(*
-* Copyright 2005-2009, Ecole des Mines de Nantes, University of Copenhagen
-* Yoann Padioleau, Julia Lawall, Rene Rydhof Hansen, Henrik Stuart, Gilles Muller
-* 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 <http://www.gnu.org/licenses/>.
-*
-* The authors reserve the right to distribute this or future versions of
-* Coccinelle under other licenses.
-*)
+ * Copyright 2010, 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 <http://www.gnu.org/licenses/>.
+ *
+ * The authors reserve the right to distribute this or future versions of
+ * Coccinelle under other licenses.
+ *)
+
+
+(*
+ * Copyright 2010, 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 <http://www.gnu.org/licenses/>.
+ *
+ * The authors reserve the right to distribute this or future versions of
+ * Coccinelle under other licenses.
+ *)
open Format
+module Ast = Ast_cocci
module Ast0 = Ast0_cocci
module U = Pretty_print_cocci
let quiet = ref true (* true = no decoration on - context, etc *)
+let full_ids = ref false (* true = print rule name as well *)
+
let start_block str =
force_newline(); print_string " "; open_box 0
(* --------------------------------------------------------------------- *)
(* Modified code *)
-let mcodekind brackets fn x info = function
+let mcodekind brackets fn x info mc =
+ let print = function Ast.Noindent s | Ast.Indent s -> print_string s in
+ List.iter (function (s,_) -> print s) info.Ast0.strings_before;
+ (match mc with
Ast0.MINUS(plus_stream) ->
let (lb,rb) =
if !quiet
(function x ->
print_string lb; fn x; print_string rb)
x plus_streams
- | Ast0.PLUS ->
- List.iter (function s -> print_string s; force_newline())
- info.Ast0.strings_before;
- fn x;
- List.iter (function s -> force_newline(); print_string s)
- info.Ast0.strings_after
+ | Ast0.PLUS _ -> print_int (info.Ast0.pos_info.Ast0.column); fn x
| Ast0.MIXED(plus_streams) ->
let (lb,rb) =
if !quiet
("§","½"^n) in
let (plus_streams,_,_) = !plus_streams in
U.print_around (function x -> print_string lb; fn x; print_string rb)
- x plus_streams
+ x plus_streams);
+ List.iter (function (s,_) -> print s) info.Ast0.strings_after
-let mcode fn (x,_,info,mc,pos) =
+let mcode fn (x,_,info,mc,pos,adj) =
let fn x = fn x; meta_pos !pos in
- mcodekind (Some info.Ast0.line_start)(*None*) fn x info mc
+ mcodekind (Some info.Ast0.pos_info.Ast0.line_start)(*None*) fn x info mc
let print_context x fn =
mcodekind (Some (Ast0.get_line x)) fn () (Ast0.get_info x)
(Ast0.get_mcodekind x)
-let print_meta (_,name) = print_string name
+let print_meta (ctx,name) =
+ (if !full_ids
+ then (print_string ctx; print_string ":"));
+ print_string name
(* --------------------------------------------------------------------- *)
(* --------------------------------------------------------------------- *)
| Ast0.Array(ty,lb,size,rb) ->
typeC ty; mcode print_string lb; print_option expression size;
mcode print_string rb
- | Ast0.EnumName(kind,name) -> mcode print_string kind; print_string " ";
- ident name
+ | Ast0.EnumName(kind,name) ->
+ mcode print_string kind;
+ print_option (function x -> ident x; print_string " ") name
+ | Ast0.EnumDef(ty,lb,ids,rb) ->
+ typeC ty; mcode print_string lb;
+ dots force_newline expression ids;
+ mcode print_string rb
| Ast0.StructUnionName(kind,name) ->
mcode U.structUnion kind;
print_option (function x -> ident x; print_string " ") name
print_context d
(function _ ->
match Ast0.unwrap d with
- Ast0.Init(stg,ty,id,eq,ini,sem) ->
+ Ast0.MetaDecl(name,_) | Ast0.MetaField(name,_) -> mcode print_meta name
+ | Ast0.Init(stg,ty,id,eq,ini,sem) ->
print_option (mcode U.storage) stg;
print_named_type ty id;
print_string " ";
print_context i
(function _ ->
match Ast0.unwrap i with
- Ast0.InitExpr(exp) -> expression exp
- | Ast0.InitList(lb,initlist,rb) ->
+ Ast0.MetaInit(name,_)-> mcode print_meta name; print_string " "
+ | Ast0.InitExpr(exp) -> expression exp
+ | Ast0.InitList(lb,initlist,rb,ordered) ->
+ (*doesn't show commas dropped in unordered case*)
mcode print_string lb; open_box 0;
let _ = dots (function _ -> ()) initialiser initlist in
close_box(); mcode print_string rb
- | Ast0.InitGccDotName(dot,name,eq,ini) ->
- mcode print_string dot; ident name; print_string " ";
+ | Ast0.InitGccExt(designators,eq,ini) ->
+ List.iter designator designators; print_string " ";
mcode print_string eq; print_string " "; initialiser ini
| Ast0.InitGccName(name,eq,ini) ->
ident name; mcode print_string eq; initialiser ini
- | Ast0.InitGccIndex(lb,exp,rb,eq,ini) ->
- mcode print_string lb; expression exp; mcode print_string rb;
- print_string " "; mcode print_string eq; print_string " ";
- initialiser ini
- | Ast0.InitGccRange(lb,exp1,dots,exp2,rb,eq,ini) ->
- mcode print_string lb; expression exp1; mcode print_string dots;
- expression exp2; mcode print_string rb;
- print_string " "; mcode print_string eq; print_string " ";
- initialiser ini
| Ast0.IComma(cm) -> mcode print_string cm; force_newline()
| Ast0.Idots(d,Some whencode) ->
mcode print_string d; print_string " WHEN != ";
| Ast0.OptIni(ini) -> print_string "?"; initialiser ini
| Ast0.UniqueIni(ini) -> print_string "!"; initialiser ini)
+and designator = function
+ Ast0.DesignatorField(dot,id) -> mcode print_string dot; ident id
+ | Ast0.DesignatorIndex(lb,exp,rb) ->
+ mcode print_string lb; expression exp; mcode print_string rb
+ | Ast0.DesignatorRange(lb,min,dots,max,rb) ->
+ mcode print_string lb; expression min; mcode print_string dots;
+ expression max; mcode print_string rb
+
and initialiser_list l = dots (function _ -> ()) initialiser l
(* --------------------------------------------------------------------- *)
mcode print_string iff; print_string " "; mcode print_string_box lp;
expression exp; close_box(); mcode print_string rp; print_string " ";
statement arity branch1;
- mcode (function _ -> ()) ((),(),info,aft,ref Ast0.NoMetaPos)
+ mcode (function _ -> ()) ((),(),info,aft,ref Ast0.NoMetaPos,-1)
| Ast0.IfThenElse(iff,lp,exp,rp,branch1,els,branch2,(info,aft)) ->
print_string arity;
mcode print_string iff; print_string " "; mcode print_string_box lp;
statement arity branch1;
print_string arity; mcode print_string els; print_string " ";
statement arity branch2;
- mcode (function _ -> ()) ((),(),info,aft,ref Ast0.NoMetaPos)
+ mcode (function _ -> ()) ((),(),info,aft,ref Ast0.NoMetaPos,-1)
| Ast0.While(whl,lp,exp,rp,body,(info,aft)) ->
print_string arity;
mcode print_string whl; print_string " "; mcode print_string_box lp;
expression exp; close_box(); mcode print_string rp; print_string " ";
statement arity body;
- mcode (function _ -> ()) ((),(),info,aft,ref Ast0.NoMetaPos)
+ mcode (function _ -> ()) ((),(),info,aft,ref Ast0.NoMetaPos,-1)
| Ast0.Do(d,body,whl,lp,exp,rp,sem) ->
print_string arity; mcode print_string d; print_string " ";
statement arity body;
print_option expression e2; mcode print_string sem2;
print_option expression e3; close_box();
mcode print_string rp; print_string " "; statement arity body;
- mcode (function _ -> ()) ((),(),info,aft,ref Ast0.NoMetaPos)
+ mcode (function _ -> ()) ((),(),info,aft,ref Ast0.NoMetaPos,-1)
| Ast0.Iterator(nm,lp,args,rp,body,(info,aft)) ->
print_string arity;
ident nm; print_string " "; mcode print_string_box lp;
let _ = dots (function _ -> ()) expression args in
close_box(); mcode print_string rp; print_string " ";
statement arity body;
- mcode (function _ -> ()) ((),(),info,aft,ref Ast0.NoMetaPos)
- | Ast0.Switch(switch,lp,exp,rp,lb,cases,rb) ->
+ mcode (function _ -> ()) ((),(),info,aft,ref Ast0.NoMetaPos,-1)
+ | Ast0.Switch(switch,lp,exp,rp,lb,decls,cases,rb) ->
print_string arity;
mcode print_string switch; print_string " ";
mcode print_string_box lp; expression exp; close_box();
mcode print_string rp; print_string " "; mcode print_string lb;
+ dots force_newline (statement arity) decls;
dots force_newline (case_line arity) cases;
mcode print_string rb
| Ast0.Break(br,sem) ->
| Ast0.PureContext -> print_string "pure_context")*)
| Ast0.MetaStmtList(name,_) ->
print_string arity; mcode print_meta name
- | Ast0.Disj(_,statement_dots_list,_,_) ->
+ | Ast0.Disj(starter,statement_dots_list,_,ender) ->
print_string arity;
- print_string "\n("; force_newline();
+ print_string "\n"; mcode print_string starter; force_newline();
print_between
(function _ -> print_string "\n|"; force_newline())
(dots force_newline (statement arity))
statement_dots_list;
- print_string "\n)"
+ print_string "\n"; mcode print_string ender
| Ast0.Nest(starter,stmt_dots,ender,whn,multi) ->
print_string arity;
mcode print_string starter;
mcode print_string case; print_string " "; expression exp;
mcode print_string colon; print_string " ";
dots force_newline (statement arity) code
+ | Ast0.DisjCase(starter,case_lines,mids,ender) ->
+ print_string "\n("; force_newline();
+ print_between
+ (function _ -> print_string "\n|"; force_newline())
+ (case_line arity) case_lines;
+ print_string "\n)"
| Ast0.OptCase(case) -> case_line "?" case)
and statement_dots l = dots (function _ -> ()) (statement "") l
| Ast0.DotsStmtTag(d) ->
print_string "StmDots:"; force_newline();
statement_dots d
- | Ast0.DotsDeclTag(d) ->
- declaration_dots d
- | Ast0.DotsCaseTag(d) ->
- case_dots d
- | Ast0.IdentTag(d) ->
- ident d
+ | Ast0.DotsDeclTag(d) -> declaration_dots d
+ | Ast0.DotsCaseTag(d) -> case_dots d
+ | Ast0.IdentTag(d) -> ident d
| Ast0.ExprTag(d) | Ast0.ArgExprTag(d) | Ast0.TestExprTag(d) ->
print_string "Exp:"; force_newline();
expression d
- | Ast0.TypeCTag(d) ->
- typeC d
- | Ast0.ParamTag(d) ->
- parameterTypeDef d
- | Ast0.InitTag(d) ->
- initialiser d
- | Ast0.DeclTag(d) ->
- declaration d
- | Ast0.StmtTag(d) ->
+ | Ast0.TypeCTag(d) -> typeC d
+ | Ast0.ParamTag(d) -> parameterTypeDef d
+ | Ast0.InitTag(d) -> initialiser d
+ | Ast0.DeclTag(d) -> declaration d
+ | Ast0.StmtTag(d) ->
print_string "Stm:"; force_newline();
statement "" d
- | Ast0.CaseLineTag(d) ->
- case_line "" d
- | Ast0.TopTag(d) ->
- top_level d
- | Ast0.IsoWhenTag(x) -> U.print_when_modif x
- | Ast0.IsoWhenTTag(e) -> expression e
- | Ast0.IsoWhenFTag(e) -> expression e
+ | Ast0.CaseLineTag(d) -> case_line "" d
+ | Ast0.TopTag(d) -> top_level d
+ | Ast0.IsoWhenTag(x) -> U.print_when_modif x
+ | Ast0.IsoWhenTTag(e) -> expression e
+ | Ast0.IsoWhenFTag(e) -> expression e
| Ast0.MetaPosTag(var) -> meta_pos var);
quiet := q;
print_newline()