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Rejected r156374: Ordinary PR1255 patch. Due to clang-x86_64-debian-fnt buildbot failure.

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git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@156377 91177308-0d34-0410-b5e6-96231b3b80d8
This commit is contained in:
Stepan Dyatkovskiy
2012-05-08 08:33:21 +00:00
parent 189bce48c7
commit 1f9838347f
6 changed files with 39 additions and 236 deletions
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87
lib/Bitcode/Writer/BitcodeWriter.cpp
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@ -62,10 +62,7 @@ enum {
FUNCTION_INST_CAST_ABBREV,
FUNCTION_INST_RET_VOID_ABBREV,
FUNCTION_INST_RET_VAL_ABBREV,
FUNCTION_INST_UNREACHABLE_ABBREV,
// SwitchInst Magic
SWITCH_INST_MAGIC = 0x4B5 // May 2012 => 1205 => Hex
FUNCTION_INST_UNREACHABLE_ABBREV
};
static unsigned GetEncodedCastOpcode(unsigned Opcode) {
@ -722,42 +719,6 @@ static void WriteModuleMetadataStore(const Module *M, BitstreamWriter &Stream) {
Stream.ExitBlock();
}
template <typename intty>
static void EmitAPInt(SmallVectorImpl<intty> &Vals,
unsigned &Code, unsigned &AbbrevToUse, const APInt &Val,
bool EmitSizeForWideNumbers = false
) {
if (Val.getBitWidth() <= 64) {
uint64_t V = Val.getSExtValue();
if ((int64_t)V >= 0)
Vals.push_back(V << 1);
else
Vals.push_back((-V << 1) | 1);
Code = bitc::CST_CODE_INTEGER;
AbbrevToUse = CONSTANTS_INTEGER_ABBREV;
} else {
// Wide integers, > 64 bits in size.
// We have an arbitrary precision integer value to write whose
// bit width is > 64. However, in canonical unsigned integer
// format it is likely that the high bits are going to be zero.
// So, we only write the number of active words.
unsigned NWords = Val.getActiveWords();
if (EmitSizeForWideNumbers)
Vals.push_back(NWords);
const uint64_t *RawWords = Val.getRawData();
for (unsigned i = 0; i != NWords; ++i) {
int64_t V = RawWords[i];
if (V >= 0)
Vals.push_back(V << 1);
else
Vals.push_back((-V << 1) | 1);
}
Code = bitc::CST_CODE_WIDE_INTEGER;
}
}
static void WriteConstants(unsigned FirstVal, unsigned LastVal,
const ValueEnumerator &VE,
BitstreamWriter &Stream, bool isGlobal) {
@ -840,7 +801,30 @@ static void WriteConstants(unsigned FirstVal, unsigned LastVal,
} else if (isa<UndefValue>(C)) {
Code = bitc::CST_CODE_UNDEF;
} else if (const ConstantInt *IV = dyn_cast<ConstantInt>(C)) {
EmitAPInt(Record, Code, AbbrevToUse, IV->getValue());
if (IV->getBitWidth() <= 64) {
uint64_t V = IV->getSExtValue();
if ((int64_t)V >= 0)
Record.push_back(V << 1);
else
Record.push_back((-V << 1) | 1);
Code = bitc::CST_CODE_INTEGER;
AbbrevToUse = CONSTANTS_INTEGER_ABBREV;
} else { // Wide integers, > 64 bits in size.
// We have an arbitrary precision integer value to write whose
// bit width is > 64. However, in canonical unsigned integer
// format it is likely that the high bits are going to be zero.
// So, we only write the number of active words.
unsigned NWords = IV->getValue().getActiveWords();
const uint64_t *RawWords = IV->getValue().getRawData();
for (unsigned i = 0; i != NWords; ++i) {
int64_t V = RawWords[i];
if (V >= 0)
Record.push_back(V << 1);
else
Record.push_back((-V << 1) | 1);
}
Code = bitc::CST_CODE_WIDE_INTEGER;
}
} else if (const ConstantFP *CFP = dyn_cast<ConstantFP>(C)) {
Code = bitc::CST_CODE_FLOAT;
Type *Ty = CFP->getType();
@ -1155,31 +1139,12 @@ static void WriteInstruction(const Instruction &I, unsigned InstID,
{
Code = bitc::FUNC_CODE_INST_SWITCH;
SwitchInst &SI = cast<SwitchInst>(I);
uint32_t SwitchRecordHeader = SI.Hash() | (SWITCH_INST_MAGIC << 16);
Vals.push_back(SwitchRecordHeader);
Vals.push_back(VE.getTypeID(SI.getCondition()->getType()));
Vals.push_back(VE.getValueID(SI.getCondition()));
Vals.push_back(VE.getValueID(SI.getDefaultDest()));
Vals.push_back(SI.getNumCases());
for (SwitchInst::CaseIt i = SI.case_begin(), e = SI.case_end();
i != e; ++i) {
ConstantRangesSet CRS = i.getCaseValueEx();
Vals.push_back(CRS.getNumItems());
for (unsigned ri = 0, rn = CRS.getNumItems(); ri != rn; ++ri) {
ConstantRangesSet::Range r = CRS.getItem(ri);
Vals.push_back(CRS.isSingleNumber(ri));
const APInt &Low = r.Low->getValue();
const APInt &High = r.High->getValue();
unsigned Code, Abbrev; // will unused.
EmitAPInt(Vals, Code, Abbrev, Low, true);
if (r.Low != r.High)
EmitAPInt(Vals, Code, Abbrev, High, true);
}
Vals.push_back(VE.getValueID(i.getCaseValue()));
Vals.push_back(VE.getValueID(i.getCaseSuccessor()));
}
}