not needed
[prop.git] / prop-src / persistgen.cc
blob682f349f4876df27f9bf7032dbc9cba843a91b92
1 ///////////////////////////////////////////////////////////////////////////////
2 // This file is generated automatically using Prop (version 2.3.6),
3 // last updated on Nov 2, 1999.
4 // The original source file is "persistgen.pcc".
5 ///////////////////////////////////////////////////////////////////////////////
7 #define PROP_QUARK_USED
8 #include <propdefs.h>
9 ///////////////////////////////////////////////////////////////////////////////
10 // Quark literals
11 ///////////////////////////////////////////////////////////////////////////////
12 static const Quark _p_e_r_s_i_s_t_g_e_nco_c_c_Q2("i__");
13 static const Quark _p_e_r_s_i_s_t_g_e_nco_c_c_Q1("this");
14 #line 1 "persistgen.pcc"
15 ///////////////////////////////////////////////////////////////////////////////
17 // This file handles persistent datatypes processing.
19 ///////////////////////////////////////////////////////////////////////////////
20 #include <AD/strings/quark.h>
21 #include "ir.h"
22 #include "ast.h"
23 #include "datagen.h"
24 #include "type.h"
25 #include "hashtab.h"
26 #include "options.h"
27 #include "datatype.h"
29 ///////////////////////////////////////////////////////////////////////////////
31 // Equality and hashing on cons/tys pairs
33 ///////////////////////////////////////////////////////////////////////////////
34 unsigned int id_tys_hash(HashTable::Key a)
36 #line 21 "persistgen.pcc"
37 a_Pair<Id, Tys> *
38 #line 21 "persistgen.pcc"
39 key = (a_Pair<Id, Tys> *
40 #line 21 "persistgen.pcc"
41 )a;
42 return (unsigned int)key->fst + tys_hash(key->snd);
44 Bool id_tys_equal(HashTable::Key a, HashTable::Key b)
45 { a_Pair<Id, Tys> *
46 #line 25 "persistgen.pcc"
47 x = (a_Pair<Id, Tys> *
48 #line 25 "persistgen.pcc"
49 )a;
50 a_Pair<Id, Tys> *
51 #line 26 "persistgen.pcc"
52 y = (a_Pair<Id, Tys> *
53 #line 26 "persistgen.pcc"
54 )b;
55 return x->fst == y->fst && tys_equal(x->snd,y->snd);
58 unsigned int pid_hash(HashTable::Key pid)
60 #line 33 "persistgen.pcc"
62 Pid _V1 = Pid(pid);
63 if (_V1) {
64 #line 32 "persistgen.pcc"
65 return string_hash(_V1->PERSISTid);
66 #line 32 "persistgen.pcc"
67 } else {
68 #line 33 "persistgen.pcc"
69 return 1235;
70 #line 33 "persistgen.pcc"
73 #line 34 "persistgen.pcc"
74 #line 34 "persistgen.pcc"
78 Bool pid_equal(HashTable::Key a, HashTable::Key b)
80 #line 38 "persistgen.pcc"
81 #line 40 "persistgen.pcc"
83 Pid _V2 = Pid(a);
84 Pid _V3 = Pid(b);
85 if (_V2) {
86 if (_V3) {
87 #line 39 "persistgen.pcc"
88 return string_equal(_V2->PERSISTid,_V3->PERSISTid);
89 #line 39 "persistgen.pcc"
90 } else {
91 L1:;
92 #line 40 "persistgen.pcc"
93 return false;
94 #line 40 "persistgen.pcc"
96 } else { goto L1; }
98 #line 41 "persistgen.pcc"
99 #line 41 "persistgen.pcc"
103 ///////////////////////////////////////////////////////////////////////////////
105 // Global hashtables to store mapping from types to persistent Id's
106 // and vice versa.
108 ///////////////////////////////////////////////////////////////////////////////
109 HashTable type_pid_map(id_tys_hash, id_tys_equal);
110 HashTable pid_type_map(pid_hash, pid_equal);
112 ///////////////////////////////////////////////////////////////////////////////
114 // Enter a new persistent id entry
116 ///////////////////////////////////////////////////////////////////////////////
117 void update_persistent(Id id, Tys tys, Pid pid)
119 #line 59 "persistgen.pcc"
120 a_Pair<Id, Tys> *
121 #line 59 "persistgen.pcc"
122 key = pair(id,tys);
123 HashTable::Entry * e1 = type_pid_map.lookup((HashTable::Key)key);
124 HashTable::Entry * e2 = pid_type_map.lookup((HashTable::Key)pid);
125 if (e1)
126 { error ("%Lpersistence redefined for type %s%P\n",id,tys);
128 if (e2)
129 { a_Pair<Id, Tys> *
130 #line 66 "persistgen.pcc"
131 previous = (a_Pair<Id, Tys> *
132 #line 66 "persistgen.pcc"
133 )(e2->v);
134 error ("%Lpersistence pid %Q already allocated for type %s%P\n",
135 pid, previous->fst, previous->snd);
137 if (e1 == 0 && e2 == 0)
138 { type_pid_map.insert(key,(HashTable::Value)pid);
139 pid_type_map.insert((HashTable::Key)pid,key);
142 // add persistent qualifier to the constructor's type
144 #line 79 "persistgen.pcc"
146 Ty _V4 = lookup_ty(id);
147 if (_V4) {
148 switch (_V4->tag__) {
149 case a_Ty::tag_TYCONty: {
150 if (boxed(((Ty_TYCONty *)_V4)->_1)) {
151 switch (((Ty_TYCONty *)_V4)->_1->tag__) {
152 case a_TyCon::tag_DATATYPEtycon: {
153 if (
154 #line 77 "persistgen.pcc"
155 (((TyCon_DATATYPEtycon *)((Ty_TYCONty *)_V4)->_1)->hierarchy != 0)
156 #line 77 "persistgen.pcc"
159 #line 78 "persistgen.pcc"
160 ((TyCon_DATATYPEtycon *)((Ty_TYCONty *)_V4)->_1)->hierarchy->qualifiers |= QUALpersistent;
161 #line 78 "persistgen.pcc"
162 } else {
164 L2:;
165 #line 79 "persistgen.pcc"
166 error("%Ltype %s%P is not a datatype\n",id,tys);
167 #line 79 "persistgen.pcc"
169 } break;
170 default: { goto L2; } break;
172 } else { goto L2; }
173 } break;
174 default: { goto L2; } break;
176 } else { goto L2; }
178 #line 80 "persistgen.pcc"
179 #line 80 "persistgen.pcc"
183 ///////////////////////////////////////////////////////////////////////////////
185 // Lookup a new persistent id entry
187 ///////////////////////////////////////////////////////////////////////////////
188 Pid lookup_persistent(Id id, Tys tys)
190 #line 89 "persistgen.pcc"
191 a_Pair<Id, Tys> *
192 #line 89 "persistgen.pcc"
193 key = pair(id,tys);
194 HashTable::Entry * e1 = type_pid_map.lookup((HashTable::Key)key);
195 if (e1)
196 { return value_of(Pid, type_pid_map, e1); }
197 else
198 { return PERSISTnone;
202 ///////////////////////////////////////////////////////////////////////////////
204 // This method generates the class interface of a persistence object
206 ///////////////////////////////////////////////////////////////////////////////
207 void DatatypeClass::generate_persistence_interface(CodeGen& C)
209 C.pr ("%^%/"
210 "%^//"
211 "%^// Methods for persistence and object serialization"
212 "%^//"
213 "%^%/"
214 "%-%^protected:%+"
215 "%^virtual const PObjectType& persist_type_id () const;"
216 "%^virtual Pistream& persist_read (Pistream&);"
217 "%^virtual Postream& persist_write (Postream&) const;"
218 "%-%^public:%+"
221 C.pr ("%^// Default constructor for persistence object factory"
222 "%^%s();",
223 class_name);
226 ///////////////////////////////////////////////////////////////////////////////
228 // This method generates the implementation of the persistent I/O functions
230 ///////////////////////////////////////////////////////////////////////////////
231 void DatatypeClass::generate_persistence_implementation
232 (CodeGen& C, Tys tys, DefKind k)
234 Id obj_type = DatatypeCompiler::temp_vars.new_label();
237 // Generate a PObjectType object for this class.
239 Pid pid = lookup_persistent(root->datatype_name, tys);
241 if (pid == PERSISTnone)
242 { error ("%Lpersist object id is undefined for %s%P\n",
243 root->datatype_name,tys);
247 // Generate a default constructor for this class
249 C.pr("%^%s%P::%s()", class_name, tys, class_name);
250 if (this != root && root->has_variant_tag)
251 { C.pr(" : %s%P(tag_%S)", root->class_name, tys, constructor_name); }
252 C.pr("%^{%+");
253 gen_class_constructor_body(C,tys,k);
254 C.pr("%-%^}");
258 // Generate the object type for this class
260 C.pr("%^static PObjectType %s(%Q \"(%s%P::%s)\");"
261 "%^const PObjectType& %s%P::persist_type_id() const { return %s; }",
262 obj_type, pid, root->datatype_name, tys,
263 (cons == NOcons ? "base_class" : constructor_name),
264 class_name, tys, obj_type);
266 if (cons != NOcons)
267 { //
268 // Generate an object factory for this class if it is creatable.
270 C.pr("%^static PObjectFactory< %s%P > %s(%s);\n",
271 class_name, tys, DatatypeCompiler::temp_vars.new_label(), obj_type);
275 // Generate the read method
277 Exp self_exp = DEREFexp(IDexp(
278 #line 173 "persistgen.pcc"
279 _p_e_r_s_i_s_t_g_e_nco_c_c_Q1
280 #line 173 "persistgen.pcc"
281 #line 173 "persistgen.pcc"
283 C.pr("%^Pistream& %s%P::persist_read(Pistream& strm__)"
284 "%^{%+",
285 class_name, tys);
286 gen_super_class_persist_IO(C,tys,k,">>");
287 if (cons != NOcons)
288 gen_field_persist_IO(C,self_exp,cons_arg_ty,tys,k,">>",true);
289 C.pr("%^return strm__;%-%^}");
292 // Generate the write method
294 C.pr("%^Postream& %s%P::persist_write(Postream& strm__) const"
295 "%^{%+",
296 class_name, tys);
297 gen_super_class_persist_IO(C,tys,k,"<<");
298 if (cons != NOcons)
299 gen_field_persist_IO(C,self_exp,cons_arg_ty,tys,k,"<<",true);
300 C.pr("%^return strm__;%-%^}");
303 ///////////////////////////////////////////////////////////////////////////////
305 // This method generates the persistence calls I/O for superclasses
307 ///////////////////////////////////////////////////////////////////////////////
308 void DatatypeClass::gen_super_class_persist_IO
309 (CodeGen& C, Tys tys, DefKind k, Id io_op)
311 // Generate a call to the superclass
312 Id rw = io_op[0] == '>' ? "read" : "write";
313 if (this != root)
315 C.pr("%^%s%P::persist_%s(strm__);", root->class_name, tys, rw);
318 // Generate a call to all the persistent superclasses
319 for_each (Inherit, inh, inherited_classes)
320 { if ((inh->qualifiers & QUALpersistent) ||
321 has_qual(QUALpersistent,inh->super_class))
322 { C.pr("%t::trace(strm__);",
323 apply_ty(mkpolyty(inh->super_class,parameters),tys), "");
324 if (this == root) root->use_persist_base = true;
329 ///////////////////////////////////////////////////////////////////////////////
331 // This method generates the persistence calls I/O for individual
332 // fields of the datatype
334 ///////////////////////////////////////////////////////////////////////////////
335 void DatatypeClass::gen_field_persist_IO
336 (CodeGen& C, Exp exp, Ty ty, Tys tys, DefKind k, Id io, Bool toplevel)
338 Bool is_reading = io[0] == '>';
341 #line 231 "persistgen.pcc"
342 #line 263 "persistgen.pcc"
344 Ty _V5 = deref(ty);
345 if (_V5) {
346 switch (_V5->tag__) {
347 case a_Ty::tag_TYCONty: {
348 if (boxed(((Ty_TYCONty *)_V5)->_1)) {
349 switch (((Ty_TYCONty *)_V5)->_1->tag__) {
350 case a_TyCon::tag_RECORDtycon: {
351 #line 243 "persistgen.pcc"
352 Ids ls; Tys ts;
353 for(ls = ((TyCon_RECORDtycon *)((Ty_TYCONty *)_V5)->_1)->_1, ts = ((Ty_TYCONty *)_V5)->_2; ls && ts; ls = ls->_2, ts = ts->_2)
354 gen_field_persist_IO(C,DOTexp(exp,ls->_1),ts->_1,tys,k,io);
356 #line 246 "persistgen.pcc"
357 } break;
358 case a_TyCon::tag_ARRAYtycon: {
359 if (((Ty_TYCONty *)_V5)->_2) {
360 if (((Ty_TYCONty *)_V5)->_2->_2) {
361 L3:;
362 #line 257 "persistgen.pcc"
363 if (toplevel) exp = DOTexp(exp,mangle(cons->name));
364 if (is_reading && is_datatype(_V5))
365 C.pr("%^%e = (%t)read_object(strm__);",exp,_V5,"");
366 else
367 C.pr("%^strm__ %s %e;",io, exp, _V5);
368 C.pr(" // %T", _V5);
370 #line 263 "persistgen.pcc"
371 } else {
372 #line 248 "persistgen.pcc"
373 C.pr("%^{%+"
374 "%^for (int i__ = 0; i__ < %e; i__++)"
375 "%^{%+",
376 ((TyCon_ARRAYtycon *)((Ty_TYCONty *)_V5)->_1)->ARRAYtycon);
377 gen_field_persist_IO(C,INDEXexp(exp,IDexp(
378 #line 252 "persistgen.pcc"
379 #line 252 "persistgen.pcc"
380 _p_e_r_s_i_s_t_g_e_nco_c_c_Q2
381 #line 252 "persistgen.pcc"
382 #line 252 "persistgen.pcc"
383 )),((Ty_TYCONty *)_V5)->_2->_1,tys,k,io);
384 C.pr("%-%^}"
385 "%-%^}");
387 #line 255 "persistgen.pcc"
389 } else { goto L3; }
390 } break;
391 default: { goto L3; } break;
393 } else {
394 switch ((int)((Ty_TYCONty *)_V5)->_1) {
395 case ((int)TUPLEtycon): {
396 #line 233 "persistgen.pcc"
397 int i = 1;
398 for_each(Ty, ty, ((Ty_TYCONty *)_V5)->_2)
399 gen_field_persist_IO(C,DOTexp(exp,index_of(i++)),ty,tys,k,io);
401 #line 236 "persistgen.pcc"
402 } break;
403 case ((int)EXTUPLEtycon): {
404 #line 238 "persistgen.pcc"
405 int i = 1;
406 for_each(Ty, ty, ((Ty_TYCONty *)_V5)->_2)
407 gen_field_persist_IO(C,DOTexp(exp,index_of(i++)),ty,tys,k,io);
409 #line 241 "persistgen.pcc"
410 } break;
411 default: { goto L3; } break;
414 } break;
415 default: { goto L3; } break;
417 } else { goto L3; }
419 #line 264 "persistgen.pcc"
420 #line 264 "persistgen.pcc"
423 #line 266 "persistgen.pcc"
425 ------------------------------- Statistics -------------------------------
426 Merge matching rules = yes
427 Number of DFA nodes merged = 50
428 Number of ifs generated = 10
429 Number of switches generated = 5
430 Number of labels = 3
431 Number of gotos = 10
432 Adaptive matching = enabled
433 Fast string matching = disabled
434 Inline downcasts = enabled
435 --------------------------------------------------------------------------