vmSymbols.cpp revision 1472:c18cbe5936b8
1/* 2 * Copyright (c) 1997, 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 */ 24 25# include "incls/_precompiled.incl" 26# include "incls/_vmSymbols.cpp.incl" 27 28 29symbolOop vmSymbols::_symbols[vmSymbols::SID_LIMIT]; 30 31symbolOop vmSymbols::_type_signatures[T_VOID+1] = { NULL /*, NULL...*/ }; 32 33inline int compare_symbol(symbolOop a, symbolOop b) { 34 if (a == b) return 0; 35 // follow the natural address order: 36 return (address)a > (address)b ? +1 : -1; 37} 38 39static vmSymbols::SID vm_symbol_index[vmSymbols::SID_LIMIT]; 40extern "C" { 41 static int compare_vmsymbol_sid(const void* void_a, const void* void_b) { 42 symbolOop a = vmSymbols::symbol_at(*((vmSymbols::SID*) void_a)); 43 symbolOop b = vmSymbols::symbol_at(*((vmSymbols::SID*) void_b)); 44 return compare_symbol(a, b); 45 } 46} 47 48#ifndef PRODUCT 49#define VM_SYMBOL_ENUM_NAME_BODY(name, string) #name "\0" 50static const char* vm_symbol_enum_names = 51 VM_SYMBOLS_DO(VM_SYMBOL_ENUM_NAME_BODY, VM_ALIAS_IGNORE) 52 "\0"; 53static const char* vm_symbol_enum_name(vmSymbols::SID sid) { 54 const char* string = &vm_symbol_enum_names[0]; 55 int skip = (int)sid - (int)vmSymbols::FIRST_SID; 56 for (; skip != 0; skip--) { 57 size_t skiplen = strlen(string); 58 if (skiplen == 0) return "<unknown>"; // overflow 59 string += skiplen+1; 60 } 61 return string; 62} 63#endif //PRODUCT 64 65// Put all the VM symbol strings in one place. 66// Makes for a more compact libjvm. 67#define VM_SYMBOL_BODY(name, string) string "\0" 68static const char* vm_symbol_bodies = VM_SYMBOLS_DO(VM_SYMBOL_BODY, VM_ALIAS_IGNORE); 69 70void vmSymbols::initialize(TRAPS) { 71 assert((int)SID_LIMIT <= (1<<log2_SID_LIMIT), "must fit in this bitfield"); 72 assert((int)SID_LIMIT*5 > (1<<log2_SID_LIMIT), "make the bitfield smaller, please"); 73 assert(vmIntrinsics::FLAG_LIMIT <= (1 << vmIntrinsics::log2_FLAG_LIMIT), "must fit in this bitfield"); 74 75 if (!UseSharedSpaces) { 76 const char* string = &vm_symbol_bodies[0]; 77 for (int index = (int)FIRST_SID; index < (int)SID_LIMIT; index++) { 78 symbolOop sym = oopFactory::new_symbol(string, CHECK); 79 _symbols[index] = sym; 80 string += strlen(string); // skip string body 81 string += 1; // skip trailing null 82 } 83 84 _type_signatures[T_BYTE] = byte_signature(); 85 _type_signatures[T_CHAR] = char_signature(); 86 _type_signatures[T_DOUBLE] = double_signature(); 87 _type_signatures[T_FLOAT] = float_signature(); 88 _type_signatures[T_INT] = int_signature(); 89 _type_signatures[T_LONG] = long_signature(); 90 _type_signatures[T_SHORT] = short_signature(); 91 _type_signatures[T_BOOLEAN] = bool_signature(); 92 _type_signatures[T_VOID] = void_signature(); 93 // no single signatures for T_OBJECT or T_ARRAY 94 } 95 96#ifdef ASSERT 97 // Check for duplicates: 98 for (int i1 = (int)FIRST_SID; i1 < (int)SID_LIMIT; i1++) { 99 symbolOop sym = symbol_at((SID)i1); 100 for (int i2 = (int)FIRST_SID; i2 < i1; i2++) { 101 if (symbol_at((SID)i2) == sym) { 102 tty->print("*** Duplicate VM symbol SIDs %s(%d) and %s(%d): \"", 103 vm_symbol_enum_name((SID)i2), i2, 104 vm_symbol_enum_name((SID)i1), i1); 105 sym->print_symbol_on(tty); 106 tty->print_cr("\""); 107 } 108 } 109 } 110#endif //ASSERT 111 112 // Create an index for find_id: 113 { 114 for (int index = (int)FIRST_SID; index < (int)SID_LIMIT; index++) { 115 vm_symbol_index[index] = (SID)index; 116 } 117 int num_sids = SID_LIMIT-FIRST_SID; 118 qsort(&vm_symbol_index[FIRST_SID], num_sids, sizeof(vm_symbol_index[0]), 119 compare_vmsymbol_sid); 120 } 121 122#ifdef ASSERT 123 { 124 // Spot-check correspondence between strings, symbols, and enums: 125 assert(_symbols[NO_SID] == NULL, "must be"); 126 const char* str = "java/lang/Object"; 127 symbolOop sym = oopFactory::new_symbol(str, CHECK); 128 assert(strcmp(str, (char*)sym->base()) == 0, ""); 129 assert(sym == java_lang_Object(), ""); 130 SID sid = VM_SYMBOL_ENUM_NAME(java_lang_Object); 131 assert(find_sid(sym) == sid, ""); 132 assert(symbol_at(sid) == sym, ""); 133 134 // Make sure find_sid produces the right answer in each case. 135 for (int index = (int)FIRST_SID; index < (int)SID_LIMIT; index++) { 136 sym = symbol_at((SID)index); 137 sid = find_sid(sym); 138 assert(sid == (SID)index, "symbol index works"); 139 // Note: If there are duplicates, this assert will fail. 140 // A "Duplicate VM symbol" message will have already been printed. 141 } 142 143 // The string "format" happens (at the moment) not to be a vmSymbol, 144 // though it is a method name in java.lang.String. 145 str = "format"; 146 sym = oopFactory::new_symbol(str, CHECK); 147 sid = find_sid(sym); 148 assert(sid == NO_SID, "symbol index works (negative test)"); 149 } 150#endif 151} 152 153 154#ifndef PRODUCT 155const char* vmSymbols::name_for(vmSymbols::SID sid) { 156 if (sid == NO_SID) 157 return "NO_SID"; 158 const char* string = &vm_symbol_bodies[0]; 159 for (int index = (int)FIRST_SID; index < (int)SID_LIMIT; index++) { 160 if (index == (int)sid) 161 return string; 162 string += strlen(string); // skip string body 163 string += 1; // skip trailing null 164 } 165 return "BAD_SID"; 166} 167#endif 168 169 170 171void vmSymbols::oops_do(OopClosure* f, bool do_all) { 172 for (int index = (int)FIRST_SID; index < (int)SID_LIMIT; index++) { 173 f->do_oop((oop*) &_symbols[index]); 174 } 175 for (int i = 0; i < T_VOID+1; i++) { 176 if (_type_signatures[i] != NULL) { 177 assert(i >= T_BOOLEAN, "checking"); 178 f->do_oop((oop*)&_type_signatures[i]); 179 } else if (do_all) { 180 f->do_oop((oop*)&_type_signatures[i]); 181 } 182 } 183} 184 185 186BasicType vmSymbols::signature_type(symbolOop s) { 187 assert(s != NULL, "checking"); 188 for (int i = T_BOOLEAN; i < T_VOID+1; i++) { 189 if (s == _type_signatures[i]) { 190 return (BasicType)i; 191 } 192 } 193 return T_OBJECT; 194} 195 196 197static int mid_hint = (int)vmSymbols::FIRST_SID+1; 198 199#ifndef PRODUCT 200static int find_sid_calls, find_sid_probes; 201// (Typical counts are calls=7000 and probes=17000.) 202#endif 203 204vmSymbols::SID vmSymbols::find_sid(symbolOop symbol) { 205 // Handle the majority of misses by a bounds check. 206 // Then, use a binary search over the index. 207 // Expected trip count is less than log2_SID_LIMIT, about eight. 208 // This is slow but acceptable, given that calls are not 209 // dynamically common. (methodOop::intrinsic_id has a cache.) 210 NOT_PRODUCT(find_sid_calls++); 211 int min = (int)FIRST_SID, max = (int)SID_LIMIT - 1; 212 SID sid = NO_SID, sid1; 213 int cmp1; 214 sid1 = vm_symbol_index[min]; 215 cmp1 = compare_symbol(symbol, symbol_at(sid1)); 216 if (cmp1 <= 0) { // before the first 217 if (cmp1 == 0) sid = sid1; 218 } else { 219 sid1 = vm_symbol_index[max]; 220 cmp1 = compare_symbol(symbol, symbol_at(sid1)); 221 if (cmp1 >= 0) { // after the last 222 if (cmp1 == 0) sid = sid1; 223 } else { 224 // After checking the extremes, do a binary search. 225 ++min; --max; // endpoints are done 226 int mid = mid_hint; // start at previous success 227 while (max >= min) { 228 assert(mid >= min && mid <= max, ""); 229 NOT_PRODUCT(find_sid_probes++); 230 sid1 = vm_symbol_index[mid]; 231 cmp1 = compare_symbol(symbol, symbol_at(sid1)); 232 if (cmp1 == 0) { 233 mid_hint = mid; 234 sid = sid1; 235 break; 236 } 237 if (cmp1 < 0) 238 max = mid - 1; // symbol < symbol_at(sid) 239 else 240 min = mid + 1; 241 242 // Pick a new probe point: 243 mid = (max + min) / 2; 244 } 245 } 246 } 247 248#ifdef ASSERT 249 // Perform the exhaustive self-check the first 1000 calls, 250 // and every 100 calls thereafter. 251 static int find_sid_check_count = -2000; 252 if ((uint)++find_sid_check_count > (uint)100) { 253 if (find_sid_check_count > 0) find_sid_check_count = 0; 254 255 // Make sure this is the right answer, using linear search. 256 // (We have already proven that there are no duplicates in the list.) 257 SID sid2 = NO_SID; 258 for (int index = (int)FIRST_SID; index < (int)SID_LIMIT; index++) { 259 symbolOop sym2 = symbol_at((SID)index); 260 if (sym2 == symbol) { 261 sid2 = (SID)index; 262 break; 263 } 264 } 265 // Unless it's a duplicate, assert that the sids are the same. 266 if (_symbols[sid] != _symbols[sid2]) { 267 assert(sid == sid2, "binary same as linear search"); 268 } 269 } 270#endif //ASSERT 271 272 return sid; 273} 274 275static vmIntrinsics::ID wrapper_intrinsic(BasicType type, bool unboxing) { 276#define TYPE2(type, unboxing) ((int)(type)*2 + ((unboxing) ? 1 : 0)) 277 switch (TYPE2(type, unboxing)) { 278#define BASIC_TYPE_CASE(type, box, unbox) \ 279 case TYPE2(type, false): return vmIntrinsics::box; \ 280 case TYPE2(type, true): return vmIntrinsics::unbox 281 BASIC_TYPE_CASE(T_BOOLEAN, _Boolean_valueOf, _booleanValue); 282 BASIC_TYPE_CASE(T_BYTE, _Byte_valueOf, _byteValue); 283 BASIC_TYPE_CASE(T_CHAR, _Character_valueOf, _charValue); 284 BASIC_TYPE_CASE(T_SHORT, _Short_valueOf, _shortValue); 285 BASIC_TYPE_CASE(T_INT, _Integer_valueOf, _intValue); 286 BASIC_TYPE_CASE(T_LONG, _Long_valueOf, _longValue); 287 BASIC_TYPE_CASE(T_FLOAT, _Float_valueOf, _floatValue); 288 BASIC_TYPE_CASE(T_DOUBLE, _Double_valueOf, _doubleValue); 289#undef BASIC_TYPE_CASE 290 } 291#undef TYPE2 292 return vmIntrinsics::_none; 293} 294 295vmIntrinsics::ID vmIntrinsics::for_boxing(BasicType type) { 296 return wrapper_intrinsic(type, false); 297} 298vmIntrinsics::ID vmIntrinsics::for_unboxing(BasicType type) { 299 return wrapper_intrinsic(type, true); 300} 301 302vmIntrinsics::ID vmIntrinsics::for_raw_conversion(BasicType src, BasicType dest) { 303#define SRC_DEST(s,d) (((int)(s) << 4) + (int)(d)) 304 switch (SRC_DEST(src, dest)) { 305 case SRC_DEST(T_INT, T_FLOAT): return vmIntrinsics::_intBitsToFloat; 306 case SRC_DEST(T_FLOAT, T_INT): return vmIntrinsics::_floatToRawIntBits; 307 308 case SRC_DEST(T_LONG, T_DOUBLE): return vmIntrinsics::_longBitsToDouble; 309 case SRC_DEST(T_DOUBLE, T_LONG): return vmIntrinsics::_doubleToRawLongBits; 310 } 311#undef SRC_DEST 312 313 return vmIntrinsics::_none; 314} 315 316methodOop vmIntrinsics::method_for(vmIntrinsics::ID id) { 317 if (id == _none) return NULL; 318 symbolOop cname = vmSymbols::symbol_at(class_for(id)); 319 symbolOop mname = vmSymbols::symbol_at(name_for(id)); 320 symbolOop msig = vmSymbols::symbol_at(signature_for(id)); 321 if (cname == NULL || mname == NULL || msig == NULL) return NULL; 322 klassOop k = SystemDictionary::find_well_known_klass(cname); 323 if (k == NULL) return NULL; 324 return instanceKlass::cast(k)->find_method(mname, msig); 325} 326 327 328#define VM_INTRINSIC_INITIALIZE(id, klass, name, sig, flags) #id "\0" 329static const char* vm_intrinsic_name_bodies = 330 VM_INTRINSICS_DO(VM_INTRINSIC_INITIALIZE, 331 VM_SYMBOL_IGNORE, VM_SYMBOL_IGNORE, VM_SYMBOL_IGNORE, VM_ALIAS_IGNORE); 332 333static const char* vm_intrinsic_name_table[vmIntrinsics::ID_LIMIT]; 334 335const char* vmIntrinsics::name_at(vmIntrinsics::ID id) { 336 const char** nt = &vm_intrinsic_name_table[0]; 337 if (nt[_none] == NULL) { 338 char* string = (char*) &vm_intrinsic_name_bodies[0]; 339 for (int index = FIRST_ID; index < ID_LIMIT; index++) { 340 nt[index] = string; 341 string += strlen(string); // skip string body 342 string += 1; // skip trailing null 343 } 344 assert(!strcmp(nt[_hashCode], "_hashCode"), "lined up"); 345 nt[_none] = "_none"; 346 } 347 if ((uint)id < (uint)ID_LIMIT) 348 return vm_intrinsic_name_table[(uint)id]; 349 else 350 return "(unknown intrinsic)"; 351} 352 353// These are flag-matching functions: 354inline bool match_F_R(jshort flags) { 355 const int req = 0; 356 const int neg = JVM_ACC_STATIC | JVM_ACC_SYNCHRONIZED; 357 return (flags & (req | neg)) == req; 358} 359inline bool match_F_Y(jshort flags) { 360 const int req = JVM_ACC_SYNCHRONIZED; 361 const int neg = JVM_ACC_STATIC; 362 return (flags & (req | neg)) == req; 363} 364inline bool match_F_RN(jshort flags) { 365 const int req = JVM_ACC_NATIVE; 366 const int neg = JVM_ACC_STATIC | JVM_ACC_SYNCHRONIZED; 367 return (flags & (req | neg)) == req; 368} 369inline bool match_F_S(jshort flags) { 370 const int req = JVM_ACC_STATIC; 371 const int neg = JVM_ACC_SYNCHRONIZED; 372 return (flags & (req | neg)) == req; 373} 374inline bool match_F_SN(jshort flags) { 375 const int req = JVM_ACC_STATIC | JVM_ACC_NATIVE; 376 const int neg = JVM_ACC_SYNCHRONIZED; 377 return (flags & (req | neg)) == req; 378} 379inline bool match_F_RNY(jshort flags) { 380 const int req = JVM_ACC_NATIVE | JVM_ACC_SYNCHRONIZED; 381 const int neg = JVM_ACC_STATIC; 382 return (flags & (req | neg)) == req; 383} 384 385// These are for forming case labels: 386#define ID3(x, y, z) (( jlong)(z) + \ 387 ((jlong)(y) << vmSymbols::log2_SID_LIMIT) + \ 388 ((jlong)(x) << (2*vmSymbols::log2_SID_LIMIT)) ) 389#define SID_ENUM(n) vmSymbols::VM_SYMBOL_ENUM_NAME(n) 390 391vmIntrinsics::ID vmIntrinsics::find_id_impl(vmSymbols::SID holder, 392 vmSymbols::SID name, 393 vmSymbols::SID sig, 394 jshort flags) { 395 assert((int)vmSymbols::SID_LIMIT <= (1<<vmSymbols::log2_SID_LIMIT), "must fit"); 396 397 // Let the C compiler build the decision tree. 398 399#define VM_INTRINSIC_CASE(id, klass, name, sig, fcode) \ 400 case ID3(SID_ENUM(klass), SID_ENUM(name), SID_ENUM(sig)): \ 401 if (!match_##fcode(flags)) break; \ 402 return id; 403 404 switch (ID3(holder, name, sig)) { 405 VM_INTRINSICS_DO(VM_INTRINSIC_CASE, 406 VM_SYMBOL_IGNORE, VM_SYMBOL_IGNORE, VM_SYMBOL_IGNORE, VM_ALIAS_IGNORE); 407 } 408 return vmIntrinsics::_none; 409 410#undef VM_INTRINSIC_CASE 411} 412 413 414const char* vmIntrinsics::short_name_as_C_string(vmIntrinsics::ID id, char* buf, int buflen) { 415 const char* str = name_at(id); 416#ifndef PRODUCT 417 const char* kname = vmSymbols::name_for(class_for(id)); 418 const char* mname = vmSymbols::name_for(name_for(id)); 419 const char* sname = vmSymbols::name_for(signature_for(id)); 420 const char* fname = ""; 421 switch (flags_for(id)) { 422 case F_Y: fname = "synchronized "; break; 423 case F_RN: fname = "native "; break; 424 case F_SN: fname = "native static "; break; 425 case F_S: fname = "static "; break; 426 case F_RNY:fname = "native synchronized "; break; 427 } 428 const char* kptr = strrchr(kname, '/'); 429 if (kptr != NULL) kname = kptr + 1; 430 int len = jio_snprintf(buf, buflen, "%s: %s%s.%s%s", 431 str, fname, kname, mname, sname); 432 if (len < buflen) 433 str = buf; 434#endif //PRODUCT 435 return str; 436} 437 438 439// These are to get information about intrinsics. 440 441#define ID4(x, y, z, f) ((ID3(x, y, z) << vmIntrinsics::log2_FLAG_LIMIT) | (jlong) (f)) 442 443static const jlong intrinsic_info_array[vmIntrinsics::ID_LIMIT+1] = { 444#define VM_INTRINSIC_INFO(ignore_id, klass, name, sig, fcode) \ 445 ID4(SID_ENUM(klass), SID_ENUM(name), SID_ENUM(sig), vmIntrinsics::fcode), 446 447 0, VM_INTRINSICS_DO(VM_INTRINSIC_INFO, 448 VM_SYMBOL_IGNORE, VM_SYMBOL_IGNORE, VM_SYMBOL_IGNORE, VM_ALIAS_IGNORE) 449 0 450#undef VM_INTRINSIC_INFO 451}; 452 453inline jlong intrinsic_info(vmIntrinsics::ID id) { 454 return intrinsic_info_array[vmIntrinsics::ID_from((int)id)]; 455} 456 457vmSymbols::SID vmIntrinsics::class_for(vmIntrinsics::ID id) { 458 jlong info = intrinsic_info(id); 459 int shift = 2*vmSymbols::log2_SID_LIMIT + log2_FLAG_LIMIT, mask = right_n_bits(vmSymbols::log2_SID_LIMIT); 460 assert(((ID4(1021,1022,1023,15) >> shift) & mask) == 1021, ""); 461 return vmSymbols::SID( (info >> shift) & mask ); 462} 463 464vmSymbols::SID vmIntrinsics::name_for(vmIntrinsics::ID id) { 465 jlong info = intrinsic_info(id); 466 int shift = vmSymbols::log2_SID_LIMIT + log2_FLAG_LIMIT, mask = right_n_bits(vmSymbols::log2_SID_LIMIT); 467 assert(((ID4(1021,1022,1023,15) >> shift) & mask) == 1022, ""); 468 return vmSymbols::SID( (info >> shift) & mask ); 469} 470 471vmSymbols::SID vmIntrinsics::signature_for(vmIntrinsics::ID id) { 472 jlong info = intrinsic_info(id); 473 int shift = log2_FLAG_LIMIT, mask = right_n_bits(vmSymbols::log2_SID_LIMIT); 474 assert(((ID4(1021,1022,1023,15) >> shift) & mask) == 1023, ""); 475 return vmSymbols::SID( (info >> shift) & mask ); 476} 477 478vmIntrinsics::Flags vmIntrinsics::flags_for(vmIntrinsics::ID id) { 479 jlong info = intrinsic_info(id); 480 int shift = 0, mask = right_n_bits(log2_FLAG_LIMIT); 481 assert(((ID4(1021,1022,1023,15) >> shift) & mask) == 15, ""); 482 return Flags( (info >> shift) & mask ); 483} 484 485 486#ifndef PRODUCT 487// verify_method performs an extra check on a matched intrinsic method 488 489static bool match_method(methodOop m, symbolOop n, symbolOop s) { 490 return (m->name() == n && 491 m->signature() == s); 492} 493 494static vmIntrinsics::ID match_method_with_klass(methodOop m, symbolOop mk) { 495#define VM_INTRINSIC_MATCH(id, klassname, namepart, sigpart, flags) \ 496 { symbolOop k = vmSymbols::klassname(); \ 497 if (mk == k) { \ 498 symbolOop n = vmSymbols::namepart(); \ 499 symbolOop s = vmSymbols::sigpart(); \ 500 if (match_method(m, n, s)) \ 501 return vmIntrinsics::id; \ 502 } } 503 VM_INTRINSICS_DO(VM_INTRINSIC_MATCH, 504 VM_SYMBOL_IGNORE, VM_SYMBOL_IGNORE, VM_SYMBOL_IGNORE, VM_ALIAS_IGNORE); 505 return vmIntrinsics::_none; 506#undef VM_INTRINSIC_MATCH 507} 508 509void vmIntrinsics::verify_method(ID actual_id, methodOop m) { 510 symbolOop mk = Klass::cast(m->method_holder())->name(); 511 ID declared_id = match_method_with_klass(m, mk); 512 513 if (declared_id == actual_id) return; // success 514 515 if (declared_id == _none && actual_id != _none && mk == vmSymbols::java_lang_StrictMath()) { 516 // Here are a few special cases in StrictMath not declared in vmSymbols.hpp. 517 switch (actual_id) { 518 case _min: 519 case _max: 520 case _dsqrt: 521 declared_id = match_method_with_klass(m, vmSymbols::java_lang_Math()); 522 if (declared_id == actual_id) return; // acceptable alias 523 break; 524 } 525 } 526 527 const char* declared_name = name_at(declared_id); 528 const char* actual_name = name_at(actual_id); 529 methodHandle mh = m; 530 m = NULL; 531 ttyLocker ttyl; 532 if (xtty != NULL) { 533 xtty->begin_elem("intrinsic_misdeclared actual='%s' declared='%s'", 534 actual_name, declared_name); 535 xtty->method(mh); 536 xtty->end_elem(""); 537 } 538 if (PrintMiscellaneous && (WizardMode || Verbose)) { 539 tty->print_cr("*** misidentified method; %s(%d) should be %s(%d):", 540 declared_name, declared_id, actual_name, actual_id); 541 mh()->print_short_name(tty); 542 tty->cr(); 543 } 544} 545#endif //PRODUCT 546