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Diffstat (limited to 'contrib/llvm/lib/DebugInfo/DWARF/DWARFDebugLine.cpp')
| -rw-r--r-- | contrib/llvm/lib/DebugInfo/DWARF/DWARFDebugLine.cpp | 688 |
1 files changed, 688 insertions, 0 deletions
diff --git a/contrib/llvm/lib/DebugInfo/DWARF/DWARFDebugLine.cpp b/contrib/llvm/lib/DebugInfo/DWARF/DWARFDebugLine.cpp new file mode 100644 index 0000000..a0bee0d --- /dev/null +++ b/contrib/llvm/lib/DebugInfo/DWARF/DWARFDebugLine.cpp @@ -0,0 +1,688 @@ +//===-- DWARFDebugLine.cpp ------------------------------------------------===// +// +// The LLVM Compiler Infrastructure +// +// This file is distributed under the University of Illinois Open Source +// License. See LICENSE.TXT for details. +// +//===----------------------------------------------------------------------===// + +#include "llvm/DebugInfo/DWARF/DWARFDebugLine.h" +#include "llvm/Support/Dwarf.h" +#include "llvm/Support/Format.h" +#include "llvm/Support/Path.h" +#include "llvm/Support/raw_ostream.h" +#include <algorithm> +using namespace llvm; +using namespace dwarf; +typedef DILineInfoSpecifier::FileLineInfoKind FileLineInfoKind; + +DWARFDebugLine::Prologue::Prologue() { + clear(); +} + +void DWARFDebugLine::Prologue::clear() { + TotalLength = Version = PrologueLength = 0; + MinInstLength = MaxOpsPerInst = DefaultIsStmt = LineBase = LineRange = 0; + OpcodeBase = 0; + IsDWARF64 = false; + StandardOpcodeLengths.clear(); + IncludeDirectories.clear(); + FileNames.clear(); +} + +void DWARFDebugLine::Prologue::dump(raw_ostream &OS) const { + OS << "Line table prologue:\n" + << format(" total_length: 0x%8.8" PRIx64 "\n", TotalLength) + << format(" version: %u\n", Version) + << format(" prologue_length: 0x%8.8" PRIx64 "\n", PrologueLength) + << format(" min_inst_length: %u\n", MinInstLength) + << format(Version >= 4 ? "max_ops_per_inst: %u\n" : "", MaxOpsPerInst) + << format(" default_is_stmt: %u\n", DefaultIsStmt) + << format(" line_base: %i\n", LineBase) + << format(" line_range: %u\n", LineRange) + << format(" opcode_base: %u\n", OpcodeBase); + + for (uint32_t i = 0; i < StandardOpcodeLengths.size(); ++i) + OS << format("standard_opcode_lengths[%s] = %u\n", LNStandardString(i+1), + StandardOpcodeLengths[i]); + + if (!IncludeDirectories.empty()) + for (uint32_t i = 0; i < IncludeDirectories.size(); ++i) + OS << format("include_directories[%3u] = '", i+1) + << IncludeDirectories[i] << "'\n"; + + if (!FileNames.empty()) { + OS << " Dir Mod Time File Len File Name\n" + << " ---- ---------- ---------- -----------" + "----------------\n"; + for (uint32_t i = 0; i < FileNames.size(); ++i) { + const FileNameEntry& fileEntry = FileNames[i]; + OS << format("file_names[%3u] %4" PRIu64 " ", i+1, fileEntry.DirIdx) + << format("0x%8.8" PRIx64 " 0x%8.8" PRIx64 " ", + fileEntry.ModTime, fileEntry.Length) + << fileEntry.Name << '\n'; + } + } +} + +bool DWARFDebugLine::Prologue::parse(DataExtractor debug_line_data, + uint32_t *offset_ptr) { + const uint64_t prologue_offset = *offset_ptr; + + clear(); + TotalLength = debug_line_data.getU32(offset_ptr); + if (TotalLength == UINT32_MAX) { + IsDWARF64 = true; + TotalLength = debug_line_data.getU64(offset_ptr); + } else if (TotalLength > 0xffffff00) { + return false; + } + Version = debug_line_data.getU16(offset_ptr); + if (Version < 2) + return false; + + PrologueLength = debug_line_data.getUnsigned(offset_ptr, + sizeofPrologueLength()); + const uint64_t end_prologue_offset = PrologueLength + *offset_ptr; + MinInstLength = debug_line_data.getU8(offset_ptr); + if (Version >= 4) + MaxOpsPerInst = debug_line_data.getU8(offset_ptr); + DefaultIsStmt = debug_line_data.getU8(offset_ptr); + LineBase = debug_line_data.getU8(offset_ptr); + LineRange = debug_line_data.getU8(offset_ptr); + OpcodeBase = debug_line_data.getU8(offset_ptr); + + StandardOpcodeLengths.reserve(OpcodeBase - 1); + for (uint32_t i = 1; i < OpcodeBase; ++i) { + uint8_t op_len = debug_line_data.getU8(offset_ptr); + StandardOpcodeLengths.push_back(op_len); + } + + while (*offset_ptr < end_prologue_offset) { + const char *s = debug_line_data.getCStr(offset_ptr); + if (s && s[0]) + IncludeDirectories.push_back(s); + else + break; + } + + while (*offset_ptr < end_prologue_offset) { + const char *name = debug_line_data.getCStr(offset_ptr); + if (name && name[0]) { + FileNameEntry fileEntry; + fileEntry.Name = name; + fileEntry.DirIdx = debug_line_data.getULEB128(offset_ptr); + fileEntry.ModTime = debug_line_data.getULEB128(offset_ptr); + fileEntry.Length = debug_line_data.getULEB128(offset_ptr); + FileNames.push_back(fileEntry); + } else { + break; + } + } + + if (*offset_ptr != end_prologue_offset) { + fprintf(stderr, "warning: parsing line table prologue at 0x%8.8" PRIx64 + " should have ended at 0x%8.8" PRIx64 + " but it ended at 0x%8.8" PRIx64 "\n", + prologue_offset, end_prologue_offset, (uint64_t)*offset_ptr); + return false; + } + return true; +} + +DWARFDebugLine::Row::Row(bool default_is_stmt) { + reset(default_is_stmt); +} + +void DWARFDebugLine::Row::postAppend() { + BasicBlock = false; + PrologueEnd = false; + EpilogueBegin = false; +} + +void DWARFDebugLine::Row::reset(bool default_is_stmt) { + Address = 0; + Line = 1; + Column = 0; + File = 1; + Isa = 0; + Discriminator = 0; + IsStmt = default_is_stmt; + BasicBlock = false; + EndSequence = false; + PrologueEnd = false; + EpilogueBegin = false; +} + +void DWARFDebugLine::Row::dump(raw_ostream &OS) const { + OS << format("0x%16.16" PRIx64 " %6u %6u", Address, Line, Column) + << format(" %6u %3u %13u ", File, Isa, Discriminator) + << (IsStmt ? " is_stmt" : "") + << (BasicBlock ? " basic_block" : "") + << (PrologueEnd ? " prologue_end" : "") + << (EpilogueBegin ? " epilogue_begin" : "") + << (EndSequence ? " end_sequence" : "") + << '\n'; +} + +DWARFDebugLine::Sequence::Sequence() { + reset(); +} + +void DWARFDebugLine::Sequence::reset() { + LowPC = 0; + HighPC = 0; + FirstRowIndex = 0; + LastRowIndex = 0; + Empty = true; +} + +DWARFDebugLine::LineTable::LineTable() { + clear(); +} + +void DWARFDebugLine::LineTable::dump(raw_ostream &OS) const { + Prologue.dump(OS); + OS << '\n'; + + if (!Rows.empty()) { + OS << "Address Line Column File ISA Discriminator Flags\n" + << "------------------ ------ ------ ------ --- ------------- " + "-------------\n"; + for (const Row &R : Rows) { + R.dump(OS); + } + } +} + +void DWARFDebugLine::LineTable::clear() { + Prologue.clear(); + Rows.clear(); + Sequences.clear(); +} + +DWARFDebugLine::ParsingState::ParsingState(struct LineTable *LT) + : LineTable(LT), RowNumber(0) { + resetRowAndSequence(); +} + +void DWARFDebugLine::ParsingState::resetRowAndSequence() { + Row.reset(LineTable->Prologue.DefaultIsStmt); + Sequence.reset(); +} + +void DWARFDebugLine::ParsingState::appendRowToMatrix(uint32_t offset) { + if (Sequence.Empty) { + // Record the beginning of instruction sequence. + Sequence.Empty = false; + Sequence.LowPC = Row.Address; + Sequence.FirstRowIndex = RowNumber; + } + ++RowNumber; + LineTable->appendRow(Row); + if (Row.EndSequence) { + // Record the end of instruction sequence. + Sequence.HighPC = Row.Address; + Sequence.LastRowIndex = RowNumber; + if (Sequence.isValid()) + LineTable->appendSequence(Sequence); + Sequence.reset(); + } + Row.postAppend(); +} + +const DWARFDebugLine::LineTable * +DWARFDebugLine::getLineTable(uint32_t offset) const { + LineTableConstIter pos = LineTableMap.find(offset); + if (pos != LineTableMap.end()) + return &pos->second; + return nullptr; +} + +const DWARFDebugLine::LineTable * +DWARFDebugLine::getOrParseLineTable(DataExtractor debug_line_data, + uint32_t offset) { + std::pair<LineTableIter, bool> pos = + LineTableMap.insert(LineTableMapTy::value_type(offset, LineTable())); + LineTable *LT = &pos.first->second; + if (pos.second) { + if (!LT->parse(debug_line_data, RelocMap, &offset)) + return nullptr; + } + return LT; +} + +bool DWARFDebugLine::LineTable::parse(DataExtractor debug_line_data, + const RelocAddrMap *RMap, + uint32_t *offset_ptr) { + const uint32_t debug_line_offset = *offset_ptr; + + clear(); + + if (!Prologue.parse(debug_line_data, offset_ptr)) { + // Restore our offset and return false to indicate failure! + *offset_ptr = debug_line_offset; + return false; + } + + const uint32_t end_offset = debug_line_offset + Prologue.TotalLength + + Prologue.sizeofTotalLength(); + + ParsingState State(this); + + while (*offset_ptr < end_offset) { + uint8_t opcode = debug_line_data.getU8(offset_ptr); + + if (opcode == 0) { + // Extended Opcodes always start with a zero opcode followed by + // a uleb128 length so you can skip ones you don't know about + uint32_t ext_offset = *offset_ptr; + uint64_t len = debug_line_data.getULEB128(offset_ptr); + uint32_t arg_size = len - (*offset_ptr - ext_offset); + + uint8_t sub_opcode = debug_line_data.getU8(offset_ptr); + switch (sub_opcode) { + case DW_LNE_end_sequence: + // Set the end_sequence register of the state machine to true and + // append a row to the matrix using the current values of the + // state-machine registers. Then reset the registers to the initial + // values specified above. Every statement program sequence must end + // with a DW_LNE_end_sequence instruction which creates a row whose + // address is that of the byte after the last target machine instruction + // of the sequence. + State.Row.EndSequence = true; + State.appendRowToMatrix(*offset_ptr); + State.resetRowAndSequence(); + break; + + case DW_LNE_set_address: + // Takes a single relocatable address as an operand. The size of the + // operand is the size appropriate to hold an address on the target + // machine. Set the address register to the value given by the + // relocatable address. All of the other statement program opcodes + // that affect the address register add a delta to it. This instruction + // stores a relocatable value into it instead. + { + // If this address is in our relocation map, apply the relocation. + RelocAddrMap::const_iterator AI = RMap->find(*offset_ptr); + if (AI != RMap->end()) { + const std::pair<uint8_t, int64_t> &R = AI->second; + State.Row.Address = + debug_line_data.getAddress(offset_ptr) + R.second; + } else + State.Row.Address = debug_line_data.getAddress(offset_ptr); + } + break; + + case DW_LNE_define_file: + // Takes 4 arguments. The first is a null terminated string containing + // a source file name. The second is an unsigned LEB128 number + // representing the directory index of the directory in which the file + // was found. The third is an unsigned LEB128 number representing the + // time of last modification of the file. The fourth is an unsigned + // LEB128 number representing the length in bytes of the file. The time + // and length fields may contain LEB128(0) if the information is not + // available. + // + // The directory index represents an entry in the include_directories + // section of the statement program prologue. The index is LEB128(0) + // if the file was found in the current directory of the compilation, + // LEB128(1) if it was found in the first directory in the + // include_directories section, and so on. The directory index is + // ignored for file names that represent full path names. + // + // The files are numbered, starting at 1, in the order in which they + // appear; the names in the prologue come before names defined by + // the DW_LNE_define_file instruction. These numbers are used in the + // the file register of the state machine. + { + FileNameEntry fileEntry; + fileEntry.Name = debug_line_data.getCStr(offset_ptr); + fileEntry.DirIdx = debug_line_data.getULEB128(offset_ptr); + fileEntry.ModTime = debug_line_data.getULEB128(offset_ptr); + fileEntry.Length = debug_line_data.getULEB128(offset_ptr); + Prologue.FileNames.push_back(fileEntry); + } + break; + + case DW_LNE_set_discriminator: + State.Row.Discriminator = debug_line_data.getULEB128(offset_ptr); + break; + + default: + // Length doesn't include the zero opcode byte or the length itself, but + // it does include the sub_opcode, so we have to adjust for that below + (*offset_ptr) += arg_size; + break; + } + } else if (opcode < Prologue.OpcodeBase) { + switch (opcode) { + // Standard Opcodes + case DW_LNS_copy: + // Takes no arguments. Append a row to the matrix using the + // current values of the state-machine registers. Then set + // the basic_block register to false. + State.appendRowToMatrix(*offset_ptr); + break; + + case DW_LNS_advance_pc: + // Takes a single unsigned LEB128 operand, multiplies it by the + // min_inst_length field of the prologue, and adds the + // result to the address register of the state machine. + State.Row.Address += + debug_line_data.getULEB128(offset_ptr) * Prologue.MinInstLength; + break; + + case DW_LNS_advance_line: + // Takes a single signed LEB128 operand and adds that value to + // the line register of the state machine. + State.Row.Line += debug_line_data.getSLEB128(offset_ptr); + break; + + case DW_LNS_set_file: + // Takes a single unsigned LEB128 operand and stores it in the file + // register of the state machine. + State.Row.File = debug_line_data.getULEB128(offset_ptr); + break; + + case DW_LNS_set_column: + // Takes a single unsigned LEB128 operand and stores it in the + // column register of the state machine. + State.Row.Column = debug_line_data.getULEB128(offset_ptr); + break; + + case DW_LNS_negate_stmt: + // Takes no arguments. Set the is_stmt register of the state + // machine to the logical negation of its current value. + State.Row.IsStmt = !State.Row.IsStmt; + break; + + case DW_LNS_set_basic_block: + // Takes no arguments. Set the basic_block register of the + // state machine to true + State.Row.BasicBlock = true; + break; + + case DW_LNS_const_add_pc: + // Takes no arguments. Add to the address register of the state + // machine the address increment value corresponding to special + // opcode 255. The motivation for DW_LNS_const_add_pc is this: + // when the statement program needs to advance the address by a + // small amount, it can use a single special opcode, which occupies + // a single byte. When it needs to advance the address by up to + // twice the range of the last special opcode, it can use + // DW_LNS_const_add_pc followed by a special opcode, for a total + // of two bytes. Only if it needs to advance the address by more + // than twice that range will it need to use both DW_LNS_advance_pc + // and a special opcode, requiring three or more bytes. + { + uint8_t adjust_opcode = 255 - Prologue.OpcodeBase; + uint64_t addr_offset = + (adjust_opcode / Prologue.LineRange) * Prologue.MinInstLength; + State.Row.Address += addr_offset; + } + break; + + case DW_LNS_fixed_advance_pc: + // Takes a single uhalf operand. Add to the address register of + // the state machine the value of the (unencoded) operand. This + // is the only extended opcode that takes an argument that is not + // a variable length number. The motivation for DW_LNS_fixed_advance_pc + // is this: existing assemblers cannot emit DW_LNS_advance_pc or + // special opcodes because they cannot encode LEB128 numbers or + // judge when the computation of a special opcode overflows and + // requires the use of DW_LNS_advance_pc. Such assemblers, however, + // can use DW_LNS_fixed_advance_pc instead, sacrificing compression. + State.Row.Address += debug_line_data.getU16(offset_ptr); + break; + + case DW_LNS_set_prologue_end: + // Takes no arguments. Set the prologue_end register of the + // state machine to true + State.Row.PrologueEnd = true; + break; + + case DW_LNS_set_epilogue_begin: + // Takes no arguments. Set the basic_block register of the + // state machine to true + State.Row.EpilogueBegin = true; + break; + + case DW_LNS_set_isa: + // Takes a single unsigned LEB128 operand and stores it in the + // column register of the state machine. + State.Row.Isa = debug_line_data.getULEB128(offset_ptr); + break; + + default: + // Handle any unknown standard opcodes here. We know the lengths + // of such opcodes because they are specified in the prologue + // as a multiple of LEB128 operands for each opcode. + { + assert(opcode - 1U < Prologue.StandardOpcodeLengths.size()); + uint8_t opcode_length = Prologue.StandardOpcodeLengths[opcode - 1]; + for (uint8_t i = 0; i < opcode_length; ++i) + debug_line_data.getULEB128(offset_ptr); + } + break; + } + } else { + // Special Opcodes + + // A special opcode value is chosen based on the amount that needs + // to be added to the line and address registers. The maximum line + // increment for a special opcode is the value of the line_base + // field in the header, plus the value of the line_range field, + // minus 1 (line base + line range - 1). If the desired line + // increment is greater than the maximum line increment, a standard + // opcode must be used instead of a special opcode. The "address + // advance" is calculated by dividing the desired address increment + // by the minimum_instruction_length field from the header. The + // special opcode is then calculated using the following formula: + // + // opcode = (desired line increment - line_base) + + // (line_range * address advance) + opcode_base + // + // If the resulting opcode is greater than 255, a standard opcode + // must be used instead. + // + // To decode a special opcode, subtract the opcode_base from the + // opcode itself to give the adjusted opcode. The amount to + // increment the address register is the result of the adjusted + // opcode divided by the line_range multiplied by the + // minimum_instruction_length field from the header. That is: + // + // address increment = (adjusted opcode / line_range) * + // minimum_instruction_length + // + // The amount to increment the line register is the line_base plus + // the result of the adjusted opcode modulo the line_range. That is: + // + // line increment = line_base + (adjusted opcode % line_range) + + uint8_t adjust_opcode = opcode - Prologue.OpcodeBase; + uint64_t addr_offset = + (adjust_opcode / Prologue.LineRange) * Prologue.MinInstLength; + int32_t line_offset = + Prologue.LineBase + (adjust_opcode % Prologue.LineRange); + State.Row.Line += line_offset; + State.Row.Address += addr_offset; + State.appendRowToMatrix(*offset_ptr); + } + } + + if (!State.Sequence.Empty) { + fprintf(stderr, "warning: last sequence in debug line table is not" + "terminated!\n"); + } + + // Sort all sequences so that address lookup will work faster. + if (!Sequences.empty()) { + std::sort(Sequences.begin(), Sequences.end(), Sequence::orderByLowPC); + // Note: actually, instruction address ranges of sequences should not + // overlap (in shared objects and executables). If they do, the address + // lookup would still work, though, but result would be ambiguous. + // We don't report warning in this case. For example, + // sometimes .so compiled from multiple object files contains a few + // rudimentary sequences for address ranges [0x0, 0xsomething). + } + + return end_offset; +} + +uint32_t +DWARFDebugLine::LineTable::findRowInSeq(const DWARFDebugLine::Sequence &seq, + uint64_t address) const { + if (!seq.containsPC(address)) + return UnknownRowIndex; + // Search for instruction address in the rows describing the sequence. + // Rows are stored in a vector, so we may use arithmetical operations with + // iterators. + DWARFDebugLine::Row row; + row.Address = address; + RowIter first_row = Rows.begin() + seq.FirstRowIndex; + RowIter last_row = Rows.begin() + seq.LastRowIndex; + LineTable::RowIter row_pos = std::lower_bound( + first_row, last_row, row, DWARFDebugLine::Row::orderByAddress); + if (row_pos == last_row) { + return seq.LastRowIndex - 1; + } + uint32_t index = seq.FirstRowIndex + (row_pos - first_row); + if (row_pos->Address > address) { + if (row_pos == first_row) + return UnknownRowIndex; + else + index--; + } + return index; +} + +uint32_t DWARFDebugLine::LineTable::lookupAddress(uint64_t address) const { + if (Sequences.empty()) + return UnknownRowIndex; + // First, find an instruction sequence containing the given address. + DWARFDebugLine::Sequence sequence; + sequence.LowPC = address; + SequenceIter first_seq = Sequences.begin(); + SequenceIter last_seq = Sequences.end(); + SequenceIter seq_pos = std::lower_bound(first_seq, last_seq, sequence, + DWARFDebugLine::Sequence::orderByLowPC); + DWARFDebugLine::Sequence found_seq; + if (seq_pos == last_seq) { + found_seq = Sequences.back(); + } else if (seq_pos->LowPC == address) { + found_seq = *seq_pos; + } else { + if (seq_pos == first_seq) + return UnknownRowIndex; + found_seq = *(seq_pos - 1); + } + return findRowInSeq(found_seq, address); +} + +bool DWARFDebugLine::LineTable::lookupAddressRange( + uint64_t address, uint64_t size, std::vector<uint32_t> &result) const { + if (Sequences.empty()) + return false; + uint64_t end_addr = address + size; + // First, find an instruction sequence containing the given address. + DWARFDebugLine::Sequence sequence; + sequence.LowPC = address; + SequenceIter first_seq = Sequences.begin(); + SequenceIter last_seq = Sequences.end(); + SequenceIter seq_pos = std::lower_bound(first_seq, last_seq, sequence, + DWARFDebugLine::Sequence::orderByLowPC); + if (seq_pos == last_seq || seq_pos->LowPC != address) { + if (seq_pos == first_seq) + return false; + seq_pos--; + } + if (!seq_pos->containsPC(address)) + return false; + + SequenceIter start_pos = seq_pos; + + // Add the rows from the first sequence to the vector, starting with the + // index we just calculated + + while (seq_pos != last_seq && seq_pos->LowPC < end_addr) { + const DWARFDebugLine::Sequence &cur_seq = *seq_pos; + // For the first sequence, we need to find which row in the sequence is the + // first in our range. + uint32_t first_row_index = cur_seq.FirstRowIndex; + if (seq_pos == start_pos) + first_row_index = findRowInSeq(cur_seq, address); + + // Figure out the last row in the range. + uint32_t last_row_index = findRowInSeq(cur_seq, end_addr - 1); + if (last_row_index == UnknownRowIndex) + last_row_index = cur_seq.LastRowIndex - 1; + + assert(first_row_index != UnknownRowIndex); + assert(last_row_index != UnknownRowIndex); + + for (uint32_t i = first_row_index; i <= last_row_index; ++i) { + result.push_back(i); + } + + ++seq_pos; + } + + return true; +} + +bool +DWARFDebugLine::LineTable::getFileNameByIndex(uint64_t FileIndex, + const char *CompDir, + FileLineInfoKind Kind, + std::string &Result) const { + if (FileIndex == 0 || FileIndex > Prologue.FileNames.size() || + Kind == FileLineInfoKind::None) + return false; + const FileNameEntry &Entry = Prologue.FileNames[FileIndex - 1]; + const char *FileName = Entry.Name; + if (Kind != FileLineInfoKind::AbsoluteFilePath || + sys::path::is_absolute(FileName)) { + Result = FileName; + return true; + } + + SmallString<16> FilePath; + uint64_t IncludeDirIndex = Entry.DirIdx; + const char *IncludeDir = ""; + // Be defensive about the contents of Entry. + if (IncludeDirIndex > 0 && + IncludeDirIndex <= Prologue.IncludeDirectories.size()) + IncludeDir = Prologue.IncludeDirectories[IncludeDirIndex - 1]; + + // We may still need to append compilation directory of compile unit. + // We know that FileName is not absolute, the only way to have an + // absolute path at this point would be if IncludeDir is absolute. + if (CompDir && Kind == FileLineInfoKind::AbsoluteFilePath && + sys::path::is_relative(IncludeDir)) + sys::path::append(FilePath, CompDir); + + // sys::path::append skips empty strings. + sys::path::append(FilePath, IncludeDir, FileName); + Result = FilePath.str(); + return true; +} + +bool +DWARFDebugLine::LineTable::getFileLineInfoForAddress(uint64_t Address, + const char *CompDir, + FileLineInfoKind Kind, + DILineInfo &Result) const { + // Get the index of row we're looking for in the line table. + uint32_t RowIndex = lookupAddress(Address); + if (RowIndex == -1U) + return false; + // Take file number and line/column from the row. + const auto &Row = Rows[RowIndex]; + if (!getFileNameByIndex(Row.File, CompDir, Kind, Result.FileName)) + return false; + Result.Line = Row.Line; + Result.Column = Row.Column; + return true; +} |
