Wed, 25 Aug 2010 05:27:54 -0700
6978355: renaming for 6961697
Summary: This is the renaming part of 6961697 to keep the actual changes small for review.
Reviewed-by: kvn, never
1 /*
2 * Copyright (c) 1998, 2009, Oracle and/or its affiliates. All rights reserved.
3 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
4 *
5 * This code is free software; you can redistribute it and/or modify it
6 * under the terms of the GNU General Public License version 2 only, as
7 * published by the Free Software Foundation.
8 *
9 * This code is distributed in the hope that it will be useful, but WITHOUT
10 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
11 * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
12 * version 2 for more details (a copy is included in the LICENSE file that
13 * accompanied this code).
14 *
15 * You should have received a copy of the GNU General Public License version
16 * 2 along with this work; if not, write to the Free Software Foundation,
17 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
18 *
19 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
20 * or visit www.oracle.com if you need additional information or have any
21 * questions.
22 *
23 */
25 # include "incls/_precompiled.incl"
26 # include "incls/_oopMap.cpp.incl"
28 // OopMapStream
30 OopMapStream::OopMapStream(OopMap* oop_map) {
31 if(oop_map->omv_data() == NULL) {
32 _stream = new CompressedReadStream(oop_map->write_stream()->buffer());
33 } else {
34 _stream = new CompressedReadStream(oop_map->omv_data());
35 }
36 _mask = OopMapValue::type_mask_in_place;
37 _size = oop_map->omv_count();
38 _position = 0;
39 _valid_omv = false;
40 }
43 OopMapStream::OopMapStream(OopMap* oop_map, int oop_types_mask) {
44 if(oop_map->omv_data() == NULL) {
45 _stream = new CompressedReadStream(oop_map->write_stream()->buffer());
46 } else {
47 _stream = new CompressedReadStream(oop_map->omv_data());
48 }
49 _mask = oop_types_mask;
50 _size = oop_map->omv_count();
51 _position = 0;
52 _valid_omv = false;
53 }
56 void OopMapStream::find_next() {
57 while(_position++ < _size) {
58 _omv.read_from(_stream);
59 if(((int)_omv.type() & _mask) > 0) {
60 _valid_omv = true;
61 return;
62 }
63 }
64 _valid_omv = false;
65 }
68 // OopMap
70 // frame_size units are stack-slots (4 bytes) NOT intptr_t; we can name odd
71 // slots to hold 4-byte values like ints and floats in the LP64 build.
72 OopMap::OopMap(int frame_size, int arg_count) {
73 // OopMaps are usually quite so small, so pick a small initial size
74 set_write_stream(new CompressedWriteStream(32));
75 set_omv_data(NULL);
76 set_omv_count(0);
78 #ifdef ASSERT
79 _locs_length = VMRegImpl::stack2reg(0)->value() + frame_size + arg_count;
80 _locs_used = NEW_RESOURCE_ARRAY(OopMapValue::oop_types, _locs_length);
81 for(int i = 0; i < _locs_length; i++) _locs_used[i] = OopMapValue::unused_value;
82 #endif
83 }
86 OopMap::OopMap(OopMap::DeepCopyToken, OopMap* source) {
87 // This constructor does a deep copy
88 // of the source OopMap.
89 set_write_stream(new CompressedWriteStream(source->omv_count() * 2));
90 set_omv_data(NULL);
91 set_omv_count(0);
92 set_offset(source->offset());
94 #ifdef ASSERT
95 _locs_length = source->_locs_length;
96 _locs_used = NEW_RESOURCE_ARRAY(OopMapValue::oop_types, _locs_length);
97 for(int i = 0; i < _locs_length; i++) _locs_used[i] = OopMapValue::unused_value;
98 #endif
100 // We need to copy the entries too.
101 for (OopMapStream oms(source); !oms.is_done(); oms.next()) {
102 OopMapValue omv = oms.current();
103 omv.write_on(write_stream());
104 increment_count();
105 }
106 }
109 OopMap* OopMap::deep_copy() {
110 return new OopMap(_deep_copy_token, this);
111 }
114 void OopMap::copy_to(address addr) {
115 memcpy(addr,this,sizeof(OopMap));
116 memcpy(addr + sizeof(OopMap),write_stream()->buffer(),write_stream()->position());
117 OopMap* new_oop = (OopMap*)addr;
118 new_oop->set_omv_data_size(write_stream()->position());
119 new_oop->set_omv_data((unsigned char *)(addr + sizeof(OopMap)));
120 new_oop->set_write_stream(NULL);
121 }
124 int OopMap::heap_size() const {
125 int size = sizeof(OopMap);
126 int align = sizeof(void *) - 1;
127 if(write_stream() != NULL) {
128 size += write_stream()->position();
129 } else {
130 size += omv_data_size();
131 }
132 // Align to a reasonable ending point
133 size = ((size+align) & ~align);
134 return size;
135 }
137 // frame_size units are stack-slots (4 bytes) NOT intptr_t; we can name odd
138 // slots to hold 4-byte values like ints and floats in the LP64 build.
139 void OopMap::set_xxx(VMReg reg, OopMapValue::oop_types x, VMReg optional) {
141 assert(reg->value() < _locs_length, "too big reg value for stack size");
142 assert( _locs_used[reg->value()] == OopMapValue::unused_value, "cannot insert twice" );
143 debug_only( _locs_used[reg->value()] = x; )
145 OopMapValue o(reg, x);
147 if(x == OopMapValue::callee_saved_value) {
148 // This can never be a stack location, so we don't need to transform it.
149 assert(optional->is_reg(), "Trying to callee save a stack location");
150 o.set_content_reg(optional);
151 } else if(x == OopMapValue::derived_oop_value) {
152 o.set_content_reg(optional);
153 }
155 o.write_on(write_stream());
156 increment_count();
157 }
160 void OopMap::set_oop(VMReg reg) {
161 set_xxx(reg, OopMapValue::oop_value, VMRegImpl::Bad());
162 }
165 void OopMap::set_value(VMReg reg) {
166 // At this time, we only need value entries in our OopMap when ZapDeadCompiledLocals is active.
167 if (ZapDeadCompiledLocals)
168 set_xxx(reg, OopMapValue::value_value, VMRegImpl::Bad());
169 }
172 void OopMap::set_narrowoop(VMReg reg) {
173 set_xxx(reg, OopMapValue::narrowoop_value, VMRegImpl::Bad());
174 }
177 void OopMap::set_callee_saved(VMReg reg, VMReg caller_machine_register ) {
178 set_xxx(reg, OopMapValue::callee_saved_value, caller_machine_register);
179 }
182 void OopMap::set_derived_oop(VMReg reg, VMReg derived_from_local_register ) {
183 if( reg == derived_from_local_register ) {
184 // Actually an oop, derived shares storage with base,
185 set_oop(reg);
186 } else {
187 set_xxx(reg, OopMapValue::derived_oop_value, derived_from_local_register);
188 }
189 }
191 // OopMapSet
193 OopMapSet::OopMapSet() {
194 set_om_size(MinOopMapAllocation);
195 set_om_count(0);
196 OopMap** temp = NEW_RESOURCE_ARRAY(OopMap*, om_size());
197 set_om_data(temp);
198 }
201 void OopMapSet::grow_om_data() {
202 int new_size = om_size() * 2;
203 OopMap** new_data = NEW_RESOURCE_ARRAY(OopMap*, new_size);
204 memcpy(new_data,om_data(),om_size() * sizeof(OopMap*));
205 set_om_size(new_size);
206 set_om_data(new_data);
207 }
210 void OopMapSet::copy_to(address addr) {
211 address temp = addr;
212 int align = sizeof(void *) - 1;
213 // Copy this
214 memcpy(addr,this,sizeof(OopMapSet));
215 temp += sizeof(OopMapSet);
216 temp = (address)((intptr_t)(temp + align) & ~align);
217 // Do the needed fixups to the new OopMapSet
218 OopMapSet* new_set = (OopMapSet*)addr;
219 new_set->set_om_data((OopMap**)temp);
220 // Allow enough space for the OopMap pointers
221 temp += (om_count() * sizeof(OopMap*));
223 for(int i=0; i < om_count(); i++) {
224 OopMap* map = at(i);
225 map->copy_to((address)temp);
226 new_set->set(i,(OopMap*)temp);
227 temp += map->heap_size();
228 }
229 // This "locks" the OopMapSet
230 new_set->set_om_size(-1);
231 }
234 void OopMapSet::add_gc_map(int pc_offset, OopMap *map ) {
235 assert(om_size() != -1,"Cannot grow a fixed OopMapSet");
237 if(om_count() >= om_size()) {
238 grow_om_data();
239 }
240 map->set_offset(pc_offset);
242 #ifdef ASSERT
243 if(om_count() > 0) {
244 OopMap* last = at(om_count()-1);
245 if (last->offset() == map->offset() ) {
246 fatal("OopMap inserted twice");
247 }
248 if(last->offset() > map->offset()) {
249 tty->print_cr( "WARNING, maps not sorted: pc[%d]=%d, pc[%d]=%d",
250 om_count(),last->offset(),om_count()+1,map->offset());
251 }
252 }
253 #endif // ASSERT
255 set(om_count(),map);
256 increment_count();
257 }
260 int OopMapSet::heap_size() const {
261 // The space we use
262 int size = sizeof(OopMap);
263 int align = sizeof(void *) - 1;
264 size = ((size+align) & ~align);
265 size += om_count() * sizeof(OopMap*);
267 // Now add in the space needed for the indivdiual OopMaps
268 for(int i=0; i < om_count(); i++) {
269 size += at(i)->heap_size();
270 }
271 // We don't need to align this, it will be naturally pointer aligned
272 return size;
273 }
276 OopMap* OopMapSet::singular_oop_map() {
277 guarantee(om_count() == 1, "Make sure we only have a single gc point");
278 return at(0);
279 }
282 OopMap* OopMapSet::find_map_at_offset(int pc_offset) const {
283 int i, len = om_count();
284 assert( len > 0, "must have pointer maps" );
286 // Scan through oopmaps. Stop when current offset is either equal or greater
287 // than the one we are looking for.
288 for( i = 0; i < len; i++) {
289 if( at(i)->offset() >= pc_offset )
290 break;
291 }
293 assert( i < len, "oopmap not found" );
295 OopMap* m = at(i);
296 assert( m->offset() == pc_offset, "oopmap not found" );
297 return m;
298 }
300 class DoNothingClosure: public OopClosure {
301 public:
302 void do_oop(oop* p) {}
303 void do_oop(narrowOop* p) {}
304 };
305 static DoNothingClosure do_nothing;
307 static void add_derived_oop(oop* base, oop* derived) {
308 #ifndef TIERED
309 COMPILER1_PRESENT(ShouldNotReachHere();)
310 #endif // TIERED
311 #ifdef COMPILER2
312 DerivedPointerTable::add(derived, base);
313 #endif // COMPILER2
314 }
317 #ifndef PRODUCT
318 static void trace_codeblob_maps(const frame *fr, const RegisterMap *reg_map) {
319 // Print oopmap and regmap
320 tty->print_cr("------ ");
321 CodeBlob* cb = fr->cb();
322 OopMapSet* maps = cb->oop_maps();
323 OopMap* map = cb->oop_map_for_return_address(fr->pc());
324 map->print();
325 if( cb->is_nmethod() ) {
326 nmethod* nm = (nmethod*)cb;
327 // native wrappers have no scope data, it is implied
328 if (nm->is_native_method()) {
329 tty->print("bci: 0 (native)");
330 } else {
331 ScopeDesc* scope = nm->scope_desc_at(fr->pc());
332 tty->print("bci: %d ",scope->bci());
333 }
334 }
335 tty->cr();
336 fr->print_on(tty);
337 tty->print(" ");
338 cb->print_value_on(tty); tty->cr();
339 reg_map->print();
340 tty->print_cr("------ ");
342 }
343 #endif // PRODUCT
345 void OopMapSet::oops_do(const frame *fr, const RegisterMap* reg_map, OopClosure* f) {
346 // add derived oops to a table
347 all_do(fr, reg_map, f, add_derived_oop, &do_nothing);
348 }
351 void OopMapSet::all_do(const frame *fr, const RegisterMap *reg_map,
352 OopClosure* oop_fn, void derived_oop_fn(oop*, oop*),
353 OopClosure* value_fn) {
354 CodeBlob* cb = fr->cb();
355 assert(cb != NULL, "no codeblob");
357 NOT_PRODUCT(if (TraceCodeBlobStacks) trace_codeblob_maps(fr, reg_map);)
359 OopMapSet* maps = cb->oop_maps();
360 OopMap* map = cb->oop_map_for_return_address(fr->pc());
361 assert(map != NULL, "no ptr map found");
363 // handle derived pointers first (otherwise base pointer may be
364 // changed before derived pointer offset has been collected)
365 OopMapValue omv;
366 {
367 OopMapStream oms(map,OopMapValue::derived_oop_value);
368 if (!oms.is_done()) {
369 #ifndef TIERED
370 COMPILER1_PRESENT(ShouldNotReachHere();)
371 #endif // !TIERED
372 // Protect the operation on the derived pointers. This
373 // protects the addition of derived pointers to the shared
374 // derived pointer table in DerivedPointerTable::add().
375 MutexLockerEx x(DerivedPointerTableGC_lock, Mutex::_no_safepoint_check_flag);
376 do {
377 omv = oms.current();
378 oop* loc = fr->oopmapreg_to_location(omv.reg(),reg_map);
379 if ( loc != NULL ) {
380 oop *base_loc = fr->oopmapreg_to_location(omv.content_reg(), reg_map);
381 oop *derived_loc = loc;
382 oop val = *base_loc;
383 if (val == (oop)NULL || Universe::is_narrow_oop_base(val)) {
384 // Ignore NULL oops and decoded NULL narrow oops which
385 // equal to Universe::narrow_oop_base when a narrow oop
386 // implicit null check is used in compiled code.
387 // The narrow_oop_base could be NULL or be the address
388 // of the page below heap depending on compressed oops mode.
389 } else
390 derived_oop_fn(base_loc, derived_loc);
391 }
392 oms.next();
393 } while (!oms.is_done());
394 }
395 }
397 // We want coop, value and oop oop_types
398 int mask = OopMapValue::oop_value | OopMapValue::value_value | OopMapValue::narrowoop_value;
399 {
400 for (OopMapStream oms(map,mask); !oms.is_done(); oms.next()) {
401 omv = oms.current();
402 oop* loc = fr->oopmapreg_to_location(omv.reg(),reg_map);
403 if ( loc != NULL ) {
404 if ( omv.type() == OopMapValue::oop_value ) {
405 oop val = *loc;
406 if (val == (oop)NULL || Universe::is_narrow_oop_base(val)) {
407 // Ignore NULL oops and decoded NULL narrow oops which
408 // equal to Universe::narrow_oop_base when a narrow oop
409 // implicit null check is used in compiled code.
410 // The narrow_oop_base could be NULL or be the address
411 // of the page below heap depending on compressed oops mode.
412 continue;
413 }
414 #ifdef ASSERT
415 if ((((uintptr_t)loc & (sizeof(*loc)-1)) != 0) ||
416 !Universe::heap()->is_in_or_null(*loc)) {
417 tty->print_cr("# Found non oop pointer. Dumping state at failure");
418 // try to dump out some helpful debugging information
419 trace_codeblob_maps(fr, reg_map);
420 omv.print();
421 tty->print_cr("register r");
422 omv.reg()->print();
423 tty->print_cr("loc = %p *loc = %p\n", loc, (address)*loc);
424 // do the real assert.
425 assert(Universe::heap()->is_in_or_null(*loc), "found non oop pointer");
426 }
427 #endif // ASSERT
428 oop_fn->do_oop(loc);
429 } else if ( omv.type() == OopMapValue::value_value ) {
430 assert((*loc) == (oop)NULL || !Universe::is_narrow_oop_base(*loc),
431 "found invalid value pointer");
432 value_fn->do_oop(loc);
433 } else if ( omv.type() == OopMapValue::narrowoop_value ) {
434 narrowOop *nl = (narrowOop*)loc;
435 #ifndef VM_LITTLE_ENDIAN
436 if (!omv.reg()->is_stack()) {
437 // compressed oops in registers only take up 4 bytes of an
438 // 8 byte register but they are in the wrong part of the
439 // word so adjust loc to point at the right place.
440 nl = (narrowOop*)((address)nl + 4);
441 }
442 #endif
443 oop_fn->do_oop(nl);
444 }
445 }
446 }
447 }
448 }
451 // Update callee-saved register info for the following frame
452 void OopMapSet::update_register_map(const frame *fr, RegisterMap *reg_map) {
453 ResourceMark rm;
454 CodeBlob* cb = fr->cb();
455 assert(cb != NULL, "no codeblob");
457 // Any reg might be saved by a safepoint handler (see generate_handler_blob).
458 const int max_saved_on_entry_reg_count = ConcreteRegisterImpl::number_of_registers;
459 assert( reg_map->_update_for_id == NULL || fr->is_older(reg_map->_update_for_id),
460 "already updated this map; do not 'update' it twice!" );
461 debug_only(reg_map->_update_for_id = fr->id());
463 // Check if caller must update oop argument
464 assert((reg_map->include_argument_oops() ||
465 !cb->caller_must_gc_arguments(reg_map->thread())),
466 "include_argument_oops should already be set");
468 int nof_callee = 0;
469 oop* locs[2*max_saved_on_entry_reg_count+1];
470 VMReg regs[2*max_saved_on_entry_reg_count+1];
471 // ("+1" because max_saved_on_entry_reg_count might be zero)
473 // Scan through oopmap and find location of all callee-saved registers
474 // (we do not do update in place, since info could be overwritten)
476 address pc = fr->pc();
478 OopMap* map = cb->oop_map_for_return_address(pc);
480 assert(map != NULL, " no ptr map found");
482 OopMapValue omv;
483 for(OopMapStream oms(map,OopMapValue::callee_saved_value); !oms.is_done(); oms.next()) {
484 omv = oms.current();
485 assert(nof_callee < 2*max_saved_on_entry_reg_count, "overflow");
486 regs[nof_callee] = omv.content_reg();
487 locs[nof_callee] = fr->oopmapreg_to_location(omv.reg(),reg_map);
488 nof_callee++;
489 }
491 // Check that runtime stubs save all callee-saved registers
492 #ifdef COMPILER2
493 assert(cb->is_compiled_by_c1() || !cb->is_runtime_stub() ||
494 (nof_callee >= SAVED_ON_ENTRY_REG_COUNT || nof_callee >= C_SAVED_ON_ENTRY_REG_COUNT),
495 "must save all");
496 #endif // COMPILER2
498 // Copy found callee-saved register to reg_map
499 for(int i = 0; i < nof_callee; i++) {
500 reg_map->set_location(regs[i], (address)locs[i]);
501 }
502 }
504 //=============================================================================
505 // Non-Product code
507 #ifndef PRODUCT
509 bool OopMap::has_derived_pointer() const {
510 #ifndef TIERED
511 COMPILER1_PRESENT(return false);
512 #endif // !TIERED
513 #ifdef COMPILER2
514 OopMapStream oms((OopMap*)this,OopMapValue::derived_oop_value);
515 return oms.is_done();
516 #else
517 return false;
518 #endif // COMPILER2
519 }
521 #endif //PRODUCT
523 // Printing code is present in product build for -XX:+PrintAssembly.
525 static
526 void print_register_type(OopMapValue::oop_types x, VMReg optional,
527 outputStream* st) {
528 switch( x ) {
529 case OopMapValue::oop_value:
530 st->print("Oop");
531 break;
532 case OopMapValue::value_value:
533 st->print("Value" );
534 break;
535 case OopMapValue::narrowoop_value:
536 tty->print("NarrowOop" );
537 break;
538 case OopMapValue::callee_saved_value:
539 st->print("Callers_" );
540 optional->print_on(st);
541 break;
542 case OopMapValue::derived_oop_value:
543 st->print("Derived_oop_" );
544 optional->print_on(st);
545 break;
546 default:
547 ShouldNotReachHere();
548 }
549 }
552 void OopMapValue::print_on(outputStream* st) const {
553 reg()->print_on(st);
554 st->print("=");
555 print_register_type(type(),content_reg(),st);
556 st->print(" ");
557 }
560 void OopMap::print_on(outputStream* st) const {
561 OopMapValue omv;
562 st->print("OopMap{");
563 for(OopMapStream oms((OopMap*)this); !oms.is_done(); oms.next()) {
564 omv = oms.current();
565 omv.print_on(st);
566 }
567 st->print("off=%d}", (int) offset());
568 }
571 void OopMapSet::print_on(outputStream* st) const {
572 int i, len = om_count();
574 st->print_cr("OopMapSet contains %d OopMaps\n",len);
576 for( i = 0; i < len; i++) {
577 OopMap* m = at(i);
578 st->print_cr("#%d ",i);
579 m->print_on(st);
580 st->cr();
581 }
582 }
586 //------------------------------DerivedPointerTable---------------------------
588 #ifdef COMPILER2
590 class DerivedPointerEntry : public CHeapObj {
591 private:
592 oop* _location; // Location of derived pointer (also pointing to the base)
593 intptr_t _offset; // Offset from base pointer
594 public:
595 DerivedPointerEntry(oop* location, intptr_t offset) { _location = location; _offset = offset; }
596 oop* location() { return _location; }
597 intptr_t offset() { return _offset; }
598 };
601 GrowableArray<DerivedPointerEntry*>* DerivedPointerTable::_list = NULL;
602 bool DerivedPointerTable::_active = false;
605 void DerivedPointerTable::clear() {
606 // The first time, we create the list. Otherwise it should be
607 // empty. If not, then we have probably forgotton to call
608 // update_pointers after last GC/Scavenge.
609 assert (!_active, "should not be active");
610 assert(_list == NULL || _list->length() == 0, "table not empty");
611 if (_list == NULL) {
612 _list = new (ResourceObj::C_HEAP) GrowableArray<DerivedPointerEntry*>(10, true); // Allocated on C heap
613 }
614 _active = true;
615 }
618 // Returns value of location as an int
619 intptr_t value_of_loc(oop *pointer) { return (intptr_t)(*pointer); }
622 void DerivedPointerTable::add(oop *derived_loc, oop *base_loc) {
623 assert(Universe::heap()->is_in_or_null(*base_loc), "not an oop");
624 assert(derived_loc != base_loc, "Base and derived in same location");
625 if (_active) {
626 assert(*derived_loc != (oop)base_loc, "location already added");
627 assert(_list != NULL, "list must exist");
628 intptr_t offset = value_of_loc(derived_loc) - value_of_loc(base_loc);
629 assert(offset >= -1000000, "wrong derived pointer info");
631 if (TraceDerivedPointers) {
632 tty->print_cr(
633 "Add derived pointer@" INTPTR_FORMAT
634 " - Derived: " INTPTR_FORMAT
635 " Base: " INTPTR_FORMAT " (@" INTPTR_FORMAT ") (Offset: %d)",
636 derived_loc, (address)*derived_loc, (address)*base_loc, base_loc, offset
637 );
638 }
639 // Set derived oop location to point to base.
640 *derived_loc = (oop)base_loc;
641 assert_lock_strong(DerivedPointerTableGC_lock);
642 DerivedPointerEntry *entry = new DerivedPointerEntry(derived_loc, offset);
643 _list->append(entry);
644 }
645 }
648 void DerivedPointerTable::update_pointers() {
649 assert(_list != NULL, "list must exist");
650 for(int i = 0; i < _list->length(); i++) {
651 DerivedPointerEntry* entry = _list->at(i);
652 oop* derived_loc = entry->location();
653 intptr_t offset = entry->offset();
654 // The derived oop was setup to point to location of base
655 oop base = **(oop**)derived_loc;
656 assert(Universe::heap()->is_in_or_null(base), "must be an oop");
658 *derived_loc = (oop)(((address)base) + offset);
659 assert(value_of_loc(derived_loc) - value_of_loc(&base) == offset, "sanity check");
661 if (TraceDerivedPointers) {
662 tty->print_cr("Updating derived pointer@" INTPTR_FORMAT
663 " - Derived: " INTPTR_FORMAT " Base: " INTPTR_FORMAT " (Offset: %d)",
664 derived_loc, (address)*derived_loc, (address)base, offset);
665 }
667 // Delete entry
668 delete entry;
669 _list->at_put(i, NULL);
670 }
671 // Clear list, so it is ready for next traversal (this is an invariant)
672 if (TraceDerivedPointers && !_list->is_empty()) {
673 tty->print_cr("--------------------------");
674 }
675 _list->clear();
676 _active = false;
677 }
679 #endif // COMPILER2