1f22ef01cSRoman Divacky //===--- Bitcode/Writer/BitcodeWriter.cpp - Bitcode Writer ----------------===// 2f22ef01cSRoman Divacky // 3f22ef01cSRoman Divacky // The LLVM Compiler Infrastructure 4f22ef01cSRoman Divacky // 5f22ef01cSRoman Divacky // This file is distributed under the University of Illinois Open Source 6f22ef01cSRoman Divacky // License. See LICENSE.TXT for details. 7f22ef01cSRoman Divacky // 8f22ef01cSRoman Divacky //===----------------------------------------------------------------------===// 9f22ef01cSRoman Divacky // 10f22ef01cSRoman Divacky // Bitcode writer implementation. 11f22ef01cSRoman Divacky // 12f22ef01cSRoman Divacky //===----------------------------------------------------------------------===// 13f22ef01cSRoman Divacky 14f22ef01cSRoman Divacky #include "llvm/Bitcode/ReaderWriter.h" 15139f7f9bSDimitry Andric #include "ValueEnumerator.h" 16139f7f9bSDimitry Andric #include "llvm/ADT/Triple.h" 17f22ef01cSRoman Divacky #include "llvm/Bitcode/BitstreamWriter.h" 18f22ef01cSRoman Divacky #include "llvm/Bitcode/LLVMBitCodes.h" 19139f7f9bSDimitry Andric #include "llvm/IR/Constants.h" 20139f7f9bSDimitry Andric #include "llvm/IR/DerivedTypes.h" 21139f7f9bSDimitry Andric #include "llvm/IR/InlineAsm.h" 22139f7f9bSDimitry Andric #include "llvm/IR/Instructions.h" 23139f7f9bSDimitry Andric #include "llvm/IR/Module.h" 24139f7f9bSDimitry Andric #include "llvm/IR/Operator.h" 25139f7f9bSDimitry Andric #include "llvm/IR/ValueSymbolTable.h" 26dff0c46cSDimitry Andric #include "llvm/Support/CommandLine.h" 27f22ef01cSRoman Divacky #include "llvm/Support/ErrorHandling.h" 28f22ef01cSRoman Divacky #include "llvm/Support/MathExtras.h" 292754fe60SDimitry Andric #include "llvm/Support/Program.h" 30139f7f9bSDimitry Andric #include "llvm/Support/raw_ostream.h" 312754fe60SDimitry Andric #include <cctype> 3217a519f9SDimitry Andric #include <map> 33f22ef01cSRoman Divacky using namespace llvm; 34f22ef01cSRoman Divacky 35dff0c46cSDimitry Andric static cl::opt<bool> 36dff0c46cSDimitry Andric EnablePreserveUseListOrdering("enable-bc-uselist-preserve", 37dff0c46cSDimitry Andric cl::desc("Turn on experimental support for " 38dff0c46cSDimitry Andric "use-list order preservation."), 39dff0c46cSDimitry Andric cl::init(false), cl::Hidden); 40dff0c46cSDimitry Andric 41f22ef01cSRoman Divacky /// These are manifest constants used by the bitcode writer. They do not need to 42f22ef01cSRoman Divacky /// be kept in sync with the reader, but need to be consistent within this file. 43f22ef01cSRoman Divacky enum { 44f22ef01cSRoman Divacky // VALUE_SYMTAB_BLOCK abbrev id's. 45f22ef01cSRoman Divacky VST_ENTRY_8_ABBREV = bitc::FIRST_APPLICATION_ABBREV, 46f22ef01cSRoman Divacky VST_ENTRY_7_ABBREV, 47f22ef01cSRoman Divacky VST_ENTRY_6_ABBREV, 48f22ef01cSRoman Divacky VST_BBENTRY_6_ABBREV, 49f22ef01cSRoman Divacky 50f22ef01cSRoman Divacky // CONSTANTS_BLOCK abbrev id's. 51f22ef01cSRoman Divacky CONSTANTS_SETTYPE_ABBREV = bitc::FIRST_APPLICATION_ABBREV, 52f22ef01cSRoman Divacky CONSTANTS_INTEGER_ABBREV, 53f22ef01cSRoman Divacky CONSTANTS_CE_CAST_Abbrev, 54f22ef01cSRoman Divacky CONSTANTS_NULL_Abbrev, 55f22ef01cSRoman Divacky 56f22ef01cSRoman Divacky // FUNCTION_BLOCK abbrev id's. 57f22ef01cSRoman Divacky FUNCTION_INST_LOAD_ABBREV = bitc::FIRST_APPLICATION_ABBREV, 58f22ef01cSRoman Divacky FUNCTION_INST_BINOP_ABBREV, 59f22ef01cSRoman Divacky FUNCTION_INST_BINOP_FLAGS_ABBREV, 60f22ef01cSRoman Divacky FUNCTION_INST_CAST_ABBREV, 61f22ef01cSRoman Divacky FUNCTION_INST_RET_VOID_ABBREV, 62f22ef01cSRoman Divacky FUNCTION_INST_RET_VAL_ABBREV, 63f785676fSDimitry Andric FUNCTION_INST_UNREACHABLE_ABBREV 64f22ef01cSRoman Divacky }; 65f22ef01cSRoman Divacky 66f22ef01cSRoman Divacky static unsigned GetEncodedCastOpcode(unsigned Opcode) { 67f22ef01cSRoman Divacky switch (Opcode) { 68f22ef01cSRoman Divacky default: llvm_unreachable("Unknown cast instruction!"); 69f22ef01cSRoman Divacky case Instruction::Trunc : return bitc::CAST_TRUNC; 70f22ef01cSRoman Divacky case Instruction::ZExt : return bitc::CAST_ZEXT; 71f22ef01cSRoman Divacky case Instruction::SExt : return bitc::CAST_SEXT; 72f22ef01cSRoman Divacky case Instruction::FPToUI : return bitc::CAST_FPTOUI; 73f22ef01cSRoman Divacky case Instruction::FPToSI : return bitc::CAST_FPTOSI; 74f22ef01cSRoman Divacky case Instruction::UIToFP : return bitc::CAST_UITOFP; 75f22ef01cSRoman Divacky case Instruction::SIToFP : return bitc::CAST_SITOFP; 76f22ef01cSRoman Divacky case Instruction::FPTrunc : return bitc::CAST_FPTRUNC; 77f22ef01cSRoman Divacky case Instruction::FPExt : return bitc::CAST_FPEXT; 78f22ef01cSRoman Divacky case Instruction::PtrToInt: return bitc::CAST_PTRTOINT; 79f22ef01cSRoman Divacky case Instruction::IntToPtr: return bitc::CAST_INTTOPTR; 80f22ef01cSRoman Divacky case Instruction::BitCast : return bitc::CAST_BITCAST; 81f785676fSDimitry Andric case Instruction::AddrSpaceCast: return bitc::CAST_ADDRSPACECAST; 82f22ef01cSRoman Divacky } 83f22ef01cSRoman Divacky } 84f22ef01cSRoman Divacky 85f22ef01cSRoman Divacky static unsigned GetEncodedBinaryOpcode(unsigned Opcode) { 86f22ef01cSRoman Divacky switch (Opcode) { 87f22ef01cSRoman Divacky default: llvm_unreachable("Unknown binary instruction!"); 88f22ef01cSRoman Divacky case Instruction::Add: 89f22ef01cSRoman Divacky case Instruction::FAdd: return bitc::BINOP_ADD; 90f22ef01cSRoman Divacky case Instruction::Sub: 91f22ef01cSRoman Divacky case Instruction::FSub: return bitc::BINOP_SUB; 92f22ef01cSRoman Divacky case Instruction::Mul: 93f22ef01cSRoman Divacky case Instruction::FMul: return bitc::BINOP_MUL; 94f22ef01cSRoman Divacky case Instruction::UDiv: return bitc::BINOP_UDIV; 95f22ef01cSRoman Divacky case Instruction::FDiv: 96f22ef01cSRoman Divacky case Instruction::SDiv: return bitc::BINOP_SDIV; 97f22ef01cSRoman Divacky case Instruction::URem: return bitc::BINOP_UREM; 98f22ef01cSRoman Divacky case Instruction::FRem: 99f22ef01cSRoman Divacky case Instruction::SRem: return bitc::BINOP_SREM; 100f22ef01cSRoman Divacky case Instruction::Shl: return bitc::BINOP_SHL; 101f22ef01cSRoman Divacky case Instruction::LShr: return bitc::BINOP_LSHR; 102f22ef01cSRoman Divacky case Instruction::AShr: return bitc::BINOP_ASHR; 103f22ef01cSRoman Divacky case Instruction::And: return bitc::BINOP_AND; 104f22ef01cSRoman Divacky case Instruction::Or: return bitc::BINOP_OR; 105f22ef01cSRoman Divacky case Instruction::Xor: return bitc::BINOP_XOR; 106f22ef01cSRoman Divacky } 107f22ef01cSRoman Divacky } 108f22ef01cSRoman Divacky 1096122f3e6SDimitry Andric static unsigned GetEncodedRMWOperation(AtomicRMWInst::BinOp Op) { 1106122f3e6SDimitry Andric switch (Op) { 1116122f3e6SDimitry Andric default: llvm_unreachable("Unknown RMW operation!"); 1126122f3e6SDimitry Andric case AtomicRMWInst::Xchg: return bitc::RMW_XCHG; 1136122f3e6SDimitry Andric case AtomicRMWInst::Add: return bitc::RMW_ADD; 1146122f3e6SDimitry Andric case AtomicRMWInst::Sub: return bitc::RMW_SUB; 1156122f3e6SDimitry Andric case AtomicRMWInst::And: return bitc::RMW_AND; 1166122f3e6SDimitry Andric case AtomicRMWInst::Nand: return bitc::RMW_NAND; 1176122f3e6SDimitry Andric case AtomicRMWInst::Or: return bitc::RMW_OR; 1186122f3e6SDimitry Andric case AtomicRMWInst::Xor: return bitc::RMW_XOR; 1196122f3e6SDimitry Andric case AtomicRMWInst::Max: return bitc::RMW_MAX; 1206122f3e6SDimitry Andric case AtomicRMWInst::Min: return bitc::RMW_MIN; 1216122f3e6SDimitry Andric case AtomicRMWInst::UMax: return bitc::RMW_UMAX; 1226122f3e6SDimitry Andric case AtomicRMWInst::UMin: return bitc::RMW_UMIN; 1236122f3e6SDimitry Andric } 1246122f3e6SDimitry Andric } 1256122f3e6SDimitry Andric 1266122f3e6SDimitry Andric static unsigned GetEncodedOrdering(AtomicOrdering Ordering) { 1276122f3e6SDimitry Andric switch (Ordering) { 1286122f3e6SDimitry Andric case NotAtomic: return bitc::ORDERING_NOTATOMIC; 1296122f3e6SDimitry Andric case Unordered: return bitc::ORDERING_UNORDERED; 1306122f3e6SDimitry Andric case Monotonic: return bitc::ORDERING_MONOTONIC; 1316122f3e6SDimitry Andric case Acquire: return bitc::ORDERING_ACQUIRE; 1326122f3e6SDimitry Andric case Release: return bitc::ORDERING_RELEASE; 1336122f3e6SDimitry Andric case AcquireRelease: return bitc::ORDERING_ACQREL; 1346122f3e6SDimitry Andric case SequentiallyConsistent: return bitc::ORDERING_SEQCST; 1356122f3e6SDimitry Andric } 136dff0c46cSDimitry Andric llvm_unreachable("Invalid ordering"); 1376122f3e6SDimitry Andric } 1386122f3e6SDimitry Andric 1396122f3e6SDimitry Andric static unsigned GetEncodedSynchScope(SynchronizationScope SynchScope) { 1406122f3e6SDimitry Andric switch (SynchScope) { 1416122f3e6SDimitry Andric case SingleThread: return bitc::SYNCHSCOPE_SINGLETHREAD; 1426122f3e6SDimitry Andric case CrossThread: return bitc::SYNCHSCOPE_CROSSTHREAD; 1436122f3e6SDimitry Andric } 144dff0c46cSDimitry Andric llvm_unreachable("Invalid synch scope"); 1456122f3e6SDimitry Andric } 1466122f3e6SDimitry Andric 14717a519f9SDimitry Andric static void WriteStringRecord(unsigned Code, StringRef Str, 148f22ef01cSRoman Divacky unsigned AbbrevToUse, BitstreamWriter &Stream) { 149f22ef01cSRoman Divacky SmallVector<unsigned, 64> Vals; 150f22ef01cSRoman Divacky 151f22ef01cSRoman Divacky // Code: [strchar x N] 15217a519f9SDimitry Andric for (unsigned i = 0, e = Str.size(); i != e; ++i) { 15317a519f9SDimitry Andric if (AbbrevToUse && !BitCodeAbbrevOp::isChar6(Str[i])) 15417a519f9SDimitry Andric AbbrevToUse = 0; 155f22ef01cSRoman Divacky Vals.push_back(Str[i]); 15617a519f9SDimitry Andric } 157f22ef01cSRoman Divacky 158f22ef01cSRoman Divacky // Emit the finished record. 159f22ef01cSRoman Divacky Stream.EmitRecord(Code, Vals, AbbrevToUse); 160f22ef01cSRoman Divacky } 161f22ef01cSRoman Divacky 162f785676fSDimitry Andric static uint64_t getAttrKindEncoding(Attribute::AttrKind Kind) { 163f785676fSDimitry Andric switch (Kind) { 164f785676fSDimitry Andric case Attribute::Alignment: 165f785676fSDimitry Andric return bitc::ATTR_KIND_ALIGNMENT; 166f785676fSDimitry Andric case Attribute::AlwaysInline: 167f785676fSDimitry Andric return bitc::ATTR_KIND_ALWAYS_INLINE; 168f785676fSDimitry Andric case Attribute::Builtin: 169f785676fSDimitry Andric return bitc::ATTR_KIND_BUILTIN; 170f785676fSDimitry Andric case Attribute::ByVal: 171f785676fSDimitry Andric return bitc::ATTR_KIND_BY_VAL; 172f785676fSDimitry Andric case Attribute::Cold: 173f785676fSDimitry Andric return bitc::ATTR_KIND_COLD; 174f785676fSDimitry Andric case Attribute::InlineHint: 175f785676fSDimitry Andric return bitc::ATTR_KIND_INLINE_HINT; 176f785676fSDimitry Andric case Attribute::InReg: 177f785676fSDimitry Andric return bitc::ATTR_KIND_IN_REG; 178f785676fSDimitry Andric case Attribute::MinSize: 179f785676fSDimitry Andric return bitc::ATTR_KIND_MIN_SIZE; 180f785676fSDimitry Andric case Attribute::Naked: 181f785676fSDimitry Andric return bitc::ATTR_KIND_NAKED; 182f785676fSDimitry Andric case Attribute::Nest: 183f785676fSDimitry Andric return bitc::ATTR_KIND_NEST; 184f785676fSDimitry Andric case Attribute::NoAlias: 185f785676fSDimitry Andric return bitc::ATTR_KIND_NO_ALIAS; 186f785676fSDimitry Andric case Attribute::NoBuiltin: 187f785676fSDimitry Andric return bitc::ATTR_KIND_NO_BUILTIN; 188f785676fSDimitry Andric case Attribute::NoCapture: 189f785676fSDimitry Andric return bitc::ATTR_KIND_NO_CAPTURE; 190f785676fSDimitry Andric case Attribute::NoDuplicate: 191f785676fSDimitry Andric return bitc::ATTR_KIND_NO_DUPLICATE; 192f785676fSDimitry Andric case Attribute::NoImplicitFloat: 193f785676fSDimitry Andric return bitc::ATTR_KIND_NO_IMPLICIT_FLOAT; 194f785676fSDimitry Andric case Attribute::NoInline: 195f785676fSDimitry Andric return bitc::ATTR_KIND_NO_INLINE; 196f785676fSDimitry Andric case Attribute::NonLazyBind: 197f785676fSDimitry Andric return bitc::ATTR_KIND_NON_LAZY_BIND; 198f785676fSDimitry Andric case Attribute::NoRedZone: 199f785676fSDimitry Andric return bitc::ATTR_KIND_NO_RED_ZONE; 200f785676fSDimitry Andric case Attribute::NoReturn: 201f785676fSDimitry Andric return bitc::ATTR_KIND_NO_RETURN; 202f785676fSDimitry Andric case Attribute::NoUnwind: 203f785676fSDimitry Andric return bitc::ATTR_KIND_NO_UNWIND; 204f785676fSDimitry Andric case Attribute::OptimizeForSize: 205f785676fSDimitry Andric return bitc::ATTR_KIND_OPTIMIZE_FOR_SIZE; 206f785676fSDimitry Andric case Attribute::OptimizeNone: 207f785676fSDimitry Andric return bitc::ATTR_KIND_OPTIMIZE_NONE; 208f785676fSDimitry Andric case Attribute::ReadNone: 209f785676fSDimitry Andric return bitc::ATTR_KIND_READ_NONE; 210f785676fSDimitry Andric case Attribute::ReadOnly: 211f785676fSDimitry Andric return bitc::ATTR_KIND_READ_ONLY; 212f785676fSDimitry Andric case Attribute::Returned: 213f785676fSDimitry Andric return bitc::ATTR_KIND_RETURNED; 214f785676fSDimitry Andric case Attribute::ReturnsTwice: 215f785676fSDimitry Andric return bitc::ATTR_KIND_RETURNS_TWICE; 216f785676fSDimitry Andric case Attribute::SExt: 217f785676fSDimitry Andric return bitc::ATTR_KIND_S_EXT; 218f785676fSDimitry Andric case Attribute::StackAlignment: 219f785676fSDimitry Andric return bitc::ATTR_KIND_STACK_ALIGNMENT; 220f785676fSDimitry Andric case Attribute::StackProtect: 221f785676fSDimitry Andric return bitc::ATTR_KIND_STACK_PROTECT; 222f785676fSDimitry Andric case Attribute::StackProtectReq: 223f785676fSDimitry Andric return bitc::ATTR_KIND_STACK_PROTECT_REQ; 224f785676fSDimitry Andric case Attribute::StackProtectStrong: 225f785676fSDimitry Andric return bitc::ATTR_KIND_STACK_PROTECT_STRONG; 226f785676fSDimitry Andric case Attribute::StructRet: 227f785676fSDimitry Andric return bitc::ATTR_KIND_STRUCT_RET; 228f785676fSDimitry Andric case Attribute::SanitizeAddress: 229f785676fSDimitry Andric return bitc::ATTR_KIND_SANITIZE_ADDRESS; 230f785676fSDimitry Andric case Attribute::SanitizeThread: 231f785676fSDimitry Andric return bitc::ATTR_KIND_SANITIZE_THREAD; 232f785676fSDimitry Andric case Attribute::SanitizeMemory: 233f785676fSDimitry Andric return bitc::ATTR_KIND_SANITIZE_MEMORY; 234f785676fSDimitry Andric case Attribute::UWTable: 235f785676fSDimitry Andric return bitc::ATTR_KIND_UW_TABLE; 236f785676fSDimitry Andric case Attribute::ZExt: 237f785676fSDimitry Andric return bitc::ATTR_KIND_Z_EXT; 238f785676fSDimitry Andric case Attribute::EndAttrKinds: 239f785676fSDimitry Andric llvm_unreachable("Can not encode end-attribute kinds marker."); 240f785676fSDimitry Andric case Attribute::None: 241f785676fSDimitry Andric llvm_unreachable("Can not encode none-attribute."); 242f785676fSDimitry Andric } 243f785676fSDimitry Andric 244f785676fSDimitry Andric llvm_unreachable("Trying to encode unknown attribute"); 245f785676fSDimitry Andric } 246f785676fSDimitry Andric 247139f7f9bSDimitry Andric static void WriteAttributeGroupTable(const ValueEnumerator &VE, 248139f7f9bSDimitry Andric BitstreamWriter &Stream) { 249139f7f9bSDimitry Andric const std::vector<AttributeSet> &AttrGrps = VE.getAttributeGroups(); 250139f7f9bSDimitry Andric if (AttrGrps.empty()) return; 251139f7f9bSDimitry Andric 252139f7f9bSDimitry Andric Stream.EnterSubblock(bitc::PARAMATTR_GROUP_BLOCK_ID, 3); 253139f7f9bSDimitry Andric 254139f7f9bSDimitry Andric SmallVector<uint64_t, 64> Record; 255139f7f9bSDimitry Andric for (unsigned i = 0, e = AttrGrps.size(); i != e; ++i) { 256139f7f9bSDimitry Andric AttributeSet AS = AttrGrps[i]; 257139f7f9bSDimitry Andric for (unsigned i = 0, e = AS.getNumSlots(); i != e; ++i) { 258139f7f9bSDimitry Andric AttributeSet A = AS.getSlotAttributes(i); 259139f7f9bSDimitry Andric 260139f7f9bSDimitry Andric Record.push_back(VE.getAttributeGroupID(A)); 261139f7f9bSDimitry Andric Record.push_back(AS.getSlotIndex(i)); 262139f7f9bSDimitry Andric 263139f7f9bSDimitry Andric for (AttributeSet::iterator I = AS.begin(0), E = AS.end(0); 264139f7f9bSDimitry Andric I != E; ++I) { 265139f7f9bSDimitry Andric Attribute Attr = *I; 266139f7f9bSDimitry Andric if (Attr.isEnumAttribute()) { 267139f7f9bSDimitry Andric Record.push_back(0); 268f785676fSDimitry Andric Record.push_back(getAttrKindEncoding(Attr.getKindAsEnum())); 269139f7f9bSDimitry Andric } else if (Attr.isAlignAttribute()) { 270139f7f9bSDimitry Andric Record.push_back(1); 271f785676fSDimitry Andric Record.push_back(getAttrKindEncoding(Attr.getKindAsEnum())); 272139f7f9bSDimitry Andric Record.push_back(Attr.getValueAsInt()); 273139f7f9bSDimitry Andric } else { 274139f7f9bSDimitry Andric StringRef Kind = Attr.getKindAsString(); 275139f7f9bSDimitry Andric StringRef Val = Attr.getValueAsString(); 276139f7f9bSDimitry Andric 277139f7f9bSDimitry Andric Record.push_back(Val.empty() ? 3 : 4); 278139f7f9bSDimitry Andric Record.append(Kind.begin(), Kind.end()); 279139f7f9bSDimitry Andric Record.push_back(0); 280139f7f9bSDimitry Andric if (!Val.empty()) { 281139f7f9bSDimitry Andric Record.append(Val.begin(), Val.end()); 282139f7f9bSDimitry Andric Record.push_back(0); 283139f7f9bSDimitry Andric } 284139f7f9bSDimitry Andric } 285139f7f9bSDimitry Andric } 286139f7f9bSDimitry Andric 287139f7f9bSDimitry Andric Stream.EmitRecord(bitc::PARAMATTR_GRP_CODE_ENTRY, Record); 288139f7f9bSDimitry Andric Record.clear(); 289139f7f9bSDimitry Andric } 290139f7f9bSDimitry Andric } 291139f7f9bSDimitry Andric 292139f7f9bSDimitry Andric Stream.ExitBlock(); 293139f7f9bSDimitry Andric } 294139f7f9bSDimitry Andric 295f22ef01cSRoman Divacky static void WriteAttributeTable(const ValueEnumerator &VE, 296f22ef01cSRoman Divacky BitstreamWriter &Stream) { 297139f7f9bSDimitry Andric const std::vector<AttributeSet> &Attrs = VE.getAttributes(); 298f22ef01cSRoman Divacky if (Attrs.empty()) return; 299f22ef01cSRoman Divacky 300f22ef01cSRoman Divacky Stream.EnterSubblock(bitc::PARAMATTR_BLOCK_ID, 3); 301f22ef01cSRoman Divacky 302f22ef01cSRoman Divacky SmallVector<uint64_t, 64> Record; 303f22ef01cSRoman Divacky for (unsigned i = 0, e = Attrs.size(); i != e; ++i) { 304139f7f9bSDimitry Andric const AttributeSet &A = Attrs[i]; 305139f7f9bSDimitry Andric for (unsigned i = 0, e = A.getNumSlots(); i != e; ++i) 306139f7f9bSDimitry Andric Record.push_back(VE.getAttributeGroupID(A.getSlotAttributes(i))); 307f22ef01cSRoman Divacky 308f22ef01cSRoman Divacky Stream.EmitRecord(bitc::PARAMATTR_CODE_ENTRY, Record); 309f22ef01cSRoman Divacky Record.clear(); 310f22ef01cSRoman Divacky } 311f22ef01cSRoman Divacky 312f22ef01cSRoman Divacky Stream.ExitBlock(); 313f22ef01cSRoman Divacky } 314f22ef01cSRoman Divacky 315f22ef01cSRoman Divacky /// WriteTypeTable - Write out the type table for a module. 316f22ef01cSRoman Divacky static void WriteTypeTable(const ValueEnumerator &VE, BitstreamWriter &Stream) { 317f22ef01cSRoman Divacky const ValueEnumerator::TypeList &TypeList = VE.getTypes(); 318f22ef01cSRoman Divacky 31917a519f9SDimitry Andric Stream.EnterSubblock(bitc::TYPE_BLOCK_ID_NEW, 4 /*count from # abbrevs */); 320f22ef01cSRoman Divacky SmallVector<uint64_t, 64> TypeVals; 321f22ef01cSRoman Divacky 322dff0c46cSDimitry Andric uint64_t NumBits = Log2_32_Ceil(VE.getTypes().size()+1); 323dff0c46cSDimitry Andric 324f22ef01cSRoman Divacky // Abbrev for TYPE_CODE_POINTER. 325f22ef01cSRoman Divacky BitCodeAbbrev *Abbv = new BitCodeAbbrev(); 326f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(bitc::TYPE_CODE_POINTER)); 327dff0c46cSDimitry Andric Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, NumBits)); 328f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(0)); // Addrspace = 0 329f22ef01cSRoman Divacky unsigned PtrAbbrev = Stream.EmitAbbrev(Abbv); 330f22ef01cSRoman Divacky 331f22ef01cSRoman Divacky // Abbrev for TYPE_CODE_FUNCTION. 332f22ef01cSRoman Divacky Abbv = new BitCodeAbbrev(); 333f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(bitc::TYPE_CODE_FUNCTION)); 334f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 1)); // isvararg 335f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Array)); 336dff0c46cSDimitry Andric Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, NumBits)); 337dff0c46cSDimitry Andric 338f22ef01cSRoman Divacky unsigned FunctionAbbrev = Stream.EmitAbbrev(Abbv); 339f22ef01cSRoman Divacky 34017a519f9SDimitry Andric // Abbrev for TYPE_CODE_STRUCT_ANON. 341f22ef01cSRoman Divacky Abbv = new BitCodeAbbrev(); 34217a519f9SDimitry Andric Abbv->Add(BitCodeAbbrevOp(bitc::TYPE_CODE_STRUCT_ANON)); 343f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 1)); // ispacked 344f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Array)); 345dff0c46cSDimitry Andric Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, NumBits)); 346dff0c46cSDimitry Andric 34717a519f9SDimitry Andric unsigned StructAnonAbbrev = Stream.EmitAbbrev(Abbv); 34817a519f9SDimitry Andric 34917a519f9SDimitry Andric // Abbrev for TYPE_CODE_STRUCT_NAME. 35017a519f9SDimitry Andric Abbv = new BitCodeAbbrev(); 35117a519f9SDimitry Andric Abbv->Add(BitCodeAbbrevOp(bitc::TYPE_CODE_STRUCT_NAME)); 35217a519f9SDimitry Andric Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Array)); 35317a519f9SDimitry Andric Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Char6)); 35417a519f9SDimitry Andric unsigned StructNameAbbrev = Stream.EmitAbbrev(Abbv); 35517a519f9SDimitry Andric 35617a519f9SDimitry Andric // Abbrev for TYPE_CODE_STRUCT_NAMED. 35717a519f9SDimitry Andric Abbv = new BitCodeAbbrev(); 35817a519f9SDimitry Andric Abbv->Add(BitCodeAbbrevOp(bitc::TYPE_CODE_STRUCT_NAMED)); 35917a519f9SDimitry Andric Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 1)); // ispacked 36017a519f9SDimitry Andric Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Array)); 361dff0c46cSDimitry Andric Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, NumBits)); 362dff0c46cSDimitry Andric 36317a519f9SDimitry Andric unsigned StructNamedAbbrev = Stream.EmitAbbrev(Abbv); 36417a519f9SDimitry Andric 365f22ef01cSRoman Divacky // Abbrev for TYPE_CODE_ARRAY. 366f22ef01cSRoman Divacky Abbv = new BitCodeAbbrev(); 367f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(bitc::TYPE_CODE_ARRAY)); 368f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 8)); // size 369dff0c46cSDimitry Andric Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, NumBits)); 370dff0c46cSDimitry Andric 371f22ef01cSRoman Divacky unsigned ArrayAbbrev = Stream.EmitAbbrev(Abbv); 372f22ef01cSRoman Divacky 373f22ef01cSRoman Divacky // Emit an entry count so the reader can reserve space. 374f22ef01cSRoman Divacky TypeVals.push_back(TypeList.size()); 375f22ef01cSRoman Divacky Stream.EmitRecord(bitc::TYPE_CODE_NUMENTRY, TypeVals); 376f22ef01cSRoman Divacky TypeVals.clear(); 377f22ef01cSRoman Divacky 378f22ef01cSRoman Divacky // Loop over all of the types, emitting each in turn. 379f22ef01cSRoman Divacky for (unsigned i = 0, e = TypeList.size(); i != e; ++i) { 3806122f3e6SDimitry Andric Type *T = TypeList[i]; 381f22ef01cSRoman Divacky int AbbrevToUse = 0; 382f22ef01cSRoman Divacky unsigned Code = 0; 383f22ef01cSRoman Divacky 384f22ef01cSRoman Divacky switch (T->getTypeID()) { 385f22ef01cSRoman Divacky default: llvm_unreachable("Unknown type!"); 386f22ef01cSRoman Divacky case Type::VoidTyID: Code = bitc::TYPE_CODE_VOID; break; 387dff0c46cSDimitry Andric case Type::HalfTyID: Code = bitc::TYPE_CODE_HALF; break; 388f22ef01cSRoman Divacky case Type::FloatTyID: Code = bitc::TYPE_CODE_FLOAT; break; 389f22ef01cSRoman Divacky case Type::DoubleTyID: Code = bitc::TYPE_CODE_DOUBLE; break; 390f22ef01cSRoman Divacky case Type::X86_FP80TyID: Code = bitc::TYPE_CODE_X86_FP80; break; 391f22ef01cSRoman Divacky case Type::FP128TyID: Code = bitc::TYPE_CODE_FP128; break; 392f22ef01cSRoman Divacky case Type::PPC_FP128TyID: Code = bitc::TYPE_CODE_PPC_FP128; break; 393f22ef01cSRoman Divacky case Type::LabelTyID: Code = bitc::TYPE_CODE_LABEL; break; 394f22ef01cSRoman Divacky case Type::MetadataTyID: Code = bitc::TYPE_CODE_METADATA; break; 3952754fe60SDimitry Andric case Type::X86_MMXTyID: Code = bitc::TYPE_CODE_X86_MMX; break; 396f22ef01cSRoman Divacky case Type::IntegerTyID: 397f22ef01cSRoman Divacky // INTEGER: [width] 398f22ef01cSRoman Divacky Code = bitc::TYPE_CODE_INTEGER; 399f22ef01cSRoman Divacky TypeVals.push_back(cast<IntegerType>(T)->getBitWidth()); 400f22ef01cSRoman Divacky break; 401f22ef01cSRoman Divacky case Type::PointerTyID: { 4026122f3e6SDimitry Andric PointerType *PTy = cast<PointerType>(T); 403f22ef01cSRoman Divacky // POINTER: [pointee type, address space] 404f22ef01cSRoman Divacky Code = bitc::TYPE_CODE_POINTER; 405f22ef01cSRoman Divacky TypeVals.push_back(VE.getTypeID(PTy->getElementType())); 406f22ef01cSRoman Divacky unsigned AddressSpace = PTy->getAddressSpace(); 407f22ef01cSRoman Divacky TypeVals.push_back(AddressSpace); 408f22ef01cSRoman Divacky if (AddressSpace == 0) AbbrevToUse = PtrAbbrev; 409f22ef01cSRoman Divacky break; 410f22ef01cSRoman Divacky } 411f22ef01cSRoman Divacky case Type::FunctionTyID: { 4126122f3e6SDimitry Andric FunctionType *FT = cast<FunctionType>(T); 413dff0c46cSDimitry Andric // FUNCTION: [isvararg, retty, paramty x N] 414f22ef01cSRoman Divacky Code = bitc::TYPE_CODE_FUNCTION; 415f22ef01cSRoman Divacky TypeVals.push_back(FT->isVarArg()); 416f22ef01cSRoman Divacky TypeVals.push_back(VE.getTypeID(FT->getReturnType())); 417f22ef01cSRoman Divacky for (unsigned i = 0, e = FT->getNumParams(); i != e; ++i) 418f22ef01cSRoman Divacky TypeVals.push_back(VE.getTypeID(FT->getParamType(i))); 419f22ef01cSRoman Divacky AbbrevToUse = FunctionAbbrev; 420f22ef01cSRoman Divacky break; 421f22ef01cSRoman Divacky } 422f22ef01cSRoman Divacky case Type::StructTyID: { 4236122f3e6SDimitry Andric StructType *ST = cast<StructType>(T); 424f22ef01cSRoman Divacky // STRUCT: [ispacked, eltty x N] 425f22ef01cSRoman Divacky TypeVals.push_back(ST->isPacked()); 426f22ef01cSRoman Divacky // Output all of the element types. 427f22ef01cSRoman Divacky for (StructType::element_iterator I = ST->element_begin(), 428f22ef01cSRoman Divacky E = ST->element_end(); I != E; ++I) 429f22ef01cSRoman Divacky TypeVals.push_back(VE.getTypeID(*I)); 43017a519f9SDimitry Andric 4316122f3e6SDimitry Andric if (ST->isLiteral()) { 43217a519f9SDimitry Andric Code = bitc::TYPE_CODE_STRUCT_ANON; 43317a519f9SDimitry Andric AbbrevToUse = StructAnonAbbrev; 43417a519f9SDimitry Andric } else { 43517a519f9SDimitry Andric if (ST->isOpaque()) { 43617a519f9SDimitry Andric Code = bitc::TYPE_CODE_OPAQUE; 43717a519f9SDimitry Andric } else { 43817a519f9SDimitry Andric Code = bitc::TYPE_CODE_STRUCT_NAMED; 43917a519f9SDimitry Andric AbbrevToUse = StructNamedAbbrev; 44017a519f9SDimitry Andric } 44117a519f9SDimitry Andric 44217a519f9SDimitry Andric // Emit the name if it is present. 44317a519f9SDimitry Andric if (!ST->getName().empty()) 44417a519f9SDimitry Andric WriteStringRecord(bitc::TYPE_CODE_STRUCT_NAME, ST->getName(), 44517a519f9SDimitry Andric StructNameAbbrev, Stream); 44617a519f9SDimitry Andric } 447f22ef01cSRoman Divacky break; 448f22ef01cSRoman Divacky } 449f22ef01cSRoman Divacky case Type::ArrayTyID: { 4506122f3e6SDimitry Andric ArrayType *AT = cast<ArrayType>(T); 451f22ef01cSRoman Divacky // ARRAY: [numelts, eltty] 452f22ef01cSRoman Divacky Code = bitc::TYPE_CODE_ARRAY; 453f22ef01cSRoman Divacky TypeVals.push_back(AT->getNumElements()); 454f22ef01cSRoman Divacky TypeVals.push_back(VE.getTypeID(AT->getElementType())); 455f22ef01cSRoman Divacky AbbrevToUse = ArrayAbbrev; 456f22ef01cSRoman Divacky break; 457f22ef01cSRoman Divacky } 458f22ef01cSRoman Divacky case Type::VectorTyID: { 4596122f3e6SDimitry Andric VectorType *VT = cast<VectorType>(T); 460f22ef01cSRoman Divacky // VECTOR [numelts, eltty] 461f22ef01cSRoman Divacky Code = bitc::TYPE_CODE_VECTOR; 462f22ef01cSRoman Divacky TypeVals.push_back(VT->getNumElements()); 463f22ef01cSRoman Divacky TypeVals.push_back(VE.getTypeID(VT->getElementType())); 464f22ef01cSRoman Divacky break; 465f22ef01cSRoman Divacky } 466f22ef01cSRoman Divacky } 467f22ef01cSRoman Divacky 468f22ef01cSRoman Divacky // Emit the finished record. 469f22ef01cSRoman Divacky Stream.EmitRecord(Code, TypeVals, AbbrevToUse); 470f22ef01cSRoman Divacky TypeVals.clear(); 471f22ef01cSRoman Divacky } 472f22ef01cSRoman Divacky 473f22ef01cSRoman Divacky Stream.ExitBlock(); 474f22ef01cSRoman Divacky } 475f22ef01cSRoman Divacky 476f22ef01cSRoman Divacky static unsigned getEncodedLinkage(const GlobalValue *GV) { 477f22ef01cSRoman Divacky switch (GV->getLinkage()) { 478f22ef01cSRoman Divacky case GlobalValue::ExternalLinkage: return 0; 479f22ef01cSRoman Divacky case GlobalValue::WeakAnyLinkage: return 1; 480f22ef01cSRoman Divacky case GlobalValue::AppendingLinkage: return 2; 481f22ef01cSRoman Divacky case GlobalValue::InternalLinkage: return 3; 482f22ef01cSRoman Divacky case GlobalValue::LinkOnceAnyLinkage: return 4; 483f22ef01cSRoman Divacky case GlobalValue::DLLImportLinkage: return 5; 484f22ef01cSRoman Divacky case GlobalValue::DLLExportLinkage: return 6; 485f22ef01cSRoman Divacky case GlobalValue::ExternalWeakLinkage: return 7; 486f22ef01cSRoman Divacky case GlobalValue::CommonLinkage: return 8; 487f22ef01cSRoman Divacky case GlobalValue::PrivateLinkage: return 9; 488f22ef01cSRoman Divacky case GlobalValue::WeakODRLinkage: return 10; 489f22ef01cSRoman Divacky case GlobalValue::LinkOnceODRLinkage: return 11; 490f22ef01cSRoman Divacky case GlobalValue::AvailableExternallyLinkage: return 12; 491f22ef01cSRoman Divacky case GlobalValue::LinkerPrivateLinkage: return 13; 492ffd1746dSEd Schouten case GlobalValue::LinkerPrivateWeakLinkage: return 14; 493f22ef01cSRoman Divacky } 494dff0c46cSDimitry Andric llvm_unreachable("Invalid linkage"); 495f22ef01cSRoman Divacky } 496f22ef01cSRoman Divacky 497f22ef01cSRoman Divacky static unsigned getEncodedVisibility(const GlobalValue *GV) { 498f22ef01cSRoman Divacky switch (GV->getVisibility()) { 499f22ef01cSRoman Divacky case GlobalValue::DefaultVisibility: return 0; 500f22ef01cSRoman Divacky case GlobalValue::HiddenVisibility: return 1; 501f22ef01cSRoman Divacky case GlobalValue::ProtectedVisibility: return 2; 502f22ef01cSRoman Divacky } 503dff0c46cSDimitry Andric llvm_unreachable("Invalid visibility"); 504f22ef01cSRoman Divacky } 505f22ef01cSRoman Divacky 5067ae0e2c9SDimitry Andric static unsigned getEncodedThreadLocalMode(const GlobalVariable *GV) { 5077ae0e2c9SDimitry Andric switch (GV->getThreadLocalMode()) { 5087ae0e2c9SDimitry Andric case GlobalVariable::NotThreadLocal: return 0; 5097ae0e2c9SDimitry Andric case GlobalVariable::GeneralDynamicTLSModel: return 1; 5107ae0e2c9SDimitry Andric case GlobalVariable::LocalDynamicTLSModel: return 2; 5117ae0e2c9SDimitry Andric case GlobalVariable::InitialExecTLSModel: return 3; 5127ae0e2c9SDimitry Andric case GlobalVariable::LocalExecTLSModel: return 4; 5137ae0e2c9SDimitry Andric } 5147ae0e2c9SDimitry Andric llvm_unreachable("Invalid TLS model"); 5157ae0e2c9SDimitry Andric } 5167ae0e2c9SDimitry Andric 517f22ef01cSRoman Divacky // Emit top-level description of module, including target triple, inline asm, 518f22ef01cSRoman Divacky // descriptors for global variables, and function prototype info. 519f22ef01cSRoman Divacky static void WriteModuleInfo(const Module *M, const ValueEnumerator &VE, 520f22ef01cSRoman Divacky BitstreamWriter &Stream) { 521f22ef01cSRoman Divacky // Emit various pieces of data attached to a module. 522f22ef01cSRoman Divacky if (!M->getTargetTriple().empty()) 523f22ef01cSRoman Divacky WriteStringRecord(bitc::MODULE_CODE_TRIPLE, M->getTargetTriple(), 524f22ef01cSRoman Divacky 0/*TODO*/, Stream); 525f22ef01cSRoman Divacky if (!M->getDataLayout().empty()) 526f22ef01cSRoman Divacky WriteStringRecord(bitc::MODULE_CODE_DATALAYOUT, M->getDataLayout(), 527f22ef01cSRoman Divacky 0/*TODO*/, Stream); 528f22ef01cSRoman Divacky if (!M->getModuleInlineAsm().empty()) 529f22ef01cSRoman Divacky WriteStringRecord(bitc::MODULE_CODE_ASM, M->getModuleInlineAsm(), 530f22ef01cSRoman Divacky 0/*TODO*/, Stream); 531f22ef01cSRoman Divacky 532f22ef01cSRoman Divacky // Emit information about sections and GC, computing how many there are. Also 533f22ef01cSRoman Divacky // compute the maximum alignment value. 534f22ef01cSRoman Divacky std::map<std::string, unsigned> SectionMap; 535f22ef01cSRoman Divacky std::map<std::string, unsigned> GCMap; 536f22ef01cSRoman Divacky unsigned MaxAlignment = 0; 537f22ef01cSRoman Divacky unsigned MaxGlobalType = 0; 538f22ef01cSRoman Divacky for (Module::const_global_iterator GV = M->global_begin(),E = M->global_end(); 539f22ef01cSRoman Divacky GV != E; ++GV) { 540f22ef01cSRoman Divacky MaxAlignment = std::max(MaxAlignment, GV->getAlignment()); 541f22ef01cSRoman Divacky MaxGlobalType = std::max(MaxGlobalType, VE.getTypeID(GV->getType())); 5426122f3e6SDimitry Andric if (GV->hasSection()) { 543f22ef01cSRoman Divacky // Give section names unique ID's. 544f22ef01cSRoman Divacky unsigned &Entry = SectionMap[GV->getSection()]; 5456122f3e6SDimitry Andric if (!Entry) { 546f22ef01cSRoman Divacky WriteStringRecord(bitc::MODULE_CODE_SECTIONNAME, GV->getSection(), 547f22ef01cSRoman Divacky 0/*TODO*/, Stream); 548f22ef01cSRoman Divacky Entry = SectionMap.size(); 549f22ef01cSRoman Divacky } 5506122f3e6SDimitry Andric } 5516122f3e6SDimitry Andric } 552f22ef01cSRoman Divacky for (Module::const_iterator F = M->begin(), E = M->end(); F != E; ++F) { 553f22ef01cSRoman Divacky MaxAlignment = std::max(MaxAlignment, F->getAlignment()); 554f22ef01cSRoman Divacky if (F->hasSection()) { 555f22ef01cSRoman Divacky // Give section names unique ID's. 556f22ef01cSRoman Divacky unsigned &Entry = SectionMap[F->getSection()]; 557f22ef01cSRoman Divacky if (!Entry) { 558f22ef01cSRoman Divacky WriteStringRecord(bitc::MODULE_CODE_SECTIONNAME, F->getSection(), 559f22ef01cSRoman Divacky 0/*TODO*/, Stream); 560f22ef01cSRoman Divacky Entry = SectionMap.size(); 561f22ef01cSRoman Divacky } 562f22ef01cSRoman Divacky } 563f22ef01cSRoman Divacky if (F->hasGC()) { 564f22ef01cSRoman Divacky // Same for GC names. 565f22ef01cSRoman Divacky unsigned &Entry = GCMap[F->getGC()]; 566f22ef01cSRoman Divacky if (!Entry) { 567f22ef01cSRoman Divacky WriteStringRecord(bitc::MODULE_CODE_GCNAME, F->getGC(), 568f22ef01cSRoman Divacky 0/*TODO*/, Stream); 569f22ef01cSRoman Divacky Entry = GCMap.size(); 570f22ef01cSRoman Divacky } 571f22ef01cSRoman Divacky } 572f22ef01cSRoman Divacky } 573f22ef01cSRoman Divacky 574f22ef01cSRoman Divacky // Emit abbrev for globals, now that we know # sections and max alignment. 575f22ef01cSRoman Divacky unsigned SimpleGVarAbbrev = 0; 576f22ef01cSRoman Divacky if (!M->global_empty()) { 577f22ef01cSRoman Divacky // Add an abbrev for common globals with no visibility or thread localness. 578f22ef01cSRoman Divacky BitCodeAbbrev *Abbv = new BitCodeAbbrev(); 579f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(bitc::MODULE_CODE_GLOBALVAR)); 580f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 581f22ef01cSRoman Divacky Log2_32_Ceil(MaxGlobalType+1))); 582f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 1)); // Constant. 583f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 6)); // Initializer. 584f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 4)); // Linkage. 585f22ef01cSRoman Divacky if (MaxAlignment == 0) // Alignment. 586f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(0)); 587f22ef01cSRoman Divacky else { 588f22ef01cSRoman Divacky unsigned MaxEncAlignment = Log2_32(MaxAlignment)+1; 589f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 590f22ef01cSRoman Divacky Log2_32_Ceil(MaxEncAlignment+1))); 591f22ef01cSRoman Divacky } 592f22ef01cSRoman Divacky if (SectionMap.empty()) // Section. 593f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(0)); 594f22ef01cSRoman Divacky else 595f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 596f22ef01cSRoman Divacky Log2_32_Ceil(SectionMap.size()+1))); 597f22ef01cSRoman Divacky // Don't bother emitting vis + thread local. 598f22ef01cSRoman Divacky SimpleGVarAbbrev = Stream.EmitAbbrev(Abbv); 599f22ef01cSRoman Divacky } 600f22ef01cSRoman Divacky 601f22ef01cSRoman Divacky // Emit the global variable information. 602f22ef01cSRoman Divacky SmallVector<unsigned, 64> Vals; 603f22ef01cSRoman Divacky for (Module::const_global_iterator GV = M->global_begin(),E = M->global_end(); 604f22ef01cSRoman Divacky GV != E; ++GV) { 605f22ef01cSRoman Divacky unsigned AbbrevToUse = 0; 606f22ef01cSRoman Divacky 607f22ef01cSRoman Divacky // GLOBALVAR: [type, isconst, initid, 6082754fe60SDimitry Andric // linkage, alignment, section, visibility, threadlocal, 609f785676fSDimitry Andric // unnamed_addr, externally_initialized] 610f22ef01cSRoman Divacky Vals.push_back(VE.getTypeID(GV->getType())); 611f22ef01cSRoman Divacky Vals.push_back(GV->isConstant()); 612f22ef01cSRoman Divacky Vals.push_back(GV->isDeclaration() ? 0 : 613f22ef01cSRoman Divacky (VE.getValueID(GV->getInitializer()) + 1)); 614f22ef01cSRoman Divacky Vals.push_back(getEncodedLinkage(GV)); 615f22ef01cSRoman Divacky Vals.push_back(Log2_32(GV->getAlignment())+1); 616f22ef01cSRoman Divacky Vals.push_back(GV->hasSection() ? SectionMap[GV->getSection()] : 0); 617f22ef01cSRoman Divacky if (GV->isThreadLocal() || 6182754fe60SDimitry Andric GV->getVisibility() != GlobalValue::DefaultVisibility || 619139f7f9bSDimitry Andric GV->hasUnnamedAddr() || GV->isExternallyInitialized()) { 620f22ef01cSRoman Divacky Vals.push_back(getEncodedVisibility(GV)); 6217ae0e2c9SDimitry Andric Vals.push_back(getEncodedThreadLocalMode(GV)); 6222754fe60SDimitry Andric Vals.push_back(GV->hasUnnamedAddr()); 623139f7f9bSDimitry Andric Vals.push_back(GV->isExternallyInitialized()); 624f22ef01cSRoman Divacky } else { 625f22ef01cSRoman Divacky AbbrevToUse = SimpleGVarAbbrev; 626f22ef01cSRoman Divacky } 627f22ef01cSRoman Divacky 628f22ef01cSRoman Divacky Stream.EmitRecord(bitc::MODULE_CODE_GLOBALVAR, Vals, AbbrevToUse); 629f22ef01cSRoman Divacky Vals.clear(); 630f22ef01cSRoman Divacky } 631f22ef01cSRoman Divacky 632f22ef01cSRoman Divacky // Emit the function proto information. 633f22ef01cSRoman Divacky for (Module::const_iterator F = M->begin(), E = M->end(); F != E; ++F) { 634dff0c46cSDimitry Andric // FUNCTION: [type, callingconv, isproto, linkage, paramattrs, alignment, 635f785676fSDimitry Andric // section, visibility, gc, unnamed_addr, prefix] 636f22ef01cSRoman Divacky Vals.push_back(VE.getTypeID(F->getType())); 637f22ef01cSRoman Divacky Vals.push_back(F->getCallingConv()); 638f22ef01cSRoman Divacky Vals.push_back(F->isDeclaration()); 639f22ef01cSRoman Divacky Vals.push_back(getEncodedLinkage(F)); 640f22ef01cSRoman Divacky Vals.push_back(VE.getAttributeID(F->getAttributes())); 641f22ef01cSRoman Divacky Vals.push_back(Log2_32(F->getAlignment())+1); 642f22ef01cSRoman Divacky Vals.push_back(F->hasSection() ? SectionMap[F->getSection()] : 0); 643f22ef01cSRoman Divacky Vals.push_back(getEncodedVisibility(F)); 644f22ef01cSRoman Divacky Vals.push_back(F->hasGC() ? GCMap[F->getGC()] : 0); 6452754fe60SDimitry Andric Vals.push_back(F->hasUnnamedAddr()); 646f785676fSDimitry Andric Vals.push_back(F->hasPrefixData() ? (VE.getValueID(F->getPrefixData()) + 1) 647f785676fSDimitry Andric : 0); 648f22ef01cSRoman Divacky 649f22ef01cSRoman Divacky unsigned AbbrevToUse = 0; 650f22ef01cSRoman Divacky Stream.EmitRecord(bitc::MODULE_CODE_FUNCTION, Vals, AbbrevToUse); 651f22ef01cSRoman Divacky Vals.clear(); 652f22ef01cSRoman Divacky } 653f22ef01cSRoman Divacky 654f22ef01cSRoman Divacky // Emit the alias information. 655f22ef01cSRoman Divacky for (Module::const_alias_iterator AI = M->alias_begin(), E = M->alias_end(); 656f22ef01cSRoman Divacky AI != E; ++AI) { 657dff0c46cSDimitry Andric // ALIAS: [alias type, aliasee val#, linkage, visibility] 658f22ef01cSRoman Divacky Vals.push_back(VE.getTypeID(AI->getType())); 659f22ef01cSRoman Divacky Vals.push_back(VE.getValueID(AI->getAliasee())); 660f22ef01cSRoman Divacky Vals.push_back(getEncodedLinkage(AI)); 661f22ef01cSRoman Divacky Vals.push_back(getEncodedVisibility(AI)); 662f22ef01cSRoman Divacky unsigned AbbrevToUse = 0; 663f22ef01cSRoman Divacky Stream.EmitRecord(bitc::MODULE_CODE_ALIAS, Vals, AbbrevToUse); 664f22ef01cSRoman Divacky Vals.clear(); 665f22ef01cSRoman Divacky } 666f22ef01cSRoman Divacky } 667f22ef01cSRoman Divacky 668f22ef01cSRoman Divacky static uint64_t GetOptimizationFlags(const Value *V) { 669f22ef01cSRoman Divacky uint64_t Flags = 0; 670f22ef01cSRoman Divacky 671f22ef01cSRoman Divacky if (const OverflowingBinaryOperator *OBO = 672f22ef01cSRoman Divacky dyn_cast<OverflowingBinaryOperator>(V)) { 673f22ef01cSRoman Divacky if (OBO->hasNoSignedWrap()) 674f22ef01cSRoman Divacky Flags |= 1 << bitc::OBO_NO_SIGNED_WRAP; 675f22ef01cSRoman Divacky if (OBO->hasNoUnsignedWrap()) 676f22ef01cSRoman Divacky Flags |= 1 << bitc::OBO_NO_UNSIGNED_WRAP; 6772754fe60SDimitry Andric } else if (const PossiblyExactOperator *PEO = 6782754fe60SDimitry Andric dyn_cast<PossiblyExactOperator>(V)) { 6792754fe60SDimitry Andric if (PEO->isExact()) 6802754fe60SDimitry Andric Flags |= 1 << bitc::PEO_EXACT; 681139f7f9bSDimitry Andric } else if (const FPMathOperator *FPMO = 682139f7f9bSDimitry Andric dyn_cast<const FPMathOperator>(V)) { 683139f7f9bSDimitry Andric if (FPMO->hasUnsafeAlgebra()) 684139f7f9bSDimitry Andric Flags |= FastMathFlags::UnsafeAlgebra; 685139f7f9bSDimitry Andric if (FPMO->hasNoNaNs()) 686139f7f9bSDimitry Andric Flags |= FastMathFlags::NoNaNs; 687139f7f9bSDimitry Andric if (FPMO->hasNoInfs()) 688139f7f9bSDimitry Andric Flags |= FastMathFlags::NoInfs; 689139f7f9bSDimitry Andric if (FPMO->hasNoSignedZeros()) 690139f7f9bSDimitry Andric Flags |= FastMathFlags::NoSignedZeros; 691139f7f9bSDimitry Andric if (FPMO->hasAllowReciprocal()) 692139f7f9bSDimitry Andric Flags |= FastMathFlags::AllowReciprocal; 693f22ef01cSRoman Divacky } 694f22ef01cSRoman Divacky 695f22ef01cSRoman Divacky return Flags; 696f22ef01cSRoman Divacky } 697f22ef01cSRoman Divacky 698f22ef01cSRoman Divacky static void WriteMDNode(const MDNode *N, 699f22ef01cSRoman Divacky const ValueEnumerator &VE, 700f22ef01cSRoman Divacky BitstreamWriter &Stream, 701f785676fSDimitry Andric SmallVectorImpl<uint64_t> &Record) { 702f22ef01cSRoman Divacky for (unsigned i = 0, e = N->getNumOperands(); i != e; ++i) { 703f22ef01cSRoman Divacky if (N->getOperand(i)) { 704f22ef01cSRoman Divacky Record.push_back(VE.getTypeID(N->getOperand(i)->getType())); 705f22ef01cSRoman Divacky Record.push_back(VE.getValueID(N->getOperand(i))); 706f22ef01cSRoman Divacky } else { 707f22ef01cSRoman Divacky Record.push_back(VE.getTypeID(Type::getVoidTy(N->getContext()))); 708f22ef01cSRoman Divacky Record.push_back(0); 709f22ef01cSRoman Divacky } 710f22ef01cSRoman Divacky } 71117a519f9SDimitry Andric unsigned MDCode = N->isFunctionLocal() ? bitc::METADATA_FN_NODE : 71217a519f9SDimitry Andric bitc::METADATA_NODE; 713f22ef01cSRoman Divacky Stream.EmitRecord(MDCode, Record, 0); 714f22ef01cSRoman Divacky Record.clear(); 715f22ef01cSRoman Divacky } 716f22ef01cSRoman Divacky 717e580952dSDimitry Andric static void WriteModuleMetadata(const Module *M, 718e580952dSDimitry Andric const ValueEnumerator &VE, 719f22ef01cSRoman Divacky BitstreamWriter &Stream) { 720f22ef01cSRoman Divacky const ValueEnumerator::ValueList &Vals = VE.getMDValues(); 721f22ef01cSRoman Divacky bool StartedMetadataBlock = false; 722f22ef01cSRoman Divacky unsigned MDSAbbrev = 0; 723f22ef01cSRoman Divacky SmallVector<uint64_t, 64> Record; 724f22ef01cSRoman Divacky for (unsigned i = 0, e = Vals.size(); i != e; ++i) { 725f22ef01cSRoman Divacky 726f22ef01cSRoman Divacky if (const MDNode *N = dyn_cast<MDNode>(Vals[i].first)) { 727f22ef01cSRoman Divacky if (!N->isFunctionLocal() || !N->getFunction()) { 728f22ef01cSRoman Divacky if (!StartedMetadataBlock) { 729f22ef01cSRoman Divacky Stream.EnterSubblock(bitc::METADATA_BLOCK_ID, 3); 730f22ef01cSRoman Divacky StartedMetadataBlock = true; 731f22ef01cSRoman Divacky } 732f22ef01cSRoman Divacky WriteMDNode(N, VE, Stream, Record); 733f22ef01cSRoman Divacky } 734f22ef01cSRoman Divacky } else if (const MDString *MDS = dyn_cast<MDString>(Vals[i].first)) { 735f22ef01cSRoman Divacky if (!StartedMetadataBlock) { 736f22ef01cSRoman Divacky Stream.EnterSubblock(bitc::METADATA_BLOCK_ID, 3); 737f22ef01cSRoman Divacky 738f22ef01cSRoman Divacky // Abbrev for METADATA_STRING. 739f22ef01cSRoman Divacky BitCodeAbbrev *Abbv = new BitCodeAbbrev(); 740f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(bitc::METADATA_STRING)); 741f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Array)); 742f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 8)); 743f22ef01cSRoman Divacky MDSAbbrev = Stream.EmitAbbrev(Abbv); 744f22ef01cSRoman Divacky StartedMetadataBlock = true; 745f22ef01cSRoman Divacky } 746f22ef01cSRoman Divacky 747f22ef01cSRoman Divacky // Code: [strchar x N] 748f22ef01cSRoman Divacky Record.append(MDS->begin(), MDS->end()); 749f22ef01cSRoman Divacky 750f22ef01cSRoman Divacky // Emit the finished record. 751f22ef01cSRoman Divacky Stream.EmitRecord(bitc::METADATA_STRING, Record, MDSAbbrev); 752f22ef01cSRoman Divacky Record.clear(); 753e580952dSDimitry Andric } 754e580952dSDimitry Andric } 755e580952dSDimitry Andric 756e580952dSDimitry Andric // Write named metadata. 757e580952dSDimitry Andric for (Module::const_named_metadata_iterator I = M->named_metadata_begin(), 758e580952dSDimitry Andric E = M->named_metadata_end(); I != E; ++I) { 759e580952dSDimitry Andric const NamedMDNode *NMD = I; 760f22ef01cSRoman Divacky if (!StartedMetadataBlock) { 761f22ef01cSRoman Divacky Stream.EnterSubblock(bitc::METADATA_BLOCK_ID, 3); 762f22ef01cSRoman Divacky StartedMetadataBlock = true; 763f22ef01cSRoman Divacky } 764f22ef01cSRoman Divacky 765f22ef01cSRoman Divacky // Write name. 766f22ef01cSRoman Divacky StringRef Str = NMD->getName(); 767f22ef01cSRoman Divacky for (unsigned i = 0, e = Str.size(); i != e; ++i) 768f22ef01cSRoman Divacky Record.push_back(Str[i]); 769f22ef01cSRoman Divacky Stream.EmitRecord(bitc::METADATA_NAME, Record, 0/*TODO*/); 770f22ef01cSRoman Divacky Record.clear(); 771f22ef01cSRoman Divacky 772f22ef01cSRoman Divacky // Write named metadata operands. 773e580952dSDimitry Andric for (unsigned i = 0, e = NMD->getNumOperands(); i != e; ++i) 774f22ef01cSRoman Divacky Record.push_back(VE.getValueID(NMD->getOperand(i))); 77517a519f9SDimitry Andric Stream.EmitRecord(bitc::METADATA_NAMED_NODE, Record, 0); 776f22ef01cSRoman Divacky Record.clear(); 777f22ef01cSRoman Divacky } 778f22ef01cSRoman Divacky 779f22ef01cSRoman Divacky if (StartedMetadataBlock) 780f22ef01cSRoman Divacky Stream.ExitBlock(); 781f22ef01cSRoman Divacky } 782f22ef01cSRoman Divacky 783f22ef01cSRoman Divacky static void WriteFunctionLocalMetadata(const Function &F, 784f22ef01cSRoman Divacky const ValueEnumerator &VE, 785f22ef01cSRoman Divacky BitstreamWriter &Stream) { 786f22ef01cSRoman Divacky bool StartedMetadataBlock = false; 787f22ef01cSRoman Divacky SmallVector<uint64_t, 64> Record; 788f785676fSDimitry Andric const SmallVectorImpl<const MDNode *> &Vals = VE.getFunctionLocalMDValues(); 789f22ef01cSRoman Divacky for (unsigned i = 0, e = Vals.size(); i != e; ++i) 790ffd1746dSEd Schouten if (const MDNode *N = Vals[i]) 791f22ef01cSRoman Divacky if (N->isFunctionLocal() && N->getFunction() == &F) { 792f22ef01cSRoman Divacky if (!StartedMetadataBlock) { 793f22ef01cSRoman Divacky Stream.EnterSubblock(bitc::METADATA_BLOCK_ID, 3); 794f22ef01cSRoman Divacky StartedMetadataBlock = true; 795f22ef01cSRoman Divacky } 796f22ef01cSRoman Divacky WriteMDNode(N, VE, Stream, Record); 797f22ef01cSRoman Divacky } 798f22ef01cSRoman Divacky 799f22ef01cSRoman Divacky if (StartedMetadataBlock) 800f22ef01cSRoman Divacky Stream.ExitBlock(); 801f22ef01cSRoman Divacky } 802f22ef01cSRoman Divacky 803f22ef01cSRoman Divacky static void WriteMetadataAttachment(const Function &F, 804f22ef01cSRoman Divacky const ValueEnumerator &VE, 805f22ef01cSRoman Divacky BitstreamWriter &Stream) { 806f22ef01cSRoman Divacky Stream.EnterSubblock(bitc::METADATA_ATTACHMENT_ID, 3); 807f22ef01cSRoman Divacky 808f22ef01cSRoman Divacky SmallVector<uint64_t, 64> Record; 809f22ef01cSRoman Divacky 810f22ef01cSRoman Divacky // Write metadata attachments 81117a519f9SDimitry Andric // METADATA_ATTACHMENT - [m x [value, [n x [id, mdnode]]] 812f22ef01cSRoman Divacky SmallVector<std::pair<unsigned, MDNode*>, 4> MDs; 813f22ef01cSRoman Divacky 814f22ef01cSRoman Divacky for (Function::const_iterator BB = F.begin(), E = F.end(); BB != E; ++BB) 815f22ef01cSRoman Divacky for (BasicBlock::const_iterator I = BB->begin(), E = BB->end(); 816f22ef01cSRoman Divacky I != E; ++I) { 817f22ef01cSRoman Divacky MDs.clear(); 818f22ef01cSRoman Divacky I->getAllMetadataOtherThanDebugLoc(MDs); 819f22ef01cSRoman Divacky 820f22ef01cSRoman Divacky // If no metadata, ignore instruction. 821f22ef01cSRoman Divacky if (MDs.empty()) continue; 822f22ef01cSRoman Divacky 823f22ef01cSRoman Divacky Record.push_back(VE.getInstructionID(I)); 824f22ef01cSRoman Divacky 825f22ef01cSRoman Divacky for (unsigned i = 0, e = MDs.size(); i != e; ++i) { 826f22ef01cSRoman Divacky Record.push_back(MDs[i].first); 827f22ef01cSRoman Divacky Record.push_back(VE.getValueID(MDs[i].second)); 828f22ef01cSRoman Divacky } 82917a519f9SDimitry Andric Stream.EmitRecord(bitc::METADATA_ATTACHMENT, Record, 0); 830f22ef01cSRoman Divacky Record.clear(); 831f22ef01cSRoman Divacky } 832f22ef01cSRoman Divacky 833f22ef01cSRoman Divacky Stream.ExitBlock(); 834f22ef01cSRoman Divacky } 835f22ef01cSRoman Divacky 836f22ef01cSRoman Divacky static void WriteModuleMetadataStore(const Module *M, BitstreamWriter &Stream) { 837f22ef01cSRoman Divacky SmallVector<uint64_t, 64> Record; 838f22ef01cSRoman Divacky 839f22ef01cSRoman Divacky // Write metadata kinds 840f22ef01cSRoman Divacky // METADATA_KIND - [n x [id, name]] 841139f7f9bSDimitry Andric SmallVector<StringRef, 8> Names; 842f22ef01cSRoman Divacky M->getMDKindNames(Names); 843f22ef01cSRoman Divacky 844e580952dSDimitry Andric if (Names.empty()) return; 845f22ef01cSRoman Divacky 846f22ef01cSRoman Divacky Stream.EnterSubblock(bitc::METADATA_BLOCK_ID, 3); 847f22ef01cSRoman Divacky 848e580952dSDimitry Andric for (unsigned MDKindID = 0, e = Names.size(); MDKindID != e; ++MDKindID) { 849f22ef01cSRoman Divacky Record.push_back(MDKindID); 850f22ef01cSRoman Divacky StringRef KName = Names[MDKindID]; 851f22ef01cSRoman Divacky Record.append(KName.begin(), KName.end()); 852f22ef01cSRoman Divacky 853f22ef01cSRoman Divacky Stream.EmitRecord(bitc::METADATA_KIND, Record, 0); 854f22ef01cSRoman Divacky Record.clear(); 855f22ef01cSRoman Divacky } 856f22ef01cSRoman Divacky 857f22ef01cSRoman Divacky Stream.ExitBlock(); 858f22ef01cSRoman Divacky } 859f22ef01cSRoman Divacky 8603861d79fSDimitry Andric static void emitSignedInt64(SmallVectorImpl<uint64_t> &Vals, uint64_t V) { 8613861d79fSDimitry Andric if ((int64_t)V >= 0) 8623861d79fSDimitry Andric Vals.push_back(V << 1); 8633861d79fSDimitry Andric else 8643861d79fSDimitry Andric Vals.push_back((-V << 1) | 1); 8653861d79fSDimitry Andric } 8663861d79fSDimitry Andric 867f22ef01cSRoman Divacky static void WriteConstants(unsigned FirstVal, unsigned LastVal, 868f22ef01cSRoman Divacky const ValueEnumerator &VE, 869f22ef01cSRoman Divacky BitstreamWriter &Stream, bool isGlobal) { 870f22ef01cSRoman Divacky if (FirstVal == LastVal) return; 871f22ef01cSRoman Divacky 872f22ef01cSRoman Divacky Stream.EnterSubblock(bitc::CONSTANTS_BLOCK_ID, 4); 873f22ef01cSRoman Divacky 874f22ef01cSRoman Divacky unsigned AggregateAbbrev = 0; 875f22ef01cSRoman Divacky unsigned String8Abbrev = 0; 876f22ef01cSRoman Divacky unsigned CString7Abbrev = 0; 877f22ef01cSRoman Divacky unsigned CString6Abbrev = 0; 878f22ef01cSRoman Divacky // If this is a constant pool for the module, emit module-specific abbrevs. 879f22ef01cSRoman Divacky if (isGlobal) { 880f22ef01cSRoman Divacky // Abbrev for CST_CODE_AGGREGATE. 881f22ef01cSRoman Divacky BitCodeAbbrev *Abbv = new BitCodeAbbrev(); 882f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(bitc::CST_CODE_AGGREGATE)); 883f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Array)); 884f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, Log2_32_Ceil(LastVal+1))); 885f22ef01cSRoman Divacky AggregateAbbrev = Stream.EmitAbbrev(Abbv); 886f22ef01cSRoman Divacky 887f22ef01cSRoman Divacky // Abbrev for CST_CODE_STRING. 888f22ef01cSRoman Divacky Abbv = new BitCodeAbbrev(); 889f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(bitc::CST_CODE_STRING)); 890f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Array)); 891f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 8)); 892f22ef01cSRoman Divacky String8Abbrev = Stream.EmitAbbrev(Abbv); 893f22ef01cSRoman Divacky // Abbrev for CST_CODE_CSTRING. 894f22ef01cSRoman Divacky Abbv = new BitCodeAbbrev(); 895f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(bitc::CST_CODE_CSTRING)); 896f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Array)); 897f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 7)); 898f22ef01cSRoman Divacky CString7Abbrev = Stream.EmitAbbrev(Abbv); 899f22ef01cSRoman Divacky // Abbrev for CST_CODE_CSTRING. 900f22ef01cSRoman Divacky Abbv = new BitCodeAbbrev(); 901f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(bitc::CST_CODE_CSTRING)); 902f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Array)); 903f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Char6)); 904f22ef01cSRoman Divacky CString6Abbrev = Stream.EmitAbbrev(Abbv); 905f22ef01cSRoman Divacky } 906f22ef01cSRoman Divacky 907f22ef01cSRoman Divacky SmallVector<uint64_t, 64> Record; 908f22ef01cSRoman Divacky 909f22ef01cSRoman Divacky const ValueEnumerator::ValueList &Vals = VE.getValues(); 9106122f3e6SDimitry Andric Type *LastTy = 0; 911f22ef01cSRoman Divacky for (unsigned i = FirstVal; i != LastVal; ++i) { 912f22ef01cSRoman Divacky const Value *V = Vals[i].first; 913f22ef01cSRoman Divacky // If we need to switch types, do so now. 914f22ef01cSRoman Divacky if (V->getType() != LastTy) { 915f22ef01cSRoman Divacky LastTy = V->getType(); 916f22ef01cSRoman Divacky Record.push_back(VE.getTypeID(LastTy)); 917f22ef01cSRoman Divacky Stream.EmitRecord(bitc::CST_CODE_SETTYPE, Record, 918f22ef01cSRoman Divacky CONSTANTS_SETTYPE_ABBREV); 919f22ef01cSRoman Divacky Record.clear(); 920f22ef01cSRoman Divacky } 921f22ef01cSRoman Divacky 922f22ef01cSRoman Divacky if (const InlineAsm *IA = dyn_cast<InlineAsm>(V)) { 923f22ef01cSRoman Divacky Record.push_back(unsigned(IA->hasSideEffects()) | 9243861d79fSDimitry Andric unsigned(IA->isAlignStack()) << 1 | 9253861d79fSDimitry Andric unsigned(IA->getDialect()&1) << 2); 926f22ef01cSRoman Divacky 927f22ef01cSRoman Divacky // Add the asm string. 928f22ef01cSRoman Divacky const std::string &AsmStr = IA->getAsmString(); 929f22ef01cSRoman Divacky Record.push_back(AsmStr.size()); 930f22ef01cSRoman Divacky for (unsigned i = 0, e = AsmStr.size(); i != e; ++i) 931f22ef01cSRoman Divacky Record.push_back(AsmStr[i]); 932f22ef01cSRoman Divacky 933f22ef01cSRoman Divacky // Add the constraint string. 934f22ef01cSRoman Divacky const std::string &ConstraintStr = IA->getConstraintString(); 935f22ef01cSRoman Divacky Record.push_back(ConstraintStr.size()); 936f22ef01cSRoman Divacky for (unsigned i = 0, e = ConstraintStr.size(); i != e; ++i) 937f22ef01cSRoman Divacky Record.push_back(ConstraintStr[i]); 938f22ef01cSRoman Divacky Stream.EmitRecord(bitc::CST_CODE_INLINEASM, Record); 939f22ef01cSRoman Divacky Record.clear(); 940f22ef01cSRoman Divacky continue; 941f22ef01cSRoman Divacky } 942f22ef01cSRoman Divacky const Constant *C = cast<Constant>(V); 943f22ef01cSRoman Divacky unsigned Code = -1U; 944f22ef01cSRoman Divacky unsigned AbbrevToUse = 0; 945f22ef01cSRoman Divacky if (C->isNullValue()) { 946f22ef01cSRoman Divacky Code = bitc::CST_CODE_NULL; 947f22ef01cSRoman Divacky } else if (isa<UndefValue>(C)) { 948f22ef01cSRoman Divacky Code = bitc::CST_CODE_UNDEF; 949f22ef01cSRoman Divacky } else if (const ConstantInt *IV = dyn_cast<ConstantInt>(C)) { 950f785676fSDimitry Andric if (IV->getBitWidth() <= 64) { 951f785676fSDimitry Andric uint64_t V = IV->getSExtValue(); 952f785676fSDimitry Andric emitSignedInt64(Record, V); 953f785676fSDimitry Andric Code = bitc::CST_CODE_INTEGER; 954f785676fSDimitry Andric AbbrevToUse = CONSTANTS_INTEGER_ABBREV; 955f785676fSDimitry Andric } else { // Wide integers, > 64 bits in size. 956f785676fSDimitry Andric // We have an arbitrary precision integer value to write whose 957f785676fSDimitry Andric // bit width is > 64. However, in canonical unsigned integer 958f785676fSDimitry Andric // format it is likely that the high bits are going to be zero. 959f785676fSDimitry Andric // So, we only write the number of active words. 960f785676fSDimitry Andric unsigned NWords = IV->getValue().getActiveWords(); 961f785676fSDimitry Andric const uint64_t *RawWords = IV->getValue().getRawData(); 962f785676fSDimitry Andric for (unsigned i = 0; i != NWords; ++i) { 963f785676fSDimitry Andric emitSignedInt64(Record, RawWords[i]); 964f785676fSDimitry Andric } 965f785676fSDimitry Andric Code = bitc::CST_CODE_WIDE_INTEGER; 966f785676fSDimitry Andric } 967f22ef01cSRoman Divacky } else if (const ConstantFP *CFP = dyn_cast<ConstantFP>(C)) { 968f22ef01cSRoman Divacky Code = bitc::CST_CODE_FLOAT; 9696122f3e6SDimitry Andric Type *Ty = CFP->getType(); 970dff0c46cSDimitry Andric if (Ty->isHalfTy() || Ty->isFloatTy() || Ty->isDoubleTy()) { 971f22ef01cSRoman Divacky Record.push_back(CFP->getValueAPF().bitcastToAPInt().getZExtValue()); 972f22ef01cSRoman Divacky } else if (Ty->isX86_FP80Ty()) { 973f22ef01cSRoman Divacky // api needed to prevent premature destruction 974f22ef01cSRoman Divacky // bits are not in the same order as a normal i80 APInt, compensate. 975f22ef01cSRoman Divacky APInt api = CFP->getValueAPF().bitcastToAPInt(); 976f22ef01cSRoman Divacky const uint64_t *p = api.getRawData(); 977f22ef01cSRoman Divacky Record.push_back((p[1] << 48) | (p[0] >> 16)); 978f22ef01cSRoman Divacky Record.push_back(p[0] & 0xffffLL); 979f22ef01cSRoman Divacky } else if (Ty->isFP128Ty() || Ty->isPPC_FP128Ty()) { 980f22ef01cSRoman Divacky APInt api = CFP->getValueAPF().bitcastToAPInt(); 981f22ef01cSRoman Divacky const uint64_t *p = api.getRawData(); 982f22ef01cSRoman Divacky Record.push_back(p[0]); 983f22ef01cSRoman Divacky Record.push_back(p[1]); 984f22ef01cSRoman Divacky } else { 985f22ef01cSRoman Divacky assert (0 && "Unknown FP type!"); 986f22ef01cSRoman Divacky } 987dff0c46cSDimitry Andric } else if (isa<ConstantDataSequential>(C) && 988dff0c46cSDimitry Andric cast<ConstantDataSequential>(C)->isString()) { 989dff0c46cSDimitry Andric const ConstantDataSequential *Str = cast<ConstantDataSequential>(C); 990f22ef01cSRoman Divacky // Emit constant strings specially. 991dff0c46cSDimitry Andric unsigned NumElts = Str->getNumElements(); 992f22ef01cSRoman Divacky // If this is a null-terminated string, use the denser CSTRING encoding. 993dff0c46cSDimitry Andric if (Str->isCString()) { 994f22ef01cSRoman Divacky Code = bitc::CST_CODE_CSTRING; 995dff0c46cSDimitry Andric --NumElts; // Don't encode the null, which isn't allowed by char6. 996f22ef01cSRoman Divacky } else { 997f22ef01cSRoman Divacky Code = bitc::CST_CODE_STRING; 998f22ef01cSRoman Divacky AbbrevToUse = String8Abbrev; 999f22ef01cSRoman Divacky } 1000f22ef01cSRoman Divacky bool isCStr7 = Code == bitc::CST_CODE_CSTRING; 1001f22ef01cSRoman Divacky bool isCStrChar6 = Code == bitc::CST_CODE_CSTRING; 1002dff0c46cSDimitry Andric for (unsigned i = 0; i != NumElts; ++i) { 1003dff0c46cSDimitry Andric unsigned char V = Str->getElementAsInteger(i); 1004f22ef01cSRoman Divacky Record.push_back(V); 1005f22ef01cSRoman Divacky isCStr7 &= (V & 128) == 0; 1006f22ef01cSRoman Divacky if (isCStrChar6) 1007f22ef01cSRoman Divacky isCStrChar6 = BitCodeAbbrevOp::isChar6(V); 1008f22ef01cSRoman Divacky } 1009f22ef01cSRoman Divacky 1010f22ef01cSRoman Divacky if (isCStrChar6) 1011f22ef01cSRoman Divacky AbbrevToUse = CString6Abbrev; 1012f22ef01cSRoman Divacky else if (isCStr7) 1013f22ef01cSRoman Divacky AbbrevToUse = CString7Abbrev; 1014dff0c46cSDimitry Andric } else if (const ConstantDataSequential *CDS = 1015dff0c46cSDimitry Andric dyn_cast<ConstantDataSequential>(C)) { 1016dff0c46cSDimitry Andric Code = bitc::CST_CODE_DATA; 1017dff0c46cSDimitry Andric Type *EltTy = CDS->getType()->getElementType(); 1018dff0c46cSDimitry Andric if (isa<IntegerType>(EltTy)) { 1019dff0c46cSDimitry Andric for (unsigned i = 0, e = CDS->getNumElements(); i != e; ++i) 1020dff0c46cSDimitry Andric Record.push_back(CDS->getElementAsInteger(i)); 1021dff0c46cSDimitry Andric } else if (EltTy->isFloatTy()) { 1022dff0c46cSDimitry Andric for (unsigned i = 0, e = CDS->getNumElements(); i != e; ++i) { 1023dff0c46cSDimitry Andric union { float F; uint32_t I; }; 1024dff0c46cSDimitry Andric F = CDS->getElementAsFloat(i); 1025dff0c46cSDimitry Andric Record.push_back(I); 1026dff0c46cSDimitry Andric } 1027dff0c46cSDimitry Andric } else { 1028dff0c46cSDimitry Andric assert(EltTy->isDoubleTy() && "Unknown ConstantData element type"); 1029dff0c46cSDimitry Andric for (unsigned i = 0, e = CDS->getNumElements(); i != e; ++i) { 1030dff0c46cSDimitry Andric union { double F; uint64_t I; }; 1031dff0c46cSDimitry Andric F = CDS->getElementAsDouble(i); 1032dff0c46cSDimitry Andric Record.push_back(I); 1033dff0c46cSDimitry Andric } 1034dff0c46cSDimitry Andric } 1035dff0c46cSDimitry Andric } else if (isa<ConstantArray>(C) || isa<ConstantStruct>(C) || 1036dff0c46cSDimitry Andric isa<ConstantVector>(C)) { 1037f22ef01cSRoman Divacky Code = bitc::CST_CODE_AGGREGATE; 1038f22ef01cSRoman Divacky for (unsigned i = 0, e = C->getNumOperands(); i != e; ++i) 1039f22ef01cSRoman Divacky Record.push_back(VE.getValueID(C->getOperand(i))); 1040f22ef01cSRoman Divacky AbbrevToUse = AggregateAbbrev; 1041f22ef01cSRoman Divacky } else if (const ConstantExpr *CE = dyn_cast<ConstantExpr>(C)) { 1042f22ef01cSRoman Divacky switch (CE->getOpcode()) { 1043f22ef01cSRoman Divacky default: 1044f22ef01cSRoman Divacky if (Instruction::isCast(CE->getOpcode())) { 1045f22ef01cSRoman Divacky Code = bitc::CST_CODE_CE_CAST; 1046f22ef01cSRoman Divacky Record.push_back(GetEncodedCastOpcode(CE->getOpcode())); 1047f22ef01cSRoman Divacky Record.push_back(VE.getTypeID(C->getOperand(0)->getType())); 1048f22ef01cSRoman Divacky Record.push_back(VE.getValueID(C->getOperand(0))); 1049f22ef01cSRoman Divacky AbbrevToUse = CONSTANTS_CE_CAST_Abbrev; 1050f22ef01cSRoman Divacky } else { 1051f22ef01cSRoman Divacky assert(CE->getNumOperands() == 2 && "Unknown constant expr!"); 1052f22ef01cSRoman Divacky Code = bitc::CST_CODE_CE_BINOP; 1053f22ef01cSRoman Divacky Record.push_back(GetEncodedBinaryOpcode(CE->getOpcode())); 1054f22ef01cSRoman Divacky Record.push_back(VE.getValueID(C->getOperand(0))); 1055f22ef01cSRoman Divacky Record.push_back(VE.getValueID(C->getOperand(1))); 1056f22ef01cSRoman Divacky uint64_t Flags = GetOptimizationFlags(CE); 1057f22ef01cSRoman Divacky if (Flags != 0) 1058f22ef01cSRoman Divacky Record.push_back(Flags); 1059f22ef01cSRoman Divacky } 1060f22ef01cSRoman Divacky break; 1061f22ef01cSRoman Divacky case Instruction::GetElementPtr: 1062f22ef01cSRoman Divacky Code = bitc::CST_CODE_CE_GEP; 1063f22ef01cSRoman Divacky if (cast<GEPOperator>(C)->isInBounds()) 1064f22ef01cSRoman Divacky Code = bitc::CST_CODE_CE_INBOUNDS_GEP; 1065f22ef01cSRoman Divacky for (unsigned i = 0, e = CE->getNumOperands(); i != e; ++i) { 1066f22ef01cSRoman Divacky Record.push_back(VE.getTypeID(C->getOperand(i)->getType())); 1067f22ef01cSRoman Divacky Record.push_back(VE.getValueID(C->getOperand(i))); 1068f22ef01cSRoman Divacky } 1069f22ef01cSRoman Divacky break; 1070f22ef01cSRoman Divacky case Instruction::Select: 1071f22ef01cSRoman Divacky Code = bitc::CST_CODE_CE_SELECT; 1072f22ef01cSRoman Divacky Record.push_back(VE.getValueID(C->getOperand(0))); 1073f22ef01cSRoman Divacky Record.push_back(VE.getValueID(C->getOperand(1))); 1074f22ef01cSRoman Divacky Record.push_back(VE.getValueID(C->getOperand(2))); 1075f22ef01cSRoman Divacky break; 1076f22ef01cSRoman Divacky case Instruction::ExtractElement: 1077f22ef01cSRoman Divacky Code = bitc::CST_CODE_CE_EXTRACTELT; 1078f22ef01cSRoman Divacky Record.push_back(VE.getTypeID(C->getOperand(0)->getType())); 1079f22ef01cSRoman Divacky Record.push_back(VE.getValueID(C->getOperand(0))); 1080f22ef01cSRoman Divacky Record.push_back(VE.getValueID(C->getOperand(1))); 1081f22ef01cSRoman Divacky break; 1082f22ef01cSRoman Divacky case Instruction::InsertElement: 1083f22ef01cSRoman Divacky Code = bitc::CST_CODE_CE_INSERTELT; 1084f22ef01cSRoman Divacky Record.push_back(VE.getValueID(C->getOperand(0))); 1085f22ef01cSRoman Divacky Record.push_back(VE.getValueID(C->getOperand(1))); 1086f22ef01cSRoman Divacky Record.push_back(VE.getValueID(C->getOperand(2))); 1087f22ef01cSRoman Divacky break; 1088f22ef01cSRoman Divacky case Instruction::ShuffleVector: 1089f22ef01cSRoman Divacky // If the return type and argument types are the same, this is a 1090f22ef01cSRoman Divacky // standard shufflevector instruction. If the types are different, 1091f22ef01cSRoman Divacky // then the shuffle is widening or truncating the input vectors, and 1092f22ef01cSRoman Divacky // the argument type must also be encoded. 1093f22ef01cSRoman Divacky if (C->getType() == C->getOperand(0)->getType()) { 1094f22ef01cSRoman Divacky Code = bitc::CST_CODE_CE_SHUFFLEVEC; 1095f22ef01cSRoman Divacky } else { 1096f22ef01cSRoman Divacky Code = bitc::CST_CODE_CE_SHUFVEC_EX; 1097f22ef01cSRoman Divacky Record.push_back(VE.getTypeID(C->getOperand(0)->getType())); 1098f22ef01cSRoman Divacky } 1099f22ef01cSRoman Divacky Record.push_back(VE.getValueID(C->getOperand(0))); 1100f22ef01cSRoman Divacky Record.push_back(VE.getValueID(C->getOperand(1))); 1101f22ef01cSRoman Divacky Record.push_back(VE.getValueID(C->getOperand(2))); 1102f22ef01cSRoman Divacky break; 1103f22ef01cSRoman Divacky case Instruction::ICmp: 1104f22ef01cSRoman Divacky case Instruction::FCmp: 1105f22ef01cSRoman Divacky Code = bitc::CST_CODE_CE_CMP; 1106f22ef01cSRoman Divacky Record.push_back(VE.getTypeID(C->getOperand(0)->getType())); 1107f22ef01cSRoman Divacky Record.push_back(VE.getValueID(C->getOperand(0))); 1108f22ef01cSRoman Divacky Record.push_back(VE.getValueID(C->getOperand(1))); 1109f22ef01cSRoman Divacky Record.push_back(CE->getPredicate()); 1110f22ef01cSRoman Divacky break; 1111f22ef01cSRoman Divacky } 1112f22ef01cSRoman Divacky } else if (const BlockAddress *BA = dyn_cast<BlockAddress>(C)) { 1113f22ef01cSRoman Divacky Code = bitc::CST_CODE_BLOCKADDRESS; 1114f22ef01cSRoman Divacky Record.push_back(VE.getTypeID(BA->getFunction()->getType())); 1115f22ef01cSRoman Divacky Record.push_back(VE.getValueID(BA->getFunction())); 1116f22ef01cSRoman Divacky Record.push_back(VE.getGlobalBasicBlockID(BA->getBasicBlock())); 1117f22ef01cSRoman Divacky } else { 1118e580952dSDimitry Andric #ifndef NDEBUG 1119e580952dSDimitry Andric C->dump(); 1120e580952dSDimitry Andric #endif 1121f22ef01cSRoman Divacky llvm_unreachable("Unknown constant!"); 1122f22ef01cSRoman Divacky } 1123f22ef01cSRoman Divacky Stream.EmitRecord(Code, Record, AbbrevToUse); 1124f22ef01cSRoman Divacky Record.clear(); 1125f22ef01cSRoman Divacky } 1126f22ef01cSRoman Divacky 1127f22ef01cSRoman Divacky Stream.ExitBlock(); 1128f22ef01cSRoman Divacky } 1129f22ef01cSRoman Divacky 1130f22ef01cSRoman Divacky static void WriteModuleConstants(const ValueEnumerator &VE, 1131f22ef01cSRoman Divacky BitstreamWriter &Stream) { 1132f22ef01cSRoman Divacky const ValueEnumerator::ValueList &Vals = VE.getValues(); 1133f22ef01cSRoman Divacky 1134f22ef01cSRoman Divacky // Find the first constant to emit, which is the first non-globalvalue value. 1135f22ef01cSRoman Divacky // We know globalvalues have been emitted by WriteModuleInfo. 1136f22ef01cSRoman Divacky for (unsigned i = 0, e = Vals.size(); i != e; ++i) { 1137f22ef01cSRoman Divacky if (!isa<GlobalValue>(Vals[i].first)) { 1138f22ef01cSRoman Divacky WriteConstants(i, Vals.size(), VE, Stream, true); 1139f22ef01cSRoman Divacky return; 1140f22ef01cSRoman Divacky } 1141f22ef01cSRoman Divacky } 1142f22ef01cSRoman Divacky } 1143f22ef01cSRoman Divacky 1144f22ef01cSRoman Divacky /// PushValueAndType - The file has to encode both the value and type id for 1145f22ef01cSRoman Divacky /// many values, because we need to know what type to create for forward 1146f22ef01cSRoman Divacky /// references. However, most operands are not forward references, so this type 1147f22ef01cSRoman Divacky /// field is not needed. 1148f22ef01cSRoman Divacky /// 1149f22ef01cSRoman Divacky /// This function adds V's value ID to Vals. If the value ID is higher than the 1150f22ef01cSRoman Divacky /// instruction ID, then it is a forward reference, and it also includes the 11513861d79fSDimitry Andric /// type ID. The value ID that is written is encoded relative to the InstID. 1152f22ef01cSRoman Divacky static bool PushValueAndType(const Value *V, unsigned InstID, 1153f785676fSDimitry Andric SmallVectorImpl<unsigned> &Vals, 1154f22ef01cSRoman Divacky ValueEnumerator &VE) { 1155f22ef01cSRoman Divacky unsigned ValID = VE.getValueID(V); 11563861d79fSDimitry Andric // Make encoding relative to the InstID. 11573861d79fSDimitry Andric Vals.push_back(InstID - ValID); 1158f22ef01cSRoman Divacky if (ValID >= InstID) { 1159f22ef01cSRoman Divacky Vals.push_back(VE.getTypeID(V->getType())); 1160f22ef01cSRoman Divacky return true; 1161f22ef01cSRoman Divacky } 1162f22ef01cSRoman Divacky return false; 1163f22ef01cSRoman Divacky } 1164f22ef01cSRoman Divacky 11653861d79fSDimitry Andric /// pushValue - Like PushValueAndType, but where the type of the value is 11663861d79fSDimitry Andric /// omitted (perhaps it was already encoded in an earlier operand). 11673861d79fSDimitry Andric static void pushValue(const Value *V, unsigned InstID, 1168f785676fSDimitry Andric SmallVectorImpl<unsigned> &Vals, 11693861d79fSDimitry Andric ValueEnumerator &VE) { 11703861d79fSDimitry Andric unsigned ValID = VE.getValueID(V); 11713861d79fSDimitry Andric Vals.push_back(InstID - ValID); 11723861d79fSDimitry Andric } 11733861d79fSDimitry Andric 11743861d79fSDimitry Andric static void pushValueSigned(const Value *V, unsigned InstID, 1175f785676fSDimitry Andric SmallVectorImpl<uint64_t> &Vals, 11763861d79fSDimitry Andric ValueEnumerator &VE) { 11773861d79fSDimitry Andric unsigned ValID = VE.getValueID(V); 11783861d79fSDimitry Andric int64_t diff = ((int32_t)InstID - (int32_t)ValID); 11793861d79fSDimitry Andric emitSignedInt64(Vals, diff); 11803861d79fSDimitry Andric } 11813861d79fSDimitry Andric 1182f22ef01cSRoman Divacky /// WriteInstruction - Emit an instruction to the specified stream. 1183f22ef01cSRoman Divacky static void WriteInstruction(const Instruction &I, unsigned InstID, 1184f22ef01cSRoman Divacky ValueEnumerator &VE, BitstreamWriter &Stream, 1185f785676fSDimitry Andric SmallVectorImpl<unsigned> &Vals) { 1186f22ef01cSRoman Divacky unsigned Code = 0; 1187f22ef01cSRoman Divacky unsigned AbbrevToUse = 0; 1188f22ef01cSRoman Divacky VE.setInstructionID(&I); 1189f22ef01cSRoman Divacky switch (I.getOpcode()) { 1190f22ef01cSRoman Divacky default: 1191f22ef01cSRoman Divacky if (Instruction::isCast(I.getOpcode())) { 1192f22ef01cSRoman Divacky Code = bitc::FUNC_CODE_INST_CAST; 1193f22ef01cSRoman Divacky if (!PushValueAndType(I.getOperand(0), InstID, Vals, VE)) 1194f22ef01cSRoman Divacky AbbrevToUse = FUNCTION_INST_CAST_ABBREV; 1195f22ef01cSRoman Divacky Vals.push_back(VE.getTypeID(I.getType())); 1196f22ef01cSRoman Divacky Vals.push_back(GetEncodedCastOpcode(I.getOpcode())); 1197f22ef01cSRoman Divacky } else { 1198f22ef01cSRoman Divacky assert(isa<BinaryOperator>(I) && "Unknown instruction!"); 1199f22ef01cSRoman Divacky Code = bitc::FUNC_CODE_INST_BINOP; 1200f22ef01cSRoman Divacky if (!PushValueAndType(I.getOperand(0), InstID, Vals, VE)) 1201f22ef01cSRoman Divacky AbbrevToUse = FUNCTION_INST_BINOP_ABBREV; 12023861d79fSDimitry Andric pushValue(I.getOperand(1), InstID, Vals, VE); 1203f22ef01cSRoman Divacky Vals.push_back(GetEncodedBinaryOpcode(I.getOpcode())); 1204f22ef01cSRoman Divacky uint64_t Flags = GetOptimizationFlags(&I); 1205f22ef01cSRoman Divacky if (Flags != 0) { 1206f22ef01cSRoman Divacky if (AbbrevToUse == FUNCTION_INST_BINOP_ABBREV) 1207f22ef01cSRoman Divacky AbbrevToUse = FUNCTION_INST_BINOP_FLAGS_ABBREV; 1208f22ef01cSRoman Divacky Vals.push_back(Flags); 1209f22ef01cSRoman Divacky } 1210f22ef01cSRoman Divacky } 1211f22ef01cSRoman Divacky break; 1212f22ef01cSRoman Divacky 1213f22ef01cSRoman Divacky case Instruction::GetElementPtr: 1214f22ef01cSRoman Divacky Code = bitc::FUNC_CODE_INST_GEP; 1215f22ef01cSRoman Divacky if (cast<GEPOperator>(&I)->isInBounds()) 1216f22ef01cSRoman Divacky Code = bitc::FUNC_CODE_INST_INBOUNDS_GEP; 1217f22ef01cSRoman Divacky for (unsigned i = 0, e = I.getNumOperands(); i != e; ++i) 1218f22ef01cSRoman Divacky PushValueAndType(I.getOperand(i), InstID, Vals, VE); 1219f22ef01cSRoman Divacky break; 1220f22ef01cSRoman Divacky case Instruction::ExtractValue: { 1221f22ef01cSRoman Divacky Code = bitc::FUNC_CODE_INST_EXTRACTVAL; 1222f22ef01cSRoman Divacky PushValueAndType(I.getOperand(0), InstID, Vals, VE); 1223f22ef01cSRoman Divacky const ExtractValueInst *EVI = cast<ExtractValueInst>(&I); 1224f22ef01cSRoman Divacky for (const unsigned *i = EVI->idx_begin(), *e = EVI->idx_end(); i != e; ++i) 1225f22ef01cSRoman Divacky Vals.push_back(*i); 1226f22ef01cSRoman Divacky break; 1227f22ef01cSRoman Divacky } 1228f22ef01cSRoman Divacky case Instruction::InsertValue: { 1229f22ef01cSRoman Divacky Code = bitc::FUNC_CODE_INST_INSERTVAL; 1230f22ef01cSRoman Divacky PushValueAndType(I.getOperand(0), InstID, Vals, VE); 1231f22ef01cSRoman Divacky PushValueAndType(I.getOperand(1), InstID, Vals, VE); 1232f22ef01cSRoman Divacky const InsertValueInst *IVI = cast<InsertValueInst>(&I); 1233f22ef01cSRoman Divacky for (const unsigned *i = IVI->idx_begin(), *e = IVI->idx_end(); i != e; ++i) 1234f22ef01cSRoman Divacky Vals.push_back(*i); 1235f22ef01cSRoman Divacky break; 1236f22ef01cSRoman Divacky } 1237f22ef01cSRoman Divacky case Instruction::Select: 1238f22ef01cSRoman Divacky Code = bitc::FUNC_CODE_INST_VSELECT; 1239f22ef01cSRoman Divacky PushValueAndType(I.getOperand(1), InstID, Vals, VE); 12403861d79fSDimitry Andric pushValue(I.getOperand(2), InstID, Vals, VE); 1241f22ef01cSRoman Divacky PushValueAndType(I.getOperand(0), InstID, Vals, VE); 1242f22ef01cSRoman Divacky break; 1243f22ef01cSRoman Divacky case Instruction::ExtractElement: 1244f22ef01cSRoman Divacky Code = bitc::FUNC_CODE_INST_EXTRACTELT; 1245f22ef01cSRoman Divacky PushValueAndType(I.getOperand(0), InstID, Vals, VE); 12463861d79fSDimitry Andric pushValue(I.getOperand(1), InstID, Vals, VE); 1247f22ef01cSRoman Divacky break; 1248f22ef01cSRoman Divacky case Instruction::InsertElement: 1249f22ef01cSRoman Divacky Code = bitc::FUNC_CODE_INST_INSERTELT; 1250f22ef01cSRoman Divacky PushValueAndType(I.getOperand(0), InstID, Vals, VE); 12513861d79fSDimitry Andric pushValue(I.getOperand(1), InstID, Vals, VE); 12523861d79fSDimitry Andric pushValue(I.getOperand(2), InstID, Vals, VE); 1253f22ef01cSRoman Divacky break; 1254f22ef01cSRoman Divacky case Instruction::ShuffleVector: 1255f22ef01cSRoman Divacky Code = bitc::FUNC_CODE_INST_SHUFFLEVEC; 1256f22ef01cSRoman Divacky PushValueAndType(I.getOperand(0), InstID, Vals, VE); 12573861d79fSDimitry Andric pushValue(I.getOperand(1), InstID, Vals, VE); 12583861d79fSDimitry Andric pushValue(I.getOperand(2), InstID, Vals, VE); 1259f22ef01cSRoman Divacky break; 1260f22ef01cSRoman Divacky case Instruction::ICmp: 1261f22ef01cSRoman Divacky case Instruction::FCmp: 1262f22ef01cSRoman Divacky // compare returning Int1Ty or vector of Int1Ty 1263f22ef01cSRoman Divacky Code = bitc::FUNC_CODE_INST_CMP2; 1264f22ef01cSRoman Divacky PushValueAndType(I.getOperand(0), InstID, Vals, VE); 12653861d79fSDimitry Andric pushValue(I.getOperand(1), InstID, Vals, VE); 1266f22ef01cSRoman Divacky Vals.push_back(cast<CmpInst>(I).getPredicate()); 1267f22ef01cSRoman Divacky break; 1268f22ef01cSRoman Divacky 1269f22ef01cSRoman Divacky case Instruction::Ret: 1270f22ef01cSRoman Divacky { 1271f22ef01cSRoman Divacky Code = bitc::FUNC_CODE_INST_RET; 1272f22ef01cSRoman Divacky unsigned NumOperands = I.getNumOperands(); 1273f22ef01cSRoman Divacky if (NumOperands == 0) 1274f22ef01cSRoman Divacky AbbrevToUse = FUNCTION_INST_RET_VOID_ABBREV; 1275f22ef01cSRoman Divacky else if (NumOperands == 1) { 1276f22ef01cSRoman Divacky if (!PushValueAndType(I.getOperand(0), InstID, Vals, VE)) 1277f22ef01cSRoman Divacky AbbrevToUse = FUNCTION_INST_RET_VAL_ABBREV; 1278f22ef01cSRoman Divacky } else { 1279f22ef01cSRoman Divacky for (unsigned i = 0, e = NumOperands; i != e; ++i) 1280f22ef01cSRoman Divacky PushValueAndType(I.getOperand(i), InstID, Vals, VE); 1281f22ef01cSRoman Divacky } 1282f22ef01cSRoman Divacky } 1283f22ef01cSRoman Divacky break; 1284f22ef01cSRoman Divacky case Instruction::Br: 1285f22ef01cSRoman Divacky { 1286f22ef01cSRoman Divacky Code = bitc::FUNC_CODE_INST_BR; 1287139f7f9bSDimitry Andric const BranchInst &II = cast<BranchInst>(I); 1288f22ef01cSRoman Divacky Vals.push_back(VE.getValueID(II.getSuccessor(0))); 1289f22ef01cSRoman Divacky if (II.isConditional()) { 1290f22ef01cSRoman Divacky Vals.push_back(VE.getValueID(II.getSuccessor(1))); 12913861d79fSDimitry Andric pushValue(II.getCondition(), InstID, Vals, VE); 1292f22ef01cSRoman Divacky } 1293f22ef01cSRoman Divacky } 1294f22ef01cSRoman Divacky break; 1295f22ef01cSRoman Divacky case Instruction::Switch: 1296dff0c46cSDimitry Andric { 1297f22ef01cSRoman Divacky Code = bitc::FUNC_CODE_INST_SWITCH; 1298139f7f9bSDimitry Andric const SwitchInst &SI = cast<SwitchInst>(I); 1299f785676fSDimitry Andric Vals.push_back(VE.getTypeID(SI.getCondition()->getType())); 1300f785676fSDimitry Andric pushValue(SI.getCondition(), InstID, Vals, VE); 1301f785676fSDimitry Andric Vals.push_back(VE.getValueID(SI.getDefaultDest())); 1302139f7f9bSDimitry Andric for (SwitchInst::ConstCaseIt i = SI.case_begin(), e = SI.case_end(); 1303dff0c46cSDimitry Andric i != e; ++i) { 1304f785676fSDimitry Andric Vals.push_back(VE.getValueID(i.getCaseValue())); 1305f785676fSDimitry Andric Vals.push_back(VE.getValueID(i.getCaseSuccessor())); 1306dff0c46cSDimitry Andric } 1307dff0c46cSDimitry Andric } 1308f22ef01cSRoman Divacky break; 1309f22ef01cSRoman Divacky case Instruction::IndirectBr: 1310f22ef01cSRoman Divacky Code = bitc::FUNC_CODE_INST_INDIRECTBR; 1311f22ef01cSRoman Divacky Vals.push_back(VE.getTypeID(I.getOperand(0)->getType())); 13123861d79fSDimitry Andric // Encode the address operand as relative, but not the basic blocks. 13133861d79fSDimitry Andric pushValue(I.getOperand(0), InstID, Vals, VE); 13143861d79fSDimitry Andric for (unsigned i = 1, e = I.getNumOperands(); i != e; ++i) 1315f22ef01cSRoman Divacky Vals.push_back(VE.getValueID(I.getOperand(i))); 1316f22ef01cSRoman Divacky break; 1317f22ef01cSRoman Divacky 1318f22ef01cSRoman Divacky case Instruction::Invoke: { 1319f22ef01cSRoman Divacky const InvokeInst *II = cast<InvokeInst>(&I); 1320f22ef01cSRoman Divacky const Value *Callee(II->getCalledValue()); 13216122f3e6SDimitry Andric PointerType *PTy = cast<PointerType>(Callee->getType()); 13226122f3e6SDimitry Andric FunctionType *FTy = cast<FunctionType>(PTy->getElementType()); 1323f22ef01cSRoman Divacky Code = bitc::FUNC_CODE_INST_INVOKE; 1324f22ef01cSRoman Divacky 1325f22ef01cSRoman Divacky Vals.push_back(VE.getAttributeID(II->getAttributes())); 1326f22ef01cSRoman Divacky Vals.push_back(II->getCallingConv()); 1327f22ef01cSRoman Divacky Vals.push_back(VE.getValueID(II->getNormalDest())); 1328f22ef01cSRoman Divacky Vals.push_back(VE.getValueID(II->getUnwindDest())); 1329f22ef01cSRoman Divacky PushValueAndType(Callee, InstID, Vals, VE); 1330f22ef01cSRoman Divacky 1331f22ef01cSRoman Divacky // Emit value #'s for the fixed parameters. 1332f22ef01cSRoman Divacky for (unsigned i = 0, e = FTy->getNumParams(); i != e; ++i) 13333861d79fSDimitry Andric pushValue(I.getOperand(i), InstID, Vals, VE); // fixed param. 1334f22ef01cSRoman Divacky 1335f22ef01cSRoman Divacky // Emit type/value pairs for varargs params. 1336f22ef01cSRoman Divacky if (FTy->isVarArg()) { 1337f22ef01cSRoman Divacky for (unsigned i = FTy->getNumParams(), e = I.getNumOperands()-3; 1338f22ef01cSRoman Divacky i != e; ++i) 1339f22ef01cSRoman Divacky PushValueAndType(I.getOperand(i), InstID, Vals, VE); // vararg 1340f22ef01cSRoman Divacky } 1341f22ef01cSRoman Divacky break; 1342f22ef01cSRoman Divacky } 13436122f3e6SDimitry Andric case Instruction::Resume: 13446122f3e6SDimitry Andric Code = bitc::FUNC_CODE_INST_RESUME; 13456122f3e6SDimitry Andric PushValueAndType(I.getOperand(0), InstID, Vals, VE); 13466122f3e6SDimitry Andric break; 1347f22ef01cSRoman Divacky case Instruction::Unreachable: 1348f22ef01cSRoman Divacky Code = bitc::FUNC_CODE_INST_UNREACHABLE; 1349f22ef01cSRoman Divacky AbbrevToUse = FUNCTION_INST_UNREACHABLE_ABBREV; 1350f22ef01cSRoman Divacky break; 1351f22ef01cSRoman Divacky 135217a519f9SDimitry Andric case Instruction::PHI: { 135317a519f9SDimitry Andric const PHINode &PN = cast<PHINode>(I); 1354f22ef01cSRoman Divacky Code = bitc::FUNC_CODE_INST_PHI; 13553861d79fSDimitry Andric // With the newer instruction encoding, forward references could give 13563861d79fSDimitry Andric // negative valued IDs. This is most common for PHIs, so we use 13573861d79fSDimitry Andric // signed VBRs. 13583861d79fSDimitry Andric SmallVector<uint64_t, 128> Vals64; 13593861d79fSDimitry Andric Vals64.push_back(VE.getTypeID(PN.getType())); 136017a519f9SDimitry Andric for (unsigned i = 0, e = PN.getNumIncomingValues(); i != e; ++i) { 13613861d79fSDimitry Andric pushValueSigned(PN.getIncomingValue(i), InstID, Vals64, VE); 13623861d79fSDimitry Andric Vals64.push_back(VE.getValueID(PN.getIncomingBlock(i))); 136317a519f9SDimitry Andric } 13643861d79fSDimitry Andric // Emit a Vals64 vector and exit. 13653861d79fSDimitry Andric Stream.EmitRecord(Code, Vals64, AbbrevToUse); 13663861d79fSDimitry Andric Vals64.clear(); 13673861d79fSDimitry Andric return; 136817a519f9SDimitry Andric } 1369f22ef01cSRoman Divacky 13706122f3e6SDimitry Andric case Instruction::LandingPad: { 13716122f3e6SDimitry Andric const LandingPadInst &LP = cast<LandingPadInst>(I); 13726122f3e6SDimitry Andric Code = bitc::FUNC_CODE_INST_LANDINGPAD; 13736122f3e6SDimitry Andric Vals.push_back(VE.getTypeID(LP.getType())); 13746122f3e6SDimitry Andric PushValueAndType(LP.getPersonalityFn(), InstID, Vals, VE); 13756122f3e6SDimitry Andric Vals.push_back(LP.isCleanup()); 13766122f3e6SDimitry Andric Vals.push_back(LP.getNumClauses()); 13776122f3e6SDimitry Andric for (unsigned I = 0, E = LP.getNumClauses(); I != E; ++I) { 13786122f3e6SDimitry Andric if (LP.isCatch(I)) 13796122f3e6SDimitry Andric Vals.push_back(LandingPadInst::Catch); 13806122f3e6SDimitry Andric else 13816122f3e6SDimitry Andric Vals.push_back(LandingPadInst::Filter); 13826122f3e6SDimitry Andric PushValueAndType(LP.getClause(I), InstID, Vals, VE); 13836122f3e6SDimitry Andric } 13846122f3e6SDimitry Andric break; 13856122f3e6SDimitry Andric } 13866122f3e6SDimitry Andric 1387f22ef01cSRoman Divacky case Instruction::Alloca: 1388f22ef01cSRoman Divacky Code = bitc::FUNC_CODE_INST_ALLOCA; 1389f22ef01cSRoman Divacky Vals.push_back(VE.getTypeID(I.getType())); 1390ffd1746dSEd Schouten Vals.push_back(VE.getTypeID(I.getOperand(0)->getType())); 1391f22ef01cSRoman Divacky Vals.push_back(VE.getValueID(I.getOperand(0))); // size. 1392f22ef01cSRoman Divacky Vals.push_back(Log2_32(cast<AllocaInst>(I).getAlignment())+1); 1393f22ef01cSRoman Divacky break; 1394f22ef01cSRoman Divacky 1395f22ef01cSRoman Divacky case Instruction::Load: 13966122f3e6SDimitry Andric if (cast<LoadInst>(I).isAtomic()) { 13976122f3e6SDimitry Andric Code = bitc::FUNC_CODE_INST_LOADATOMIC; 13986122f3e6SDimitry Andric PushValueAndType(I.getOperand(0), InstID, Vals, VE); 13996122f3e6SDimitry Andric } else { 1400f22ef01cSRoman Divacky Code = bitc::FUNC_CODE_INST_LOAD; 1401f22ef01cSRoman Divacky if (!PushValueAndType(I.getOperand(0), InstID, Vals, VE)) // ptr 1402f22ef01cSRoman Divacky AbbrevToUse = FUNCTION_INST_LOAD_ABBREV; 14036122f3e6SDimitry Andric } 1404f22ef01cSRoman Divacky Vals.push_back(Log2_32(cast<LoadInst>(I).getAlignment())+1); 1405f22ef01cSRoman Divacky Vals.push_back(cast<LoadInst>(I).isVolatile()); 14066122f3e6SDimitry Andric if (cast<LoadInst>(I).isAtomic()) { 14076122f3e6SDimitry Andric Vals.push_back(GetEncodedOrdering(cast<LoadInst>(I).getOrdering())); 14086122f3e6SDimitry Andric Vals.push_back(GetEncodedSynchScope(cast<LoadInst>(I).getSynchScope())); 14096122f3e6SDimitry Andric } 1410f22ef01cSRoman Divacky break; 1411f22ef01cSRoman Divacky case Instruction::Store: 14126122f3e6SDimitry Andric if (cast<StoreInst>(I).isAtomic()) 14136122f3e6SDimitry Andric Code = bitc::FUNC_CODE_INST_STOREATOMIC; 14146122f3e6SDimitry Andric else 141517a519f9SDimitry Andric Code = bitc::FUNC_CODE_INST_STORE; 1416f22ef01cSRoman Divacky PushValueAndType(I.getOperand(1), InstID, Vals, VE); // ptrty + ptr 14173861d79fSDimitry Andric pushValue(I.getOperand(0), InstID, Vals, VE); // val. 1418f22ef01cSRoman Divacky Vals.push_back(Log2_32(cast<StoreInst>(I).getAlignment())+1); 1419f22ef01cSRoman Divacky Vals.push_back(cast<StoreInst>(I).isVolatile()); 14206122f3e6SDimitry Andric if (cast<StoreInst>(I).isAtomic()) { 14216122f3e6SDimitry Andric Vals.push_back(GetEncodedOrdering(cast<StoreInst>(I).getOrdering())); 14226122f3e6SDimitry Andric Vals.push_back(GetEncodedSynchScope(cast<StoreInst>(I).getSynchScope())); 14236122f3e6SDimitry Andric } 14246122f3e6SDimitry Andric break; 14256122f3e6SDimitry Andric case Instruction::AtomicCmpXchg: 14266122f3e6SDimitry Andric Code = bitc::FUNC_CODE_INST_CMPXCHG; 14276122f3e6SDimitry Andric PushValueAndType(I.getOperand(0), InstID, Vals, VE); // ptrty + ptr 14283861d79fSDimitry Andric pushValue(I.getOperand(1), InstID, Vals, VE); // cmp. 14293861d79fSDimitry Andric pushValue(I.getOperand(2), InstID, Vals, VE); // newval. 14306122f3e6SDimitry Andric Vals.push_back(cast<AtomicCmpXchgInst>(I).isVolatile()); 14316122f3e6SDimitry Andric Vals.push_back(GetEncodedOrdering( 14326122f3e6SDimitry Andric cast<AtomicCmpXchgInst>(I).getOrdering())); 14336122f3e6SDimitry Andric Vals.push_back(GetEncodedSynchScope( 14346122f3e6SDimitry Andric cast<AtomicCmpXchgInst>(I).getSynchScope())); 14356122f3e6SDimitry Andric break; 14366122f3e6SDimitry Andric case Instruction::AtomicRMW: 14376122f3e6SDimitry Andric Code = bitc::FUNC_CODE_INST_ATOMICRMW; 14386122f3e6SDimitry Andric PushValueAndType(I.getOperand(0), InstID, Vals, VE); // ptrty + ptr 14393861d79fSDimitry Andric pushValue(I.getOperand(1), InstID, Vals, VE); // val. 14406122f3e6SDimitry Andric Vals.push_back(GetEncodedRMWOperation( 14416122f3e6SDimitry Andric cast<AtomicRMWInst>(I).getOperation())); 14426122f3e6SDimitry Andric Vals.push_back(cast<AtomicRMWInst>(I).isVolatile()); 14436122f3e6SDimitry Andric Vals.push_back(GetEncodedOrdering(cast<AtomicRMWInst>(I).getOrdering())); 14446122f3e6SDimitry Andric Vals.push_back(GetEncodedSynchScope( 14456122f3e6SDimitry Andric cast<AtomicRMWInst>(I).getSynchScope())); 14466122f3e6SDimitry Andric break; 14476122f3e6SDimitry Andric case Instruction::Fence: 14486122f3e6SDimitry Andric Code = bitc::FUNC_CODE_INST_FENCE; 14496122f3e6SDimitry Andric Vals.push_back(GetEncodedOrdering(cast<FenceInst>(I).getOrdering())); 14506122f3e6SDimitry Andric Vals.push_back(GetEncodedSynchScope(cast<FenceInst>(I).getSynchScope())); 1451f22ef01cSRoman Divacky break; 1452f22ef01cSRoman Divacky case Instruction::Call: { 1453ffd1746dSEd Schouten const CallInst &CI = cast<CallInst>(I); 14546122f3e6SDimitry Andric PointerType *PTy = cast<PointerType>(CI.getCalledValue()->getType()); 14556122f3e6SDimitry Andric FunctionType *FTy = cast<FunctionType>(PTy->getElementType()); 1456f22ef01cSRoman Divacky 145717a519f9SDimitry Andric Code = bitc::FUNC_CODE_INST_CALL; 1458f22ef01cSRoman Divacky 1459ffd1746dSEd Schouten Vals.push_back(VE.getAttributeID(CI.getAttributes())); 1460ffd1746dSEd Schouten Vals.push_back((CI.getCallingConv() << 1) | unsigned(CI.isTailCall())); 1461ffd1746dSEd Schouten PushValueAndType(CI.getCalledValue(), InstID, Vals, VE); // Callee 1462f22ef01cSRoman Divacky 1463f22ef01cSRoman Divacky // Emit value #'s for the fixed parameters. 14643861d79fSDimitry Andric for (unsigned i = 0, e = FTy->getNumParams(); i != e; ++i) { 14653861d79fSDimitry Andric // Check for labels (can happen with asm labels). 14663861d79fSDimitry Andric if (FTy->getParamType(i)->isLabelTy()) 14673861d79fSDimitry Andric Vals.push_back(VE.getValueID(CI.getArgOperand(i))); 14683861d79fSDimitry Andric else 14693861d79fSDimitry Andric pushValue(CI.getArgOperand(i), InstID, Vals, VE); // fixed param. 14703861d79fSDimitry Andric } 1471f22ef01cSRoman Divacky 1472f22ef01cSRoman Divacky // Emit type/value pairs for varargs params. 1473f22ef01cSRoman Divacky if (FTy->isVarArg()) { 1474ffd1746dSEd Schouten for (unsigned i = FTy->getNumParams(), e = CI.getNumArgOperands(); 1475f22ef01cSRoman Divacky i != e; ++i) 1476ffd1746dSEd Schouten PushValueAndType(CI.getArgOperand(i), InstID, Vals, VE); // varargs 1477f22ef01cSRoman Divacky } 1478f22ef01cSRoman Divacky break; 1479f22ef01cSRoman Divacky } 1480f22ef01cSRoman Divacky case Instruction::VAArg: 1481f22ef01cSRoman Divacky Code = bitc::FUNC_CODE_INST_VAARG; 1482f22ef01cSRoman Divacky Vals.push_back(VE.getTypeID(I.getOperand(0)->getType())); // valistty 14833861d79fSDimitry Andric pushValue(I.getOperand(0), InstID, Vals, VE); // valist. 1484f22ef01cSRoman Divacky Vals.push_back(VE.getTypeID(I.getType())); // restype. 1485f22ef01cSRoman Divacky break; 1486f22ef01cSRoman Divacky } 1487f22ef01cSRoman Divacky 1488f22ef01cSRoman Divacky Stream.EmitRecord(Code, Vals, AbbrevToUse); 1489f22ef01cSRoman Divacky Vals.clear(); 1490f22ef01cSRoman Divacky } 1491f22ef01cSRoman Divacky 1492f22ef01cSRoman Divacky // Emit names for globals/functions etc. 1493f22ef01cSRoman Divacky static void WriteValueSymbolTable(const ValueSymbolTable &VST, 1494f22ef01cSRoman Divacky const ValueEnumerator &VE, 1495f22ef01cSRoman Divacky BitstreamWriter &Stream) { 1496f22ef01cSRoman Divacky if (VST.empty()) return; 1497f22ef01cSRoman Divacky Stream.EnterSubblock(bitc::VALUE_SYMTAB_BLOCK_ID, 4); 1498f22ef01cSRoman Divacky 1499f22ef01cSRoman Divacky // FIXME: Set up the abbrev, we know how many values there are! 1500f22ef01cSRoman Divacky // FIXME: We know if the type names can use 7-bit ascii. 1501f22ef01cSRoman Divacky SmallVector<unsigned, 64> NameVals; 1502f22ef01cSRoman Divacky 1503f22ef01cSRoman Divacky for (ValueSymbolTable::const_iterator SI = VST.begin(), SE = VST.end(); 1504f22ef01cSRoman Divacky SI != SE; ++SI) { 1505f22ef01cSRoman Divacky 1506f22ef01cSRoman Divacky const ValueName &Name = *SI; 1507f22ef01cSRoman Divacky 1508f22ef01cSRoman Divacky // Figure out the encoding to use for the name. 1509f22ef01cSRoman Divacky bool is7Bit = true; 1510f22ef01cSRoman Divacky bool isChar6 = true; 1511f22ef01cSRoman Divacky for (const char *C = Name.getKeyData(), *E = C+Name.getKeyLength(); 1512f22ef01cSRoman Divacky C != E; ++C) { 1513f22ef01cSRoman Divacky if (isChar6) 1514f22ef01cSRoman Divacky isChar6 = BitCodeAbbrevOp::isChar6(*C); 1515f22ef01cSRoman Divacky if ((unsigned char)*C & 128) { 1516f22ef01cSRoman Divacky is7Bit = false; 1517f22ef01cSRoman Divacky break; // don't bother scanning the rest. 1518f22ef01cSRoman Divacky } 1519f22ef01cSRoman Divacky } 1520f22ef01cSRoman Divacky 1521f22ef01cSRoman Divacky unsigned AbbrevToUse = VST_ENTRY_8_ABBREV; 1522f22ef01cSRoman Divacky 1523f22ef01cSRoman Divacky // VST_ENTRY: [valueid, namechar x N] 1524f22ef01cSRoman Divacky // VST_BBENTRY: [bbid, namechar x N] 1525f22ef01cSRoman Divacky unsigned Code; 1526f22ef01cSRoman Divacky if (isa<BasicBlock>(SI->getValue())) { 1527f22ef01cSRoman Divacky Code = bitc::VST_CODE_BBENTRY; 1528f22ef01cSRoman Divacky if (isChar6) 1529f22ef01cSRoman Divacky AbbrevToUse = VST_BBENTRY_6_ABBREV; 1530f22ef01cSRoman Divacky } else { 1531f22ef01cSRoman Divacky Code = bitc::VST_CODE_ENTRY; 1532f22ef01cSRoman Divacky if (isChar6) 1533f22ef01cSRoman Divacky AbbrevToUse = VST_ENTRY_6_ABBREV; 1534f22ef01cSRoman Divacky else if (is7Bit) 1535f22ef01cSRoman Divacky AbbrevToUse = VST_ENTRY_7_ABBREV; 1536f22ef01cSRoman Divacky } 1537f22ef01cSRoman Divacky 1538f22ef01cSRoman Divacky NameVals.push_back(VE.getValueID(SI->getValue())); 1539f22ef01cSRoman Divacky for (const char *P = Name.getKeyData(), 1540f22ef01cSRoman Divacky *E = Name.getKeyData()+Name.getKeyLength(); P != E; ++P) 1541f22ef01cSRoman Divacky NameVals.push_back((unsigned char)*P); 1542f22ef01cSRoman Divacky 1543f22ef01cSRoman Divacky // Emit the finished record. 1544f22ef01cSRoman Divacky Stream.EmitRecord(Code, NameVals, AbbrevToUse); 1545f22ef01cSRoman Divacky NameVals.clear(); 1546f22ef01cSRoman Divacky } 1547f22ef01cSRoman Divacky Stream.ExitBlock(); 1548f22ef01cSRoman Divacky } 1549f22ef01cSRoman Divacky 1550f22ef01cSRoman Divacky /// WriteFunction - Emit a function body to the module stream. 1551f22ef01cSRoman Divacky static void WriteFunction(const Function &F, ValueEnumerator &VE, 1552f22ef01cSRoman Divacky BitstreamWriter &Stream) { 1553f22ef01cSRoman Divacky Stream.EnterSubblock(bitc::FUNCTION_BLOCK_ID, 4); 1554f22ef01cSRoman Divacky VE.incorporateFunction(F); 1555f22ef01cSRoman Divacky 1556f22ef01cSRoman Divacky SmallVector<unsigned, 64> Vals; 1557f22ef01cSRoman Divacky 1558f22ef01cSRoman Divacky // Emit the number of basic blocks, so the reader can create them ahead of 1559f22ef01cSRoman Divacky // time. 1560f22ef01cSRoman Divacky Vals.push_back(VE.getBasicBlocks().size()); 1561f22ef01cSRoman Divacky Stream.EmitRecord(bitc::FUNC_CODE_DECLAREBLOCKS, Vals); 1562f22ef01cSRoman Divacky Vals.clear(); 1563f22ef01cSRoman Divacky 1564f22ef01cSRoman Divacky // If there are function-local constants, emit them now. 1565f22ef01cSRoman Divacky unsigned CstStart, CstEnd; 1566f22ef01cSRoman Divacky VE.getFunctionConstantRange(CstStart, CstEnd); 1567f22ef01cSRoman Divacky WriteConstants(CstStart, CstEnd, VE, Stream, false); 1568f22ef01cSRoman Divacky 1569f22ef01cSRoman Divacky // If there is function-local metadata, emit it now. 1570f22ef01cSRoman Divacky WriteFunctionLocalMetadata(F, VE, Stream); 1571f22ef01cSRoman Divacky 1572f22ef01cSRoman Divacky // Keep a running idea of what the instruction ID is. 1573f22ef01cSRoman Divacky unsigned InstID = CstEnd; 1574f22ef01cSRoman Divacky 1575f22ef01cSRoman Divacky bool NeedsMetadataAttachment = false; 1576f22ef01cSRoman Divacky 1577f22ef01cSRoman Divacky DebugLoc LastDL; 1578f22ef01cSRoman Divacky 1579f22ef01cSRoman Divacky // Finally, emit all the instructions, in order. 1580f22ef01cSRoman Divacky for (Function::const_iterator BB = F.begin(), E = F.end(); BB != E; ++BB) 1581f22ef01cSRoman Divacky for (BasicBlock::const_iterator I = BB->begin(), E = BB->end(); 1582f22ef01cSRoman Divacky I != E; ++I) { 1583f22ef01cSRoman Divacky WriteInstruction(*I, InstID, VE, Stream, Vals); 1584f22ef01cSRoman Divacky 1585f22ef01cSRoman Divacky if (!I->getType()->isVoidTy()) 1586f22ef01cSRoman Divacky ++InstID; 1587f22ef01cSRoman Divacky 1588f22ef01cSRoman Divacky // If the instruction has metadata, write a metadata attachment later. 1589f22ef01cSRoman Divacky NeedsMetadataAttachment |= I->hasMetadataOtherThanDebugLoc(); 1590f22ef01cSRoman Divacky 1591f22ef01cSRoman Divacky // If the instruction has a debug location, emit it. 1592f22ef01cSRoman Divacky DebugLoc DL = I->getDebugLoc(); 1593f22ef01cSRoman Divacky if (DL.isUnknown()) { 1594f22ef01cSRoman Divacky // nothing todo. 1595f22ef01cSRoman Divacky } else if (DL == LastDL) { 1596f22ef01cSRoman Divacky // Just repeat the same debug loc as last time. 1597f22ef01cSRoman Divacky Stream.EmitRecord(bitc::FUNC_CODE_DEBUG_LOC_AGAIN, Vals); 1598f22ef01cSRoman Divacky } else { 1599f22ef01cSRoman Divacky MDNode *Scope, *IA; 1600f22ef01cSRoman Divacky DL.getScopeAndInlinedAt(Scope, IA, I->getContext()); 1601f22ef01cSRoman Divacky 1602f22ef01cSRoman Divacky Vals.push_back(DL.getLine()); 1603f22ef01cSRoman Divacky Vals.push_back(DL.getCol()); 1604f22ef01cSRoman Divacky Vals.push_back(Scope ? VE.getValueID(Scope)+1 : 0); 1605f22ef01cSRoman Divacky Vals.push_back(IA ? VE.getValueID(IA)+1 : 0); 160617a519f9SDimitry Andric Stream.EmitRecord(bitc::FUNC_CODE_DEBUG_LOC, Vals); 1607f22ef01cSRoman Divacky Vals.clear(); 1608f22ef01cSRoman Divacky 1609f22ef01cSRoman Divacky LastDL = DL; 1610f22ef01cSRoman Divacky } 1611f22ef01cSRoman Divacky } 1612f22ef01cSRoman Divacky 1613f22ef01cSRoman Divacky // Emit names for all the instructions etc. 1614f22ef01cSRoman Divacky WriteValueSymbolTable(F.getValueSymbolTable(), VE, Stream); 1615f22ef01cSRoman Divacky 1616f22ef01cSRoman Divacky if (NeedsMetadataAttachment) 1617f22ef01cSRoman Divacky WriteMetadataAttachment(F, VE, Stream); 1618f22ef01cSRoman Divacky VE.purgeFunction(); 1619f22ef01cSRoman Divacky Stream.ExitBlock(); 1620f22ef01cSRoman Divacky } 1621f22ef01cSRoman Divacky 1622f22ef01cSRoman Divacky // Emit blockinfo, which defines the standard abbreviations etc. 1623f22ef01cSRoman Divacky static void WriteBlockInfo(const ValueEnumerator &VE, BitstreamWriter &Stream) { 1624f22ef01cSRoman Divacky // We only want to emit block info records for blocks that have multiple 16253861d79fSDimitry Andric // instances: CONSTANTS_BLOCK, FUNCTION_BLOCK and VALUE_SYMTAB_BLOCK. 16263861d79fSDimitry Andric // Other blocks can define their abbrevs inline. 1627f22ef01cSRoman Divacky Stream.EnterBlockInfoBlock(2); 1628f22ef01cSRoman Divacky 1629f22ef01cSRoman Divacky { // 8-bit fixed-width VST_ENTRY/VST_BBENTRY strings. 1630f22ef01cSRoman Divacky BitCodeAbbrev *Abbv = new BitCodeAbbrev(); 1631f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 3)); 1632f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 8)); 1633f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Array)); 1634f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 8)); 1635f22ef01cSRoman Divacky if (Stream.EmitBlockInfoAbbrev(bitc::VALUE_SYMTAB_BLOCK_ID, 1636f22ef01cSRoman Divacky Abbv) != VST_ENTRY_8_ABBREV) 1637f22ef01cSRoman Divacky llvm_unreachable("Unexpected abbrev ordering!"); 1638f22ef01cSRoman Divacky } 1639f22ef01cSRoman Divacky 1640f22ef01cSRoman Divacky { // 7-bit fixed width VST_ENTRY strings. 1641f22ef01cSRoman Divacky BitCodeAbbrev *Abbv = new BitCodeAbbrev(); 1642f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(bitc::VST_CODE_ENTRY)); 1643f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 8)); 1644f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Array)); 1645f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 7)); 1646f22ef01cSRoman Divacky if (Stream.EmitBlockInfoAbbrev(bitc::VALUE_SYMTAB_BLOCK_ID, 1647f22ef01cSRoman Divacky Abbv) != VST_ENTRY_7_ABBREV) 1648f22ef01cSRoman Divacky llvm_unreachable("Unexpected abbrev ordering!"); 1649f22ef01cSRoman Divacky } 1650f22ef01cSRoman Divacky { // 6-bit char6 VST_ENTRY strings. 1651f22ef01cSRoman Divacky BitCodeAbbrev *Abbv = new BitCodeAbbrev(); 1652f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(bitc::VST_CODE_ENTRY)); 1653f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 8)); 1654f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Array)); 1655f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Char6)); 1656f22ef01cSRoman Divacky if (Stream.EmitBlockInfoAbbrev(bitc::VALUE_SYMTAB_BLOCK_ID, 1657f22ef01cSRoman Divacky Abbv) != VST_ENTRY_6_ABBREV) 1658f22ef01cSRoman Divacky llvm_unreachable("Unexpected abbrev ordering!"); 1659f22ef01cSRoman Divacky } 1660f22ef01cSRoman Divacky { // 6-bit char6 VST_BBENTRY strings. 1661f22ef01cSRoman Divacky BitCodeAbbrev *Abbv = new BitCodeAbbrev(); 1662f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(bitc::VST_CODE_BBENTRY)); 1663f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 8)); 1664f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Array)); 1665f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Char6)); 1666f22ef01cSRoman Divacky if (Stream.EmitBlockInfoAbbrev(bitc::VALUE_SYMTAB_BLOCK_ID, 1667f22ef01cSRoman Divacky Abbv) != VST_BBENTRY_6_ABBREV) 1668f22ef01cSRoman Divacky llvm_unreachable("Unexpected abbrev ordering!"); 1669f22ef01cSRoman Divacky } 1670f22ef01cSRoman Divacky 1671f22ef01cSRoman Divacky 1672f22ef01cSRoman Divacky 1673f22ef01cSRoman Divacky { // SETTYPE abbrev for CONSTANTS_BLOCK. 1674f22ef01cSRoman Divacky BitCodeAbbrev *Abbv = new BitCodeAbbrev(); 1675f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(bitc::CST_CODE_SETTYPE)); 1676f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 1677f22ef01cSRoman Divacky Log2_32_Ceil(VE.getTypes().size()+1))); 1678f22ef01cSRoman Divacky if (Stream.EmitBlockInfoAbbrev(bitc::CONSTANTS_BLOCK_ID, 1679f22ef01cSRoman Divacky Abbv) != CONSTANTS_SETTYPE_ABBREV) 1680f22ef01cSRoman Divacky llvm_unreachable("Unexpected abbrev ordering!"); 1681f22ef01cSRoman Divacky } 1682f22ef01cSRoman Divacky 1683f22ef01cSRoman Divacky { // INTEGER abbrev for CONSTANTS_BLOCK. 1684f22ef01cSRoman Divacky BitCodeAbbrev *Abbv = new BitCodeAbbrev(); 1685f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(bitc::CST_CODE_INTEGER)); 1686f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 8)); 1687f22ef01cSRoman Divacky if (Stream.EmitBlockInfoAbbrev(bitc::CONSTANTS_BLOCK_ID, 1688f22ef01cSRoman Divacky Abbv) != CONSTANTS_INTEGER_ABBREV) 1689f22ef01cSRoman Divacky llvm_unreachable("Unexpected abbrev ordering!"); 1690f22ef01cSRoman Divacky } 1691f22ef01cSRoman Divacky 1692f22ef01cSRoman Divacky { // CE_CAST abbrev for CONSTANTS_BLOCK. 1693f22ef01cSRoman Divacky BitCodeAbbrev *Abbv = new BitCodeAbbrev(); 1694f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(bitc::CST_CODE_CE_CAST)); 1695f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 4)); // cast opc 1696f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, // typeid 1697f22ef01cSRoman Divacky Log2_32_Ceil(VE.getTypes().size()+1))); 1698f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 8)); // value id 1699f22ef01cSRoman Divacky 1700f22ef01cSRoman Divacky if (Stream.EmitBlockInfoAbbrev(bitc::CONSTANTS_BLOCK_ID, 1701f22ef01cSRoman Divacky Abbv) != CONSTANTS_CE_CAST_Abbrev) 1702f22ef01cSRoman Divacky llvm_unreachable("Unexpected abbrev ordering!"); 1703f22ef01cSRoman Divacky } 1704f22ef01cSRoman Divacky { // NULL abbrev for CONSTANTS_BLOCK. 1705f22ef01cSRoman Divacky BitCodeAbbrev *Abbv = new BitCodeAbbrev(); 1706f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(bitc::CST_CODE_NULL)); 1707f22ef01cSRoman Divacky if (Stream.EmitBlockInfoAbbrev(bitc::CONSTANTS_BLOCK_ID, 1708f22ef01cSRoman Divacky Abbv) != CONSTANTS_NULL_Abbrev) 1709f22ef01cSRoman Divacky llvm_unreachable("Unexpected abbrev ordering!"); 1710f22ef01cSRoman Divacky } 1711f22ef01cSRoman Divacky 1712f22ef01cSRoman Divacky // FIXME: This should only use space for first class types! 1713f22ef01cSRoman Divacky 1714f22ef01cSRoman Divacky { // INST_LOAD abbrev for FUNCTION_BLOCK. 1715f22ef01cSRoman Divacky BitCodeAbbrev *Abbv = new BitCodeAbbrev(); 1716f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(bitc::FUNC_CODE_INST_LOAD)); 1717f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 6)); // Ptr 1718f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 4)); // Align 1719f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 1)); // volatile 1720f22ef01cSRoman Divacky if (Stream.EmitBlockInfoAbbrev(bitc::FUNCTION_BLOCK_ID, 1721f22ef01cSRoman Divacky Abbv) != FUNCTION_INST_LOAD_ABBREV) 1722f22ef01cSRoman Divacky llvm_unreachable("Unexpected abbrev ordering!"); 1723f22ef01cSRoman Divacky } 1724f22ef01cSRoman Divacky { // INST_BINOP abbrev for FUNCTION_BLOCK. 1725f22ef01cSRoman Divacky BitCodeAbbrev *Abbv = new BitCodeAbbrev(); 1726f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(bitc::FUNC_CODE_INST_BINOP)); 1727f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 6)); // LHS 1728f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 6)); // RHS 1729f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 4)); // opc 1730f22ef01cSRoman Divacky if (Stream.EmitBlockInfoAbbrev(bitc::FUNCTION_BLOCK_ID, 1731f22ef01cSRoman Divacky Abbv) != FUNCTION_INST_BINOP_ABBREV) 1732f22ef01cSRoman Divacky llvm_unreachable("Unexpected abbrev ordering!"); 1733f22ef01cSRoman Divacky } 1734f22ef01cSRoman Divacky { // INST_BINOP_FLAGS abbrev for FUNCTION_BLOCK. 1735f22ef01cSRoman Divacky BitCodeAbbrev *Abbv = new BitCodeAbbrev(); 1736f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(bitc::FUNC_CODE_INST_BINOP)); 1737f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 6)); // LHS 1738f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 6)); // RHS 1739f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 4)); // opc 1740f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 7)); // flags 1741f22ef01cSRoman Divacky if (Stream.EmitBlockInfoAbbrev(bitc::FUNCTION_BLOCK_ID, 1742f22ef01cSRoman Divacky Abbv) != FUNCTION_INST_BINOP_FLAGS_ABBREV) 1743f22ef01cSRoman Divacky llvm_unreachable("Unexpected abbrev ordering!"); 1744f22ef01cSRoman Divacky } 1745f22ef01cSRoman Divacky { // INST_CAST abbrev for FUNCTION_BLOCK. 1746f22ef01cSRoman Divacky BitCodeAbbrev *Abbv = new BitCodeAbbrev(); 1747f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(bitc::FUNC_CODE_INST_CAST)); 1748f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 6)); // OpVal 1749f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, // dest ty 1750f22ef01cSRoman Divacky Log2_32_Ceil(VE.getTypes().size()+1))); 1751f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 4)); // opc 1752f22ef01cSRoman Divacky if (Stream.EmitBlockInfoAbbrev(bitc::FUNCTION_BLOCK_ID, 1753f22ef01cSRoman Divacky Abbv) != FUNCTION_INST_CAST_ABBREV) 1754f22ef01cSRoman Divacky llvm_unreachable("Unexpected abbrev ordering!"); 1755f22ef01cSRoman Divacky } 1756f22ef01cSRoman Divacky 1757f22ef01cSRoman Divacky { // INST_RET abbrev for FUNCTION_BLOCK. 1758f22ef01cSRoman Divacky BitCodeAbbrev *Abbv = new BitCodeAbbrev(); 1759f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(bitc::FUNC_CODE_INST_RET)); 1760f22ef01cSRoman Divacky if (Stream.EmitBlockInfoAbbrev(bitc::FUNCTION_BLOCK_ID, 1761f22ef01cSRoman Divacky Abbv) != FUNCTION_INST_RET_VOID_ABBREV) 1762f22ef01cSRoman Divacky llvm_unreachable("Unexpected abbrev ordering!"); 1763f22ef01cSRoman Divacky } 1764f22ef01cSRoman Divacky { // INST_RET abbrev for FUNCTION_BLOCK. 1765f22ef01cSRoman Divacky BitCodeAbbrev *Abbv = new BitCodeAbbrev(); 1766f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(bitc::FUNC_CODE_INST_RET)); 1767f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 6)); // ValID 1768f22ef01cSRoman Divacky if (Stream.EmitBlockInfoAbbrev(bitc::FUNCTION_BLOCK_ID, 1769f22ef01cSRoman Divacky Abbv) != FUNCTION_INST_RET_VAL_ABBREV) 1770f22ef01cSRoman Divacky llvm_unreachable("Unexpected abbrev ordering!"); 1771f22ef01cSRoman Divacky } 1772f22ef01cSRoman Divacky { // INST_UNREACHABLE abbrev for FUNCTION_BLOCK. 1773f22ef01cSRoman Divacky BitCodeAbbrev *Abbv = new BitCodeAbbrev(); 1774f22ef01cSRoman Divacky Abbv->Add(BitCodeAbbrevOp(bitc::FUNC_CODE_INST_UNREACHABLE)); 1775f22ef01cSRoman Divacky if (Stream.EmitBlockInfoAbbrev(bitc::FUNCTION_BLOCK_ID, 1776f22ef01cSRoman Divacky Abbv) != FUNCTION_INST_UNREACHABLE_ABBREV) 1777f22ef01cSRoman Divacky llvm_unreachable("Unexpected abbrev ordering!"); 1778f22ef01cSRoman Divacky } 1779f22ef01cSRoman Divacky 1780f22ef01cSRoman Divacky Stream.ExitBlock(); 1781f22ef01cSRoman Divacky } 1782f22ef01cSRoman Divacky 1783dff0c46cSDimitry Andric // Sort the Users based on the order in which the reader parses the bitcode 1784dff0c46cSDimitry Andric // file. 1785dff0c46cSDimitry Andric static bool bitcodereader_order(const User *lhs, const User *rhs) { 1786dff0c46cSDimitry Andric // TODO: Implement. 1787dff0c46cSDimitry Andric return true; 1788dff0c46cSDimitry Andric } 1789dff0c46cSDimitry Andric 1790dff0c46cSDimitry Andric static void WriteUseList(const Value *V, const ValueEnumerator &VE, 1791dff0c46cSDimitry Andric BitstreamWriter &Stream) { 1792dff0c46cSDimitry Andric 1793dff0c46cSDimitry Andric // One or zero uses can't get out of order. 1794dff0c46cSDimitry Andric if (V->use_empty() || V->hasNUses(1)) 1795dff0c46cSDimitry Andric return; 1796dff0c46cSDimitry Andric 1797dff0c46cSDimitry Andric // Make a copy of the in-memory use-list for sorting. 1798dff0c46cSDimitry Andric unsigned UseListSize = std::distance(V->use_begin(), V->use_end()); 1799dff0c46cSDimitry Andric SmallVector<const User*, 8> UseList; 1800dff0c46cSDimitry Andric UseList.reserve(UseListSize); 1801dff0c46cSDimitry Andric for (Value::const_use_iterator I = V->use_begin(), E = V->use_end(); 1802dff0c46cSDimitry Andric I != E; ++I) { 1803dff0c46cSDimitry Andric const User *U = *I; 1804dff0c46cSDimitry Andric UseList.push_back(U); 1805dff0c46cSDimitry Andric } 1806dff0c46cSDimitry Andric 1807dff0c46cSDimitry Andric // Sort the copy based on the order read by the BitcodeReader. 1808dff0c46cSDimitry Andric std::sort(UseList.begin(), UseList.end(), bitcodereader_order); 1809dff0c46cSDimitry Andric 1810dff0c46cSDimitry Andric // TODO: Generate a diff between the BitcodeWriter in-memory use-list and the 1811dff0c46cSDimitry Andric // sorted list (i.e., the expected BitcodeReader in-memory use-list). 1812dff0c46cSDimitry Andric 1813dff0c46cSDimitry Andric // TODO: Emit the USELIST_CODE_ENTRYs. 1814dff0c46cSDimitry Andric } 1815dff0c46cSDimitry Andric 1816dff0c46cSDimitry Andric static void WriteFunctionUseList(const Function *F, ValueEnumerator &VE, 1817dff0c46cSDimitry Andric BitstreamWriter &Stream) { 1818dff0c46cSDimitry Andric VE.incorporateFunction(*F); 1819dff0c46cSDimitry Andric 1820dff0c46cSDimitry Andric for (Function::const_arg_iterator AI = F->arg_begin(), AE = F->arg_end(); 1821dff0c46cSDimitry Andric AI != AE; ++AI) 1822dff0c46cSDimitry Andric WriteUseList(AI, VE, Stream); 1823dff0c46cSDimitry Andric for (Function::const_iterator BB = F->begin(), FE = F->end(); BB != FE; 1824dff0c46cSDimitry Andric ++BB) { 1825dff0c46cSDimitry Andric WriteUseList(BB, VE, Stream); 1826dff0c46cSDimitry Andric for (BasicBlock::const_iterator II = BB->begin(), IE = BB->end(); II != IE; 1827dff0c46cSDimitry Andric ++II) { 1828dff0c46cSDimitry Andric WriteUseList(II, VE, Stream); 1829dff0c46cSDimitry Andric for (User::const_op_iterator OI = II->op_begin(), E = II->op_end(); 1830dff0c46cSDimitry Andric OI != E; ++OI) { 1831dff0c46cSDimitry Andric if ((isa<Constant>(*OI) && !isa<GlobalValue>(*OI)) || 1832dff0c46cSDimitry Andric isa<InlineAsm>(*OI)) 1833dff0c46cSDimitry Andric WriteUseList(*OI, VE, Stream); 1834dff0c46cSDimitry Andric } 1835dff0c46cSDimitry Andric } 1836dff0c46cSDimitry Andric } 1837dff0c46cSDimitry Andric VE.purgeFunction(); 1838dff0c46cSDimitry Andric } 1839dff0c46cSDimitry Andric 1840dff0c46cSDimitry Andric // Emit use-lists. 1841dff0c46cSDimitry Andric static void WriteModuleUseLists(const Module *M, ValueEnumerator &VE, 1842dff0c46cSDimitry Andric BitstreamWriter &Stream) { 1843dff0c46cSDimitry Andric Stream.EnterSubblock(bitc::USELIST_BLOCK_ID, 3); 1844dff0c46cSDimitry Andric 1845dff0c46cSDimitry Andric // XXX: this modifies the module, but in a way that should never change the 1846dff0c46cSDimitry Andric // behavior of any pass or codegen in LLVM. The problem is that GVs may 1847dff0c46cSDimitry Andric // contain entries in the use_list that do not exist in the Module and are 1848dff0c46cSDimitry Andric // not stored in the .bc file. 1849dff0c46cSDimitry Andric for (Module::const_global_iterator I = M->global_begin(), E = M->global_end(); 1850dff0c46cSDimitry Andric I != E; ++I) 1851dff0c46cSDimitry Andric I->removeDeadConstantUsers(); 1852dff0c46cSDimitry Andric 1853dff0c46cSDimitry Andric // Write the global variables. 1854dff0c46cSDimitry Andric for (Module::const_global_iterator GI = M->global_begin(), 1855dff0c46cSDimitry Andric GE = M->global_end(); GI != GE; ++GI) { 1856dff0c46cSDimitry Andric WriteUseList(GI, VE, Stream); 1857dff0c46cSDimitry Andric 1858dff0c46cSDimitry Andric // Write the global variable initializers. 1859dff0c46cSDimitry Andric if (GI->hasInitializer()) 1860dff0c46cSDimitry Andric WriteUseList(GI->getInitializer(), VE, Stream); 1861dff0c46cSDimitry Andric } 1862dff0c46cSDimitry Andric 1863dff0c46cSDimitry Andric // Write the functions. 1864dff0c46cSDimitry Andric for (Module::const_iterator FI = M->begin(), FE = M->end(); FI != FE; ++FI) { 1865dff0c46cSDimitry Andric WriteUseList(FI, VE, Stream); 1866dff0c46cSDimitry Andric if (!FI->isDeclaration()) 1867dff0c46cSDimitry Andric WriteFunctionUseList(FI, VE, Stream); 1868f785676fSDimitry Andric if (FI->hasPrefixData()) 1869f785676fSDimitry Andric WriteUseList(FI->getPrefixData(), VE, Stream); 1870dff0c46cSDimitry Andric } 1871dff0c46cSDimitry Andric 1872dff0c46cSDimitry Andric // Write the aliases. 1873dff0c46cSDimitry Andric for (Module::const_alias_iterator AI = M->alias_begin(), AE = M->alias_end(); 1874dff0c46cSDimitry Andric AI != AE; ++AI) { 1875dff0c46cSDimitry Andric WriteUseList(AI, VE, Stream); 1876dff0c46cSDimitry Andric WriteUseList(AI->getAliasee(), VE, Stream); 1877dff0c46cSDimitry Andric } 1878dff0c46cSDimitry Andric 1879dff0c46cSDimitry Andric Stream.ExitBlock(); 1880dff0c46cSDimitry Andric } 1881f22ef01cSRoman Divacky 1882f22ef01cSRoman Divacky /// WriteModule - Emit the specified module to the bitstream. 1883f22ef01cSRoman Divacky static void WriteModule(const Module *M, BitstreamWriter &Stream) { 1884f22ef01cSRoman Divacky Stream.EnterSubblock(bitc::MODULE_BLOCK_ID, 3); 1885f22ef01cSRoman Divacky 1886f22ef01cSRoman Divacky SmallVector<unsigned, 1> Vals; 18873861d79fSDimitry Andric unsigned CurVersion = 1; 1888f22ef01cSRoman Divacky Vals.push_back(CurVersion); 1889f22ef01cSRoman Divacky Stream.EmitRecord(bitc::MODULE_CODE_VERSION, Vals); 1890f22ef01cSRoman Divacky 1891f22ef01cSRoman Divacky // Analyze the module, enumerating globals, functions, etc. 1892f22ef01cSRoman Divacky ValueEnumerator VE(M); 1893f22ef01cSRoman Divacky 1894f22ef01cSRoman Divacky // Emit blockinfo, which defines the standard abbreviations etc. 1895f22ef01cSRoman Divacky WriteBlockInfo(VE, Stream); 1896f22ef01cSRoman Divacky 1897139f7f9bSDimitry Andric // Emit information about attribute groups. 1898139f7f9bSDimitry Andric WriteAttributeGroupTable(VE, Stream); 1899139f7f9bSDimitry Andric 1900f22ef01cSRoman Divacky // Emit information about parameter attributes. 1901f22ef01cSRoman Divacky WriteAttributeTable(VE, Stream); 1902f22ef01cSRoman Divacky 1903f22ef01cSRoman Divacky // Emit information describing all of the types in the module. 1904f22ef01cSRoman Divacky WriteTypeTable(VE, Stream); 1905f22ef01cSRoman Divacky 1906f22ef01cSRoman Divacky // Emit top-level description of module, including target triple, inline asm, 1907f22ef01cSRoman Divacky // descriptors for global variables, and function prototype info. 1908f22ef01cSRoman Divacky WriteModuleInfo(M, VE, Stream); 1909f22ef01cSRoman Divacky 1910f22ef01cSRoman Divacky // Emit constants. 1911f22ef01cSRoman Divacky WriteModuleConstants(VE, Stream); 1912f22ef01cSRoman Divacky 1913f22ef01cSRoman Divacky // Emit metadata. 1914e580952dSDimitry Andric WriteModuleMetadata(M, VE, Stream); 1915f22ef01cSRoman Divacky 1916f22ef01cSRoman Divacky // Emit metadata. 1917f22ef01cSRoman Divacky WriteModuleMetadataStore(M, Stream); 1918f22ef01cSRoman Divacky 1919f22ef01cSRoman Divacky // Emit names for globals/functions etc. 1920f22ef01cSRoman Divacky WriteValueSymbolTable(M->getValueSymbolTable(), VE, Stream); 1921f22ef01cSRoman Divacky 1922dff0c46cSDimitry Andric // Emit use-lists. 1923dff0c46cSDimitry Andric if (EnablePreserveUseListOrdering) 1924dff0c46cSDimitry Andric WriteModuleUseLists(M, VE, Stream); 1925dff0c46cSDimitry Andric 1926dff0c46cSDimitry Andric // Emit function bodies. 1927dff0c46cSDimitry Andric for (Module::const_iterator F = M->begin(), E = M->end(); F != E; ++F) 1928dff0c46cSDimitry Andric if (!F->isDeclaration()) 1929dff0c46cSDimitry Andric WriteFunction(*F, VE, Stream); 1930dff0c46cSDimitry Andric 1931f22ef01cSRoman Divacky Stream.ExitBlock(); 1932f22ef01cSRoman Divacky } 1933f22ef01cSRoman Divacky 1934f22ef01cSRoman Divacky /// EmitDarwinBCHeader - If generating a bc file on darwin, we have to emit a 1935f22ef01cSRoman Divacky /// header and trailer to make it compatible with the system archiver. To do 1936f22ef01cSRoman Divacky /// this we emit the following header, and then emit a trailer that pads the 1937f22ef01cSRoman Divacky /// file out to be a multiple of 16 bytes. 1938f22ef01cSRoman Divacky /// 1939f22ef01cSRoman Divacky /// struct bc_header { 1940f22ef01cSRoman Divacky /// uint32_t Magic; // 0x0B17C0DE 1941f22ef01cSRoman Divacky /// uint32_t Version; // Version, currently always 0. 1942f22ef01cSRoman Divacky /// uint32_t BitcodeOffset; // Offset to traditional bitcode file. 1943f22ef01cSRoman Divacky /// uint32_t BitcodeSize; // Size of traditional bitcode file. 1944f22ef01cSRoman Divacky /// uint32_t CPUType; // CPU specifier. 1945f22ef01cSRoman Divacky /// ... potentially more later ... 1946f22ef01cSRoman Divacky /// }; 1947f22ef01cSRoman Divacky enum { 1948f22ef01cSRoman Divacky DarwinBCSizeFieldOffset = 3*4, // Offset to bitcode_size. 1949f22ef01cSRoman Divacky DarwinBCHeaderSize = 5*4 1950f22ef01cSRoman Divacky }; 1951f22ef01cSRoman Divacky 1952dff0c46cSDimitry Andric static void WriteInt32ToBuffer(uint32_t Value, SmallVectorImpl<char> &Buffer, 1953dff0c46cSDimitry Andric uint32_t &Position) { 1954dff0c46cSDimitry Andric Buffer[Position + 0] = (unsigned char) (Value >> 0); 1955dff0c46cSDimitry Andric Buffer[Position + 1] = (unsigned char) (Value >> 8); 1956dff0c46cSDimitry Andric Buffer[Position + 2] = (unsigned char) (Value >> 16); 1957dff0c46cSDimitry Andric Buffer[Position + 3] = (unsigned char) (Value >> 24); 1958dff0c46cSDimitry Andric Position += 4; 1959dff0c46cSDimitry Andric } 1960dff0c46cSDimitry Andric 1961dff0c46cSDimitry Andric static void EmitDarwinBCHeaderAndTrailer(SmallVectorImpl<char> &Buffer, 1962dff0c46cSDimitry Andric const Triple &TT) { 1963f22ef01cSRoman Divacky unsigned CPUType = ~0U; 1964f22ef01cSRoman Divacky 1965f22ef01cSRoman Divacky // Match x86_64-*, i[3-9]86-*, powerpc-*, powerpc64-*, arm-*, thumb-*, 1966f22ef01cSRoman Divacky // armv[0-9]-*, thumbv[0-9]-*, armv5te-*, or armv6t2-*. The CPUType is a magic 1967f22ef01cSRoman Divacky // number from /usr/include/mach/machine.h. It is ok to reproduce the 1968f22ef01cSRoman Divacky // specific constants here because they are implicitly part of the Darwin ABI. 1969f22ef01cSRoman Divacky enum { 1970f22ef01cSRoman Divacky DARWIN_CPU_ARCH_ABI64 = 0x01000000, 1971f22ef01cSRoman Divacky DARWIN_CPU_TYPE_X86 = 7, 1972f22ef01cSRoman Divacky DARWIN_CPU_TYPE_ARM = 12, 1973f22ef01cSRoman Divacky DARWIN_CPU_TYPE_POWERPC = 18 1974f22ef01cSRoman Divacky }; 1975f22ef01cSRoman Divacky 197617a519f9SDimitry Andric Triple::ArchType Arch = TT.getArch(); 197717a519f9SDimitry Andric if (Arch == Triple::x86_64) 1978f22ef01cSRoman Divacky CPUType = DARWIN_CPU_TYPE_X86 | DARWIN_CPU_ARCH_ABI64; 197917a519f9SDimitry Andric else if (Arch == Triple::x86) 1980f22ef01cSRoman Divacky CPUType = DARWIN_CPU_TYPE_X86; 198117a519f9SDimitry Andric else if (Arch == Triple::ppc) 1982f22ef01cSRoman Divacky CPUType = DARWIN_CPU_TYPE_POWERPC; 198317a519f9SDimitry Andric else if (Arch == Triple::ppc64) 1984f22ef01cSRoman Divacky CPUType = DARWIN_CPU_TYPE_POWERPC | DARWIN_CPU_ARCH_ABI64; 198517a519f9SDimitry Andric else if (Arch == Triple::arm || Arch == Triple::thumb) 1986f22ef01cSRoman Divacky CPUType = DARWIN_CPU_TYPE_ARM; 1987f22ef01cSRoman Divacky 1988f22ef01cSRoman Divacky // Traditional Bitcode starts after header. 1989dff0c46cSDimitry Andric assert(Buffer.size() >= DarwinBCHeaderSize && 1990dff0c46cSDimitry Andric "Expected header size to be reserved"); 1991f22ef01cSRoman Divacky unsigned BCOffset = DarwinBCHeaderSize; 1992dff0c46cSDimitry Andric unsigned BCSize = Buffer.size()-DarwinBCHeaderSize; 1993f22ef01cSRoman Divacky 1994dff0c46cSDimitry Andric // Write the magic and version. 1995dff0c46cSDimitry Andric unsigned Position = 0; 1996dff0c46cSDimitry Andric WriteInt32ToBuffer(0x0B17C0DE , Buffer, Position); 1997dff0c46cSDimitry Andric WriteInt32ToBuffer(0 , Buffer, Position); // Version. 1998dff0c46cSDimitry Andric WriteInt32ToBuffer(BCOffset , Buffer, Position); 1999dff0c46cSDimitry Andric WriteInt32ToBuffer(BCSize , Buffer, Position); 2000dff0c46cSDimitry Andric WriteInt32ToBuffer(CPUType , Buffer, Position); 2001f22ef01cSRoman Divacky 2002f22ef01cSRoman Divacky // If the file is not a multiple of 16 bytes, insert dummy padding. 2003dff0c46cSDimitry Andric while (Buffer.size() & 15) 2004dff0c46cSDimitry Andric Buffer.push_back(0); 2005f22ef01cSRoman Divacky } 2006f22ef01cSRoman Divacky 2007f22ef01cSRoman Divacky /// WriteBitcodeToFile - Write the specified module to the specified output 2008f22ef01cSRoman Divacky /// stream. 2009f22ef01cSRoman Divacky void llvm::WriteBitcodeToFile(const Module *M, raw_ostream &Out) { 2010139f7f9bSDimitry Andric SmallVector<char, 0> Buffer; 2011f22ef01cSRoman Divacky Buffer.reserve(256*1024); 2012f22ef01cSRoman Divacky 2013dff0c46cSDimitry Andric // If this is darwin or another generic macho target, reserve space for the 2014dff0c46cSDimitry Andric // header. 201517a519f9SDimitry Andric Triple TT(M->getTargetTriple()); 201617a519f9SDimitry Andric if (TT.isOSDarwin()) 2017dff0c46cSDimitry Andric Buffer.insert(Buffer.begin(), DarwinBCHeaderSize, 0); 2018dff0c46cSDimitry Andric 2019dff0c46cSDimitry Andric // Emit the module into the buffer. 2020dff0c46cSDimitry Andric { 2021dff0c46cSDimitry Andric BitstreamWriter Stream(Buffer); 2022f22ef01cSRoman Divacky 2023f22ef01cSRoman Divacky // Emit the file header. 2024f22ef01cSRoman Divacky Stream.Emit((unsigned)'B', 8); 2025f22ef01cSRoman Divacky Stream.Emit((unsigned)'C', 8); 2026f22ef01cSRoman Divacky Stream.Emit(0x0, 4); 2027f22ef01cSRoman Divacky Stream.Emit(0xC, 4); 2028f22ef01cSRoman Divacky Stream.Emit(0xE, 4); 2029f22ef01cSRoman Divacky Stream.Emit(0xD, 4); 2030f22ef01cSRoman Divacky 2031f22ef01cSRoman Divacky // Emit the module. 2032f22ef01cSRoman Divacky WriteModule(M, Stream); 2033dff0c46cSDimitry Andric } 2034f22ef01cSRoman Divacky 203517a519f9SDimitry Andric if (TT.isOSDarwin()) 2036dff0c46cSDimitry Andric EmitDarwinBCHeaderAndTrailer(Buffer, TT); 2037dff0c46cSDimitry Andric 2038dff0c46cSDimitry Andric // Write the generated bitstream to "Out". 2039dff0c46cSDimitry Andric Out.write((char*)&Buffer.front(), Buffer.size()); 2040f22ef01cSRoman Divacky } 2041