(* * 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 "./adjust_pragmas.ml" (* Find a directive or comment at the end of a statement. Things with aft given None, because they can accomodate their own directives or comments *) module Ast0 = Ast0_cocci module Ast = Ast_cocci module V0 = Visitor_ast0 module VT0 = Visitor_ast0_types let call_right processor data s cont = match processor data with None -> None | Some(pragmas,data) -> Some (pragmas,Ast0.rewrap s (cont data)) let left_mcode (a,b,info,mcodekind,d,e) = match (info.Ast0.strings_before,mcodekind) with ([],_) | (_,Ast0.PLUS _) -> None | (l,_) -> Some(l,(a,b,{info with Ast0.strings_before = []},mcodekind,d,e)) let right_mcode (a,b,info,mcodekind,d,e) = match (info.Ast0.strings_after,mcodekind) with ([],_) | (_,Ast0.PLUS _) -> None | (l,_) -> Some(l,(a,b,{info with Ast0.strings_after = []},mcodekind,d,e)) let update_before pragmas (info,x,adj) = ({info with Ast0.strings_before = pragmas @ info.Ast0.strings_before}, Ast0.PLUS Ast.ONE,adj)(*not sure what the arg should be... one seems safe*) let update_after pragmas (info,x) = ({info with Ast0.strings_after = info.Ast0.strings_after @ pragmas}, Ast0.PLUS Ast.ONE) (*not sure what the arg should be... one seems safe*) let rec right_decl d = match Ast0.unwrap d with Ast0.MetaDecl(name,pure) -> call_right right_mcode name d (function name -> Ast0.MetaDecl(name,pure)) | Ast0.MetaField(name,pure) -> call_right right_mcode name d (function name -> Ast0.MetaField(name,pure)) | Ast0.MetaFieldList(name,lenname,pure) -> call_right right_mcode name d (function name -> Ast0.MetaFieldList(name,lenname,pure)) | Ast0.AsDecl(decl,asdecl) -> failwith "not possible" | Ast0.Init(Some stg,ty,id,eq,ini,sem) -> call_right right_mcode sem d (function sem -> Ast0.Init(Some stg,ty,id,eq,ini,sem)) | Ast0.Init(None,ty,id,eq,ini,sem) -> call_right right_mcode sem d (function sem -> Ast0.Init(None,ty,id,eq,ini,sem)) | Ast0.UnInit(Some stg,ty,id,sem) -> call_right right_mcode sem d (function sem -> Ast0.UnInit(Some stg,ty,id,sem)) | Ast0.UnInit(None,ty,id,sem) -> call_right right_mcode sem d (function sem -> Ast0.UnInit(None,ty,id,sem)) | Ast0.MacroDecl(name,lp,args,rp,sem) -> call_right right_mcode sem d (function sem -> Ast0.MacroDecl(name,lp,args,rp,sem)) | Ast0.MacroDeclInit(name,lp,args,rp,eq,ini,sem) -> call_right right_mcode sem d (function sem -> Ast0.MacroDeclInit(name,lp,args,rp,eq,ini,sem)) | Ast0.TyDecl(ty,sem) -> call_right right_mcode sem d (function sem -> Ast0.TyDecl(ty,sem)) | Ast0.Typedef(stg,ty,id,sem) -> call_right right_mcode sem d (function sem -> Ast0.Typedef(stg,ty,id,sem)) | Ast0.DisjDecl(starter,decls,mids,ender) -> None | Ast0.Ddots(dots,whencode) -> None | Ast0.OptDecl(decl) -> call_right right_decl decl d (function decl -> Ast0.OptDecl(decl)) | Ast0.UniqueDecl(decl) -> call_right right_decl decl d (function decl -> Ast0.UniqueDecl(decl)) let rec right_statement s = match Ast0.unwrap s with Ast0.FunDecl(bef,fi,name,lp,params,rp,lbrace,body,rbrace) -> None | Ast0.Decl(bef,decl) -> call_right right_decl decl s (function decl -> Ast0.Decl(bef,decl)) | Ast0.Seq(lbrace,body,rbrace) -> call_right right_mcode rbrace s (function rbrace -> Ast0.Seq(lbrace,body,rbrace)) | Ast0.ExprStatement(exp,sem) -> call_right right_mcode sem s (function sem -> Ast0.ExprStatement(exp,sem)) | Ast0.IfThen(iff,lp,exp,rp,branch1,aft) -> None | Ast0.IfThenElse(iff,lp,exp,rp,branch1,els,branch2,aft) -> None | Ast0.While(whl,lp,exp,rp,body,aft) -> None | Ast0.Do(d,body,whl,lp,exp,rp,sem) -> call_right right_mcode sem s (function sem -> Ast0.Do(d,body,whl,lp,exp,rp,sem)) | Ast0.For(fr,lp,first,e2,sem2,e3,rp,body,aft) -> None | Ast0.Iterator(nm,lp,args,rp,body,aft) -> None | Ast0.Switch(switch,lp,exp,rp,lb,decls,cases,rb) -> call_right right_mcode rb s (function rb -> Ast0.Switch(switch,lp,exp,rp,lb,decls,cases,rb)) | Ast0.Break(br,sem) -> call_right right_mcode sem s (function sem -> Ast0.Break(br,sem)) | Ast0.Continue(cont,sem) -> call_right right_mcode sem s (function sem -> Ast0.Continue(cont,sem)) | Ast0.Label(l,dd) -> call_right right_mcode dd s (function dd -> Ast0.Label(l,dd)) | Ast0.Goto(goto,l,sem) -> call_right right_mcode sem s (function sem -> Ast0.Goto(goto,l,sem)) | Ast0.Return(ret,sem) -> call_right right_mcode sem s (function sem -> Ast0.Return(ret,sem)) | Ast0.ReturnExpr(ret,exp,sem) -> call_right right_mcode sem s (function sem -> Ast0.ReturnExpr(ret,exp,sem)) | Ast0.MetaStmt(name,pure) -> call_right right_mcode name s (function name -> Ast0.MetaStmt(name,pure)) | Ast0.MetaStmtList(name,pure) -> call_right right_mcode name s (function name -> Ast0.MetaStmtList(name,pure)) | Ast0.AsStmt(stm,asstm) -> failwith "not possible" | Ast0.Disj(starter,statement_dots_list,mids,ender) -> None | Ast0.Nest(starter,stmt_dots,ender,whn,multi) -> None (* the following are None, because they can't be adjacent to an aft node *) | Ast0.Exp(exp) -> None | Ast0.TopExp(exp) -> None | Ast0.Ty(ty) -> None | Ast0.TopInit(init) -> None | Ast0.Dots(d,whn) -> None | Ast0.Circles(d,whn) -> None | Ast0.Stars(d,whn) -> None | Ast0.Include(inc,name) -> call_right right_mcode name s (function name -> Ast0.Include(inc,name)) | Ast0.Undef(def,id) -> (* nothing available for ident, and not sure code can appear here anyway *) None | Ast0.Define(def,id,params,body) -> call_right right_statement_dots body s (function body -> Ast0.Define(def,id,params,body)) | Ast0.OptStm(re) -> call_right right_statement re s (function re -> Ast0.OptStm(re)) | Ast0.UniqueStm(re) -> call_right right_statement re s (function re -> Ast0.UniqueStm(re)) and right_statement_dots sd = match Ast0.unwrap sd with Ast0.DOTS([]) -> failwith "empty statement dots" | Ast0.DOTS(s::r) -> call_right right_statement s sd (function s -> Ast0.DOTS(List.rev(s::r))) | _ -> failwith "circles and stars not supported" let rec left_ty t = match Ast0.unwrap t with Ast0.ConstVol(cv,ty) -> call_right left_mcode cv t (function cv -> Ast0.ConstVol(cv,ty)) | Ast0.BaseType(ty,strings) -> (match strings with [] -> failwith "empty strings in type" | s::r -> call_right left_mcode s t (function s -> Ast0.BaseType(ty,s::r))) | Ast0.Signed(sign,ty) -> call_right left_mcode sign t (function sign -> Ast0.Signed(sign,ty)) | Ast0.Pointer(ty,star) -> call_right left_ty ty t (function ty -> Ast0.Pointer(ty,star)) | Ast0.FunctionPointer(ty,lp1,star,rp1,lp2,params,rp2) -> call_right left_ty ty t (function ty -> Ast0.FunctionPointer(ty,lp1,star,rp1,lp2,params,rp2)) | Ast0.FunctionType(Some ty,lp1,params,rp1) -> call_right left_ty ty t (function ty -> Ast0.FunctionType(Some ty,lp1,params,rp1)) | Ast0.FunctionType(None,lp1,params,rp1) -> call_right left_mcode lp1 t (function lp1 -> Ast0.FunctionType(None,lp1,params,rp1)) | Ast0.Array(ty,lb,size,rb) -> call_right left_ty ty t (function ty -> Ast0.Array(ty,lb,size,rb)) | Ast0.EnumName(kind,name) -> call_right left_mcode kind t (function kind -> Ast0.EnumName(kind,name)) | Ast0.EnumDef(ty,lb,ids,rb) -> call_right left_ty ty t (function ty -> Ast0.EnumDef(ty,lb,ids,rb)) | Ast0.StructUnionName(kind,name) -> call_right left_mcode kind t (function kind -> Ast0.StructUnionName(kind,name)) | Ast0.StructUnionDef(ty,lb,decls,rb) -> call_right left_ty ty t (function ty -> Ast0.StructUnionDef(ty,lb,decls,rb)) | Ast0.TypeName(name) -> call_right left_mcode name t (function name -> Ast0.TypeName(name)) | Ast0.MetaType(name,x) -> call_right left_mcode name t (function name -> Ast0.MetaType(name,x)) | Ast0.AsType(ty,asty) -> failwith "not possible" | Ast0.DisjType(starter,types,mids,ender) -> None | Ast0.OptType(ty) -> call_right left_ty ty t (function ty -> Ast0.OptType(ty)) | Ast0.UniqueType(ty) -> call_right left_ty ty t (function ty -> Ast0.UniqueType(ty)) let rec left_ident i = match Ast0.unwrap i with Ast0.Id(name) -> call_right left_mcode name i (function name -> Ast0.Id(name)) | Ast0.MetaId(name,a,b,c) -> call_right left_mcode name i (function name -> Ast0.MetaId(name,a,b,c)) | Ast0.MetaFunc(name,a,b) -> call_right left_mcode name i (function name -> Ast0.MetaFunc(name,a,b)) | Ast0.MetaLocalFunc(name,a,b) -> call_right left_mcode name i (function name -> Ast0.MetaLocalFunc(name,a,b)) | Ast0.DisjId(starter,ids,mids,ender) -> None | Ast0.OptIdent(id) -> call_right left_ident id i (function id -> Ast0.OptIdent(id)) | Ast0.UniqueIdent(id) -> call_right left_ident id i (function id -> Ast0.UniqueIdent(id)) | Ast0.AsIdent(id,asid) -> failwith "not possible" let left_fundecl name fninfo = let fncall_right processor data cont = match processor data with None -> None | Some(pragmas,data) -> Some (pragmas,cont data,name) in match fninfo with [] -> (match left_ident name with None -> None | Some(pragmas,name) -> Some(pragmas,fninfo,name)) | (Ast0.FStorage sto)::x -> fncall_right left_mcode sto (function sto -> (Ast0.FStorage sto)::x) | (Ast0.FType ty)::x -> fncall_right left_ty ty (function ty -> (Ast0.FType ty)::x) | (Ast0.FInline inl)::x -> fncall_right left_mcode inl (function inl -> (Ast0.FInline inl)::x) | (Ast0.FAttr atr)::x -> fncall_right left_mcode atr (function atr -> (Ast0.FAttr atr)::x) let rec left_decl decl = match Ast0.unwrap decl with Ast0.MetaDecl(name,pure) -> call_right right_mcode name decl (function name -> Ast0.MetaDecl(name,pure)) | Ast0.MetaField(name,pure) -> call_right right_mcode name decl (function name -> Ast0.MetaField(name,pure)) | Ast0.MetaFieldList(name,lenname,pure) -> call_right right_mcode name decl (function name -> Ast0.MetaFieldList(name,lenname,pure)) | Ast0.AsDecl(decl,asdecl) -> failwith "not possible" | Ast0.Init(Some stg,ty,id,eq,ini,sem) -> call_right left_mcode stg decl (function stg -> Ast0.Init(Some stg,ty,id,eq,ini,sem)) | Ast0.Init(None,ty,id,eq,ini,sem) -> call_right left_ty ty decl (function ty -> Ast0.Init(None,ty,id,eq,ini,sem)) | Ast0.UnInit(Some stg,ty,id,sem) -> call_right left_mcode stg decl (function stg -> Ast0.UnInit(Some stg,ty,id,sem)) | Ast0.UnInit(None,ty,id,sem) -> call_right left_ty ty decl (function ty -> Ast0.UnInit(None,ty,id,sem)) | Ast0.MacroDecl(name,lp,args,rp,sem) -> call_right left_ident name decl (function name -> Ast0.MacroDecl(name,lp,args,rp,sem)) | Ast0.MacroDeclInit(name,lp,args,rp,eq,ini,sem) -> call_right left_ident name decl (function name -> Ast0.MacroDeclInit(name,lp,args,rp,eq,ini,sem)) | Ast0.TyDecl(ty,sem) -> call_right left_ty ty decl (function ty -> Ast0.TyDecl(ty,sem)) | Ast0.Typedef(stg,ty,id,sem) -> call_right left_mcode stg decl (function stg -> Ast0.Typedef(stg,ty,id,sem)) | Ast0.DisjDecl(starter,decls,mids,ender) -> None | Ast0.Ddots(dots,whencode) -> None | Ast0.OptDecl(d) -> call_right left_decl d decl (function decl -> Ast0.OptDecl(decl)) | Ast0.UniqueDecl(d) -> call_right left_decl d decl (function decl -> Ast0.UniqueDecl(decl)) let process = let statement r k s = let s = k s in Ast0.rewrap s (match Ast0.unwrap s with Ast0.FunDecl(bef,fi,name,lp,params,rp,lbrace,body,rbrace) -> (match left_fundecl name fi with None -> Ast0.unwrap s | Some (pragmas,fi,name) -> Ast0.FunDecl (update_after pragmas bef, fi,name,lp,params,rp,lbrace,body,rbrace)) | Ast0.Decl(bef,decl) -> (match left_decl decl with None -> Ast0.unwrap s | Some (pragmas,decl) -> Ast0.Decl(update_after pragmas bef,decl)) | Ast0.IfThen(iff,lp,exp,rp,branch1,aft) -> (match right_statement branch1 with None -> Ast0.unwrap s | Some (pragmas,branch1) -> Ast0.IfThen (iff,lp,exp,rp,branch1,update_before pragmas aft)) | Ast0.IfThenElse(iff,lp,exp,rp,branch1,els,branch2,aft) -> (match right_statement branch2 with None -> Ast0.unwrap s | Some (pragmas,branch2) -> Ast0.IfThenElse (iff,lp,exp,rp,branch1,els,branch2, update_before pragmas aft)) | Ast0.While(whl,lp,exp,rp,body,aft) -> (match right_statement body with None -> Ast0.unwrap s | Some (pragmas,body) -> Ast0.While(whl,lp,exp,rp,body,update_before pragmas aft)) | Ast0.For(fr,lp,first,e2,sem2,e3,rp,body,aft) -> (match right_statement body with None -> Ast0.unwrap s | Some (pragmas,body) -> Ast0.For (fr,lp,first,e2,sem2,e3,rp,body, update_before pragmas aft)) | Ast0.Iterator(nm,lp,args,rp,body,aft) -> (match right_statement body with None -> Ast0.unwrap s | Some (pragmas,body) -> Ast0.Iterator(nm,lp,args,rp,body,update_before pragmas aft)) | _ -> Ast0.unwrap s) in let res = V0.rebuilder {V0.rebuilder_functions with VT0.rebuilder_stmtfn = statement} in List.map res.VT0.rebuilder_rec_top_level