Bitcode/Writer/BitcodeWriter.cpp

f22ef01cSRoman Divacky//===--- Bitcode/Writer/BitcodeWriter.cpp - Bitcode Writer ----------------===//
f22ef01cSRoman Divacky//
f22ef01cSRoman Divacky//                     The LLVM Compiler Infrastructure
f22ef01cSRoman Divacky//
f22ef01cSRoman Divacky// This file is distributed under the University of Illinois Open Source
f22ef01cSRoman Divacky// License. See LICENSE.TXT for details.
f22ef01cSRoman Divacky//
f22ef01cSRoman Divacky//===----------------------------------------------------------------------===//
f22ef01cSRoman Divacky//
f22ef01cSRoman Divacky// Bitcode writer implementation.
f22ef01cSRoman Divacky//
f22ef01cSRoman Divacky//===----------------------------------------------------------------------===//
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky#include "llvm/Bitcode/ReaderWriter.h"
139f7f9bSDimitry Andric#include "ValueEnumerator.h"
139f7f9bSDimitry Andric#include "llvm/ADT/Triple.h"
f22ef01cSRoman Divacky#include "llvm/Bitcode/BitstreamWriter.h"
f22ef01cSRoman Divacky#include "llvm/Bitcode/LLVMBitCodes.h"
139f7f9bSDimitry Andric#include "llvm/IR/Constants.h"
139f7f9bSDimitry Andric#include "llvm/IR/DerivedTypes.h"
139f7f9bSDimitry Andric#include "llvm/IR/InlineAsm.h"
139f7f9bSDimitry Andric#include "llvm/IR/Instructions.h"
139f7f9bSDimitry Andric#include "llvm/IR/Module.h"
139f7f9bSDimitry Andric#include "llvm/IR/Operator.h"
39d628a0SDimitry Andric#include "llvm/IR/UseListOrder.h"
139f7f9bSDimitry Andric#include "llvm/IR/ValueSymbolTable.h"
dff0c46cSDimitry Andric#include "llvm/Support/CommandLine.h"
f22ef01cSRoman Divacky#include "llvm/Support/ErrorHandling.h"
f22ef01cSRoman Divacky#include "llvm/Support/MathExtras.h"
2754fe60SDimitry Andric#include "llvm/Support/Program.h"
139f7f9bSDimitry Andric#include "llvm/Support/raw_ostream.h"
2754fe60SDimitry Andric#include <cctype>
17a519f9SDimitry Andric#include <map>
f22ef01cSRoman Divackyusing namespace llvm;
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky/// These are manifest constants used by the bitcode writer. They do not need to
f22ef01cSRoman Divacky/// be kept in sync with the reader, but need to be consistent within this file.
f22ef01cSRoman Divackyenum {
f22ef01cSRoman Divacky  // VALUE_SYMTAB_BLOCK abbrev id's.
f22ef01cSRoman Divacky  VST_ENTRY_8_ABBREV = bitc::FIRST_APPLICATION_ABBREV,
f22ef01cSRoman Divacky  VST_ENTRY_7_ABBREV,
f22ef01cSRoman Divacky  VST_ENTRY_6_ABBREV,
f22ef01cSRoman Divacky  VST_BBENTRY_6_ABBREV,
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  // CONSTANTS_BLOCK abbrev id's.
f22ef01cSRoman Divacky  CONSTANTS_SETTYPE_ABBREV = bitc::FIRST_APPLICATION_ABBREV,
f22ef01cSRoman Divacky  CONSTANTS_INTEGER_ABBREV,
f22ef01cSRoman Divacky  CONSTANTS_CE_CAST_Abbrev,
f22ef01cSRoman Divacky  CONSTANTS_NULL_Abbrev,
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  // FUNCTION_BLOCK abbrev id's.
f22ef01cSRoman Divacky  FUNCTION_INST_LOAD_ABBREV = bitc::FIRST_APPLICATION_ABBREV,
f22ef01cSRoman Divacky  FUNCTION_INST_BINOP_ABBREV,
f22ef01cSRoman Divacky  FUNCTION_INST_BINOP_FLAGS_ABBREV,
f22ef01cSRoman Divacky  FUNCTION_INST_CAST_ABBREV,
f22ef01cSRoman Divacky  FUNCTION_INST_RET_VOID_ABBREV,
f22ef01cSRoman Divacky  FUNCTION_INST_RET_VAL_ABBREV,
f785676fSDimitry Andric  FUNCTION_INST_UNREACHABLE_ABBREV
f22ef01cSRoman Divacky};
f22ef01cSRoman Divacky
f22ef01cSRoman Divackystatic unsigned GetEncodedCastOpcode(unsigned Opcode) {
f22ef01cSRoman Divacky  switch (Opcode) {
f22ef01cSRoman Divacky  default: llvm_unreachable("Unknown cast instruction!");
f22ef01cSRoman Divacky  case Instruction::Trunc   : return bitc::CAST_TRUNC;
f22ef01cSRoman Divacky  case Instruction::ZExt    : return bitc::CAST_ZEXT;
f22ef01cSRoman Divacky  case Instruction::SExt    : return bitc::CAST_SEXT;
f22ef01cSRoman Divacky  case Instruction::FPToUI  : return bitc::CAST_FPTOUI;
f22ef01cSRoman Divacky  case Instruction::FPToSI  : return bitc::CAST_FPTOSI;
f22ef01cSRoman Divacky  case Instruction::UIToFP  : return bitc::CAST_UITOFP;
f22ef01cSRoman Divacky  case Instruction::SIToFP  : return bitc::CAST_SITOFP;
f22ef01cSRoman Divacky  case Instruction::FPTrunc : return bitc::CAST_FPTRUNC;
f22ef01cSRoman Divacky  case Instruction::FPExt   : return bitc::CAST_FPEXT;
f22ef01cSRoman Divacky  case Instruction::PtrToInt: return bitc::CAST_PTRTOINT;
f22ef01cSRoman Divacky  case Instruction::IntToPtr: return bitc::CAST_INTTOPTR;
f22ef01cSRoman Divacky  case Instruction::BitCast : return bitc::CAST_BITCAST;
f785676fSDimitry Andric  case Instruction::AddrSpaceCast: return bitc::CAST_ADDRSPACECAST;
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky}
f22ef01cSRoman Divacky
f22ef01cSRoman Divackystatic unsigned GetEncodedBinaryOpcode(unsigned Opcode) {
f22ef01cSRoman Divacky  switch (Opcode) {
f22ef01cSRoman Divacky  default: llvm_unreachable("Unknown binary instruction!");
f22ef01cSRoman Divacky  case Instruction::Add:
f22ef01cSRoman Divacky  case Instruction::FAdd: return bitc::BINOP_ADD;
f22ef01cSRoman Divacky  case Instruction::Sub:
f22ef01cSRoman Divacky  case Instruction::FSub: return bitc::BINOP_SUB;
f22ef01cSRoman Divacky  case Instruction::Mul:
f22ef01cSRoman Divacky  case Instruction::FMul: return bitc::BINOP_MUL;
f22ef01cSRoman Divacky  case Instruction::UDiv: return bitc::BINOP_UDIV;
f22ef01cSRoman Divacky  case Instruction::FDiv:
f22ef01cSRoman Divacky  case Instruction::SDiv: return bitc::BINOP_SDIV;
f22ef01cSRoman Divacky  case Instruction::URem: return bitc::BINOP_UREM;
f22ef01cSRoman Divacky  case Instruction::FRem:
f22ef01cSRoman Divacky  case Instruction::SRem: return bitc::BINOP_SREM;
f22ef01cSRoman Divacky  case Instruction::Shl:  return bitc::BINOP_SHL;
f22ef01cSRoman Divacky  case Instruction::LShr: return bitc::BINOP_LSHR;
f22ef01cSRoman Divacky  case Instruction::AShr: return bitc::BINOP_ASHR;
f22ef01cSRoman Divacky  case Instruction::And:  return bitc::BINOP_AND;
f22ef01cSRoman Divacky  case Instruction::Or:   return bitc::BINOP_OR;
f22ef01cSRoman Divacky  case Instruction::Xor:  return bitc::BINOP_XOR;
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky}
f22ef01cSRoman Divacky
6122f3e6SDimitry Andricstatic unsigned GetEncodedRMWOperation(AtomicRMWInst::BinOp Op) {
6122f3e6SDimitry Andric  switch (Op) {
6122f3e6SDimitry Andric  default: llvm_unreachable("Unknown RMW operation!");
6122f3e6SDimitry Andric  case AtomicRMWInst::Xchg: return bitc::RMW_XCHG;
6122f3e6SDimitry Andric  case AtomicRMWInst::Add: return bitc::RMW_ADD;
6122f3e6SDimitry Andric  case AtomicRMWInst::Sub: return bitc::RMW_SUB;
6122f3e6SDimitry Andric  case AtomicRMWInst::And: return bitc::RMW_AND;
6122f3e6SDimitry Andric  case AtomicRMWInst::Nand: return bitc::RMW_NAND;
6122f3e6SDimitry Andric  case AtomicRMWInst::Or: return bitc::RMW_OR;
6122f3e6SDimitry Andric  case AtomicRMWInst::Xor: return bitc::RMW_XOR;
6122f3e6SDimitry Andric  case AtomicRMWInst::Max: return bitc::RMW_MAX;
6122f3e6SDimitry Andric  case AtomicRMWInst::Min: return bitc::RMW_MIN;
6122f3e6SDimitry Andric  case AtomicRMWInst::UMax: return bitc::RMW_UMAX;
6122f3e6SDimitry Andric  case AtomicRMWInst::UMin: return bitc::RMW_UMIN;
6122f3e6SDimitry Andric  }
6122f3e6SDimitry Andric}
6122f3e6SDimitry Andric
6122f3e6SDimitry Andricstatic unsigned GetEncodedOrdering(AtomicOrdering Ordering) {
6122f3e6SDimitry Andric  switch (Ordering) {
6122f3e6SDimitry Andric  case NotAtomic: return bitc::ORDERING_NOTATOMIC;
6122f3e6SDimitry Andric  case Unordered: return bitc::ORDERING_UNORDERED;
6122f3e6SDimitry Andric  case Monotonic: return bitc::ORDERING_MONOTONIC;
6122f3e6SDimitry Andric  case Acquire: return bitc::ORDERING_ACQUIRE;
6122f3e6SDimitry Andric  case Release: return bitc::ORDERING_RELEASE;
6122f3e6SDimitry Andric  case AcquireRelease: return bitc::ORDERING_ACQREL;
6122f3e6SDimitry Andric  case SequentiallyConsistent: return bitc::ORDERING_SEQCST;
6122f3e6SDimitry Andric  }
dff0c46cSDimitry Andric  llvm_unreachable("Invalid ordering");
6122f3e6SDimitry Andric}
6122f3e6SDimitry Andric
6122f3e6SDimitry Andricstatic unsigned GetEncodedSynchScope(SynchronizationScope SynchScope) {
6122f3e6SDimitry Andric  switch (SynchScope) {
6122f3e6SDimitry Andric  case SingleThread: return bitc::SYNCHSCOPE_SINGLETHREAD;
6122f3e6SDimitry Andric  case CrossThread: return bitc::SYNCHSCOPE_CROSSTHREAD;
6122f3e6SDimitry Andric  }
dff0c46cSDimitry Andric  llvm_unreachable("Invalid synch scope");
6122f3e6SDimitry Andric}
6122f3e6SDimitry Andric
17a519f9SDimitry Andricstatic void WriteStringRecord(unsigned Code, StringRef Str,
f22ef01cSRoman Divacky                              unsigned AbbrevToUse, BitstreamWriter &Stream) {
f22ef01cSRoman Divacky  SmallVector<unsigned, 64> Vals;
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  // Code: [strchar x N]
17a519f9SDimitry Andric  for (unsigned i = 0, e = Str.size(); i != e; ++i) {
17a519f9SDimitry Andric    if (AbbrevToUse && !BitCodeAbbrevOp::isChar6(Str[i]))
17a519f9SDimitry Andric      AbbrevToUse = 0;
f22ef01cSRoman Divacky    Vals.push_back(Str[i]);
17a519f9SDimitry Andric  }
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  // Emit the finished record.
f22ef01cSRoman Divacky  Stream.EmitRecord(Code, Vals, AbbrevToUse);
f22ef01cSRoman Divacky}
f22ef01cSRoman Divacky
f785676fSDimitry Andricstatic uint64_t getAttrKindEncoding(Attribute::AttrKind Kind) {
f785676fSDimitry Andric  switch (Kind) {
f785676fSDimitry Andric  case Attribute::Alignment:
f785676fSDimitry Andric    return bitc::ATTR_KIND_ALIGNMENT;
f785676fSDimitry Andric  case Attribute::AlwaysInline:
f785676fSDimitry Andric    return bitc::ATTR_KIND_ALWAYS_INLINE;
f785676fSDimitry Andric  case Attribute::Builtin:
f785676fSDimitry Andric    return bitc::ATTR_KIND_BUILTIN;
f785676fSDimitry Andric  case Attribute::ByVal:
f785676fSDimitry Andric    return bitc::ATTR_KIND_BY_VAL;
91bc56edSDimitry Andric  case Attribute::InAlloca:
91bc56edSDimitry Andric    return bitc::ATTR_KIND_IN_ALLOCA;
f785676fSDimitry Andric  case Attribute::Cold:
f785676fSDimitry Andric    return bitc::ATTR_KIND_COLD;
f785676fSDimitry Andric  case Attribute::InlineHint:
f785676fSDimitry Andric    return bitc::ATTR_KIND_INLINE_HINT;
f785676fSDimitry Andric  case Attribute::InReg:
f785676fSDimitry Andric    return bitc::ATTR_KIND_IN_REG;
91bc56edSDimitry Andric  case Attribute::JumpTable:
91bc56edSDimitry Andric    return bitc::ATTR_KIND_JUMP_TABLE;
f785676fSDimitry Andric  case Attribute::MinSize:
f785676fSDimitry Andric    return bitc::ATTR_KIND_MIN_SIZE;
f785676fSDimitry Andric  case Attribute::Naked:
f785676fSDimitry Andric    return bitc::ATTR_KIND_NAKED;
f785676fSDimitry Andric  case Attribute::Nest:
f785676fSDimitry Andric    return bitc::ATTR_KIND_NEST;
f785676fSDimitry Andric  case Attribute::NoAlias:
f785676fSDimitry Andric    return bitc::ATTR_KIND_NO_ALIAS;
f785676fSDimitry Andric  case Attribute::NoBuiltin:
f785676fSDimitry Andric    return bitc::ATTR_KIND_NO_BUILTIN;
f785676fSDimitry Andric  case Attribute::NoCapture:
f785676fSDimitry Andric    return bitc::ATTR_KIND_NO_CAPTURE;
f785676fSDimitry Andric  case Attribute::NoDuplicate:
f785676fSDimitry Andric    return bitc::ATTR_KIND_NO_DUPLICATE;
f785676fSDimitry Andric  case Attribute::NoImplicitFloat:
f785676fSDimitry Andric    return bitc::ATTR_KIND_NO_IMPLICIT_FLOAT;
f785676fSDimitry Andric  case Attribute::NoInline:
f785676fSDimitry Andric    return bitc::ATTR_KIND_NO_INLINE;
f785676fSDimitry Andric  case Attribute::NonLazyBind:
f785676fSDimitry Andric    return bitc::ATTR_KIND_NON_LAZY_BIND;
91bc56edSDimitry Andric  case Attribute::NonNull:
91bc56edSDimitry Andric    return bitc::ATTR_KIND_NON_NULL;
91bc56edSDimitry Andric  case Attribute::Dereferenceable:
91bc56edSDimitry Andric    return bitc::ATTR_KIND_DEREFERENCEABLE;
f785676fSDimitry Andric  case Attribute::NoRedZone:
f785676fSDimitry Andric    return bitc::ATTR_KIND_NO_RED_ZONE;
f785676fSDimitry Andric  case Attribute::NoReturn:
f785676fSDimitry Andric    return bitc::ATTR_KIND_NO_RETURN;
f785676fSDimitry Andric  case Attribute::NoUnwind:
f785676fSDimitry Andric    return bitc::ATTR_KIND_NO_UNWIND;
f785676fSDimitry Andric  case Attribute::OptimizeForSize:
f785676fSDimitry Andric    return bitc::ATTR_KIND_OPTIMIZE_FOR_SIZE;
f785676fSDimitry Andric  case Attribute::OptimizeNone:
f785676fSDimitry Andric    return bitc::ATTR_KIND_OPTIMIZE_NONE;
f785676fSDimitry Andric  case Attribute::ReadNone:
f785676fSDimitry Andric    return bitc::ATTR_KIND_READ_NONE;
f785676fSDimitry Andric  case Attribute::ReadOnly:
f785676fSDimitry Andric    return bitc::ATTR_KIND_READ_ONLY;
f785676fSDimitry Andric  case Attribute::Returned:
f785676fSDimitry Andric    return bitc::ATTR_KIND_RETURNED;
f785676fSDimitry Andric  case Attribute::ReturnsTwice:
f785676fSDimitry Andric    return bitc::ATTR_KIND_RETURNS_TWICE;
f785676fSDimitry Andric  case Attribute::SExt:
f785676fSDimitry Andric    return bitc::ATTR_KIND_S_EXT;
f785676fSDimitry Andric  case Attribute::StackAlignment:
f785676fSDimitry Andric    return bitc::ATTR_KIND_STACK_ALIGNMENT;
f785676fSDimitry Andric  case Attribute::StackProtect:
f785676fSDimitry Andric    return bitc::ATTR_KIND_STACK_PROTECT;
f785676fSDimitry Andric  case Attribute::StackProtectReq:
f785676fSDimitry Andric    return bitc::ATTR_KIND_STACK_PROTECT_REQ;
f785676fSDimitry Andric  case Attribute::StackProtectStrong:
f785676fSDimitry Andric    return bitc::ATTR_KIND_STACK_PROTECT_STRONG;
f785676fSDimitry Andric  case Attribute::StructRet:
f785676fSDimitry Andric    return bitc::ATTR_KIND_STRUCT_RET;
f785676fSDimitry Andric  case Attribute::SanitizeAddress:
f785676fSDimitry Andric    return bitc::ATTR_KIND_SANITIZE_ADDRESS;
f785676fSDimitry Andric  case Attribute::SanitizeThread:
f785676fSDimitry Andric    return bitc::ATTR_KIND_SANITIZE_THREAD;
f785676fSDimitry Andric  case Attribute::SanitizeMemory:
f785676fSDimitry Andric    return bitc::ATTR_KIND_SANITIZE_MEMORY;
f785676fSDimitry Andric  case Attribute::UWTable:
f785676fSDimitry Andric    return bitc::ATTR_KIND_UW_TABLE;
f785676fSDimitry Andric  case Attribute::ZExt:
f785676fSDimitry Andric    return bitc::ATTR_KIND_Z_EXT;
f785676fSDimitry Andric  case Attribute::EndAttrKinds:
f785676fSDimitry Andric    llvm_unreachable("Can not encode end-attribute kinds marker.");
f785676fSDimitry Andric  case Attribute::None:
f785676fSDimitry Andric    llvm_unreachable("Can not encode none-attribute.");
f785676fSDimitry Andric  }
f785676fSDimitry Andric
f785676fSDimitry Andric  llvm_unreachable("Trying to encode unknown attribute");
f785676fSDimitry Andric}
f785676fSDimitry Andric
139f7f9bSDimitry Andricstatic void WriteAttributeGroupTable(const ValueEnumerator &VE,
139f7f9bSDimitry Andric                                     BitstreamWriter &Stream) {
139f7f9bSDimitry Andric  const std::vector<AttributeSet> &AttrGrps = VE.getAttributeGroups();
139f7f9bSDimitry Andric  if (AttrGrps.empty()) return;
139f7f9bSDimitry Andric
139f7f9bSDimitry Andric  Stream.EnterSubblock(bitc::PARAMATTR_GROUP_BLOCK_ID, 3);
139f7f9bSDimitry Andric
139f7f9bSDimitry Andric  SmallVector<uint64_t, 64> Record;
139f7f9bSDimitry Andric  for (unsigned i = 0, e = AttrGrps.size(); i != e; ++i) {
139f7f9bSDimitry Andric    AttributeSet AS = AttrGrps[i];
139f7f9bSDimitry Andric    for (unsigned i = 0, e = AS.getNumSlots(); i != e; ++i) {
139f7f9bSDimitry Andric      AttributeSet A = AS.getSlotAttributes(i);
139f7f9bSDimitry Andric
139f7f9bSDimitry Andric      Record.push_back(VE.getAttributeGroupID(A));
139f7f9bSDimitry Andric      Record.push_back(AS.getSlotIndex(i));
139f7f9bSDimitry Andric
139f7f9bSDimitry Andric      for (AttributeSet::iterator I = AS.begin(0), E = AS.end(0);
139f7f9bSDimitry Andric           I != E; ++I) {
139f7f9bSDimitry Andric        Attribute Attr = *I;
139f7f9bSDimitry Andric        if (Attr.isEnumAttribute()) {
139f7f9bSDimitry Andric          Record.push_back(0);
f785676fSDimitry Andric          Record.push_back(getAttrKindEncoding(Attr.getKindAsEnum()));
91bc56edSDimitry Andric        } else if (Attr.isIntAttribute()) {
139f7f9bSDimitry Andric          Record.push_back(1);
f785676fSDimitry Andric          Record.push_back(getAttrKindEncoding(Attr.getKindAsEnum()));
139f7f9bSDimitry Andric          Record.push_back(Attr.getValueAsInt());
139f7f9bSDimitry Andric        } else {
139f7f9bSDimitry Andric          StringRef Kind = Attr.getKindAsString();
139f7f9bSDimitry Andric          StringRef Val = Attr.getValueAsString();
139f7f9bSDimitry Andric
139f7f9bSDimitry Andric          Record.push_back(Val.empty() ? 3 : 4);
139f7f9bSDimitry Andric          Record.append(Kind.begin(), Kind.end());
139f7f9bSDimitry Andric          Record.push_back(0);
139f7f9bSDimitry Andric          if (!Val.empty()) {
139f7f9bSDimitry Andric            Record.append(Val.begin(), Val.end());
139f7f9bSDimitry Andric            Record.push_back(0);
139f7f9bSDimitry Andric          }
139f7f9bSDimitry Andric        }
139f7f9bSDimitry Andric      }
139f7f9bSDimitry Andric
139f7f9bSDimitry Andric      Stream.EmitRecord(bitc::PARAMATTR_GRP_CODE_ENTRY, Record);
139f7f9bSDimitry Andric      Record.clear();
139f7f9bSDimitry Andric    }
139f7f9bSDimitry Andric  }
139f7f9bSDimitry Andric
139f7f9bSDimitry Andric  Stream.ExitBlock();
139f7f9bSDimitry Andric}
139f7f9bSDimitry Andric
f22ef01cSRoman Divackystatic void WriteAttributeTable(const ValueEnumerator &VE,
f22ef01cSRoman Divacky                                BitstreamWriter &Stream) {
139f7f9bSDimitry Andric  const std::vector<AttributeSet> &Attrs = VE.getAttributes();
f22ef01cSRoman Divacky  if (Attrs.empty()) return;
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  Stream.EnterSubblock(bitc::PARAMATTR_BLOCK_ID, 3);
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  SmallVector<uint64_t, 64> Record;
f22ef01cSRoman Divacky  for (unsigned i = 0, e = Attrs.size(); i != e; ++i) {
139f7f9bSDimitry Andric    const AttributeSet &A = Attrs[i];
139f7f9bSDimitry Andric    for (unsigned i = 0, e = A.getNumSlots(); i != e; ++i)
139f7f9bSDimitry Andric      Record.push_back(VE.getAttributeGroupID(A.getSlotAttributes(i)));
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky    Stream.EmitRecord(bitc::PARAMATTR_CODE_ENTRY, Record);
f22ef01cSRoman Divacky    Record.clear();
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  Stream.ExitBlock();
f22ef01cSRoman Divacky}
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky/// WriteTypeTable - Write out the type table for a module.
f22ef01cSRoman Divackystatic void WriteTypeTable(const ValueEnumerator &VE, BitstreamWriter &Stream) {
f22ef01cSRoman Divacky  const ValueEnumerator::TypeList &TypeList = VE.getTypes();
f22ef01cSRoman Divacky
17a519f9SDimitry Andric  Stream.EnterSubblock(bitc::TYPE_BLOCK_ID_NEW, 4 /*count from # abbrevs */);
f22ef01cSRoman Divacky  SmallVector<uint64_t, 64> TypeVals;
f22ef01cSRoman Divacky
dff0c46cSDimitry Andric  uint64_t NumBits = Log2_32_Ceil(VE.getTypes().size()+1);
dff0c46cSDimitry Andric
f22ef01cSRoman Divacky  // Abbrev for TYPE_CODE_POINTER.
f22ef01cSRoman Divacky  BitCodeAbbrev *Abbv = new BitCodeAbbrev();
f22ef01cSRoman Divacky  Abbv->Add(BitCodeAbbrevOp(bitc::TYPE_CODE_POINTER));
dff0c46cSDimitry Andric  Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, NumBits));
f22ef01cSRoman Divacky  Abbv->Add(BitCodeAbbrevOp(0));  // Addrspace = 0
f22ef01cSRoman Divacky  unsigned PtrAbbrev = Stream.EmitAbbrev(Abbv);
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  // Abbrev for TYPE_CODE_FUNCTION.
f22ef01cSRoman Divacky  Abbv = new BitCodeAbbrev();
f22ef01cSRoman Divacky  Abbv->Add(BitCodeAbbrevOp(bitc::TYPE_CODE_FUNCTION));
f22ef01cSRoman Divacky  Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 1));  // isvararg
f22ef01cSRoman Divacky  Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Array));
dff0c46cSDimitry Andric  Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, NumBits));
dff0c46cSDimitry Andric
f22ef01cSRoman Divacky  unsigned FunctionAbbrev = Stream.EmitAbbrev(Abbv);
f22ef01cSRoman Divacky
17a519f9SDimitry Andric  // Abbrev for TYPE_CODE_STRUCT_ANON.
f22ef01cSRoman Divacky  Abbv = new BitCodeAbbrev();
17a519f9SDimitry Andric  Abbv->Add(BitCodeAbbrevOp(bitc::TYPE_CODE_STRUCT_ANON));
f22ef01cSRoman Divacky  Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 1));  // ispacked
f22ef01cSRoman Divacky  Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Array));
dff0c46cSDimitry Andric  Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, NumBits));
dff0c46cSDimitry Andric
17a519f9SDimitry Andric  unsigned StructAnonAbbrev = Stream.EmitAbbrev(Abbv);
17a519f9SDimitry Andric
17a519f9SDimitry Andric  // Abbrev for TYPE_CODE_STRUCT_NAME.
17a519f9SDimitry Andric  Abbv = new BitCodeAbbrev();
17a519f9SDimitry Andric  Abbv->Add(BitCodeAbbrevOp(bitc::TYPE_CODE_STRUCT_NAME));
17a519f9SDimitry Andric  Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Array));
17a519f9SDimitry Andric  Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Char6));
17a519f9SDimitry Andric  unsigned StructNameAbbrev = Stream.EmitAbbrev(Abbv);
17a519f9SDimitry Andric
17a519f9SDimitry Andric  // Abbrev for TYPE_CODE_STRUCT_NAMED.
17a519f9SDimitry Andric  Abbv = new BitCodeAbbrev();
17a519f9SDimitry Andric  Abbv->Add(BitCodeAbbrevOp(bitc::TYPE_CODE_STRUCT_NAMED));
17a519f9SDimitry Andric  Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 1));  // ispacked
17a519f9SDimitry Andric  Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Array));
dff0c46cSDimitry Andric  Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, NumBits));
dff0c46cSDimitry Andric
17a519f9SDimitry Andric  unsigned StructNamedAbbrev = Stream.EmitAbbrev(Abbv);
17a519f9SDimitry Andric
f22ef01cSRoman Divacky  // Abbrev for TYPE_CODE_ARRAY.
f22ef01cSRoman Divacky  Abbv = new BitCodeAbbrev();
f22ef01cSRoman Divacky  Abbv->Add(BitCodeAbbrevOp(bitc::TYPE_CODE_ARRAY));
f22ef01cSRoman Divacky  Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 8));   // size
dff0c46cSDimitry Andric  Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, NumBits));
dff0c46cSDimitry Andric
f22ef01cSRoman Divacky  unsigned ArrayAbbrev = Stream.EmitAbbrev(Abbv);
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  // Emit an entry count so the reader can reserve space.
f22ef01cSRoman Divacky  TypeVals.push_back(TypeList.size());
f22ef01cSRoman Divacky  Stream.EmitRecord(bitc::TYPE_CODE_NUMENTRY, TypeVals);
f22ef01cSRoman Divacky  TypeVals.clear();
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  // Loop over all of the types, emitting each in turn.
f22ef01cSRoman Divacky  for (unsigned i = 0, e = TypeList.size(); i != e; ++i) {
6122f3e6SDimitry Andric    Type *T = TypeList[i];
f22ef01cSRoman Divacky    int AbbrevToUse = 0;
f22ef01cSRoman Divacky    unsigned Code = 0;
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky    switch (T->getTypeID()) {
f22ef01cSRoman Divacky    case Type::VoidTyID:      Code = bitc::TYPE_CODE_VOID;      break;
dff0c46cSDimitry Andric    case Type::HalfTyID:      Code = bitc::TYPE_CODE_HALF;      break;
f22ef01cSRoman Divacky    case Type::FloatTyID:     Code = bitc::TYPE_CODE_FLOAT;     break;
f22ef01cSRoman Divacky    case Type::DoubleTyID:    Code = bitc::TYPE_CODE_DOUBLE;    break;
f22ef01cSRoman Divacky    case Type::X86_FP80TyID:  Code = bitc::TYPE_CODE_X86_FP80;  break;
f22ef01cSRoman Divacky    case Type::FP128TyID:     Code = bitc::TYPE_CODE_FP128;     break;
f22ef01cSRoman Divacky    case Type::PPC_FP128TyID: Code = bitc::TYPE_CODE_PPC_FP128; break;
f22ef01cSRoman Divacky    case Type::LabelTyID:     Code = bitc::TYPE_CODE_LABEL;     break;
f22ef01cSRoman Divacky    case Type::MetadataTyID:  Code = bitc::TYPE_CODE_METADATA;  break;
2754fe60SDimitry Andric    case Type::X86_MMXTyID:   Code = bitc::TYPE_CODE_X86_MMX;   break;
f22ef01cSRoman Divacky    case Type::IntegerTyID:
f22ef01cSRoman Divacky      // INTEGER: [width]
f22ef01cSRoman Divacky      Code = bitc::TYPE_CODE_INTEGER;
f22ef01cSRoman Divacky      TypeVals.push_back(cast<IntegerType>(T)->getBitWidth());
f22ef01cSRoman Divacky      break;
f22ef01cSRoman Divacky    case Type::PointerTyID: {
6122f3e6SDimitry Andric      PointerType *PTy = cast<PointerType>(T);
f22ef01cSRoman Divacky      // POINTER: [pointee type, address space]
f22ef01cSRoman Divacky      Code = bitc::TYPE_CODE_POINTER;
f22ef01cSRoman Divacky      TypeVals.push_back(VE.getTypeID(PTy->getElementType()));
f22ef01cSRoman Divacky      unsigned AddressSpace = PTy->getAddressSpace();
f22ef01cSRoman Divacky      TypeVals.push_back(AddressSpace);
f22ef01cSRoman Divacky      if (AddressSpace == 0) AbbrevToUse = PtrAbbrev;
f22ef01cSRoman Divacky      break;
f22ef01cSRoman Divacky    }
f22ef01cSRoman Divacky    case Type::FunctionTyID: {
6122f3e6SDimitry Andric      FunctionType *FT = cast<FunctionType>(T);
dff0c46cSDimitry Andric      // FUNCTION: [isvararg, retty, paramty x N]
f22ef01cSRoman Divacky      Code = bitc::TYPE_CODE_FUNCTION;
f22ef01cSRoman Divacky      TypeVals.push_back(FT->isVarArg());
f22ef01cSRoman Divacky      TypeVals.push_back(VE.getTypeID(FT->getReturnType()));
f22ef01cSRoman Divacky      for (unsigned i = 0, e = FT->getNumParams(); i != e; ++i)
f22ef01cSRoman Divacky        TypeVals.push_back(VE.getTypeID(FT->getParamType(i)));
f22ef01cSRoman Divacky      AbbrevToUse = FunctionAbbrev;
f22ef01cSRoman Divacky      break;
f22ef01cSRoman Divacky    }
f22ef01cSRoman Divacky    case Type::StructTyID: {
6122f3e6SDimitry Andric      StructType *ST = cast<StructType>(T);
f22ef01cSRoman Divacky      // STRUCT: [ispacked, eltty x N]
f22ef01cSRoman Divacky      TypeVals.push_back(ST->isPacked());
f22ef01cSRoman Divacky      // Output all of the element types.
f22ef01cSRoman Divacky      for (StructType::element_iterator I = ST->element_begin(),
f22ef01cSRoman Divacky           E = ST->element_end(); I != E; ++I)
f22ef01cSRoman Divacky        TypeVals.push_back(VE.getTypeID(*I));
17a519f9SDimitry Andric
6122f3e6SDimitry Andric      if (ST->isLiteral()) {
17a519f9SDimitry Andric        Code = bitc::TYPE_CODE_STRUCT_ANON;
17a519f9SDimitry Andric        AbbrevToUse = StructAnonAbbrev;
17a519f9SDimitry Andric      } else {
17a519f9SDimitry Andric        if (ST->isOpaque()) {
17a519f9SDimitry Andric          Code = bitc::TYPE_CODE_OPAQUE;
17a519f9SDimitry Andric        } else {
17a519f9SDimitry Andric          Code = bitc::TYPE_CODE_STRUCT_NAMED;
17a519f9SDimitry Andric          AbbrevToUse = StructNamedAbbrev;
17a519f9SDimitry Andric        }
17a519f9SDimitry Andric
17a519f9SDimitry Andric        // Emit the name if it is present.
17a519f9SDimitry Andric        if (!ST->getName().empty())
17a519f9SDimitry Andric          WriteStringRecord(bitc::TYPE_CODE_STRUCT_NAME, ST->getName(),
17a519f9SDimitry Andric                            StructNameAbbrev, Stream);
17a519f9SDimitry Andric      }
f22ef01cSRoman Divacky      break;
f22ef01cSRoman Divacky    }
f22ef01cSRoman Divacky    case Type::ArrayTyID: {
6122f3e6SDimitry Andric      ArrayType *AT = cast<ArrayType>(T);
f22ef01cSRoman Divacky      // ARRAY: [numelts, eltty]
f22ef01cSRoman Divacky      Code = bitc::TYPE_CODE_ARRAY;
f22ef01cSRoman Divacky      TypeVals.push_back(AT->getNumElements());
f22ef01cSRoman Divacky      TypeVals.push_back(VE.getTypeID(AT->getElementType()));
f22ef01cSRoman Divacky      AbbrevToUse = ArrayAbbrev;
f22ef01cSRoman Divacky      break;
f22ef01cSRoman Divacky    }
f22ef01cSRoman Divacky    case Type::VectorTyID: {
6122f3e6SDimitry Andric      VectorType *VT = cast<VectorType>(T);
f22ef01cSRoman Divacky      // VECTOR [numelts, eltty]
f22ef01cSRoman Divacky      Code = bitc::TYPE_CODE_VECTOR;
f22ef01cSRoman Divacky      TypeVals.push_back(VT->getNumElements());
f22ef01cSRoman Divacky      TypeVals.push_back(VE.getTypeID(VT->getElementType()));
f22ef01cSRoman Divacky      break;
f22ef01cSRoman Divacky    }
f22ef01cSRoman Divacky    }
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky    // Emit the finished record.
f22ef01cSRoman Divacky    Stream.EmitRecord(Code, TypeVals, AbbrevToUse);
f22ef01cSRoman Divacky    TypeVals.clear();
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  Stream.ExitBlock();
f22ef01cSRoman Divacky}
f22ef01cSRoman Divacky
91bc56edSDimitry Andricstatic unsigned getEncodedLinkage(const GlobalValue &GV) {
91bc56edSDimitry Andric  switch (GV.getLinkage()) {
39d628a0SDimitry Andric  case GlobalValue::ExternalLinkage:
39d628a0SDimitry Andric    return 0;
39d628a0SDimitry Andric  case GlobalValue::WeakAnyLinkage:
39d628a0SDimitry Andric    return 1;
39d628a0SDimitry Andric  case GlobalValue::AppendingLinkage:
39d628a0SDimitry Andric    return 2;
39d628a0SDimitry Andric  case GlobalValue::InternalLinkage:
39d628a0SDimitry Andric    return 3;
39d628a0SDimitry Andric  case GlobalValue::LinkOnceAnyLinkage:
39d628a0SDimitry Andric    return 4;
39d628a0SDimitry Andric  case GlobalValue::ExternalWeakLinkage:
39d628a0SDimitry Andric    return 7;
39d628a0SDimitry Andric  case GlobalValue::CommonLinkage:
39d628a0SDimitry Andric    return 8;
39d628a0SDimitry Andric  case GlobalValue::PrivateLinkage:
39d628a0SDimitry Andric    return 9;
39d628a0SDimitry Andric  case GlobalValue::WeakODRLinkage:
39d628a0SDimitry Andric    return 10;
39d628a0SDimitry Andric  case GlobalValue::LinkOnceODRLinkage:
39d628a0SDimitry Andric    return 11;
39d628a0SDimitry Andric  case GlobalValue::AvailableExternallyLinkage:
39d628a0SDimitry Andric    return 12;
f22ef01cSRoman Divacky  }
dff0c46cSDimitry Andric  llvm_unreachable("Invalid linkage");
f22ef01cSRoman Divacky}
f22ef01cSRoman Divacky
91bc56edSDimitry Andricstatic unsigned getEncodedVisibility(const GlobalValue &GV) {
91bc56edSDimitry Andric  switch (GV.getVisibility()) {
f22ef01cSRoman Divacky  case GlobalValue::DefaultVisibility:   return 0;
f22ef01cSRoman Divacky  case GlobalValue::HiddenVisibility:    return 1;
f22ef01cSRoman Divacky  case GlobalValue::ProtectedVisibility: return 2;
f22ef01cSRoman Divacky  }
dff0c46cSDimitry Andric  llvm_unreachable("Invalid visibility");
f22ef01cSRoman Divacky}
f22ef01cSRoman Divacky
91bc56edSDimitry Andricstatic unsigned getEncodedDLLStorageClass(const GlobalValue &GV) {
91bc56edSDimitry Andric  switch (GV.getDLLStorageClass()) {
91bc56edSDimitry Andric  case GlobalValue::DefaultStorageClass:   return 0;
91bc56edSDimitry Andric  case GlobalValue::DLLImportStorageClass: return 1;
91bc56edSDimitry Andric  case GlobalValue::DLLExportStorageClass: return 2;
91bc56edSDimitry Andric  }
91bc56edSDimitry Andric  llvm_unreachable("Invalid DLL storage class");
91bc56edSDimitry Andric}
91bc56edSDimitry Andric
91bc56edSDimitry Andricstatic unsigned getEncodedThreadLocalMode(const GlobalValue &GV) {
91bc56edSDimitry Andric  switch (GV.getThreadLocalMode()) {
7ae0e2c9SDimitry Andric    case GlobalVariable::NotThreadLocal:         return 0;
7ae0e2c9SDimitry Andric    case GlobalVariable::GeneralDynamicTLSModel: return 1;
7ae0e2c9SDimitry Andric    case GlobalVariable::LocalDynamicTLSModel:   return 2;
7ae0e2c9SDimitry Andric    case GlobalVariable::InitialExecTLSModel:    return 3;
7ae0e2c9SDimitry Andric    case GlobalVariable::LocalExecTLSModel:      return 4;
7ae0e2c9SDimitry Andric  }
7ae0e2c9SDimitry Andric  llvm_unreachable("Invalid TLS model");
7ae0e2c9SDimitry Andric}
7ae0e2c9SDimitry Andric
91bc56edSDimitry Andricstatic unsigned getEncodedComdatSelectionKind(const Comdat &C) {
91bc56edSDimitry Andric  switch (C.getSelectionKind()) {
91bc56edSDimitry Andric  case Comdat::Any:
91bc56edSDimitry Andric    return bitc::COMDAT_SELECTION_KIND_ANY;
91bc56edSDimitry Andric  case Comdat::ExactMatch:
91bc56edSDimitry Andric    return bitc::COMDAT_SELECTION_KIND_EXACT_MATCH;
91bc56edSDimitry Andric  case Comdat::Largest:
91bc56edSDimitry Andric    return bitc::COMDAT_SELECTION_KIND_LARGEST;
91bc56edSDimitry Andric  case Comdat::NoDuplicates:
91bc56edSDimitry Andric    return bitc::COMDAT_SELECTION_KIND_NO_DUPLICATES;
91bc56edSDimitry Andric  case Comdat::SameSize:
91bc56edSDimitry Andric    return bitc::COMDAT_SELECTION_KIND_SAME_SIZE;
91bc56edSDimitry Andric  }
91bc56edSDimitry Andric  llvm_unreachable("Invalid selection kind");
91bc56edSDimitry Andric}
91bc56edSDimitry Andric
91bc56edSDimitry Andricstatic void writeComdats(const ValueEnumerator &VE, BitstreamWriter &Stream) {
91bc56edSDimitry Andric  SmallVector<uint8_t, 64> Vals;
91bc56edSDimitry Andric  for (const Comdat *C : VE.getComdats()) {
91bc56edSDimitry Andric    // COMDAT: [selection_kind, name]
91bc56edSDimitry Andric    Vals.push_back(getEncodedComdatSelectionKind(*C));
91bc56edSDimitry Andric    Vals.push_back(C->getName().size());
91bc56edSDimitry Andric    for (char Chr : C->getName())
91bc56edSDimitry Andric      Vals.push_back((unsigned char)Chr);
91bc56edSDimitry Andric    Stream.EmitRecord(bitc::MODULE_CODE_COMDAT, Vals, /*AbbrevToUse=*/0);
91bc56edSDimitry Andric    Vals.clear();
91bc56edSDimitry Andric  }
91bc56edSDimitry Andric}
91bc56edSDimitry Andric
f22ef01cSRoman Divacky// Emit top-level description of module, including target triple, inline asm,
f22ef01cSRoman Divacky// descriptors for global variables, and function prototype info.
f22ef01cSRoman Divackystatic void WriteModuleInfo(const Module *M, const ValueEnumerator &VE,
f22ef01cSRoman Divacky                            BitstreamWriter &Stream) {
f22ef01cSRoman Divacky  // Emit various pieces of data attached to a module.
f22ef01cSRoman Divacky  if (!M->getTargetTriple().empty())
f22ef01cSRoman Divacky    WriteStringRecord(bitc::MODULE_CODE_TRIPLE, M->getTargetTriple(),
f22ef01cSRoman Divacky                      0/*TODO*/, Stream);
91bc56edSDimitry Andric  const std::string &DL = M->getDataLayoutStr();
91bc56edSDimitry Andric  if (!DL.empty())
91bc56edSDimitry Andric    WriteStringRecord(bitc::MODULE_CODE_DATALAYOUT, DL, 0 /*TODO*/, Stream);
f22ef01cSRoman Divacky  if (!M->getModuleInlineAsm().empty())
f22ef01cSRoman Divacky    WriteStringRecord(bitc::MODULE_CODE_ASM, M->getModuleInlineAsm(),
f22ef01cSRoman Divacky                      0/*TODO*/, Stream);
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  // Emit information about sections and GC, computing how many there are. Also
f22ef01cSRoman Divacky  // compute the maximum alignment value.
f22ef01cSRoman Divacky  std::map<std::string, unsigned> SectionMap;
f22ef01cSRoman Divacky  std::map<std::string, unsigned> GCMap;
f22ef01cSRoman Divacky  unsigned MaxAlignment = 0;
f22ef01cSRoman Divacky  unsigned MaxGlobalType = 0;
91bc56edSDimitry Andric  for (const GlobalValue &GV : M->globals()) {
91bc56edSDimitry Andric    MaxAlignment = std::max(MaxAlignment, GV.getAlignment());
91bc56edSDimitry Andric    MaxGlobalType = std::max(MaxGlobalType, VE.getTypeID(GV.getType()));
91bc56edSDimitry Andric    if (GV.hasSection()) {
f22ef01cSRoman Divacky      // Give section names unique ID's.
91bc56edSDimitry Andric      unsigned &Entry = SectionMap[GV.getSection()];
6122f3e6SDimitry Andric      if (!Entry) {
91bc56edSDimitry Andric        WriteStringRecord(bitc::MODULE_CODE_SECTIONNAME, GV.getSection(),
f22ef01cSRoman Divacky                          0/*TODO*/, Stream);
f22ef01cSRoman Divacky        Entry = SectionMap.size();
f22ef01cSRoman Divacky      }
6122f3e6SDimitry Andric    }
6122f3e6SDimitry Andric  }
91bc56edSDimitry Andric  for (const Function &F : *M) {
91bc56edSDimitry Andric    MaxAlignment = std::max(MaxAlignment, F.getAlignment());
91bc56edSDimitry Andric    if (F.hasSection()) {
f22ef01cSRoman Divacky      // Give section names unique ID's.
91bc56edSDimitry Andric      unsigned &Entry = SectionMap[F.getSection()];
f22ef01cSRoman Divacky      if (!Entry) {
91bc56edSDimitry Andric        WriteStringRecord(bitc::MODULE_CODE_SECTIONNAME, F.getSection(),
f22ef01cSRoman Divacky                          0/*TODO*/, Stream);
f22ef01cSRoman Divacky        Entry = SectionMap.size();
f22ef01cSRoman Divacky      }
f22ef01cSRoman Divacky    }
91bc56edSDimitry Andric    if (F.hasGC()) {
f22ef01cSRoman Divacky      // Same for GC names.
91bc56edSDimitry Andric      unsigned &Entry = GCMap[F.getGC()];
f22ef01cSRoman Divacky      if (!Entry) {
91bc56edSDimitry Andric        WriteStringRecord(bitc::MODULE_CODE_GCNAME, F.getGC(),
f22ef01cSRoman Divacky                          0/*TODO*/, Stream);
f22ef01cSRoman Divacky        Entry = GCMap.size();
f22ef01cSRoman Divacky      }
f22ef01cSRoman Divacky    }
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  // Emit abbrev for globals, now that we know # sections and max alignment.
f22ef01cSRoman Divacky  unsigned SimpleGVarAbbrev = 0;
f22ef01cSRoman Divacky  if (!M->global_empty()) {
f22ef01cSRoman Divacky    // Add an abbrev for common globals with no visibility or thread localness.
f22ef01cSRoman Divacky    BitCodeAbbrev *Abbv = new BitCodeAbbrev();
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(bitc::MODULE_CODE_GLOBALVAR));
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed,
f22ef01cSRoman Divacky                              Log2_32_Ceil(MaxGlobalType+1)));
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 1));      // Constant.
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 6));        // Initializer.
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 4));      // Linkage.
f22ef01cSRoman Divacky    if (MaxAlignment == 0)                                      // Alignment.
f22ef01cSRoman Divacky      Abbv->Add(BitCodeAbbrevOp(0));
f22ef01cSRoman Divacky    else {
f22ef01cSRoman Divacky      unsigned MaxEncAlignment = Log2_32(MaxAlignment)+1;
f22ef01cSRoman Divacky      Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed,
f22ef01cSRoman Divacky                               Log2_32_Ceil(MaxEncAlignment+1)));
f22ef01cSRoman Divacky    }
f22ef01cSRoman Divacky    if (SectionMap.empty())                                    // Section.
f22ef01cSRoman Divacky      Abbv->Add(BitCodeAbbrevOp(0));
f22ef01cSRoman Divacky    else
f22ef01cSRoman Divacky      Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed,
f22ef01cSRoman Divacky                               Log2_32_Ceil(SectionMap.size()+1)));
f22ef01cSRoman Divacky    // Don't bother emitting vis + thread local.
f22ef01cSRoman Divacky    SimpleGVarAbbrev = Stream.EmitAbbrev(Abbv);
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  // Emit the global variable information.
f22ef01cSRoman Divacky  SmallVector<unsigned, 64> Vals;
91bc56edSDimitry Andric  for (const GlobalVariable &GV : M->globals()) {
f22ef01cSRoman Divacky    unsigned AbbrevToUse = 0;
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky    // GLOBALVAR: [type, isconst, initid,
2754fe60SDimitry Andric    //             linkage, alignment, section, visibility, threadlocal,
91bc56edSDimitry Andric    //             unnamed_addr, externally_initialized, dllstorageclass]
91bc56edSDimitry Andric    Vals.push_back(VE.getTypeID(GV.getType()));
91bc56edSDimitry Andric    Vals.push_back(GV.isConstant());
91bc56edSDimitry Andric    Vals.push_back(GV.isDeclaration() ? 0 :
91bc56edSDimitry Andric                   (VE.getValueID(GV.getInitializer()) + 1));
f22ef01cSRoman Divacky    Vals.push_back(getEncodedLinkage(GV));
91bc56edSDimitry Andric    Vals.push_back(Log2_32(GV.getAlignment())+1);
91bc56edSDimitry Andric    Vals.push_back(GV.hasSection() ? SectionMap[GV.getSection()] : 0);
91bc56edSDimitry Andric    if (GV.isThreadLocal() ||
91bc56edSDimitry Andric        GV.getVisibility() != GlobalValue::DefaultVisibility ||
91bc56edSDimitry Andric        GV.hasUnnamedAddr() || GV.isExternallyInitialized() ||
91bc56edSDimitry Andric        GV.getDLLStorageClass() != GlobalValue::DefaultStorageClass ||
91bc56edSDimitry Andric        GV.hasComdat()) {
f22ef01cSRoman Divacky      Vals.push_back(getEncodedVisibility(GV));
7ae0e2c9SDimitry Andric      Vals.push_back(getEncodedThreadLocalMode(GV));
91bc56edSDimitry Andric      Vals.push_back(GV.hasUnnamedAddr());
91bc56edSDimitry Andric      Vals.push_back(GV.isExternallyInitialized());
91bc56edSDimitry Andric      Vals.push_back(getEncodedDLLStorageClass(GV));
91bc56edSDimitry Andric      Vals.push_back(GV.hasComdat() ? VE.getComdatID(GV.getComdat()) : 0);
f22ef01cSRoman Divacky    } else {
f22ef01cSRoman Divacky      AbbrevToUse = SimpleGVarAbbrev;
f22ef01cSRoman Divacky    }
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky    Stream.EmitRecord(bitc::MODULE_CODE_GLOBALVAR, Vals, AbbrevToUse);
f22ef01cSRoman Divacky    Vals.clear();
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  // Emit the function proto information.
91bc56edSDimitry Andric  for (const Function &F : *M) {
dff0c46cSDimitry Andric    // FUNCTION:  [type, callingconv, isproto, linkage, paramattrs, alignment,
39d628a0SDimitry Andric    //             section, visibility, gc, unnamed_addr, prologuedata,
39d628a0SDimitry Andric    //             dllstorageclass, comdat, prefixdata]
91bc56edSDimitry Andric    Vals.push_back(VE.getTypeID(F.getType()));
91bc56edSDimitry Andric    Vals.push_back(F.getCallingConv());
91bc56edSDimitry Andric    Vals.push_back(F.isDeclaration());
f22ef01cSRoman Divacky    Vals.push_back(getEncodedLinkage(F));
91bc56edSDimitry Andric    Vals.push_back(VE.getAttributeID(F.getAttributes()));
91bc56edSDimitry Andric    Vals.push_back(Log2_32(F.getAlignment())+1);
91bc56edSDimitry Andric    Vals.push_back(F.hasSection() ? SectionMap[F.getSection()] : 0);
f22ef01cSRoman Divacky    Vals.push_back(getEncodedVisibility(F));
91bc56edSDimitry Andric    Vals.push_back(F.hasGC() ? GCMap[F.getGC()] : 0);
91bc56edSDimitry Andric    Vals.push_back(F.hasUnnamedAddr());
39d628a0SDimitry Andric    Vals.push_back(F.hasPrologueData() ? (VE.getValueID(F.getPrologueData()) + 1)
f785676fSDimitry Andric                                       : 0);
91bc56edSDimitry Andric    Vals.push_back(getEncodedDLLStorageClass(F));
91bc56edSDimitry Andric    Vals.push_back(F.hasComdat() ? VE.getComdatID(F.getComdat()) : 0);
39d628a0SDimitry Andric    Vals.push_back(F.hasPrefixData() ? (VE.getValueID(F.getPrefixData()) + 1)
39d628a0SDimitry Andric                                     : 0);
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky    unsigned AbbrevToUse = 0;
f22ef01cSRoman Divacky    Stream.EmitRecord(bitc::MODULE_CODE_FUNCTION, Vals, AbbrevToUse);
f22ef01cSRoman Divacky    Vals.clear();
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  // Emit the alias information.
91bc56edSDimitry Andric  for (const GlobalAlias &A : M->aliases()) {
dff0c46cSDimitry Andric    // ALIAS: [alias type, aliasee val#, linkage, visibility]
91bc56edSDimitry Andric    Vals.push_back(VE.getTypeID(A.getType()));
91bc56edSDimitry Andric    Vals.push_back(VE.getValueID(A.getAliasee()));
91bc56edSDimitry Andric    Vals.push_back(getEncodedLinkage(A));
91bc56edSDimitry Andric    Vals.push_back(getEncodedVisibility(A));
91bc56edSDimitry Andric    Vals.push_back(getEncodedDLLStorageClass(A));
91bc56edSDimitry Andric    Vals.push_back(getEncodedThreadLocalMode(A));
91bc56edSDimitry Andric    Vals.push_back(A.hasUnnamedAddr());
f22ef01cSRoman Divacky    unsigned AbbrevToUse = 0;
f22ef01cSRoman Divacky    Stream.EmitRecord(bitc::MODULE_CODE_ALIAS, Vals, AbbrevToUse);
f22ef01cSRoman Divacky    Vals.clear();
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky}
f22ef01cSRoman Divacky
f22ef01cSRoman Divackystatic uint64_t GetOptimizationFlags(const Value *V) {
f22ef01cSRoman Divacky  uint64_t Flags = 0;
f22ef01cSRoman Divacky
39d628a0SDimitry Andric  if (const auto *OBO = dyn_cast<OverflowingBinaryOperator>(V)) {
f22ef01cSRoman Divacky    if (OBO->hasNoSignedWrap())
f22ef01cSRoman Divacky      Flags |= 1 << bitc::OBO_NO_SIGNED_WRAP;
f22ef01cSRoman Divacky    if (OBO->hasNoUnsignedWrap())
f22ef01cSRoman Divacky      Flags |= 1 << bitc::OBO_NO_UNSIGNED_WRAP;
39d628a0SDimitry Andric  } else if (const auto *PEO = dyn_cast<PossiblyExactOperator>(V)) {
2754fe60SDimitry Andric    if (PEO->isExact())
2754fe60SDimitry Andric      Flags |= 1 << bitc::PEO_EXACT;
39d628a0SDimitry Andric  } else if (const auto *FPMO = dyn_cast<FPMathOperator>(V)) {
139f7f9bSDimitry Andric    if (FPMO->hasUnsafeAlgebra())
139f7f9bSDimitry Andric      Flags |= FastMathFlags::UnsafeAlgebra;
139f7f9bSDimitry Andric    if (FPMO->hasNoNaNs())
139f7f9bSDimitry Andric      Flags |= FastMathFlags::NoNaNs;
139f7f9bSDimitry Andric    if (FPMO->hasNoInfs())
139f7f9bSDimitry Andric      Flags |= FastMathFlags::NoInfs;
139f7f9bSDimitry Andric    if (FPMO->hasNoSignedZeros())
139f7f9bSDimitry Andric      Flags |= FastMathFlags::NoSignedZeros;
139f7f9bSDimitry Andric    if (FPMO->hasAllowReciprocal())
139f7f9bSDimitry Andric      Flags |= FastMathFlags::AllowReciprocal;
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  return Flags;
f22ef01cSRoman Divacky}
f22ef01cSRoman Divacky
39d628a0SDimitry Andricstatic void WriteValueAsMetadata(const ValueAsMetadata *MD,
39d628a0SDimitry Andric                                 const ValueEnumerator &VE,
39d628a0SDimitry Andric                                 BitstreamWriter &Stream,
39d628a0SDimitry Andric                                 SmallVectorImpl<uint64_t> &Record) {
39d628a0SDimitry Andric  // Mimic an MDNode with a value as one operand.
39d628a0SDimitry Andric  Value *V = MD->getValue();
39d628a0SDimitry Andric  Record.push_back(VE.getTypeID(V->getType()));
39d628a0SDimitry Andric  Record.push_back(VE.getValueID(V));
39d628a0SDimitry Andric  Stream.EmitRecord(bitc::METADATA_VALUE, Record, 0);
39d628a0SDimitry Andric  Record.clear();
39d628a0SDimitry Andric}
39d628a0SDimitry Andric
f22ef01cSRoman Divackystatic void WriteMDNode(const MDNode *N,
f22ef01cSRoman Divacky                        const ValueEnumerator &VE,
f22ef01cSRoman Divacky                        BitstreamWriter &Stream,
f785676fSDimitry Andric                        SmallVectorImpl<uint64_t> &Record) {
f22ef01cSRoman Divacky  for (unsigned i = 0, e = N->getNumOperands(); i != e; ++i) {
39d628a0SDimitry Andric    Metadata *MD = N->getOperand(i);
39d628a0SDimitry Andric    if (!MD) {
f22ef01cSRoman Divacky      Record.push_back(0);
39d628a0SDimitry Andric      continue;
f22ef01cSRoman Divacky    }
39d628a0SDimitry Andric    assert(!isa<LocalAsMetadata>(MD) && "Unexpected function-local metadata");
39d628a0SDimitry Andric    Record.push_back(VE.getMetadataID(MD) + 1);
f22ef01cSRoman Divacky  }
39d628a0SDimitry Andric  Stream.EmitRecord(N->isDistinct() ? bitc::METADATA_DISTINCT_NODE
39d628a0SDimitry Andric                                    : bitc::METADATA_NODE,
39d628a0SDimitry Andric                    Record);
39d628a0SDimitry Andric  Record.clear();
39d628a0SDimitry Andric}
39d628a0SDimitry Andric
39d628a0SDimitry Andricstatic void WriteMDLocation(const MDLocation *N, const ValueEnumerator &VE,
39d628a0SDimitry Andric                            BitstreamWriter &Stream,
39d628a0SDimitry Andric                            SmallVectorImpl<uint64_t> &Record,
39d628a0SDimitry Andric                            unsigned Abbrev) {
39d628a0SDimitry Andric  Record.push_back(N->isDistinct());
39d628a0SDimitry Andric  Record.push_back(N->getLine());
39d628a0SDimitry Andric  Record.push_back(N->getColumn());
39d628a0SDimitry Andric  Record.push_back(VE.getMetadataID(N->getScope()));
39d628a0SDimitry Andric
39d628a0SDimitry Andric  // Always emit the inlined-at location, even though it's optional.
39d628a0SDimitry Andric  if (Metadata *InlinedAt = N->getInlinedAt())
39d628a0SDimitry Andric    Record.push_back(VE.getMetadataID(InlinedAt) + 1);
39d628a0SDimitry Andric  else
39d628a0SDimitry Andric    Record.push_back(0);
39d628a0SDimitry Andric
39d628a0SDimitry Andric  Stream.EmitRecord(bitc::METADATA_LOCATION, Record, Abbrev);
f22ef01cSRoman Divacky  Record.clear();
f22ef01cSRoman Divacky}
f22ef01cSRoman Divacky
e580952dSDimitry Andricstatic void WriteModuleMetadata(const Module *M,
e580952dSDimitry Andric                                const ValueEnumerator &VE,
f22ef01cSRoman Divacky                                BitstreamWriter &Stream) {
39d628a0SDimitry Andric  const auto &MDs = VE.getMDs();
39d628a0SDimitry Andric  if (MDs.empty() && M->named_metadata_empty())
39d628a0SDimitry Andric    return;
39d628a0SDimitry Andric
39d628a0SDimitry Andric  Stream.EnterSubblock(bitc::METADATA_BLOCK_ID, 3);
39d628a0SDimitry Andric
f22ef01cSRoman Divacky  unsigned MDSAbbrev = 0;
39d628a0SDimitry Andric  if (VE.hasMDString()) {
f22ef01cSRoman Divacky    // Abbrev for METADATA_STRING.
f22ef01cSRoman Divacky    BitCodeAbbrev *Abbv = new BitCodeAbbrev();
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(bitc::METADATA_STRING));
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Array));
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 8));
f22ef01cSRoman Divacky    MDSAbbrev = Stream.EmitAbbrev(Abbv);
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky
39d628a0SDimitry Andric  unsigned LocAbbrev = 0;
39d628a0SDimitry Andric  if (VE.hasMDLocation()) {
39d628a0SDimitry Andric    // Abbrev for METADATA_LOCATION.
39d628a0SDimitry Andric    //
39d628a0SDimitry Andric    // Assume the column is usually under 128, and always output the inlined-at
39d628a0SDimitry Andric    // location (it's never more expensive than building an array size 1).
39d628a0SDimitry Andric    BitCodeAbbrev *Abbv = new BitCodeAbbrev();
39d628a0SDimitry Andric    Abbv->Add(BitCodeAbbrevOp(bitc::METADATA_LOCATION));
39d628a0SDimitry Andric    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 1));
39d628a0SDimitry Andric    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 6));
39d628a0SDimitry Andric    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 8));
39d628a0SDimitry Andric    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 6));
39d628a0SDimitry Andric    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 6));
39d628a0SDimitry Andric    LocAbbrev = Stream.EmitAbbrev(Abbv);
39d628a0SDimitry Andric  }
39d628a0SDimitry Andric
39d628a0SDimitry Andric  unsigned NameAbbrev = 0;
39d628a0SDimitry Andric  if (!M->named_metadata_empty()) {
39d628a0SDimitry Andric    // Abbrev for METADATA_NAME.
39d628a0SDimitry Andric    BitCodeAbbrev *Abbv = new BitCodeAbbrev();
39d628a0SDimitry Andric    Abbv->Add(BitCodeAbbrevOp(bitc::METADATA_NAME));
39d628a0SDimitry Andric    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Array));
39d628a0SDimitry Andric    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 8));
39d628a0SDimitry Andric    NameAbbrev = Stream.EmitAbbrev(Abbv);
39d628a0SDimitry Andric  }
39d628a0SDimitry Andric
39d628a0SDimitry Andric  SmallVector<uint64_t, 64> Record;
39d628a0SDimitry Andric  for (const Metadata *MD : MDs) {
39d628a0SDimitry Andric    if (const MDLocation *Loc = dyn_cast<MDLocation>(MD)) {
39d628a0SDimitry Andric      WriteMDLocation(Loc, VE, Stream, Record, LocAbbrev);
39d628a0SDimitry Andric      continue;
39d628a0SDimitry Andric    }
39d628a0SDimitry Andric    if (const MDNode *N = dyn_cast<MDNode>(MD)) {
39d628a0SDimitry Andric      WriteMDNode(N, VE, Stream, Record);
39d628a0SDimitry Andric      continue;
39d628a0SDimitry Andric    }
39d628a0SDimitry Andric    if (const auto *MDC = dyn_cast<ConstantAsMetadata>(MD)) {
39d628a0SDimitry Andric      WriteValueAsMetadata(MDC, VE, Stream, Record);
39d628a0SDimitry Andric      continue;
39d628a0SDimitry Andric    }
39d628a0SDimitry Andric    const MDString *MDS = cast<MDString>(MD);
f22ef01cSRoman Divacky    // Code: [strchar x N]
39d628a0SDimitry Andric    Record.append(MDS->bytes_begin(), MDS->bytes_end());
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky    // Emit the finished record.
f22ef01cSRoman Divacky    Stream.EmitRecord(bitc::METADATA_STRING, Record, MDSAbbrev);
f22ef01cSRoman Divacky    Record.clear();
e580952dSDimitry Andric  }
e580952dSDimitry Andric
e580952dSDimitry Andric  // Write named metadata.
39d628a0SDimitry Andric  for (const NamedMDNode &NMD : M->named_metadata()) {
f22ef01cSRoman Divacky    // Write name.
39d628a0SDimitry Andric    StringRef Str = NMD.getName();
39d628a0SDimitry Andric    Record.append(Str.bytes_begin(), Str.bytes_end());
39d628a0SDimitry Andric    Stream.EmitRecord(bitc::METADATA_NAME, Record, NameAbbrev);
f22ef01cSRoman Divacky    Record.clear();
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky    // Write named metadata operands.
39d628a0SDimitry Andric    for (const MDNode *N : NMD.operands())
39d628a0SDimitry Andric      Record.push_back(VE.getMetadataID(N));
17a519f9SDimitry Andric    Stream.EmitRecord(bitc::METADATA_NAMED_NODE, Record, 0);
f22ef01cSRoman Divacky    Record.clear();
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  Stream.ExitBlock();
f22ef01cSRoman Divacky}
f22ef01cSRoman Divacky
f22ef01cSRoman Divackystatic void WriteFunctionLocalMetadata(const Function &F,
f22ef01cSRoman Divacky                                       const ValueEnumerator &VE,
f22ef01cSRoman Divacky                                       BitstreamWriter &Stream) {
f22ef01cSRoman Divacky  bool StartedMetadataBlock = false;
f22ef01cSRoman Divacky  SmallVector<uint64_t, 64> Record;
39d628a0SDimitry Andric  const SmallVectorImpl<const LocalAsMetadata *> &MDs =
39d628a0SDimitry Andric      VE.getFunctionLocalMDs();
39d628a0SDimitry Andric  for (unsigned i = 0, e = MDs.size(); i != e; ++i) {
39d628a0SDimitry Andric    assert(MDs[i] && "Expected valid function-local metadata");
f22ef01cSRoman Divacky    if (!StartedMetadataBlock) {
f22ef01cSRoman Divacky      Stream.EnterSubblock(bitc::METADATA_BLOCK_ID, 3);
f22ef01cSRoman Divacky      StartedMetadataBlock = true;
f22ef01cSRoman Divacky    }
39d628a0SDimitry Andric    WriteValueAsMetadata(MDs[i], VE, Stream, Record);
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  if (StartedMetadataBlock)
f22ef01cSRoman Divacky    Stream.ExitBlock();
f22ef01cSRoman Divacky}
f22ef01cSRoman Divacky
f22ef01cSRoman Divackystatic void WriteMetadataAttachment(const Function &F,
f22ef01cSRoman Divacky                                    const ValueEnumerator &VE,
f22ef01cSRoman Divacky                                    BitstreamWriter &Stream) {
f22ef01cSRoman Divacky  Stream.EnterSubblock(bitc::METADATA_ATTACHMENT_ID, 3);
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  SmallVector<uint64_t, 64> Record;
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  // Write metadata attachments
17a519f9SDimitry Andric  // METADATA_ATTACHMENT - [m x [value, [n x [id, mdnode]]]
f22ef01cSRoman Divacky  SmallVector<std::pair<unsigned, MDNode *>, 4> MDs;
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  for (Function::const_iterator BB = F.begin(), E = F.end(); BB != E; ++BB)
f22ef01cSRoman Divacky    for (BasicBlock::const_iterator I = BB->begin(), E = BB->end();
f22ef01cSRoman Divacky         I != E; ++I) {
f22ef01cSRoman Divacky      MDs.clear();
f22ef01cSRoman Divacky      I->getAllMetadataOtherThanDebugLoc(MDs);
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky      // If no metadata, ignore instruction.
f22ef01cSRoman Divacky      if (MDs.empty()) continue;
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky      Record.push_back(VE.getInstructionID(I));
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky      for (unsigned i = 0, e = MDs.size(); i != e; ++i) {
f22ef01cSRoman Divacky        Record.push_back(MDs[i].first);
39d628a0SDimitry Andric        Record.push_back(VE.getMetadataID(MDs[i].second));
f22ef01cSRoman Divacky      }
17a519f9SDimitry Andric      Stream.EmitRecord(bitc::METADATA_ATTACHMENT, Record, 0);
f22ef01cSRoman Divacky      Record.clear();
f22ef01cSRoman Divacky    }
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  Stream.ExitBlock();
f22ef01cSRoman Divacky}
f22ef01cSRoman Divacky
f22ef01cSRoman Divackystatic void WriteModuleMetadataStore(const Module *M, BitstreamWriter &Stream) {
f22ef01cSRoman Divacky  SmallVector<uint64_t, 64> Record;
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  // Write metadata kinds
f22ef01cSRoman Divacky  // METADATA_KIND - [n x [id, name]]
139f7f9bSDimitry Andric  SmallVector<StringRef, 8> Names;
f22ef01cSRoman Divacky  M->getMDKindNames(Names);
f22ef01cSRoman Divacky
e580952dSDimitry Andric  if (Names.empty()) return;
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  Stream.EnterSubblock(bitc::METADATA_BLOCK_ID, 3);
f22ef01cSRoman Divacky
e580952dSDimitry Andric  for (unsigned MDKindID = 0, e = Names.size(); MDKindID != e; ++MDKindID) {
f22ef01cSRoman Divacky    Record.push_back(MDKindID);
f22ef01cSRoman Divacky    StringRef KName = Names[MDKindID];
f22ef01cSRoman Divacky    Record.append(KName.begin(), KName.end());
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky    Stream.EmitRecord(bitc::METADATA_KIND, Record, 0);
f22ef01cSRoman Divacky    Record.clear();
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  Stream.ExitBlock();
f22ef01cSRoman Divacky}
f22ef01cSRoman Divacky
3861d79fSDimitry Andricstatic void emitSignedInt64(SmallVectorImpl<uint64_t> &Vals, uint64_t V) {
3861d79fSDimitry Andric  if ((int64_t)V >= 0)
3861d79fSDimitry Andric    Vals.push_back(V << 1);
3861d79fSDimitry Andric  else
3861d79fSDimitry Andric    Vals.push_back((-V << 1) | 1);
3861d79fSDimitry Andric}
3861d79fSDimitry Andric
f22ef01cSRoman Divackystatic void WriteConstants(unsigned FirstVal, unsigned LastVal,
f22ef01cSRoman Divacky                           const ValueEnumerator &VE,
f22ef01cSRoman Divacky                           BitstreamWriter &Stream, bool isGlobal) {
f22ef01cSRoman Divacky  if (FirstVal == LastVal) return;
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  Stream.EnterSubblock(bitc::CONSTANTS_BLOCK_ID, 4);
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  unsigned AggregateAbbrev = 0;
f22ef01cSRoman Divacky  unsigned String8Abbrev = 0;
f22ef01cSRoman Divacky  unsigned CString7Abbrev = 0;
f22ef01cSRoman Divacky  unsigned CString6Abbrev = 0;
f22ef01cSRoman Divacky  // If this is a constant pool for the module, emit module-specific abbrevs.
f22ef01cSRoman Divacky  if (isGlobal) {
f22ef01cSRoman Divacky    // Abbrev for CST_CODE_AGGREGATE.
f22ef01cSRoman Divacky    BitCodeAbbrev *Abbv = new BitCodeAbbrev();
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(bitc::CST_CODE_AGGREGATE));
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Array));
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, Log2_32_Ceil(LastVal+1)));
f22ef01cSRoman Divacky    AggregateAbbrev = Stream.EmitAbbrev(Abbv);
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky    // Abbrev for CST_CODE_STRING.
f22ef01cSRoman Divacky    Abbv = new BitCodeAbbrev();
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(bitc::CST_CODE_STRING));
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Array));
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 8));
f22ef01cSRoman Divacky    String8Abbrev = Stream.EmitAbbrev(Abbv);
f22ef01cSRoman Divacky    // Abbrev for CST_CODE_CSTRING.
f22ef01cSRoman Divacky    Abbv = new BitCodeAbbrev();
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(bitc::CST_CODE_CSTRING));
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Array));
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 7));
f22ef01cSRoman Divacky    CString7Abbrev = Stream.EmitAbbrev(Abbv);
f22ef01cSRoman Divacky    // Abbrev for CST_CODE_CSTRING.
f22ef01cSRoman Divacky    Abbv = new BitCodeAbbrev();
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(bitc::CST_CODE_CSTRING));
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Array));
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Char6));
f22ef01cSRoman Divacky    CString6Abbrev = Stream.EmitAbbrev(Abbv);
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  SmallVector<uint64_t, 64> Record;
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  const ValueEnumerator::ValueList &Vals = VE.getValues();
91bc56edSDimitry Andric  Type *LastTy = nullptr;
f22ef01cSRoman Divacky  for (unsigned i = FirstVal; i != LastVal; ++i) {
f22ef01cSRoman Divacky    const Value *V = Vals[i].first;
f22ef01cSRoman Divacky    // If we need to switch types, do so now.
f22ef01cSRoman Divacky    if (V->getType() != LastTy) {
f22ef01cSRoman Divacky      LastTy = V->getType();
f22ef01cSRoman Divacky      Record.push_back(VE.getTypeID(LastTy));
f22ef01cSRoman Divacky      Stream.EmitRecord(bitc::CST_CODE_SETTYPE, Record,
f22ef01cSRoman Divacky                        CONSTANTS_SETTYPE_ABBREV);
f22ef01cSRoman Divacky      Record.clear();
f22ef01cSRoman Divacky    }
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky    if (const InlineAsm *IA = dyn_cast<InlineAsm>(V)) {
f22ef01cSRoman Divacky      Record.push_back(unsigned(IA->hasSideEffects()) |
3861d79fSDimitry Andric                       unsigned(IA->isAlignStack()) << 1 |
3861d79fSDimitry Andric                       unsigned(IA->getDialect()&1) << 2);
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky      // Add the asm string.
f22ef01cSRoman Divacky      const std::string &AsmStr = IA->getAsmString();
f22ef01cSRoman Divacky      Record.push_back(AsmStr.size());
f22ef01cSRoman Divacky      for (unsigned i = 0, e = AsmStr.size(); i != e; ++i)
f22ef01cSRoman Divacky        Record.push_back(AsmStr[i]);
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky      // Add the constraint string.
f22ef01cSRoman Divacky      const std::string &ConstraintStr = IA->getConstraintString();
f22ef01cSRoman Divacky      Record.push_back(ConstraintStr.size());
f22ef01cSRoman Divacky      for (unsigned i = 0, e = ConstraintStr.size(); i != e; ++i)
f22ef01cSRoman Divacky        Record.push_back(ConstraintStr[i]);
f22ef01cSRoman Divacky      Stream.EmitRecord(bitc::CST_CODE_INLINEASM, Record);
f22ef01cSRoman Divacky      Record.clear();
f22ef01cSRoman Divacky      continue;
f22ef01cSRoman Divacky    }
f22ef01cSRoman Divacky    const Constant *C = cast<Constant>(V);
f22ef01cSRoman Divacky    unsigned Code = -1U;
f22ef01cSRoman Divacky    unsigned AbbrevToUse = 0;
f22ef01cSRoman Divacky    if (C->isNullValue()) {
f22ef01cSRoman Divacky      Code = bitc::CST_CODE_NULL;
f22ef01cSRoman Divacky    } else if (isa<UndefValue>(C)) {
f22ef01cSRoman Divacky      Code = bitc::CST_CODE_UNDEF;
f22ef01cSRoman Divacky    } else if (const ConstantInt *IV = dyn_cast<ConstantInt>(C)) {
f785676fSDimitry Andric      if (IV->getBitWidth() <= 64) {
f785676fSDimitry Andric        uint64_t V = IV->getSExtValue();
f785676fSDimitry Andric        emitSignedInt64(Record, V);
f785676fSDimitry Andric        Code = bitc::CST_CODE_INTEGER;
f785676fSDimitry Andric        AbbrevToUse = CONSTANTS_INTEGER_ABBREV;
f785676fSDimitry Andric      } else {                             // Wide integers, > 64 bits in size.
f785676fSDimitry Andric        // We have an arbitrary precision integer value to write whose
f785676fSDimitry Andric        // bit width is > 64. However, in canonical unsigned integer
f785676fSDimitry Andric        // format it is likely that the high bits are going to be zero.
f785676fSDimitry Andric        // So, we only write the number of active words.
f785676fSDimitry Andric        unsigned NWords = IV->getValue().getActiveWords();
f785676fSDimitry Andric        const uint64_t *RawWords = IV->getValue().getRawData();
f785676fSDimitry Andric        for (unsigned i = 0; i != NWords; ++i) {
f785676fSDimitry Andric          emitSignedInt64(Record, RawWords[i]);
f785676fSDimitry Andric        }
f785676fSDimitry Andric        Code = bitc::CST_CODE_WIDE_INTEGER;
f785676fSDimitry Andric      }
f22ef01cSRoman Divacky    } else if (const ConstantFP *CFP = dyn_cast<ConstantFP>(C)) {
f22ef01cSRoman Divacky      Code = bitc::CST_CODE_FLOAT;
6122f3e6SDimitry Andric      Type *Ty = CFP->getType();
dff0c46cSDimitry Andric      if (Ty->isHalfTy() || Ty->isFloatTy() || Ty->isDoubleTy()) {
f22ef01cSRoman Divacky        Record.push_back(CFP->getValueAPF().bitcastToAPInt().getZExtValue());
f22ef01cSRoman Divacky      } else if (Ty->isX86_FP80Ty()) {
f22ef01cSRoman Divacky        // api needed to prevent premature destruction
f22ef01cSRoman Divacky        // bits are not in the same order as a normal i80 APInt, compensate.
f22ef01cSRoman Divacky        APInt api = CFP->getValueAPF().bitcastToAPInt();
f22ef01cSRoman Divacky        const uint64_t *p = api.getRawData();
f22ef01cSRoman Divacky        Record.push_back((p[1] << 48) | (p[0] >> 16));
f22ef01cSRoman Divacky        Record.push_back(p[0] & 0xffffLL);
f22ef01cSRoman Divacky      } else if (Ty->isFP128Ty() || Ty->isPPC_FP128Ty()) {
f22ef01cSRoman Divacky        APInt api = CFP->getValueAPF().bitcastToAPInt();
f22ef01cSRoman Divacky        const uint64_t *p = api.getRawData();
f22ef01cSRoman Divacky        Record.push_back(p[0]);
f22ef01cSRoman Divacky        Record.push_back(p[1]);
f22ef01cSRoman Divacky      } else {
f22ef01cSRoman Divacky        assert (0 && "Unknown FP type!");
f22ef01cSRoman Divacky      }
dff0c46cSDimitry Andric    } else if (isa<ConstantDataSequential>(C) &&
dff0c46cSDimitry Andric               cast<ConstantDataSequential>(C)->isString()) {
dff0c46cSDimitry Andric      const ConstantDataSequential *Str = cast<ConstantDataSequential>(C);
f22ef01cSRoman Divacky      // Emit constant strings specially.
dff0c46cSDimitry Andric      unsigned NumElts = Str->getNumElements();
f22ef01cSRoman Divacky      // If this is a null-terminated string, use the denser CSTRING encoding.
dff0c46cSDimitry Andric      if (Str->isCString()) {
f22ef01cSRoman Divacky        Code = bitc::CST_CODE_CSTRING;
dff0c46cSDimitry Andric        --NumElts;  // Don't encode the null, which isn't allowed by char6.
f22ef01cSRoman Divacky      } else {
f22ef01cSRoman Divacky        Code = bitc::CST_CODE_STRING;
f22ef01cSRoman Divacky        AbbrevToUse = String8Abbrev;
f22ef01cSRoman Divacky      }
f22ef01cSRoman Divacky      bool isCStr7 = Code == bitc::CST_CODE_CSTRING;
f22ef01cSRoman Divacky      bool isCStrChar6 = Code == bitc::CST_CODE_CSTRING;
dff0c46cSDimitry Andric      for (unsigned i = 0; i != NumElts; ++i) {
dff0c46cSDimitry Andric        unsigned char V = Str->getElementAsInteger(i);
f22ef01cSRoman Divacky        Record.push_back(V);
f22ef01cSRoman Divacky        isCStr7 &= (V & 128) == 0;
f22ef01cSRoman Divacky        if (isCStrChar6)
f22ef01cSRoman Divacky          isCStrChar6 = BitCodeAbbrevOp::isChar6(V);
f22ef01cSRoman Divacky      }
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky      if (isCStrChar6)
f22ef01cSRoman Divacky        AbbrevToUse = CString6Abbrev;
f22ef01cSRoman Divacky      else if (isCStr7)
f22ef01cSRoman Divacky        AbbrevToUse = CString7Abbrev;
dff0c46cSDimitry Andric    } else if (const ConstantDataSequential *CDS =
dff0c46cSDimitry Andric                  dyn_cast<ConstantDataSequential>(C)) {
dff0c46cSDimitry Andric      Code = bitc::CST_CODE_DATA;
dff0c46cSDimitry Andric      Type *EltTy = CDS->getType()->getElementType();
dff0c46cSDimitry Andric      if (isa<IntegerType>(EltTy)) {
dff0c46cSDimitry Andric        for (unsigned i = 0, e = CDS->getNumElements(); i != e; ++i)
dff0c46cSDimitry Andric          Record.push_back(CDS->getElementAsInteger(i));
dff0c46cSDimitry Andric      } else if (EltTy->isFloatTy()) {
dff0c46cSDimitry Andric        for (unsigned i = 0, e = CDS->getNumElements(); i != e; ++i) {
dff0c46cSDimitry Andric          union { float F; uint32_t I; };
dff0c46cSDimitry Andric          F = CDS->getElementAsFloat(i);
dff0c46cSDimitry Andric          Record.push_back(I);
dff0c46cSDimitry Andric        }
dff0c46cSDimitry Andric      } else {
dff0c46cSDimitry Andric        assert(EltTy->isDoubleTy() && "Unknown ConstantData element type");
dff0c46cSDimitry Andric        for (unsigned i = 0, e = CDS->getNumElements(); i != e; ++i) {
dff0c46cSDimitry Andric          union { double F; uint64_t I; };
dff0c46cSDimitry Andric          F = CDS->getElementAsDouble(i);
dff0c46cSDimitry Andric          Record.push_back(I);
dff0c46cSDimitry Andric        }
dff0c46cSDimitry Andric      }
dff0c46cSDimitry Andric    } else if (isa<ConstantArray>(C) || isa<ConstantStruct>(C) ||
dff0c46cSDimitry Andric               isa<ConstantVector>(C)) {
f22ef01cSRoman Divacky      Code = bitc::CST_CODE_AGGREGATE;
f22ef01cSRoman Divacky      for (unsigned i = 0, e = C->getNumOperands(); i != e; ++i)
f22ef01cSRoman Divacky        Record.push_back(VE.getValueID(C->getOperand(i)));
f22ef01cSRoman Divacky      AbbrevToUse = AggregateAbbrev;
f22ef01cSRoman Divacky    } else if (const ConstantExpr *CE = dyn_cast<ConstantExpr>(C)) {
f22ef01cSRoman Divacky      switch (CE->getOpcode()) {
f22ef01cSRoman Divacky      default:
f22ef01cSRoman Divacky        if (Instruction::isCast(CE->getOpcode())) {
f22ef01cSRoman Divacky          Code = bitc::CST_CODE_CE_CAST;
f22ef01cSRoman Divacky          Record.push_back(GetEncodedCastOpcode(CE->getOpcode()));
f22ef01cSRoman Divacky          Record.push_back(VE.getTypeID(C->getOperand(0)->getType()));
f22ef01cSRoman Divacky          Record.push_back(VE.getValueID(C->getOperand(0)));
f22ef01cSRoman Divacky          AbbrevToUse = CONSTANTS_CE_CAST_Abbrev;
f22ef01cSRoman Divacky        } else {
f22ef01cSRoman Divacky          assert(CE->getNumOperands() == 2 && "Unknown constant expr!");
f22ef01cSRoman Divacky          Code = bitc::CST_CODE_CE_BINOP;
f22ef01cSRoman Divacky          Record.push_back(GetEncodedBinaryOpcode(CE->getOpcode()));
f22ef01cSRoman Divacky          Record.push_back(VE.getValueID(C->getOperand(0)));
f22ef01cSRoman Divacky          Record.push_back(VE.getValueID(C->getOperand(1)));
f22ef01cSRoman Divacky          uint64_t Flags = GetOptimizationFlags(CE);
f22ef01cSRoman Divacky          if (Flags != 0)
f22ef01cSRoman Divacky            Record.push_back(Flags);
f22ef01cSRoman Divacky        }
f22ef01cSRoman Divacky        break;
f22ef01cSRoman Divacky      case Instruction::GetElementPtr:
f22ef01cSRoman Divacky        Code = bitc::CST_CODE_CE_GEP;
f22ef01cSRoman Divacky        if (cast<GEPOperator>(C)->isInBounds())
f22ef01cSRoman Divacky          Code = bitc::CST_CODE_CE_INBOUNDS_GEP;
f22ef01cSRoman Divacky        for (unsigned i = 0, e = CE->getNumOperands(); i != e; ++i) {
f22ef01cSRoman Divacky          Record.push_back(VE.getTypeID(C->getOperand(i)->getType()));
f22ef01cSRoman Divacky          Record.push_back(VE.getValueID(C->getOperand(i)));
f22ef01cSRoman Divacky        }
f22ef01cSRoman Divacky        break;
f22ef01cSRoman Divacky      case Instruction::Select:
f22ef01cSRoman Divacky        Code = bitc::CST_CODE_CE_SELECT;
f22ef01cSRoman Divacky        Record.push_back(VE.getValueID(C->getOperand(0)));
f22ef01cSRoman Divacky        Record.push_back(VE.getValueID(C->getOperand(1)));
f22ef01cSRoman Divacky        Record.push_back(VE.getValueID(C->getOperand(2)));
f22ef01cSRoman Divacky        break;
f22ef01cSRoman Divacky      case Instruction::ExtractElement:
f22ef01cSRoman Divacky        Code = bitc::CST_CODE_CE_EXTRACTELT;
f22ef01cSRoman Divacky        Record.push_back(VE.getTypeID(C->getOperand(0)->getType()));
f22ef01cSRoman Divacky        Record.push_back(VE.getValueID(C->getOperand(0)));
91bc56edSDimitry Andric        Record.push_back(VE.getTypeID(C->getOperand(1)->getType()));
f22ef01cSRoman Divacky        Record.push_back(VE.getValueID(C->getOperand(1)));
f22ef01cSRoman Divacky        break;
f22ef01cSRoman Divacky      case Instruction::InsertElement:
f22ef01cSRoman Divacky        Code = bitc::CST_CODE_CE_INSERTELT;
f22ef01cSRoman Divacky        Record.push_back(VE.getValueID(C->getOperand(0)));
f22ef01cSRoman Divacky        Record.push_back(VE.getValueID(C->getOperand(1)));
91bc56edSDimitry Andric        Record.push_back(VE.getTypeID(C->getOperand(2)->getType()));
f22ef01cSRoman Divacky        Record.push_back(VE.getValueID(C->getOperand(2)));
f22ef01cSRoman Divacky        break;
f22ef01cSRoman Divacky      case Instruction::ShuffleVector:
f22ef01cSRoman Divacky        // If the return type and argument types are the same, this is a
f22ef01cSRoman Divacky        // standard shufflevector instruction.  If the types are different,
f22ef01cSRoman Divacky        // then the shuffle is widening or truncating the input vectors, and
f22ef01cSRoman Divacky        // the argument type must also be encoded.
f22ef01cSRoman Divacky        if (C->getType() == C->getOperand(0)->getType()) {
f22ef01cSRoman Divacky          Code = bitc::CST_CODE_CE_SHUFFLEVEC;
f22ef01cSRoman Divacky        } else {
f22ef01cSRoman Divacky          Code = bitc::CST_CODE_CE_SHUFVEC_EX;
f22ef01cSRoman Divacky          Record.push_back(VE.getTypeID(C->getOperand(0)->getType()));
f22ef01cSRoman Divacky        }
f22ef01cSRoman Divacky        Record.push_back(VE.getValueID(C->getOperand(0)));
f22ef01cSRoman Divacky        Record.push_back(VE.getValueID(C->getOperand(1)));
f22ef01cSRoman Divacky        Record.push_back(VE.getValueID(C->getOperand(2)));
f22ef01cSRoman Divacky        break;
f22ef01cSRoman Divacky      case Instruction::ICmp:
f22ef01cSRoman Divacky      case Instruction::FCmp:
f22ef01cSRoman Divacky        Code = bitc::CST_CODE_CE_CMP;
f22ef01cSRoman Divacky        Record.push_back(VE.getTypeID(C->getOperand(0)->getType()));
f22ef01cSRoman Divacky        Record.push_back(VE.getValueID(C->getOperand(0)));
f22ef01cSRoman Divacky        Record.push_back(VE.getValueID(C->getOperand(1)));
f22ef01cSRoman Divacky        Record.push_back(CE->getPredicate());
f22ef01cSRoman Divacky        break;
f22ef01cSRoman Divacky      }
f22ef01cSRoman Divacky    } else if (const BlockAddress *BA = dyn_cast<BlockAddress>(C)) {
f22ef01cSRoman Divacky      Code = bitc::CST_CODE_BLOCKADDRESS;
f22ef01cSRoman Divacky      Record.push_back(VE.getTypeID(BA->getFunction()->getType()));
f22ef01cSRoman Divacky      Record.push_back(VE.getValueID(BA->getFunction()));
f22ef01cSRoman Divacky      Record.push_back(VE.getGlobalBasicBlockID(BA->getBasicBlock()));
f22ef01cSRoman Divacky    } else {
e580952dSDimitry Andric#ifndef NDEBUG
e580952dSDimitry Andric      C->dump();
e580952dSDimitry Andric#endif
f22ef01cSRoman Divacky      llvm_unreachable("Unknown constant!");
f22ef01cSRoman Divacky    }
f22ef01cSRoman Divacky    Stream.EmitRecord(Code, Record, AbbrevToUse);
f22ef01cSRoman Divacky    Record.clear();
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  Stream.ExitBlock();
f22ef01cSRoman Divacky}
f22ef01cSRoman Divacky
f22ef01cSRoman Divackystatic void WriteModuleConstants(const ValueEnumerator &VE,
f22ef01cSRoman Divacky                                 BitstreamWriter &Stream) {
f22ef01cSRoman Divacky  const ValueEnumerator::ValueList &Vals = VE.getValues();
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  // Find the first constant to emit, which is the first non-globalvalue value.
f22ef01cSRoman Divacky  // We know globalvalues have been emitted by WriteModuleInfo.
f22ef01cSRoman Divacky  for (unsigned i = 0, e = Vals.size(); i != e; ++i) {
f22ef01cSRoman Divacky    if (!isa<GlobalValue>(Vals[i].first)) {
f22ef01cSRoman Divacky      WriteConstants(i, Vals.size(), VE, Stream, true);
f22ef01cSRoman Divacky      return;
f22ef01cSRoman Divacky    }
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky}
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky/// PushValueAndType - The file has to encode both the value and type id for
f22ef01cSRoman Divacky/// many values, because we need to know what type to create for forward
f22ef01cSRoman Divacky/// references.  However, most operands are not forward references, so this type
f22ef01cSRoman Divacky/// field is not needed.
f22ef01cSRoman Divacky///
f22ef01cSRoman Divacky/// This function adds V's value ID to Vals.  If the value ID is higher than the
f22ef01cSRoman Divacky/// instruction ID, then it is a forward reference, and it also includes the
3861d79fSDimitry Andric/// type ID.  The value ID that is written is encoded relative to the InstID.
f22ef01cSRoman Divackystatic bool PushValueAndType(const Value *V, unsigned InstID,
f785676fSDimitry Andric                             SmallVectorImpl<unsigned> &Vals,
f22ef01cSRoman Divacky                             ValueEnumerator &VE) {
f22ef01cSRoman Divacky  unsigned ValID = VE.getValueID(V);
3861d79fSDimitry Andric  // Make encoding relative to the InstID.
3861d79fSDimitry Andric  Vals.push_back(InstID - ValID);
f22ef01cSRoman Divacky  if (ValID >= InstID) {
f22ef01cSRoman Divacky    Vals.push_back(VE.getTypeID(V->getType()));
f22ef01cSRoman Divacky    return true;
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky  return false;
f22ef01cSRoman Divacky}
f22ef01cSRoman Divacky
3861d79fSDimitry Andric/// pushValue - Like PushValueAndType, but where the type of the value is
3861d79fSDimitry Andric/// omitted (perhaps it was already encoded in an earlier operand).
3861d79fSDimitry Andricstatic void pushValue(const Value *V, unsigned InstID,
f785676fSDimitry Andric                      SmallVectorImpl<unsigned> &Vals,
3861d79fSDimitry Andric                      ValueEnumerator &VE) {
3861d79fSDimitry Andric  unsigned ValID = VE.getValueID(V);
3861d79fSDimitry Andric  Vals.push_back(InstID - ValID);
3861d79fSDimitry Andric}
3861d79fSDimitry Andric
3861d79fSDimitry Andricstatic void pushValueSigned(const Value *V, unsigned InstID,
f785676fSDimitry Andric                            SmallVectorImpl<uint64_t> &Vals,
3861d79fSDimitry Andric                            ValueEnumerator &VE) {
3861d79fSDimitry Andric  unsigned ValID = VE.getValueID(V);
3861d79fSDimitry Andric  int64_t diff = ((int32_t)InstID - (int32_t)ValID);
3861d79fSDimitry Andric  emitSignedInt64(Vals, diff);
3861d79fSDimitry Andric}
3861d79fSDimitry Andric
f22ef01cSRoman Divacky/// WriteInstruction - Emit an instruction to the specified stream.
f22ef01cSRoman Divackystatic void WriteInstruction(const Instruction &I, unsigned InstID,
f22ef01cSRoman Divacky                             ValueEnumerator &VE, BitstreamWriter &Stream,
f785676fSDimitry Andric                             SmallVectorImpl<unsigned> &Vals) {
f22ef01cSRoman Divacky  unsigned Code = 0;
f22ef01cSRoman Divacky  unsigned AbbrevToUse = 0;
f22ef01cSRoman Divacky  VE.setInstructionID(&I);
f22ef01cSRoman Divacky  switch (I.getOpcode()) {
f22ef01cSRoman Divacky  default:
f22ef01cSRoman Divacky    if (Instruction::isCast(I.getOpcode())) {
f22ef01cSRoman Divacky      Code = bitc::FUNC_CODE_INST_CAST;
f22ef01cSRoman Divacky      if (!PushValueAndType(I.getOperand(0), InstID, Vals, VE))
f22ef01cSRoman Divacky        AbbrevToUse = FUNCTION_INST_CAST_ABBREV;
f22ef01cSRoman Divacky      Vals.push_back(VE.getTypeID(I.getType()));
f22ef01cSRoman Divacky      Vals.push_back(GetEncodedCastOpcode(I.getOpcode()));
f22ef01cSRoman Divacky    } else {
f22ef01cSRoman Divacky      assert(isa<BinaryOperator>(I) && "Unknown instruction!");
f22ef01cSRoman Divacky      Code = bitc::FUNC_CODE_INST_BINOP;
f22ef01cSRoman Divacky      if (!PushValueAndType(I.getOperand(0), InstID, Vals, VE))
f22ef01cSRoman Divacky        AbbrevToUse = FUNCTION_INST_BINOP_ABBREV;
3861d79fSDimitry Andric      pushValue(I.getOperand(1), InstID, Vals, VE);
f22ef01cSRoman Divacky      Vals.push_back(GetEncodedBinaryOpcode(I.getOpcode()));
f22ef01cSRoman Divacky      uint64_t Flags = GetOptimizationFlags(&I);
f22ef01cSRoman Divacky      if (Flags != 0) {
f22ef01cSRoman Divacky        if (AbbrevToUse == FUNCTION_INST_BINOP_ABBREV)
f22ef01cSRoman Divacky          AbbrevToUse = FUNCTION_INST_BINOP_FLAGS_ABBREV;
f22ef01cSRoman Divacky        Vals.push_back(Flags);
f22ef01cSRoman Divacky      }
f22ef01cSRoman Divacky    }
f22ef01cSRoman Divacky    break;
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  case Instruction::GetElementPtr:
f22ef01cSRoman Divacky    Code = bitc::FUNC_CODE_INST_GEP;
f22ef01cSRoman Divacky    if (cast<GEPOperator>(&I)->isInBounds())
f22ef01cSRoman Divacky      Code = bitc::FUNC_CODE_INST_INBOUNDS_GEP;
f22ef01cSRoman Divacky    for (unsigned i = 0, e = I.getNumOperands(); i != e; ++i)
f22ef01cSRoman Divacky      PushValueAndType(I.getOperand(i), InstID, Vals, VE);
f22ef01cSRoman Divacky    break;
f22ef01cSRoman Divacky  case Instruction::ExtractValue: {
f22ef01cSRoman Divacky    Code = bitc::FUNC_CODE_INST_EXTRACTVAL;
f22ef01cSRoman Divacky    PushValueAndType(I.getOperand(0), InstID, Vals, VE);
f22ef01cSRoman Divacky    const ExtractValueInst *EVI = cast<ExtractValueInst>(&I);
f22ef01cSRoman Divacky    for (const unsigned *i = EVI->idx_begin(), *e = EVI->idx_end(); i != e; ++i)
f22ef01cSRoman Divacky      Vals.push_back(*i);
f22ef01cSRoman Divacky    break;
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky  case Instruction::InsertValue: {
f22ef01cSRoman Divacky    Code = bitc::FUNC_CODE_INST_INSERTVAL;
f22ef01cSRoman Divacky    PushValueAndType(I.getOperand(0), InstID, Vals, VE);
f22ef01cSRoman Divacky    PushValueAndType(I.getOperand(1), InstID, Vals, VE);
f22ef01cSRoman Divacky    const InsertValueInst *IVI = cast<InsertValueInst>(&I);
f22ef01cSRoman Divacky    for (const unsigned *i = IVI->idx_begin(), *e = IVI->idx_end(); i != e; ++i)
f22ef01cSRoman Divacky      Vals.push_back(*i);
f22ef01cSRoman Divacky    break;
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky  case Instruction::Select:
f22ef01cSRoman Divacky    Code = bitc::FUNC_CODE_INST_VSELECT;
f22ef01cSRoman Divacky    PushValueAndType(I.getOperand(1), InstID, Vals, VE);
3861d79fSDimitry Andric    pushValue(I.getOperand(2), InstID, Vals, VE);
f22ef01cSRoman Divacky    PushValueAndType(I.getOperand(0), InstID, Vals, VE);
f22ef01cSRoman Divacky    break;
f22ef01cSRoman Divacky  case Instruction::ExtractElement:
f22ef01cSRoman Divacky    Code = bitc::FUNC_CODE_INST_EXTRACTELT;
f22ef01cSRoman Divacky    PushValueAndType(I.getOperand(0), InstID, Vals, VE);
91bc56edSDimitry Andric    PushValueAndType(I.getOperand(1), InstID, Vals, VE);
f22ef01cSRoman Divacky    break;
f22ef01cSRoman Divacky  case Instruction::InsertElement:
f22ef01cSRoman Divacky    Code = bitc::FUNC_CODE_INST_INSERTELT;
f22ef01cSRoman Divacky    PushValueAndType(I.getOperand(0), InstID, Vals, VE);
3861d79fSDimitry Andric    pushValue(I.getOperand(1), InstID, Vals, VE);
91bc56edSDimitry Andric    PushValueAndType(I.getOperand(2), InstID, Vals, VE);
f22ef01cSRoman Divacky    break;
f22ef01cSRoman Divacky  case Instruction::ShuffleVector:
f22ef01cSRoman Divacky    Code = bitc::FUNC_CODE_INST_SHUFFLEVEC;
f22ef01cSRoman Divacky    PushValueAndType(I.getOperand(0), InstID, Vals, VE);
3861d79fSDimitry Andric    pushValue(I.getOperand(1), InstID, Vals, VE);
3861d79fSDimitry Andric    pushValue(I.getOperand(2), InstID, Vals, VE);
f22ef01cSRoman Divacky    break;
f22ef01cSRoman Divacky  case Instruction::ICmp:
f22ef01cSRoman Divacky  case Instruction::FCmp:
f22ef01cSRoman Divacky    // compare returning Int1Ty or vector of Int1Ty
f22ef01cSRoman Divacky    Code = bitc::FUNC_CODE_INST_CMP2;
f22ef01cSRoman Divacky    PushValueAndType(I.getOperand(0), InstID, Vals, VE);
3861d79fSDimitry Andric    pushValue(I.getOperand(1), InstID, Vals, VE);
f22ef01cSRoman Divacky    Vals.push_back(cast<CmpInst>(I).getPredicate());
f22ef01cSRoman Divacky    break;
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  case Instruction::Ret:
f22ef01cSRoman Divacky    {
f22ef01cSRoman Divacky      Code = bitc::FUNC_CODE_INST_RET;
f22ef01cSRoman Divacky      unsigned NumOperands = I.getNumOperands();
f22ef01cSRoman Divacky      if (NumOperands == 0)
f22ef01cSRoman Divacky        AbbrevToUse = FUNCTION_INST_RET_VOID_ABBREV;
f22ef01cSRoman Divacky      else if (NumOperands == 1) {
f22ef01cSRoman Divacky        if (!PushValueAndType(I.getOperand(0), InstID, Vals, VE))
f22ef01cSRoman Divacky          AbbrevToUse = FUNCTION_INST_RET_VAL_ABBREV;
f22ef01cSRoman Divacky      } else {
f22ef01cSRoman Divacky        for (unsigned i = 0, e = NumOperands; i != e; ++i)
f22ef01cSRoman Divacky          PushValueAndType(I.getOperand(i), InstID, Vals, VE);
f22ef01cSRoman Divacky      }
f22ef01cSRoman Divacky    }
f22ef01cSRoman Divacky    break;
f22ef01cSRoman Divacky  case Instruction::Br:
f22ef01cSRoman Divacky    {
f22ef01cSRoman Divacky      Code = bitc::FUNC_CODE_INST_BR;
139f7f9bSDimitry Andric      const BranchInst &II = cast<BranchInst>(I);
f22ef01cSRoman Divacky      Vals.push_back(VE.getValueID(II.getSuccessor(0)));
f22ef01cSRoman Divacky      if (II.isConditional()) {
f22ef01cSRoman Divacky        Vals.push_back(VE.getValueID(II.getSuccessor(1)));
3861d79fSDimitry Andric        pushValue(II.getCondition(), InstID, Vals, VE);
f22ef01cSRoman Divacky      }
f22ef01cSRoman Divacky    }
f22ef01cSRoman Divacky    break;
f22ef01cSRoman Divacky  case Instruction::Switch:
dff0c46cSDimitry Andric    {
f22ef01cSRoman Divacky      Code = bitc::FUNC_CODE_INST_SWITCH;
139f7f9bSDimitry Andric      const SwitchInst &SI = cast<SwitchInst>(I);
f785676fSDimitry Andric      Vals.push_back(VE.getTypeID(SI.getCondition()->getType()));
f785676fSDimitry Andric      pushValue(SI.getCondition(), InstID, Vals, VE);
f785676fSDimitry Andric      Vals.push_back(VE.getValueID(SI.getDefaultDest()));
139f7f9bSDimitry Andric      for (SwitchInst::ConstCaseIt i = SI.case_begin(), e = SI.case_end();
dff0c46cSDimitry Andric           i != e; ++i) {
f785676fSDimitry Andric        Vals.push_back(VE.getValueID(i.getCaseValue()));
f785676fSDimitry Andric        Vals.push_back(VE.getValueID(i.getCaseSuccessor()));
dff0c46cSDimitry Andric      }
dff0c46cSDimitry Andric    }
f22ef01cSRoman Divacky    break;
f22ef01cSRoman Divacky  case Instruction::IndirectBr:
f22ef01cSRoman Divacky    Code = bitc::FUNC_CODE_INST_INDIRECTBR;
f22ef01cSRoman Divacky    Vals.push_back(VE.getTypeID(I.getOperand(0)->getType()));
3861d79fSDimitry Andric    // Encode the address operand as relative, but not the basic blocks.
3861d79fSDimitry Andric    pushValue(I.getOperand(0), InstID, Vals, VE);
3861d79fSDimitry Andric    for (unsigned i = 1, e = I.getNumOperands(); i != e; ++i)
f22ef01cSRoman Divacky      Vals.push_back(VE.getValueID(I.getOperand(i)));
f22ef01cSRoman Divacky    break;
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  case Instruction::Invoke: {
f22ef01cSRoman Divacky    const InvokeInst *II = cast<InvokeInst>(&I);
f22ef01cSRoman Divacky    const Value *Callee(II->getCalledValue());
6122f3e6SDimitry Andric    PointerType *PTy = cast<PointerType>(Callee->getType());
6122f3e6SDimitry Andric    FunctionType *FTy = cast<FunctionType>(PTy->getElementType());
f22ef01cSRoman Divacky    Code = bitc::FUNC_CODE_INST_INVOKE;
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky    Vals.push_back(VE.getAttributeID(II->getAttributes()));
f22ef01cSRoman Divacky    Vals.push_back(II->getCallingConv());
f22ef01cSRoman Divacky    Vals.push_back(VE.getValueID(II->getNormalDest()));
f22ef01cSRoman Divacky    Vals.push_back(VE.getValueID(II->getUnwindDest()));
f22ef01cSRoman Divacky    PushValueAndType(Callee, InstID, Vals, VE);
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky    // Emit value #'s for the fixed parameters.
f22ef01cSRoman Divacky    for (unsigned i = 0, e = FTy->getNumParams(); i != e; ++i)
3861d79fSDimitry Andric      pushValue(I.getOperand(i), InstID, Vals, VE);  // fixed param.
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky    // Emit type/value pairs for varargs params.
f22ef01cSRoman Divacky    if (FTy->isVarArg()) {
f22ef01cSRoman Divacky      for (unsigned i = FTy->getNumParams(), e = I.getNumOperands()-3;
f22ef01cSRoman Divacky           i != e; ++i)
f22ef01cSRoman Divacky        PushValueAndType(I.getOperand(i), InstID, Vals, VE); // vararg
f22ef01cSRoman Divacky    }
f22ef01cSRoman Divacky    break;
f22ef01cSRoman Divacky  }
6122f3e6SDimitry Andric  case Instruction::Resume:
6122f3e6SDimitry Andric    Code = bitc::FUNC_CODE_INST_RESUME;
6122f3e6SDimitry Andric    PushValueAndType(I.getOperand(0), InstID, Vals, VE);
6122f3e6SDimitry Andric    break;
f22ef01cSRoman Divacky  case Instruction::Unreachable:
f22ef01cSRoman Divacky    Code = bitc::FUNC_CODE_INST_UNREACHABLE;
f22ef01cSRoman Divacky    AbbrevToUse = FUNCTION_INST_UNREACHABLE_ABBREV;
f22ef01cSRoman Divacky    break;
f22ef01cSRoman Divacky
17a519f9SDimitry Andric  case Instruction::PHI: {
17a519f9SDimitry Andric    const PHINode &PN = cast<PHINode>(I);
f22ef01cSRoman Divacky    Code = bitc::FUNC_CODE_INST_PHI;
3861d79fSDimitry Andric    // With the newer instruction encoding, forward references could give
3861d79fSDimitry Andric    // negative valued IDs.  This is most common for PHIs, so we use
3861d79fSDimitry Andric    // signed VBRs.
3861d79fSDimitry Andric    SmallVector<uint64_t, 128> Vals64;
3861d79fSDimitry Andric    Vals64.push_back(VE.getTypeID(PN.getType()));
17a519f9SDimitry Andric    for (unsigned i = 0, e = PN.getNumIncomingValues(); i != e; ++i) {
3861d79fSDimitry Andric      pushValueSigned(PN.getIncomingValue(i), InstID, Vals64, VE);
3861d79fSDimitry Andric      Vals64.push_back(VE.getValueID(PN.getIncomingBlock(i)));
17a519f9SDimitry Andric    }
3861d79fSDimitry Andric    // Emit a Vals64 vector and exit.
3861d79fSDimitry Andric    Stream.EmitRecord(Code, Vals64, AbbrevToUse);
3861d79fSDimitry Andric    Vals64.clear();
3861d79fSDimitry Andric    return;
17a519f9SDimitry Andric  }
f22ef01cSRoman Divacky
6122f3e6SDimitry Andric  case Instruction::LandingPad: {
6122f3e6SDimitry Andric    const LandingPadInst &LP = cast<LandingPadInst>(I);
6122f3e6SDimitry Andric    Code = bitc::FUNC_CODE_INST_LANDINGPAD;
6122f3e6SDimitry Andric    Vals.push_back(VE.getTypeID(LP.getType()));
6122f3e6SDimitry Andric    PushValueAndType(LP.getPersonalityFn(), InstID, Vals, VE);
6122f3e6SDimitry Andric    Vals.push_back(LP.isCleanup());
6122f3e6SDimitry Andric    Vals.push_back(LP.getNumClauses());
6122f3e6SDimitry Andric    for (unsigned I = 0, E = LP.getNumClauses(); I != E; ++I) {
6122f3e6SDimitry Andric      if (LP.isCatch(I))
6122f3e6SDimitry Andric        Vals.push_back(LandingPadInst::Catch);
6122f3e6SDimitry Andric      else
6122f3e6SDimitry Andric        Vals.push_back(LandingPadInst::Filter);
6122f3e6SDimitry Andric      PushValueAndType(LP.getClause(I), InstID, Vals, VE);
6122f3e6SDimitry Andric    }
6122f3e6SDimitry Andric    break;
6122f3e6SDimitry Andric  }
6122f3e6SDimitry Andric
91bc56edSDimitry Andric  case Instruction::Alloca: {
f22ef01cSRoman Divacky    Code = bitc::FUNC_CODE_INST_ALLOCA;
f22ef01cSRoman Divacky    Vals.push_back(VE.getTypeID(I.getType()));
ffd1746dSEd Schouten    Vals.push_back(VE.getTypeID(I.getOperand(0)->getType()));
f22ef01cSRoman Divacky    Vals.push_back(VE.getValueID(I.getOperand(0))); // size.
91bc56edSDimitry Andric    const AllocaInst &AI = cast<AllocaInst>(I);
91bc56edSDimitry Andric    unsigned AlignRecord = Log2_32(AI.getAlignment()) + 1;
91bc56edSDimitry Andric    assert(Log2_32(Value::MaximumAlignment) + 1 < 1 << 5 &&
91bc56edSDimitry Andric           "not enough bits for maximum alignment");
91bc56edSDimitry Andric    assert(AlignRecord < 1 << 5 && "alignment greater than 1 << 64");
91bc56edSDimitry Andric    AlignRecord |= AI.isUsedWithInAlloca() << 5;
91bc56edSDimitry Andric    Vals.push_back(AlignRecord);
f22ef01cSRoman Divacky    break;
91bc56edSDimitry Andric  }
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  case Instruction::Load:
6122f3e6SDimitry Andric    if (cast<LoadInst>(I).isAtomic()) {
6122f3e6SDimitry Andric      Code = bitc::FUNC_CODE_INST_LOADATOMIC;
6122f3e6SDimitry Andric      PushValueAndType(I.getOperand(0), InstID, Vals, VE);
6122f3e6SDimitry Andric    } else {
f22ef01cSRoman Divacky      Code = bitc::FUNC_CODE_INST_LOAD;
f22ef01cSRoman Divacky      if (!PushValueAndType(I.getOperand(0), InstID, Vals, VE))  // ptr
f22ef01cSRoman Divacky        AbbrevToUse = FUNCTION_INST_LOAD_ABBREV;
6122f3e6SDimitry Andric    }
f22ef01cSRoman Divacky    Vals.push_back(Log2_32(cast<LoadInst>(I).getAlignment())+1);
f22ef01cSRoman Divacky    Vals.push_back(cast<LoadInst>(I).isVolatile());
6122f3e6SDimitry Andric    if (cast<LoadInst>(I).isAtomic()) {
6122f3e6SDimitry Andric      Vals.push_back(GetEncodedOrdering(cast<LoadInst>(I).getOrdering()));
6122f3e6SDimitry Andric      Vals.push_back(GetEncodedSynchScope(cast<LoadInst>(I).getSynchScope()));
6122f3e6SDimitry Andric    }
f22ef01cSRoman Divacky    break;
f22ef01cSRoman Divacky  case Instruction::Store:
6122f3e6SDimitry Andric    if (cast<StoreInst>(I).isAtomic())
6122f3e6SDimitry Andric      Code = bitc::FUNC_CODE_INST_STOREATOMIC;
6122f3e6SDimitry Andric    else
17a519f9SDimitry Andric      Code = bitc::FUNC_CODE_INST_STORE;
f22ef01cSRoman Divacky    PushValueAndType(I.getOperand(1), InstID, Vals, VE);  // ptrty + ptr
3861d79fSDimitry Andric    pushValue(I.getOperand(0), InstID, Vals, VE);         // val.
f22ef01cSRoman Divacky    Vals.push_back(Log2_32(cast<StoreInst>(I).getAlignment())+1);
f22ef01cSRoman Divacky    Vals.push_back(cast<StoreInst>(I).isVolatile());
6122f3e6SDimitry Andric    if (cast<StoreInst>(I).isAtomic()) {
6122f3e6SDimitry Andric      Vals.push_back(GetEncodedOrdering(cast<StoreInst>(I).getOrdering()));
6122f3e6SDimitry Andric      Vals.push_back(GetEncodedSynchScope(cast<StoreInst>(I).getSynchScope()));
6122f3e6SDimitry Andric    }
6122f3e6SDimitry Andric    break;
6122f3e6SDimitry Andric  case Instruction::AtomicCmpXchg:
6122f3e6SDimitry Andric    Code = bitc::FUNC_CODE_INST_CMPXCHG;
6122f3e6SDimitry Andric    PushValueAndType(I.getOperand(0), InstID, Vals, VE);  // ptrty + ptr
3861d79fSDimitry Andric    pushValue(I.getOperand(1), InstID, Vals, VE);         // cmp.
3861d79fSDimitry Andric    pushValue(I.getOperand(2), InstID, Vals, VE);         // newval.
6122f3e6SDimitry Andric    Vals.push_back(cast<AtomicCmpXchgInst>(I).isVolatile());
6122f3e6SDimitry Andric    Vals.push_back(GetEncodedOrdering(
91bc56edSDimitry Andric                     cast<AtomicCmpXchgInst>(I).getSuccessOrdering()));
6122f3e6SDimitry Andric    Vals.push_back(GetEncodedSynchScope(
6122f3e6SDimitry Andric                     cast<AtomicCmpXchgInst>(I).getSynchScope()));
91bc56edSDimitry Andric    Vals.push_back(GetEncodedOrdering(
91bc56edSDimitry Andric                     cast<AtomicCmpXchgInst>(I).getFailureOrdering()));
91bc56edSDimitry Andric    Vals.push_back(cast<AtomicCmpXchgInst>(I).isWeak());
6122f3e6SDimitry Andric    break;
6122f3e6SDimitry Andric  case Instruction::AtomicRMW:
6122f3e6SDimitry Andric    Code = bitc::FUNC_CODE_INST_ATOMICRMW;
6122f3e6SDimitry Andric    PushValueAndType(I.getOperand(0), InstID, Vals, VE);  // ptrty + ptr
3861d79fSDimitry Andric    pushValue(I.getOperand(1), InstID, Vals, VE);         // val.
6122f3e6SDimitry Andric    Vals.push_back(GetEncodedRMWOperation(
6122f3e6SDimitry Andric                     cast<AtomicRMWInst>(I).getOperation()));
6122f3e6SDimitry Andric    Vals.push_back(cast<AtomicRMWInst>(I).isVolatile());
6122f3e6SDimitry Andric    Vals.push_back(GetEncodedOrdering(cast<AtomicRMWInst>(I).getOrdering()));
6122f3e6SDimitry Andric    Vals.push_back(GetEncodedSynchScope(
6122f3e6SDimitry Andric                     cast<AtomicRMWInst>(I).getSynchScope()));
6122f3e6SDimitry Andric    break;
6122f3e6SDimitry Andric  case Instruction::Fence:
6122f3e6SDimitry Andric    Code = bitc::FUNC_CODE_INST_FENCE;
6122f3e6SDimitry Andric    Vals.push_back(GetEncodedOrdering(cast<FenceInst>(I).getOrdering()));
6122f3e6SDimitry Andric    Vals.push_back(GetEncodedSynchScope(cast<FenceInst>(I).getSynchScope()));
f22ef01cSRoman Divacky    break;
f22ef01cSRoman Divacky  case Instruction::Call: {
ffd1746dSEd Schouten    const CallInst &CI = cast<CallInst>(I);
6122f3e6SDimitry Andric    PointerType *PTy = cast<PointerType>(CI.getCalledValue()->getType());
6122f3e6SDimitry Andric    FunctionType *FTy = cast<FunctionType>(PTy->getElementType());
f22ef01cSRoman Divacky
17a519f9SDimitry Andric    Code = bitc::FUNC_CODE_INST_CALL;
f22ef01cSRoman Divacky
ffd1746dSEd Schouten    Vals.push_back(VE.getAttributeID(CI.getAttributes()));
91bc56edSDimitry Andric    Vals.push_back((CI.getCallingConv() << 1) | unsigned(CI.isTailCall()) |
91bc56edSDimitry Andric                   unsigned(CI.isMustTailCall()) << 14);
ffd1746dSEd Schouten    PushValueAndType(CI.getCalledValue(), InstID, Vals, VE);  // Callee
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky    // Emit value #'s for the fixed parameters.
3861d79fSDimitry Andric    for (unsigned i = 0, e = FTy->getNumParams(); i != e; ++i) {
3861d79fSDimitry Andric      // Check for labels (can happen with asm labels).
3861d79fSDimitry Andric      if (FTy->getParamType(i)->isLabelTy())
3861d79fSDimitry Andric        Vals.push_back(VE.getValueID(CI.getArgOperand(i)));
3861d79fSDimitry Andric      else
3861d79fSDimitry Andric        pushValue(CI.getArgOperand(i), InstID, Vals, VE);  // fixed param.
3861d79fSDimitry Andric    }
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky    // Emit type/value pairs for varargs params.
f22ef01cSRoman Divacky    if (FTy->isVarArg()) {
ffd1746dSEd Schouten      for (unsigned i = FTy->getNumParams(), e = CI.getNumArgOperands();
f22ef01cSRoman Divacky           i != e; ++i)
ffd1746dSEd Schouten        PushValueAndType(CI.getArgOperand(i), InstID, Vals, VE);  // varargs
f22ef01cSRoman Divacky    }
f22ef01cSRoman Divacky    break;
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky  case Instruction::VAArg:
f22ef01cSRoman Divacky    Code = bitc::FUNC_CODE_INST_VAARG;
f22ef01cSRoman Divacky    Vals.push_back(VE.getTypeID(I.getOperand(0)->getType()));   // valistty
3861d79fSDimitry Andric    pushValue(I.getOperand(0), InstID, Vals, VE); // valist.
f22ef01cSRoman Divacky    Vals.push_back(VE.getTypeID(I.getType())); // restype.
f22ef01cSRoman Divacky    break;
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  Stream.EmitRecord(Code, Vals, AbbrevToUse);
f22ef01cSRoman Divacky  Vals.clear();
f22ef01cSRoman Divacky}
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky// Emit names for globals/functions etc.
f22ef01cSRoman Divackystatic void WriteValueSymbolTable(const ValueSymbolTable &VST,
f22ef01cSRoman Divacky                                  const ValueEnumerator &VE,
f22ef01cSRoman Divacky                                  BitstreamWriter &Stream) {
f22ef01cSRoman Divacky  if (VST.empty()) return;
f22ef01cSRoman Divacky  Stream.EnterSubblock(bitc::VALUE_SYMTAB_BLOCK_ID, 4);
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  // FIXME: Set up the abbrev, we know how many values there are!
f22ef01cSRoman Divacky  // FIXME: We know if the type names can use 7-bit ascii.
f22ef01cSRoman Divacky  SmallVector<unsigned, 64> NameVals;
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  for (ValueSymbolTable::const_iterator SI = VST.begin(), SE = VST.end();
f22ef01cSRoman Divacky       SI != SE; ++SI) {
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky    const ValueName &Name = *SI;
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky    // Figure out the encoding to use for the name.
f22ef01cSRoman Divacky    bool is7Bit = true;
f22ef01cSRoman Divacky    bool isChar6 = true;
f22ef01cSRoman Divacky    for (const char *C = Name.getKeyData(), *E = C+Name.getKeyLength();
f22ef01cSRoman Divacky         C != E; ++C) {
f22ef01cSRoman Divacky      if (isChar6)
f22ef01cSRoman Divacky        isChar6 = BitCodeAbbrevOp::isChar6(*C);
f22ef01cSRoman Divacky      if ((unsigned char)*C & 128) {
f22ef01cSRoman Divacky        is7Bit = false;
f22ef01cSRoman Divacky        break;  // don't bother scanning the rest.
f22ef01cSRoman Divacky      }
f22ef01cSRoman Divacky    }
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky    unsigned AbbrevToUse = VST_ENTRY_8_ABBREV;
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky    // VST_ENTRY:   [valueid, namechar x N]
f22ef01cSRoman Divacky    // VST_BBENTRY: [bbid, namechar x N]
f22ef01cSRoman Divacky    unsigned Code;
f22ef01cSRoman Divacky    if (isa<BasicBlock>(SI->getValue())) {
f22ef01cSRoman Divacky      Code = bitc::VST_CODE_BBENTRY;
f22ef01cSRoman Divacky      if (isChar6)
f22ef01cSRoman Divacky        AbbrevToUse = VST_BBENTRY_6_ABBREV;
f22ef01cSRoman Divacky    } else {
f22ef01cSRoman Divacky      Code = bitc::VST_CODE_ENTRY;
f22ef01cSRoman Divacky      if (isChar6)
f22ef01cSRoman Divacky        AbbrevToUse = VST_ENTRY_6_ABBREV;
f22ef01cSRoman Divacky      else if (is7Bit)
f22ef01cSRoman Divacky        AbbrevToUse = VST_ENTRY_7_ABBREV;
f22ef01cSRoman Divacky    }
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky    NameVals.push_back(VE.getValueID(SI->getValue()));
f22ef01cSRoman Divacky    for (const char *P = Name.getKeyData(),
f22ef01cSRoman Divacky         *E = Name.getKeyData()+Name.getKeyLength(); P != E; ++P)
f22ef01cSRoman Divacky      NameVals.push_back((unsigned char)*P);
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky    // Emit the finished record.
f22ef01cSRoman Divacky    Stream.EmitRecord(Code, NameVals, AbbrevToUse);
f22ef01cSRoman Divacky    NameVals.clear();
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky  Stream.ExitBlock();
f22ef01cSRoman Divacky}
f22ef01cSRoman Divacky
39d628a0SDimitry Andricstatic void WriteUseList(ValueEnumerator &VE, UseListOrder &&Order,
39d628a0SDimitry Andric                         BitstreamWriter &Stream) {
39d628a0SDimitry Andric  assert(Order.Shuffle.size() >= 2 && "Shuffle too small");
39d628a0SDimitry Andric  unsigned Code;
39d628a0SDimitry Andric  if (isa<BasicBlock>(Order.V))
39d628a0SDimitry Andric    Code = bitc::USELIST_CODE_BB;
39d628a0SDimitry Andric  else
39d628a0SDimitry Andric    Code = bitc::USELIST_CODE_DEFAULT;
39d628a0SDimitry Andric
39d628a0SDimitry Andric  SmallVector<uint64_t, 64> Record;
39d628a0SDimitry Andric  for (unsigned I : Order.Shuffle)
39d628a0SDimitry Andric    Record.push_back(I);
39d628a0SDimitry Andric  Record.push_back(VE.getValueID(Order.V));
39d628a0SDimitry Andric  Stream.EmitRecord(Code, Record);
39d628a0SDimitry Andric}
39d628a0SDimitry Andric
39d628a0SDimitry Andricstatic void WriteUseListBlock(const Function *F, ValueEnumerator &VE,
39d628a0SDimitry Andric                              BitstreamWriter &Stream) {
39d628a0SDimitry Andric  auto hasMore = [&]() {
39d628a0SDimitry Andric    return !VE.UseListOrders.empty() && VE.UseListOrders.back().F == F;
39d628a0SDimitry Andric  };
39d628a0SDimitry Andric  if (!hasMore())
39d628a0SDimitry Andric    // Nothing to do.
39d628a0SDimitry Andric    return;
39d628a0SDimitry Andric
39d628a0SDimitry Andric  Stream.EnterSubblock(bitc::USELIST_BLOCK_ID, 3);
39d628a0SDimitry Andric  while (hasMore()) {
39d628a0SDimitry Andric    WriteUseList(VE, std::move(VE.UseListOrders.back()), Stream);
39d628a0SDimitry Andric    VE.UseListOrders.pop_back();
39d628a0SDimitry Andric  }
39d628a0SDimitry Andric  Stream.ExitBlock();
39d628a0SDimitry Andric}
39d628a0SDimitry Andric
f22ef01cSRoman Divacky/// WriteFunction - Emit a function body to the module stream.
f22ef01cSRoman Divackystatic void WriteFunction(const Function &F, ValueEnumerator &VE,
f22ef01cSRoman Divacky                          BitstreamWriter &Stream) {
f22ef01cSRoman Divacky  Stream.EnterSubblock(bitc::FUNCTION_BLOCK_ID, 4);
f22ef01cSRoman Divacky  VE.incorporateFunction(F);
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  SmallVector<unsigned, 64> Vals;
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  // Emit the number of basic blocks, so the reader can create them ahead of
f22ef01cSRoman Divacky  // time.
f22ef01cSRoman Divacky  Vals.push_back(VE.getBasicBlocks().size());
f22ef01cSRoman Divacky  Stream.EmitRecord(bitc::FUNC_CODE_DECLAREBLOCKS, Vals);
f22ef01cSRoman Divacky  Vals.clear();
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  // If there are function-local constants, emit them now.
f22ef01cSRoman Divacky  unsigned CstStart, CstEnd;
f22ef01cSRoman Divacky  VE.getFunctionConstantRange(CstStart, CstEnd);
f22ef01cSRoman Divacky  WriteConstants(CstStart, CstEnd, VE, Stream, false);
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  // If there is function-local metadata, emit it now.
f22ef01cSRoman Divacky  WriteFunctionLocalMetadata(F, VE, Stream);
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  // Keep a running idea of what the instruction ID is.
f22ef01cSRoman Divacky  unsigned InstID = CstEnd;
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  bool NeedsMetadataAttachment = false;
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  DebugLoc LastDL;
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  // Finally, emit all the instructions, in order.
f22ef01cSRoman Divacky  for (Function::const_iterator BB = F.begin(), E = F.end(); BB != E; ++BB)
f22ef01cSRoman Divacky    for (BasicBlock::const_iterator I = BB->begin(), E = BB->end();
f22ef01cSRoman Divacky         I != E; ++I) {
f22ef01cSRoman Divacky      WriteInstruction(*I, InstID, VE, Stream, Vals);
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky      if (!I->getType()->isVoidTy())
f22ef01cSRoman Divacky        ++InstID;
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky      // If the instruction has metadata, write a metadata attachment later.
f22ef01cSRoman Divacky      NeedsMetadataAttachment |= I->hasMetadataOtherThanDebugLoc();
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky      // If the instruction has a debug location, emit it.
f22ef01cSRoman Divacky      DebugLoc DL = I->getDebugLoc();
f22ef01cSRoman Divacky      if (DL.isUnknown()) {
f22ef01cSRoman Divacky        // nothing todo.
f22ef01cSRoman Divacky      } else if (DL == LastDL) {
f22ef01cSRoman Divacky        // Just repeat the same debug loc as last time.
f22ef01cSRoman Divacky        Stream.EmitRecord(bitc::FUNC_CODE_DEBUG_LOC_AGAIN, Vals);
f22ef01cSRoman Divacky      } else {
f22ef01cSRoman Divacky        MDNode *Scope, *IA;
f22ef01cSRoman Divacky        DL.getScopeAndInlinedAt(Scope, IA, I->getContext());
39d628a0SDimitry Andric        assert(Scope && "Expected valid scope");
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky        Vals.push_back(DL.getLine());
f22ef01cSRoman Divacky        Vals.push_back(DL.getCol());
39d628a0SDimitry Andric        Vals.push_back(Scope ? VE.getMetadataID(Scope) + 1 : 0);
39d628a0SDimitry Andric        Vals.push_back(IA ? VE.getMetadataID(IA) + 1 : 0);
17a519f9SDimitry Andric        Stream.EmitRecord(bitc::FUNC_CODE_DEBUG_LOC, Vals);
f22ef01cSRoman Divacky        Vals.clear();
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky        LastDL = DL;
f22ef01cSRoman Divacky      }
f22ef01cSRoman Divacky    }
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  // Emit names for all the instructions etc.
f22ef01cSRoman Divacky  WriteValueSymbolTable(F.getValueSymbolTable(), VE, Stream);
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  if (NeedsMetadataAttachment)
f22ef01cSRoman Divacky    WriteMetadataAttachment(F, VE, Stream);
39d628a0SDimitry Andric  if (shouldPreserveBitcodeUseListOrder())
39d628a0SDimitry Andric    WriteUseListBlock(&F, VE, Stream);
f22ef01cSRoman Divacky  VE.purgeFunction();
f22ef01cSRoman Divacky  Stream.ExitBlock();
f22ef01cSRoman Divacky}
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky// Emit blockinfo, which defines the standard abbreviations etc.
f22ef01cSRoman Divackystatic void WriteBlockInfo(const ValueEnumerator &VE, BitstreamWriter &Stream) {
f22ef01cSRoman Divacky  // We only want to emit block info records for blocks that have multiple
3861d79fSDimitry Andric  // instances: CONSTANTS_BLOCK, FUNCTION_BLOCK and VALUE_SYMTAB_BLOCK.
3861d79fSDimitry Andric  // Other blocks can define their abbrevs inline.
f22ef01cSRoman Divacky  Stream.EnterBlockInfoBlock(2);
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  { // 8-bit fixed-width VST_ENTRY/VST_BBENTRY strings.
f22ef01cSRoman Divacky    BitCodeAbbrev *Abbv = new BitCodeAbbrev();
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 3));
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 8));
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Array));
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 8));
f22ef01cSRoman Divacky    if (Stream.EmitBlockInfoAbbrev(bitc::VALUE_SYMTAB_BLOCK_ID,
f22ef01cSRoman Divacky                                   Abbv) != VST_ENTRY_8_ABBREV)
f22ef01cSRoman Divacky      llvm_unreachable("Unexpected abbrev ordering!");
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  { // 7-bit fixed width VST_ENTRY strings.
f22ef01cSRoman Divacky    BitCodeAbbrev *Abbv = new BitCodeAbbrev();
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(bitc::VST_CODE_ENTRY));
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 8));
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Array));
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 7));
f22ef01cSRoman Divacky    if (Stream.EmitBlockInfoAbbrev(bitc::VALUE_SYMTAB_BLOCK_ID,
f22ef01cSRoman Divacky                                   Abbv) != VST_ENTRY_7_ABBREV)
f22ef01cSRoman Divacky      llvm_unreachable("Unexpected abbrev ordering!");
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky  { // 6-bit char6 VST_ENTRY strings.
f22ef01cSRoman Divacky    BitCodeAbbrev *Abbv = new BitCodeAbbrev();
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(bitc::VST_CODE_ENTRY));
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 8));
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Array));
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Char6));
f22ef01cSRoman Divacky    if (Stream.EmitBlockInfoAbbrev(bitc::VALUE_SYMTAB_BLOCK_ID,
f22ef01cSRoman Divacky                                   Abbv) != VST_ENTRY_6_ABBREV)
f22ef01cSRoman Divacky      llvm_unreachable("Unexpected abbrev ordering!");
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky  { // 6-bit char6 VST_BBENTRY strings.
f22ef01cSRoman Divacky    BitCodeAbbrev *Abbv = new BitCodeAbbrev();
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(bitc::VST_CODE_BBENTRY));
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 8));
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Array));
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Char6));
f22ef01cSRoman Divacky    if (Stream.EmitBlockInfoAbbrev(bitc::VALUE_SYMTAB_BLOCK_ID,
f22ef01cSRoman Divacky                                   Abbv) != VST_BBENTRY_6_ABBREV)
f22ef01cSRoman Divacky      llvm_unreachable("Unexpected abbrev ordering!");
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  { // SETTYPE abbrev for CONSTANTS_BLOCK.
f22ef01cSRoman Divacky    BitCodeAbbrev *Abbv = new BitCodeAbbrev();
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(bitc::CST_CODE_SETTYPE));
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed,
f22ef01cSRoman Divacky                              Log2_32_Ceil(VE.getTypes().size()+1)));
f22ef01cSRoman Divacky    if (Stream.EmitBlockInfoAbbrev(bitc::CONSTANTS_BLOCK_ID,
f22ef01cSRoman Divacky                                   Abbv) != CONSTANTS_SETTYPE_ABBREV)
f22ef01cSRoman Divacky      llvm_unreachable("Unexpected abbrev ordering!");
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  { // INTEGER abbrev for CONSTANTS_BLOCK.
f22ef01cSRoman Divacky    BitCodeAbbrev *Abbv = new BitCodeAbbrev();
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(bitc::CST_CODE_INTEGER));
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 8));
f22ef01cSRoman Divacky    if (Stream.EmitBlockInfoAbbrev(bitc::CONSTANTS_BLOCK_ID,
f22ef01cSRoman Divacky                                   Abbv) != CONSTANTS_INTEGER_ABBREV)
f22ef01cSRoman Divacky      llvm_unreachable("Unexpected abbrev ordering!");
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  { // CE_CAST abbrev for CONSTANTS_BLOCK.
f22ef01cSRoman Divacky    BitCodeAbbrev *Abbv = new BitCodeAbbrev();
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(bitc::CST_CODE_CE_CAST));
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 4));  // cast opc
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed,       // typeid
f22ef01cSRoman Divacky                              Log2_32_Ceil(VE.getTypes().size()+1)));
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 8));    // value id
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky    if (Stream.EmitBlockInfoAbbrev(bitc::CONSTANTS_BLOCK_ID,
f22ef01cSRoman Divacky                                   Abbv) != CONSTANTS_CE_CAST_Abbrev)
f22ef01cSRoman Divacky      llvm_unreachable("Unexpected abbrev ordering!");
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky  { // NULL abbrev for CONSTANTS_BLOCK.
f22ef01cSRoman Divacky    BitCodeAbbrev *Abbv = new BitCodeAbbrev();
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(bitc::CST_CODE_NULL));
f22ef01cSRoman Divacky    if (Stream.EmitBlockInfoAbbrev(bitc::CONSTANTS_BLOCK_ID,
f22ef01cSRoman Divacky                                   Abbv) != CONSTANTS_NULL_Abbrev)
f22ef01cSRoman Divacky      llvm_unreachable("Unexpected abbrev ordering!");
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  // FIXME: This should only use space for first class types!
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  { // INST_LOAD abbrev for FUNCTION_BLOCK.
f22ef01cSRoman Divacky    BitCodeAbbrev *Abbv = new BitCodeAbbrev();
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(bitc::FUNC_CODE_INST_LOAD));
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 6)); // Ptr
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 4)); // Align
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 1)); // volatile
f22ef01cSRoman Divacky    if (Stream.EmitBlockInfoAbbrev(bitc::FUNCTION_BLOCK_ID,
f22ef01cSRoman Divacky                                   Abbv) != FUNCTION_INST_LOAD_ABBREV)
f22ef01cSRoman Divacky      llvm_unreachable("Unexpected abbrev ordering!");
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky  { // INST_BINOP abbrev for FUNCTION_BLOCK.
f22ef01cSRoman Divacky    BitCodeAbbrev *Abbv = new BitCodeAbbrev();
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(bitc::FUNC_CODE_INST_BINOP));
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 6)); // LHS
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 6)); // RHS
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 4)); // opc
f22ef01cSRoman Divacky    if (Stream.EmitBlockInfoAbbrev(bitc::FUNCTION_BLOCK_ID,
f22ef01cSRoman Divacky                                   Abbv) != FUNCTION_INST_BINOP_ABBREV)
f22ef01cSRoman Divacky      llvm_unreachable("Unexpected abbrev ordering!");
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky  { // INST_BINOP_FLAGS abbrev for FUNCTION_BLOCK.
f22ef01cSRoman Divacky    BitCodeAbbrev *Abbv = new BitCodeAbbrev();
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(bitc::FUNC_CODE_INST_BINOP));
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 6)); // LHS
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 6)); // RHS
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 4)); // opc
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 7)); // flags
f22ef01cSRoman Divacky    if (Stream.EmitBlockInfoAbbrev(bitc::FUNCTION_BLOCK_ID,
f22ef01cSRoman Divacky                                   Abbv) != FUNCTION_INST_BINOP_FLAGS_ABBREV)
f22ef01cSRoman Divacky      llvm_unreachable("Unexpected abbrev ordering!");
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky  { // INST_CAST abbrev for FUNCTION_BLOCK.
f22ef01cSRoman Divacky    BitCodeAbbrev *Abbv = new BitCodeAbbrev();
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(bitc::FUNC_CODE_INST_CAST));
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 6));    // OpVal
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed,       // dest ty
f22ef01cSRoman Divacky                              Log2_32_Ceil(VE.getTypes().size()+1)));
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::Fixed, 4));  // opc
f22ef01cSRoman Divacky    if (Stream.EmitBlockInfoAbbrev(bitc::FUNCTION_BLOCK_ID,
f22ef01cSRoman Divacky                                   Abbv) != FUNCTION_INST_CAST_ABBREV)
f22ef01cSRoman Divacky      llvm_unreachable("Unexpected abbrev ordering!");
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  { // INST_RET abbrev for FUNCTION_BLOCK.
f22ef01cSRoman Divacky    BitCodeAbbrev *Abbv = new BitCodeAbbrev();
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(bitc::FUNC_CODE_INST_RET));
f22ef01cSRoman Divacky    if (Stream.EmitBlockInfoAbbrev(bitc::FUNCTION_BLOCK_ID,
f22ef01cSRoman Divacky                                   Abbv) != FUNCTION_INST_RET_VOID_ABBREV)
f22ef01cSRoman Divacky      llvm_unreachable("Unexpected abbrev ordering!");
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky  { // INST_RET abbrev for FUNCTION_BLOCK.
f22ef01cSRoman Divacky    BitCodeAbbrev *Abbv = new BitCodeAbbrev();
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(bitc::FUNC_CODE_INST_RET));
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(BitCodeAbbrevOp::VBR, 6)); // ValID
f22ef01cSRoman Divacky    if (Stream.EmitBlockInfoAbbrev(bitc::FUNCTION_BLOCK_ID,
f22ef01cSRoman Divacky                                   Abbv) != FUNCTION_INST_RET_VAL_ABBREV)
f22ef01cSRoman Divacky      llvm_unreachable("Unexpected abbrev ordering!");
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky  { // INST_UNREACHABLE abbrev for FUNCTION_BLOCK.
f22ef01cSRoman Divacky    BitCodeAbbrev *Abbv = new BitCodeAbbrev();
f22ef01cSRoman Divacky    Abbv->Add(BitCodeAbbrevOp(bitc::FUNC_CODE_INST_UNREACHABLE));
f22ef01cSRoman Divacky    if (Stream.EmitBlockInfoAbbrev(bitc::FUNCTION_BLOCK_ID,
f22ef01cSRoman Divacky                                   Abbv) != FUNCTION_INST_UNREACHABLE_ABBREV)
f22ef01cSRoman Divacky      llvm_unreachable("Unexpected abbrev ordering!");
f22ef01cSRoman Divacky  }
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  Stream.ExitBlock();
f22ef01cSRoman Divacky}
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky/// WriteModule - Emit the specified module to the bitstream.
f22ef01cSRoman Divackystatic void WriteModule(const Module *M, BitstreamWriter &Stream) {
f22ef01cSRoman Divacky  Stream.EnterSubblock(bitc::MODULE_BLOCK_ID, 3);
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  SmallVector<unsigned, 1> Vals;
3861d79fSDimitry Andric  unsigned CurVersion = 1;
f22ef01cSRoman Divacky  Vals.push_back(CurVersion);
f22ef01cSRoman Divacky  Stream.EmitRecord(bitc::MODULE_CODE_VERSION, Vals);
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  // Analyze the module, enumerating globals, functions, etc.
39d628a0SDimitry Andric  ValueEnumerator VE(*M);
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  // Emit blockinfo, which defines the standard abbreviations etc.
f22ef01cSRoman Divacky  WriteBlockInfo(VE, Stream);
f22ef01cSRoman Divacky
139f7f9bSDimitry Andric  // Emit information about attribute groups.
139f7f9bSDimitry Andric  WriteAttributeGroupTable(VE, Stream);
139f7f9bSDimitry Andric
f22ef01cSRoman Divacky  // Emit information about parameter attributes.
f22ef01cSRoman Divacky  WriteAttributeTable(VE, Stream);
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  // Emit information describing all of the types in the module.
f22ef01cSRoman Divacky  WriteTypeTable(VE, Stream);
f22ef01cSRoman Divacky
91bc56edSDimitry Andric  writeComdats(VE, Stream);
91bc56edSDimitry Andric
f22ef01cSRoman Divacky  // Emit top-level description of module, including target triple, inline asm,
f22ef01cSRoman Divacky  // descriptors for global variables, and function prototype info.
f22ef01cSRoman Divacky  WriteModuleInfo(M, VE, Stream);
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  // Emit constants.
f22ef01cSRoman Divacky  WriteModuleConstants(VE, Stream);
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  // Emit metadata.
e580952dSDimitry Andric  WriteModuleMetadata(M, VE, Stream);
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  // Emit metadata.
f22ef01cSRoman Divacky  WriteModuleMetadataStore(M, Stream);
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  // Emit names for globals/functions etc.
f22ef01cSRoman Divacky  WriteValueSymbolTable(M->getValueSymbolTable(), VE, Stream);
f22ef01cSRoman Divacky
39d628a0SDimitry Andric  // Emit module-level use-lists.
39d628a0SDimitry Andric  if (shouldPreserveBitcodeUseListOrder())
39d628a0SDimitry Andric    WriteUseListBlock(nullptr, VE, Stream);
dff0c46cSDimitry Andric
dff0c46cSDimitry Andric  // Emit function bodies.
dff0c46cSDimitry Andric  for (Module::const_iterator F = M->begin(), E = M->end(); F != E; ++F)
dff0c46cSDimitry Andric    if (!F->isDeclaration())
dff0c46cSDimitry Andric      WriteFunction(*F, VE, Stream);
dff0c46cSDimitry Andric
f22ef01cSRoman Divacky  Stream.ExitBlock();
f22ef01cSRoman Divacky}
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky/// EmitDarwinBCHeader - If generating a bc file on darwin, we have to emit a
f22ef01cSRoman Divacky/// header and trailer to make it compatible with the system archiver.  To do
f22ef01cSRoman Divacky/// this we emit the following header, and then emit a trailer that pads the
f22ef01cSRoman Divacky/// file out to be a multiple of 16 bytes.
f22ef01cSRoman Divacky///
f22ef01cSRoman Divacky/// struct bc_header {
f22ef01cSRoman Divacky///   uint32_t Magic;         // 0x0B17C0DE
f22ef01cSRoman Divacky///   uint32_t Version;       // Version, currently always 0.
f22ef01cSRoman Divacky///   uint32_t BitcodeOffset; // Offset to traditional bitcode file.
f22ef01cSRoman Divacky///   uint32_t BitcodeSize;   // Size of traditional bitcode file.
f22ef01cSRoman Divacky///   uint32_t CPUType;       // CPU specifier.
f22ef01cSRoman Divacky///   ... potentially more later ...
f22ef01cSRoman Divacky/// };
f22ef01cSRoman Divackyenum {
f22ef01cSRoman Divacky  DarwinBCSizeFieldOffset = 3*4, // Offset to bitcode_size.
f22ef01cSRoman Divacky  DarwinBCHeaderSize = 5*4
f22ef01cSRoman Divacky};
f22ef01cSRoman Divacky
dff0c46cSDimitry Andricstatic void WriteInt32ToBuffer(uint32_t Value, SmallVectorImpl<char> &Buffer,
dff0c46cSDimitry Andric                               uint32_t &Position) {
dff0c46cSDimitry Andric  Buffer[Position + 0] = (unsigned char) (Value >>  0);
dff0c46cSDimitry Andric  Buffer[Position + 1] = (unsigned char) (Value >>  8);
dff0c46cSDimitry Andric  Buffer[Position + 2] = (unsigned char) (Value >> 16);
dff0c46cSDimitry Andric  Buffer[Position + 3] = (unsigned char) (Value >> 24);
dff0c46cSDimitry Andric  Position += 4;
dff0c46cSDimitry Andric}
dff0c46cSDimitry Andric
dff0c46cSDimitry Andricstatic void EmitDarwinBCHeaderAndTrailer(SmallVectorImpl<char> &Buffer,
dff0c46cSDimitry Andric                                         const Triple &TT) {
f22ef01cSRoman Divacky  unsigned CPUType = ~0U;
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  // Match x86_64-*, i[3-9]86-*, powerpc-*, powerpc64-*, arm-*, thumb-*,
f22ef01cSRoman Divacky  // armv[0-9]-*, thumbv[0-9]-*, armv5te-*, or armv6t2-*. The CPUType is a magic
f22ef01cSRoman Divacky  // number from /usr/include/mach/machine.h.  It is ok to reproduce the
f22ef01cSRoman Divacky  // specific constants here because they are implicitly part of the Darwin ABI.
f22ef01cSRoman Divacky  enum {
f22ef01cSRoman Divacky    DARWIN_CPU_ARCH_ABI64      = 0x01000000,
f22ef01cSRoman Divacky    DARWIN_CPU_TYPE_X86        = 7,
f22ef01cSRoman Divacky    DARWIN_CPU_TYPE_ARM        = 12,
f22ef01cSRoman Divacky    DARWIN_CPU_TYPE_POWERPC    = 18
f22ef01cSRoman Divacky  };
f22ef01cSRoman Divacky
17a519f9SDimitry Andric  Triple::ArchType Arch = TT.getArch();
17a519f9SDimitry Andric  if (Arch == Triple::x86_64)
f22ef01cSRoman Divacky    CPUType = DARWIN_CPU_TYPE_X86 | DARWIN_CPU_ARCH_ABI64;
17a519f9SDimitry Andric  else if (Arch == Triple::x86)
f22ef01cSRoman Divacky    CPUType = DARWIN_CPU_TYPE_X86;
17a519f9SDimitry Andric  else if (Arch == Triple::ppc)
f22ef01cSRoman Divacky    CPUType = DARWIN_CPU_TYPE_POWERPC;
17a519f9SDimitry Andric  else if (Arch == Triple::ppc64)
f22ef01cSRoman Divacky    CPUType = DARWIN_CPU_TYPE_POWERPC | DARWIN_CPU_ARCH_ABI64;
17a519f9SDimitry Andric  else if (Arch == Triple::arm || Arch == Triple::thumb)
f22ef01cSRoman Divacky    CPUType = DARWIN_CPU_TYPE_ARM;
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  // Traditional Bitcode starts after header.
dff0c46cSDimitry Andric  assert(Buffer.size() >= DarwinBCHeaderSize &&
dff0c46cSDimitry Andric         "Expected header size to be reserved");
f22ef01cSRoman Divacky  unsigned BCOffset = DarwinBCHeaderSize;
dff0c46cSDimitry Andric  unsigned BCSize = Buffer.size()-DarwinBCHeaderSize;
f22ef01cSRoman Divacky
dff0c46cSDimitry Andric  // Write the magic and version.
dff0c46cSDimitry Andric  unsigned Position = 0;
dff0c46cSDimitry Andric  WriteInt32ToBuffer(0x0B17C0DE , Buffer, Position);
dff0c46cSDimitry Andric  WriteInt32ToBuffer(0          , Buffer, Position); // Version.
dff0c46cSDimitry Andric  WriteInt32ToBuffer(BCOffset   , Buffer, Position);
dff0c46cSDimitry Andric  WriteInt32ToBuffer(BCSize     , Buffer, Position);
dff0c46cSDimitry Andric  WriteInt32ToBuffer(CPUType    , Buffer, Position);
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky  // If the file is not a multiple of 16 bytes, insert dummy padding.
dff0c46cSDimitry Andric  while (Buffer.size() & 15)
dff0c46cSDimitry Andric    Buffer.push_back(0);
f22ef01cSRoman Divacky}
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky/// WriteBitcodeToFile - Write the specified module to the specified output
f22ef01cSRoman Divacky/// stream.
f22ef01cSRoman Divackyvoid llvm::WriteBitcodeToFile(const Module *M, raw_ostream &Out) {
139f7f9bSDimitry Andric  SmallVector<char, 0> Buffer;
f22ef01cSRoman Divacky  Buffer.reserve(256*1024);
f22ef01cSRoman Divacky
dff0c46cSDimitry Andric  // If this is darwin or another generic macho target, reserve space for the
dff0c46cSDimitry Andric  // header.
17a519f9SDimitry Andric  Triple TT(M->getTargetTriple());
17a519f9SDimitry Andric  if (TT.isOSDarwin())
dff0c46cSDimitry Andric    Buffer.insert(Buffer.begin(), DarwinBCHeaderSize, 0);
dff0c46cSDimitry Andric
dff0c46cSDimitry Andric  // Emit the module into the buffer.
dff0c46cSDimitry Andric  {
dff0c46cSDimitry Andric    BitstreamWriter Stream(Buffer);
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky    // Emit the file header.
f22ef01cSRoman Divacky    Stream.Emit((unsigned)'B', 8);
f22ef01cSRoman Divacky    Stream.Emit((unsigned)'C', 8);
f22ef01cSRoman Divacky    Stream.Emit(0x0, 4);
f22ef01cSRoman Divacky    Stream.Emit(0xC, 4);
f22ef01cSRoman Divacky    Stream.Emit(0xE, 4);
f22ef01cSRoman Divacky    Stream.Emit(0xD, 4);
f22ef01cSRoman Divacky
f22ef01cSRoman Divacky    // Emit the module.
f22ef01cSRoman Divacky    WriteModule(M, Stream);
dff0c46cSDimitry Andric  }
f22ef01cSRoman Divacky
17a519f9SDimitry Andric  if (TT.isOSDarwin())
dff0c46cSDimitry Andric    EmitDarwinBCHeaderAndTrailer(Buffer, TT);
dff0c46cSDimitry Andric
dff0c46cSDimitry Andric  // Write the generated bitstream to "Out".
dff0c46cSDimitry Andric  Out.write((char*)&Buffer.front(), Buffer.size());
f22ef01cSRoman Divacky}