llvm/lib/DebugInfo/PDB/Raw/NameMap.cpp - toolchain/llvm-project - Gitiles

 //===- NameMap.cpp - PDB Name Map -------------------------------*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//

 #include "llvm/DebugInfo/PDB/Raw/NameMap.h"
 #include "llvm/ADT/BitVector.h"
 #include "llvm/DebugInfo/PDB/Raw/StreamReader.h"

 using namespace llvm;
 using namespace llvm::pdb;

 NameMap::NameMap() {}

 std::error_code NameMap::load(StreamReader &Stream) {

   // This is some sort of weird string-set/hash table encoded in the stream.
   // It starts with the number of bytes in the table.
   uint32_t NumberOfBytes;
   Stream.readInteger(NumberOfBytes);

   // Following that field is the starting offset of strings in the name table.
   uint32_t StringsOffset = Stream.getOffset();
   Stream.setOffset(StringsOffset + NumberOfBytes);

   // This appears to be equivalent to the total number of strings *actually*
   // in the name table.
   uint32_t HashSize;
   Stream.readInteger(HashSize);

   // This appears to be an upper bound on the number of strings in the name
   // table.
   uint32_t MaxNumberOfStrings;
   Stream.readInteger(MaxNumberOfStrings);

   // This appears to be a hash table which uses bitfields to determine whether
   // or not a bucket is 'present'.
   uint32_t NumPresentWords;
   Stream.readInteger(NumPresentWords);

   // Store all the 'present' bits in a vector for later processing.
   SmallVector<uint32_t, 1> PresentWords;
   for (uint32_t I = 0; I != NumPresentWords; ++I) {
     uint32_t Word;
     Stream.readInteger(Word);
     PresentWords.push_back(Word);
   }

   // This appears to be a hash table which uses bitfields to determine whether
   // or not a bucket is 'deleted'.
   uint32_t NumDeletedWords;
   Stream.readInteger(NumDeletedWords);

   // Store all the 'deleted' bits in a vector for later processing.
   SmallVector<uint32_t, 1> DeletedWords;
   for (uint32_t I = 0; I != NumDeletedWords; ++I) {
     uint32_t Word;
     Stream.readInteger(Word);
     DeletedWords.push_back(Word);
   }

   BitVector Present(MaxNumberOfStrings, false);
   if (!PresentWords.empty())
     Present.setBitsInMask(PresentWords.data(), PresentWords.size());
   BitVector Deleted(MaxNumberOfStrings, false);
   if (!DeletedWords.empty())
     Deleted.setBitsInMask(DeletedWords.data(), DeletedWords.size());

   for (uint32_t I = 0; I < MaxNumberOfStrings; ++I) {
     if (!Present.test(I))
       continue;

     // For all present entries, dump out their mapping.

     // This appears to be an offset relative to the start of the strings.
     // It tells us where the null-terminated string begins.
     uint32_t NameOffset;
     Stream.readInteger(NameOffset);

     // This appears to be a stream number into the stream directory.
     uint32_t NameIndex;
     Stream.readInteger(NameIndex);

     // Compute the offset of the start of the string relative to the stream.
     uint32_t StringOffset = StringsOffset + NameOffset;
     uint32_t OldOffset = Stream.getOffset();
     // Pump out our c-string from the stream.
     std::string Str;
     Stream.setOffset(StringOffset);
     Stream.readZeroString(Str);

     Stream.setOffset(OldOffset);
     // Add this to a string-map from name to stream number.
     Mapping.insert({Str, NameIndex});
   }

   return std::error_code();
 }

 bool NameMap::tryGetValue(StringRef Name, uint32_t &Value) const {
   auto Iter = Mapping.find(Name);
   if (Iter == Mapping.end())
     return false;
   Value = Iter->second;
   return true;
 }
	//===- NameMap.cpp - PDB Name Map -------------------------------- C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//

	#include "llvm/DebugInfo/PDB/Raw/NameMap.h"
	#include "llvm/ADT/BitVector.h"
	#include "llvm/DebugInfo/PDB/Raw/StreamReader.h"

	using namespace llvm;
	using namespace llvm::pdb;

	NameMap::NameMap() {}

	std::error_code NameMap::load(StreamReader &Stream) {

	// This is some sort of weird string-set/hash table encoded in the stream.
	// It starts with the number of bytes in the table.
	uint32_t NumberOfBytes;
	Stream.readInteger(NumberOfBytes);

	// Following that field is the starting offset of strings in the name table.
	uint32_t StringsOffset = Stream.getOffset();
	Stream.setOffset(StringsOffset + NumberOfBytes);

	// This appears to be equivalent to the total number of strings actually
	// in the name table.
	uint32_t HashSize;
	Stream.readInteger(HashSize);

	// This appears to be an upper bound on the number of strings in the name
	// table.
	uint32_t MaxNumberOfStrings;
	Stream.readInteger(MaxNumberOfStrings);

	// This appears to be a hash table which uses bitfields to determine whether
	// or not a bucket is 'present'.
	uint32_t NumPresentWords;
	Stream.readInteger(NumPresentWords);

	// Store all the 'present' bits in a vector for later processing.
	SmallVector<uint32_t, 1> PresentWords;
	for (uint32_t I = 0; I != NumPresentWords; ++I) {
	uint32_t Word;
	Stream.readInteger(Word);
	PresentWords.push_back(Word);
	}

	// This appears to be a hash table which uses bitfields to determine whether
	// or not a bucket is 'deleted'.
	uint32_t NumDeletedWords;
	Stream.readInteger(NumDeletedWords);

	// Store all the 'deleted' bits in a vector for later processing.
	SmallVector<uint32_t, 1> DeletedWords;
	for (uint32_t I = 0; I != NumDeletedWords; ++I) {
	uint32_t Word;
	Stream.readInteger(Word);
	DeletedWords.push_back(Word);
	}

	BitVector Present(MaxNumberOfStrings, false);
	if (!PresentWords.empty())
	Present.setBitsInMask(PresentWords.data(), PresentWords.size());
	BitVector Deleted(MaxNumberOfStrings, false);
	if (!DeletedWords.empty())
	Deleted.setBitsInMask(DeletedWords.data(), DeletedWords.size());

	for (uint32_t I = 0; I < MaxNumberOfStrings; ++I) {
	if (!Present.test(I))
	continue;

	// For all present entries, dump out their mapping.

	// This appears to be an offset relative to the start of the strings.
	// It tells us where the null-terminated string begins.
	uint32_t NameOffset;
	Stream.readInteger(NameOffset);

	// This appears to be a stream number into the stream directory.
	uint32_t NameIndex;
	Stream.readInteger(NameIndex);

	// Compute the offset of the start of the string relative to the stream.
	uint32_t StringOffset = StringsOffset + NameOffset;
	uint32_t OldOffset = Stream.getOffset();
	// Pump out our c-string from the stream.
	std::string Str;
	Stream.setOffset(StringOffset);
	Stream.readZeroString(Str);

	Stream.setOffset(OldOffset);
	// Add this to a string-map from name to stream number.
	Mapping.insert({Str, NameIndex});
	}

	return std::error_code();
	}

	bool NameMap::tryGetValue(StringRef Name, uint32_t &Value) const {
	auto Iter = Mapping.find(Name);
	if (Iter == Mapping.end())
	return false;
	Value = Iter->second;
	return true;
	}