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block.cpp
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// Copyright (c) 2016 SMART Technologies. All rights reserved.
// Licensed under the MIT license. See LICENSE file in the project root for full license information.
#include "block.h"
#include <boost/io/ios_state.hpp>
#include <sstream>
#include <iomanip>
#include <algorithm>
namespace peparser
{
std::wistream& operator>>(std::wistream& in, BlockList& blockList)
{
boost::io::ios_flags_saver ifs(in);
in >> std::skipws >> std::setbase(16);
wchar_t bracket = '\0';
std::wstringbuf buffer(L"");
in.get(bracket);
if (in.fail() || bracket != L'{')
throw std::exception("error parsing block list");
if (in.peek() == L'}')
{
in.get();
return in;
}
while (true)
{
in >> std::ws;
Block block;
buffer.str(L"");
in.get(buffer, L':');
block.description = buffer.str();
in.get(bracket);
if (in.fail() || bracket != L':')
throw std::exception("error parsing block list");
in >> block.offset >> std::ws;
in.get(bracket);
if (in.fail() || bracket != L':')
throw std::exception("error parsing block list");
in >> block.size >> std::ws;
if (in.fail())
throw std::exception("error parsing block list");
blockList.push_back(block);
in.get(bracket);
if (bracket == L'|')
continue;
if (bracket == L'}')
break;
throw std::exception("error parsing block list");
}
return in;
}
std::wostream& operator<<(std::wostream& out, const Block& block)
{
block.Print(out, L"");
return out;
}
std::wostream& operator<<(std::wostream& out, const Block2& block)
{
block.Print(out, L"");
return out;
}
std::wostream& operator<<(std::wostream& out, const BlockList& blockList)
{
for (size_t i = 0; i < blockList.size(); i++)
out << L'\t' << blockList[i] << L'\n';
return out;
}
std::wostream& operator<<(std::wostream& out, const Block2List& blockList)
{
for (size_t i = 0; i < blockList.size(); i++)
out << L'\t' << blockList[i] << L'\n';
return out;
}
// =========================================================================================
bool Block::Contains(const Block& block)
{
if (size == 0)
return false;
if (offset > block.offset)
return false;
if (offset + size < block.offset)
return false;
if (offset + size < block.offset + block.size)
return false;
return true;
}
void Block::Print(std::wostream& out, const std::wstring& prefix) const
{
out
<< L"offset: " << std::left << std::setw(10) << offset
<< L" size: " << std::left << std::setw(8) << size
<< L' ' << prefix << description
;
if (!data.empty())
out << L" data: [" << data << "]";
}
void Block2::Print(std::wostream& out, const std::wstring& prefix) const
{
out
<< L"offset: " << std::left << offset << L" | " << std::setw(10) << offset2
<< L" size: " << std::left << std::setw(8) << size
<< L' ' << prefix << description
;
if (!data.empty())
out << L" data: [" << data << "]";
}
// =========================================================================================
BlockNode::BlockNode(const Block2& block)
{
m_self = block;
}
bool BlockNode::Add(const Block2& block)
{
if (!m_self.Contains(block))
return false;
if (m_self == block)
return true;
for (auto& entry : m_children)
if (entry && entry->Add(block))
return true;
BlockNodePtr newChild(new BlockNode(block));
// pushing tree levels down
newChild->ConsumeOffspring(m_children);
m_children.push_back(newChild);
return true;
}
bool BlockNode::Add(const Block& block)
{
return Add(Block2(block.description, block.offset, 0, block.size));
}
void BlockNode::Add(const Block2List& blockList)
{
for (auto& block : blockList)
Add(block);
}
void BlockNode::Add(const BlockList& blockList)
{
for (auto& block : blockList)
Add(block);
}
void BlockNode::ConsumeOffspring(List& kids)
{
List::iterator next = kids.begin();
while (next != kids.end())
{
List::iterator current = next++;
if (!m_self.Contains((*current)->m_self))
continue;
m_children.push_back(*current);
kids.erase(current);
}
}
void BlockNode::Print(std::wostream& out, const std::wstring& prefix) const
{
((Block)m_self).Print(out, prefix);
out << L'\n';
for (auto& entry : m_children)
entry->Print(out, prefix + L"\t");
}
bool operator<(const BlockNodePtr& b1, const BlockNodePtr& b2)
{
if (!b1 && !b2) return false;
if (!b1 && b2) return true;
if (b1 && !b2) return false;
return *b1 < *b2;
}
void BlockNode::Sort()
{
m_children.sort();
for (auto& entry : m_children)
entry->Sort();
}
}