1 //===- BitstreamWriter.h - Low-level bitstream writer interface -*- C++ -*-===// 2 // 3 // The LLVM Compiler Infrastructure 4 // 5 // This file is distributed under the University of Illinois Open Source 6 // License. See LICENSE.TXT for details. 7 // 8 //===----------------------------------------------------------------------===// 9 // 10 // This header defines the BitstreamWriter class. This class can be used to 11 // write an arbitrary bitstream, regardless of its contents. 12 // 13 //===----------------------------------------------------------------------===// 14 15 #ifndef LLVM_BITCODE_BITSTREAMWRITER_H 16 #define LLVM_BITCODE_BITSTREAMWRITER_H 17 18 #include "llvm/ADT/ArrayRef.h" 19 #include "llvm/ADT/Optional.h" 20 #include "llvm/ADT/SmallVector.h" 21 #include "llvm/ADT/StringRef.h" 22 #include "llvm/Bitcode/BitCodes.h" 23 #include "llvm/Support/Endian.h" 24 #include <vector> 25 26 namespace llvm { 27 28 class BitstreamWriter { 29 SmallVectorImpl<char> &Out; 30 31 /// CurBit - Always between 0 and 31 inclusive, specifies the next bit to use. 32 unsigned CurBit; 33 34 /// CurValue - The current value. Only bits < CurBit are valid. 35 uint32_t CurValue; 36 37 /// CurCodeSize - This is the declared size of code values used for the 38 /// current block, in bits. 39 unsigned CurCodeSize; 40 41 /// BlockInfoCurBID - When emitting a BLOCKINFO_BLOCK, this is the currently 42 /// selected BLOCK ID. 43 unsigned BlockInfoCurBID; 44 45 /// CurAbbrevs - Abbrevs installed at in this block. 46 std::vector<IntrusiveRefCntPtr<BitCodeAbbrev>> CurAbbrevs; 47 48 struct Block { 49 unsigned PrevCodeSize; 50 size_t StartSizeWord; 51 std::vector<IntrusiveRefCntPtr<BitCodeAbbrev>> PrevAbbrevs; BlockBlock52 Block(unsigned PCS, size_t SSW) : PrevCodeSize(PCS), StartSizeWord(SSW) {} 53 }; 54 55 /// BlockScope - This tracks the current blocks that we have entered. 56 std::vector<Block> BlockScope; 57 58 /// BlockInfo - This contains information emitted to BLOCKINFO_BLOCK blocks. 59 /// These describe abbreviations that all blocks of the specified ID inherit. 60 struct BlockInfo { 61 unsigned BlockID; 62 std::vector<IntrusiveRefCntPtr<BitCodeAbbrev>> Abbrevs; 63 }; 64 std::vector<BlockInfo> BlockInfoRecords; 65 WriteByte(unsigned char Value)66 void WriteByte(unsigned char Value) { 67 Out.push_back(Value); 68 } 69 WriteWord(unsigned Value)70 void WriteWord(unsigned Value) { 71 Value = support::endian::byte_swap<uint32_t, support::little>(Value); 72 Out.append(reinterpret_cast<const char *>(&Value), 73 reinterpret_cast<const char *>(&Value + 1)); 74 } 75 GetBufferOffset()76 size_t GetBufferOffset() const { return Out.size(); } 77 GetWordIndex()78 size_t GetWordIndex() const { 79 size_t Offset = GetBufferOffset(); 80 assert((Offset & 3) == 0 && "Not 32-bit aligned"); 81 return Offset / 4; 82 } 83 84 public: BitstreamWriter(SmallVectorImpl<char> & O)85 explicit BitstreamWriter(SmallVectorImpl<char> &O) 86 : Out(O), CurBit(0), CurValue(0), CurCodeSize(2) {} 87 ~BitstreamWriter()88 ~BitstreamWriter() { 89 assert(CurBit == 0 && "Unflushed data remaining"); 90 assert(BlockScope.empty() && CurAbbrevs.empty() && "Block imbalance"); 91 } 92 93 /// \brief Retrieve the current position in the stream, in bits. GetCurrentBitNo()94 uint64_t GetCurrentBitNo() const { return GetBufferOffset() * 8 + CurBit; } 95 96 /// \brief Retrieve the number of bits currently used to encode an abbrev ID. GetAbbrevIDWidth()97 unsigned GetAbbrevIDWidth() const { return CurCodeSize; } 98 99 //===--------------------------------------------------------------------===// 100 // Basic Primitives for emitting bits to the stream. 101 //===--------------------------------------------------------------------===// 102 103 /// Backpatch a 32-bit word in the output at the given bit offset 104 /// with the specified value. BackpatchWord(uint64_t BitNo,unsigned NewWord)105 void BackpatchWord(uint64_t BitNo, unsigned NewWord) { 106 using namespace llvm::support; 107 unsigned ByteNo = BitNo / 8; 108 assert((!endian::readAtBitAlignment<uint32_t, little, unaligned>( 109 &Out[ByteNo], BitNo & 7)) && 110 "Expected to be patching over 0-value placeholders"); 111 endian::writeAtBitAlignment<uint32_t, little, unaligned>( 112 &Out[ByteNo], NewWord, BitNo & 7); 113 } 114 Emit(uint32_t Val,unsigned NumBits)115 void Emit(uint32_t Val, unsigned NumBits) { 116 assert(NumBits && NumBits <= 32 && "Invalid value size!"); 117 assert((Val & ~(~0U >> (32-NumBits))) == 0 && "High bits set!"); 118 CurValue |= Val << CurBit; 119 if (CurBit + NumBits < 32) { 120 CurBit += NumBits; 121 return; 122 } 123 124 // Add the current word. 125 WriteWord(CurValue); 126 127 if (CurBit) 128 CurValue = Val >> (32-CurBit); 129 else 130 CurValue = 0; 131 CurBit = (CurBit+NumBits) & 31; 132 } 133 Emit64(uint64_t Val,unsigned NumBits)134 void Emit64(uint64_t Val, unsigned NumBits) { 135 if (NumBits <= 32) 136 Emit((uint32_t)Val, NumBits); 137 else { 138 Emit((uint32_t)Val, 32); 139 Emit((uint32_t)(Val >> 32), NumBits-32); 140 } 141 } 142 FlushToWord()143 void FlushToWord() { 144 if (CurBit) { 145 WriteWord(CurValue); 146 CurBit = 0; 147 CurValue = 0; 148 } 149 } 150 EmitVBR(uint32_t Val,unsigned NumBits)151 void EmitVBR(uint32_t Val, unsigned NumBits) { 152 assert(NumBits <= 32 && "Too many bits to emit!"); 153 uint32_t Threshold = 1U << (NumBits-1); 154 155 // Emit the bits with VBR encoding, NumBits-1 bits at a time. 156 while (Val >= Threshold) { 157 Emit((Val & ((1 << (NumBits-1))-1)) | (1 << (NumBits-1)), NumBits); 158 Val >>= NumBits-1; 159 } 160 161 Emit(Val, NumBits); 162 } 163 EmitVBR64(uint64_t Val,unsigned NumBits)164 void EmitVBR64(uint64_t Val, unsigned NumBits) { 165 assert(NumBits <= 32 && "Too many bits to emit!"); 166 if ((uint32_t)Val == Val) 167 return EmitVBR((uint32_t)Val, NumBits); 168 169 uint32_t Threshold = 1U << (NumBits-1); 170 171 // Emit the bits with VBR encoding, NumBits-1 bits at a time. 172 while (Val >= Threshold) { 173 Emit(((uint32_t)Val & ((1 << (NumBits-1))-1)) | 174 (1 << (NumBits-1)), NumBits); 175 Val >>= NumBits-1; 176 } 177 178 Emit((uint32_t)Val, NumBits); 179 } 180 181 /// EmitCode - Emit the specified code. EmitCode(unsigned Val)182 void EmitCode(unsigned Val) { 183 Emit(Val, CurCodeSize); 184 } 185 186 //===--------------------------------------------------------------------===// 187 // Block Manipulation 188 //===--------------------------------------------------------------------===// 189 190 /// getBlockInfo - If there is block info for the specified ID, return it, 191 /// otherwise return null. getBlockInfo(unsigned BlockID)192 BlockInfo *getBlockInfo(unsigned BlockID) { 193 // Common case, the most recent entry matches BlockID. 194 if (!BlockInfoRecords.empty() && BlockInfoRecords.back().BlockID == BlockID) 195 return &BlockInfoRecords.back(); 196 197 for (unsigned i = 0, e = static_cast<unsigned>(BlockInfoRecords.size()); 198 i != e; ++i) 199 if (BlockInfoRecords[i].BlockID == BlockID) 200 return &BlockInfoRecords[i]; 201 return nullptr; 202 } 203 EnterSubblock(unsigned BlockID,unsigned CodeLen)204 void EnterSubblock(unsigned BlockID, unsigned CodeLen) { 205 // Block header: 206 // [ENTER_SUBBLOCK, blockid, newcodelen, <align4bytes>, blocklen] 207 EmitCode(bitc::ENTER_SUBBLOCK); 208 EmitVBR(BlockID, bitc::BlockIDWidth); 209 EmitVBR(CodeLen, bitc::CodeLenWidth); 210 FlushToWord(); 211 212 size_t BlockSizeWordIndex = GetWordIndex(); 213 unsigned OldCodeSize = CurCodeSize; 214 215 // Emit a placeholder, which will be replaced when the block is popped. 216 Emit(0, bitc::BlockSizeWidth); 217 218 CurCodeSize = CodeLen; 219 220 // Push the outer block's abbrev set onto the stack, start out with an 221 // empty abbrev set. 222 BlockScope.emplace_back(OldCodeSize, BlockSizeWordIndex); 223 BlockScope.back().PrevAbbrevs.swap(CurAbbrevs); 224 225 // If there is a blockinfo for this BlockID, add all the predefined abbrevs 226 // to the abbrev list. 227 if (BlockInfo *Info = getBlockInfo(BlockID)) { 228 CurAbbrevs.insert(CurAbbrevs.end(), Info->Abbrevs.begin(), 229 Info->Abbrevs.end()); 230 } 231 } 232 ExitBlock()233 void ExitBlock() { 234 assert(!BlockScope.empty() && "Block scope imbalance!"); 235 const Block &B = BlockScope.back(); 236 237 // Block tail: 238 // [END_BLOCK, <align4bytes>] 239 EmitCode(bitc::END_BLOCK); 240 FlushToWord(); 241 242 // Compute the size of the block, in words, not counting the size field. 243 size_t SizeInWords = GetWordIndex() - B.StartSizeWord - 1; 244 uint64_t BitNo = uint64_t(B.StartSizeWord) * 32; 245 246 // Update the block size field in the header of this sub-block. 247 BackpatchWord(BitNo, SizeInWords); 248 249 // Restore the inner block's code size and abbrev table. 250 CurCodeSize = B.PrevCodeSize; 251 CurAbbrevs = std::move(B.PrevAbbrevs); 252 BlockScope.pop_back(); 253 } 254 255 //===--------------------------------------------------------------------===// 256 // Record Emission 257 //===--------------------------------------------------------------------===// 258 259 private: 260 /// EmitAbbreviatedLiteral - Emit a literal value according to its abbrev 261 /// record. This is a no-op, since the abbrev specifies the literal to use. 262 template<typename uintty> EmitAbbreviatedLiteral(const BitCodeAbbrevOp & Op,uintty V)263 void EmitAbbreviatedLiteral(const BitCodeAbbrevOp &Op, uintty V) { 264 assert(Op.isLiteral() && "Not a literal"); 265 // If the abbrev specifies the literal value to use, don't emit 266 // anything. 267 assert(V == Op.getLiteralValue() && 268 "Invalid abbrev for record!"); 269 } 270 271 /// EmitAbbreviatedField - Emit a single scalar field value with the specified 272 /// encoding. 273 template<typename uintty> EmitAbbreviatedField(const BitCodeAbbrevOp & Op,uintty V)274 void EmitAbbreviatedField(const BitCodeAbbrevOp &Op, uintty V) { 275 assert(!Op.isLiteral() && "Literals should use EmitAbbreviatedLiteral!"); 276 277 // Encode the value as we are commanded. 278 switch (Op.getEncoding()) { 279 default: llvm_unreachable("Unknown encoding!"); 280 case BitCodeAbbrevOp::Fixed: 281 if (Op.getEncodingData()) 282 Emit((unsigned)V, (unsigned)Op.getEncodingData()); 283 break; 284 case BitCodeAbbrevOp::VBR: 285 if (Op.getEncodingData()) 286 EmitVBR64(V, (unsigned)Op.getEncodingData()); 287 break; 288 case BitCodeAbbrevOp::Char6: 289 Emit(BitCodeAbbrevOp::EncodeChar6((char)V), 6); 290 break; 291 } 292 } 293 294 /// EmitRecordWithAbbrevImpl - This is the core implementation of the record 295 /// emission code. If BlobData is non-null, then it specifies an array of 296 /// data that should be emitted as part of the Blob or Array operand that is 297 /// known to exist at the end of the record. If Code is specified, then 298 /// it is the record code to emit before the Vals, which must not contain 299 /// the code. 300 template <typename uintty> EmitRecordWithAbbrevImpl(unsigned Abbrev,ArrayRef<uintty> Vals,StringRef Blob,Optional<unsigned> Code)301 void EmitRecordWithAbbrevImpl(unsigned Abbrev, ArrayRef<uintty> Vals, 302 StringRef Blob, Optional<unsigned> Code) { 303 const char *BlobData = Blob.data(); 304 unsigned BlobLen = (unsigned) Blob.size(); 305 unsigned AbbrevNo = Abbrev-bitc::FIRST_APPLICATION_ABBREV; 306 assert(AbbrevNo < CurAbbrevs.size() && "Invalid abbrev #!"); 307 const BitCodeAbbrev *Abbv = CurAbbrevs[AbbrevNo].get(); 308 309 EmitCode(Abbrev); 310 311 unsigned i = 0, e = static_cast<unsigned>(Abbv->getNumOperandInfos()); 312 if (Code) { 313 assert(e && "Expected non-empty abbreviation"); 314 const BitCodeAbbrevOp &Op = Abbv->getOperandInfo(i++); 315 316 if (Op.isLiteral()) 317 EmitAbbreviatedLiteral(Op, Code.getValue()); 318 else { 319 assert(Op.getEncoding() != BitCodeAbbrevOp::Array && 320 Op.getEncoding() != BitCodeAbbrevOp::Blob && 321 "Expected literal or scalar"); 322 EmitAbbreviatedField(Op, Code.getValue()); 323 } 324 } 325 326 unsigned RecordIdx = 0; 327 for (; i != e; ++i) { 328 const BitCodeAbbrevOp &Op = Abbv->getOperandInfo(i); 329 if (Op.isLiteral()) { 330 assert(RecordIdx < Vals.size() && "Invalid abbrev/record"); 331 EmitAbbreviatedLiteral(Op, Vals[RecordIdx]); 332 ++RecordIdx; 333 } else if (Op.getEncoding() == BitCodeAbbrevOp::Array) { 334 // Array case. 335 assert(i + 2 == e && "array op not second to last?"); 336 const BitCodeAbbrevOp &EltEnc = Abbv->getOperandInfo(++i); 337 338 // If this record has blob data, emit it, otherwise we must have record 339 // entries to encode this way. 340 if (BlobData) { 341 assert(RecordIdx == Vals.size() && 342 "Blob data and record entries specified for array!"); 343 // Emit a vbr6 to indicate the number of elements present. 344 EmitVBR(static_cast<uint32_t>(BlobLen), 6); 345 346 // Emit each field. 347 for (unsigned i = 0; i != BlobLen; ++i) 348 EmitAbbreviatedField(EltEnc, (unsigned char)BlobData[i]); 349 350 // Know that blob data is consumed for assertion below. 351 BlobData = nullptr; 352 } else { 353 // Emit a vbr6 to indicate the number of elements present. 354 EmitVBR(static_cast<uint32_t>(Vals.size()-RecordIdx), 6); 355 356 // Emit each field. 357 for (unsigned e = Vals.size(); RecordIdx != e; ++RecordIdx) 358 EmitAbbreviatedField(EltEnc, Vals[RecordIdx]); 359 } 360 } else if (Op.getEncoding() == BitCodeAbbrevOp::Blob) { 361 // If this record has blob data, emit it, otherwise we must have record 362 // entries to encode this way. 363 364 // Emit a vbr6 to indicate the number of elements present. 365 if (BlobData) { 366 EmitVBR(static_cast<uint32_t>(BlobLen), 6); 367 assert(RecordIdx == Vals.size() && 368 "Blob data and record entries specified for blob operand!"); 369 } else { 370 EmitVBR(static_cast<uint32_t>(Vals.size()-RecordIdx), 6); 371 } 372 373 // Flush to a 32-bit alignment boundary. 374 FlushToWord(); 375 376 // Emit each field as a literal byte. 377 if (BlobData) { 378 for (unsigned i = 0; i != BlobLen; ++i) 379 WriteByte((unsigned char)BlobData[i]); 380 381 // Know that blob data is consumed for assertion below. 382 BlobData = nullptr; 383 } else { 384 for (unsigned e = Vals.size(); RecordIdx != e; ++RecordIdx) { 385 assert(isUInt<8>(Vals[RecordIdx]) && 386 "Value too large to emit as blob"); 387 WriteByte((unsigned char)Vals[RecordIdx]); 388 } 389 } 390 391 // Align end to 32-bits. 392 while (GetBufferOffset() & 3) 393 WriteByte(0); 394 } else { // Single scalar field. 395 assert(RecordIdx < Vals.size() && "Invalid abbrev/record"); 396 EmitAbbreviatedField(Op, Vals[RecordIdx]); 397 ++RecordIdx; 398 } 399 } 400 assert(RecordIdx == Vals.size() && "Not all record operands emitted!"); 401 assert(BlobData == nullptr && 402 "Blob data specified for record that doesn't use it!"); 403 } 404 405 public: 406 407 /// EmitRecord - Emit the specified record to the stream, using an abbrev if 408 /// we have one to compress the output. 409 template <typename Container> 410 void EmitRecord(unsigned Code, const Container &Vals, unsigned Abbrev = 0) { 411 if (!Abbrev) { 412 // If we don't have an abbrev to use, emit this in its fully unabbreviated 413 // form. 414 auto Count = static_cast<uint32_t>(makeArrayRef(Vals).size()); 415 EmitCode(bitc::UNABBREV_RECORD); 416 EmitVBR(Code, 6); 417 EmitVBR(Count, 6); 418 for (unsigned i = 0, e = Count; i != e; ++i) 419 EmitVBR64(Vals[i], 6); 420 return; 421 } 422 423 EmitRecordWithAbbrevImpl(Abbrev, makeArrayRef(Vals), StringRef(), Code); 424 } 425 426 /// EmitRecordWithAbbrev - Emit a record with the specified abbreviation. 427 /// Unlike EmitRecord, the code for the record should be included in Vals as 428 /// the first entry. 429 template <typename Container> EmitRecordWithAbbrev(unsigned Abbrev,const Container & Vals)430 void EmitRecordWithAbbrev(unsigned Abbrev, const Container &Vals) { 431 EmitRecordWithAbbrevImpl(Abbrev, makeArrayRef(Vals), StringRef(), None); 432 } 433 434 /// EmitRecordWithBlob - Emit the specified record to the stream, using an 435 /// abbrev that includes a blob at the end. The blob data to emit is 436 /// specified by the pointer and length specified at the end. In contrast to 437 /// EmitRecord, this routine expects that the first entry in Vals is the code 438 /// of the record. 439 template <typename Container> EmitRecordWithBlob(unsigned Abbrev,const Container & Vals,StringRef Blob)440 void EmitRecordWithBlob(unsigned Abbrev, const Container &Vals, 441 StringRef Blob) { 442 EmitRecordWithAbbrevImpl(Abbrev, makeArrayRef(Vals), Blob, None); 443 } 444 template <typename Container> EmitRecordWithBlob(unsigned Abbrev,const Container & Vals,const char * BlobData,unsigned BlobLen)445 void EmitRecordWithBlob(unsigned Abbrev, const Container &Vals, 446 const char *BlobData, unsigned BlobLen) { 447 return EmitRecordWithAbbrevImpl(Abbrev, makeArrayRef(Vals), 448 StringRef(BlobData, BlobLen), None); 449 } 450 451 /// EmitRecordWithArray - Just like EmitRecordWithBlob, works with records 452 /// that end with an array. 453 template <typename Container> EmitRecordWithArray(unsigned Abbrev,const Container & Vals,StringRef Array)454 void EmitRecordWithArray(unsigned Abbrev, const Container &Vals, 455 StringRef Array) { 456 EmitRecordWithAbbrevImpl(Abbrev, makeArrayRef(Vals), Array, None); 457 } 458 template <typename Container> EmitRecordWithArray(unsigned Abbrev,const Container & Vals,const char * ArrayData,unsigned ArrayLen)459 void EmitRecordWithArray(unsigned Abbrev, const Container &Vals, 460 const char *ArrayData, unsigned ArrayLen) { 461 return EmitRecordWithAbbrevImpl(Abbrev, makeArrayRef(Vals), 462 StringRef(ArrayData, ArrayLen), None); 463 } 464 465 //===--------------------------------------------------------------------===// 466 // Abbrev Emission 467 //===--------------------------------------------------------------------===// 468 469 private: 470 // Emit the abbreviation as a DEFINE_ABBREV record. EncodeAbbrev(BitCodeAbbrev * Abbv)471 void EncodeAbbrev(BitCodeAbbrev *Abbv) { 472 EmitCode(bitc::DEFINE_ABBREV); 473 EmitVBR(Abbv->getNumOperandInfos(), 5); 474 for (unsigned i = 0, e = static_cast<unsigned>(Abbv->getNumOperandInfos()); 475 i != e; ++i) { 476 const BitCodeAbbrevOp &Op = Abbv->getOperandInfo(i); 477 Emit(Op.isLiteral(), 1); 478 if (Op.isLiteral()) { 479 EmitVBR64(Op.getLiteralValue(), 8); 480 } else { 481 Emit(Op.getEncoding(), 3); 482 if (Op.hasEncodingData()) 483 EmitVBR64(Op.getEncodingData(), 5); 484 } 485 } 486 } 487 public: 488 489 /// EmitAbbrev - This emits an abbreviation to the stream. Note that this 490 /// method takes ownership of the specified abbrev. EmitAbbrev(BitCodeAbbrev * Abbv)491 unsigned EmitAbbrev(BitCodeAbbrev *Abbv) { 492 // Emit the abbreviation as a record. 493 EncodeAbbrev(Abbv); 494 CurAbbrevs.push_back(Abbv); 495 return static_cast<unsigned>(CurAbbrevs.size())-1 + 496 bitc::FIRST_APPLICATION_ABBREV; 497 } 498 499 //===--------------------------------------------------------------------===// 500 // BlockInfo Block Emission 501 //===--------------------------------------------------------------------===// 502 503 /// EnterBlockInfoBlock - Start emitting the BLOCKINFO_BLOCK. EnterBlockInfoBlock(unsigned CodeWidth)504 void EnterBlockInfoBlock(unsigned CodeWidth) { 505 EnterSubblock(bitc::BLOCKINFO_BLOCK_ID, CodeWidth); 506 BlockInfoCurBID = ~0U; 507 } 508 private: 509 /// SwitchToBlockID - If we aren't already talking about the specified block 510 /// ID, emit a BLOCKINFO_CODE_SETBID record. SwitchToBlockID(unsigned BlockID)511 void SwitchToBlockID(unsigned BlockID) { 512 if (BlockInfoCurBID == BlockID) return; 513 SmallVector<unsigned, 2> V; 514 V.push_back(BlockID); 515 EmitRecord(bitc::BLOCKINFO_CODE_SETBID, V); 516 BlockInfoCurBID = BlockID; 517 } 518 getOrCreateBlockInfo(unsigned BlockID)519 BlockInfo &getOrCreateBlockInfo(unsigned BlockID) { 520 if (BlockInfo *BI = getBlockInfo(BlockID)) 521 return *BI; 522 523 // Otherwise, add a new record. 524 BlockInfoRecords.emplace_back(); 525 BlockInfoRecords.back().BlockID = BlockID; 526 return BlockInfoRecords.back(); 527 } 528 529 public: 530 531 /// EmitBlockInfoAbbrev - Emit a DEFINE_ABBREV record for the specified 532 /// BlockID. EmitBlockInfoAbbrev(unsigned BlockID,BitCodeAbbrev * Abbv)533 unsigned EmitBlockInfoAbbrev(unsigned BlockID, BitCodeAbbrev *Abbv) { 534 SwitchToBlockID(BlockID); 535 EncodeAbbrev(Abbv); 536 537 // Add the abbrev to the specified block record. 538 BlockInfo &Info = getOrCreateBlockInfo(BlockID); 539 Info.Abbrevs.push_back(Abbv); 540 541 return Info.Abbrevs.size()-1+bitc::FIRST_APPLICATION_ABBREV; 542 } 543 }; 544 545 546 } // End llvm namespace 547 548 #endif 549