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12f69b73cd
Preparatory patch for MachO feature.
484 lines
18 KiB
C++
484 lines
18 KiB
C++
//===-- SourcePrinter.cpp - source interleaving utilities ----------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// This file implements the LiveVariablePrinter and SourcePrinter classes to
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// keep track of DWARF info as the current address is updated, and print out the
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// source file line and variable liveness as needed.
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//
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//===----------------------------------------------------------------------===//
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#include "SourcePrinter.h"
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#include "llvm-objdump.h"
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#include "llvm/ADT/SmallSet.h"
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#include "llvm/ADT/StringSet.h"
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#include "llvm/MC/MCSubtargetInfo.h"
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#include "llvm/Support/FormatVariadic.h"
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#define DEBUG_TYPE "objdump"
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namespace llvm {
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namespace objdump {
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unsigned getInstStartColumn(const MCSubtargetInfo &STI) {
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return !ShowRawInsn ? 16 : STI.getTargetTriple().isX86() ? 40 : 24;
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}
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bool LiveVariable::liveAtAddress(object::SectionedAddress Addr) {
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if (LocExpr.Range == None)
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return false;
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return LocExpr.Range->SectionIndex == Addr.SectionIndex &&
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LocExpr.Range->LowPC <= Addr.Address &&
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LocExpr.Range->HighPC > Addr.Address;
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}
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void LiveVariable::print(raw_ostream &OS, const MCRegisterInfo &MRI) const {
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DataExtractor Data({LocExpr.Expr.data(), LocExpr.Expr.size()},
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Unit->getContext().isLittleEndian(), 0);
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DWARFExpression Expression(Data, Unit->getAddressByteSize());
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Expression.printCompact(OS, MRI);
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}
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void LiveVariablePrinter::addVariable(DWARFDie FuncDie, DWARFDie VarDie) {
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uint64_t FuncLowPC, FuncHighPC, SectionIndex;
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FuncDie.getLowAndHighPC(FuncLowPC, FuncHighPC, SectionIndex);
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const char *VarName = VarDie.getName(DINameKind::ShortName);
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DWARFUnit *U = VarDie.getDwarfUnit();
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Expected<DWARFLocationExpressionsVector> Locs =
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VarDie.getLocations(dwarf::DW_AT_location);
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if (!Locs) {
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// If the variable doesn't have any locations, just ignore it. We don't
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// report an error or warning here as that could be noisy on optimised
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// code.
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consumeError(Locs.takeError());
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return;
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}
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for (const DWARFLocationExpression &LocExpr : *Locs) {
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if (LocExpr.Range) {
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LiveVariables.emplace_back(LocExpr, VarName, U, FuncDie);
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} else {
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// If the LocExpr does not have an associated range, it is valid for
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// the whole of the function.
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// TODO: technically it is not valid for any range covered by another
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// LocExpr, does that happen in reality?
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DWARFLocationExpression WholeFuncExpr{
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DWARFAddressRange(FuncLowPC, FuncHighPC, SectionIndex), LocExpr.Expr};
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LiveVariables.emplace_back(WholeFuncExpr, VarName, U, FuncDie);
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}
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}
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}
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void LiveVariablePrinter::addFunction(DWARFDie D) {
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for (const DWARFDie &Child : D.children()) {
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if (Child.getTag() == dwarf::DW_TAG_variable ||
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Child.getTag() == dwarf::DW_TAG_formal_parameter)
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addVariable(D, Child);
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else
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addFunction(Child);
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}
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}
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// Get the column number (in characters) at which the first live variable
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// line should be printed.
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unsigned LiveVariablePrinter::getIndentLevel() const {
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return DbgIndent + getInstStartColumn(STI);
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}
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// Indent to the first live-range column to the right of the currently
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// printed line, and return the index of that column.
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// TODO: formatted_raw_ostream uses "column" to mean a number of characters
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// since the last \n, and we use it to mean the number of slots in which we
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// put live variable lines. Pick a less overloaded word.
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unsigned LiveVariablePrinter::moveToFirstVarColumn(formatted_raw_ostream &OS) {
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// Logical column number: column zero is the first column we print in, each
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// logical column is 2 physical columns wide.
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unsigned FirstUnprintedLogicalColumn =
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std::max((int)(OS.getColumn() - getIndentLevel() + 1) / 2, 0);
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// Physical column number: the actual column number in characters, with
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// zero being the left-most side of the screen.
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unsigned FirstUnprintedPhysicalColumn =
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getIndentLevel() + FirstUnprintedLogicalColumn * 2;
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if (FirstUnprintedPhysicalColumn > OS.getColumn())
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OS.PadToColumn(FirstUnprintedPhysicalColumn);
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return FirstUnprintedLogicalColumn;
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}
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unsigned LiveVariablePrinter::findFreeColumn() {
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for (unsigned ColIdx = 0; ColIdx < ActiveCols.size(); ++ColIdx)
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if (!ActiveCols[ColIdx].isActive())
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return ColIdx;
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size_t OldSize = ActiveCols.size();
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ActiveCols.grow(std::max<size_t>(OldSize * 2, 1));
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return OldSize;
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}
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void LiveVariablePrinter::dump() const {
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for (const LiveVariable &LV : LiveVariables) {
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dbgs() << LV.VarName << " @ " << LV.LocExpr.Range << ": ";
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LV.print(dbgs(), MRI);
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dbgs() << "\n";
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}
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}
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void LiveVariablePrinter::addCompileUnit(DWARFDie D) {
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if (D.getTag() == dwarf::DW_TAG_subprogram)
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addFunction(D);
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else
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for (const DWARFDie &Child : D.children())
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addFunction(Child);
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}
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/// Update to match the state of the instruction between ThisAddr and
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/// NextAddr. In the common case, any live range active at ThisAddr is
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/// live-in to the instruction, and any live range active at NextAddr is
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/// live-out of the instruction. If IncludeDefinedVars is false, then live
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/// ranges starting at NextAddr will be ignored.
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void LiveVariablePrinter::update(object::SectionedAddress ThisAddr,
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object::SectionedAddress NextAddr,
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bool IncludeDefinedVars) {
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// First, check variables which have already been assigned a column, so
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// that we don't change their order.
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SmallSet<unsigned, 8> CheckedVarIdxs;
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for (unsigned ColIdx = 0, End = ActiveCols.size(); ColIdx < End; ++ColIdx) {
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if (!ActiveCols[ColIdx].isActive())
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continue;
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CheckedVarIdxs.insert(ActiveCols[ColIdx].VarIdx);
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LiveVariable &LV = LiveVariables[ActiveCols[ColIdx].VarIdx];
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ActiveCols[ColIdx].LiveIn = LV.liveAtAddress(ThisAddr);
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ActiveCols[ColIdx].LiveOut = LV.liveAtAddress(NextAddr);
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LLVM_DEBUG(dbgs() << "pass 1, " << ThisAddr.Address << "-"
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<< NextAddr.Address << ", " << LV.VarName << ", Col "
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<< ColIdx << ": LiveIn=" << ActiveCols[ColIdx].LiveIn
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<< ", LiveOut=" << ActiveCols[ColIdx].LiveOut << "\n");
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if (!ActiveCols[ColIdx].LiveIn && !ActiveCols[ColIdx].LiveOut)
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ActiveCols[ColIdx].VarIdx = Column::NullVarIdx;
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}
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// Next, look for variables which don't already have a column, but which
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// are now live.
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if (IncludeDefinedVars) {
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for (unsigned VarIdx = 0, End = LiveVariables.size(); VarIdx < End;
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++VarIdx) {
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if (CheckedVarIdxs.count(VarIdx))
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continue;
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LiveVariable &LV = LiveVariables[VarIdx];
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bool LiveIn = LV.liveAtAddress(ThisAddr);
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bool LiveOut = LV.liveAtAddress(NextAddr);
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if (!LiveIn && !LiveOut)
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continue;
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unsigned ColIdx = findFreeColumn();
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LLVM_DEBUG(dbgs() << "pass 2, " << ThisAddr.Address << "-"
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<< NextAddr.Address << ", " << LV.VarName << ", Col "
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<< ColIdx << ": LiveIn=" << LiveIn
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<< ", LiveOut=" << LiveOut << "\n");
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ActiveCols[ColIdx].VarIdx = VarIdx;
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ActiveCols[ColIdx].LiveIn = LiveIn;
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ActiveCols[ColIdx].LiveOut = LiveOut;
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ActiveCols[ColIdx].MustDrawLabel = true;
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}
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}
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}
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enum class LineChar {
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RangeStart,
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RangeMid,
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RangeEnd,
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LabelVert,
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LabelCornerNew,
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LabelCornerActive,
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LabelHoriz,
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};
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const char *LiveVariablePrinter::getLineChar(LineChar C) const {
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bool IsASCII = DbgVariables == DVASCII;
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switch (C) {
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case LineChar::RangeStart:
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return IsASCII ? "^" : (const char *)u8"\u2548";
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case LineChar::RangeMid:
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return IsASCII ? "|" : (const char *)u8"\u2503";
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case LineChar::RangeEnd:
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return IsASCII ? "v" : (const char *)u8"\u253b";
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case LineChar::LabelVert:
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return IsASCII ? "|" : (const char *)u8"\u2502";
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case LineChar::LabelCornerNew:
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return IsASCII ? "/" : (const char *)u8"\u250c";
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case LineChar::LabelCornerActive:
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return IsASCII ? "|" : (const char *)u8"\u2520";
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case LineChar::LabelHoriz:
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return IsASCII ? "-" : (const char *)u8"\u2500";
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}
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llvm_unreachable("Unhandled LineChar enum");
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}
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/// Print live ranges to the right of an existing line. This assumes the
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/// line is not an instruction, so doesn't start or end any live ranges, so
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/// we only need to print active ranges or empty columns. If AfterInst is
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/// true, this is being printed after the last instruction fed to update(),
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/// otherwise this is being printed before it.
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void LiveVariablePrinter::printAfterOtherLine(formatted_raw_ostream &OS,
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bool AfterInst) {
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if (ActiveCols.size()) {
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unsigned FirstUnprintedColumn = moveToFirstVarColumn(OS);
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for (size_t ColIdx = FirstUnprintedColumn, End = ActiveCols.size();
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ColIdx < End; ++ColIdx) {
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if (ActiveCols[ColIdx].isActive()) {
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if ((AfterInst && ActiveCols[ColIdx].LiveOut) ||
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(!AfterInst && ActiveCols[ColIdx].LiveIn))
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OS << getLineChar(LineChar::RangeMid);
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else if (!AfterInst && ActiveCols[ColIdx].LiveOut)
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OS << getLineChar(LineChar::LabelVert);
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else
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OS << " ";
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}
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OS << " ";
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}
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}
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OS << "\n";
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}
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/// Print any live variable range info needed to the right of a
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/// non-instruction line of disassembly. This is where we print the variable
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/// names and expressions, with thin line-drawing characters connecting them
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/// to the live range which starts at the next instruction. If MustPrint is
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/// true, we have to print at least one line (with the continuation of any
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/// already-active live ranges) because something has already been printed
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/// earlier on this line.
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void LiveVariablePrinter::printBetweenInsts(formatted_raw_ostream &OS,
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bool MustPrint) {
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bool PrintedSomething = false;
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for (unsigned ColIdx = 0, End = ActiveCols.size(); ColIdx < End; ++ColIdx) {
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if (ActiveCols[ColIdx].isActive() && ActiveCols[ColIdx].MustDrawLabel) {
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// First we need to print the live range markers for any active
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// columns to the left of this one.
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OS.PadToColumn(getIndentLevel());
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for (unsigned ColIdx2 = 0; ColIdx2 < ColIdx; ++ColIdx2) {
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if (ActiveCols[ColIdx2].isActive()) {
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if (ActiveCols[ColIdx2].MustDrawLabel && !ActiveCols[ColIdx2].LiveIn)
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OS << getLineChar(LineChar::LabelVert) << " ";
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else
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OS << getLineChar(LineChar::RangeMid) << " ";
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} else
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OS << " ";
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}
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// Then print the variable name and location of the new live range,
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// with box drawing characters joining it to the live range line.
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OS << getLineChar(ActiveCols[ColIdx].LiveIn ? LineChar::LabelCornerActive
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: LineChar::LabelCornerNew)
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<< getLineChar(LineChar::LabelHoriz) << " ";
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WithColor(OS, raw_ostream::GREEN)
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<< LiveVariables[ActiveCols[ColIdx].VarIdx].VarName;
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OS << " = ";
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{
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WithColor ExprColor(OS, raw_ostream::CYAN);
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LiveVariables[ActiveCols[ColIdx].VarIdx].print(OS, MRI);
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}
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// If there are any columns to the right of the expression we just
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// printed, then continue their live range lines.
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unsigned FirstUnprintedColumn = moveToFirstVarColumn(OS);
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for (unsigned ColIdx2 = FirstUnprintedColumn, End = ActiveCols.size();
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ColIdx2 < End; ++ColIdx2) {
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if (ActiveCols[ColIdx2].isActive() && ActiveCols[ColIdx2].LiveIn)
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OS << getLineChar(LineChar::RangeMid) << " ";
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else
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OS << " ";
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}
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OS << "\n";
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PrintedSomething = true;
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}
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}
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for (unsigned ColIdx = 0, End = ActiveCols.size(); ColIdx < End; ++ColIdx)
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if (ActiveCols[ColIdx].isActive())
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ActiveCols[ColIdx].MustDrawLabel = false;
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// If we must print something (because we printed a line/column number),
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// but don't have any new variables to print, then print a line which
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// just continues any existing live ranges.
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if (MustPrint && !PrintedSomething)
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printAfterOtherLine(OS, false);
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}
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/// Print the live variable ranges to the right of a disassembled instruction.
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void LiveVariablePrinter::printAfterInst(formatted_raw_ostream &OS) {
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if (!ActiveCols.size())
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return;
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unsigned FirstUnprintedColumn = moveToFirstVarColumn(OS);
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for (unsigned ColIdx = FirstUnprintedColumn, End = ActiveCols.size();
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ColIdx < End; ++ColIdx) {
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if (!ActiveCols[ColIdx].isActive())
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OS << " ";
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else if (ActiveCols[ColIdx].LiveIn && ActiveCols[ColIdx].LiveOut)
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OS << getLineChar(LineChar::RangeMid) << " ";
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else if (ActiveCols[ColIdx].LiveOut)
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OS << getLineChar(LineChar::RangeStart) << " ";
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else if (ActiveCols[ColIdx].LiveIn)
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OS << getLineChar(LineChar::RangeEnd) << " ";
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else
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llvm_unreachable("var must be live in or out!");
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}
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}
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bool SourcePrinter::cacheSource(const DILineInfo &LineInfo) {
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std::unique_ptr<MemoryBuffer> Buffer;
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if (LineInfo.Source) {
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Buffer = MemoryBuffer::getMemBuffer(*LineInfo.Source);
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} else {
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auto BufferOrError = MemoryBuffer::getFile(LineInfo.FileName);
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if (!BufferOrError) {
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if (MissingSources.insert(LineInfo.FileName).second)
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reportWarning("failed to find source " + LineInfo.FileName,
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Obj->getFileName());
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return false;
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}
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Buffer = std::move(*BufferOrError);
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}
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// Chomp the file to get lines
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const char *BufferStart = Buffer->getBufferStart(),
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*BufferEnd = Buffer->getBufferEnd();
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std::vector<StringRef> &Lines = LineCache[LineInfo.FileName];
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const char *Start = BufferStart;
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for (const char *I = BufferStart; I != BufferEnd; ++I)
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if (*I == '\n') {
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Lines.emplace_back(Start, I - Start - (BufferStart < I && I[-1] == '\r'));
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Start = I + 1;
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}
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if (Start < BufferEnd)
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Lines.emplace_back(Start, BufferEnd - Start);
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SourceCache[LineInfo.FileName] = std::move(Buffer);
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return true;
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}
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void SourcePrinter::printSourceLine(formatted_raw_ostream &OS,
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object::SectionedAddress Address,
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StringRef ObjectFilename,
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LiveVariablePrinter &LVP,
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StringRef Delimiter) {
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if (!Symbolizer)
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return;
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DILineInfo LineInfo = DILineInfo();
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Expected<DILineInfo> ExpectedLineInfo =
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Symbolizer->symbolizeCode(*Obj, Address);
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std::string ErrorMessage;
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if (ExpectedLineInfo) {
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LineInfo = *ExpectedLineInfo;
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} else if (!WarnedInvalidDebugInfo) {
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WarnedInvalidDebugInfo = true;
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// TODO Untested.
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reportWarning("failed to parse debug information: " +
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toString(ExpectedLineInfo.takeError()),
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ObjectFilename);
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}
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if (!objdump::Prefix.empty() &&
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sys::path::is_absolute_gnu(LineInfo.FileName)) {
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// FileName has at least one character since is_absolute_gnu is false for
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// an empty string.
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assert(!LineInfo.FileName.empty());
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if (PrefixStrip > 0) {
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uint32_t Level = 0;
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auto StrippedNameStart = LineInfo.FileName.begin();
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// Path.h iterator skips extra separators. Therefore it cannot be used
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// here to keep compatibility with GNU Objdump.
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for (auto Pos = StrippedNameStart + 1, End = LineInfo.FileName.end();
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Pos != End && Level < PrefixStrip; ++Pos) {
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if (sys::path::is_separator(*Pos)) {
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StrippedNameStart = Pos;
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++Level;
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}
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}
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LineInfo.FileName =
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std::string(StrippedNameStart, LineInfo.FileName.end());
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}
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SmallString<128> FilePath;
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sys::path::append(FilePath, Prefix, LineInfo.FileName);
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LineInfo.FileName = std::string(FilePath);
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}
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if (PrintLines)
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printLines(OS, LineInfo, Delimiter, LVP);
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if (PrintSource)
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printSources(OS, LineInfo, ObjectFilename, Delimiter, LVP);
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OldLineInfo = LineInfo;
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}
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void SourcePrinter::printLines(formatted_raw_ostream &OS,
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const DILineInfo &LineInfo, StringRef Delimiter,
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LiveVariablePrinter &LVP) {
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bool PrintFunctionName = LineInfo.FunctionName != DILineInfo::BadString &&
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LineInfo.FunctionName != OldLineInfo.FunctionName;
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if (PrintFunctionName) {
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OS << Delimiter << LineInfo.FunctionName;
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// If demangling is successful, FunctionName will end with "()". Print it
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// only if demangling did not run or was unsuccessful.
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if (!StringRef(LineInfo.FunctionName).endswith("()"))
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OS << "()";
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OS << ":\n";
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}
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if (LineInfo.FileName != DILineInfo::BadString && LineInfo.Line != 0 &&
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(OldLineInfo.Line != LineInfo.Line ||
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OldLineInfo.FileName != LineInfo.FileName || PrintFunctionName)) {
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OS << Delimiter << LineInfo.FileName << ":" << LineInfo.Line;
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LVP.printBetweenInsts(OS, true);
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}
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}
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void SourcePrinter::printSources(formatted_raw_ostream &OS,
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const DILineInfo &LineInfo,
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StringRef ObjectFilename, StringRef Delimiter,
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LiveVariablePrinter &LVP) {
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if (LineInfo.FileName == DILineInfo::BadString || LineInfo.Line == 0 ||
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(OldLineInfo.Line == LineInfo.Line &&
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OldLineInfo.FileName == LineInfo.FileName))
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return;
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if (SourceCache.find(LineInfo.FileName) == SourceCache.end())
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if (!cacheSource(LineInfo))
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return;
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auto LineBuffer = LineCache.find(LineInfo.FileName);
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if (LineBuffer != LineCache.end()) {
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if (LineInfo.Line > LineBuffer->second.size()) {
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reportWarning(
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formatv(
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"debug info line number {0} exceeds the number of lines in {1}",
|
|
LineInfo.Line, LineInfo.FileName),
|
|
ObjectFilename);
|
|
return;
|
|
}
|
|
// Vector begins at 0, line numbers are non-zero
|
|
OS << Delimiter << LineBuffer->second[LineInfo.Line - 1];
|
|
LVP.printBetweenInsts(OS, true);
|
|
}
|
|
}
|
|
|
|
SourcePrinter::SourcePrinter(const object::ObjectFile *Obj,
|
|
StringRef DefaultArch)
|
|
: Obj(Obj) {
|
|
symbolize::LLVMSymbolizer::Options SymbolizerOpts;
|
|
SymbolizerOpts.PrintFunctions =
|
|
DILineInfoSpecifier::FunctionNameKind::LinkageName;
|
|
SymbolizerOpts.Demangle = Demangle;
|
|
SymbolizerOpts.DefaultArch = std::string(DefaultArch);
|
|
Symbolizer.reset(new symbolize::LLVMSymbolizer(SymbolizerOpts));
|
|
}
|
|
|
|
} // namespace objdump
|
|
} // namespace llvm
|