1 //===- MILexer.cpp - Machine instructions lexer implementation ------------===// 2 // 3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 4 // See https://llvm.org/LICENSE.txt for license information. 5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 6 // 7 //===----------------------------------------------------------------------===// 8 // 9 // This file implements the lexing of machine instructions. 10 // 11 //===----------------------------------------------------------------------===// 12 13 #include "MILexer.h" 14 #include "llvm/ADT/APSInt.h" 15 #include "llvm/ADT/None.h" 16 #include "llvm/ADT/STLExtras.h" 17 #include "llvm/ADT/StringExtras.h" 18 #include "llvm/ADT/StringSwitch.h" 19 #include "llvm/ADT/StringRef.h" 20 #include "llvm/ADT/Twine.h" 21 #include <algorithm> 22 #include <cassert> 23 #include <cctype> 24 #include <string> 25 26 using namespace llvm; 27 28 namespace { 29 30 using ErrorCallbackType = 31 function_ref<void(StringRef::iterator Loc, const Twine &)>; 32 33 /// This class provides a way to iterate and get characters from the source 34 /// string. 35 class Cursor { 36 const char *Ptr = nullptr; 37 const char *End = nullptr; 38 39 public: 40 Cursor(NoneType) {} 41 42 explicit Cursor(StringRef Str) { 43 Ptr = Str.data(); 44 End = Ptr + Str.size(); 45 } 46 47 bool isEOF() const { return Ptr == End; } 48 49 char peek(int I = 0) const { return End - Ptr <= I ? 0 : Ptr[I]; } 50 51 void advance(unsigned I = 1) { Ptr += I; } 52 53 StringRef remaining() const { return StringRef(Ptr, End - Ptr); } 54 55 StringRef upto(Cursor C) const { 56 assert(C.Ptr >= Ptr && C.Ptr <= End); 57 return StringRef(Ptr, C.Ptr - Ptr); 58 } 59 60 StringRef::iterator location() const { return Ptr; } 61 62 operator bool() const { return Ptr != nullptr; } 63 }; 64 65 } // end anonymous namespace 66 67 MIToken &MIToken::reset(TokenKind Kind, StringRef Range) { 68 this->Kind = Kind; 69 this->Range = Range; 70 return *this; 71 } 72 73 MIToken &MIToken::setStringValue(StringRef StrVal) { 74 StringValue = StrVal; 75 return *this; 76 } 77 78 MIToken &MIToken::setOwnedStringValue(std::string StrVal) { 79 StringValueStorage = std::move(StrVal); 80 StringValue = StringValueStorage; 81 return *this; 82 } 83 84 MIToken &MIToken::setIntegerValue(APSInt IntVal) { 85 this->IntVal = std::move(IntVal); 86 return *this; 87 } 88 89 /// Skip the leading whitespace characters and return the updated cursor. 90 static Cursor skipWhitespace(Cursor C) { 91 while (isblank(C.peek())) 92 C.advance(); 93 return C; 94 } 95 96 static bool isNewlineChar(char C) { return C == '\n' || C == '\r'; } 97 98 /// Skip a line comment and return the updated cursor. 99 static Cursor skipComment(Cursor C) { 100 if (C.peek() != ';') 101 return C; 102 while (!isNewlineChar(C.peek()) && !C.isEOF()) 103 C.advance(); 104 return C; 105 } 106 107 /// Return true if the given character satisfies the following regular 108 /// expression: [-a-zA-Z$._0-9] 109 static bool isIdentifierChar(char C) { 110 return isalpha(C) || isdigit(C) || C == '_' || C == '-' || C == '.' || 111 C == '$'; 112 } 113 114 /// Unescapes the given string value. 115 /// 116 /// Expects the string value to be quoted. 117 static std::string unescapeQuotedString(StringRef Value) { 118 assert(Value.front() == '"' && Value.back() == '"'); 119 Cursor C = Cursor(Value.substr(1, Value.size() - 2)); 120 121 std::string Str; 122 Str.reserve(C.remaining().size()); 123 while (!C.isEOF()) { 124 char Char = C.peek(); 125 if (Char == '\\') { 126 if (C.peek(1) == '\\') { 127 // Two '\' become one 128 Str += '\\'; 129 C.advance(2); 130 continue; 131 } 132 if (isxdigit(C.peek(1)) && isxdigit(C.peek(2))) { 133 Str += hexDigitValue(C.peek(1)) * 16 + hexDigitValue(C.peek(2)); 134 C.advance(3); 135 continue; 136 } 137 } 138 Str += Char; 139 C.advance(); 140 } 141 return Str; 142 } 143 144 /// Lex a string constant using the following regular expression: \"[^\"]*\" 145 static Cursor lexStringConstant(Cursor C, ErrorCallbackType ErrorCallback) { 146 assert(C.peek() == '"'); 147 for (C.advance(); C.peek() != '"'; C.advance()) { 148 if (C.isEOF() || isNewlineChar(C.peek())) { 149 ErrorCallback( 150 C.location(), 151 "end of machine instruction reached before the closing '\"'"); 152 return None; 153 } 154 } 155 C.advance(); 156 return C; 157 } 158 159 static Cursor lexName(Cursor C, MIToken &Token, MIToken::TokenKind Type, 160 unsigned PrefixLength, ErrorCallbackType ErrorCallback) { 161 auto Range = C; 162 C.advance(PrefixLength); 163 if (C.peek() == '"') { 164 if (Cursor R = lexStringConstant(C, ErrorCallback)) { 165 StringRef String = Range.upto(R); 166 Token.reset(Type, String) 167 .setOwnedStringValue( 168 unescapeQuotedString(String.drop_front(PrefixLength))); 169 return R; 170 } 171 Token.reset(MIToken::Error, Range.remaining()); 172 return Range; 173 } 174 while (isIdentifierChar(C.peek())) 175 C.advance(); 176 Token.reset(Type, Range.upto(C)) 177 .setStringValue(Range.upto(C).drop_front(PrefixLength)); 178 return C; 179 } 180 181 static MIToken::TokenKind getIdentifierKind(StringRef Identifier) { 182 return StringSwitch<MIToken::TokenKind>(Identifier) 183 .Case("_", MIToken::underscore) 184 .Case("implicit", MIToken::kw_implicit) 185 .Case("implicit-def", MIToken::kw_implicit_define) 186 .Case("def", MIToken::kw_def) 187 .Case("dead", MIToken::kw_dead) 188 .Case("killed", MIToken::kw_killed) 189 .Case("undef", MIToken::kw_undef) 190 .Case("internal", MIToken::kw_internal) 191 .Case("early-clobber", MIToken::kw_early_clobber) 192 .Case("debug-use", MIToken::kw_debug_use) 193 .Case("renamable", MIToken::kw_renamable) 194 .Case("tied-def", MIToken::kw_tied_def) 195 .Case("frame-setup", MIToken::kw_frame_setup) 196 .Case("frame-destroy", MIToken::kw_frame_destroy) 197 .Case("nnan", MIToken::kw_nnan) 198 .Case("ninf", MIToken::kw_ninf) 199 .Case("nsz", MIToken::kw_nsz) 200 .Case("arcp", MIToken::kw_arcp) 201 .Case("contract", MIToken::kw_contract) 202 .Case("afn", MIToken::kw_afn) 203 .Case("reassoc", MIToken::kw_reassoc) 204 .Case("nuw" , MIToken::kw_nuw) 205 .Case("nsw" , MIToken::kw_nsw) 206 .Case("exact" , MIToken::kw_exact) 207 .Case("nofpexcept", MIToken::kw_nofpexcept) 208 .Case("debug-location", MIToken::kw_debug_location) 209 .Case("same_value", MIToken::kw_cfi_same_value) 210 .Case("offset", MIToken::kw_cfi_offset) 211 .Case("rel_offset", MIToken::kw_cfi_rel_offset) 212 .Case("def_cfa_register", MIToken::kw_cfi_def_cfa_register) 213 .Case("def_cfa_offset", MIToken::kw_cfi_def_cfa_offset) 214 .Case("adjust_cfa_offset", MIToken::kw_cfi_adjust_cfa_offset) 215 .Case("escape", MIToken::kw_cfi_escape) 216 .Case("def_cfa", MIToken::kw_cfi_def_cfa) 217 .Case("remember_state", MIToken::kw_cfi_remember_state) 218 .Case("restore", MIToken::kw_cfi_restore) 219 .Case("restore_state", MIToken::kw_cfi_restore_state) 220 .Case("undefined", MIToken::kw_cfi_undefined) 221 .Case("register", MIToken::kw_cfi_register) 222 .Case("window_save", MIToken::kw_cfi_window_save) 223 .Case("negate_ra_sign_state", MIToken::kw_cfi_aarch64_negate_ra_sign_state) 224 .Case("blockaddress", MIToken::kw_blockaddress) 225 .Case("intrinsic", MIToken::kw_intrinsic) 226 .Case("target-index", MIToken::kw_target_index) 227 .Case("half", MIToken::kw_half) 228 .Case("float", MIToken::kw_float) 229 .Case("double", MIToken::kw_double) 230 .Case("x86_fp80", MIToken::kw_x86_fp80) 231 .Case("fp128", MIToken::kw_fp128) 232 .Case("ppc_fp128", MIToken::kw_ppc_fp128) 233 .Case("target-flags", MIToken::kw_target_flags) 234 .Case("volatile", MIToken::kw_volatile) 235 .Case("non-temporal", MIToken::kw_non_temporal) 236 .Case("dereferenceable", MIToken::kw_dereferenceable) 237 .Case("invariant", MIToken::kw_invariant) 238 .Case("align", MIToken::kw_align) 239 .Case("addrspace", MIToken::kw_addrspace) 240 .Case("stack", MIToken::kw_stack) 241 .Case("got", MIToken::kw_got) 242 .Case("jump-table", MIToken::kw_jump_table) 243 .Case("constant-pool", MIToken::kw_constant_pool) 244 .Case("call-entry", MIToken::kw_call_entry) 245 .Case("custom", MIToken::kw_custom) 246 .Case("liveout", MIToken::kw_liveout) 247 .Case("address-taken", MIToken::kw_address_taken) 248 .Case("landing-pad", MIToken::kw_landing_pad) 249 .Case("liveins", MIToken::kw_liveins) 250 .Case("successors", MIToken::kw_successors) 251 .Case("floatpred", MIToken::kw_floatpred) 252 .Case("intpred", MIToken::kw_intpred) 253 .Case("shufflemask", MIToken::kw_shufflemask) 254 .Case("pre-instr-symbol", MIToken::kw_pre_instr_symbol) 255 .Case("post-instr-symbol", MIToken::kw_post_instr_symbol) 256 .Case("heap-alloc-marker", MIToken::kw_heap_alloc_marker) 257 .Case("unknown-size", MIToken::kw_unknown_size) 258 .Default(MIToken::Identifier); 259 } 260 261 static Cursor maybeLexIdentifier(Cursor C, MIToken &Token) { 262 if (!isalpha(C.peek()) && C.peek() != '_') 263 return None; 264 auto Range = C; 265 while (isIdentifierChar(C.peek())) 266 C.advance(); 267 auto Identifier = Range.upto(C); 268 Token.reset(getIdentifierKind(Identifier), Identifier) 269 .setStringValue(Identifier); 270 return C; 271 } 272 273 static Cursor maybeLexMachineBasicBlock(Cursor C, MIToken &Token, 274 ErrorCallbackType ErrorCallback) { 275 bool IsReference = C.remaining().startswith("%bb."); 276 if (!IsReference && !C.remaining().startswith("bb.")) 277 return None; 278 auto Range = C; 279 unsigned PrefixLength = IsReference ? 4 : 3; 280 C.advance(PrefixLength); // Skip '%bb.' or 'bb.' 281 if (!isdigit(C.peek())) { 282 Token.reset(MIToken::Error, C.remaining()); 283 ErrorCallback(C.location(), "expected a number after '%bb.'"); 284 return C; 285 } 286 auto NumberRange = C; 287 while (isdigit(C.peek())) 288 C.advance(); 289 StringRef Number = NumberRange.upto(C); 290 unsigned StringOffset = PrefixLength + Number.size(); // Drop '%bb.<id>' 291 // TODO: The format bb.<id>.<irname> is supported only when it's not a 292 // reference. Once we deprecate the format where the irname shows up, we 293 // should only lex forward if it is a reference. 294 if (C.peek() == '.') { 295 C.advance(); // Skip '.' 296 ++StringOffset; 297 while (isIdentifierChar(C.peek())) 298 C.advance(); 299 } 300 Token.reset(IsReference ? MIToken::MachineBasicBlock 301 : MIToken::MachineBasicBlockLabel, 302 Range.upto(C)) 303 .setIntegerValue(APSInt(Number)) 304 .setStringValue(Range.upto(C).drop_front(StringOffset)); 305 return C; 306 } 307 308 static Cursor maybeLexIndex(Cursor C, MIToken &Token, StringRef Rule, 309 MIToken::TokenKind Kind) { 310 if (!C.remaining().startswith(Rule) || !isdigit(C.peek(Rule.size()))) 311 return None; 312 auto Range = C; 313 C.advance(Rule.size()); 314 auto NumberRange = C; 315 while (isdigit(C.peek())) 316 C.advance(); 317 Token.reset(Kind, Range.upto(C)).setIntegerValue(APSInt(NumberRange.upto(C))); 318 return C; 319 } 320 321 static Cursor maybeLexIndexAndName(Cursor C, MIToken &Token, StringRef Rule, 322 MIToken::TokenKind Kind) { 323 if (!C.remaining().startswith(Rule) || !isdigit(C.peek(Rule.size()))) 324 return None; 325 auto Range = C; 326 C.advance(Rule.size()); 327 auto NumberRange = C; 328 while (isdigit(C.peek())) 329 C.advance(); 330 StringRef Number = NumberRange.upto(C); 331 unsigned StringOffset = Rule.size() + Number.size(); 332 if (C.peek() == '.') { 333 C.advance(); 334 ++StringOffset; 335 while (isIdentifierChar(C.peek())) 336 C.advance(); 337 } 338 Token.reset(Kind, Range.upto(C)) 339 .setIntegerValue(APSInt(Number)) 340 .setStringValue(Range.upto(C).drop_front(StringOffset)); 341 return C; 342 } 343 344 static Cursor maybeLexJumpTableIndex(Cursor C, MIToken &Token) { 345 return maybeLexIndex(C, Token, "%jump-table.", MIToken::JumpTableIndex); 346 } 347 348 static Cursor maybeLexStackObject(Cursor C, MIToken &Token) { 349 return maybeLexIndexAndName(C, Token, "%stack.", MIToken::StackObject); 350 } 351 352 static Cursor maybeLexFixedStackObject(Cursor C, MIToken &Token) { 353 return maybeLexIndex(C, Token, "%fixed-stack.", MIToken::FixedStackObject); 354 } 355 356 static Cursor maybeLexConstantPoolItem(Cursor C, MIToken &Token) { 357 return maybeLexIndex(C, Token, "%const.", MIToken::ConstantPoolItem); 358 } 359 360 static Cursor maybeLexSubRegisterIndex(Cursor C, MIToken &Token, 361 ErrorCallbackType ErrorCallback) { 362 const StringRef Rule = "%subreg."; 363 if (!C.remaining().startswith(Rule)) 364 return None; 365 return lexName(C, Token, MIToken::SubRegisterIndex, Rule.size(), 366 ErrorCallback); 367 } 368 369 static Cursor maybeLexIRBlock(Cursor C, MIToken &Token, 370 ErrorCallbackType ErrorCallback) { 371 const StringRef Rule = "%ir-block."; 372 if (!C.remaining().startswith(Rule)) 373 return None; 374 if (isdigit(C.peek(Rule.size()))) 375 return maybeLexIndex(C, Token, Rule, MIToken::IRBlock); 376 return lexName(C, Token, MIToken::NamedIRBlock, Rule.size(), ErrorCallback); 377 } 378 379 static Cursor maybeLexIRValue(Cursor C, MIToken &Token, 380 ErrorCallbackType ErrorCallback) { 381 const StringRef Rule = "%ir."; 382 if (!C.remaining().startswith(Rule)) 383 return None; 384 if (isdigit(C.peek(Rule.size()))) 385 return maybeLexIndex(C, Token, Rule, MIToken::IRValue); 386 return lexName(C, Token, MIToken::NamedIRValue, Rule.size(), ErrorCallback); 387 } 388 389 static Cursor maybeLexStringConstant(Cursor C, MIToken &Token, 390 ErrorCallbackType ErrorCallback) { 391 if (C.peek() != '"') 392 return None; 393 return lexName(C, Token, MIToken::StringConstant, /*PrefixLength=*/0, 394 ErrorCallback); 395 } 396 397 static Cursor lexVirtualRegister(Cursor C, MIToken &Token) { 398 auto Range = C; 399 C.advance(); // Skip '%' 400 auto NumberRange = C; 401 while (isdigit(C.peek())) 402 C.advance(); 403 Token.reset(MIToken::VirtualRegister, Range.upto(C)) 404 .setIntegerValue(APSInt(NumberRange.upto(C))); 405 return C; 406 } 407 408 /// Returns true for a character allowed in a register name. 409 static bool isRegisterChar(char C) { 410 return isIdentifierChar(C) && C != '.'; 411 } 412 413 static Cursor lexNamedVirtualRegister(Cursor C, MIToken &Token) { 414 Cursor Range = C; 415 C.advance(); // Skip '%' 416 while (isRegisterChar(C.peek())) 417 C.advance(); 418 Token.reset(MIToken::NamedVirtualRegister, Range.upto(C)) 419 .setStringValue(Range.upto(C).drop_front(1)); // Drop the '%' 420 return C; 421 } 422 423 static Cursor maybeLexRegister(Cursor C, MIToken &Token, 424 ErrorCallbackType ErrorCallback) { 425 if (C.peek() != '%' && C.peek() != '$') 426 return None; 427 428 if (C.peek() == '%') { 429 if (isdigit(C.peek(1))) 430 return lexVirtualRegister(C, Token); 431 432 if (isRegisterChar(C.peek(1))) 433 return lexNamedVirtualRegister(C, Token); 434 435 return None; 436 } 437 438 assert(C.peek() == '$'); 439 auto Range = C; 440 C.advance(); // Skip '$' 441 while (isRegisterChar(C.peek())) 442 C.advance(); 443 Token.reset(MIToken::NamedRegister, Range.upto(C)) 444 .setStringValue(Range.upto(C).drop_front(1)); // Drop the '$' 445 return C; 446 } 447 448 static Cursor maybeLexGlobalValue(Cursor C, MIToken &Token, 449 ErrorCallbackType ErrorCallback) { 450 if (C.peek() != '@') 451 return None; 452 if (!isdigit(C.peek(1))) 453 return lexName(C, Token, MIToken::NamedGlobalValue, /*PrefixLength=*/1, 454 ErrorCallback); 455 auto Range = C; 456 C.advance(1); // Skip the '@' 457 auto NumberRange = C; 458 while (isdigit(C.peek())) 459 C.advance(); 460 Token.reset(MIToken::GlobalValue, Range.upto(C)) 461 .setIntegerValue(APSInt(NumberRange.upto(C))); 462 return C; 463 } 464 465 static Cursor maybeLexExternalSymbol(Cursor C, MIToken &Token, 466 ErrorCallbackType ErrorCallback) { 467 if (C.peek() != '&') 468 return None; 469 return lexName(C, Token, MIToken::ExternalSymbol, /*PrefixLength=*/1, 470 ErrorCallback); 471 } 472 473 static Cursor maybeLexMCSymbol(Cursor C, MIToken &Token, 474 ErrorCallbackType ErrorCallback) { 475 const StringRef Rule = "<mcsymbol "; 476 if (!C.remaining().startswith(Rule)) 477 return None; 478 auto Start = C; 479 C.advance(Rule.size()); 480 481 // Try a simple unquoted name. 482 if (C.peek() != '"') { 483 while (isIdentifierChar(C.peek())) 484 C.advance(); 485 StringRef String = Start.upto(C).drop_front(Rule.size()); 486 if (C.peek() != '>') { 487 ErrorCallback(C.location(), 488 "expected the '<mcsymbol ...' to be closed by a '>'"); 489 Token.reset(MIToken::Error, Start.remaining()); 490 return Start; 491 } 492 C.advance(); 493 494 Token.reset(MIToken::MCSymbol, Start.upto(C)).setStringValue(String); 495 return C; 496 } 497 498 // Otherwise lex out a quoted name. 499 Cursor R = lexStringConstant(C, ErrorCallback); 500 if (!R) { 501 ErrorCallback(C.location(), 502 "unable to parse quoted string from opening quote"); 503 Token.reset(MIToken::Error, Start.remaining()); 504 return Start; 505 } 506 StringRef String = Start.upto(R).drop_front(Rule.size()); 507 if (R.peek() != '>') { 508 ErrorCallback(R.location(), 509 "expected the '<mcsymbol ...' to be closed by a '>'"); 510 Token.reset(MIToken::Error, Start.remaining()); 511 return Start; 512 } 513 R.advance(); 514 515 Token.reset(MIToken::MCSymbol, Start.upto(R)) 516 .setOwnedStringValue(unescapeQuotedString(String)); 517 return R; 518 } 519 520 static bool isValidHexFloatingPointPrefix(char C) { 521 return C == 'H' || C == 'K' || C == 'L' || C == 'M'; 522 } 523 524 static Cursor lexFloatingPointLiteral(Cursor Range, Cursor C, MIToken &Token) { 525 C.advance(); 526 // Skip over [0-9]*([eE][-+]?[0-9]+)? 527 while (isdigit(C.peek())) 528 C.advance(); 529 if ((C.peek() == 'e' || C.peek() == 'E') && 530 (isdigit(C.peek(1)) || 531 ((C.peek(1) == '-' || C.peek(1) == '+') && isdigit(C.peek(2))))) { 532 C.advance(2); 533 while (isdigit(C.peek())) 534 C.advance(); 535 } 536 Token.reset(MIToken::FloatingPointLiteral, Range.upto(C)); 537 return C; 538 } 539 540 static Cursor maybeLexHexadecimalLiteral(Cursor C, MIToken &Token) { 541 if (C.peek() != '0' || (C.peek(1) != 'x' && C.peek(1) != 'X')) 542 return None; 543 Cursor Range = C; 544 C.advance(2); 545 unsigned PrefLen = 2; 546 if (isValidHexFloatingPointPrefix(C.peek())) { 547 C.advance(); 548 PrefLen++; 549 } 550 while (isxdigit(C.peek())) 551 C.advance(); 552 StringRef StrVal = Range.upto(C); 553 if (StrVal.size() <= PrefLen) 554 return None; 555 if (PrefLen == 2) 556 Token.reset(MIToken::HexLiteral, Range.upto(C)); 557 else // It must be 3, which means that there was a floating-point prefix. 558 Token.reset(MIToken::FloatingPointLiteral, Range.upto(C)); 559 return C; 560 } 561 562 static Cursor maybeLexNumericalLiteral(Cursor C, MIToken &Token) { 563 if (!isdigit(C.peek()) && (C.peek() != '-' || !isdigit(C.peek(1)))) 564 return None; 565 auto Range = C; 566 C.advance(); 567 while (isdigit(C.peek())) 568 C.advance(); 569 if (C.peek() == '.') 570 return lexFloatingPointLiteral(Range, C, Token); 571 StringRef StrVal = Range.upto(C); 572 Token.reset(MIToken::IntegerLiteral, StrVal).setIntegerValue(APSInt(StrVal)); 573 return C; 574 } 575 576 static MIToken::TokenKind getMetadataKeywordKind(StringRef Identifier) { 577 return StringSwitch<MIToken::TokenKind>(Identifier) 578 .Case("!tbaa", MIToken::md_tbaa) 579 .Case("!alias.scope", MIToken::md_alias_scope) 580 .Case("!noalias", MIToken::md_noalias) 581 .Case("!range", MIToken::md_range) 582 .Case("!DIExpression", MIToken::md_diexpr) 583 .Case("!DILocation", MIToken::md_dilocation) 584 .Default(MIToken::Error); 585 } 586 587 static Cursor maybeLexExclaim(Cursor C, MIToken &Token, 588 ErrorCallbackType ErrorCallback) { 589 if (C.peek() != '!') 590 return None; 591 auto Range = C; 592 C.advance(1); 593 if (isdigit(C.peek()) || !isIdentifierChar(C.peek())) { 594 Token.reset(MIToken::exclaim, Range.upto(C)); 595 return C; 596 } 597 while (isIdentifierChar(C.peek())) 598 C.advance(); 599 StringRef StrVal = Range.upto(C); 600 Token.reset(getMetadataKeywordKind(StrVal), StrVal); 601 if (Token.isError()) 602 ErrorCallback(Token.location(), 603 "use of unknown metadata keyword '" + StrVal + "'"); 604 return C; 605 } 606 607 static MIToken::TokenKind symbolToken(char C) { 608 switch (C) { 609 case ',': 610 return MIToken::comma; 611 case '.': 612 return MIToken::dot; 613 case '=': 614 return MIToken::equal; 615 case ':': 616 return MIToken::colon; 617 case '(': 618 return MIToken::lparen; 619 case ')': 620 return MIToken::rparen; 621 case '{': 622 return MIToken::lbrace; 623 case '}': 624 return MIToken::rbrace; 625 case '+': 626 return MIToken::plus; 627 case '-': 628 return MIToken::minus; 629 case '<': 630 return MIToken::less; 631 case '>': 632 return MIToken::greater; 633 default: 634 return MIToken::Error; 635 } 636 } 637 638 static Cursor maybeLexSymbol(Cursor C, MIToken &Token) { 639 MIToken::TokenKind Kind; 640 unsigned Length = 1; 641 if (C.peek() == ':' && C.peek(1) == ':') { 642 Kind = MIToken::coloncolon; 643 Length = 2; 644 } else 645 Kind = symbolToken(C.peek()); 646 if (Kind == MIToken::Error) 647 return None; 648 auto Range = C; 649 C.advance(Length); 650 Token.reset(Kind, Range.upto(C)); 651 return C; 652 } 653 654 static Cursor maybeLexNewline(Cursor C, MIToken &Token) { 655 if (!isNewlineChar(C.peek())) 656 return None; 657 auto Range = C; 658 C.advance(); 659 Token.reset(MIToken::Newline, Range.upto(C)); 660 return C; 661 } 662 663 static Cursor maybeLexEscapedIRValue(Cursor C, MIToken &Token, 664 ErrorCallbackType ErrorCallback) { 665 if (C.peek() != '`') 666 return None; 667 auto Range = C; 668 C.advance(); 669 auto StrRange = C; 670 while (C.peek() != '`') { 671 if (C.isEOF() || isNewlineChar(C.peek())) { 672 ErrorCallback( 673 C.location(), 674 "end of machine instruction reached before the closing '`'"); 675 Token.reset(MIToken::Error, Range.remaining()); 676 return C; 677 } 678 C.advance(); 679 } 680 StringRef Value = StrRange.upto(C); 681 C.advance(); 682 Token.reset(MIToken::QuotedIRValue, Range.upto(C)).setStringValue(Value); 683 return C; 684 } 685 686 StringRef llvm::lexMIToken(StringRef Source, MIToken &Token, 687 ErrorCallbackType ErrorCallback) { 688 auto C = skipComment(skipWhitespace(Cursor(Source))); 689 if (C.isEOF()) { 690 Token.reset(MIToken::Eof, C.remaining()); 691 return C.remaining(); 692 } 693 694 if (Cursor R = maybeLexMachineBasicBlock(C, Token, ErrorCallback)) 695 return R.remaining(); 696 if (Cursor R = maybeLexIdentifier(C, Token)) 697 return R.remaining(); 698 if (Cursor R = maybeLexJumpTableIndex(C, Token)) 699 return R.remaining(); 700 if (Cursor R = maybeLexStackObject(C, Token)) 701 return R.remaining(); 702 if (Cursor R = maybeLexFixedStackObject(C, Token)) 703 return R.remaining(); 704 if (Cursor R = maybeLexConstantPoolItem(C, Token)) 705 return R.remaining(); 706 if (Cursor R = maybeLexSubRegisterIndex(C, Token, ErrorCallback)) 707 return R.remaining(); 708 if (Cursor R = maybeLexIRBlock(C, Token, ErrorCallback)) 709 return R.remaining(); 710 if (Cursor R = maybeLexIRValue(C, Token, ErrorCallback)) 711 return R.remaining(); 712 if (Cursor R = maybeLexRegister(C, Token, ErrorCallback)) 713 return R.remaining(); 714 if (Cursor R = maybeLexGlobalValue(C, Token, ErrorCallback)) 715 return R.remaining(); 716 if (Cursor R = maybeLexExternalSymbol(C, Token, ErrorCallback)) 717 return R.remaining(); 718 if (Cursor R = maybeLexMCSymbol(C, Token, ErrorCallback)) 719 return R.remaining(); 720 if (Cursor R = maybeLexHexadecimalLiteral(C, Token)) 721 return R.remaining(); 722 if (Cursor R = maybeLexNumericalLiteral(C, Token)) 723 return R.remaining(); 724 if (Cursor R = maybeLexExclaim(C, Token, ErrorCallback)) 725 return R.remaining(); 726 if (Cursor R = maybeLexSymbol(C, Token)) 727 return R.remaining(); 728 if (Cursor R = maybeLexNewline(C, Token)) 729 return R.remaining(); 730 if (Cursor R = maybeLexEscapedIRValue(C, Token, ErrorCallback)) 731 return R.remaining(); 732 if (Cursor R = maybeLexStringConstant(C, Token, ErrorCallback)) 733 return R.remaining(); 734 735 Token.reset(MIToken::Error, C.remaining()); 736 ErrorCallback(C.location(), 737 Twine("unexpected character '") + Twine(C.peek()) + "'"); 738 return C.remaining(); 739 } 740