrap_mcode nm in r^"."^n) (List.map Ast0.meta_pos_name l))))) t