2 * Copyright 2010, INRIA, University of Copenhagen
3 * Julia Lawall, Rene Rydhof Hansen, Gilles Muller, Nicolas Palix
4 * Copyright 2005-2009, Ecole des Mines de Nantes, University of Copenhagen
5 * Yoann Padioleau, Julia Lawall, Rene Rydhof Hansen, Henrik Stuart, Gilles Muller, Nicolas Palix
6 * This file is part of Coccinelle.
8 * Coccinelle is free software: you can redistribute it and/or modify
9 * it under the terms of the GNU General Public License as published by
10 * the Free Software Foundation, according to version 2 of the License.
12 * Coccinelle is distributed in the hope that it will be useful,
13 * but WITHOUT ANY WARRANTY; without even the implied warranty of
14 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15 * GNU General Public License for more details.
17 * You should have received a copy of the GNU General Public License
18 * along with Coccinelle. If not, see <http://www.gnu.org/licenses/>.
20 * The authors reserve the right to distribute this or future versions of
21 * Coccinelle under other licenses.
25 (* --------------------------------------------------------------------- *)
26 (* Generic traversal: rebuilder *)
28 module Ast
= Ast_cocci
29 module Ast0
= Ast0_cocci
30 module VT0
= Visitor_ast0_types
32 type mode
= COMBINER
| REBUILDER
| BOTH
34 let map_split f l
= List.split
(List.map f l
)
36 let rewrap x
(n
,e
) = (n
,Ast0.rewrap x e
)
38 let visitor mode bind option_default
39 meta_mcode string_mcode const_mcode assign_mcode fix_mcode unary_mcode
40 binary_mcode cv_mcode sign_mcode struct_mcode storage_mcode
42 dotsexprfn dotsinitfn dotsparamfn dotsstmtfn dotsdeclfn dotscasefn
43 identfn exprfn tyfn initfn paramfn declfn stmtfn casefn topfn
=
45 let rec loop = function
48 | x
::xs
-> bind x
(loop xs
) in
50 let map_split_bind f l
=
51 let (n
,e
) = List.split
(List.map f l
) in (multibind n
,e
) in
52 let get_option f
= function
53 Some x
-> let (n
,e
) = f x
in (n
,Some e
)
54 | None
-> (option_default
,None
) in
55 let do_disj starter lst mids ender processor rebuilder
=
56 let (starter_n
,starter
) = string_mcode starter
in
57 let (lst_n
,lst
) = map_split processor lst
in
58 let (mids_n
,mids
) = map_split string_mcode mids
in
59 let (ender_n
,ender
) = string_mcode ender
in
61 [starter_n
;List.hd lst_n
;
62 multibind (List.map2 bind mids_n
(List.tl lst_n
));ender_n
],
63 rebuilder starter lst mids ender
) in
64 let rec expression_dots d
=
67 (match Ast0.unwrap d
with
69 let (n
,l
) = map_split_bind expression l
in (n
,Ast0.DOTS
(l
))
71 let (n
,l
) = map_split_bind expression l
in (n
,Ast0.CIRCLES
(l
))
73 let (n
,l
) = map_split_bind expression l
in (n
,Ast0.STARS
(l
))) in
74 dotsexprfn all_functions
k d
75 and initialiser_list i
=
78 (match Ast0.unwrap i
with
80 let (n
,l
) = map_split_bind initialiser l
in (n
,Ast0.DOTS
(l
))
82 let (n
,l
) = map_split_bind initialiser l
in (n
,Ast0.CIRCLES
(l
))
84 let (n
,l
) = map_split_bind initialiser l
in (n
,Ast0.STARS
(l
))) in
85 dotsinitfn all_functions
k i
87 and parameter_list d
=
90 (match Ast0.unwrap d
with
92 let (n
,l
) = map_split_bind parameterTypeDef l
in
95 let (n
,l
) = map_split_bind parameterTypeDef l
in
98 let (n
,l
) = map_split_bind parameterTypeDef l
in
100 dotsparamfn all_functions
k d
102 and statement_dots d
=
105 (match Ast0.unwrap d
with
107 let (n
,l
) = map_split_bind statement l
in (n
,Ast0.DOTS
(l
))
109 let (n
,l
) = map_split_bind statement l
in (n
,Ast0.CIRCLES
(l
))
111 let (n
,l
) = map_split_bind statement l
in (n
,Ast0.STARS
(l
))) in
112 dotsstmtfn all_functions
k d
114 and declaration_dots d
=
117 (match Ast0.unwrap d
with
119 let (n
,l
) = map_split_bind declaration l
in (n
, Ast0.DOTS
(l
))
121 let (n
,l
) = map_split_bind declaration l
in (n
, Ast0.CIRCLES
(l
))
123 let (n
,l
) = map_split_bind declaration l
in (n
, Ast0.STARS
(l
))) in
124 dotsdeclfn all_functions
k d
126 and case_line_dots d
=
129 (match Ast0.unwrap d
with
131 let (n
,l
) = map_split_bind case_line l
in (n
, Ast0.DOTS
(l
))
133 let (n
,l
) = map_split_bind case_line l
in (n
, Ast0.CIRCLES
(l
))
135 let (n
,l
) = map_split_bind case_line l
in (n
, Ast0.STARS
(l
))) in
136 dotscasefn all_functions
k d
141 (match Ast0.unwrap i
with
143 let (n
,name
) = string_mcode name
in (n
,Ast0.Id
(name
))
144 | Ast0.MetaId
(name
,constraints
,seed
,pure
) ->
145 let (n
,name
) = meta_mcode name
in
146 (n
,Ast0.MetaId
(name
,constraints
,seed
,pure
))
147 | Ast0.MetaFunc
(name
,constraints
,pure
) ->
148 let (n
,name
) = meta_mcode name
in
149 (n
,Ast0.MetaFunc
(name
,constraints
,pure
))
150 | Ast0.MetaLocalFunc
(name
,constraints
,pure
) ->
151 let (n
,name
) = meta_mcode name
in
152 (n
,Ast0.MetaLocalFunc
(name
,constraints
,pure
))
153 | Ast0.DisjId
(starter
,id_list
,mids
,ender
) ->
154 do_disj starter id_list mids ender ident
155 (fun starter id_list mids ender
->
156 Ast0.DisjId
(starter
,id_list
,mids
,ender
))
157 | Ast0.OptIdent
(id
) ->
158 let (n
,id
) = ident id
in (n
,Ast0.OptIdent
(id
))
159 | Ast0.UniqueIdent
(id
) ->
160 let (n
,id
) = ident id
in (n
,Ast0.UniqueIdent
(id
))) in
161 identfn all_functions
k i
166 (match Ast0.unwrap e
with
168 let (n
,id
) = ident id
in (n
,Ast0.Ident
(id
))
169 | Ast0.Constant
(const
) ->
170 let (n
,const
) = const_mcode const
in (n
,Ast0.Constant
(const
))
171 | Ast0.FunCall
(fn
,lp
,args
,rp
) ->
172 let (fn_n
,fn
) = expression fn
in
173 let (lp_n
,lp
) = string_mcode lp
in
174 let (args_n
,args
) = expression_dots args
in
175 let (rp_n
,rp
) = string_mcode rp
in
176 (multibind [fn_n
;lp_n
;args_n
;rp_n
], Ast0.FunCall
(fn
,lp
,args
,rp
))
177 | Ast0.Assignment
(left
,op
,right
,simple
) ->
178 let (left_n
,left
) = expression left
in
179 let (op_n
,op
) = assign_mcode op
in
180 let (right_n
,right
) = expression right
in
181 (multibind [left_n
;op_n
;right_n
],
182 Ast0.Assignment
(left
,op
,right
,simple
))
183 | Ast0.CondExpr
(exp1
,why
,exp2
,colon
,exp3
) ->
184 let (exp1_n
,exp1
) = expression exp1
in
185 let (why_n
,why
) = string_mcode why
in
186 let (exp2_n
,exp2
) = get_option expression exp2
in
187 let (colon_n
,colon
) = string_mcode colon
in
188 let (exp3_n
,exp3
) = expression exp3
in
189 (multibind [exp1_n
;why_n
;exp2_n
;colon_n
;exp3_n
],
190 Ast0.CondExpr
(exp1
,why
,exp2
,colon
,exp3
))
191 | Ast0.Postfix
(exp
,op
) ->
192 let (exp_n
,exp
) = expression exp
in
193 let (op_n
,op
) = fix_mcode op
in
194 (bind exp_n op_n
, Ast0.Postfix
(exp
,op
))
195 | Ast0.Infix
(exp
,op
) ->
196 let (exp_n
,exp
) = expression exp
in
197 let (op_n
,op
) = fix_mcode op
in
198 (bind op_n exp_n
, Ast0.Infix
(exp
,op
))
199 | Ast0.Unary
(exp
,op
) ->
200 let (exp_n
,exp
) = expression exp
in
201 let (op_n
,op
) = unary_mcode op
in
202 (bind op_n exp_n
, Ast0.Unary
(exp
,op
))
203 | Ast0.Binary
(left
,op
,right
) ->
204 let (left_n
,left
) = expression left
in
205 let (op_n
,op
) = binary_mcode op
in
206 let (right_n
,right
) = expression right
in
207 (multibind [left_n
;op_n
;right_n
], Ast0.Binary
(left
,op
,right
))
208 | Ast0.Nested
(left
,op
,right
) ->
209 let (left_n
,left
) = expression left
in
210 let (op_n
,op
) = binary_mcode op
in
211 let (right_n
,right
) = expression right
in
212 (multibind [left_n
;op_n
;right_n
], Ast0.Nested
(left
,op
,right
))
213 | Ast0.Paren
(lp
,exp
,rp
) ->
214 let (lp_n
,lp
) = string_mcode lp
in
215 let (exp_n
,exp
) = expression exp
in
216 let (rp_n
,rp
) = string_mcode rp
in
217 (multibind [lp_n
;exp_n
;rp_n
], Ast0.Paren
(lp
,exp
,rp
))
218 | Ast0.ArrayAccess
(exp1
,lb
,exp2
,rb
) ->
219 let (exp1_n
,exp1
) = expression exp1
in
220 let (lb_n
,lb
) = string_mcode lb
in
221 let (exp2_n
,exp2
) = expression exp2
in
222 let (rb_n
,rb
) = string_mcode rb
in
223 (multibind [exp1_n
;lb_n
;exp2_n
;rb_n
],
224 Ast0.ArrayAccess
(exp1
,lb
,exp2
,rb
))
225 | Ast0.RecordAccess
(exp
,pt
,field
) ->
226 let (exp_n
,exp
) = expression exp
in
227 let (pt_n
,pt
) = string_mcode pt
in
228 let (field_n
,field
) = ident field
in
229 (multibind [exp_n
;pt_n
;field_n
], Ast0.RecordAccess
(exp
,pt
,field
))
230 | Ast0.RecordPtAccess
(exp
,ar
,field
) ->
231 let (exp_n
,exp
) = expression exp
in
232 let (ar_n
,ar
) = string_mcode ar
in
233 let (field_n
,field
) = ident field
in
234 (multibind [exp_n
;ar_n
;field_n
], Ast0.RecordPtAccess
(exp
,ar
,field
))
235 | Ast0.Cast
(lp
,ty
,rp
,exp
) ->
236 let (lp_n
,lp
) = string_mcode lp
in
237 let (ty_n
,ty
) = typeC ty
in
238 let (rp_n
,rp
) = string_mcode rp
in
239 let (exp_n
,exp
) = expression exp
in
240 (multibind [lp_n
;ty_n
;rp_n
;exp_n
], Ast0.Cast
(lp
,ty
,rp
,exp
))
241 | Ast0.SizeOfExpr
(szf
,exp
) ->
242 let (szf_n
,szf
) = string_mcode szf
in
243 let (exp_n
,exp
) = expression exp
in
244 (multibind [szf_n
;exp_n
],Ast0.SizeOfExpr
(szf
,exp
))
245 | Ast0.SizeOfType
(szf
,lp
,ty
,rp
) ->
246 let (szf_n
,szf
) = string_mcode szf
in
247 let (lp_n
,lp
) = string_mcode lp
in
248 let (ty_n
,ty
) = typeC ty
in
249 let (rp_n
,rp
) = string_mcode rp
in
250 (multibind [szf_n
;lp_n
;ty_n
;rp_n
], Ast0.SizeOfType
(szf
,lp
,ty
,rp
))
251 | Ast0.TypeExp
(ty
) ->
252 let (ty_n
,ty
) = typeC ty
in
253 (ty_n
,Ast0.TypeExp
(ty
))
254 | Ast0.MetaErr
(name
,constraints
,pure
) ->
255 let (name_n
,name
) = meta_mcode name
in
256 (name_n
,Ast0.MetaErr
(name
,constraints
,pure
))
257 | Ast0.MetaExpr
(name
,constraints
,ty
,form
,pure
) ->
258 let (name_n
,name
) = meta_mcode name
in
259 (name_n
,Ast0.MetaExpr
(name
,constraints
,ty
,form
,pure
))
260 | Ast0.MetaExprList
(name
,lenname
,pure
) ->
261 let (name_n
,name
) = meta_mcode name
in
262 (name_n
,Ast0.MetaExprList
(name
,lenname
,pure
))
264 let (cm_n
,cm
) = string_mcode cm
in (cm_n
,Ast0.EComma
(cm
))
265 | Ast0.DisjExpr
(starter
,expr_list
,mids
,ender
) ->
266 do_disj starter expr_list mids ender expression
267 (fun starter expr_list mids ender
->
268 Ast0.DisjExpr
(starter
,expr_list
,mids
,ender
))
269 | Ast0.NestExpr
(starter
,expr_dots
,ender
,whencode
,multi
) ->
270 let (starter_n
,starter
) = string_mcode starter
in
271 let (expr_dots_n
,expr_dots
) = expression_dots expr_dots
in
272 let (ender_n
,ender
) = string_mcode ender
in
273 let (whencode_n
,whencode
) = get_option expression whencode
in
274 (multibind [starter_n
;expr_dots_n
;ender_n
;whencode_n
],
275 Ast0.NestExpr
(starter
,expr_dots
,ender
,whencode
,multi
))
276 | Ast0.Edots
(dots
,whencode
) ->
277 let (dots_n
,dots
) = string_mcode dots
in
278 let (whencode_n
,whencode
) = get_option expression whencode
in
279 (bind dots_n whencode_n
,Ast0.Edots
(dots
,whencode
))
280 | Ast0.Ecircles
(dots
,whencode
) ->
281 let (dots_n
,dots
) = string_mcode dots
in
282 let (whencode_n
,whencode
) = get_option expression whencode
in
283 (bind dots_n whencode_n
,Ast0.Ecircles
(dots
,whencode
))
284 | Ast0.Estars
(dots
,whencode
) ->
285 let (dots_n
,dots
) = string_mcode dots
in
286 let (whencode_n
,whencode
) = get_option expression whencode
in
287 (bind dots_n whencode_n
,Ast0.Estars
(dots
,whencode
))
288 | Ast0.OptExp
(exp
) ->
289 let (exp_n
,exp
) = expression exp
in
290 (exp_n
,Ast0.OptExp
(exp
))
291 | Ast0.UniqueExp
(exp
) ->
292 let (exp_n
,exp
) = expression exp
in
293 (exp_n
,Ast0.UniqueExp
(exp
))) in
294 exprfn all_functions
k e
298 (match Ast0.unwrap t
with
299 Ast0.ConstVol
(cv
,ty
) ->
300 let (cv_n
,cv
) = cv_mcode cv
in
301 let (ty_n
,ty
) = typeC ty
in
302 (bind cv_n ty_n
, Ast0.ConstVol
(cv
,ty
))
303 | Ast0.BaseType
(ty
,strings
) ->
304 let (strings_n
,strings
) = map_split_bind string_mcode strings
in
305 (strings_n
, Ast0.BaseType
(ty
,strings
))
306 | Ast0.Signed
(sign
,ty
) ->
307 let (sign_n
,sign
) = sign_mcode sign
in
308 let (ty_n
,ty
) = get_option typeC ty
in
309 (bind sign_n ty_n
, Ast0.Signed
(sign
,ty
))
310 | Ast0.Pointer
(ty
,star
) ->
311 let (ty_n
,ty
) = typeC ty
in
312 let (star_n
,star
) = string_mcode star
in
313 (bind ty_n star_n
, Ast0.Pointer
(ty
,star
))
314 | Ast0.FunctionPointer
(ty
,lp1
,star
,rp1
,lp2
,params
,rp2
) ->
315 function_pointer
(ty
,lp1
,star
,rp1
,lp2
,params
,rp2
) []
316 | Ast0.FunctionType
(ty
,lp1
,params
,rp1
) ->
317 function_type
(ty
,lp1
,params
,rp1
) []
318 | Ast0.Array
(ty
,lb
,size
,rb
) -> array_type
(ty
,lb
,size
,rb
) []
319 | Ast0.EnumName
(kind
,name
) ->
320 let (kind_n
,kind
) = string_mcode kind
in
321 let (name_n
,name
) = get_option ident name
in
322 (bind kind_n name_n
, Ast0.EnumName
(kind
,name
))
323 | Ast0.EnumDef
(ty
,lb
,ids
,rb
) ->
324 let (ty_n
,ty
) = typeC ty
in
325 let (lb_n
,lb
) = string_mcode lb
in
326 let (ids_n
,ids
) = expression_dots ids
in
327 let (rb_n
,rb
) = string_mcode rb
in
328 (multibind [ty_n
;lb_n
;ids_n
;rb_n
], Ast0.EnumDef
(ty
,lb
,ids
,rb
))
329 | Ast0.StructUnionName
(kind
,name
) ->
330 let (kind_n
,kind
) = struct_mcode kind
in
331 let (name_n
,name
) = get_option ident name
in
332 (bind kind_n name_n
, Ast0.StructUnionName
(kind
,name
))
333 | Ast0.StructUnionDef
(ty
,lb
,decls
,rb
) ->
334 let (ty_n
,ty
) = typeC ty
in
335 let (lb_n
,lb
) = string_mcode lb
in
336 let (decls_n
,decls
) = declaration_dots decls
in
337 let (rb_n
,rb
) = string_mcode rb
in
338 (multibind [ty_n
;lb_n
;decls_n
;rb_n
],
339 Ast0.StructUnionDef
(ty
,lb
,decls
,rb
))
340 | Ast0.TypeName
(name
) ->
341 let (name_n
,name
) = string_mcode name
in
342 (name_n
,Ast0.TypeName
(name
))
343 | Ast0.MetaType
(name
,pure
) ->
344 let (name_n
,name
) = meta_mcode name
in
345 (name_n
,Ast0.MetaType
(name
,pure
))
346 | Ast0.DisjType
(starter
,types
,mids
,ender
) ->
347 do_disj starter types mids ender typeC
348 (fun starter types mids ender
->
349 Ast0.DisjType
(starter
,types
,mids
,ender
))
350 | Ast0.OptType
(ty
) ->
351 let (ty_n
,ty
) = typeC ty
in (ty_n
, Ast0.OptType
(ty
))
352 | Ast0.UniqueType
(ty
) ->
353 let (ty_n
,ty
) = typeC ty
in (ty_n
, Ast0.UniqueType
(ty
))) in
354 tyfn all_functions
k t
356 and function_pointer
(ty
,lp1
,star
,rp1
,lp2
,params
,rp2
) extra
=
357 let (ty_n
,ty
) = typeC ty
in
358 let (lp1_n
,lp1
) = string_mcode lp1
in
359 let (star_n
,star
) = string_mcode star
in
360 let (rp1_n
,rp1
) = string_mcode rp1
in
361 let (lp2_n
,lp2
) = string_mcode lp2
in
362 let (params_n
,params
) = parameter_list params
in
363 let (rp2_n
,rp2
) = string_mcode rp2
in
364 (* have to put the treatment of the identifier into the right position *)
365 (multibind ([ty_n
;lp1_n
;star_n
] @ extra
@ [rp1_n
;lp2_n
;params_n
;rp2_n
]),
366 Ast0.FunctionPointer
(ty
,lp1
,star
,rp1
,lp2
,params
,rp2
))
367 and function_type
(ty
,lp1
,params
,rp1
) extra
=
368 let (ty_n
,ty
) = get_option typeC ty
in
369 let (lp1_n
,lp1
) = string_mcode lp1
in
370 let (params_n
,params
) = parameter_list params
in
371 let (rp1_n
,rp1
) = string_mcode rp1
in
372 (* have to put the treatment of the identifier into the right position *)
373 (multibind (ty_n
:: extra
@ [lp1_n
;params_n
;rp1_n
]),
374 Ast0.FunctionType
(ty
,lp1
,params
,rp1
))
375 and array_type
(ty
,lb
,size
,rb
) extra
=
376 let (ty_n
,ty
) = typeC ty
in
377 let (lb_n
,lb
) = string_mcode lb
in
378 let (size_n
,size
) = get_option expression size
in
379 let (rb_n
,rb
) = string_mcode rb
in
380 (multibind (ty_n
:: extra
@ [lb_n
;size_n
;rb_n
]),
381 Ast0.Array
(ty
,lb
,size
,rb
))
383 and named_type ty id
=
384 let (id_n
,id
) = ident id
in
385 match Ast0.unwrap ty
with
386 Ast0.FunctionPointer
(rty
,lp1
,star
,rp1
,lp2
,params
,rp2
) ->
388 function_pointer
(rty
,lp1
,star
,rp1
,lp2
,params
,rp2
) [id_n
] in
389 (rewrap ty
tyres, id
)
390 | Ast0.FunctionType
(rty
,lp1
,params
,rp1
) ->
391 let tyres = function_type
(rty
,lp1
,params
,rp1
) [id_n
] in
392 (rewrap ty
tyres, id
)
393 | Ast0.Array
(rty
,lb
,size
,rb
) ->
394 let tyres = array_type
(rty
,lb
,size
,rb
) [id_n
] in
395 (rewrap ty
tyres, id
)
396 | _
-> let (ty_n
,ty
) = typeC ty
in ((bind ty_n id_n
, ty
), id
)
401 (match Ast0.unwrap d
with
402 Ast0.MetaDecl
(name
,pure
) ->
403 let (n
,name
) = meta_mcode name
in
404 (n
,Ast0.MetaDecl
(name
,pure
))
405 | Ast0.MetaField
(name
,pure
) ->
406 let (n
,name
) = meta_mcode name
in
407 (n
,Ast0.MetaField
(name
,pure
))
408 | Ast0.MetaFieldList
(name
,lenname
,pure
) ->
409 let (n
,name
) = meta_mcode name
in
410 (n
,Ast0.MetaFieldList
(name
,lenname
,pure
))
411 | Ast0.Init
(stg
,ty
,id
,eq
,ini
,sem
) ->
412 let (stg_n
,stg
) = get_option storage_mcode stg
in
413 let ((ty_id_n
,ty
),id
) = named_type ty id
in
414 let (eq_n
,eq
) = string_mcode eq
in
415 let (ini_n
,ini
) = initialiser ini
in
416 let (sem_n
,sem
) = string_mcode sem
in
417 (multibind [stg_n
;ty_id_n
;eq_n
;ini_n
;sem_n
],
418 Ast0.Init
(stg
,ty
,id
,eq
,ini
,sem
))
419 | Ast0.UnInit
(stg
,ty
,id
,sem
) ->
420 let (stg_n
,stg
) = get_option storage_mcode stg
in
421 let ((ty_id_n
,ty
),id
) = named_type ty id
in
422 let (sem_n
,sem
) = string_mcode sem
in
423 (multibind [stg_n
;ty_id_n
;sem_n
], Ast0.UnInit
(stg
,ty
,id
,sem
))
424 | Ast0.MacroDecl
(name
,lp
,args
,rp
,sem
) ->
425 let (name_n
,name
) = ident name
in
426 let (lp_n
,lp
) = string_mcode lp
in
427 let (args_n
,args
) = expression_dots args
in
428 let (rp_n
,rp
) = string_mcode rp
in
429 let (sem_n
,sem
) = string_mcode sem
in
430 (multibind [name_n
;lp_n
;args_n
;rp_n
;sem_n
],
431 Ast0.MacroDecl
(name
,lp
,args
,rp
,sem
))
432 | Ast0.TyDecl
(ty
,sem
) ->
433 let (ty_n
,ty
) = typeC ty
in
434 let (sem_n
,sem
) = string_mcode sem
in
435 (bind ty_n sem_n
, Ast0.TyDecl
(ty
,sem
))
436 | Ast0.Typedef
(stg
,ty
,id
,sem
) ->
437 let (stg_n
,stg
) = string_mcode stg
in
438 let (ty_n
,ty
) = typeC ty
in
439 let (id_n
,id
) = typeC id
in
440 let (sem_n
,sem
) = string_mcode sem
in
441 (multibind [stg_n
;ty_n
;id_n
;sem_n
], Ast0.Typedef
(stg
,ty
,id
,sem
))
442 | Ast0.DisjDecl
(starter
,decls
,mids
,ender
) ->
443 do_disj starter decls mids ender declaration
444 (fun starter decls mids ender
->
445 Ast0.DisjDecl
(starter
,decls
,mids
,ender
))
446 | Ast0.Ddots
(dots
,whencode
) ->
447 let (dots_n
,dots
) = string_mcode dots
in
448 let (whencode_n
,whencode
) = get_option declaration whencode
in
449 (bind dots_n whencode_n
, Ast0.Ddots
(dots
,whencode
))
450 | Ast0.OptDecl
(decl
) ->
451 let (n
,decl
) = declaration decl
in (n
,Ast0.OptDecl
(decl
))
452 | Ast0.UniqueDecl
(decl
) ->
453 let (n
,decl
) = declaration decl
in (n
,Ast0.UniqueDecl
(decl
))) in
454 declfn all_functions
k d
459 (match Ast0.unwrap i
with
460 Ast0.MetaInit
(name
,pure
) ->
461 let (name_n
,name
) = meta_mcode name
in
462 (name_n
,Ast0.MetaInit
(name
,pure
))
463 | Ast0.MetaInitList
(name
,lenname
,pure
) ->
464 let (name_n
,name
) = meta_mcode name
in
465 (name_n
,Ast0.MetaInitList
(name
,lenname
,pure
))
466 | Ast0.InitExpr
(exp
) ->
467 let (exp_n
,exp
) = expression exp
in
468 (exp_n
,Ast0.InitExpr
(exp
))
469 | Ast0.InitList
(lb
,initlist
,rb
,ordered
) ->
470 let (lb_n
,lb
) = string_mcode lb
in
471 let (initlist_n
,initlist
) = initialiser_list initlist
in
472 let (rb_n
,rb
) = string_mcode rb
in
473 (multibind [lb_n
;initlist_n
;rb_n
],
474 Ast0.InitList
(lb
,initlist
,rb
,ordered
))
475 | Ast0.InitGccExt
(designators
,eq
,ini
) ->
476 let (dn
,designators
) = map_split_bind designator designators
in
477 let (eq_n
,eq
) = string_mcode eq
in
478 let (ini_n
,ini
) = initialiser ini
in
479 (multibind [dn
;eq_n
;ini_n
], Ast0.InitGccExt
(designators
,eq
,ini
))
480 | Ast0.InitGccName
(name
,eq
,ini
) ->
481 let (name_n
,name
) = ident name
in
482 let (eq_n
,eq
) = string_mcode eq
in
483 let (ini_n
,ini
) = initialiser ini
in
484 (multibind [name_n
;eq_n
;ini_n
], Ast0.InitGccName
(name
,eq
,ini
))
486 let (n
,cm
) = string_mcode cm
in (n
,Ast0.IComma
(cm
))
487 | Ast0.Idots
(d
,whencode
) ->
488 let (d_n
,d
) = string_mcode d
in
489 let (whencode_n
,whencode
) = get_option initialiser whencode
in
490 (bind d_n whencode_n
, Ast0.Idots
(d
,whencode
))
492 let (n
,i
) = initialiser i
in (n
,Ast0.OptIni
(i
))
493 | Ast0.UniqueIni
(i
) ->
494 let (n
,i
) = initialiser i
in (n
,Ast0.UniqueIni
(i
))) in
495 initfn all_functions
k i
497 and designator
= function
498 Ast0.DesignatorField
(dot
,id
) ->
499 let (dot_n
,dot
) = string_mcode dot
in
500 let (id_n
,id
) = ident id
in
501 (bind dot_n id_n
, Ast0.DesignatorField
(dot
,id
))
502 | Ast0.DesignatorIndex
(lb
,exp
,rb
) ->
503 let (lb_n
,lb
) = string_mcode lb
in
504 let (exp_n
,exp
) = expression exp
in
505 let (rb_n
,rb
) = string_mcode rb
in
506 (multibind [lb_n
;exp_n
;rb_n
], Ast0.DesignatorIndex
(lb
,exp
,rb
))
507 | Ast0.DesignatorRange
(lb
,min
,dots
,max
,rb
) ->
508 let (lb_n
,lb
) = string_mcode lb
in
509 let (min_n
,min
) = expression min
in
510 let (dots_n
,dots
) = string_mcode dots
in
511 let (max_n
,max
) = expression max
in
512 let (rb_n
,rb
) = string_mcode rb
in
513 (multibind [lb_n
;min_n
;dots_n
;max_n
;rb_n
],
514 Ast0.DesignatorRange
(lb
,min
,dots
,max
,rb
))
516 and parameterTypeDef p
=
519 (match Ast0.unwrap p
with
520 Ast0.VoidParam
(ty
) ->
521 let (n
,ty
) = typeC ty
in (n
,Ast0.VoidParam
(ty
))
522 | Ast0.Param
(ty
,Some id
) ->
523 let ((ty_id_n
,ty
),id
) = named_type ty id
in
524 (ty_id_n
, Ast0.Param
(ty
,Some id
))
525 | Ast0.Param
(ty
,None
) ->
526 let (ty_n
,ty
) = typeC ty
in
527 (ty_n
, Ast0.Param
(ty
,None
))
528 | Ast0.MetaParam
(name
,pure
) ->
529 let (n
,name
) = meta_mcode name
in
530 (n
,Ast0.MetaParam
(name
,pure
))
531 | Ast0.MetaParamList
(name
,lenname
,pure
) ->
532 let (n
,name
) = meta_mcode name
in
533 (n
,Ast0.MetaParamList
(name
,lenname
,pure
))
535 let (n
,cm
) = string_mcode cm
in (n
,Ast0.PComma
(cm
))
536 | Ast0.Pdots
(dots
) ->
537 let (n
,dots
) = string_mcode dots
in (n
,Ast0.Pdots
(dots
))
538 | Ast0.Pcircles
(dots
) ->
539 let (n
,dots
) = string_mcode dots
in (n
,Ast0.Pcircles
(dots
))
540 | Ast0.OptParam
(param
) ->
541 let (n
,param
) = parameterTypeDef param
in (n
,Ast0.OptParam
(param
))
542 | Ast0.UniqueParam
(param
) ->
543 let (n
,param
) = parameterTypeDef param
in
544 (n
,Ast0.UniqueParam
(param
))) in
545 paramfn all_functions
k p
547 (* not done for combiner, because the statement is assumed to be already
548 represented elsewhere in the code *)
549 (* NOTE: This is not called for combiner_rebuilder. This is ok for its
551 and process_bef_aft s
=
552 Ast0.set_dots_bef_aft s
553 (match Ast0.get_dots_bef_aft s
with
554 Ast0.NoDots
-> Ast0.NoDots
555 | Ast0.DroppingBetweenDots
(stm
) ->
556 let (_
,stm
) = statement stm
in Ast0.DroppingBetweenDots
(stm
)
557 | Ast0.AddingBetweenDots
(stm
) ->
558 let (_
,stm
) = statement stm
in Ast0.AddingBetweenDots
(stm
))
561 (if mode
= COMBINER
then let _ = process_bef_aft s
in ());
564 (match Ast0.unwrap s
with
565 Ast0.FunDecl
(bef
,fi
,name
,lp
,params
,rp
,lbrace
,body
,rbrace
) ->
566 let (fi_n
,fi
) = map_split_bind fninfo fi
in
567 let (name_n
,name
) = ident name
in
568 let (lp_n
,lp
) = string_mcode lp
in
569 let (params_n
,params
) = parameter_list params
in
570 let (rp_n
,rp
) = string_mcode rp
in
571 let (lbrace_n
,lbrace
) = string_mcode lbrace
in
572 let (body_n
,body
) = statement_dots body
in
573 let (rbrace_n
,rbrace
) = string_mcode rbrace
in
575 [fi_n
;name_n
;lp_n
;params_n
;rp_n
;lbrace_n
;body_n
;rbrace_n
],
576 Ast0.FunDecl
(bef
,fi
,name
,lp
,params
,rp
,lbrace
,body
,rbrace
))
577 | Ast0.Decl
(bef
,decl
) ->
578 let (decl_n
,decl
) = declaration decl
in
579 (decl_n
,Ast0.Decl
(bef
,decl
))
580 | Ast0.Seq
(lbrace
,body
,rbrace
) ->
581 let (lbrace_n
,lbrace
) = string_mcode lbrace
in
582 let (body_n
,body
) = statement_dots body
in
583 let (rbrace_n
,rbrace
) = string_mcode rbrace
in
584 (multibind [lbrace_n
;body_n
;rbrace_n
],
585 Ast0.Seq
(lbrace
,body
,rbrace
))
586 | Ast0.ExprStatement
(exp
,sem
) ->
587 let (exp_n
,exp
) = get_option expression exp
in
588 let (sem_n
,sem
) = string_mcode sem
in
589 (bind exp_n sem_n
, Ast0.ExprStatement
(exp
,sem
))
590 | Ast0.IfThen
(iff
,lp
,exp
,rp
,branch1
,aft
) ->
591 let (iff_n
,iff
) = string_mcode iff
in
592 let (lp_n
,lp
) = string_mcode lp
in
593 let (exp_n
,exp
) = expression exp
in
594 let (rp_n
,rp
) = string_mcode rp
in
595 let (branch1_n
,branch1
) = statement branch1
in
596 (multibind [iff_n
;lp_n
;exp_n
;rp_n
;branch1_n
],
597 Ast0.IfThen
(iff
,lp
,exp
,rp
,branch1
,aft
))
598 | Ast0.IfThenElse
(iff
,lp
,exp
,rp
,branch1
,els
,branch2
,aft
) ->
599 let (iff_n
,iff
) = string_mcode iff
in
600 let (lp_n
,lp
) = string_mcode lp
in
601 let (exp_n
,exp
) = expression exp
in
602 let (rp_n
,rp
) = string_mcode rp
in
603 let (branch1_n
,branch1
) = statement branch1
in
604 let (els_n
,els
) = string_mcode els
in
605 let (branch2_n
,branch2
) = statement branch2
in
606 (multibind [iff_n
;lp_n
;exp_n
;rp_n
;branch1_n
;els_n
;branch2_n
],
607 Ast0.IfThenElse
(iff
,lp
,exp
,rp
,branch1
,els
,branch2
,aft
))
608 | Ast0.While
(whl
,lp
,exp
,rp
,body
,aft
) ->
609 let (whl_n
,whl
) = string_mcode whl
in
610 let (lp_n
,lp
) = string_mcode lp
in
611 let (exp_n
,exp
) = expression exp
in
612 let (rp_n
,rp
) = string_mcode rp
in
613 let (body_n
,body
) = statement body
in
614 (multibind [whl_n
;lp_n
;exp_n
;rp_n
;body_n
],
615 Ast0.While
(whl
,lp
,exp
,rp
,body
,aft
))
616 | Ast0.Do
(d
,body
,whl
,lp
,exp
,rp
,sem
) ->
617 let (d_n
,d
) = string_mcode d
in
618 let (body_n
,body
) = statement body
in
619 let (whl_n
,whl
) = string_mcode whl
in
620 let (lp_n
,lp
) = string_mcode lp
in
621 let (exp_n
,exp
) = expression exp
in
622 let (rp_n
,rp
) = string_mcode rp
in
623 let (sem_n
,sem
) = string_mcode sem
in
624 (multibind [d_n
;body_n
;whl_n
;lp_n
;exp_n
;rp_n
;sem_n
],
625 Ast0.Do
(d
,body
,whl
,lp
,exp
,rp
,sem
))
626 | Ast0.For
(fr
,lp
,e1
,sem1
,e2
,sem2
,e3
,rp
,body
,aft
) ->
627 let (fr_n
,fr
) = string_mcode fr
in
628 let (lp_n
,lp
) = string_mcode lp
in
629 let (e1_n
,e1
) = get_option expression e1
in
630 let (sem1_n
,sem1
) = string_mcode sem1
in
631 let (e2_n
,e2
) = get_option expression e2
in
632 let (sem2_n
,sem2
) = string_mcode sem2
in
633 let (e3_n
,e3
) = get_option expression e3
in
634 let (rp_n
,rp
) = string_mcode rp
in
635 let (body_n
,body
) = statement body
in
636 (multibind [fr_n
;lp_n
;e1_n
;sem1_n
;e2_n
;sem2_n
;e3_n
;rp_n
;body_n
],
637 Ast0.For
(fr
,lp
,e1
,sem1
,e2
,sem2
,e3
,rp
,body
,aft
))
638 | Ast0.Iterator
(nm
,lp
,args
,rp
,body
,aft
) ->
639 let (nm_n
,nm
) = ident nm
in
640 let (lp_n
,lp
) = string_mcode lp
in
641 let (args_n
,args
) = expression_dots args
in
642 let (rp_n
,rp
) = string_mcode rp
in
643 let (body_n
,body
) = statement body
in
644 (multibind [nm_n
;lp_n
;args_n
;rp_n
;body_n
],
645 Ast0.Iterator
(nm
,lp
,args
,rp
,body
,aft
))
646 | Ast0.Switch
(switch
,lp
,exp
,rp
,lb
,decls
,cases
,rb
) ->
647 let (switch_n
,switch
) = string_mcode switch
in
648 let (lp_n
,lp
) = string_mcode lp
in
649 let (exp_n
,exp
) = expression exp
in
650 let (rp_n
,rp
) = string_mcode rp
in
651 let (lb_n
,lb
) = string_mcode lb
in
652 let (decls_n
,decls
) = statement_dots decls
in
653 let (cases_n
,cases
) = case_line_dots cases
in
654 let (rb_n
,rb
) = string_mcode rb
in
655 (multibind [switch_n
;lp_n
;exp_n
;rp_n
;lb_n
;decls_n
;cases_n
;rb_n
],
656 Ast0.Switch
(switch
,lp
,exp
,rp
,lb
,decls
,cases
,rb
))
657 | Ast0.Break
(br
,sem
) ->
658 let (br_n
,br
) = string_mcode br
in
659 let (sem_n
,sem
) = string_mcode sem
in
660 (bind br_n sem_n
, Ast0.Break
(br
,sem
))
661 | Ast0.Continue
(cont
,sem
) ->
662 let (cont_n
,cont
) = string_mcode cont
in
663 let (sem_n
,sem
) = string_mcode sem
in
664 (bind cont_n sem_n
, Ast0.Continue
(cont
,sem
))
665 | Ast0.Label
(l
,dd
) ->
666 let (l_n
,l
) = ident l
in
667 let (dd_n
,dd
) = string_mcode dd
in
668 (bind l_n dd_n
, Ast0.Label
(l
,dd
))
669 | Ast0.Goto
(goto
,l
,sem
) ->
670 let (goto_n
,goto
) = string_mcode goto
in
671 let (l_n
,l
) = ident l
in
672 let (sem_n
,sem
) = string_mcode sem
in
673 (bind goto_n
(bind l_n sem_n
), Ast0.Goto
(goto
,l
,sem
))
674 | Ast0.Return
(ret
,sem
) ->
675 let (ret_n
,ret
) = string_mcode ret
in
676 let (sem_n
,sem
) = string_mcode sem
in
677 (bind ret_n sem_n
, Ast0.Return
(ret
,sem
))
678 | Ast0.ReturnExpr
(ret
,exp
,sem
) ->
679 let (ret_n
,ret
) = string_mcode ret
in
680 let (exp_n
,exp
) = expression exp
in
681 let (sem_n
,sem
) = string_mcode sem
in
682 (multibind [ret_n
;exp_n
;sem_n
], Ast0.ReturnExpr
(ret
,exp
,sem
))
683 | Ast0.MetaStmt
(name
,pure
) ->
684 let (name_n
,name
) = meta_mcode name
in
685 (name_n
,Ast0.MetaStmt
(name
,pure
))
686 | Ast0.MetaStmtList
(name
,pure
) ->
687 let (name_n
,name
) = meta_mcode name
in
688 (name_n
,Ast0.MetaStmtList
(name
,pure
))
689 | Ast0.Disj
(starter
,statement_dots_list
,mids
,ender
) ->
690 do_disj starter statement_dots_list mids ender statement_dots
691 (fun starter statement_dots_list mids ender
->
692 Ast0.Disj
(starter
,statement_dots_list
,mids
,ender
))
693 | Ast0.Nest
(starter
,stmt_dots
,ender
,whn
,multi
) ->
694 let (starter_n
,starter
) = string_mcode starter
in
695 let (stmt_dots_n
,stmt_dots
) = statement_dots stmt_dots
in
696 let (ender_n
,ender
) = string_mcode ender
in
698 map_split_bind (whencode statement_dots statement
) whn
in
699 (multibind [starter_n
;stmt_dots_n
;ender_n
;whn_n
],
700 Ast0.Nest
(starter
,stmt_dots
,ender
,whn
,multi
))
702 let (exp_n
,exp
) = expression exp
in
703 (exp_n
,Ast0.Exp
(exp
))
704 | Ast0.TopExp
(exp
) ->
705 let (exp_n
,exp
) = expression exp
in
706 (exp_n
,Ast0.TopExp
(exp
))
708 let (ty_n
,ty
) = typeC ty
in
710 | Ast0.TopInit
(init
) ->
711 let (init_n
,init
) = initialiser init
in
712 (init_n
,Ast0.TopInit
(init
))
713 | Ast0.Dots
(d
,whn
) ->
714 let (d_n
,d
) = string_mcode d
in
716 map_split_bind (whencode statement_dots statement
) whn
in
717 (bind d_n whn_n
, Ast0.Dots
(d
,whn
))
718 | Ast0.Circles
(d
,whn
) ->
719 let (d_n
,d
) = string_mcode d
in
721 map_split_bind (whencode statement_dots statement
) whn
in
722 (bind d_n whn_n
, Ast0.Circles
(d
,whn
))
723 | Ast0.Stars
(d
,whn
) ->
724 let (d_n
,d
) = string_mcode d
in
726 map_split_bind (whencode statement_dots statement
) whn
in
727 (bind d_n whn_n
, Ast0.Stars
(d
,whn
))
728 | Ast0.Include
(inc
,name
) ->
729 let (inc_n
,inc
) = string_mcode inc
in
730 let (name_n
,name
) = inc_mcode name
in
731 (bind inc_n name_n
, Ast0.Include
(inc
,name
))
732 | Ast0.Undef
(def
,id
) ->
733 let (def_n
,def
) = string_mcode def
in
734 let (id_n
,id
) = ident id
in
735 (multibind [def_n
;id_n
],Ast0.Undef
(def
,id
))
736 | Ast0.Define
(def
,id
,params
,body
) ->
737 let (def_n
,def
) = string_mcode def
in
738 let (id_n
,id
) = ident id
in
739 let (params_n
,params
) = define_parameters params
in
740 let (body_n
,body
) = statement_dots body
in
741 (multibind [def_n
;id_n
;params_n
;body_n
],
742 Ast0.Define
(def
,id
,params
,body
))
744 let (re_n
,re
) = statement re
in (re_n
,Ast0.OptStm
(re
))
745 | Ast0.UniqueStm
(re
) ->
746 let (re_n
,re
) = statement re
in (re_n
,Ast0.UniqueStm
(re
))) in
747 let (n
,s
) = stmtfn all_functions
k s
in
748 (n
,if mode
= REBUILDER
then process_bef_aft s
else s
)
750 (* not parameterizable for now... *)
751 and define_parameters p
=
754 (match Ast0.unwrap p
with
755 Ast0.NoParams
-> (option_default
,Ast0.NoParams
)
756 | Ast0.DParams
(lp
,params
,rp
) ->
757 let (lp_n
,lp
) = string_mcode lp
in
758 let (params_n
,params
) = define_param_dots params
in
759 let (rp_n
,rp
) = string_mcode rp
in
760 (multibind [lp_n
;params_n
;rp_n
], Ast0.DParams
(lp
,params
,rp
))) in
763 and define_param_dots d
=
766 (match Ast0.unwrap d
with
768 let (n
,l
) = map_split_bind define_param l
in (n
,Ast0.DOTS
(l
))
770 let (n
,l
) = map_split_bind define_param l
in (n
,Ast0.CIRCLES
(l
))
772 let (n
,l
) = map_split_bind define_param l
in (n
,Ast0.STARS
(l
))) in
778 (match Ast0.unwrap p
with
779 Ast0.DParam
(id
) -> let (n
,id
) = ident id
in (n
,Ast0.DParam
(id
))
780 | Ast0.DPComma
(comma
) ->
781 let (n
,comma
) = string_mcode comma
in (n
,Ast0.DPComma
(comma
))
783 let (n
,d
) = string_mcode d
in (n
,Ast0.DPdots
(d
))
784 | Ast0.DPcircles
(c
) ->
785 let (n
,c
) = string_mcode c
in (n
,Ast0.DPcircles
(c
))
786 | Ast0.OptDParam
(dp
) ->
787 let (n
,dp
) = define_param dp
in (n
,Ast0.OptDParam
(dp
))
788 | Ast0.UniqueDParam
(dp
) ->
789 let (n
,dp
) = define_param dp
in (n
,Ast0.UniqueDParam
(dp
))) in
792 and fninfo
= function
793 Ast0.FStorage
(stg
) ->
794 let (n
,stg
) = storage_mcode stg
in (n
,Ast0.FStorage
(stg
))
795 | Ast0.FType
(ty
) -> let (n
,ty
) = typeC ty
in (n
,Ast0.FType
(ty
))
796 | Ast0.FInline
(inline
) ->
797 let (n
,inline
) = string_mcode inline
in (n
,Ast0.FInline
(inline
))
798 | Ast0.FAttr
(init
) ->
799 let (n
,init
) = string_mcode init
in (n
,Ast0.FAttr
(init
))
801 and whencode notfn alwaysfn
= function
802 Ast0.WhenNot a
-> let (n
,a
) = notfn a
in (n
,Ast0.WhenNot
(a
))
803 | Ast0.WhenAlways a
-> let (n
,a
) = alwaysfn a
in (n
,Ast0.WhenAlways
(a
))
804 | Ast0.WhenModifier
(x
) -> (option_default
,Ast0.WhenModifier
(x
))
805 | Ast0.WhenNotTrue
(e
) ->
806 let (n
,e
) = expression e
in (n
,Ast0.WhenNotTrue
(e
))
807 | Ast0.WhenNotFalse
(e
) ->
808 let (n
,e
) = expression e
in (n
,Ast0.WhenNotFalse
(e
))
813 (match Ast0.unwrap c
with
814 Ast0.Default
(def
,colon
,code
) ->
815 let (def_n
,def
) = string_mcode def
in
816 let (colon_n
,colon
) = string_mcode colon
in
817 let (code_n
,code
) = statement_dots code
in
818 (multibind [def_n
;colon_n
;code_n
], Ast0.Default
(def
,colon
,code
))
819 | Ast0.Case
(case
,exp
,colon
,code
) ->
820 let (case_n
,case
) = string_mcode case
in
821 let (exp_n
,exp
) = expression exp
in
822 let (colon_n
,colon
) = string_mcode colon
in
823 let (code_n
,code
) = statement_dots code
in
824 (multibind [case_n
;exp_n
;colon_n
;code_n
],
825 Ast0.Case
(case
,exp
,colon
,code
))
826 | Ast0.DisjCase
(starter
,case_lines
,mids
,ender
) ->
827 do_disj starter case_lines mids ender case_line
828 (fun starter case_lines mids ender
->
829 Ast0.DisjCase
(starter
,case_lines
,mids
,ender
))
830 | Ast0.OptCase
(case
) ->
831 let (n
,case
) = case_line case
in (n
,Ast0.OptCase
(case
))) in
832 casefn all_functions
k c
837 (match Ast0.unwrap t
with
838 Ast0.FILEINFO
(old_file
,new_file
) ->
839 let (old_file_n
,old_file
) = string_mcode old_file
in
840 let (new_file_n
,new_file
) = string_mcode new_file
in
841 (bind old_file_n new_file_n
,Ast0.FILEINFO
(old_file
,new_file
))
842 | Ast0.DECL
(statement_dots
) ->
843 let (n
,statement_dots
) = statement statement_dots
in
844 (n
,Ast0.DECL
(statement_dots
))
845 | Ast0.CODE
(stmt_dots
) ->
846 let (stmt_dots_n
,stmt_dots
) = statement_dots stmt_dots
in
847 (stmt_dots_n
, Ast0.CODE
(stmt_dots
))
848 | Ast0.ERRORWORDS
(exps
) ->
849 let (n
,exps
) = map_split_bind expression exps
in
850 (n
, Ast0.ERRORWORDS
(exps
))
851 | Ast0.OTHER
(_) -> failwith
"unexpected code") in
852 topfn all_functions
k t
854 and anything a
= (* for compile_iso, not parameterisable *)
856 Ast0.DotsExprTag
(exprs
) ->
857 let (exprs_n
,exprs
) = expression_dots exprs
in
858 (exprs_n
,Ast0.DotsExprTag
(exprs
))
859 | Ast0.DotsInitTag
(inits
) ->
860 let (inits_n
,inits
) = initialiser_list inits
in
861 (inits_n
,Ast0.DotsInitTag
(inits
))
862 | Ast0.DotsParamTag
(params
) ->
863 let (params_n
,params
) = parameter_list params
in
864 (params_n
,Ast0.DotsParamTag
(params
))
865 | Ast0.DotsStmtTag
(stmts
) ->
866 let (stmts_n
,stmts
) = statement_dots stmts
in
867 (stmts_n
,Ast0.DotsStmtTag
(stmts
))
868 | Ast0.DotsDeclTag
(decls
) ->
869 let (decls_n
,decls
) = declaration_dots decls
in
870 (decls_n
,Ast0.DotsDeclTag
(decls
))
871 | Ast0.DotsCaseTag
(cases
) ->
872 let (cases_n
,cases
) = case_line_dots cases
in
873 (cases_n
,Ast0.DotsCaseTag
(cases
))
874 | Ast0.IdentTag
(id
) ->
875 let (id_n
,id
) = ident id
in
876 (id_n
,Ast0.IdentTag
(id
))
877 | Ast0.ExprTag
(exp
) ->
878 let (exp_n
,exp
) = expression exp
in
879 (exp_n
,Ast0.ExprTag
(exp
))
880 | Ast0.ArgExprTag
(exp
) ->
881 let (exp_n
,exp
) = expression exp
in
882 (exp_n
,Ast0.ArgExprTag
(exp
))
883 | Ast0.TestExprTag
(exp
) ->
884 let (exp_n
,exp
) = expression exp
in
885 (exp_n
,Ast0.TestExprTag
(exp
))
886 | Ast0.TypeCTag
(ty
) ->
887 let (ty_n
,ty
) = typeC ty
in
888 (ty_n
,Ast0.TypeCTag
(ty
))
889 | Ast0.ParamTag
(param
) ->
890 let (param_n
,param
) = parameterTypeDef param
in
891 (param_n
,Ast0.ParamTag
(param
))
892 | Ast0.InitTag
(init
) ->
893 let (init_n
,init
) = initialiser init
in
894 (init_n
,Ast0.InitTag
(init
))
895 | Ast0.DeclTag
(decl
) ->
896 let (decl_n
,decl
) = declaration decl
in
897 (decl_n
,Ast0.DeclTag
(decl
))
898 | Ast0.StmtTag
(stmt
) ->
899 let (stmt_n
,stmt
) = statement stmt
in
900 (stmt_n
,Ast0.StmtTag
(stmt
))
901 | Ast0.CaseLineTag
(c
) ->
902 let (c_n
,c
) = case_line c
in
903 (c_n
,Ast0.CaseLineTag
(c
))
904 | Ast0.TopTag
(top
) ->
905 let (top_n
,top
) = top_level top
in
906 (top_n
,Ast0.TopTag
(top
))
907 | Ast0.IsoWhenTag
(x
) -> (option_default
,Ast0.IsoWhenTag
(x
))
908 | Ast0.IsoWhenTTag
(e
) ->
909 let (e_n
,e
) = expression e
in
910 (e_n
,Ast0.IsoWhenTTag
(e
))
911 | Ast0.IsoWhenFTag
(e
) ->
912 let (e_n
,e
) = expression e
in
913 (e_n
,Ast0.IsoWhenFTag
(e
))
914 | Ast0.MetaPosTag
(var
) -> failwith
"not supported" in
917 (* not done for combiner, because the statement is assumed to be already
918 represented elsewhere in the code *)
922 VT0.expression
= expression
;
924 VT0.declaration
= declaration
;
925 VT0.initialiser
= initialiser
;
926 VT0.initialiser_list
= initialiser_list
;
927 VT0.parameter
= parameterTypeDef
;
928 VT0.parameter_list
= parameter_list
;
929 VT0.statement
= statement
;
930 VT0.case_line
= case_line
;
931 VT0.top_level
= top_level
;
932 VT0.expression_dots = expression_dots;
933 VT0.statement_dots
= statement_dots
;
934 VT0.declaration_dots
= declaration_dots
;
935 VT0.case_line_dots
= case_line_dots
;
936 VT0.anything
= anything
} in
939 let combiner_functions =
940 {VT0.combiner_meta_mcode
= (fun opt_default mc
-> opt_default
);
941 VT0.combiner_string_mcode
= (fun opt_default mc
-> opt_default
);
942 VT0.combiner_const_mcode
= (fun opt_default mc
-> opt_default
);
943 VT0.combiner_assign_mcode
= (fun opt_default mc
-> opt_default
);
944 VT0.combiner_fix_mcode
= (fun opt_default mc
-> opt_default
);
945 VT0.combiner_unary_mcode
= (fun opt_default mc
-> opt_default
);
946 VT0.combiner_binary_mcode
= (fun opt_default mc
-> opt_default
);
947 VT0.combiner_cv_mcode
= (fun opt_default mc
-> opt_default
);
948 VT0.combiner_sign_mcode
= (fun opt_default mc
-> opt_default
);
949 VT0.combiner_struct_mcode
= (fun opt_default mc
-> opt_default
);
950 VT0.combiner_storage_mcode
= (fun opt_default mc
-> opt_default
);
951 VT0.combiner_inc_mcode
= (fun opt_default mc
-> opt_default
);
952 VT0.combiner_dotsexprfn
= (fun r
k e
-> k e
);
953 VT0.combiner_dotsinitfn
= (fun r
k e
-> k e
);
954 VT0.combiner_dotsparamfn
= (fun r
k e
-> k e
);
955 VT0.combiner_dotsstmtfn
= (fun r
k e
-> k e
);
956 VT0.combiner_dotsdeclfn
= (fun r
k e
-> k e
);
957 VT0.combiner_dotscasefn
= (fun r
k e
-> k e
);
958 VT0.combiner_identfn
= (fun r
k e
-> k e
);
959 VT0.combiner_exprfn
= (fun r
k e
-> k e
);
960 VT0.combiner_tyfn
= (fun r
k e
-> k e
);
961 VT0.combiner_initfn
= (fun r
k e
-> k e
);
962 VT0.combiner_paramfn
= (fun r
k e
-> k e
);
963 VT0.combiner_declfn
= (fun r
k e
-> k e
);
964 VT0.combiner_stmtfn
= (fun r
k e
-> k e
);
965 VT0.combiner_casefn
= (fun r
k e
-> k e
);
966 VT0.combiner_topfn
= (fun r
k e
-> k e
)}
969 {VT0.combiner_rec_ident
=
970 (function e
-> let (n
,_) = r
.VT0.ident e
in n
);
971 VT0.combiner_rec_expression
=
972 (function e
-> let (n
,_) = r
.VT0.expression e
in n
);
973 VT0.combiner_rec_typeC
=
974 (function e
-> let (n
,_) = r
.VT0.typeC e
in n
);
975 VT0.combiner_rec_declaration
=
976 (function e
-> let (n
,_) = r
.VT0.declaration e
in n
);
977 VT0.combiner_rec_initialiser
=
978 (function e
-> let (n
,_) = r
.VT0.initialiser e
in n
);
979 VT0.combiner_rec_initialiser_list
=
980 (function e
-> let (n
,_) = r
.VT0.initialiser_list e
in n
);
981 VT0.combiner_rec_parameter
=
982 (function e
-> let (n
,_) = r
.VT0.parameter e
in n
);
983 VT0.combiner_rec_parameter_list
=
984 (function e
-> let (n
,_) = r
.VT0.parameter_list e
in n
);
985 VT0.combiner_rec_statement
=
986 (function e
-> let (n
,_) = r
.VT0.statement e
in n
);
987 VT0.combiner_rec_case_line
=
988 (function e
-> let (n
,_) = r
.VT0.case_line e
in n
);
989 VT0.combiner_rec_top_level
=
990 (function e
-> let (n
,_) = r
.VT0.top_level e
in n
);
991 VT0.combiner_rec_expression_dots
=
992 (function e
-> let (n
,_) = r
.VT0.expression_dots e
in n
);
993 VT0.combiner_rec_statement_dots
=
994 (function e
-> let (n
,_) = r
.VT0.statement_dots e
in n
);
995 VT0.combiner_rec_declaration_dots
=
996 (function e
-> let (n
,_) = r
.VT0.declaration_dots e
in n
);
997 VT0.combiner_rec_case_line_dots
=
998 (function e
-> let (n
,_) = r
.VT0.case_line_dots e
in n
);
999 VT0.combiner_rec_anything
=
1000 (function e
-> let (n
,_) = r
.VT0.anything e
in n
)}
1002 let combiner bind option_default functions
=
1003 let xk k e
= let (n
,_) = k e
in n
in
1004 let dz = combiner_dz in
1006 (visitor COMBINER bind option_default
1007 (function mc
-> (functions
.VT0.combiner_meta_mcode option_default mc
,mc
))
1008 (function mc
-> (functions
.VT0.combiner_string_mcode option_default mc
,mc
))
1009 (function mc
-> (functions
.VT0.combiner_const_mcode option_default mc
,mc
))
1010 (function mc
-> (functions
.VT0.combiner_assign_mcode option_default mc
,mc
))
1011 (function mc
-> (functions
.VT0.combiner_fix_mcode option_default mc
,mc
))
1012 (function mc
-> (functions
.VT0.combiner_unary_mcode option_default mc
,mc
))
1013 (function mc
-> (functions
.VT0.combiner_binary_mcode option_default mc
,mc
))
1014 (function mc
-> (functions
.VT0.combiner_cv_mcode option_default mc
,mc
))
1015 (function mc
-> (functions
.VT0.combiner_sign_mcode option_default mc
,mc
))
1016 (function mc
-> (functions
.VT0.combiner_struct_mcode option_default mc
,mc
))
1018 (functions
.VT0.combiner_storage_mcode option_default mc
,mc
))
1019 (function mc
-> (functions
.VT0.combiner_inc_mcode option_default mc
,mc
))
1020 (fun r
k e
-> (functions
.VT0.combiner_dotsexprfn
(dz r
) (xk k) e
, e
))
1021 (fun r
k e
-> (functions
.VT0.combiner_dotsinitfn
(dz r
) (xk k) e
, e
))
1022 (fun r
k e
-> (functions
.VT0.combiner_dotsparamfn
(dz r
) (xk k) e
, e
))
1023 (fun r
k e
-> (functions
.VT0.combiner_dotsstmtfn
(dz r
) (xk k) e
, e
))
1024 (fun r
k e
-> (functions
.VT0.combiner_dotsdeclfn
(dz r
) (xk k) e
, e
))
1025 (fun r
k e
-> (functions
.VT0.combiner_dotscasefn
(dz r
) (xk k) e
, e
))
1026 (fun r
k e
-> (functions
.VT0.combiner_identfn
(dz r
) (xk k) e
, e
))
1027 (fun r
k e
-> (functions
.VT0.combiner_exprfn
(dz r
) (xk k) e
, e
))
1028 (fun r
k e
-> (functions
.VT0.combiner_tyfn
(dz r
) (xk k) e
, e
))
1029 (fun r
k e
-> (functions
.VT0.combiner_initfn
(dz r
) (xk k) e
, e
))
1030 (fun r
k e
-> (functions
.VT0.combiner_paramfn
(dz r
) (xk k) e
, e
))
1031 (fun r
k e
-> (functions
.VT0.combiner_declfn
(dz r
) (xk k) e
, e
))
1032 (fun r
k e
-> (functions
.VT0.combiner_stmtfn
(dz r
) (xk k) e
, e
))
1033 (fun r
k e
-> (functions
.VT0.combiner_casefn
(dz r
) (xk k) e
, e
))
1034 (fun r
k e
-> (functions
.VT0.combiner_topfn
(dz r
) (xk k) e
, e
)))
1036 let flat_combiner bind option_default
1037 meta_mcode string_mcode const_mcode assign_mcode fix_mcode unary_mcode
1038 binary_mcode cv_mcode sign_mcode struct_mcode storage_mcode
1040 dotsexprfn dotsinitfn dotsparamfn dotsstmtfn dotsdeclfn dotscasefn
1041 identfn exprfn tyfn initfn paramfn declfn stmtfn casefn topfn
=
1042 let dz = combiner_dz in
1043 let xk k e
= let (n
,_) = k e
in n
in
1044 combiner_dz (visitor COMBINER bind option_default
1045 (function mc
-> (meta_mcode mc
,mc
))
1046 (function mc
-> (string_mcode mc
,mc
))
1047 (function mc
-> (const_mcode mc
,mc
))
1048 (function mc
-> (assign_mcode mc
,mc
))
1049 (function mc
-> (fix_mcode mc
,mc
))
1050 (function mc
-> (unary_mcode mc
,mc
))
1051 (function mc
-> (binary_mcode mc
,mc
))
1052 (function mc
-> (cv_mcode mc
,mc
))
1053 (function mc
-> (sign_mcode mc
,mc
))
1054 (function mc
-> (struct_mcode mc
,mc
))
1055 (function mc
-> (storage_mcode mc
,mc
))
1056 (function mc
-> (inc_mcode mc
,mc
))
1057 (fun r
k e
-> (dotsexprfn
(dz r
) (xk k) e
, e
))
1058 (fun r
k e
-> (dotsinitfn
(dz r
) (xk k) e
, e
))
1059 (fun r
k e
-> (dotsparamfn
(dz r
) (xk k) e
, e
))
1060 (fun r
k e
-> (dotsstmtfn
(dz r
) (xk k) e
, e
))
1061 (fun r
k e
-> (dotsdeclfn
(dz r
) (xk k) e
, e
))
1062 (fun r
k e
-> (dotscasefn
(dz r
) (xk k) e
, e
))
1063 (fun r
k e
-> (identfn
(dz r
) (xk k) e
, e
))
1064 (fun r
k e
-> (exprfn
(dz r
) (xk k) e
, e
))
1065 (fun r
k e
-> (tyfn
(dz r
) (xk k) e
, e
))
1066 (fun r
k e
-> (initfn
(dz r
) (xk k) e
, e
))
1067 (fun r
k e
-> (paramfn
(dz r
) (xk k) e
, e
))
1068 (fun r
k e
-> (declfn
(dz r
) (xk k) e
, e
))
1069 (fun r
k e
-> (stmtfn
(dz r
) (xk k) e
, e
))
1070 (fun r
k e
-> (casefn
(dz r
) (xk k) e
, e
))
1071 (fun r
k e
-> (topfn
(dz r
) (xk k) e
, e
)))
1073 let rebuilder_functions =
1074 {VT0.rebuilder_meta_mcode
= (fun mc
-> mc
);
1075 VT0.rebuilder_string_mcode
= (fun mc
-> mc
);
1076 VT0.rebuilder_const_mcode
= (fun mc
-> mc
);
1077 VT0.rebuilder_assign_mcode
= (fun mc
-> mc
);
1078 VT0.rebuilder_fix_mcode
= (fun mc
-> mc
);
1079 VT0.rebuilder_unary_mcode
= (fun mc
-> mc
);
1080 VT0.rebuilder_binary_mcode
= (fun mc
-> mc
);
1081 VT0.rebuilder_cv_mcode
= (fun mc
-> mc
);
1082 VT0.rebuilder_sign_mcode
= (fun mc
-> mc
);
1083 VT0.rebuilder_struct_mcode
= (fun mc
-> mc
);
1084 VT0.rebuilder_storage_mcode
= (fun mc
-> mc
);
1085 VT0.rebuilder_inc_mcode
= (fun mc
-> mc
);
1086 VT0.rebuilder_dotsexprfn
= (fun r
k e
-> k e
);
1087 VT0.rebuilder_dotsinitfn
= (fun r
k e
-> k e
);
1088 VT0.rebuilder_dotsparamfn
= (fun r
k e
-> k e
);
1089 VT0.rebuilder_dotsstmtfn
= (fun r
k e
-> k e
);
1090 VT0.rebuilder_dotsdeclfn
= (fun r
k e
-> k e
);
1091 VT0.rebuilder_dotscasefn
= (fun r
k e
-> k e
);
1092 VT0.rebuilder_identfn
= (fun r
k e
-> k e
);
1093 VT0.rebuilder_exprfn
= (fun r
k e
-> k e
);
1094 VT0.rebuilder_tyfn
= (fun r
k e
-> k e
);
1095 VT0.rebuilder_initfn
= (fun r
k e
-> k e
);
1096 VT0.rebuilder_paramfn
= (fun r
k e
-> k e
);
1097 VT0.rebuilder_declfn
= (fun r
k e
-> k e
);
1098 VT0.rebuilder_stmtfn
= (fun r
k e
-> k e
);
1099 VT0.rebuilder_casefn
= (fun r
k e
-> k e
);
1100 VT0.rebuilder_topfn
= (fun r
k e
-> k e
)}
1102 let rebuilder_dz r
=
1103 {VT0.rebuilder_rec_ident
=
1104 (function e
-> let (_,e
) = r
.VT0.ident e
in e
);
1105 VT0.rebuilder_rec_expression
=
1106 (function e
-> let (_,e
) = r
.VT0.expression e
in e
);
1107 VT0.rebuilder_rec_typeC
=
1108 (function e
-> let (_,e
) = r
.VT0.typeC e
in e
);
1109 VT0.rebuilder_rec_declaration
=
1110 (function e
-> let (_,e
) = r
.VT0.declaration e
in e
);
1111 VT0.rebuilder_rec_initialiser
=
1112 (function e
-> let (_,e
) = r
.VT0.initialiser e
in e
);
1113 VT0.rebuilder_rec_initialiser_list
=
1114 (function e
-> let (_,e
) = r
.VT0.initialiser_list e
in e
);
1115 VT0.rebuilder_rec_parameter
=
1116 (function e
-> let (_,e
) = r
.VT0.parameter e
in e
);
1117 VT0.rebuilder_rec_parameter_list
=
1118 (function e
-> let (_,e
) = r
.VT0.parameter_list e
in e
);
1119 VT0.rebuilder_rec_statement
=
1120 (function e
-> let (_,e
) = r
.VT0.statement e
in e
);
1121 VT0.rebuilder_rec_case_line
=
1122 (function e
-> let (_,e
) = r
.VT0.case_line e
in e
);
1123 VT0.rebuilder_rec_top_level
=
1124 (function e
-> let (_,e
) = r
.VT0.top_level e
in e
);
1125 VT0.rebuilder_rec_expression_dots
=
1126 (function e
-> let (_,e
) = r
.VT0.expression_dots e
in e
);
1127 VT0.rebuilder_rec_statement_dots
=
1128 (function e
-> let (_,e
) = r
.VT0.statement_dots e
in e
);
1129 VT0.rebuilder_rec_declaration_dots
=
1130 (function e
-> let (_,e
) = r
.VT0.declaration_dots e
in e
);
1131 VT0.rebuilder_rec_case_line_dots
=
1132 (function e
-> let (_,e
) = r
.VT0.case_line_dots e
in e
);
1133 VT0.rebuilder_rec_anything
=
1134 (function e
-> let (_,e
) = r
.VT0.anything e
in e
)}
1136 let rebuilder functions
=
1137 let dz = rebuilder_dz in
1138 let xk k e
= let (_,e
) = k e
in e
in
1140 (visitor REBUILDER
(fun x y
-> x
) ()
1141 (function mc
-> ((),functions
.VT0.rebuilder_meta_mcode mc
))
1142 (function mc
-> ((),functions
.VT0.rebuilder_string_mcode mc
))
1143 (function mc
-> ((),functions
.VT0.rebuilder_const_mcode mc
))
1144 (function mc
-> ((),functions
.VT0.rebuilder_assign_mcode mc
))
1145 (function mc
-> ((),functions
.VT0.rebuilder_fix_mcode mc
))
1146 (function mc
-> ((),functions
.VT0.rebuilder_unary_mcode mc
))
1147 (function mc
-> ((),functions
.VT0.rebuilder_binary_mcode mc
))
1148 (function mc
-> ((),functions
.VT0.rebuilder_cv_mcode mc
))
1149 (function mc
-> ((),functions
.VT0.rebuilder_sign_mcode mc
))
1150 (function mc
-> ((),functions
.VT0.rebuilder_struct_mcode mc
))
1151 (function mc
-> ((),functions
.VT0.rebuilder_storage_mcode mc
))
1152 (function mc
-> ((),functions
.VT0.rebuilder_inc_mcode mc
))
1153 (fun r
k e
-> ((),functions
.VT0.rebuilder_dotsexprfn
(dz r
) (xk k) e
))
1154 (fun r
k e
-> ((),functions
.VT0.rebuilder_dotsinitfn
(dz r
) (xk k) e
))
1155 (fun r
k e
-> ((),functions
.VT0.rebuilder_dotsparamfn
(dz r
) (xk k) e
))
1156 (fun r
k e
-> ((),functions
.VT0.rebuilder_dotsstmtfn
(dz r
) (xk k) e
))
1157 (fun r
k e
-> ((),functions
.VT0.rebuilder_dotsdeclfn
(dz r
) (xk k) e
))
1158 (fun r
k e
-> ((),functions
.VT0.rebuilder_dotscasefn
(dz r
) (xk k) e
))
1159 (fun r
k e
-> ((),functions
.VT0.rebuilder_identfn
(dz r
) (xk k) e
))
1160 (fun r
k e
-> ((),functions
.VT0.rebuilder_exprfn
(dz r
) (xk k) e
))
1161 (fun r
k e
-> ((),functions
.VT0.rebuilder_tyfn
(dz r
) (xk k) e
))
1162 (fun r
k e
-> ((),functions
.VT0.rebuilder_initfn
(dz r
) (xk k) e
))
1163 (fun r
k e
-> ((),functions
.VT0.rebuilder_paramfn
(dz r
) (xk k) e
))
1164 (fun r
k e
-> ((),functions
.VT0.rebuilder_declfn
(dz r
) (xk k) e
))
1165 (fun r
k e
-> ((),functions
.VT0.rebuilder_stmtfn
(dz r
) (xk k) e
))
1166 (fun r
k e
-> ((),functions
.VT0.rebuilder_casefn
(dz r
) (xk k) e
))
1167 (fun r
k e
-> ((),functions
.VT0.rebuilder_topfn
(dz r
) (xk k) e
)))
1170 meta_mcode string_mcode const_mcode assign_mcode fix_mcode unary_mcode
1171 binary_mcode cv_mcode sign_mcode struct_mcode storage_mcode
1173 dotsexprfn dotsinitfn dotsparamfn dotsstmtfn dotsdeclfn dotscasefn
1174 identfn exprfn tyfn initfn paramfn declfn stmtfn casefn topfn
=
1175 let dz = rebuilder_dz in
1176 let xk k e
= let (_,e
) = k e
in e
in
1178 (visitor REBUILDER
(fun x y
-> x
) ()
1179 (function mc
-> ((),meta_mcode mc
))
1180 (function mc
-> ((),string_mcode mc
))
1181 (function mc
-> ((),const_mcode mc
))
1182 (function mc
-> ((),assign_mcode mc
))
1183 (function mc
-> ((),fix_mcode mc
))
1184 (function mc
-> ((),unary_mcode mc
))
1185 (function mc
-> ((),binary_mcode mc
))
1186 (function mc
-> ((),cv_mcode mc
))
1187 (function mc
-> ((),sign_mcode mc
))
1188 (function mc
-> ((),struct_mcode mc
))
1189 (function mc
-> ((),storage_mcode mc
))
1190 (function mc
-> ((),inc_mcode mc
))
1191 (fun r
k e
-> ((),dotsexprfn
(dz r
) (xk k) e
))
1192 (fun r
k e
-> ((),dotsinitfn
(dz r
) (xk k) e
))
1193 (fun r
k e
-> ((),dotsparamfn
(dz r
) (xk k) e
))
1194 (fun r
k e
-> ((),dotsstmtfn
(dz r
) (xk k) e
))
1195 (fun r
k e
-> ((),dotsdeclfn
(dz r
) (xk k) e
))
1196 (fun r
k e
-> ((),dotscasefn
(dz r
) (xk k) e
))
1197 (fun r
k e
-> ((),identfn
(dz r
) (xk k) e
))
1198 (fun r
k e
-> ((),exprfn
(dz r
) (xk k) e
))
1199 (fun r
k e
-> ((),tyfn
(dz r
) (xk k) e
))
1200 (fun r
k e
-> ((),initfn
(dz r
) (xk k) e
))
1201 (fun r
k e
-> ((),paramfn
(dz r
) (xk k) e
))
1202 (fun r
k e
-> ((),declfn
(dz r
) (xk k) e
))
1203 (fun r
k e
-> ((),stmtfn
(dz r
) (xk k) e
))
1204 (fun r
k e
-> ((),casefn
(dz r
) (xk k) e
))
1205 (fun r
k e
-> ((),topfn
(dz r
) (xk k) e
)))
1207 let combiner_rebuilder_functions =
1208 {VT0.combiner_rebuilder_meta_mcode
=
1209 (fun opt_default mc
-> (opt_default
,mc
));
1210 VT0.combiner_rebuilder_string_mcode
=
1211 (fun opt_default mc
-> (opt_default
,mc
));
1212 VT0.combiner_rebuilder_const_mcode
=
1213 (fun opt_default mc
-> (opt_default
,mc
));
1214 VT0.combiner_rebuilder_assign_mcode
=
1215 (fun opt_default mc
-> (opt_default
,mc
));
1216 VT0.combiner_rebuilder_fix_mcode
=
1217 (fun opt_default mc
-> (opt_default
,mc
));
1218 VT0.combiner_rebuilder_unary_mcode
=
1219 (fun opt_default mc
-> (opt_default
,mc
));
1220 VT0.combiner_rebuilder_binary_mcode
=
1221 (fun opt_default mc
-> (opt_default
,mc
));
1222 VT0.combiner_rebuilder_cv_mcode
=
1223 (fun opt_default mc
-> (opt_default
,mc
));
1224 VT0.combiner_rebuilder_sign_mcode
=
1225 (fun opt_default mc
-> (opt_default
,mc
));
1226 VT0.combiner_rebuilder_struct_mcode
=
1227 (fun opt_default mc
-> (opt_default
,mc
));
1228 VT0.combiner_rebuilder_storage_mcode
=
1229 (fun opt_default mc
-> (opt_default
,mc
));
1230 VT0.combiner_rebuilder_inc_mcode
=
1231 (fun opt_default mc
-> (opt_default
,mc
));
1232 VT0.combiner_rebuilder_dotsexprfn
= (fun r
k e
-> k e
);
1233 VT0.combiner_rebuilder_dotsinitfn
= (fun r
k e
-> k e
);
1234 VT0.combiner_rebuilder_dotsparamfn
= (fun r
k e
-> k e
);
1235 VT0.combiner_rebuilder_dotsstmtfn
= (fun r
k e
-> k e
);
1236 VT0.combiner_rebuilder_dotsdeclfn
= (fun r
k e
-> k e
);
1237 VT0.combiner_rebuilder_dotscasefn
= (fun r
k e
-> k e
);
1238 VT0.combiner_rebuilder_identfn
= (fun r
k e
-> k e
);
1239 VT0.combiner_rebuilder_exprfn
= (fun r
k e
-> k e
);
1240 VT0.combiner_rebuilder_tyfn
= (fun r
k e
-> k e
);
1241 VT0.combiner_rebuilder_initfn
= (fun r
k e
-> k e
);
1242 VT0.combiner_rebuilder_paramfn
= (fun r
k e
-> k e
);
1243 VT0.combiner_rebuilder_declfn
= (fun r
k e
-> k e
);
1244 VT0.combiner_rebuilder_stmtfn
= (fun r
k e
-> k e
);
1245 VT0.combiner_rebuilder_casefn
= (fun r
k e
-> k e
);
1246 VT0.combiner_rebuilder_topfn
= (fun r
k e
-> k e
)}
1248 let combiner_rebuilder bind option_default functions
=
1249 visitor BOTH bind option_default
1250 (functions
.VT0.combiner_rebuilder_meta_mcode option_default
)
1251 (functions
.VT0.combiner_rebuilder_string_mcode option_default
)
1252 (functions
.VT0.combiner_rebuilder_const_mcode option_default
)
1253 (functions
.VT0.combiner_rebuilder_assign_mcode option_default
)
1254 (functions
.VT0.combiner_rebuilder_fix_mcode option_default
)
1255 (functions
.VT0.combiner_rebuilder_unary_mcode option_default
)
1256 (functions
.VT0.combiner_rebuilder_binary_mcode option_default
)
1257 (functions
.VT0.combiner_rebuilder_cv_mcode option_default
)
1258 (functions
.VT0.combiner_rebuilder_sign_mcode option_default
)
1259 (functions
.VT0.combiner_rebuilder_struct_mcode option_default
)
1260 (functions
.VT0.combiner_rebuilder_storage_mcode option_default
)
1261 (functions
.VT0.combiner_rebuilder_inc_mcode option_default
)
1262 functions
.VT0.combiner_rebuilder_dotsexprfn
1263 functions
.VT0.combiner_rebuilder_dotsinitfn
1264 functions
.VT0.combiner_rebuilder_dotsparamfn
1265 functions
.VT0.combiner_rebuilder_dotsstmtfn
1266 functions
.VT0.combiner_rebuilder_dotsdeclfn
1267 functions
.VT0.combiner_rebuilder_dotscasefn
1268 functions
.VT0.combiner_rebuilder_identfn
1269 functions
.VT0.combiner_rebuilder_exprfn
1270 functions
.VT0.combiner_rebuilder_tyfn
1271 functions
.VT0.combiner_rebuilder_initfn
1272 functions
.VT0.combiner_rebuilder_paramfn
1273 functions
.VT0.combiner_rebuilder_declfn
1274 functions
.VT0.combiner_rebuilder_stmtfn
1275 functions
.VT0.combiner_rebuilder_casefn
1276 functions
.VT0.combiner_rebuilder_topfn