a2l_test/TestLibDlg/IncSourceTestDlg/IncSourceTestDlgDlg.cpp

// IncSourceTestDlgDlg.cpp: 구현 파일
//

#include "pch.h"
#include "framework.h"
#include "IncSourceTestDlg.h"
#include "IncSourceTestDlgDlg.h"
#include "DlgProxy.h"
#include "afxdialogex.h"

#include <iostream>
#include <fstream>
#include <cstdlib>
#include <iomanip>


#include <iostream>
#include "intelhex.h"
#include "elfio.hpp"
#include "elfio_dump.hpp"

#ifdef _DEBUG
#define new DEBUG_NEW
#endif


//template<typename ... Args>
//std::wstring wstring_format(const std::wstring& format, Args ... args);
template<typename ... Args>
std::string string_format(const std::string& format, Args ... args)
{
	size_t size = snprintf(nullptr, 0, format.c_str(), args ...) + 1; // Extra space for '\0' 
	if (size <= 0) {
		throw std::runtime_error("Error during formatting.");
	}
	std::unique_ptr<char[]> buf(new char[size]);
	snprintf(buf.get(), size, format.c_str(), args ...);
	return std::string(buf.get(), buf.get() + size - 1); // We don't want the '\0' inside }
}


// 응용 프로그램 정보에 사용되는 CAboutDlg 대화 상자입니다.

class CAboutDlg : public CDialogEx
{
public:
	CAboutDlg();

// 대화 상자 데이터입니다.
#ifdef AFX_DESIGN_TIME
	enum { IDD = IDD_ABOUTBOX };
#endif

	protected:
	virtual void DoDataExchange(CDataExchange* pDX);    // DDX/DDV 지원입니다.

// 구현입니다.
protected:
	DECLARE_MESSAGE_MAP()
};

CAboutDlg::CAboutDlg() : CDialogEx(IDD_ABOUTBOX)
{
}

void CAboutDlg::DoDataExchange(CDataExchange* pDX)
{
	CDialogEx::DoDataExchange(pDX);
}

BEGIN_MESSAGE_MAP(CAboutDlg, CDialogEx)
END_MESSAGE_MAP()


// CIncSourceTestDlgDlg 대화 상자


IMPLEMENT_DYNAMIC(CIncSourceTestDlgDlg, CDialogEx);

CIncSourceTestDlgDlg::CIncSourceTestDlgDlg(CWnd* pParent /*=nullptr*/)
	: CDialogEx(IDD_INCSOURCETESTDLG_DIALOG, pParent)
{
	m_hIcon = AfxGetApp()->LoadIcon(IDR_MAINFRAME);
	m_pAutoProxy = nullptr;
}

CIncSourceTestDlgDlg::~CIncSourceTestDlgDlg()
{
	// 이 대화 상자에 대한 자동화 프록시가 있을 경우 이 대화 상자에 대한
	//  후방 포인터를 null로 설정하여
	//  대화 상자가 삭제되었음을 알 수 있게 합니다.
	if (m_pAutoProxy != nullptr)
		m_pAutoProxy->m_pDialog = nullptr;
}

void CIncSourceTestDlgDlg::DoDataExchange(CDataExchange* pDX)
{
	CDialogEx::DoDataExchange(pDX);
}

BEGIN_MESSAGE_MAP(CIncSourceTestDlgDlg, CDialogEx)
	ON_WM_SYSCOMMAND()
	ON_WM_CLOSE()
	ON_WM_PAINT()
	ON_WM_QUERYDRAGICON()
	ON_BN_CLICKED(IDC_BUTTON_OPEN, &CIncSourceTestDlgDlg::OnBnClickedButtonOpen)
	ON_BN_CLICKED(IDC_BUTTON_ELF, &CIncSourceTestDlgDlg::OnBnClickedButtonElf)
	ON_BN_CLICKED(IDC_BUTTON_HEX, &CIncSourceTestDlgDlg::OnBnClickedButtonHex)
END_MESSAGE_MAP()


// CIncSourceTestDlgDlg 메시지 처리기

BOOL CIncSourceTestDlgDlg::OnInitDialog()
{
	CDialogEx::OnInitDialog();

	// 시스템 메뉴에 "정보..." 메뉴 항목을 추가합니다.

	// IDM_ABOUTBOX는 시스템 명령 범위에 있어야 합니다.
	ASSERT((IDM_ABOUTBOX & 0xFFF0) == IDM_ABOUTBOX);
	ASSERT(IDM_ABOUTBOX < 0xF000);

	CMenu* pSysMenu = GetSystemMenu(FALSE);
	if (pSysMenu != nullptr)
	{
		BOOL bNameValid;
		CString strAboutMenu;
		bNameValid = strAboutMenu.LoadString(IDS_ABOUTBOX);
		ASSERT(bNameValid);
		if (!strAboutMenu.IsEmpty())
		{
			pSysMenu->AppendMenu(MF_SEPARATOR);
			pSysMenu->AppendMenu(MF_STRING, IDM_ABOUTBOX, strAboutMenu);
		}
	}

	// 이 대화 상자의 아이콘을 설정합니다.  응용 프로그램의 주 창이 대화 상자가 아닐 경우에는
	//  프레임워크가 이 작업을 자동으로 수행합니다.
	SetIcon(m_hIcon, TRUE);			// 큰 아이콘을 설정합니다.
	SetIcon(m_hIcon, FALSE);		// 작은 아이콘을 설정합니다.

	// TODO: 여기에 추가 초기화 작업을 추가합니다.

	return TRUE;  // 포커스를 컨트롤에 설정하지 않으면 TRUE를 반환합니다.
}

void CIncSourceTestDlgDlg::OnSysCommand(UINT nID, LPARAM lParam)
{
	if ((nID & 0xFFF0) == IDM_ABOUTBOX)
	{
		CAboutDlg dlgAbout;
		dlgAbout.DoModal();
	}
	else
	{
		CDialogEx::OnSysCommand(nID, lParam);
	}
}

// 대화 상자에 최소화 단추를 추가할 경우 아이콘을 그리려면
//  아래 코드가 필요합니다.  문서/뷰 모델을 사용하는 MFC 애플리케이션의 경우에는
//  프레임워크에서 이 작업을 자동으로 수행합니다.

void CIncSourceTestDlgDlg::OnPaint()
{
	if (IsIconic())
	{
		CPaintDC dc(this); // 그리기를 위한 디바이스 컨텍스트입니다.

		SendMessage(WM_ICONERASEBKGND, reinterpret_cast<WPARAM>(dc.GetSafeHdc()), 0);

		// 클라이언트 사각형에서 아이콘을 가운데에 맞춥니다.
		int cxIcon = GetSystemMetrics(SM_CXICON);
		int cyIcon = GetSystemMetrics(SM_CYICON);
		CRect rect;
		GetClientRect(&rect);
		int x = (rect.Width() - cxIcon + 1) / 2;
		int y = (rect.Height() - cyIcon + 1) / 2;

		// 아이콘을 그립니다.
		dc.DrawIcon(x, y, m_hIcon);
	}
	else
	{
		CDialogEx::OnPaint();
	}
}

// 사용자가 최소화된 창을 끄는 동안에 커서가 표시되도록 시스템에서
//  이 함수를 호출합니다.
HCURSOR CIncSourceTestDlgDlg::OnQueryDragIcon()
{
	return static_cast<HCURSOR>(m_hIcon);
}

// 컨트롤러에서 해당 개체 중 하나를 계속 사용하고 있을 경우
//  사용자가 UI를 닫을 때 자동화 서버를 종료하면 안 됩니다.  이들
//  메시지 처리기는 프록시가 아직 사용 중인 경우 UI는 숨기지만,
//  UI가 표시되지 않아도 대화 상자는
//  남겨 둡니다.

void CIncSourceTestDlgDlg::OnClose()
{
	if (CanExit())
		CDialogEx::OnClose();
}

void CIncSourceTestDlgDlg::OnOK()
{
	if (CanExit())
		CDialogEx::OnOK();
}

void CIncSourceTestDlgDlg::OnCancel()
{
	if (CanExit())
		CDialogEx::OnCancel();
}

BOOL CIncSourceTestDlgDlg::CanExit()
{
	// 프록시 개체가 계속 남아 있으면 자동화 컨트롤러에서는
	//  이 애플리케이션을 계속 사용합니다.  대화 상자는 남겨 두지만
	//  해당 UI는 숨깁니다.
	if (m_pAutoProxy != nullptr)
	{
		ShowWindow(SW_HIDE);
		return FALSE;
	}

	return TRUE;
}


void CIncSourceTestDlgDlg::OnBnClickedButtonOpen()
{
	// TODO: 여기에 컨트롤 알림 처리기 코드를 추가합니다.
	TCHAR a2lExt[] = _T("*.a2l");
	TCHAR a2lBaseFilter[] = _T("A2L file(*.A2L) | *.a2l;*.A2L | 모든파일(*.*) | *.* ||");
	CFileDialog dlg(TRUE, a2lExt, NULL, OFN_HIDEREADONLY, a2lBaseFilter);

	if (dlg.DoModal() == IDOK) {
		std::wstring strPath = dlg.GetPathName().GetBuffer();

		std::string strA2lPath;

		strA2lPath.assign(strPath.begin(), strPath.end());

		loadA2lFile(strA2lPath.c_str());
	}
}

void CIncSourceTestDlgDlg::loadA2lFile(std::string strFilePath)
{
	std::string strLogData;

	bool bIsFileExist = false;
	try {
		bIsFileExist = std::filesystem::exists(strFilePath);
	}
	catch (const std::exception& error) {
		std::cout << "Failed to fetch the A2l test files. Error: "
			<< error.what();
	}

	a2l::A2lFile file;
	file.Filename(strFilePath.data());
	const auto parse = file.ParseFile();
	if (parse)
		std::cout << file.LastError() << " : " << strFilePath.data();
	std::cout << file.Name() << (parse ? " : OK" : " : FAIL") << std::endl;

	AddLogString(strFilePath.data());


	//if (file.A2lVersion().VersionNo == 1)
	//	;
	std::cout << file.A2lVersion().VersionNo << " : " << file.A2lVersion().VersionNo;
	AddLogString(string_format("file.A2lVersion().VersionNo : %d", file.A2lVersion().VersionNo));

	//if (file.A2lVersion().UpgradeNo == 71)
	//	;
	std::cout << file.A2lVersion().UpgradeNo << " : " << file.A2lVersion().UpgradeNo;
	AddLogString(string_format("file.A2lVersion().UpgradeNo : %d", file.A2lVersion().UpgradeNo));

	const auto& project = file.Project();

	const auto& header = project.Header();
	//EXPECT_FALSE(header.Comment.empty());
	//EXPECT_FALSE(header.ProjectNo.empty());
	//EXPECT_FALSE(header.VersionNo.empty());
	std::cout << header.Comment << " : " << header.Comment;
	AddLogString(string_format("header.Comment : %s", header.Comment.c_str()));
	std::cout << header.ProjectNo << " : " << header.ProjectNo;
	AddLogString(string_format("header.ProjectNo : %s", header.ProjectNo.c_str()));
	std::cout << header.VersionNo << " : " << header.VersionNo;
	AddLogString(string_format("header.VersionNo : %s", header.VersionNo.c_str()));

	const auto& module_list = project.Modules();
	//ASSERT_EQ(module_list.size(), 1);
	std::cout << module_list.size() << " : " << module_list.size();
	AddLogString(string_format("module_list.size() : %d", module_list.size()));

	if (module_list.size() > 0) {

		const auto& module = module_list.cbegin()->second;
		//ASSERT_TRUE(module);

		//EXPECT_STREQ(module->Name().c_str(), "Example");
		//EXPECT_FALSE(module->A2ml().empty());
		AddLogString(string_format("module->Name() :  %s", module->Name().c_str()));
		AddLogString(string_format("module->A2ml() :  %s", module->A2ml().c_str()));

		AddLogString("");
		
		const auto& modPar = module->ModPar();
		AddLogString(string_format("modPar.Comment() :  %s", modPar.Comment.c_str()));
		AddLogString(string_format("modPar.epk :  %s", modPar.Epk.c_str()));
		AddLogString(string_format("modPar.addr_epk size :  %d", modPar.AddressEpkList.size()));
		for (int i = 0; i < modPar.AddressEpkList.size(); i++) {
			AddLogString(string_format("modPar.addr_epk (%d) addr (0x%X)", i, modPar.AddressEpkList.at(i)));
		}
		AddLogString(string_format("modPar.memory layout size :  %d", modPar.MemoryLayoutList.size()));
		/*
		for (int i = 0; i < modPar.MemoryLayoutList.size(); i++) {
			AddLogString(string_format("modPar.MemoryLayoutList (%d) addr (0x%X)", i, modPar.MemoryLayoutList.at(i)));
		}
		*/

		AddLogString(string_format("modPar.memory segment size :  %d", modPar.MemorySegmentList.size()));

		for (int i = 0; i < modPar.MemorySegmentList.size(); i++) {
			AddLogString(string_format("(%d) modPar.Memory sement description=[%s] segment_type=[%d] memory_type=[%d] attribution=[%d] addr (0x%X) size(0x%X) offset_list=[%d] ifDataList=[%d]",
				i, modPar.MemorySegmentList.at(i).Description.c_str(), modPar.MemorySegmentList.at(i).SegmentType, modPar.MemorySegmentList.at(i).MemoryType,
				modPar.MemorySegmentList.at(i).Attribute, modPar.MemorySegmentList.at(i).Address, modPar.MemorySegmentList.at(i).Size,
				modPar.MemorySegmentList.at(i).OffsetList.size(), modPar.MemorySegmentList.at(i).IfDataList.size()));

		}

		AddLogString("");

		const auto& modComm = module->ModCommon();
		AddLogString(string_format("modComm.Comment() :  %s", modComm.Comment.c_str()));
		AddLogString(string_format("modComm.Deposit :  %d", modComm.Deposit));
		AddLogString(string_format("modComm.ByteOrder :  %d", modComm.ByteOrder));
		AddLogString(string_format("modComm.AlignmentByte :  %d", modComm.AlignmentByte));
		AddLogString(string_format("modComm.AlignmentFloat16 :  %d", modComm.AlignmentFloat16));
		AddLogString(string_format("modComm.AlignmentFloat32 :  %d", modComm.AlignmentFloat32));
		AddLogString(string_format("modComm.AlignmentFloat64 :  %d", modComm.AlignmentFloat64));
		AddLogString(string_format("modComm.AlignmentInt64 :  %d", modComm.AlignmentInt64));
		AddLogString(string_format("modComm.AlignmentLong :  %d", modComm.AlignmentLong));
		AddLogString(string_format("modComm.AlignmentWord :  %d", modComm.AlignmentWord));

		AddLogString("");

		for (const auto& [protocol, if_data] : module->IfDatas()) {
			a2l::IfDataBlock block(if_data);
			//EXPECT_TRUE(block.IsOk()) << block.LastError();
			std::cout << block.AsString() << std::endl;

			AddLogString(string_format("IF_DATA : %s", block.Protocol().c_str()));

			
			AddLogString(string_format("block.ItemList().size() : %d", block.ItemList().size()));

			for (int i = 0; i < block.ItemList().size(); i++) {
				AddLogString(string_format("%d block.ItemList() : %s", i, block.ItemList()[i].BlockName.c_str()));
				AddLogString(string_format("block.ItemList()[i].ItemList.size() : %d", block.ItemList()[i].ItemList.size()));

				// 1. protocol layer
				if (block.ItemList()[i].BlockName == "PROTOCOL_LAYER") {
					for (int j = 0; j < block.ItemList()[i].ItemList.size(); j++) {
						
						TRACE("[%d] %s\n", j, block.ItemList()[i].ItemList[j].Value.c_str());

						switch (j) {
						case 0: // version
							m_stA2LProtocolLayer.m_nXCPProtocolVersion = atoi(block.ItemList()[i].ItemList[j].Value.c_str());
							break;
						case 1: // t1
							m_stA2LProtocolLayer.m_nTimeout_T1 = atoi(block.ItemList()[i].ItemList[j].Value.c_str());
							break;
						case 2: // t2
							m_stA2LProtocolLayer.m_nTimeout_T2 = atoi(block.ItemList()[i].ItemList[j].Value.c_str());
							break;
						case 3: // t3
							m_stA2LProtocolLayer.m_nTimeout_T3 = atoi(block.ItemList()[i].ItemList[j].Value.c_str());
							break;
						case 4: // t4
							m_stA2LProtocolLayer.m_nTimeout_T4 = atoi(block.ItemList()[i].ItemList[j].Value.c_str());
							break;
						case 5: // t5
							m_stA2LProtocolLayer.m_nTimeout_T5 = atoi(block.ItemList()[i].ItemList[j].Value.c_str());
							break;
						case 6: // t6
							m_stA2LProtocolLayer.m_nTimeout_T6 = atoi(block.ItemList()[i].ItemList[j].Value.c_str());
							break;
						case 7: // t7
							m_stA2LProtocolLayer.m_nTimeout_T7 = atoi(block.ItemList()[i].ItemList[j].Value.c_str());
							break;
						case 8: // max cto
							m_stA2LProtocolLayer.m_cMAX_CTO = atoi(block.ItemList()[i].ItemList[j].Value.c_str());
							break;
						case 9: // max dto
							m_stA2LProtocolLayer.m_nMAX_DTO = atoi(block.ItemList()[i].ItemList[j].Value.c_str());
							break;

						default: // optional command
							if (block.ItemList()[i].ItemList[j].Value == "BYTE_ORDER_MSB_LAST") {
								m_stA2LProtocolLayer.m_nByteOrderMSBType = A2L_BYTE_ORDER_MSB_TYPE::BYTE_ORDER_MSB_LAST;
							}
							else if (block.ItemList()[i].ItemList[j].Value == "BYTE_ORDER_MSB_FIRST") {
								m_stA2LProtocolLayer.m_nByteOrderMSBType = A2L_BYTE_ORDER_MSB_TYPE::BYTE_ORDER_MSB_FIRST;
							}
							else if (block.ItemList()[i].ItemList[j].Value == "ADDRESS_GRANULARITY_BYTE") {
								m_stA2LProtocolLayer.m_nAddressGranularityType = A2L_ADDRESS_GRANULARITY_TYPE::ADDRESS_GRANULARITY_BYTE;
							}
							else if (block.ItemList()[i].ItemList[j].Value == "ADDRESS_GRANULARITY_WORD") {
								m_stA2LProtocolLayer.m_nAddressGranularityType = A2L_ADDRESS_GRANULARITY_TYPE::ADDRESS_GRANULARITY_WORD;
							}
							else if (block.ItemList()[i].ItemList[j].Value == "ADDRESS_GRANULARITY_DWORD") {
								m_stA2LProtocolLayer.m_nAddressGranularityType = A2L_ADDRESS_GRANULARITY_TYPE::ADDRESS_GRANULARITY_DWORD;
							}
							else if (block.ItemList()[i].ItemList[j].Value == "OPTIONAL_CMD") {
								j++;
								TRACE("[%d] %s\n", j, block.ItemList()[i].ItemList[j].Value.c_str());

								if (block.ItemList()[i].ItemList[j].Value == "GET_COMM_MODE_INFO") { // 0xFB
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::GET_COMM_MODE_INFO);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "GET_ID") { // 0xFA
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::GET_ID);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "SET_REQUEST") { // 0xF9
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::SET_REQUEST);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "GET_SEED") { // 0xF8
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::GET_SEED);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "UNLOCK") { // 0xF7
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::UNLOCK);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "SET_MTA") { // 0xF6
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::SET_MTA);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "UPLOAD") { // 0xF5
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::UPLOAD);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "SHORT_UPLOAD") { // 0xF4
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::SHORT_UPLOAD);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "BUILD_CHECKSUM") { // 0xF3
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::BUILD_CHECKSUM);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "TRANSPORT_LAYER_CMD") { // 0xF2
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::TRANSPORT_LAYER_CMD);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "USER_CMD") { // 0xF1
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::USER_CMD);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "DOWNLOAD") { // 0xF0
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::DOWNLOAD);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "DOWNLOAD") { // 0xF0
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::DOWNLOAD);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "DOWNLOAD_NEXT") { // 0xEF
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::DOWNLOAD_NEXT);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "DOWNLOAD_MAX") { // 0xEE
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::DOWNLOAD_MAX);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "SHORT_DOWNLOAD") { // 0xED
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::SHORT_DOWNLOAD);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "MODIFY_BITS") { // 0xEC
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::MODIFY_BITS);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "SET_CAL_PAGE") { // 0xEB
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::SET_CAL_PAGE);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "GET_CAL_PAGE") { // 0xEA
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::GET_CAL_PAGE);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "GET_PAG_PROCESSOR_INFO") { // 0xE9
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::GET_PAG_PROCESSOR_INFO);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "GET_SEGMENT_INFO") { // 0xE8
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::GET_SEGMENT_INFO);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "GET_PAGE_INFO") { // 0xE7
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::GET_PAGE_INFO);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "SET_SEGMENT_MODE") { // 0xE6
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::SET_SEGMENT_MODE);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "GET_SEGMENT_MODE") { // 0xE5
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::GET_SEGMENT_MODE);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "COPY_CAL_PAGE") { // 0xE4
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::COPY_CAL_PAGE);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "SET_DAQ_PTR") { // 0xE2
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::SET_DAQ_PTR);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "WRITE_DAQ") { // 0xE1
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::WRITE_DAQ);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "SET_DAQ_LIST_MODE") { // 0xE0
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::SET_DAQ_LIST_MODE);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "GET_DAQ_LIST_MODE") { // 0xDF
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::GET_DAQ_LIST_MODE);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "START_STOP_DAQ_LIST") { // 0xDE
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::START_STOP_DAQ_LIST);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "START_STOP_SYNCH") { // 0xDD
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::START_STOP_SYNCH);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "GET_DAQ_CLOCK") { // 0xDC
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::GET_DAQ_CLOCK);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "READ_DAQ") { // 0xDB
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::READ_DAQ);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "GET_DAQ_PROCESSOR_INFO") { // 0xDA
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::GET_DAQ_PROCESSOR_INFO);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "GET_DAQ_RESOLUTION_INFO") { // 0xD9
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::GET_DAQ_RESOLUTION_INFO);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "GET_DAQ_LIST_INFO") { // 0xD8
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::GET_DAQ_LIST_INFO);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "GET_DAQ_EVENT_INFO") { // 0xD7
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::GET_DAQ_EVENT_INFO);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "FREE_DAQ") { // 0xD6
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::FREE_DAQ);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "ALLOC_DAQ") { // 0xD5
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::ALLOC_DAQ);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "ALLOC_ODT") { // 0xD4
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::ALLOC_ODT);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "ALLOC_ODT_ENTRY") { // 0xD3
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::ALLOC_ODT_ENTRY);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "PROGRAM_START") { // 0xD2
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::PROGRAM_START);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "PROGRAM_CLEAR") { // 0xD1
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::PROGRAM_CLEAR);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "PROGRAM") { // 0xD0
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::PROGRAM);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "PROGRAM_RESET") { // 0xCF
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::PROGRAM_RESET);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "GET_PGM_PROCESSOR_INFO") { // 0xCE
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::GET_PGM_PROCESSOR_INFO);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "GET_SECTOR_INFO") { // 0xCD
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::GET_SECTOR_INFO);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "PROGRAM_PREPARE") { // 0xCC
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::PROGRAM_PREPARE);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "PROGRAM_FORMAT") { // 0xCB
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::PROGRAM_FORMAT);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "PROGRAM_NEXT") { // 0xCA
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::PROGRAM_NEXT);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "DOWNLOAD_NEXT") { // 0xEF
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::SET_DAQ_LIST_MODE);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "PROGRAM_MAX") { // 0xC9
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::PROGRAM_MAX);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "PROGRAM_VERIFY") { // 0xC8
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::PROGRAM_VERIFY);
								}
								else if (block.ItemList()[i].ItemList[j].Value == "WRITE_DAQ_MULTIPLE") { // 0xC7
									m_stA2LProtocolLayer.m_nOptionalCommandList.push_back(A2L_OPTIONAL_COMMAND_TYPE::WRITE_DAQ_MULTIPLE);
								}
							}
							else if (block.ItemList()[i].ItemList[j].Value == "COMMUNICATION_MODE_SUPPORTED") {
								j++;
								TRACE("[%d] %s\n", j, block.ItemList()[i].ItemList[j].Value.c_str());
								if (block.ItemList()[i].ItemList[j].Value == "BLOCK") {
									j++;
									if (block.ItemList()[i].ItemList[j].Value == "SLAVE") {
										j++;
										
									}
									if (block.ItemList()[i].ItemList[j].Value == "MASTER") {
										j++;
										m_stA2LProtocolLayer.m_stCommunicationModeSupported.m_cMaster_MAX_BS = atoi(block.ItemList()[i].ItemList[j].Value.c_str());
										j++;
										m_stA2LProtocolLayer.m_stCommunicationModeSupported.m_cMaster_MIN_ST = atoi(block.ItemList()[i].ItemList[j].Value.c_str());
									}
									
								}
							}
							else if (block.ItemList()[i].ItemList[j].Value == "SEED_AND_KEY_EXTERNAL_FUNCTION") {
								j++;
								TRACE("[%d] %s\n", j, block.ItemList()[i].ItemList[j].Value.c_str());
								m_stA2LProtocolLayer.m_strSeedAndKeyExternalFunction = block.ItemList()[i].ItemList[j].Value;
							}
						
							break;
						}

					}

				}
				// 3. DAQ
				if (block.ItemList()[i].BlockName == "DAQ") {
				}
				for (int j = 0; j < block.ItemList()[i].ItemList.size(); j++) {
					// check digit
					bool bIsDigit = true;
					if (j > 0)
						TRACE("asdf");
					for (int cnt = 0; cnt < block.ItemList()[i].ItemList[j].Value.size(); cnt++) {
						//int value = std::isdigit(block.ItemList()[i].ItemList[j].Value.at(cnt));
						//int alpha = std::isalpha(block.ItemList()[i].ItemList[j].Value.at(cnt));
						//TRACE("[%c][%d][%d]\n", block.ItemList()[i].ItemList[j].Value.at(cnt), value, alpha);
						if (std::isdigit(block.ItemList()[i].ItemList[j].Value.at(cnt)) == 0)
							bIsDigit = false;
					}

					if (bIsDigit)
						AddLogString(string_format("%d : Address 0x%X (%d) : %s itemlist=%d", j, atoi(block.ItemList()[i].ItemList[j].Value.c_str()), atoi(block.ItemList()[i].ItemList[j].Value.c_str()), block.ItemList()[i].ItemList[j].BlockName.c_str(), block.ItemList()[i].ItemList[j].ItemList.size()));
					else
						AddLogString(string_format("%d : %s : %s itemlist=%d", j, block.ItemList()[i].ItemList[j].Value.c_str(), block.ItemList()[i].ItemList[j].BlockName.c_str(), block.ItemList()[i].ItemList[j].ItemList.size()));


					for (int k = 0; k < (block.ItemList()[i].ItemList[j].ItemList.size()); k++) {
						AddLogString(string_format(" %d : %s : %s", k, block.ItemList()[i].ItemList[j].ItemList[k].Value.c_str(), block.ItemList()[i].ItemList[j].ItemList[k].BlockName.c_str()));
					}
				}

				AddLogString("");
			}
			//AddLogString(string_format("block.AsString() :  %s", block.AsString().c_str()));

			AddLogString("");
		}

		return;

		AddLogString("");
		const auto& axis_list = module->AxisPtss();
		//EXPECT_GT(axis_list.size(), 1);
		std::cout << "\t\tAXIS PTS" << std::endl;
		for (const auto& [pts_name, pts] : axis_list) {
			std::cout << pts_name << std::endl;
		}
		std::cout << std::endl;

		const auto& blob_list = module->Blobs();
		//EXPECT_GT(blob_list.size(), 0);
		std::cout << "\t\tBLOB" << std::endl;
		for (const auto& [blob_name, blob] : blob_list) {
			std::cout << blob_name << " " << blob->Address() << std::endl;
		}
		std::cout << std::endl;

		AddLogString("");

		const auto& characteristic_list = module->Characteristics();
		//EXPECT_GT(characteristic_list.size(), 0);
		std::cout << "\t\tCHARACTERISTIC" << std::endl;

		AddLogString(string_format("chracteristics : %d", characteristic_list.size()));
		int i = 0;
		for (const auto& [char_name, characteristic] : characteristic_list) {
			std::cout << char_name << " " << characteristic->Description() << std::endl;
			AddLogString(string_format(" %d : %s", i, characteristic->Description().c_str()));
		}
		std::cout << std::endl;

		AddLogString("");

		const auto& compu_method_list = module->CompuMethods();
		//EXPECT_GT(compu_method_list.size(), 0);
		std::cout << "\t\tCOMPU METHOD" << std::endl;
		for (const auto& [method_name, method] : compu_method_list) {
			std::cout << method_name << " " << method->Description() << std::endl;
		}
		std::cout << std::endl;

		const auto& compu_tab_list = module->CompuTabs();
		//EXPECT_GT(compu_tab_list.size(), 0);
		std::cout << "\t\tCOMPU TAB" << std::endl;
		for (const auto& [tab_name, tab] : compu_tab_list) {
			std::cout << tab_name << " " << tab->Description() << std::endl;
		}
		std::cout << std::endl;

		const auto& compu_vtab_list = module->CompuVtabs();
		//EXPECT_GT(compu_vtab_list.size(), 0);
		std::cout << "\t\tCOMPU VTAB" << std::endl;
		for (const auto& [vtab_name, vtab] : compu_vtab_list) {
			std::cout << vtab_name << " " << vtab->Description() << std::endl;
		}
		std::cout << std::endl;

		const auto& compu_vtab_range_list = module->CompuVtabRanges();
		//EXPECT_GT(compu_vtab_range_list.size(), 0);
		std::cout << "\t\tCOMPU VTAB RANGE" << std::endl;
		for (const auto& [range_name, range] : compu_vtab_range_list) {
			std::cout << range_name << " " << range->Description() << std::endl;
		}
		std::cout << std::endl;

		const auto& frame_list = module->Frames();
		// EXPECT_GT(frame_list.size(), 0); No frames in file
		std::cout << "\t\tFRAME" << std::endl;
		for (const auto& [frame_name, frame] : frame_list) {
			std::cout << frame_name << " " << frame->Description() << std::endl;
		}
		std::cout << std::endl;

		const auto& func_list = module->Functions();
		//EXPECT_GT(func_list.size(), 0);
		std::cout << "\t\tFUNCTION" << std::endl;
		for (const auto& [func_name, func] : func_list) {
			std::cout << func_name << " " << func->Description() << std::endl;
		}
		std::cout << std::endl;

		const auto& group_list = module->Groups();
		//EXPECT_GT(group_list.size(), 0);
		std::cout << "\t\tGROUP" << std::endl;
		for (const auto& [group_name, group] : group_list) {
			std::cout << group_name << " " << group->Description() << std::endl;
		}
		std::cout << std::endl;

		const auto& instance_list = module->Instances();
		//EXPECT_GT(instance_list.size(), 0);
		std::cout << "\t\tINSTANCE" << std::endl;
		for (const auto& [instance_name, instance] : instance_list) {
			std::cout << instance_name << " " << instance->Description() << std::endl;
		}
		std::cout << std::endl;

		AddLogString("");

		const auto& meas_list = module->Measurements();
		//EXPECT_GT(meas_list.size(), 0);
		std::cout << "\t\tMEASUREMENT" << std::endl;

		AddLogString(string_format("measurement : %d", meas_list.size()));

		i = 0;
		for (const auto& [meas_name, meas] : meas_list) {
			std::cout << meas_name << " " << meas->Description() << std::endl;
			AddLogString(string_format(" %d : %s", i, meas->Description().c_str()));
		}
		std::cout << std::endl;

		AddLogString("");

		const auto& rec_list = module->RecordLayouts();
		//EXPECT_GT(rec_list.size(), 0);
		std::cout << "\t\tRECORD LAYOUT" << std::endl;
		for (const auto& [rec_name, rec] : rec_list) {
			std::cout << rec_name << std::endl;
		}
		std::cout << std::endl;

		const auto& trans_list = module->Transformers();
		//EXPECT_GT(trans_list.size(), 0);
		std::cout << "\t\tTRANSFORMER" << std::endl;
		for (const auto& [trans_name, trans] : trans_list) {
			std::cout << trans_name << std::endl;
		}
		std::cout << std::endl;

		const auto& taxis_list = module->TypedefAxiss();
		//EXPECT_GT(taxis_list.size(), 0);
		std::cout << "\t\tTYPEDEF AXIS" << std::endl;
		for (const auto& [taxis_name, taxis] : taxis_list) {
			std::cout << taxis_name << std::endl;
		}
		std::cout << std::endl;

		const auto& tblob_list = module->TypedefBlobs();
		//EXPECT_GT(tblob_list.size(), 0);
		std::cout << "\t\tTYPEDEF BLOB" << std::endl;
		for (const auto& [tblob_name, tblob] : tblob_list) {
			std::cout << tblob_name << std::endl;
		}
		std::cout << std::endl;

		const auto& tchar_list = module->TypedefCharacteristics();
		//EXPECT_GT(tchar_list.size(), 0);
		std::cout << "\t\tTYPEDEF CHARACTERISTIC" << std::endl;
		for (const auto& [tchar_name, tchar] : tchar_list) {
			std::cout << tchar_name << std::endl;
		}
		std::cout << std::endl;

		const auto& tmeas_list = module->TypedefMeasurements();
		//EXPECT_GT(tmeas_list.size(), 0);
		std::cout << "\t\tTYPEDEF MEASUREMENT" << std::endl;
		for (const auto& [tmeas_name, tmeas] : tmeas_list) {
			std::cout << tmeas_name << std::endl;
		}

		std::cout << std::endl;
		const auto& tstruct_list = module->TypedefStructures();
		//EXPECT_GT(tstruct_list.size(), 0);
		std::cout << "\t\tTYPEDEF STRUCTURE" << std::endl;
		for (const auto& [tstruct_name, tstruct] : tstruct_list) {
			std::cout << tstruct_name << std::endl;
		}
		std::cout << std::endl;

		std::cout << std::endl;
		const auto& unit_list = module->Units();
		//EXPECT_GT(unit_list.size(), 0);
		std::cout << "\t\tUNIT" << std::endl;
		for (const auto& [unit_name, unit] : unit_list) {
			std::cout << unit_name << std::endl;
		}
		std::cout << std::endl;

		a2l::A2mlBlock a2ml_block(module->A2ml());
		const auto& a2ml = module->A2ml();
		const auto a2ml_parse = a2ml_block.IsOk();

		//EXPECT_TRUE(a2ml_parse) << a2ml_block.LastError();
		/*
		  const auto& block_list = a2ml_scanner.BlockList();
		  for (const auto& block : block_list) {
			std::cout << block.AsString() << std::endl;
		  }
		*/
	}
}

void CIncSourceTestDlgDlg::AddLogString(std::string strMessage)
{
	CListBox* pListBox = (CListBox*)GetDlgItem(IDC_LIST_DATA);
	std::wstring message_w;
	message_w.assign(strMessage.begin(), strMessage.end());

	pListBox->AddString(message_w.c_str());
}
void CIncSourceTestDlgDlg::OnBnClickedButtonElf()
{
	// TODO: 여기에 컨트롤 알림 처리기 코드를 추가합니다.
	TCHAR hexExt[] = _T("*.elf");
	TCHAR hexBaseFilter[] = _T("ELF file(*.ELF) | *.elf;*.ELF | 모든파일(*.*) | *.* ||");
	CFileDialog dlg(TRUE, hexExt, NULL, OFN_HIDEREADONLY, hexBaseFilter);

	if (dlg.DoModal() == IDOK) {

		std::wstring strPath = dlg.GetPathName().GetBuffer();

		std::string strHexPath;

		strHexPath.assign(strPath.begin(), strPath.end());

		ELFIO::elfio reader;
		if (reader.load(strHexPath.c_str())) {
			// Print ELF file properties
			std::cout << "ELF file class    : ";
			
			if (reader.get_class() == ELFIO::ELFCLASS32) {
				std::cout << "ELF32" << std::endl;
				AddLogString(string_format("ELF file class : ELF32"));
			}
			else {
				std::cout << "ELF64" << std::endl;
				AddLogString(string_format("ELF file class : ELF64"));
			}

			std::cout << "ELF file encoding : ";
			if (reader.get_encoding() == ELFIO::ELFDATA2LSB) {
				std::cout << "Little endian" << std::endl;
				AddLogString(string_format("ELF file encoding : Little endian"));
			}
			else {
				std::cout << "Big endian" << std::endl;
				AddLogString(string_format("ELF file encoding : Big endian"));
			}

			// Print ELF file sections info
			ELFIO::Elf_Half sec_num = reader.sections.size();
			std::cout << "Number of sections: " << sec_num << std::endl;
			AddLogString(string_format("Number of sections: %d", sec_num));
			for (int i = 0; i < sec_num; ++i) {
				ELFIO::section* psec = reader.sections[i];
				std::cout << "  [" << i << "] " << psec->get_name() << "\t"
					<< psec->get_size() << std::endl;

				AddLogString(string_format(" [%d] %s [%d]", i, psec->get_name(), psec->get_size()));

				// Access to section's data
				// const char* p = reader.sections[i]->get_data()
			}

			// Print ELF file segments info
			ELFIO::Elf_Half seg_num = reader.segments.size();
			std::cout << "Number of segments: " << seg_num << std::endl;
			AddLogString(string_format("Number of segments: %d", seg_num));
			for (int i = 0; i < seg_num; ++i) {
				const ELFIO::segment* pseg = reader.segments[i];
				std::cout << "  [" << i << "] 0x" << std::hex << pseg->get_flags()
					<< "\t0x" << pseg->get_virtual_address() << "\t0x"
					<< pseg->get_file_size() << "\t0x" << pseg->get_memory_size()
					<< std::endl;

				AddLogString(string_format(" [%d] 0x%X 0x%X [%d]", i, pseg->get_flags(), pseg->get_virtual_address(), pseg->get_memory_size()));
				// Access to segments's data
				// const char* p = reader.segments[i]->get_data()
			}

			for (int i = 0; i < sec_num; ++i) {
				ELFIO::section* psec = reader.sections[i];
				// Check section type
				if (psec->get_type() == ELFIO::SHT_SYMTAB) {
					const ELFIO::symbol_section_accessor symbols(reader, psec);
					for (unsigned int j = 0; j < symbols.get_symbols_num(); ++j) {
						std::string   name;
						ELFIO::Elf64_Addr    value;
						ELFIO::Elf_Xword     size;
						unsigned char bind;
						unsigned char type;
						ELFIO::Elf_Half      section_index;
						unsigned char other;

						// Read symbol properties
						symbols.get_symbol(j, name, value, size, bind, type,
							section_index, other);
						std::cout << j << " " << name << " " << value << std::endl;

						if (type == 1)
						AddLogString(string_format("[%d][%d] %s 0x%X %d type=%d bind=%d section_index=0x%X other=%d",i, j, name.c_str(), value, size, type, bind, section_index, other));
					}
				}
			}

		}

	}

	
}

void CIncSourceTestDlgDlg::OnBnClickedButtonHex()
{
	// TODO: 여기에 컨트롤 알림 처리기 코드를 추가합니다.

	
	TCHAR hexExt[] = _T("*.hex");
	TCHAR hexBaseFilter[] = _T("HEX file(*.HEX) | *.hex;*.HEX | 모든파일(*.*) | *.* ||");
	CFileDialog dlg(TRUE, hexExt, NULL, OFN_HIDEREADONLY, hexBaseFilter);

	if (dlg.DoModal() == IDOK) {

		std::wstring strPath = dlg.GetPathName().GetBuffer();

		std::string strHexPath;

		strHexPath.assign(strPath.begin(), strPath.end());

		intelhex::hex_data ithex;

		ithex.load(strHexPath.c_str());

		intelhex::hex_data::iterator iter = ithex.begin();

		for (; iter != ithex.end(); iter++) {
			(*iter).second;
		}

	}
}