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src/share/vm/adlc/archDesc.cpp@59e8ad757e19 (annotated)

src/share/vm/adlc/archDesc.cpp

Fri, 18 Oct 2013 10:41:56 +0200

author
rbackman
date
Fri, 18 Oct 2013 10:41:56 +0200
changeset 5997
59e8ad757e19
parent 5791
c9ccd7b85f20
child 6198
55fb97c4c58d
child 6499
ad3b94907eed
permissions
-rw-r--r--

8026844: Various Math functions needs intrinsification
Reviewed-by: kvn, twisti

duke@435 1 //
kvn@3882 2 // Copyright (c) 1997, 2012, Oracle and/or its affiliates. All rights reserved.
duke@435 3 // DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
duke@435 4 //
duke@435 5 // This code is free software; you can redistribute it and/or modify it
duke@435 6 // under the terms of the GNU General Public License version 2 only, as
duke@435 7 // published by the Free Software Foundation.
duke@435 8 //
duke@435 9 // This code is distributed in the hope that it will be useful, but WITHOUT
duke@435 10 // ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
duke@435 11 // FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
duke@435 12 // version 2 for more details (a copy is included in the LICENSE file that
duke@435 13 // accompanied this code).
duke@435 14 //
duke@435 15 // You should have received a copy of the GNU General Public License version
duke@435 16 // 2 along with this work; if not, write to the Free Software Foundation,
duke@435 17 // Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
duke@435 18 //
trims@1907 19 // Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
trims@1907 20 // or visit www.oracle.com if you need additional information or have any
trims@1907 21 // questions.
duke@435 22 //
duke@435 23 //
duke@435 24
duke@435 25
duke@435 26 // archDesc.cpp - Internal format for architecture definition
duke@435 27 #include "adlc.hpp"
duke@435 28
duke@435 29 static FILE *errfile = stderr;
duke@435 30
duke@435 31 //--------------------------- utility functions -----------------------------
twisti@5221 32 inline char toUpper(char lower) {
twisti@5221 33 return (('a' <= lower && lower <= 'z') ? ((char) (lower + ('A'-'a'))) : lower);
duke@435 34 }
duke@435 35 char *toUpper(const char *str) {
duke@435 36 char *upper = new char[strlen(str)+1];
duke@435 37 char *result = upper;
duke@435 38 const char *end = str + strlen(str);
duke@435 39 for (; str < end; ++str, ++upper) {
duke@435 40 *upper = toUpper(*str);
duke@435 41 }
duke@435 42 *upper = '\0';
duke@435 43 return result;
duke@435 44 }
duke@435 45
duke@435 46 // Utilities to characterize effect statements
duke@435 47 static bool is_def(int usedef) {
duke@435 48 switch(usedef) {
duke@435 49 case Component::DEF:
duke@435 50 case Component::USE_DEF: return true; break;
duke@435 51 }
duke@435 52 return false;
duke@435 53 }
duke@435 54
duke@435 55 static bool is_use(int usedef) {
duke@435 56 switch(usedef) {
duke@435 57 case Component::USE:
duke@435 58 case Component::USE_DEF:
duke@435 59 case Component::USE_KILL: return true; break;
duke@435 60 }
duke@435 61 return false;
duke@435 62 }
duke@435 63
duke@435 64 static bool is_kill(int usedef) {
duke@435 65 switch(usedef) {
duke@435 66 case Component::KILL:
duke@435 67 case Component::USE_KILL: return true; break;
duke@435 68 }
duke@435 69 return false;
duke@435 70 }
duke@435 71
duke@435 72 //---------------------------ChainList Methods-------------------------------
duke@435 73 ChainList::ChainList() {
duke@435 74 }
duke@435 75
duke@435 76 void ChainList::insert(const char *name, const char *cost, const char *rule) {
duke@435 77 _name.addName(name);
duke@435 78 _cost.addName(cost);
duke@435 79 _rule.addName(rule);
duke@435 80 }
duke@435 81
duke@435 82 bool ChainList::search(const char *name) {
duke@435 83 return _name.search(name);
duke@435 84 }
duke@435 85
duke@435 86 void ChainList::reset() {
duke@435 87 _name.reset();
duke@435 88 _cost.reset();
duke@435 89 _rule.reset();
duke@435 90 }
duke@435 91
duke@435 92 bool ChainList::iter(const char * &name, const char * &cost, const char * &rule) {
duke@435 93 bool notDone = false;
duke@435 94 const char *n = _name.iter();
duke@435 95 const char *c = _cost.iter();
duke@435 96 const char *r = _rule.iter();
duke@435 97
duke@435 98 if (n && c && r) {
duke@435 99 notDone = true;
duke@435 100 name = n;
duke@435 101 cost = c;
duke@435 102 rule = r;
duke@435 103 }
duke@435 104
duke@435 105 return notDone;
duke@435 106 }
duke@435 107
duke@435 108 void ChainList::dump() {
duke@435 109 output(stderr);
duke@435 110 }
duke@435 111
duke@435 112 void ChainList::output(FILE *fp) {
duke@435 113 fprintf(fp, "\nChain Rules: output resets iterator\n");
duke@435 114 const char *cost = NULL;
duke@435 115 const char *name = NULL;
duke@435 116 const char *rule = NULL;
duke@435 117 bool chains_exist = false;
duke@435 118 for(reset(); (iter(name,cost,rule)) == true; ) {
duke@435 119 fprintf(fp, "Chain to <%s> at cost #%s using %s_rule\n",name, cost ? cost : "0", rule);
duke@435 120 // // Check for transitive chain rules
duke@435 121 // Form *form = (Form *)_globalNames[rule];
duke@435 122 // if (form->is_instruction()) {
duke@435 123 // // chain_rule(fp, indent, name, cost, rule);
duke@435 124 // chain_rule(fp, indent, name, cost, rule);
duke@435 125 // }
duke@435 126 }
duke@435 127 reset();
duke@435 128 if( ! chains_exist ) {
duke@435 129 fprintf(fp, "No entries in this ChainList\n");
duke@435 130 }
duke@435 131 }
duke@435 132
duke@435 133
duke@435 134 //---------------------------MatchList Methods-------------------------------
duke@435 135 bool MatchList::search(const char *opc, const char *res, const char *lch,
duke@435 136 const char *rch, Predicate *pr) {
duke@435 137 bool tmp = false;
duke@435 138 if ((res == _resultStr) || (res && _resultStr && !strcmp(res, _resultStr))) {
duke@435 139 if ((lch == _lchild) || (lch && _lchild && !strcmp(lch, _lchild))) {
duke@435 140 if ((rch == _rchild) || (rch && _rchild && !strcmp(rch, _rchild))) {
duke@435 141 char * predStr = get_pred();
duke@435 142 char * prStr = pr?pr->_pred:NULL;
jrose@910 143 if (ADLParser::equivalent_expressions(prStr, predStr)) {
duke@435 144 return true;
duke@435 145 }
duke@435 146 }
duke@435 147 }
duke@435 148 }
duke@435 149 if (_next) {
duke@435 150 tmp = _next->search(opc, res, lch, rch, pr);
duke@435 151 }
duke@435 152 return tmp;
duke@435 153 }
duke@435 154
duke@435 155
duke@435 156 void MatchList::dump() {
duke@435 157 output(stderr);
duke@435 158 }
duke@435 159
duke@435 160 void MatchList::output(FILE *fp) {
duke@435 161 fprintf(fp, "\nMatchList output is Unimplemented();\n");
duke@435 162 }
duke@435 163
duke@435 164
duke@435 165 //---------------------------ArchDesc Constructor and Destructor-------------
duke@435 166
duke@435 167 ArchDesc::ArchDesc()
duke@435 168 : _globalNames(cmpstr,hashstr, Form::arena),
duke@435 169 _globalDefs(cmpstr,hashstr, Form::arena),
duke@435 170 _preproc_table(cmpstr,hashstr, Form::arena),
duke@435 171 _idealIndex(cmpstr,hashstr, Form::arena),
duke@435 172 _internalOps(cmpstr,hashstr, Form::arena),
duke@435 173 _internalMatch(cmpstr,hashstr, Form::arena),
duke@435 174 _chainRules(cmpstr,hashstr, Form::arena),
duke@435 175 _cisc_spill_operand(NULL) {
duke@435 176
duke@435 177 // Initialize the opcode to MatchList table with NULLs
duke@435 178 for( int i=0; i<_last_opcode; ++i ) {
duke@435 179 _mlistab[i] = NULL;
duke@435 180 }
duke@435 181
duke@435 182 // Set-up the global tables
duke@435 183 initKeywords(_globalNames); // Initialize the Name Table with keywords
duke@435 184
duke@435 185 // Prime user-defined types with predefined types: Set, RegI, RegF, ...
duke@435 186 initBaseOpTypes();
duke@435 187
duke@435 188 // Initialize flags & counters
duke@435 189 _TotalLines = 0;
duke@435 190 _no_output = 0;
duke@435 191 _quiet_mode = 0;
duke@435 192 _disable_warnings = 0;
duke@435 193 _dfa_debug = 0;
duke@435 194 _dfa_small = 0;
duke@435 195 _adl_debug = 0;
duke@435 196 _adlocation_debug = 0;
duke@435 197 _internalOpCounter = 0;
duke@435 198 _cisc_spill_debug = false;
duke@435 199 _short_branch_debug = false;
duke@435 200
duke@435 201 // Initialize match rule flags
duke@435 202 for (int i = 0; i < _last_opcode; i++) {
duke@435 203 _has_match_rule[i] = false;
duke@435 204 }
duke@435 205
duke@435 206 // Error/Warning Counts
duke@435 207 _syntax_errs = 0;
duke@435 208 _semantic_errs = 0;
duke@435 209 _warnings = 0;
duke@435 210 _internal_errs = 0;
duke@435 211
duke@435 212 // Initialize I/O Files
duke@435 213 _ADL_file._name = NULL; _ADL_file._fp = NULL;
duke@435 214 // Machine dependent output files
kvn@868 215 _DFA_file._name = NULL; _DFA_file._fp = NULL;
kvn@868 216 _HPP_file._name = NULL; _HPP_file._fp = NULL;
kvn@868 217 _CPP_file._name = NULL; _CPP_file._fp = NULL;
duke@435 218 _bug_file._name = "bugs.out"; _bug_file._fp = NULL;
duke@435 219
duke@435 220 // Initialize Register & Pipeline Form Pointers
duke@435 221 _register = NULL;
duke@435 222 _encode = NULL;
duke@435 223 _pipeline = NULL;
kvn@4161 224 _frame = NULL;
duke@435 225 }
duke@435 226
duke@435 227 ArchDesc::~ArchDesc() {
duke@435 228 // Clean-up and quit
duke@435 229
duke@435 230 }
duke@435 231
duke@435 232 //---------------------------ArchDesc methods: Public ----------------------
duke@435 233 // Store forms according to type
duke@435 234 void ArchDesc::addForm(PreHeaderForm *ptr) { _pre_header.addForm(ptr); };
duke@435 235 void ArchDesc::addForm(HeaderForm *ptr) { _header.addForm(ptr); };
duke@435 236 void ArchDesc::addForm(SourceForm *ptr) { _source.addForm(ptr); };
duke@435 237 void ArchDesc::addForm(EncodeForm *ptr) { _encode = ptr; };
duke@435 238 void ArchDesc::addForm(InstructForm *ptr) { _instructions.addForm(ptr); };
duke@435 239 void ArchDesc::addForm(MachNodeForm *ptr) { _machnodes.addForm(ptr); };
duke@435 240 void ArchDesc::addForm(OperandForm *ptr) { _operands.addForm(ptr); };
duke@435 241 void ArchDesc::addForm(OpClassForm *ptr) { _opclass.addForm(ptr); };
duke@435 242 void ArchDesc::addForm(AttributeForm *ptr) { _attributes.addForm(ptr); };
duke@435 243 void ArchDesc::addForm(RegisterForm *ptr) { _register = ptr; };
duke@435 244 void ArchDesc::addForm(FrameForm *ptr) { _frame = ptr; };
duke@435 245 void ArchDesc::addForm(PipelineForm *ptr) { _pipeline = ptr; };
duke@435 246
duke@435 247 // Build MatchList array and construct MatchLists
duke@435 248 void ArchDesc::generateMatchLists() {
duke@435 249 // Call inspection routines to populate array
duke@435 250 inspectOperands();
duke@435 251 inspectInstructions();
duke@435 252 }
duke@435 253
duke@435 254 // Build MatchList structures for operands
duke@435 255 void ArchDesc::inspectOperands() {
duke@435 256
duke@435 257 // Iterate through all operands
duke@435 258 _operands.reset();
duke@435 259 OperandForm *op;
duke@435 260 for( ; (op = (OperandForm*)_operands.iter()) != NULL;) {
duke@435 261 // Construct list of top-level operands (components)
duke@435 262 op->build_components();
duke@435 263
duke@435 264 // Ensure that match field is defined.
duke@435 265 if ( op->_matrule == NULL ) continue;
duke@435 266
duke@435 267 // Type check match rules
duke@435 268 check_optype(op->_matrule);
duke@435 269
duke@435 270 // Construct chain rules
duke@435 271 build_chain_rule(op);
duke@435 272
duke@435 273 MatchRule &mrule = *op->_matrule;
duke@435 274 Predicate *pred = op->_predicate;
duke@435 275
duke@435 276 // Grab the machine type of the operand
duke@435 277 const char *rootOp = op->_ident;
duke@435 278 mrule._machType = rootOp;
duke@435 279
duke@435 280 // Check for special cases
duke@435 281 if (strcmp(rootOp,"Universe")==0) continue;
duke@435 282 if (strcmp(rootOp,"label")==0) continue;
duke@435 283 // !!!!! !!!!!
duke@435 284 assert( strcmp(rootOp,"sReg") != 0, "Disable untyped 'sReg'");
duke@435 285 if (strcmp(rootOp,"sRegI")==0) continue;
duke@435 286 if (strcmp(rootOp,"sRegP")==0) continue;
duke@435 287 if (strcmp(rootOp,"sRegF")==0) continue;
duke@435 288 if (strcmp(rootOp,"sRegD")==0) continue;
duke@435 289 if (strcmp(rootOp,"sRegL")==0) continue;
duke@435 290
duke@435 291 // Cost for this match
duke@435 292 const char *costStr = op->cost();
duke@435 293 const char *defaultCost =
duke@435 294 ((AttributeForm*)_globalNames[AttributeForm::_op_cost])->_attrdef;
duke@435 295 const char *cost = costStr? costStr : defaultCost;
duke@435 296
duke@435 297 // Find result type for match.
duke@435 298 const char *result = op->reduce_result();
duke@435 299 bool has_root = false;
duke@435 300
duke@435 301 // Construct a MatchList for this entry
duke@435 302 buildMatchList(op->_matrule, result, rootOp, pred, cost);
duke@435 303 }
duke@435 304 }
duke@435 305
duke@435 306 // Build MatchList structures for instructions
duke@435 307 void ArchDesc::inspectInstructions() {
duke@435 308
duke@435 309 // Iterate through all instructions
duke@435 310 _instructions.reset();
duke@435 311 InstructForm *instr;
duke@435 312 for( ; (instr = (InstructForm*)_instructions.iter()) != NULL; ) {
duke@435 313 // Construct list of top-level operands (components)
duke@435 314 instr->build_components();
duke@435 315
duke@435 316 // Ensure that match field is defined.
duke@435 317 if ( instr->_matrule == NULL ) continue;
duke@435 318
duke@435 319 MatchRule &mrule = *instr->_matrule;
duke@435 320 Predicate *pred = instr->build_predicate();
duke@435 321
duke@435 322 // Grab the machine type of the operand
duke@435 323 const char *rootOp = instr->_ident;
duke@435 324 mrule._machType = rootOp;
duke@435 325
duke@435 326 // Cost for this match
duke@435 327 const char *costStr = instr->cost();
duke@435 328 const char *defaultCost =
duke@435 329 ((AttributeForm*)_globalNames[AttributeForm::_ins_cost])->_attrdef;
duke@435 330 const char *cost = costStr? costStr : defaultCost;
duke@435 331
duke@435 332 // Find result type for match
duke@435 333 const char *result = instr->reduce_result();
duke@435 334
kvn@3051 335 if ( instr->is_ideal_branch() && instr->label_position() == -1 ||
kvn@3051 336 !instr->is_ideal_branch() && instr->label_position() != -1) {
kvn@3051 337 syntax_err(instr->_linenum, "%s: Only branches to a label are supported\n", rootOp);
kvn@3051 338 }
kvn@3051 339
duke@435 340 Attribute *attr = instr->_attribs;
duke@435 341 while (attr != NULL) {
duke@435 342 if (strcmp(attr->_ident,"ins_short_branch") == 0 &&
duke@435 343 attr->int_val(*this) != 0) {
kvn@3040 344 if (!instr->is_ideal_branch() || instr->label_position() == -1) {
kvn@3040 345 syntax_err(instr->_linenum, "%s: Only short branch to a label is supported\n", rootOp);
kvn@3040 346 }
duke@435 347 instr->set_short_branch(true);
duke@435 348 } else if (strcmp(attr->_ident,"ins_alignment") == 0 &&
duke@435 349 attr->int_val(*this) != 0) {
duke@435 350 instr->set_alignment(attr->int_val(*this));
duke@435 351 }
duke@435 352 attr = (Attribute *)attr->_next;
duke@435 353 }
duke@435 354
duke@435 355 if (!instr->is_short_branch()) {
duke@435 356 buildMatchList(instr->_matrule, result, mrule._machType, pred, cost);
duke@435 357 }
duke@435 358 }
duke@435 359 }
duke@435 360
duke@435 361 static int setsResult(MatchRule &mrule) {
duke@435 362 if (strcmp(mrule._name,"Set") == 0) return 1;
duke@435 363 return 0;
duke@435 364 }
duke@435 365
duke@435 366 const char *ArchDesc::getMatchListIndex(MatchRule &mrule) {
duke@435 367 if (setsResult(mrule)) {
duke@435 368 // right child
duke@435 369 return mrule._rChild->_opType;
duke@435 370 } else {
duke@435 371 // first entry
duke@435 372 return mrule._opType;
duke@435 373 }
duke@435 374 }
duke@435 375
duke@435 376
duke@435 377 //------------------------------result of reduction----------------------------
duke@435 378
duke@435 379
duke@435 380 //------------------------------left reduction---------------------------------
duke@435 381 // Return the left reduction associated with an internal name
duke@435 382 const char *ArchDesc::reduceLeft(char *internalName) {
duke@435 383 const char *left = NULL;
duke@435 384 MatchNode *mnode = (MatchNode*)_internalMatch[internalName];
duke@435 385 if (mnode->_lChild) {
duke@435 386 mnode = mnode->_lChild;
duke@435 387 left = mnode->_internalop ? mnode->_internalop : mnode->_opType;
duke@435 388 }
duke@435 389 return left;
duke@435 390 }
duke@435 391
duke@435 392
duke@435 393 //------------------------------right reduction--------------------------------
duke@435 394 const char *ArchDesc::reduceRight(char *internalName) {
duke@435 395 const char *right = NULL;
duke@435 396 MatchNode *mnode = (MatchNode*)_internalMatch[internalName];
duke@435 397 if (mnode->_rChild) {
duke@435 398 mnode = mnode->_rChild;
duke@435 399 right = mnode->_internalop ? mnode->_internalop : mnode->_opType;
duke@435 400 }
duke@435 401 return right;
duke@435 402 }
duke@435 403
duke@435 404
duke@435 405 //------------------------------check_optype-----------------------------------
duke@435 406 void ArchDesc::check_optype(MatchRule *mrule) {
duke@435 407 MatchRule *rule = mrule;
duke@435 408
duke@435 409 // !!!!!
duke@435 410 // // Cycle through the list of match rules
duke@435 411 // while(mrule) {
duke@435 412 // // Check for a filled in type field
duke@435 413 // if (mrule->_opType == NULL) {
duke@435 414 // const Form *form = operands[_result];
duke@435 415 // OpClassForm *opcForm = form ? form->is_opclass() : NULL;
duke@435 416 // assert(opcForm != NULL, "Match Rule contains invalid operand name.");
duke@435 417 // }
duke@435 418 // char *opType = opcForm->_ident;
duke@435 419 // }
duke@435 420 }
duke@435 421
duke@435 422 //------------------------------add_chain_rule_entry--------------------------
duke@435 423 void ArchDesc::add_chain_rule_entry(const char *src, const char *cost,
duke@435 424 const char *result) {
duke@435 425 // Look-up the operation in chain rule table
duke@435 426 ChainList *lst = (ChainList *)_chainRules[src];
duke@435 427 if (lst == NULL) {
duke@435 428 lst = new ChainList();
duke@435 429 _chainRules.Insert(src, lst);
duke@435 430 }
duke@435 431 if (!lst->search(result)) {
duke@435 432 if (cost == NULL) {
duke@435 433 cost = ((AttributeForm*)_globalNames[AttributeForm::_op_cost])->_attrdef;
duke@435 434 }
duke@435 435 lst->insert(result, cost, result);
duke@435 436 }
duke@435 437 }
duke@435 438
duke@435 439 //------------------------------build_chain_rule-------------------------------
duke@435 440 void ArchDesc::build_chain_rule(OperandForm *oper) {
duke@435 441 MatchRule *rule;
duke@435 442
duke@435 443 // Check for chain rules here
duke@435 444 // If this is only a chain rule
duke@435 445 if ((oper->_matrule) && (oper->_matrule->_lChild == NULL) &&
duke@435 446 (oper->_matrule->_rChild == NULL)) {
duke@435 447
twisti@1038 448 {
twisti@1038 449 const Form *form = _globalNames[oper->_matrule->_opType];
twisti@1038 450 if ((form) && form->is_operand() &&
twisti@1038 451 (form->ideal_only() == false)) {
twisti@1038 452 add_chain_rule_entry(oper->_matrule->_opType, oper->cost(), oper->_ident);
twisti@1038 453 }
duke@435 454 }
duke@435 455 // Check for additional chain rules
duke@435 456 if (oper->_matrule->_next) {
duke@435 457 rule = oper->_matrule;
duke@435 458 do {
duke@435 459 rule = rule->_next;
duke@435 460 // Any extra match rules after the first must be chain rules
duke@435 461 const Form *form = _globalNames[rule->_opType];
duke@435 462 if ((form) && form->is_operand() &&
duke@435 463 (form->ideal_only() == false)) {
duke@435 464 add_chain_rule_entry(rule->_opType, oper->cost(), oper->_ident);
duke@435 465 }
duke@435 466 } while(rule->_next != NULL);
duke@435 467 }
duke@435 468 }
duke@435 469 else if ((oper->_matrule) && (oper->_matrule->_next)) {
duke@435 470 // Regardles of whether the first matchrule is a chain rule, check the list
duke@435 471 rule = oper->_matrule;
duke@435 472 do {
duke@435 473 rule = rule->_next;
duke@435 474 // Any extra match rules after the first must be chain rules
duke@435 475 const Form *form = _globalNames[rule->_opType];
duke@435 476 if ((form) && form->is_operand() &&
duke@435 477 (form->ideal_only() == false)) {
duke@435 478 assert( oper->cost(), "This case expects NULL cost, not default cost");
duke@435 479 add_chain_rule_entry(rule->_opType, oper->cost(), oper->_ident);
duke@435 480 }
duke@435 481 } while(rule->_next != NULL);
duke@435 482 }
duke@435 483
duke@435 484 }
duke@435 485
duke@435 486 //------------------------------buildMatchList---------------------------------
duke@435 487 // operands and instructions provide the result
duke@435 488 void ArchDesc::buildMatchList(MatchRule *mrule, const char *resultStr,
duke@435 489 const char *rootOp, Predicate *pred,
duke@435 490 const char *cost) {
duke@435 491 const char *leftstr, *rightstr;
duke@435 492 MatchNode *mnode;
duke@435 493
duke@435 494 leftstr = rightstr = NULL;
duke@435 495 // Check for chain rule, and do not generate a match list for it
duke@435 496 if ( mrule->is_chain_rule(_globalNames) ) {
duke@435 497 return;
duke@435 498 }
duke@435 499
duke@435 500 // Identify index position among ideal operands
duke@435 501 intptr_t index = _last_opcode;
duke@435 502 const char *indexStr = getMatchListIndex(*mrule);
duke@435 503 index = (intptr_t)_idealIndex[indexStr];
duke@435 504 if (index == 0) {
duke@435 505 fprintf(stderr, "Ideal node missing: %s\n", indexStr);
duke@435 506 assert(index != 0, "Failed lookup of ideal node\n");
duke@435 507 }
duke@435 508
duke@435 509 // Check that this will be placed appropriately in the DFA
duke@435 510 if (index >= _last_opcode) {
duke@435 511 fprintf(stderr, "Invalid match rule %s <-- ( %s )\n",
duke@435 512 resultStr ? resultStr : " ",
duke@435 513 rootOp ? rootOp : " ");
duke@435 514 assert(index < _last_opcode, "Matching item not in ideal graph\n");
duke@435 515 return;
duke@435 516 }
duke@435 517
duke@435 518
duke@435 519 // Walk the MatchRule, generating MatchList entries for each level
duke@435 520 // of the rule (each nesting of parentheses)
duke@435 521 // Check for "Set"
duke@435 522 if (!strcmp(mrule->_opType, "Set")) {
duke@435 523 mnode = mrule->_rChild;
duke@435 524 buildMList(mnode, rootOp, resultStr, pred, cost);
duke@435 525 return;
duke@435 526 }
duke@435 527 // Build MatchLists for children
duke@435 528 // Check each child for an internal operand name, and use that name
duke@435 529 // for the parent's matchlist entry if it exists
duke@435 530 mnode = mrule->_lChild;
duke@435 531 if (mnode) {
duke@435 532 buildMList(mnode, NULL, NULL, NULL, NULL);
duke@435 533 leftstr = mnode->_internalop ? mnode->_internalop : mnode->_opType;
duke@435 534 }
duke@435 535 mnode = mrule->_rChild;
duke@435 536 if (mnode) {
duke@435 537 buildMList(mnode, NULL, NULL, NULL, NULL);
duke@435 538 rightstr = mnode->_internalop ? mnode->_internalop : mnode->_opType;
duke@435 539 }
duke@435 540 // Search for an identical matchlist entry already on the list
duke@435 541 if ((_mlistab[index] == NULL) ||
duke@435 542 (_mlistab[index] &&
duke@435 543 !_mlistab[index]->search(rootOp, resultStr, leftstr, rightstr, pred))) {
duke@435 544 // Place this match rule at front of list
duke@435 545 MatchList *mList =
duke@435 546 new MatchList(_mlistab[index], pred, cost,
duke@435 547 rootOp, resultStr, leftstr, rightstr);
duke@435 548 _mlistab[index] = mList;
duke@435 549 }
duke@435 550 }
duke@435 551
duke@435 552 // Recursive call for construction of match lists
duke@435 553 void ArchDesc::buildMList(MatchNode *node, const char *rootOp,
duke@435 554 const char *resultOp, Predicate *pred,
duke@435 555 const char *cost) {
duke@435 556 const char *leftstr, *rightstr;
duke@435 557 const char *resultop;
duke@435 558 const char *opcode;
duke@435 559 MatchNode *mnode;
duke@435 560 Form *form;
duke@435 561
duke@435 562 leftstr = rightstr = NULL;
duke@435 563 // Do not process leaves of the Match Tree if they are not ideal
duke@435 564 if ((node) && (node->_lChild == NULL) && (node->_rChild == NULL) &&
duke@435 565 ((form = (Form *)_globalNames[node->_opType]) != NULL) &&
duke@435 566 (!form->ideal_only())) {
duke@435 567 return;
duke@435 568 }
duke@435 569
duke@435 570 // Identify index position among ideal operands
duke@435 571 intptr_t index = _last_opcode;
duke@435 572 const char *indexStr = node ? node->_opType : (char *) " ";
duke@435 573 index = (intptr_t)_idealIndex[indexStr];
duke@435 574 if (index == 0) {
duke@435 575 fprintf(stderr, "error: operand \"%s\" not found\n", indexStr);
duke@435 576 assert(0, "fatal error");
duke@435 577 }
duke@435 578
duke@435 579 // Build MatchLists for children
duke@435 580 // Check each child for an internal operand name, and use that name
duke@435 581 // for the parent's matchlist entry if it exists
duke@435 582 mnode = node->_lChild;
duke@435 583 if (mnode) {
duke@435 584 buildMList(mnode, NULL, NULL, NULL, NULL);
duke@435 585 leftstr = mnode->_internalop ? mnode->_internalop : mnode->_opType;
duke@435 586 }
duke@435 587 mnode = node->_rChild;
duke@435 588 if (mnode) {
duke@435 589 buildMList(mnode, NULL, NULL, NULL, NULL);
duke@435 590 rightstr = mnode->_internalop ? mnode->_internalop : mnode->_opType;
duke@435 591 }
duke@435 592 // Grab the string for the opcode of this list entry
duke@435 593 if (rootOp == NULL) {
duke@435 594 opcode = (node->_internalop) ? node->_internalop : node->_opType;
duke@435 595 } else {
duke@435 596 opcode = rootOp;
duke@435 597 }
duke@435 598 // Grab the string for the result of this list entry
duke@435 599 if (resultOp == NULL) {
duke@435 600 resultop = (node->_internalop) ? node->_internalop : node->_opType;
duke@435 601 }
duke@435 602 else resultop = resultOp;
duke@435 603 // Search for an identical matchlist entry already on the list
duke@435 604 if ((_mlistab[index] == NULL) || (_mlistab[index] &&
duke@435 605 !_mlistab[index]->search(opcode, resultop, leftstr, rightstr, pred))) {
duke@435 606 // Place this match rule at front of list
duke@435 607 MatchList *mList =
duke@435 608 new MatchList(_mlistab[index],pred,cost,
duke@435 609 opcode, resultop, leftstr, rightstr);
duke@435 610 _mlistab[index] = mList;
duke@435 611 }
duke@435 612 }
duke@435 613
duke@435 614 // Count number of OperandForms defined
duke@435 615 int ArchDesc::operandFormCount() {
duke@435 616 // Only interested in ones with non-NULL match rule
duke@435 617 int count = 0; _operands.reset();
duke@435 618 OperandForm *cur;
duke@435 619 for( ; (cur = (OperandForm*)_operands.iter()) != NULL; ) {
duke@435 620 if (cur->_matrule != NULL) ++count;
duke@435 621 };
duke@435 622 return count;
duke@435 623 }
duke@435 624
duke@435 625 // Count number of OpClassForms defined
duke@435 626 int ArchDesc::opclassFormCount() {
duke@435 627 // Only interested in ones with non-NULL match rule
duke@435 628 int count = 0; _operands.reset();
duke@435 629 OpClassForm *cur;
duke@435 630 for( ; (cur = (OpClassForm*)_opclass.iter()) != NULL; ) {
duke@435 631 ++count;
duke@435 632 };
duke@435 633 return count;
duke@435 634 }
duke@435 635
duke@435 636 // Count number of InstructForms defined
duke@435 637 int ArchDesc::instructFormCount() {
duke@435 638 // Only interested in ones with non-NULL match rule
duke@435 639 int count = 0; _instructions.reset();
duke@435 640 InstructForm *cur;
duke@435 641 for( ; (cur = (InstructForm*)_instructions.iter()) != NULL; ) {
duke@435 642 if (cur->_matrule != NULL) ++count;
duke@435 643 };
duke@435 644 return count;
duke@435 645 }
duke@435 646
duke@435 647
duke@435 648 //------------------------------get_preproc_def--------------------------------
duke@435 649 // Return the textual binding for a given CPP flag name.
duke@435 650 // Return NULL if there is no binding, or it has been #undef-ed.
duke@435 651 char* ArchDesc::get_preproc_def(const char* flag) {
kvn@4161 652 // In case of syntax errors, flag may take the value NULL.
kvn@4161 653 SourceForm* deff = NULL;
kvn@4161 654 if (flag != NULL)
kvn@4161 655 deff = (SourceForm*) _preproc_table[flag];
duke@435 656 return (deff == NULL) ? NULL : deff->_code;
duke@435 657 }
duke@435 658
duke@435 659
duke@435 660 //------------------------------set_preproc_def--------------------------------
duke@435 661 // Change or create a textual binding for a given CPP flag name.
duke@435 662 // Giving NULL means the flag name is to be #undef-ed.
duke@435 663 // In any case, _preproc_list collects all names either #defined or #undef-ed.
duke@435 664 void ArchDesc::set_preproc_def(const char* flag, const char* def) {
duke@435 665 SourceForm* deff = (SourceForm*) _preproc_table[flag];
duke@435 666 if (deff == NULL) {
duke@435 667 deff = new SourceForm(NULL);
duke@435 668 _preproc_table.Insert(flag, deff);
duke@435 669 _preproc_list.addName(flag); // this supports iteration
duke@435 670 }
duke@435 671 deff->_code = (char*) def;
duke@435 672 }
duke@435 673
duke@435 674
duke@435 675 bool ArchDesc::verify() {
duke@435 676
duke@435 677 if (_register)
duke@435 678 assert( _register->verify(), "Register declarations failed verification");
duke@435 679 if (!_quiet_mode)
duke@435 680 fprintf(stderr,"\n");
duke@435 681 // fprintf(stderr,"---------------------------- Verify Operands ---------------\n");
duke@435 682 // _operands.verify();
duke@435 683 // fprintf(stderr,"\n");
duke@435 684 // fprintf(stderr,"---------------------------- Verify Operand Classes --------\n");
duke@435 685 // _opclass.verify();
duke@435 686 // fprintf(stderr,"\n");
duke@435 687 // fprintf(stderr,"---------------------------- Verify Attributes ------------\n");
duke@435 688 // _attributes.verify();
duke@435 689 // fprintf(stderr,"\n");
duke@435 690 if (!_quiet_mode)
duke@435 691 fprintf(stderr,"---------------------------- Verify Instructions ----------------------------\n");
duke@435 692 _instructions.verify();
duke@435 693 if (!_quiet_mode)
duke@435 694 fprintf(stderr,"\n");
duke@435 695 // if ( _encode ) {
duke@435 696 // fprintf(stderr,"---------------------------- Verify Encodings --------------\n");
duke@435 697 // _encode->verify();
duke@435 698 // }
duke@435 699
duke@435 700 //if (_pipeline) _pipeline->verify();
duke@435 701
duke@435 702 return true;
duke@435 703 }
duke@435 704
duke@435 705
duke@435 706 void ArchDesc::dump() {
duke@435 707 _pre_header.dump();
duke@435 708 _header.dump();
duke@435 709 _source.dump();
duke@435 710 if (_register) _register->dump();
duke@435 711 fprintf(stderr,"\n");
duke@435 712 fprintf(stderr,"------------------ Dump Operands ---------------------\n");
duke@435 713 _operands.dump();
duke@435 714 fprintf(stderr,"\n");
duke@435 715 fprintf(stderr,"------------------ Dump Operand Classes --------------\n");
duke@435 716 _opclass.dump();
duke@435 717 fprintf(stderr,"\n");
duke@435 718 fprintf(stderr,"------------------ Dump Attributes ------------------\n");
duke@435 719 _attributes.dump();
duke@435 720 fprintf(stderr,"\n");
duke@435 721 fprintf(stderr,"------------------ Dump Instructions -----------------\n");
duke@435 722 _instructions.dump();
duke@435 723 if ( _encode ) {
duke@435 724 fprintf(stderr,"------------------ Dump Encodings --------------------\n");
duke@435 725 _encode->dump();
duke@435 726 }
duke@435 727 if (_pipeline) _pipeline->dump();
duke@435 728 }
duke@435 729
duke@435 730
duke@435 731 //------------------------------init_keywords----------------------------------
duke@435 732 // Load the kewords into the global name table
duke@435 733 void ArchDesc::initKeywords(FormDict& names) {
duke@435 734 // Insert keyword strings into Global Name Table. Keywords have a NULL value
duke@435 735 // field for quick easy identification when checking identifiers.
duke@435 736 names.Insert("instruct", NULL);
duke@435 737 names.Insert("operand", NULL);
duke@435 738 names.Insert("attribute", NULL);
duke@435 739 names.Insert("source", NULL);
duke@435 740 names.Insert("register", NULL);
duke@435 741 names.Insert("pipeline", NULL);
duke@435 742 names.Insert("constraint", NULL);
duke@435 743 names.Insert("predicate", NULL);
duke@435 744 names.Insert("encode", NULL);
duke@435 745 names.Insert("enc_class", NULL);
duke@435 746 names.Insert("interface", NULL);
duke@435 747 names.Insert("opcode", NULL);
duke@435 748 names.Insert("ins_encode", NULL);
duke@435 749 names.Insert("match", NULL);
duke@435 750 names.Insert("effect", NULL);
duke@435 751 names.Insert("expand", NULL);
duke@435 752 names.Insert("rewrite", NULL);
duke@435 753 names.Insert("reg_def", NULL);
duke@435 754 names.Insert("reg_class", NULL);
duke@435 755 names.Insert("alloc_class", NULL);
duke@435 756 names.Insert("resource", NULL);
duke@435 757 names.Insert("pipe_class", NULL);
duke@435 758 names.Insert("pipe_desc", NULL);
duke@435 759 }
duke@435 760
duke@435 761
duke@435 762 //------------------------------internal_err----------------------------------
duke@435 763 // Issue a parser error message, and skip to the end of the current line
duke@435 764 void ArchDesc::internal_err(const char *fmt, ...) {
duke@435 765 va_list args;
duke@435 766
duke@435 767 va_start(args, fmt);
duke@435 768 _internal_errs += emit_msg(0, INTERNAL_ERR, 0, fmt, args);
duke@435 769 va_end(args);
duke@435 770
duke@435 771 _no_output = 1;
duke@435 772 }
duke@435 773
duke@435 774 //------------------------------syntax_err----------------------------------
duke@435 775 // Issue a parser error message, and skip to the end of the current line
duke@435 776 void ArchDesc::syntax_err(int lineno, const char *fmt, ...) {
duke@435 777 va_list args;
duke@435 778
duke@435 779 va_start(args, fmt);
duke@435 780 _internal_errs += emit_msg(0, SYNERR, lineno, fmt, args);
duke@435 781 va_end(args);
duke@435 782
duke@435 783 _no_output = 1;
duke@435 784 }
duke@435 785
duke@435 786 //------------------------------emit_msg---------------------------------------
duke@435 787 // Emit a user message, typically a warning or error
duke@435 788 int ArchDesc::emit_msg(int quiet, int flag, int line, const char *fmt,
duke@435 789 va_list args) {
duke@435 790 static int last_lineno = -1;
duke@435 791 int i;
duke@435 792 const char *pref;
duke@435 793
duke@435 794 switch(flag) {
duke@435 795 case 0: pref = "Warning: "; break;
duke@435 796 case 1: pref = "Syntax Error: "; break;
duke@435 797 case 2: pref = "Semantic Error: "; break;
duke@435 798 case 3: pref = "Internal Error: "; break;
duke@435 799 default: assert(0, ""); break;
duke@435 800 }
duke@435 801
duke@435 802 if (line == last_lineno) return 0;
duke@435 803 last_lineno = line;
duke@435 804
duke@435 805 if (!quiet) { /* no output if in quiet mode */
duke@435 806 i = fprintf(errfile, "%s(%d) ", _ADL_file._name, line);
duke@435 807 while (i++ <= 15) fputc(' ', errfile);
duke@435 808 fprintf(errfile, "%-8s:", pref);
duke@435 809 vfprintf(errfile, fmt, args);
kvn@4161 810 fprintf(errfile, "\n");
kvn@4161 811 fflush(errfile);
kvn@4161 812 }
duke@435 813 return 1;
duke@435 814 }
duke@435 815
duke@435 816
duke@435 817 // ---------------------------------------------------------------------------
duke@435 818 //--------Utilities to build mappings for machine registers ------------------
duke@435 819 // ---------------------------------------------------------------------------
duke@435 820
duke@435 821 // Construct the name of the register mask.
duke@435 822 static const char *getRegMask(const char *reg_class_name) {
duke@435 823 if( reg_class_name == NULL ) return "RegMask::Empty";
duke@435 824
duke@435 825 if (strcmp(reg_class_name,"Universe")==0) {
duke@435 826 return "RegMask::Empty";
duke@435 827 } else if (strcmp(reg_class_name,"stack_slots")==0) {
duke@435 828 return "(Compile::current()->FIRST_STACK_mask())";
duke@435 829 } else {
duke@435 830 char *rc_name = toUpper(reg_class_name);
duke@435 831 const char *mask = "_mask";
roland@3317 832 int length = (int)strlen(rc_name) + (int)strlen(mask) + 5;
duke@435 833 char *regMask = new char[length];
roland@3317 834 sprintf(regMask,"%s%s()", rc_name, mask);
neliasso@4875 835 delete[] rc_name;
duke@435 836 return regMask;
duke@435 837 }
duke@435 838 }
duke@435 839
duke@435 840 // Convert a register class name to its register mask.
duke@435 841 const char *ArchDesc::reg_class_to_reg_mask(const char *rc_name) {
duke@435 842 const char *reg_mask = "RegMask::Empty";
duke@435 843
duke@435 844 if( _register ) {
duke@435 845 RegClass *reg_class = _register->getRegClass(rc_name);
duke@435 846 if (reg_class == NULL) {
duke@435 847 syntax_err(0, "Use of an undefined register class %s", rc_name);
duke@435 848 return reg_mask;
duke@435 849 }
duke@435 850
duke@435 851 // Construct the name of the register mask.
duke@435 852 reg_mask = getRegMask(rc_name);
duke@435 853 }
duke@435 854
duke@435 855 return reg_mask;
duke@435 856 }
duke@435 857
duke@435 858
duke@435 859 // Obtain the name of the RegMask for an OperandForm
duke@435 860 const char *ArchDesc::reg_mask(OperandForm &opForm) {
duke@435 861 const char *regMask = "RegMask::Empty";
duke@435 862
duke@435 863 // Check constraints on result's register class
duke@435 864 const char *result_class = opForm.constrained_reg_class();
kvn@4161 865 if (result_class == NULL) {
kvn@4161 866 opForm.dump();
kvn@4161 867 syntax_err(opForm._linenum,
kvn@4161 868 "Use of an undefined result class for operand: %s",
kvn@4161 869 opForm._ident);
kvn@4161 870 abort();
kvn@4161 871 }
kvn@4161 872
duke@435 873 regMask = reg_class_to_reg_mask( result_class );
duke@435 874
duke@435 875 return regMask;
duke@435 876 }
duke@435 877
duke@435 878 // Obtain the name of the RegMask for an InstructForm
duke@435 879 const char *ArchDesc::reg_mask(InstructForm &inForm) {
duke@435 880 const char *result = inForm.reduce_result();
kvn@4161 881
kvn@4161 882 if (result == NULL) {
kvn@4161 883 syntax_err(inForm._linenum,
kvn@4161 884 "Did not find result operand or RegMask"
kvn@4161 885 " for this instruction: %s",
kvn@4161 886 inForm._ident);
kvn@4161 887 abort();
kvn@4161 888 }
duke@435 889
duke@435 890 // Instructions producing 'Universe' use RegMask::Empty
duke@435 891 if( strcmp(result,"Universe")==0 ) {
duke@435 892 return "RegMask::Empty";
duke@435 893 }
duke@435 894
duke@435 895 // Lookup this result operand and get its register class
duke@435 896 Form *form = (Form*)_globalNames[result];
kvn@4161 897 if (form == NULL) {
kvn@4161 898 syntax_err(inForm._linenum,
kvn@4161 899 "Did not find result operand for result: %s", result);
kvn@4161 900 abort();
kvn@4161 901 }
duke@435 902 OperandForm *oper = form->is_operand();
kvn@4161 903 if (oper == NULL) {
kvn@4161 904 syntax_err(inForm._linenum, "Form is not an OperandForm:");
kvn@4161 905 form->dump();
kvn@4161 906 abort();
kvn@4161 907 }
duke@435 908 return reg_mask( *oper );
duke@435 909 }
duke@435 910
duke@435 911
duke@435 912 // Obtain the STACK_OR_reg_mask name for an OperandForm
duke@435 913 char *ArchDesc::stack_or_reg_mask(OperandForm &opForm) {
duke@435 914 // name of cisc_spillable version
duke@435 915 const char *reg_mask_name = reg_mask(opForm);
kvn@4161 916
kvn@4161 917 if (reg_mask_name == NULL) {
kvn@4161 918 syntax_err(opForm._linenum,
kvn@4161 919 "Did not find reg_mask for opForm: %s",
kvn@4161 920 opForm._ident);
kvn@4161 921 abort();
kvn@4161 922 }
duke@435 923
duke@435 924 const char *stack_or = "STACK_OR_";
duke@435 925 int length = (int)strlen(stack_or) + (int)strlen(reg_mask_name) + 1;
duke@435 926 char *result = new char[length];
duke@435 927 sprintf(result,"%s%s", stack_or, reg_mask_name);
duke@435 928
duke@435 929 return result;
duke@435 930 }
duke@435 931
duke@435 932 // Record that the register class must generate a stack_or_reg_mask
duke@435 933 void ArchDesc::set_stack_or_reg(const char *reg_class_name) {
duke@435 934 if( _register ) {
duke@435 935 RegClass *reg_class = _register->getRegClass(reg_class_name);
duke@435 936 reg_class->_stack_or_reg = true;
duke@435 937 }
duke@435 938 }
duke@435 939
duke@435 940
duke@435 941 // Return the type signature for the ideal operation
duke@435 942 const char *ArchDesc::getIdealType(const char *idealOp) {
duke@435 943 // Find last character in idealOp, it specifies the type
duke@435 944 char last_char = 0;
duke@435 945 const char *ptr = idealOp;
kvn@3882 946 for (; *ptr != '\0'; ++ptr) {
duke@435 947 last_char = *ptr;
duke@435 948 }
duke@435 949
kvn@3882 950 // Match Vector types.
kvn@3882 951 if (strncmp(idealOp, "Vec",3)==0) {
kvn@3882 952 switch(last_char) {
kvn@3882 953 case 'S': return "TypeVect::VECTS";
kvn@3882 954 case 'D': return "TypeVect::VECTD";
kvn@3882 955 case 'X': return "TypeVect::VECTX";
kvn@3882 956 case 'Y': return "TypeVect::VECTY";
kvn@3882 957 default:
kvn@3882 958 internal_err("Vector type %s with unrecognized type\n",idealOp);
kvn@3882 959 }
kvn@3882 960 }
kvn@3882 961
duke@435 962 // !!!!!
kvn@3882 963 switch(last_char) {
duke@435 964 case 'I': return "TypeInt::INT";
duke@435 965 case 'P': return "TypePtr::BOTTOM";
coleenp@548 966 case 'N': return "TypeNarrowOop::BOTTOM";
duke@435 967 case 'F': return "Type::FLOAT";
duke@435 968 case 'D': return "Type::DOUBLE";
duke@435 969 case 'L': return "TypeLong::LONG";
duke@435 970 case 's': return "TypeInt::CC /*flags*/";
duke@435 971 default:
duke@435 972 return NULL;
duke@435 973 // !!!!!
duke@435 974 // internal_err("Ideal type %s with unrecognized type\n",idealOp);
duke@435 975 break;
duke@435 976 }
duke@435 977
duke@435 978 return NULL;
duke@435 979 }
duke@435 980
duke@435 981
duke@435 982
duke@435 983 OperandForm *ArchDesc::constructOperand(const char *ident,
duke@435 984 bool ideal_only) {
duke@435 985 OperandForm *opForm = new OperandForm(ident, ideal_only);
duke@435 986 _globalNames.Insert(ident, opForm);
duke@435 987 addForm(opForm);
duke@435 988
duke@435 989 return opForm;
duke@435 990 }
duke@435 991
duke@435 992
duke@435 993 // Import predefined base types: Set = 1, RegI, RegP, ...
duke@435 994 void ArchDesc::initBaseOpTypes() {
duke@435 995 // Create OperandForm and assign type for each opcode.
duke@435 996 for (int i = 1; i < _last_machine_leaf; ++i) {
duke@435 997 char *ident = (char *)NodeClassNames[i];
duke@435 998 constructOperand(ident, true);
duke@435 999 }
duke@435 1000 // Create InstructForm and assign type for each ideal instruction.
duke@435 1001 for ( int j = _last_machine_leaf+1; j < _last_opcode; ++j) {
duke@435 1002 char *ident = (char *)NodeClassNames[j];
roland@4159 1003 if(!strcmp(ident, "ConI") || !strcmp(ident, "ConP") ||
roland@4159 1004 !strcmp(ident, "ConN") || !strcmp(ident, "ConNKlass") ||
duke@435 1005 !strcmp(ident, "ConF") || !strcmp(ident, "ConD") ||
duke@435 1006 !strcmp(ident, "ConL") || !strcmp(ident, "Con" ) ||
duke@435 1007 !strcmp(ident, "Bool") ) {
duke@435 1008 constructOperand(ident, true);
duke@435 1009 }
duke@435 1010 else {
duke@435 1011 InstructForm *insForm = new InstructForm(ident, true);
duke@435 1012 // insForm->_opcode = nextUserOpType(ident);
duke@435 1013 _globalNames.Insert(ident,insForm);
duke@435 1014 addForm(insForm);
duke@435 1015 }
duke@435 1016 }
duke@435 1017
duke@435 1018 { OperandForm *opForm;
duke@435 1019 // Create operand type "Universe" for return instructions.
duke@435 1020 const char *ident = "Universe";
duke@435 1021 opForm = constructOperand(ident, false);
duke@435 1022
duke@435 1023 // Create operand type "label" for branch targets
duke@435 1024 ident = "label";
duke@435 1025 opForm = constructOperand(ident, false);
duke@435 1026
duke@435 1027 // !!!!! Update - when adding a new sReg/stackSlot type
duke@435 1028 // Create operand types "sReg[IPFDL]" for stack slot registers
duke@435 1029 opForm = constructOperand("sRegI", false);
duke@435 1030 opForm->_constraint = new Constraint("ALLOC_IN_RC", "stack_slots");
duke@435 1031 opForm = constructOperand("sRegP", false);
duke@435 1032 opForm->_constraint = new Constraint("ALLOC_IN_RC", "stack_slots");
duke@435 1033 opForm = constructOperand("sRegF", false);
duke@435 1034 opForm->_constraint = new Constraint("ALLOC_IN_RC", "stack_slots");
duke@435 1035 opForm = constructOperand("sRegD", false);
duke@435 1036 opForm->_constraint = new Constraint("ALLOC_IN_RC", "stack_slots");
duke@435 1037 opForm = constructOperand("sRegL", false);
duke@435 1038 opForm->_constraint = new Constraint("ALLOC_IN_RC", "stack_slots");
duke@435 1039
duke@435 1040 // Create operand type "method" for call targets
duke@435 1041 ident = "method";
duke@435 1042 opForm = constructOperand(ident, false);
duke@435 1043 }
duke@435 1044
duke@435 1045 // Create Effect Forms for each of the legal effects
duke@435 1046 // USE, DEF, USE_DEF, KILL, USE_KILL
duke@435 1047 {
duke@435 1048 const char *ident = "USE";
duke@435 1049 Effect *eForm = new Effect(ident);
duke@435 1050 _globalNames.Insert(ident, eForm);
duke@435 1051 ident = "DEF";
duke@435 1052 eForm = new Effect(ident);
duke@435 1053 _globalNames.Insert(ident, eForm);
duke@435 1054 ident = "USE_DEF";
duke@435 1055 eForm = new Effect(ident);
duke@435 1056 _globalNames.Insert(ident, eForm);
duke@435 1057 ident = "KILL";
duke@435 1058 eForm = new Effect(ident);
duke@435 1059 _globalNames.Insert(ident, eForm);
duke@435 1060 ident = "USE_KILL";
duke@435 1061 eForm = new Effect(ident);
duke@435 1062 _globalNames.Insert(ident, eForm);
duke@435 1063 ident = "TEMP";
duke@435 1064 eForm = new Effect(ident);
duke@435 1065 _globalNames.Insert(ident, eForm);
roland@3316 1066 ident = "CALL";
roland@3316 1067 eForm = new Effect(ident);
roland@3316 1068 _globalNames.Insert(ident, eForm);
duke@435 1069 }
duke@435 1070
duke@435 1071 //
duke@435 1072 // Build mapping from ideal names to ideal indices
duke@435 1073 int idealIndex = 0;
duke@435 1074 for (idealIndex = 1; idealIndex < _last_machine_leaf; ++idealIndex) {
duke@435 1075 const char *idealName = NodeClassNames[idealIndex];
twisti@1038 1076 _idealIndex.Insert((void*) idealName, (void*) (intptr_t) idealIndex);
duke@435 1077 }
duke@435 1078 for ( idealIndex = _last_machine_leaf+1;
duke@435 1079 idealIndex < _last_opcode; ++idealIndex) {
duke@435 1080 const char *idealName = NodeClassNames[idealIndex];
twisti@1038 1081 _idealIndex.Insert((void*) idealName, (void*) (intptr_t) idealIndex);
duke@435 1082 }
duke@435 1083
duke@435 1084 }
duke@435 1085
duke@435 1086
duke@435 1087 //---------------------------addSUNcopyright-------------------------------
duke@435 1088 // output SUN copyright info
duke@435 1089 void ArchDesc::addSunCopyright(char* legal, int size, FILE *fp) {
andrew@1403 1090 size_t count = fwrite(legal, 1, size, fp);
andrew@1403 1091 assert(count == (size_t) size, "copyright info truncated");
duke@435 1092 fprintf(fp,"\n");
duke@435 1093 fprintf(fp,"// Machine Generated File. Do Not Edit!\n");
duke@435 1094 fprintf(fp,"\n");
duke@435 1095 }
duke@435 1096
duke@435 1097
stefank@2314 1098 //---------------------------addIncludeGuardStart--------------------------
stefank@2314 1099 // output the start of an include guard.
stefank@2314 1100 void ArchDesc::addIncludeGuardStart(ADLFILE &adlfile, const char* guardString) {
duke@435 1101 // Build #include lines
duke@435 1102 fprintf(adlfile._fp, "\n");
stefank@2314 1103 fprintf(adlfile._fp, "#ifndef %s\n", guardString);
stefank@2314 1104 fprintf(adlfile._fp, "#define %s\n", guardString);
duke@435 1105 fprintf(adlfile._fp, "\n");
duke@435 1106
duke@435 1107 }
duke@435 1108
stefank@2314 1109 //---------------------------addIncludeGuardEnd--------------------------
stefank@2314 1110 // output the end of an include guard.
stefank@2314 1111 void ArchDesc::addIncludeGuardEnd(ADLFILE &adlfile, const char* guardString) {
stefank@2314 1112 // Build #include lines
stefank@2314 1113 fprintf(adlfile._fp, "\n");
stefank@2314 1114 fprintf(adlfile._fp, "#endif // %s\n", guardString);
stefank@2314 1115
stefank@2314 1116 }
stefank@2314 1117
stefank@2314 1118 //---------------------------addInclude--------------------------
stefank@2314 1119 // output the #include line for this file.
stefank@2314 1120 void ArchDesc::addInclude(ADLFILE &adlfile, const char* fileName) {
stefank@2314 1121 fprintf(adlfile._fp, "#include \"%s\"\n", fileName);
stefank@2314 1122
stefank@2314 1123 }
stefank@2314 1124
stefank@2314 1125 void ArchDesc::addInclude(ADLFILE &adlfile, const char* includeDir, const char* fileName) {
stefank@2314 1126 fprintf(adlfile._fp, "#include \"%s/%s\"\n", includeDir, fileName);
stefank@2314 1127
stefank@2314 1128 }
duke@435 1129
duke@435 1130 //---------------------------addPreprocessorChecks-----------------------------
duke@435 1131 // Output C preprocessor code to verify the backend compilation environment.
duke@435 1132 // The idea is to force code produced by "adlc -DHS64" to be compiled by a
duke@435 1133 // command of the form "CC ... -DHS64 ...", so that any #ifdefs in the source
duke@435 1134 // blocks select C code that is consistent with adlc's selections of AD code.
duke@435 1135 void ArchDesc::addPreprocessorChecks(FILE *fp) {
duke@435 1136 const char* flag;
duke@435 1137 _preproc_list.reset();
duke@435 1138 if (_preproc_list.count() > 0 && !_preproc_list.current_is_signal()) {
duke@435 1139 fprintf(fp, "// Check consistency of C++ compilation with ADLC options:\n");
duke@435 1140 }
duke@435 1141 for (_preproc_list.reset(); (flag = _preproc_list.iter()) != NULL; ) {
duke@435 1142 if (_preproc_list.current_is_signal()) break;
duke@435 1143 char* def = get_preproc_def(flag);
duke@435 1144 fprintf(fp, "// Check adlc ");
duke@435 1145 if (def)
duke@435 1146 fprintf(fp, "-D%s=%s\n", flag, def);
duke@435 1147 else fprintf(fp, "-U%s\n", flag);
duke@435 1148 fprintf(fp, "#%s %s\n",
duke@435 1149 def ? "ifndef" : "ifdef", flag);
duke@435 1150 fprintf(fp, "# error \"%s %s be defined\"\n",
duke@435 1151 flag, def ? "must" : "must not");
duke@435 1152 fprintf(fp, "#endif // %s\n", flag);
duke@435 1153 }
duke@435 1154 }
duke@435 1155
duke@435 1156
duke@435 1157 // Convert operand name into enum name
duke@435 1158 const char *ArchDesc::machOperEnum(const char *opName) {
duke@435 1159 return ArchDesc::getMachOperEnum(opName);
duke@435 1160 }
duke@435 1161
duke@435 1162 // Convert operand name into enum name
duke@435 1163 const char *ArchDesc::getMachOperEnum(const char *opName) {
duke@435 1164 return (opName ? toUpper(opName) : opName);
duke@435 1165 }
duke@435 1166
duke@435 1167 //---------------------------buildMustCloneMap-----------------------------
duke@435 1168 // Flag cases when machine needs cloned values or instructions
duke@435 1169 void ArchDesc::buildMustCloneMap(FILE *fp_hpp, FILE *fp_cpp) {
duke@435 1170 // Build external declarations for mappings
duke@435 1171 fprintf(fp_hpp, "// Mapping from machine-independent opcode to boolean\n");
duke@435 1172 fprintf(fp_hpp, "// Flag cases where machine needs cloned values or instructions\n");
duke@435 1173 fprintf(fp_hpp, "extern const char must_clone[];\n");
duke@435 1174 fprintf(fp_hpp, "\n");
duke@435 1175
duke@435 1176 // Build mapping from ideal names to ideal indices
duke@435 1177 fprintf(fp_cpp, "\n");
duke@435 1178 fprintf(fp_cpp, "// Mapping from machine-independent opcode to boolean\n");
duke@435 1179 fprintf(fp_cpp, "const char must_clone[] = {\n");
duke@435 1180 for (int idealIndex = 0; idealIndex < _last_opcode; ++idealIndex) {
duke@435 1181 int must_clone = 0;
duke@435 1182 const char *idealName = NodeClassNames[idealIndex];
duke@435 1183 // Previously selected constants for cloning
duke@435 1184 // !!!!!
duke@435 1185 // These are the current machine-dependent clones
duke@435 1186 if ( strcmp(idealName,"CmpI") == 0
duke@435 1187 || strcmp(idealName,"CmpU") == 0
duke@435 1188 || strcmp(idealName,"CmpP") == 0
coleenp@548 1189 || strcmp(idealName,"CmpN") == 0
duke@435 1190 || strcmp(idealName,"CmpL") == 0
duke@435 1191 || strcmp(idealName,"CmpD") == 0
duke@435 1192 || strcmp(idealName,"CmpF") == 0
duke@435 1193 || strcmp(idealName,"FastLock") == 0
duke@435 1194 || strcmp(idealName,"FastUnlock") == 0
rbackman@5791 1195 || strcmp(idealName,"AddExactI") == 0
rbackman@5997 1196 || strcmp(idealName,"AddExactL") == 0
rbackman@5997 1197 || strcmp(idealName,"SubExactI") == 0
rbackman@5997 1198 || strcmp(idealName,"SubExactL") == 0
rbackman@5997 1199 || strcmp(idealName,"MulExactI") == 0
rbackman@5997 1200 || strcmp(idealName,"MulExactL") == 0
rbackman@5997 1201 || strcmp(idealName,"NegExactI") == 0
rbackman@5997 1202 || strcmp(idealName,"NegExactL") == 0
rbackman@5791 1203 || strcmp(idealName,"FlagsProj") == 0
duke@435 1204 || strcmp(idealName,"Bool") == 0
duke@435 1205 || strcmp(idealName,"Binary") == 0 ) {
duke@435 1206 // Removed ConI from the must_clone list. CPUs that cannot use
duke@435 1207 // large constants as immediates manifest the constant as an
duke@435 1208 // instruction. The must_clone flag prevents the constant from
duke@435 1209 // floating up out of loops.
duke@435 1210 must_clone = 1;
duke@435 1211 }
duke@435 1212 fprintf(fp_cpp, " %d%s // %s: %d\n", must_clone,
duke@435 1213 (idealIndex != (_last_opcode - 1)) ? "," : " // no trailing comma",
duke@435 1214 idealName, idealIndex);
duke@435 1215 }
duke@435 1216 // Finish defining table
duke@435 1217 fprintf(fp_cpp, "};\n");
duke@435 1218 }

Mercurial Repository: jdk8-mips64-public/hotspot

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