PE Header Parsing App (LastDitchAttempt)

==++Here's the complete code for (file 1/2) of main.cpp::++==
```cpp
#define STRICT
#define WIN32_LEAN_AND_MEAN
#define DEBUG_OUTPUT(format, ...) \
    do { \
        OUTPUT("[DEBUG] %s:%d - " format "\n", __FUNCTION__, __LINE__, ##__VA_ARGS__); \
    } while(0)
#ifndef OUTPUT
#define OUTPUT(format, ...) wprintf(L##format, ##__VA_ARGS__)
#endif
#include <Windows.h>
#include <winternl.h>
#include <CommCtrl.h>
#include <commdlg.h>
#include <string>
#include <strsafe.h>
#include <sstream>
#include <iomanip>
#include <stdio.h>
#include <vector>
#include <shellapi.h>
//#include "helpers.h"
#include "PEHeaders.h"
#include "resource.h"
#pragma comment(lib, "comctl32.lib")

//namespace was here

// Window defines
#define WINDOW_CLASS_NAME L"PEAnalyzerWindow"
#define OUTPUT(format, ...) AppendToOutput(L##format, ##__VA_ARGS__)
#define WINDOW_WIDTH    1024
#define WINDOW_HEIGHT   768
#define EDIT_MARGIN    10

// Global variables
HWND g_hMainWindow = NULL;
HWND g_hEditControl = NULL;
HWND g_hStatusBar = NULL;
HWND g_hProgressBar = NULL;
HFONT g_hFont = NULL;
std::wstringstream g_OutputText;
std::vector<wchar_t> g_OutputBuffer;
std::wstring tempBuffer;
WCHAR filePathW[MAX_PATH];

// Resource parsing constants
static const wchar_t* RESOURCE_TYPES[] = {
    L"Unknown",     L"Cursor",      L"Bitmap",      L"Icon",
    L"Menu",        L"Dialog",      L"String",      L"FontDir",
    L"Font",        L"Accelerator", L"RCData",      L"MessageTable",
    L"GroupCursor", L"GroupIcon",   L"Version",     L"DlgInclude"
};

//adding structs here now

enum class FileValidationResult {
    Valid,
    InvalidPath,
    FileNotFound,
    AccessDenied,
    UnsupportedType
};

// Forward declarations for global functions
void UpdateEditControl();
void AppendToOutput(const wchar_t* format, ...);
void SetStatusText(const wchar_t* text);
void ShowProgress(int percentage);
void OpenFileDialog(HWND hwnd);
void AnalyzePEFile(const wchar_t* filePathW);
//analyzepefile 4wd func
HANDLE GetFileContent(const wchar_t* lpFilePath);
void OpenFileDialog(HWND hwnd); // Add these in the global scope, before any namespace declarations

// GUI-related forward declarations
LRESULT CALLBACK WindowProc(HWND hwnd, UINT uMsg, WPARAM wParam, LPARAM lParam);
LRESULT CALLBACK EditSubclassProc(HWND hwnd, UINT uMsg, WPARAM wParam,
    LPARAM lParam, UINT_PTR uIdSubclass, DWORD_PTR dwRefData);
void CreateMainWindow(HINSTANCE hInstance);
void InitializeControls(HWND hwnd);
void AddMenus(HWND hwnd);
//void SetStatusText(const wchar_t* text);
//void ShowProgress(int percentage);
//void UpdateEditControl();
DWORD GetFileSizeCustom(const wchar_t* filePath);

//bool Is64BitPE(PIMAGE_NT_HEADERS pNtHeaders);


//using namespace std;
//using namespace PEParser;
//using namespace PEHelpers;

//namespace PEParser {

//struct PEAnalyzer;  // Forward declaration
class FileMapper;
FileValidationResult ValidatePEFile(const wchar_t* filePath);
bool InitializePEAnalyzer(PEAnalyzer& analyzer, const wchar_t* filePath);
//class FileValidationResult ValidatePEFile(const wchar_t* filePath);
void ParseSections(const PEAnalyzer& analyzer); //forwarddeclare parse+ bring namespace up
void ParseImportDirectory(const PEAnalyzer& analyzer);
void ParseExportDirectory(const PEAnalyzer& analyzer);
void ParseResourceDirectory(const PEAnalyzer& analyzer);
void ParseDebugDirectory(const PEAnalyzer& analyzer);
void AnalyzeHeaders(const PEAnalyzer& analyzer);
void AnalyzeDataDirectories(const PEAnalyzer& analyzer);
//bool InitializePEAnalyzer(PEAnalyzer& analyzer, const wchar_t* filePath);

//newglobals
void ParseNTHeader64(const PEAnalyzer& analyzer);
void ParseNTHeader32(const PEAnalyzer& analyzer);
void ParseImportFunctions32(const PEAnalyzer& analyzer, PIMAGE_IMPORT_DESCRIPTOR pImportDesc);
void ParseImportFunctions64(const PEAnalyzer& analyzer, PIMAGE_IMPORT_DESCRIPTOR pImportDesc);
void ParseExportedFunctions(const PEAnalyzer& analyzer, PIMAGE_EXPORT_DIRECTORY pExportDir,
    PDWORD pFunctions, PDWORD pNames, PWORD pOrdinals);
void ProcessResourceDirectory(
    PIMAGE_RESOURCE_DIRECTORY resDir,
    int level,
    const wchar_t* type,
    PIMAGE_RESOURCE_DIRECTORY baseResourceDir,
    const PEAnalyzer& analyzer);
void ProcessNamedResourceEntry(const IMAGE_RESOURCE_DIRECTORY_ENTRY& entry,
    int level, PIMAGE_RESOURCE_DIRECTORY baseResourceDir,
    const PEAnalyzer& analyzer);
void ProcessIdResourceEntry(const IMAGE_RESOURCE_DIRECTORY_ENTRY& entry,
    int level, const wchar_t* type,
    PIMAGE_RESOURCE_DIRECTORY baseResourceDir,
    const PEAnalyzer& analyzer);
void ProcessResourceSubdirectory(const IMAGE_RESOURCE_DIRECTORY_ENTRY& entry,
    int level, const wchar_t* type,
    PIMAGE_RESOURCE_DIRECTORY baseResourceDir,
    const PEAnalyzer& analyzer);
void ProcessResourceData(const IMAGE_RESOURCE_DIRECTORY_ENTRY& entry,
    int level, const wchar_t* type,
    PIMAGE_RESOURCE_DIRECTORY baseResourceDir,
    const PEAnalyzer& analyzer);
void ProcessDebugEntry(const IMAGE_DEBUG_DIRECTORY& debugEntry, const PEAnalyzer& analyzer);
void ProcessRSDSDebugInfo(const IMAGE_DEBUG_DIRECTORY& debugEntry, DWORD* pCVHeader,
    const PEAnalyzer& analyzer);
void ProcessCodeViewDebugInfo(const IMAGE_DEBUG_DIRECTORY& debugEntry, const PEAnalyzer& analyzer);
void ProcessNB10DebugInfo(const IMAGE_DEBUG_DIRECTORY& debugEntry, DWORD* pCVHeader,
    const PEAnalyzer& analyzer);
//void ParseImportDirectory(const PEAnalyzer& analyzer);
//void ParseExportDirectory(const PEAnalyzer& analyzer);
//DWORD GetFileSizeCustom(const wchar_t* filePath);
//endnewglobals

//using namespace std;
//using namespace PEHelpers;
//struct was here


// File mapping helper class
class FileMapper {
private:
    HANDLE hFile;
    HANDLE hMapping;
    LPVOID lpView;

public:
    FileMapper() : hFile(INVALID_HANDLE_VALUE), hMapping(nullptr), lpView(nullptr) {}
    ~FileMapper() { Cleanup(); }

    void Cleanup() {
        if (lpView) {
            UnmapViewOfFile(lpView);
            lpView = nullptr;
        }
        if (hMapping) {
            CloseHandle(hMapping);
            hMapping = nullptr;
        }
        if (hFile != INVALID_HANDLE_VALUE) {
            CloseHandle(hFile);
            hFile = INVALID_HANDLE_VALUE;
        }
    }

        bool Initialize(const wchar_t* path) {
        Cleanup();

        hFile = CreateFileW(path, GENERIC_READ, FILE_SHARE_READ,
            nullptr, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, nullptr);
        if (hFile == INVALID_HANDLE_VALUE) {
            OUTPUT("[-] Failed to open file\n");
            return false;
        }

        LARGE_INTEGER fileSize;
        if (!GetFileSizeEx(hFile, &fileSize)) {
            OUTPUT("[-] Failed to get file size\n");
            Cleanup();
            return false;
        }

        // Create mapping without SEC_IMAGE first
        hMapping = CreateFileMappingW(hFile, nullptr, PAGE_READONLY,
            fileSize.HighPart, fileSize.LowPart, nullptr);
        if (!hMapping) {
            OUTPUT("[-] Failed to create file mapping\n");
            Cleanup();
            return false;
        }

        lpView = MapViewOfFile(hMapping, FILE_MAP_READ, 0, 0, 0);
        if (!lpView) {
            OUTPUT("[-] Failed to map view of file\n");
            Cleanup();
            return false;
        }

        return true;
        }

        LPVOID GetView() const { return lpView; }
};

FileValidationResult ValidatePEFile(const wchar_t* filePath) {
    if (!filePath || wcslen(filePath) == 0) {
        OUTPUT("[-] Null or empty file path\n");
        return FileValidationResult::InvalidPath;
    }

    // Check file extension
    const wchar_t* ext = wcsrchr(filePath, L'.');
    if (!ext || (wcscmp(ext, L".exe") != 0 && wcscmp(ext, L".dll") != 0)) {
        OUTPUT("[-] Unsupported file type. Only .exe and .dll are supported\n");
        return FileValidationResult::UnsupportedType;
    }

    // Detailed file access check
    HANDLE hFile = CreateFileW(
        filePath,
        GENERIC_READ,
        FILE_SHARE_READ | FILE_SHARE_WRITE,
        NULL,
        OPEN_EXISTING,
        FILE_ATTRIBUTE_NORMAL,
        NULL
    );

    if (hFile == INVALID_HANDLE_VALUE) {
        DWORD error = GetLastError();
        switch (error) {
        case ERROR_FILE_NOT_FOUND:
            OUTPUT("[-] File not found: %s\n", filePath);
            return FileValidationResult::FileNotFound;
        case ERROR_ACCESS_DENIED:
            OUTPUT("[-] Access denied. Check file permissions: %s\n", filePath);
            return FileValidationResult::AccessDenied;
        default:
            OUTPUT("[-] File open error %d: %s\n", error, filePath);
            return FileValidationResult::InvalidPath;
        }
    }

    // Additional checks
    LARGE_INTEGER fileSize;
    if (!GetFileSizeEx(hFile, &fileSize)) {
        CloseHandle(hFile);
        OUTPUT("[-] Cannot determine file size\n");
        return FileValidationResult::InvalidPath;
    }

    CloseHandle(hFile);
    return FileValidationResult::Valid;
}

// Initialization function
bool InitializePEAnalyzer(PEAnalyzer& analyzer, const wchar_t* filePath) {
    FileValidationResult validationResult = ValidatePEFile(filePath);
    if (validationResult != FileValidationResult::Valid) {
        OUTPUT("[-] File validation failed with code: %d\n", static_cast<int>(validationResult));
        return false;
    }

        /*if (!analyzer.lpFileContent) {
            OUTPUT("[-] No file content available\n");
            return false;
        }*/ //chatgpt4omitted

    FileMapper mapper;
    if (!mapper.Initialize(filePath)) {
        OUTPUT("[-] Failed to map file. Detailed error in FileMapper\n");
        return false;
    }

    analyzer.lpFileContent = mapper.GetView();
    analyzer.fileSize = GetFileSizeCustom(filePath);
    if (!analyzer.lpFileContent) {
        OUTPUT("[-] Memory mapping failed\n");
        return false;
    }

    // Validate DOS Header
    analyzer.pDosHeader = static_cast<PIMAGE_DOS_HEADER>(analyzer.lpFileContent);
    if (!IsSafeToRead(analyzer, analyzer.pDosHeader, sizeof(IMAGE_DOS_HEADER)) ||
        analyzer.pDosHeader->e_magic != IMAGE_DOS_SIGNATURE) {
        OUTPUT("[-] Invalid DOS signature: 0x%X (Expected 0x%X)\n",
            analyzer.pDosHeader->e_magic, IMAGE_DOS_SIGNATURE);
        return false;
    }

    // Validate NT Header Offset
    if (analyzer.pDosHeader->e_lfanew >= analyzer.fileSize ||
        analyzer.pDosHeader->e_lfanew < sizeof(IMAGE_DOS_HEADER)) {
        OUTPUT("[-] Invalid e_lfanew value: 0x%X\n", analyzer.pDosHeader->e_lfanew);
        return false;
    }

    /* // Comprehensive PE signature validation
        if (!analyzer.lpFileContent || analyzer.fileSize == 0) {
        OUTPUT("[-] Memory mapping failed or file size is zero\n");
        return false;
    }

        // Add bounds checking
        if (analyzer.fileSize < sizeof(IMAGE_DOS_HEADER)) {
            OUTPUT("[-] File too small to contain DOS header\n");
            return false;
        }

    // DOS Header validation with extensive checks
        analyzer.pDosHeader = static_cast<PIMAGE_DOS_HEADER>(analyzer.lpFileContent);

        // Validate DOS header
        //if (!IsSafeToRead(analyzer, analyzer.pDosHeader, sizeof(IMAGE_DOS_HEADER))) {
        //    OUTPUT("[-] Invalid DOS header access\n");
            return false;
        //}

    // More robust DOS signature check
        if (analyzer.pDosHeader->e_magic != IMAGE_DOS_SIGNATURE) {
            OUTPUT("[-] Invalid DOS signature: 0x%X (Expected 0x%X)\n",
                analyzer.pDosHeader->e_magic, IMAGE_DOS_SIGNATURE);
            return false;
        }

    // Validate e_lfanew with more checks
    if (analyzer.pDosHeader->e_lfanew >= analyzer.fileSize ||
        analyzer.pDosHeader->e_lfanew < sizeof(IMAGE_DOS_HEADER)) {
        OUTPUT("[-] Invalid e_lfanew value: 0x%X\n", analyzer.pDosHeader->e_lfanew);
        return false;
    } */ //chatgpt4omitted

    /*analyzer.lpFileContent = mapper.GetView();
    if (!analyzer.lpFileContent) {
        OUTPUT("[-] Failed to get file view. Memory mapping issue.\n");
        return false;
    }

    analyzer.fileSize = GetFileSizeCustom(filePath);
    if (!analyzer.fileSize) {
        OUTPUT("[-] Unable to determine file size. File might be empty.\n");
        return false;
    }*/

    // Validate file content
    /*if (analyzer.fileSize < sizeof(IMAGE_DOS_HEADER)) {
        OUTPUT("[-] File too small to be a valid PE\n");
        return false;
    }

    analyzer.pDosHeader = static_cast<PIMAGE_DOS_HEADER>(analyzer.lpFileContent);
    if (!analyzer.pDosHeader || analyzer.pDosHeader->e_magic != IMAGE_DOS_SIGNATURE) {
        OUTPUT("[-] Invalid DOS signature\n");
        return false;
    }

    // Validate e_lfanew
    if (analyzer.pDosHeader->e_lfanew >= analyzer.fileSize ||
        analyzer.pDosHeader->e_lfanew < sizeof(IMAGE_DOS_HEADER)) {
        OUTPUT("[-] Invalid e_lfanew value\n");
        return false;
    }*/

    // Validate NT Headers
    LONG ntHeaderOffset = analyzer.pDosHeader->e_lfanew;
    auto pNtHeaders = reinterpret_cast<PIMAGE_NT_HEADERS>(
        static_cast<BYTE*>(analyzer.lpFileContent) + ntHeaderOffset);

    if (!IsSafeToRead(analyzer, pNtHeaders, sizeof(IMAGE_NT_HEADERS)) ||
        pNtHeaders->Signature != IMAGE_NT_SIGNATURE) {
        OUTPUT("[-] Invalid NT signature: 0x%X (Expected 0x%X)\n",
            pNtHeaders->Signature, IMAGE_NT_SIGNATURE);
        return false;
    }

    /* // Validate NT Headers location
    LONG ntHeaderOffset = analyzer.pDosHeader->e_lfanew;
    if (ntHeaderOffset <= 0 ||
        ntHeaderOffset >= analyzer.fileSize ||
        ntHeaderOffset < sizeof(IMAGE_DOS_HEADER)) {
        OUTPUT("[-] Invalid NT Headers offset: 0x%X\n", ntHeaderOffset);
        return false;
    }

    // NT Headers signature validation
    auto pNtHeaders = reinterpret_cast<PIMAGE_NT_HEADERS>(
        static_cast<BYTE*>(analyzer.lpFileContent) + ntHeaderOffset);

    if (pNtHeaders->Signature != IMAGE_NT_SIGNATURE) {
        OUTPUT("[-] Invalid NT signature: 0x%X (Expected 0x%X)\n",
            pNtHeaders->Signature,
            IMAGE_NT_SIGNATURE);
        return false;
    } */ //chatgpt4omitted

    /*if (IsBadReadPtr(pNtHeaders, sizeof(IMAGE_NT_HEADERS)) ||
        pNtHeaders->Signature != IMAGE_NT_SIGNATURE) {
        OUTPUT("[-] Invalid NT signature\n");
        return false;
    }*/

    // Determine architecture with additional safety checks
        // Determine Architecture
    /* WORD magicNumber = pNtHeaders->OptionalHeader.Magic;
    analyzer.is64Bit = (magicNumber == IMAGE_NT_OPTIONAL_HDR64_MAGIC);
    if (analyzer.is64Bit) {
        analyzer.pNtHeaders64 = reinterpret_cast<PIMAGE_NT_HEADERS64>(pNtHeaders);
        analyzer.pNtHeaders32 = nullptr;
    }
    else {
        analyzer.pNtHeaders32 = reinterpret_cast<PIMAGE_NT_HEADERS32>(pNtHeaders);
        analyzer.pNtHeaders64 = nullptr;
    }*/ //chatgpt4omitted

    // Determine Architecture
    WORD magicNumber = pNtHeaders->OptionalHeader.Magic;
    analyzer.is64Bit = (magicNumber == IMAGE_NT_OPTIONAL_HDR64_MAGIC);
    if (analyzer.is64Bit) {
        analyzer.pNtHeaders64 = reinterpret_cast<PIMAGE_NT_HEADERS64>(pNtHeaders);
        analyzer.pNtHeaders32 = nullptr;
    }
    else {
        analyzer.pNtHeaders32 = reinterpret_cast<PIMAGE_NT_HEADERS32>(pNtHeaders);
        analyzer.pNtHeaders64 = nullptr;
    }

    return true;
}


//    return true;
//}
/* catch (const std::exception& ex) {
    OUTPUT("[-] Initialization error: %s\n", ex.what());
    return false;
}
catch (...) {
    OUTPUT("[-] Unknown initialization error\n");
    return false;
}
} */ //chatgpt4omitted

// Helper function for file size
DWORD GetFileSizeCustom(const wchar_t* filePath) {
    HANDLE hFile = CreateFileW(filePath, GENERIC_READ, FILE_SHARE_READ,
        nullptr, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, nullptr);
    if (hFile == INVALID_HANDLE_VALUE) return 0;

    DWORD fileSize = ::GetFileSize(hFile, nullptr);
    CloseHandle(hFile);
    return fileSize;
} //removing other not this duplicate

// Main analysis function
void AnalyzePEFile(const wchar_t* filePathW) {
    if (!filePathW || wcslen(filePathW) == 0) {
        OUTPUT("[-] Invalid file path\n");
        SetStatusText(L"Invalid file path!");
        ShowProgress(0);
        return;
    }


    /* // Check file extension
    const wchar_t* ext = wcsrchr(filePathW, L'.');
    if (!ext || (wcscmp(ext, L".exe") != 0 && wcscmp(ext, L".dll") != 0)) {
        OUTPUT("[-] Unsupported file type. Use .exe or .dll\n");
        SetStatusText(L"Unsupported file type!");
        ShowProgress(0);
        return;
    } */

    /* // Check if file exists
    HANDLE hFile = CreateFileW(filePathW, GENERIC_READ, FILE_SHARE_READ,
        NULL, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, NULL);
    if (hFile == INVALID_HANDLE_VALUE) {
        DWORD error = GetLastError();
        OUTPUT("[-] Cannot open file. Error code: %d\n", error);
        SetStatusText(L"Failed to open file!");
        ShowProgress(0);
        return;
    }
    CloseHandle(hFile); */

    // Reset and prepare for analysis
        g_OutputText.str(L"");
        g_OutputText.clear();
        UpdateEditControl();

        OUTPUT("[+] Starting PE Analysis for: %s\n\n", filePathW);
        SetStatusText(L"Analyzing PE File...");
        ShowProgress(10);
    //ShowProgress(10);

        PEAnalyzer analyzer;
        try {
            if (!InitializePEAnalyzer(analyzer, filePathW)) {
                OUTPUT("[-] PE Initialization Failed\n");
                SetStatusText(L"PE Analysis Failed");
                ShowProgress(0);
                UpdateEditControl();
                return;
            }

        // Add safety check
        /*if (!analyzer.lpFileContent || !analyzer.pDosHeader) {
            OUTPUT("[-] Invalid PE file structure\n");
            SetStatusText(L"Invalid PE File");
            ShowProgress(0);
            UpdateEditControl();
            return;
        }*/


        /* analyzer.lpFileContent = mapper.GetView();
        analyzer.fileSize = GetFileSizeCustom(filePathW);

        if (!InitializePEAnalyzer(analyzer, filePathW)) {
            OUTPUT("[-] PE Initialization Failed\n");
            SetStatusText(L"Analysis Failed - Invalid PE");
            ShowProgress(0);
            return;
        } */ //chatgpt4omitted

        // Detailed logging for architecture
        OUTPUT("[+] File Architecture: %s\n", analyzer.is64Bit ? "64-bit" : "32-bit");

        // Show initial progress
        //ShowProgress(10);

        /* // Add null checks before processing
        if (!analyzer.lpFileContent) {
            OUTPUT("[-] No file content available\n");
            SetStatusText(L"Failed to read file content!");
            ShowProgress(0);
            return;
        }

        // Inside AnalyzePEFile, before parsing headers
        if (analyzer.is64Bit) {
            if (!PEHelpers::ValidateFileSize(analyzer.pNtHeaders64->OptionalHeader.SizeOfImage, analyzer.fileSize)) {
                OUTPUT("[-] PE file size mismatch with 64-bit image size!\n");
                throw std::runtime_error("Invalid file size or PE image");
            }
        }
        else {
            if (!PEHelpers::ValidateFileSize(analyzer.pNtHeaders32->OptionalHeader.SizeOfImage, analyzer.fileSize)) {
                OUTPUT("[-] PE file size mismatch with 32-bit image size!\n");
                throw std::runtime_error("Invalid file size or PE image");
            }
        }*/

        // Wrap each analysis step in its own try-catch
        // Basic headers analysis
        try {
            ShowProgress(20);
            AnalyzeHeaders(analyzer);
        }
        catch (const std::exception& ex) {
            OUTPUT("[-] Header Analysis Error: %s\n", ex.what());
            throw;  // Re-throw to handle in the outer catch block
        }
        //AnalyzeHeaders(analyzer);

        // Data directories
        try {
            ShowProgress(30);
            AnalyzeDataDirectories(analyzer);
        }
        catch (const std::exception& ex) {
            OUTPUT("[-] Data Directories Analysis Error: %s\n", ex.what());
            throw;  // Re-throw to handle in the outer catch block
        }
        //AnalyzeDataDirectories(analyzer);

        // Parse sections
        try {
            ShowProgress(40);
            ParseSections(analyzer);
        }
        catch (const std::exception& ex) {
            OUTPUT("[-] Sections Parsing Error: %s\n", ex.what());
            throw;  // Re-throw to handle in the outer catch block
        }

        //ParseSections(analyzer);

        // Parse imports
        try {
            ShowProgress(50);
            ParseImportDirectory(analyzer);
        }
        catch (const std::exception& ex) {
            OUTPUT("[-] Import Directory Parsing Error: %s\n", ex.what());
            throw;  // Re-throw to handle in the outer catch block
        }
        //ParseImportDirectory(analyzer);

        // Parse exports
        try {
            ShowProgress(60);
            ParseExportDirectory(analyzer);
        }
        catch (const std::exception& ex) {
            OUTPUT("[-] Export Directory Parsing Error: %s\n", ex.what());
            throw;  // Re-throw to handle in the outer catch block
        }
        //ParseExportDirectory(analyzer);

        // Parse resources
        try {
            ShowProgress(70);
            ParseResourceDirectory(analyzer);
        }
        catch (const std::exception& ex) {
            OUTPUT("[-] Resource Directory Parsing Error: %s\n", ex.what());
            throw;  // Re-throw to handle in the outer catch block
        }
        //ParseResourceDirectory(analyzer);

        // Parse debug info
        try {
            ShowProgress(80);
            ParseDebugDirectory(analyzer);
        }
        catch (const std::exception& ex) {
            OUTPUT("[-] Debug Directory Parsing Error: %s\n", ex.what());
            throw;  // Re-throw to handle in the outer catch block
        }
        //ParseDebugDirectory(analyzer);

        ShowProgress(100);
        SetStatusText(L"Analysis Complete");
    }
    //}
    catch (const std::exception& ex) {
        OUTPUT("[-] Unexpected Exception: %s\n", ex.what());
        SetStatusText(L"Analysis Failed");
        ShowProgress(0);
    }
    catch (...) {
        OUTPUT("[-] Unknown critical error during PE analysis\n");
        SetStatusText(L"Critical Failure");
        ShowProgress(0);
    }
    /*catch (const std::exception& ex) {
        OUTPUT("[-] Exception during analysis: %s\n", ex.what());
        SetStatusText(L"Analysis failed due to error.");
        ShowProgress(0);
        return;
    }*/ //newly commented out
    /*catch (const std::exception& e) {
        OUTPUT("[-] Error during analysis: %s\n", e.what());
        SetStatusText(L"Analysis failed!");
    }*/

    //ShowWindow(g_hProgressBar, SW_HIDE);
    // Ensure edit control is updated
    UpdateEditControl();
    //analyzer.~PEAnalyzer(); // Explicit call to the destructor if not already invoked
}

//amalgamating parsing funcs here experimental

    // Header analysis function
void AnalyzeHeaders(const PEAnalyzer& analyzer) {
    if (!analyzer.lpFileContent || !analyzer.pDosHeader) {
        throw std::runtime_error("Invalid PE headers");
    }

    OUTPUT("[+] PE IMAGE INFORMATION\n\n");
    OUTPUT("[+] Architecture: %s\n\n", analyzer.is64Bit ? "x64" : "x86");

    // Validate DOS Header
    if (!IsSafeToRead(analyzer, analyzer.pDosHeader, sizeof(IMAGE_DOS_HEADER))) {
        throw std::runtime_error("Invalid DOS header");
    }

    // DOS Header
    OUTPUT("[+] DOS HEADER\n");
    OUTPUT("\te_magic    : 0x%X\n", analyzer.pDosHeader->e_magic);
    OUTPUT("\te_cblp     : 0x%X\n", analyzer.pDosHeader->e_cblp);
    OUTPUT("\te_cp       : 0x%X\n", analyzer.pDosHeader->e_cp);
    OUTPUT("\te_crlc     : 0x%X\n", analyzer.pDosHeader->e_crlc);
    OUTPUT("\te_cparhdr  : 0x%X\n", analyzer.pDosHeader->e_cparhdr);
    OUTPUT("\te_minalloc : 0x%X\n", analyzer.pDosHeader->e_minalloc);
    OUTPUT("\te_maxalloc : 0x%X\n", analyzer.pDosHeader->e_maxalloc);
    OUTPUT("\te_ss       : 0x%X\n", analyzer.pDosHeader->e_ss);
    OUTPUT("\te_sp       : 0x%X\n", analyzer.pDosHeader->e_sp);
    OUTPUT("\te_csum     : 0x%X\n", analyzer.pDosHeader->e_csum);
    OUTPUT("\te_ip       : 0x%X\n", analyzer.pDosHeader->e_ip);
    OUTPUT("\te_cs       : 0x%X\n", analyzer.pDosHeader->e_cs);
    OUTPUT("\te_lfarlc   : 0x%X\n", analyzer.pDosHeader->e_lfarlc);
    OUTPUT("\te_ovno     : 0x%X\n", analyzer.pDosHeader->e_ovno);
    OUTPUT("\te_oemid    : 0x%X\n", analyzer.pDosHeader->e_oemid);
    OUTPUT("\te_oeminfo  : 0x%X\n", analyzer.pDosHeader->e_oeminfo);
    OUTPUT("\te_lfanew   : 0x%X\n\n", analyzer.pDosHeader->e_lfanew);

    // Validate NT Headers
    if (analyzer.is64Bit && analyzer.pNtHeaders64) {
        ParseNTHeader64(analyzer);
    }
    else if (analyzer.pNtHeaders32) {
        ParseNTHeader32(analyzer);
    }
    else {
        throw std::runtime_error("Invalid NT headers");
    }
}

void ParseNTHeader32(const PEAnalyzer& analyzer) {
    if (!analyzer.pNtHeaders32) {
        throw std::runtime_error("Invalid NT headers");
    }

    OUTPUT("[+] NT HEADER (32-bit)\n");
    OUTPUT("\tSignature: 0x%X\n\n", analyzer.pNtHeaders32->Signature);

    // File Header
    OUTPUT("[+] FILE HEADER\n");
    OUTPUT("\tMachine: 0x%X\n", analyzer.pNtHeaders32->FileHeader.Machine);
    OUTPUT("\tNumberOfSections: 0x%X\n", analyzer.pNtHeaders32->FileHeader.NumberOfSections);
    OUTPUT("\tTimeDateStamp: 0x%X\n", analyzer.pNtHeaders32->FileHeader.TimeDateStamp);
    OUTPUT("\tPointerToSymbolTable: 0x%X\n", analyzer.pNtHeaders32->FileHeader.PointerToSymbolTable);
    OUTPUT("\tNumberOfSymbols: 0x%X\n", analyzer.pNtHeaders32->FileHeader.NumberOfSymbols);
    OUTPUT("\tSizeOfOptionalHeader: 0x%X\n", analyzer.pNtHeaders32->FileHeader.SizeOfOptionalHeader);
    OUTPUT("\tCharacteristics: 0x%X\n\n", analyzer.pNtHeaders32->FileHeader.Characteristics);

    // Optional Header
    OUTPUT("[+] OPTIONAL HEADER\n");
    OUTPUT("\tMagic: 0x%X\n", analyzer.pNtHeaders32->OptionalHeader.Magic);
    OUTPUT("\tAddressOfEntryPoint: 0x%X\n", analyzer.pNtHeaders32->OptionalHeader.AddressOfEntryPoint);
    OUTPUT("\tImageBase: 0x%X\n", analyzer.pNtHeaders32->OptionalHeader.ImageBase);
    OUTPUT("\tSectionAlignment: 0x%X\n", analyzer.pNtHeaders32->OptionalHeader.SectionAlignment);
    OUTPUT("\tFileAlignment: 0x%X\n", analyzer.pNtHeaders32->OptionalHeader.FileAlignment);
    OUTPUT("\tSizeOfImage: 0x%X\n", analyzer.pNtHeaders32->OptionalHeader.SizeOfImage);
    OUTPUT("\tSizeOfHeaders: 0x%X\n", analyzer.pNtHeaders32->OptionalHeader.SizeOfHeaders);
    OUTPUT("\tSubsystem: 0x%X\n\n", analyzer.pNtHeaders32->OptionalHeader.Subsystem);
}

void ParseNTHeader64(const PEAnalyzer& analyzer) {
    if (!analyzer.pNtHeaders64) {
        throw std::runtime_error("Invalid NT headers");
    }

    OUTPUT("[+] NT HEADER (64-bit)\n");
    OUTPUT("\tSignature: 0x%X\n\n", analyzer.pNtHeaders64->Signature);

    // File Header
    OUTPUT("[+] FILE HEADER\n");
    OUTPUT("\tMachine: 0x%X\n", analyzer.pNtHeaders64->FileHeader.Machine);
    OUTPUT("\tNumberOfSections: 0x%X\n", analyzer.pNtHeaders64->FileHeader.NumberOfSections);
    OUTPUT("\tTimeDateStamp: 0x%X\n", analyzer.pNtHeaders64->FileHeader.TimeDateStamp);
    OUTPUT("\tPointerToSymbolTable: 0x%X\n", analyzer.pNtHeaders64->FileHeader.PointerToSymbolTable);
    OUTPUT("\tNumberOfSymbols: 0x%X\n", analyzer.pNtHeaders64->FileHeader.NumberOfSymbols);
    OUTPUT("\tSizeOfOptionalHeader: 0x%X\n", analyzer.pNtHeaders64->FileHeader.SizeOfOptionalHeader);
    OUTPUT("\tCharacteristics: 0x%X\n\n", analyzer.pNtHeaders64->FileHeader.Characteristics);

    // Optional Header
    OUTPUT("[+] OPTIONAL HEADER\n");
    OUTPUT("\tMagic: 0x%X\n", analyzer.pNtHeaders64->OptionalHeader.Magic);
    OUTPUT("\tAddressOfEntryPoint: 0x%X\n", analyzer.pNtHeaders64->OptionalHeader.AddressOfEntryPoint);
    OUTPUT("\tImageBase: 0x%llX\n", analyzer.pNtHeaders64->OptionalHeader.ImageBase);
    OUTPUT("\tSectionAlignment: 0x%X\n", analyzer.pNtHeaders64->OptionalHeader.SectionAlignment);
    OUTPUT("\tFileAlignment: 0x%X\n", analyzer.pNtHeaders64->OptionalHeader.FileAlignment);
    OUTPUT("\tSizeOfImage: 0x%X\n", analyzer.pNtHeaders64->OptionalHeader.SizeOfImage);
    OUTPUT("\tSizeOfHeaders: 0x%X\n", analyzer.pNtHeaders64->OptionalHeader.SizeOfHeaders);
    OUTPUT("\tSubsystem: 0x%X\n\n", analyzer.pNtHeaders64->OptionalHeader.Subsystem);
}
//}

        //russianheat (clipped peanalyzefile() code here)


        // Data Directories analysis
void AnalyzeDataDirectories(const PEAnalyzer& analyzer) {
    OUTPUT("[+] DATA DIRECTORIES\n");
    const IMAGE_DATA_DIRECTORY* dataDirectories = analyzer.is64Bit ?
        analyzer.pNtHeaders64->OptionalHeader.DataDirectory :
        analyzer.pNtHeaders32->OptionalHeader.DataDirectory;

    for (int i = 0; i < IMAGE_NUMBEROF_DIRECTORY_ENTRIES; i++) {
        if (dataDirectories[i].VirtualAddress != 0) {
            OUTPUT("\t%s:\n", PEHelpers::GetDataDirectoryName(i).c_str());
            OUTPUT("\t\tVirtualAddress: 0x%X\n", dataDirectories[i].VirtualAddress);
            OUTPUT("\t\tSize: 0x%X\n", dataDirectories[i].Size);
        }
    }
    OUTPUT("\n");
}

// Safe memory check helper
template<typename T>
bool IsSafeToRead(const PEAnalyzer& analyzer, const T* ptr, size_t size) {
    if (!ptr) return false;
    DWORD_PTR start = reinterpret_cast<DWORD_PTR>(analyzer.lpFileContent);
    DWORD_PTR end = start + analyzer.fileSize;
    DWORD_PTR ptrAddr = reinterpret_cast<DWORD_PTR>(ptr);
    return (ptrAddr >= start && (ptrAddr + size) <= end);
}

// Section parsing with safety checks
void ParseSections(const PEAnalyzer& analyzer) {
    OUTPUT("[+] SECTION HEADERS\n");

    PIMAGE_SECTION_HEADER pSection = IMAGE_FIRST_SECTION(
        analyzer.is64Bit ?
        reinterpret_cast<PIMAGE_NT_HEADERS>(analyzer.pNtHeaders64) :
        reinterpret_cast<PIMAGE_NT_HEADERS>(analyzer.pNtHeaders32));

    WORD numberOfSections = analyzer.is64Bit ?
        analyzer.pNtHeaders64->FileHeader.NumberOfSections :
        analyzer.pNtHeaders32->FileHeader.NumberOfSections;

    if (!IsSafeToRead(analyzer, pSection,
        sizeof(IMAGE_SECTION_HEADER) * numberOfSections)) {
        throw std::runtime_error("Invalid section headers");
    }

    for (WORD i = 0; i < numberOfSections; i++, pSection++) {
        char sectionName[IMAGE_SIZEOF_SHORT_NAME + 1] = {};
        memcpy(sectionName, pSection->Name, IMAGE_SIZEOF_SHORT_NAME);

        // Sanitize section name
        for (int j = 0; j < IMAGE_SIZEOF_SHORT_NAME; j++) {
            if (!isprint(static_cast<unsigned char>(sectionName[j]))) {
                sectionName[j] = '\0';
                break;
            }
        }

        // Output section information
        OUTPUT("\tSECTION: %s\n", sectionName);
        OUTPUT("\t\tVirtualSize: 0x%X\n", pSection->Misc.VirtualSize);
        OUTPUT("\t\tVirtualAddress: 0x%X\n", pSection->VirtualAddress);
        OUTPUT("\t\tSizeOfRawData: 0x%X\n", pSection->SizeOfRawData);
        OUTPUT("\t\tPointerToRawData: 0x%X\n", pSection->PointerToRawData);
        OUTPUT("\t\tPointerToRelocations: 0x%X\n", pSection->PointerToRelocations);
        OUTPUT("\t\tPointerToLinenumbers: 0x%X\n", pSection->PointerToLinenumbers);
        OUTPUT("\t\tNumberOfRelocations: 0x%X\n", pSection->NumberOfRelocations);
        OUTPUT("\t\tNumberOfLinenumbers: 0x%X\n", pSection->NumberOfLinenumbers);
        OUTPUT("\t\tCharacteristics: 0x%X %s\n\n",
            pSection->Characteristics,
            PEHelpers::GetSectionProtection(pSection->Characteristics).c_str());
    }
} //end of parsesection here

    // Import Directory parsing with safety checks
void ParseImportDirectory(const PEAnalyzer& analyzer) {
    const auto& importDir = analyzer.is64Bit ?
        analyzer.pNtHeaders64->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_IMPORT] :
        analyzer.pNtHeaders32->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_IMPORT];

    if (!importDir.VirtualAddress || !importDir.Size) {
        OUTPUT("\n[-] No import directory found.\n");
        return;
    }

    OUTPUT("\n[+] IMPORT DIRECTORY (%s)\n", analyzer.is64Bit ? "64-bit" : "32-bit");

    auto pImportDesc = (PIMAGE_IMPORT_DESCRIPTOR)PEHelpers::GetRvaPtr(
        importDir.VirtualAddress,
        IMAGE_FIRST_SECTION(analyzer.is64Bit ?
            (PIMAGE_NT_HEADERS)analyzer.pNtHeaders64 :
            (PIMAGE_NT_HEADERS)analyzer.pNtHeaders32),
        analyzer.is64Bit ?
        analyzer.pNtHeaders64->FileHeader.NumberOfSections :
        analyzer.pNtHeaders32->FileHeader.NumberOfSections,
        analyzer.lpFileContent,
        analyzer.fileSize);

    if (!IsSafeToRead(analyzer, pImportDesc, sizeof(IMAGE_IMPORT_DESCRIPTOR))) {
        throw std::runtime_error("Invalid import descriptor");
    }

    while (pImportDesc->Name != 0) {
        const char* dllName = (const char*)PEHelpers::GetRvaPtr(
            pImportDesc->Name,
            IMAGE_FIRST_SECTION(analyzer.is64Bit ?
                reinterpret_cast<PIMAGE_NT_HEADERS>(analyzer.pNtHeaders64) :
                reinterpret_cast<PIMAGE_NT_HEADERS>(analyzer.pNtHeaders32)),
            analyzer.is64Bit ?
            analyzer.pNtHeaders64->FileHeader.NumberOfSections :
            analyzer.pNtHeaders32->FileHeader.NumberOfSections,
            analyzer.lpFileContent,
            analyzer.fileSize);

        if (!IsSafeToRead(analyzer, dllName, 1)) {
            break;
        }

        OUTPUT("\n\tDLL NAME: %s\n", dllName);
        OUTPUT("\tCharacteristics: 0x%X\n", pImportDesc->Characteristics);
        OUTPUT("\tTimeDateStamp: 0x%X\n", pImportDesc->TimeDateStamp);
        OUTPUT("\tForwarderChain: 0x%X\n", pImportDesc->ForwarderChain);
        OUTPUT("\tFirstThunk: 0x%X\n\n", pImportDesc->FirstThunk);
        OUTPUT("\tImported Functions:\n");

        // Parse functions based on architecture
        if (analyzer.is64Bit) {
            ParseImportFunctions64(analyzer, pImportDesc);
        }
        else {
            ParseImportFunctions32(analyzer, pImportDesc);
        }

        pImportDesc++;
        if (!IsSafeToRead(analyzer, pImportDesc, sizeof(IMAGE_IMPORT_DESCRIPTOR))) {
            break;
        }
    }
}

void ParseImportFunctions32(const PEAnalyzer& analyzer, PIMAGE_IMPORT_DESCRIPTOR pImportDesc) {
    auto pThunk = (PIMAGE_THUNK_DATA32)PEHelpers::GetRvaPtr(
        pImportDesc->OriginalFirstThunk ? pImportDesc->OriginalFirstThunk : pImportDesc->FirstThunk,
        IMAGE_FIRST_SECTION(analyzer.pNtHeaders32),
        analyzer.pNtHeaders32->FileHeader.NumberOfSections,
        analyzer.lpFileContent,
        analyzer.fileSize);

    while (pThunk && pThunk->u1.AddressOfData) {
        if (!(pThunk->u1.Ordinal & IMAGE_ORDINAL_FLAG32)) {
            auto pImportByName = (PIMAGE_IMPORT_BY_NAME)PEHelpers::GetRvaPtr(
                pThunk->u1.AddressOfData,
                IMAGE_FIRST_SECTION(analyzer.pNtHeaders32),
                analyzer.pNtHeaders32->FileHeader.NumberOfSections,
                analyzer.lpFileContent,
                analyzer.fileSize);

            if (pImportByName && !IsBadReadPtr(pImportByName, sizeof(IMAGE_IMPORT_BY_NAME))) {
                OUTPUT("\t\t%s\n", pImportByName->Name);
            }
        }
        else {
            OUTPUT("\t\tOrdinal: %d\n", pThunk->u1.Ordinal & 0xFFFF);
        }
        pThunk++;
    }
}

void ParseImportFunctions64(const PEAnalyzer& analyzer, PIMAGE_IMPORT_DESCRIPTOR pImportDesc) {
    auto pThunk = (PIMAGE_THUNK_DATA64)PEHelpers::GetRvaPtr(
        pImportDesc->OriginalFirstThunk ? pImportDesc->OriginalFirstThunk : pImportDesc->FirstThunk,
        IMAGE_FIRST_SECTION(analyzer.pNtHeaders64),
        analyzer.pNtHeaders64->FileHeader.NumberOfSections,
        analyzer.lpFileContent,
        analyzer.fileSize);

    while (pThunk && pThunk->u1.AddressOfData) {
        if (!(pThunk->u1.Ordinal & IMAGE_ORDINAL_FLAG64)) {
            auto pImportByName = (PIMAGE_IMPORT_BY_NAME)PEHelpers::GetRvaPtr(
                (DWORD)pThunk->u1.AddressOfData,
                IMAGE_FIRST_SECTION(analyzer.pNtHeaders64),
                analyzer.pNtHeaders64->FileHeader.NumberOfSections,
                analyzer.lpFileContent,
                analyzer.fileSize);

            if (pImportByName && !IsBadReadPtr(pImportByName, sizeof(IMAGE_IMPORT_BY_NAME))) {
                OUTPUT("\t\t%s\n", pImportByName->Name);
            }
        }
        else {
            OUTPUT("\t\tOrdinal: %lld\n", pThunk->u1.Ordinal & 0xFFFF);
        }
        pThunk++;
    }
}

// Export Directory parsing with safety checks
void ParseExportDirectory(const PEAnalyzer& analyzer) {
    const auto& exportDir = analyzer.is64Bit ?
        analyzer.pNtHeaders64->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_EXPORT] :
        analyzer.pNtHeaders32->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_EXPORT];

    if (!exportDir.VirtualAddress || !exportDir.Size) {
        OUTPUT("\n[-] No export directory found.\n");
        return;
    }

    OUTPUT("\n[+] EXPORT DIRECTORY (%s)\n", analyzer.is64Bit ? "64-bit" : "32-bit");

    auto pExportDir = (PIMAGE_EXPORT_DIRECTORY)PEHelpers::GetRvaPtr(
        exportDir.VirtualAddress,
        IMAGE_FIRST_SECTION(analyzer.is64Bit ?
            reinterpret_cast<PIMAGE_NT_HEADERS>(analyzer.pNtHeaders64) :
            reinterpret_cast<PIMAGE_NT_HEADERS>(analyzer.pNtHeaders32)),
        analyzer.is64Bit ?
        analyzer.pNtHeaders64->FileHeader.NumberOfSections :
        analyzer.pNtHeaders32->FileHeader.NumberOfSections,
        analyzer.lpFileContent,
        analyzer.fileSize);

    if (!IsSafeToRead(analyzer, pExportDir, sizeof(IMAGE_EXPORT_DIRECTORY))) {
        throw std::runtime_error("Invalid export directory");
    }

    // Output export directory information
    OUTPUT("\tCharacteristics: 0x%X\n", pExportDir->Characteristics);
    OUTPUT("\tTimeDateStamp: 0x%X\n", pExportDir->TimeDateStamp);
    OUTPUT("\tMajorVersion: %d\n", pExportDir->MajorVersion);
    OUTPUT("\tMinorVersion: %d\n", pExportDir->MinorVersion);
    OUTPUT("\tName: 0x%X\n", pExportDir->Name);
    OUTPUT("\tBase: %d\n", pExportDir->Base);
    OUTPUT("\tNumberOfFunctions: %d\n", pExportDir->NumberOfFunctions);
    OUTPUT("\tNumberOfNames: %d\n", pExportDir->NumberOfNames);
    OUTPUT("\tAddressOfFunctions: 0x%X\n", pExportDir->AddressOfFunctions);
    OUTPUT("\tAddressOfNames: 0x%X\n", pExportDir->AddressOfNames);
    OUTPUT("\tAddressOfNameOrdinals: 0x%X\n\n", pExportDir->AddressOfNameOrdinals);

    // Get export tables with safety checks

    // Add IMAGE_FIRST_SECTION and section count parameters
    auto pFunctions = (PDWORD)PEHelpers::GetRvaPtr(pExportDir->AddressOfFunctions,
        IMAGE_FIRST_SECTION(analyzer.pNtHeaders32),
        analyzer.pNtHeaders32->FileHeader.NumberOfSections,
        analyzer.lpFileContent,
        analyzer.fileSize);

    auto pNames = (PDWORD)PEHelpers::GetRvaPtr(pExportDir->AddressOfNames,
        IMAGE_FIRST_SECTION(analyzer.pNtHeaders32),
        analyzer.pNtHeaders32->FileHeader.NumberOfSections,
        analyzer.lpFileContent,
        analyzer.fileSize);

    auto pOrdinals = (PWORD)PEHelpers::GetRvaPtr(pExportDir->AddressOfNameOrdinals,
        IMAGE_FIRST_SECTION(analyzer.pNtHeaders32),
        analyzer.pNtHeaders32->FileHeader.NumberOfSections,
        analyzer.lpFileContent,
        analyzer.fileSize);

    //auto pFunctions = (PDWORD)PEHelpers::GetRvaPtr(pExportDir->AddressOfFunctions, /*...*/);
    //auto pNames = (PDWORD)PEHelpers::GetRvaPtr(pExportDir->AddressOfNames, /*...*/);
    //auto pOrdinals = (PWORD)PEHelpers::GetRvaPtr(pExportDir->AddressOfNameOrdinals, /*...*/);

    if (!IsSafeToRead(analyzer, pFunctions, sizeof(DWORD) * pExportDir->NumberOfFunctions) ||
        !IsSafeToRead(analyzer, pNames, sizeof(DWORD) * pExportDir->NumberOfNames) ||
        !IsSafeToRead(analyzer, pOrdinals, sizeof(WORD) * pExportDir->NumberOfNames)) {
        throw std::runtime_error("Invalid export tables");
    }

    // Parse and output exported functions
    ParseExportedFunctions(analyzer, pExportDir, pFunctions, pNames, pOrdinals);
}

void ParseExportedFunctions(const PEAnalyzer& analyzer, PIMAGE_EXPORT_DIRECTORY pExportDir,
    PDWORD pFunctions, PDWORD pNames, PWORD pOrdinals) {

    OUTPUT("\tExported Functions:\n\n");
    for (DWORD i = 0; i < pExportDir->NumberOfNames; i++) {
        if (IsBadReadPtr(pNames + i, sizeof(DWORD)) ||
            IsBadReadPtr(pOrdinals + i, sizeof(WORD))) {
            break;
        }

        const char* functionName = (const char*)PEHelpers::GetRvaPtr(
            pNames[i],
            analyzer.is64Bit ? IMAGE_FIRST_SECTION((PIMAGE_NT_HEADERS64)analyzer.pNtHeaders64) : IMAGE_FIRST_SECTION((PIMAGE_NT_HEADERS32)analyzer.pNtHeaders32),
            analyzer.is64Bit ? analyzer.pNtHeaders64->FileHeader.NumberOfSections : analyzer.pNtHeaders32->FileHeader.NumberOfSections,
            analyzer.lpFileContent,
            analyzer.fileSize);

        /*const char* functionName = (const char*)PEHelpers::GetRvaPtr(
            pNames[i],
            IMAGE_FIRST_SECTION(analyzer.is64Bit ? analyzer.pNtHeaders64 : analyzer.pNtHeaders32),
            analyzer.is64Bit ? analyzer.pNtHeaders64->FileHeader.NumberOfSections :
            analyzer.pNtHeaders32->FileHeader.NumberOfSections,
            analyzer.lpFileContent);*/

        if (functionName && !IsBadReadPtr(functionName, 1)) {
            WORD ordinal = pOrdinals[i];
            if (ordinal < pExportDir->NumberOfFunctions) {
                DWORD functionRva = pFunctions[ordinal];
                OUTPUT("\t\t%s (Ordinal: %d, RVA: 0x%08X)\n",
                    functionName,
                    ordinal + pExportDir->Base,
                    functionRva);
            }
        }
    }
}

void ParseResourceDirectory(const PEAnalyzer& analyzer) {
    const auto& resourceDir = analyzer.is64Bit ?
        analyzer.pNtHeaders64->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_RESOURCE] :
        analyzer.pNtHeaders32->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_RESOURCE];

    if (!resourceDir.VirtualAddress || !resourceDir.Size) {
        OUTPUT("\n[-] No resource directory found.\n");
        return;
    }

    OUTPUT("\n[+] RESOURCE DIRECTORY (%s)\n", analyzer.is64Bit ? "64-bit" : "32-bit");

    auto pResourceDir = (PIMAGE_RESOURCE_DIRECTORY)PEHelpers::GetRvaPtr(
        resourceDir.VirtualAddress,
        IMAGE_FIRST_SECTION(analyzer.is64Bit ?
            reinterpret_cast<PIMAGE_NT_HEADERS>(analyzer.pNtHeaders64) :
            reinterpret_cast<PIMAGE_NT_HEADERS>(analyzer.pNtHeaders32)),
        analyzer.is64Bit ?
        analyzer.pNtHeaders64->FileHeader.NumberOfSections :
        analyzer.pNtHeaders32->FileHeader.NumberOfSections,
        analyzer.lpFileContent,
        analyzer.fileSize);

    if (!IsSafeToRead(analyzer, pResourceDir, sizeof(IMAGE_RESOURCE_DIRECTORY))) {
        throw std::runtime_error("Invalid resource directory");
    }

    ProcessResourceDirectory(pResourceDir, 0, nullptr, pResourceDir, analyzer);
}

void ProcessResourceDirectory(
    PIMAGE_RESOURCE_DIRECTORY resDir,
    int level,
    const wchar_t* type,
    PIMAGE_RESOURCE_DIRECTORY baseResourceDir,
    const PEAnalyzer& analyzer)
{
    if (!IsSafeToRead(analyzer, resDir, sizeof(IMAGE_RESOURCE_DIRECTORY))) {
        return;
    }

    auto entry = (PIMAGE_RESOURCE_DIRECTORY_ENTRY)(resDir + 1);
    WORD totalEntries = resDir->NumberOfNamedEntries + resDir->NumberOfIdEntries;

    for (WORD i = 0; i < totalEntries; i++) {
        if (!IsSafeToRead(analyzer, entry + i, sizeof(IMAGE_RESOURCE_DIRECTORY_ENTRY))) {
            break;
        }

        // Indent based on level
        for (int indent = 0; indent < level; indent++) {
            OUTPUT("\t");
        }

        // Process named entries
        if (entry[i].NameIsString) {
            ProcessNamedResourceEntry(entry[i], level, baseResourceDir, analyzer);
        }
        // Process ID entries
        else {
            ProcessIdResourceEntry(entry[i], level, type, baseResourceDir, analyzer);
        }

        // Process subdirectories or data
        if (entry[i].DataIsDirectory) {
            ProcessResourceSubdirectory(entry[i], level, type, baseResourceDir, analyzer);
        }
        else {
            ProcessResourceData(entry[i], level, type, baseResourceDir, analyzer);
        }
    }
}

//newlyfrom You,com Claude
void ProcessNamedResourceEntry(const IMAGE_RESOURCE_DIRECTORY_ENTRY& entry,
    int level, PIMAGE_RESOURCE_DIRECTORY baseResourceDir,
    const PEAnalyzer& analyzer) {

    auto nameEntry = (PIMAGE_RESOURCE_DIR_STRING_U)((BYTE*)baseResourceDir + entry.NameOffset);
    if (!IsBadReadPtr(nameEntry, sizeof(IMAGE_RESOURCE_DIR_STRING_U))) {
        std::vector<wchar_t> resourceName(nameEntry->Length + 1);
        wcsncpy_s(resourceName.data(), nameEntry->Length + 1,
            nameEntry->NameString, nameEntry->Length);
        resourceName[nameEntry->Length] = L'\0';

        if (level == 0) {
            OUTPUT("Resource Type: Custom (%s)\n", resourceName.data());
        }
        else {
            OUTPUT("Name: %s\n", resourceName.data());
        }
    }
}

void ProcessIdResourceEntry(const IMAGE_RESOURCE_DIRECTORY_ENTRY& entry,
    int level, const wchar_t* type,
    PIMAGE_RESOURCE_DIRECTORY baseResourceDir,
    const PEAnalyzer& analyzer) {

    if (level == 0) {
        DWORD resourceType = entry.Id;
        if (resourceType < 16) {
            OUTPUT("Resource Type: %s (ID: %d)\n", RESOURCE_TYPES[resourceType], resourceType);
        }
        else {
            OUTPUT("Resource Type: Custom (ID: %d)\n", resourceType);
        }
    }
    else {
        OUTPUT("ID: %d\n", entry.Id);
    }
}

void ProcessResourceSubdirectory(const IMAGE_RESOURCE_DIRECTORY_ENTRY& entry,
    int level, const wchar_t* type,
    PIMAGE_RESOURCE_DIRECTORY baseResourceDir,
    const PEAnalyzer& analyzer) {

    auto nextDir = (PIMAGE_RESOURCE_DIRECTORY)((BYTE*)baseResourceDir + entry.OffsetToDirectory);
    if (!IsBadReadPtr(nextDir, sizeof(IMAGE_RESOURCE_DIRECTORY))) {
        ProcessResourceDirectory(nextDir, level + 1,
            level == 0 ? RESOURCE_TYPES[min(entry.Id, 15)] : type,
            baseResourceDir, analyzer);
    }
}

void ProcessResourceData(const IMAGE_RESOURCE_DIRECTORY_ENTRY& entry,
    int level, const wchar_t* type,
    PIMAGE_RESOURCE_DIRECTORY baseResourceDir,
    const PEAnalyzer& analyzer) {

    auto dataEntry = (PIMAGE_RESOURCE_DATA_ENTRY)((BYTE*)baseResourceDir + entry.OffsetToData);
    if (!IsBadReadPtr(dataEntry, sizeof(IMAGE_RESOURCE_DATA_ENTRY))) {
        for (int indent = 0; indent < level + 1; indent++) {
            OUTPUT("\t");
        }
        OUTPUT("Size: %d bytes, RVA: 0x%X\n", dataEntry->Size, dataEntry->OffsetToData);
    }
}

void ParseDebugDirectory(const PEAnalyzer& analyzer) {
    const auto& debugDir = analyzer.is64Bit ?
        analyzer.pNtHeaders64->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_DEBUG] :
        analyzer.pNtHeaders32->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_DEBUG];

    if (!debugDir.VirtualAddress || !debugDir.Size) {
        OUTPUT("\n[-] No debug directory found.\n");
        return;
    }

    OUTPUT("\n[+] DEBUG DIRECTORY (%s)\n", analyzer.is64Bit ? "64-bit" : "32-bit");

    auto pDebugDir = (PIMAGE_DEBUG_DIRECTORY)PEHelpers::GetRvaPtr(
        debugDir.VirtualAddress,
        IMAGE_FIRST_SECTION(analyzer.is64Bit ?
            reinterpret_cast<PIMAGE_NT_HEADERS>(analyzer.pNtHeaders64) :
            reinterpret_cast<PIMAGE_NT_HEADERS>(analyzer.pNtHeaders32)),
        analyzer.is64Bit ?
        analyzer.pNtHeaders64->FileHeader.NumberOfSections :
        analyzer.pNtHeaders32->FileHeader.NumberOfSections,
        analyzer.lpFileContent,
        analyzer.fileSize);

    if (!IsSafeToRead(analyzer, pDebugDir, sizeof(IMAGE_DEBUG_DIRECTORY))) {
        throw std::runtime_error("Invalid debug directory");
    }

    DWORD numEntries = min(debugDir.Size / sizeof(IMAGE_DEBUG_DIRECTORY), 16);
    for (DWORD i = 0; i < numEntries; i++) {
        ProcessDebugEntry(pDebugDir[i], analyzer);
    }
}

void ProcessDebugEntry(const IMAGE_DEBUG_DIRECTORY& debugEntry, const PEAnalyzer& analyzer) {
    OUTPUT("\tDebug Entry:\n");
    OUTPUT("\tCharacteristics: 0x%X\n", debugEntry.Characteristics);
    OUTPUT("\tTimeDateStamp: 0x%X\n", debugEntry.TimeDateStamp);
    OUTPUT("\tVersion: %d.%d\n", debugEntry.MajorVersion, debugEntry.MinorVersion);
    OUTPUT("\tType: 0x%X", debugEntry.Type);

    // Output debug type
    switch (debugEntry.Type) {
    case IMAGE_DEBUG_TYPE_COFF:
        OUTPUT(" (COFF)\n"); break;
    case IMAGE_DEBUG_TYPE_CODEVIEW:
        OUTPUT(" (CodeView)\n");
        ProcessCodeViewDebugInfo(debugEntry, analyzer);
        break;
        // ... other debug types ...
    default:
        OUTPUT(" (Unknown)\n"); break;
    }

    OUTPUT("\tSizeOfData: 0x%X\n", debugEntry.SizeOfData);
    OUTPUT("\tAddressOfRawData: 0x%X\n", debugEntry.AddressOfRawData);
    OUTPUT("\tPointerToRawData: 0x%X\n\n", debugEntry.PointerToRawData);
}

// Helper functions for processing specific debug info types
void ProcessCodeViewDebugInfo(const IMAGE_DEBUG_DIRECTORY& debugEntry, const PEAnalyzer& analyzer) {
    if (debugEntry.Type != IMAGE_DEBUG_TYPE_CODEVIEW ||
        !debugEntry.PointerToRawData ||
        debugEntry.SizeOfData < sizeof(DWORD)) {
        return;
    }

    auto pCVHeader = (DWORD*)((BYTE*)analyzer.lpFileContent + debugEntry.PointerToRawData);
    if (!IsSafeToRead(analyzer, pCVHeader, sizeof(DWORD))) {
        return;
    }

    // Process different CodeView formats
    switch (*pCVHeader) {
    case 0x53445352: // 'RSDS'
        ProcessRSDSDebugInfo(debugEntry, pCVHeader, analyzer);
        break;
    case 0x3031424E: // 'NB10'
        ProcessNB10DebugInfo(debugEntry, pCVHeader, analyzer);
        break;
    }
}

void ProcessRSDSDebugInfo(const IMAGE_DEBUG_DIRECTORY& debugEntry, DWORD* pCVHeader,
    const PEAnalyzer& analyzer) {

    if (debugEntry.SizeOfData >= (sizeof(DWORD) + sizeof(GUID) + sizeof(DWORD) + 1)) {
        auto pCVData = (char*)(pCVHeader + 1);
        if (!IsBadReadPtr(pCVData + 16, 1)) {
            auto guid = (GUID*)pCVData;
            DWORD age = *(DWORD*)(pCVData + 16);
            const char* pdbPath = pCVData + 20;

            OUTPUT("\tPDB Information:\n");
            OUTPUT("\tGUID: {%08X-%04X-%04X-%02X%02X-%02X%02X%02X%02X%02X%02X}\n",
                guid->Data1, guid->Data2, guid->Data3,
                guid->Data4[0], guid->Data4[1], guid->Data4[2], guid->Data4[3],
                guid->Data4[4], guid->Data4[5], guid->Data4[6], guid->Data4[7]);
            OUTPUT("\tAge: %d\n", age);
            OUTPUT("\tPDB Path: %s\n\n", pdbPath);
        }
    }
}

void ProcessNB10DebugInfo(const IMAGE_DEBUG_DIRECTORY& debugEntry, DWORD* pCVHeader,
    const PEAnalyzer& analyzer) {

    if (debugEntry.SizeOfData >= 16) {
        auto pNB10Data = (char*)(pCVHeader + 1);
        DWORD offset = *(DWORD*)pNB10Data;
        DWORD timestamp = *(DWORD*)(pNB10Data + 4);
        DWORD age = *(DWORD*)(pNB10Data + 8);
        const char* pdbPath = pNB10Data + 12;

        OUTPUT("\tPDB Information (NB10):\n");
        OUTPUT("\tOffset: 0x%X\n", offset);
        OUTPUT("\tTimestamp: 0x%X\n", timestamp);
        OUTPUT("\tAge: %d\n", age);
        OUTPUT("\tPDB Path: %s\n\n", pdbPath);
    }
}

//colonelburton

void ParseImportDirectory32(const PEAnalyzer& analyzer) {
    const auto& importDir = analyzer.pNtHeaders32->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_IMPORT];
    if (!importDir.VirtualAddress || !importDir.Size) return;

    if (!PEHelpers::IsRvaValid(importDir.VirtualAddress, analyzer.fileSize,
        reinterpret_cast<PIMAGE_NT_HEADERS>(analyzer.pNtHeaders32))) {
        OUTPUT("[-] Invalid import directory RVA!\n");
        throw std::runtime_error("RVA out of bounds");
        return;
    }

    OUTPUT("\n[+] IMPORT DIRECTORY (32-bit)\n");
    auto pImportDesc = (PIMAGE_IMPORT_DESCRIPTOR)PEHelpers::GetRvaPtr(
        importDir.VirtualAddress,
        IMAGE_FIRST_SECTION(analyzer.pNtHeaders32),
        analyzer.pNtHeaders32->FileHeader.NumberOfSections,
        analyzer.lpFileContent,
        analyzer.fileSize);

    if (!pImportDesc) return;

    while (pImportDesc->Name != 0) {
        if (IsBadReadPtr(pImportDesc, sizeof(IMAGE_IMPORT_DESCRIPTOR))) {
            OUTPUT("[-] Invalid import descriptor detected!\n");
            break;
        }

        const char* dllName = (const char*)PEHelpers::GetRvaPtr(
            pImportDesc->Name,
            IMAGE_FIRST_SECTION(analyzer.pNtHeaders32),
            analyzer.pNtHeaders32->FileHeader.NumberOfSections,
            analyzer.lpFileContent,
            analyzer.fileSize);

        if (dllName && !IsBadReadPtr(dllName, 1)) {
            std::vector<wchar_t> wideDllName(MAX_PATH);
            MultiByteToWideChar(CP_ACP, 0, dllName, -1, wideDllName.data(), MAX_PATH);

            OUTPUT("\n\tDLL NAME: %s\n", wideDllName.data());
            OUTPUT("\tCharacteristics: 0x%X\n", pImportDesc->Characteristics);
            OUTPUT("\tTimeDateStamp: 0x%X\n", pImportDesc->TimeDateStamp);
            OUTPUT("\tForwarderChain: 0x%X\n", pImportDesc->ForwarderChain);
            OUTPUT("\tFirstThunk: 0x%X\n", pImportDesc->FirstThunk);
            OUTPUT("\n\tImported Functions:\n");

            auto pThunk = (PIMAGE_THUNK_DATA32)PEHelpers::GetRvaPtr(
                pImportDesc->OriginalFirstThunk ? pImportDesc->OriginalFirstThunk : pImportDesc->FirstThunk,
                IMAGE_FIRST_SECTION(analyzer.pNtHeaders32),
                analyzer.pNtHeaders32->FileHeader.NumberOfSections,
                analyzer.lpFileContent,
                analyzer.fileSize);

            while (pThunk && pThunk->u1.AddressOfData) {
                if (!(pThunk->u1.Ordinal & IMAGE_ORDINAL_FLAG32)) {
                    auto pImportByName = (PIMAGE_IMPORT_BY_NAME)PEHelpers::GetRvaPtr(
                        pThunk->u1.AddressOfData,
                        IMAGE_FIRST_SECTION(analyzer.pNtHeaders32),
                        analyzer.pNtHeaders32->FileHeader.NumberOfSections,
                        analyzer.lpFileContent,
                        analyzer.fileSize);

                    if (pImportByName && !IsBadReadPtr(pImportByName, sizeof(IMAGE_IMPORT_BY_NAME))) {
                        std::vector<wchar_t> wideFuncName(MAX_PATH);
                        MultiByteToWideChar(CP_ACP, 0, (char*)pImportByName->Name, -1,
                            wideFuncName.data(), MAX_PATH);
                        OUTPUT("\t\t%s\n", wideFuncName.data());
                    }
                }
                else {
                    OUTPUT("\t\tOrdinal: %d\n", pThunk->u1.Ordinal & 0xFFFF);
                }
                pThunk++;
            }
        }
        pImportDesc++;
    }
}

void ParseImportDirectory64(const PEAnalyzer& analyzer) {
    const auto& importDir = analyzer.pNtHeaders64->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_IMPORT];
    if (!importDir.VirtualAddress || !importDir.Size) return;

    if (!PEHelpers::IsRvaValid(importDir.VirtualAddress, analyzer.fileSize,
        reinterpret_cast<PIMAGE_NT_HEADERS>(analyzer.pNtHeaders64))) {
        OUTPUT("[-] Invalid import directory RVA!\n");
        throw std::runtime_error("RVA out of bounds");
        return;
    }

    OUTPUT("\n[+] IMPORT DIRECTORY (64-bit)\n");
    auto pImportDesc = (PIMAGE_IMPORT_DESCRIPTOR)PEHelpers::GetRvaPtr(
        importDir.VirtualAddress,
        IMAGE_FIRST_SECTION(analyzer.pNtHeaders64),
        analyzer.pNtHeaders64->FileHeader.NumberOfSections,
        analyzer.lpFileContent,
        analyzer.fileSize);

    if (!pImportDesc) return;

    while (pImportDesc->Name != 0) {
        if (IsBadReadPtr(pImportDesc, sizeof(IMAGE_IMPORT_DESCRIPTOR))) {
            OUTPUT("[-] Invalid import descriptor detected!\n");
            break;
        }

        const char* dllName = (const char*)PEHelpers::GetRvaPtr(
            pImportDesc->Name,
            IMAGE_FIRST_SECTION(analyzer.pNtHeaders64),
            analyzer.pNtHeaders64->FileHeader.NumberOfSections,
            analyzer.lpFileContent,
            analyzer.fileSize);

        if (dllName && !IsBadReadPtr(dllName, 1)) {
            std::vector<wchar_t> wideDllName(MAX_PATH);
            MultiByteToWideChar(CP_ACP, 0, dllName, -1, wideDllName.data(), MAX_PATH);

            OUTPUT("\n\tDLL NAME: %s\n", wideDllName.data());
            OUTPUT("\tCharacteristics: 0x%X\n", pImportDesc->Characteristics);
            OUTPUT("\tTimeDateStamp: 0x%X\n", pImportDesc->TimeDateStamp);
            OUTPUT("\tForwarderChain: 0x%X\n", pImportDesc->ForwarderChain);
            OUTPUT("\tFirstThunk: 0x%X\n", pImportDesc->FirstThunk);
            OUTPUT("\n\tImported Functions:\n");

            auto pThunk = (PIMAGE_THUNK_DATA64)PEHelpers::GetRvaPtr(
                pImportDesc->OriginalFirstThunk ? pImportDesc->OriginalFirstThunk : pImportDesc->FirstThunk,
                IMAGE_FIRST_SECTION(analyzer.pNtHeaders64),
                analyzer.pNtHeaders64->FileHeader.NumberOfSections,
                analyzer.lpFileContent,
                analyzer.fileSize);

            while (pThunk && pThunk->u1.AddressOfData) {
                if (!(pThunk->u1.Ordinal & IMAGE_ORDINAL_FLAG64)) {
                    auto pImportByName = (PIMAGE_IMPORT_BY_NAME)PEHelpers::GetRvaPtr(
                        (DWORD)pThunk->u1.AddressOfData,
                        IMAGE_FIRST_SECTION(analyzer.pNtHeaders64),
                        analyzer.pNtHeaders64->FileHeader.NumberOfSections,
                        analyzer.lpFileContent,
                        analyzer.fileSize);

                    if (pImportByName && !IsBadReadPtr(pImportByName, sizeof(IMAGE_IMPORT_BY_NAME))) {
                        std::vector<wchar_t> wideFuncName(MAX_PATH);
                        MultiByteToWideChar(CP_ACP, 0, (char*)pImportByName->Name, -1,
                            wideFuncName.data(), MAX_PATH);
                        OUTPUT("\t\t%s\n", wideFuncName.data());
                    }
                }
                else {
                    OUTPUT("\t\tOrdinal: %lld\n", pThunk->u1.Ordinal & 0xFFFF);
                }
                pThunk++;
            }
        }
        pImportDesc++;
    }
}

/*void ParseImportDirectory(const PEAnalyzer& analyzer) {
    if (analyzer.is64Bit) {
        ParseImportDirectory64(analyzer);
    }
    else {
        ParseImportDirectory32(analyzer);
    }
}*/ //removing the empty content duplicates
//}

void ParseExportDirectory32(const PEAnalyzer& analyzer) {
    const auto& exportDir = analyzer.pNtHeaders32->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_EXPORT];
    if (!exportDir.VirtualAddress || !exportDir.Size) return;

    if (!PEHelpers::IsRvaValid(exportDir.VirtualAddress, analyzer.fileSize,
        reinterpret_cast<PIMAGE_NT_HEADERS>(analyzer.pNtHeaders32))) {
        OUTPUT("[-] Invalid export directory RVA!\n");
        throw std::runtime_error("RVA out of bounds");
        return;
    }

    OUTPUT("\n[+] EXPORT DIRECTORY (32-bit)\n");
    auto pExportDir = (PIMAGE_EXPORT_DIRECTORY)PEHelpers::GetRvaPtr(
        exportDir.VirtualAddress,
        IMAGE_FIRST_SECTION(analyzer.pNtHeaders32),
        analyzer.pNtHeaders32->FileHeader.NumberOfSections,
        analyzer.lpFileContent,
        analyzer.fileSize);

    if (!pExportDir || IsBadReadPtr(pExportDir, sizeof(IMAGE_EXPORT_DIRECTORY))) {
        OUTPUT("[-] Invalid export directory structure!\n");
        return;
    }

    OUTPUT("\tCharacteristics: 0x%X\n", pExportDir->Characteristics);
    OUTPUT("\tTimeDateStamp: 0x%X\n", pExportDir->TimeDateStamp);
    OUTPUT("\tMajorVersion: %d\n", pExportDir->MajorVersion);
    OUTPUT("\tMinorVersion: %d\n", pExportDir->MinorVersion);
    OUTPUT("\tName: 0x%X\n", pExportDir->Name);
    OUTPUT("\tBase: %d\n", pExportDir->Base);
    OUTPUT("\tNumberOfFunctions: %d\n", pExportDir->NumberOfFunctions);
    OUTPUT("\tNumberOfNames: %d\n", pExportDir->NumberOfNames);
    OUTPUT("\tAddressOfFunctions: 0x%X\n", pExportDir->AddressOfFunctions);
    OUTPUT("\tAddressOfNames: 0x%X\n", pExportDir->AddressOfNames);
    OUTPUT("\tAddressOfNameOrdinals: 0x%X\n\n", pExportDir->AddressOfNameOrdinals);

    auto pFunctions = (PDWORD)PEHelpers::GetRvaPtr(
        pExportDir->AddressOfFunctions,
        IMAGE_FIRST_SECTION(analyzer.pNtHeaders32),
        analyzer.pNtHeaders32->FileHeader.NumberOfSections,
        analyzer.lpFileContent,
        analyzer.fileSize);

    auto pNames = (PDWORD)PEHelpers::GetRvaPtr(
        pExportDir->AddressOfNames,
        IMAGE_FIRST_SECTION(analyzer.pNtHeaders32),
        analyzer.pNtHeaders32->FileHeader.NumberOfSections,
        analyzer.lpFileContent,
        analyzer.fileSize);

    auto pNameOrdinals = (PWORD)PEHelpers::GetRvaPtr(
        pExportDir->AddressOfNameOrdinals,
        IMAGE_FIRST_SECTION(analyzer.pNtHeaders32),
        analyzer.pNtHeaders32->FileHeader.NumberOfSections,
        analyzer.lpFileContent,
        analyzer.fileSize);

    if (!pNames || !pNameOrdinals || !pFunctions) {
        OUTPUT("[-] Invalid export address tables!\n");
        return;
    }

    OUTPUT("\tExported Functions:\n\n");
    for (DWORD i = 0; i < pExportDir->NumberOfNames; i++) {
        if (IsBadReadPtr(pNames + i, sizeof(DWORD)) ||
            IsBadReadPtr(pNameOrdinals + i, sizeof(WORD))) {
            break;
        }

        const char* functionName = (const char*)PEHelpers::GetRvaPtr(
            pNames[i],
            IMAGE_FIRST_SECTION(analyzer.pNtHeaders32),
            analyzer.pNtHeaders32->FileHeader.NumberOfSections,
            analyzer.lpFileContent,
            analyzer.fileSize);

        if (functionName && !IsBadReadPtr(functionName, 1)) {
            WORD ordinal = pNameOrdinals[i];
            if (ordinal < pExportDir->NumberOfFunctions) {
                DWORD functionRva = pFunctions[ordinal];

                // Check for forwarded export
                if (functionRva >= exportDir.VirtualAddress &&
                    functionRva < (exportDir.VirtualAddress + exportDir.Size)) {

                    const char* forwardName = (const char*)PEHelpers::GetRvaPtr(
                        functionRva,
                        IMAGE_FIRST_SECTION(analyzer.pNtHeaders32),
                        analyzer.pNtHeaders32->FileHeader.NumberOfSections,
                        analyzer.lpFileContent,
                        analyzer.fileSize);

                    if (forwardName && !IsBadReadPtr(forwardName, 1)) {
                        std::vector<wchar_t> wideForwardName(MAX_PATH);
                        MultiByteToWideChar(CP_ACP, 0, forwardName, -1,
                            wideForwardName.data(), MAX_PATH);
                        OUTPUT("\t\t%s (Ordinal: %d) -> Forward to: %s\n",
                            functionName,
                            ordinal + pExportDir->Base,
                            wideForwardName.data());
                    }
                }
                else {
                    OUTPUT("\t\t%s (Ordinal: %d, RVA: 0x%08X)\n",
                        functionName,
                        ordinal + pExportDir->Base,
                        functionRva);
                }
            }
        }
    }
}

void ParseExportDirectory64(const PEAnalyzer& analyzer) {
    const auto& exportDir = analyzer.pNtHeaders64->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_EXPORT];
    if (!exportDir.VirtualAddress || !exportDir.Size) return;

    if (!PEHelpers::IsRvaValid(exportDir.VirtualAddress, analyzer.fileSize,
        reinterpret_cast<PIMAGE_NT_HEADERS>(analyzer.pNtHeaders64))) {
        OUTPUT("[-] Invalid export directory RVA!\n");
        throw std::runtime_error("RVA out of bounds");
        return;
    }

    OUTPUT("\n[+] EXPORT DIRECTORY (64-bit)\n");
    // Rest of the implementation is identical to 32-bit version
    // Just using pNtHeaders64 instead of pNtHeaders64
    auto pExportDir = (PIMAGE_EXPORT_DIRECTORY)PEHelpers::GetRvaPtr(
        exportDir.VirtualAddress,
        IMAGE_FIRST_SECTION(analyzer.pNtHeaders64),
        analyzer.pNtHeaders64->FileHeader.NumberOfSections,
        analyzer.lpFileContent,
        analyzer.fileSize);

    if (!pExportDir || IsBadReadPtr(pExportDir, sizeof(IMAGE_EXPORT_DIRECTORY))) {
        OUTPUT("[-] Invalid export directory structure!\n");
        return;
    }

    OUTPUT("\tCharacteristics: 0x%X\n", pExportDir->Characteristics);
    OUTPUT("\tTimeDateStamp: 0x%X\n", pExportDir->TimeDateStamp);
    OUTPUT("\tMajorVersion: %d\n", pExportDir->MajorVersion);
    OUTPUT("\tMinorVersion: %d\n", pExportDir->MinorVersion);
    OUTPUT("\tName: 0x%X\n", pExportDir->Name);
    OUTPUT("\tBase: %d\n", pExportDir->Base);
    OUTPUT("\tNumberOfFunctions: %d\n", pExportDir->NumberOfFunctions);
    OUTPUT("\tNumberOfNames: %d\n", pExportDir->NumberOfNames);
    OUTPUT("\tAddressOfFunctions: 0x%X\n", pExportDir->AddressOfFunctions);
    OUTPUT("\tAddressOfNames: 0x%X\n", pExportDir->AddressOfNames);
    OUTPUT("\tAddressOfNameOrdinals: 0x%X\n\n", pExportDir->AddressOfNameOrdinals);

    auto pFunctions = (PDWORD)PEHelpers::GetRvaPtr(
        pExportDir->AddressOfFunctions,
        IMAGE_FIRST_SECTION(analyzer.pNtHeaders64),
        analyzer.pNtHeaders64->FileHeader.NumberOfSections,
        analyzer.lpFileContent,
        analyzer.fileSize);

    auto pNames = (PDWORD)PEHelpers::GetRvaPtr(
        pExportDir->AddressOfNames,
        IMAGE_FIRST_SECTION(analyzer.pNtHeaders64),
        analyzer.pNtHeaders64->FileHeader.NumberOfSections,
        analyzer.lpFileContent,
        analyzer.fileSize);

    auto pNameOrdinals = (PWORD)PEHelpers::GetRvaPtr(
        pExportDir->AddressOfNameOrdinals,
        IMAGE_FIRST_SECTION(analyzer.pNtHeaders64),
        analyzer.pNtHeaders64->FileHeader.NumberOfSections,
        analyzer.lpFileContent,
        analyzer.fileSize);

    if (!pNames || !pNameOrdinals || !pFunctions) {
        OUTPUT("[-] Invalid export address tables!\n");
        return;
    }

    OUTPUT("\tExported Functions:\n\n");
    for (DWORD i = 0; i < pExportDir->NumberOfNames; i++) {
        if (IsBadReadPtr(pNames + i, sizeof(DWORD)) ||
            IsBadReadPtr(pNameOrdinals + i, sizeof(WORD))) {
            break;
        }

        const char* functionName = (const char*)PEHelpers::GetRvaPtr(
            pNames[i],
            IMAGE_FIRST_SECTION(analyzer.pNtHeaders64),
            analyzer.pNtHeaders64->FileHeader.NumberOfSections,
            analyzer.lpFileContent,
            analyzer.fileSize);

        if (functionName && !IsBadReadPtr(functionName, 1)) {
            WORD ordinal = pNameOrdinals[i];
            if (ordinal < pExportDir->NumberOfFunctions) {
                DWORD functionRva = pFunctions[ordinal];

                // Check for forwarded export
                if (functionRva >= exportDir.VirtualAddress &&
                    functionRva < (exportDir.VirtualAddress + exportDir.Size)) {

                    const char* forwardName = (const char*)PEHelpers::GetRvaPtr(
                        functionRva,
                        IMAGE_FIRST_SECTION(analyzer.pNtHeaders64),
                        analyzer.pNtHeaders64->FileHeader.NumberOfSections,
                        analyzer.lpFileContent,
                        analyzer.fileSize);

                    if (forwardName && !IsBadReadPtr(forwardName, 1)) {
                        std::vector<wchar_t> wideForwardName(MAX_PATH);
                        MultiByteToWideChar(CP_ACP, 0, forwardName, -1,
                            wideForwardName.data(), MAX_PATH);
                        OUTPUT("\t\t%s (Ordinal: %d) -> Forward to: %s\n",
                            functionName,
                            ordinal + pExportDir->Base,
                            wideForwardName.data());
                    }
                }
                else {
                    OUTPUT("\t\t%s (Ordinal: %d, RVA: 0x%08X)\n",
                        functionName,
                        ordinal + pExportDir->Base,
                        functionRva);
                }
            }
        }
    }
}
// Copying the same logic as ParseExportDirectory32 but with 64-bit headers
// ... [Same implementation as above, just using pNtHeaders64]

/*void ParseExportDirectory(const PEAnalyzer& analyzer) {
    if (analyzer.is64Bit) {
        ParseExportDirectory64(analyzer);
    }
    else {
        ParseExportDirectory32(analyzer);
    }
}*/ //removing this duplicate

void ProcessResourceDirectory32(
    PIMAGE_RESOURCE_DIRECTORY resDir,
    int level,
    const wchar_t* type,
    PIMAGE_RESOURCE_DIRECTORY baseResourceDir,
    const wchar_t* resourceTypes[],
    const PEAnalyzer& analyzer)
{
    if (IsBadReadPtr(resDir, sizeof(IMAGE_RESOURCE_DIRECTORY))) {
        return;
    }

    auto entry = (PIMAGE_RESOURCE_DIRECTORY_ENTRY)(resDir + 1);
    WORD totalEntries = resDir->NumberOfNamedEntries + resDir->NumberOfIdEntries;

    for (WORD i = 0; i < totalEntries; i++) {
        if (IsBadReadPtr(entry + i, sizeof(IMAGE_RESOURCE_DIRECTORY_ENTRY))) {
            break;
        }

        for (int indent = 0; indent < level; indent++) {
            OUTPUT("\t");
        }

        if (entry[i].NameIsString) {
            auto nameEntry = (PIMAGE_RESOURCE_DIR_STRING_U)((BYTE*)baseResourceDir + entry[i].NameOffset);
            if (!IsBadReadPtr(nameEntry, sizeof(IMAGE_RESOURCE_DIR_STRING_U))) {
                std::vector<wchar_t> resourceName(nameEntry->Length + 1);
                wcsncpy_s(resourceName.data(), nameEntry->Length + 1,
                    nameEntry->NameString, nameEntry->Length);
                resourceName[nameEntry->Length] = L'\0';

                if (level == 0) {
                    OUTPUT("Resource Type: Custom (%s)\n", resourceName.data());
                }
                else {
                    OUTPUT("Name: %s\n", resourceName.data());
                }
            }
        }
        else {
            if (level == 0) {
                DWORD resourceType = entry[i].Id;
                if (resourceType < 16) {
                    OUTPUT("Resource Type: %s (ID: %d)\n", resourceTypes[resourceType], resourceType);
                }
                else {
                    OUTPUT("Resource Type: Custom (ID: %d)\n", resourceType);
                }
            }
            else {
                OUTPUT("ID: %d\n", entry[i].Id);
            }
        }

        if (entry[i].DataIsDirectory) {
            auto nextDir = (PIMAGE_RESOURCE_DIRECTORY)((BYTE*)baseResourceDir + entry[i].OffsetToDirectory);
            if (!IsBadReadPtr(nextDir, sizeof(IMAGE_RESOURCE_DIRECTORY))) {
                ProcessResourceDirectory32(nextDir, level + 1,
                    level == 0 ? resourceTypes[min(entry[i].Id, 15)] : type,
                    baseResourceDir, resourceTypes, analyzer);
            }
        }
        else {
            auto dataEntry = (PIMAGE_RESOURCE_DATA_ENTRY)((BYTE*)baseResourceDir + entry[i].OffsetToData);
            if (!IsBadReadPtr(dataEntry, sizeof(IMAGE_RESOURCE_DATA_ENTRY))) {
                for (int indent = 0; indent < level + 1; indent++) {
                    OUTPUT("\t");
                }
                OUTPUT("Size: %d bytes, RVA: 0x%X\n", dataEntry->Size, dataEntry->OffsetToData);

                // Special handling for Version resources
                if (type && wcscmp(type, L"Version") == 0) {
                    auto versionData = (BYTE*)PEHelpers::GetRvaPtr(
                        dataEntry->OffsetToData,
                        IMAGE_FIRST_SECTION(analyzer.pNtHeaders32),
                        analyzer.pNtHeaders32->FileHeader.NumberOfSections,
                        analyzer.lpFileContent,
                        analyzer.fileSize);

                    if (versionData && !IsBadReadPtr(versionData, sizeof(VS_FIXEDFILEINFO))) {
                        auto versionInfo = (VS_FIXEDFILEINFO*)(versionData + 40);
                        if (versionInfo->dwSignature == 0xFEEF04BD) {
                            for (int indent = 0; indent < level + 2; indent++) {
                                OUTPUT("\t");
                            }
                            OUTPUT("File Version: %d.%d.%d.%d\n",
                                HIWORD(versionInfo->dwFileVersionMS),
                                LOWORD(versionInfo->dwFileVersionMS),
                                HIWORD(versionInfo->dwFileVersionLS),
                                LOWORD(versionInfo->dwFileVersionLS));
                        }
                    }
                }
            }
        }
    }
}

void ProcessResourceDirectory64(
    PIMAGE_RESOURCE_DIRECTORY resDir,
    int level,
    const wchar_t* type,
    PIMAGE_RESOURCE_DIRECTORY baseResourceDir,
    const wchar_t* resourceTypes[],
    const PEAnalyzer& analyzer)
{
    // Similar to ProcessResourceDirectory32 but using 64-bit structures
    // Main difference is using analyzer.pNtHeaders64 instead of analyzer.pNtHeaders32
    if (IsBadReadPtr(resDir, sizeof(IMAGE_RESOURCE_DIRECTORY))) {
        return;
        // Rest of the implementation follows the same pattern
    }

    auto entry = (PIMAGE_RESOURCE_DIRECTORY_ENTRY)(resDir + 1);
    WORD totalEntries = resDir->NumberOfNamedEntries + resDir->NumberOfIdEntries;

    for (WORD i = 0; i < totalEntries; i++) {
        if (IsBadReadPtr(entry + i, sizeof(IMAGE_RESOURCE_DIRECTORY_ENTRY))) {
            break;
        }

        for (int indent = 0; indent < level; indent++) {
            OUTPUT("\t");
        }

        if (entry[i].NameIsString) {
            auto nameEntry = (PIMAGE_RESOURCE_DIR_STRING_U)((BYTE*)baseResourceDir + entry[i].NameOffset);
            if (!IsBadReadPtr(nameEntry, sizeof(IMAGE_RESOURCE_DIR_STRING_U))) {
                std::vector<wchar_t> resourceName(nameEntry->Length + 1);
                wcsncpy_s(resourceName.data(), nameEntry->Length + 1,
                    nameEntry->NameString, nameEntry->Length);
                resourceName[nameEntry->Length] = L'\0';

                if (level == 0) {
                    OUTPUT("Resource Type: Custom (%s)\n", resourceName.data());
                }
                else {
                    OUTPUT("Name: %s\n", resourceName.data());
                }
            }
        }
        else {
            if (level == 0) {
                DWORD resourceType = entry[i].Id;
                if (resourceType < 16) {
                    OUTPUT("Resource Type: %s (ID: %d)\n", resourceTypes[resourceType], resourceType);
                }
                else {
                    OUTPUT("Resource Type: Custom (ID: %d)\n", resourceType);
                }
            }
            else {
                OUTPUT("ID: %d\n", entry[i].Id);
            }
        }

        if (entry[i].DataIsDirectory) {
            auto nextDir = (PIMAGE_RESOURCE_DIRECTORY)((BYTE*)baseResourceDir + entry[i].OffsetToDirectory);
            if (!IsBadReadPtr(nextDir, sizeof(IMAGE_RESOURCE_DIRECTORY))) {
                ProcessResourceDirectory32(nextDir, level + 1,
                    level == 0 ? resourceTypes[min(entry[i].Id, 15)] : type,
                    baseResourceDir, resourceTypes, analyzer);
            }
        }
        else {
            auto dataEntry = (PIMAGE_RESOURCE_DATA_ENTRY)((BYTE*)baseResourceDir + entry[i].OffsetToData);
            if (!IsBadReadPtr(dataEntry, sizeof(IMAGE_RESOURCE_DATA_ENTRY))) {
                for (int indent = 0; indent < level + 1; indent++) {
                    OUTPUT("\t");
                }
                OUTPUT("Size: %d bytes, RVA: 0x%X\n", dataEntry->Size, dataEntry->OffsetToData);

                // Special handling for Version resources
                if (type && wcscmp(type, L"Version") == 0) {
                    auto versionData = (BYTE*)PEHelpers::GetRvaPtr(
                        dataEntry->OffsetToData,
                        IMAGE_FIRST_SECTION(analyzer.pNtHeaders32),
                        analyzer.pNtHeaders32->FileHeader.NumberOfSections,
                        analyzer.lpFileContent,
                        analyzer.fileSize);

                    if (versionData && !IsBadReadPtr(versionData, sizeof(VS_FIXEDFILEINFO))) {
                        auto versionInfo = (VS_FIXEDFILEINFO*)(versionData + 40);
                        if (versionInfo->dwSignature == 0xFEEF04BD) {
                            for (int indent = 0; indent < level + 2; indent++) {
                                OUTPUT("\t");
                            }
                            OUTPUT("File Version: %d.%d.%d.%d\n",
                                HIWORD(versionInfo->dwFileVersionMS),
                                LOWORD(versionInfo->dwFileVersionMS),
                                HIWORD(versionInfo->dwFileVersionLS),
                                LOWORD(versionInfo->dwFileVersionLS));
                        }
                    }
                }
            }
        }
    }
}

void ParseResourceDirectory32(const PEAnalyzer& analyzer) {
    const auto& resourceDir = analyzer.pNtHeaders32->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_RESOURCE];
    if (!resourceDir.VirtualAddress || !resourceDir.Size) return;

    if (!PEHelpers::IsRvaValid(resourceDir.VirtualAddress, analyzer.fileSize,
        reinterpret_cast<PIMAGE_NT_HEADERS>(analyzer.pNtHeaders32))) {
        OUTPUT("[-] Invalid resource directory RVA!\n");
        throw std::runtime_error("RVA out of bounds");
        return;
    }

    OUTPUT("\n[+] RESOURCE DIRECTORY (32-bit)\n");
    auto pResourceDir = (PIMAGE_RESOURCE_DIRECTORY)PEHelpers::GetRvaPtr(
        resourceDir.VirtualAddress,
        IMAGE_FIRST_SECTION(analyzer.pNtHeaders32),
        analyzer.pNtHeaders32->FileHeader.NumberOfSections,
        analyzer.lpFileContent,
        analyzer.fileSize);

    if (!pResourceDir || IsBadReadPtr(pResourceDir, sizeof(IMAGE_RESOURCE_DIRECTORY))) {
        OUTPUT("[-] Invalid or corrupted resource directory\n");
        return;
    }

    const wchar_t* resourceTypes[] = {
        L"Unknown",     L"Cursor",      L"Bitmap",      L"Icon",
        L"Menu",        L"Dialog",      L"String",      L"FontDir",
        L"Font",        L"Accelerator", L"RCData",      L"MessageTable",
        L"GroupCursor", L"GroupIcon",   L"Version",     L"DlgInclude"
    };

    ProcessResourceDirectory32(pResourceDir, 0, nullptr, pResourceDir, resourceTypes, analyzer);
}

void ParseDebugDirectory32(const PEAnalyzer& analyzer) {
    const auto& debugDir = analyzer.pNtHeaders32->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_DEBUG];
    if (!debugDir.VirtualAddress || !debugDir.Size) return;

    if (!PEHelpers::IsRvaValid(debugDir.VirtualAddress, analyzer.fileSize,
        reinterpret_cast<PIMAGE_NT_HEADERS>(analyzer.pNtHeaders32))) {
        OUTPUT("[-] Invalid debug directory RVA!\n");
        throw std::runtime_error("RVA out of bounds");
        return;
    }

    OUTPUT("\n[+] DEBUG DIRECTORY (32-bit)\n");
    auto pDebugDir = (PIMAGE_DEBUG_DIRECTORY)PEHelpers::GetRvaPtr(
        debugDir.VirtualAddress,
        IMAGE_FIRST_SECTION(analyzer.pNtHeaders32),
        analyzer.pNtHeaders32->FileHeader.NumberOfSections,
        analyzer.lpFileContent,
        analyzer.fileSize);

    if (!pDebugDir || IsBadReadPtr(pDebugDir, sizeof(IMAGE_DEBUG_DIRECTORY))) {
        OUTPUT("[-] Invalid debug directory structure!\n");
        return;
    }

    DWORD numEntries = min(debugDir.Size / sizeof(IMAGE_DEBUG_DIRECTORY), 16);
    for (DWORD i = 0; i < numEntries; i++) {
        OUTPUT("\tDebug Entry %d:\n", i + 1);
        OUTPUT("\tCharacteristics: 0x%X\n", pDebugDir[i].Characteristics);
        OUTPUT("\tTimeDateStamp: 0x%X\n", pDebugDir[i].TimeDateStamp);
        OUTPUT("\tMajorVersion: %d\n", pDebugDir[i].MajorVersion);
        OUTPUT("\tMinorVersion: %d\n", pDebugDir[i].MinorVersion);
        OUTPUT("\tType: 0x%X", pDebugDir[i].Type);

        switch (pDebugDir[i].Type) {
        case IMAGE_DEBUG_TYPE_COFF:
            OUTPUT(" (COFF)\n"); break;
        case IMAGE_DEBUG_TYPE_CODEVIEW:
            OUTPUT(" (CodeView)\n"); break;
        case IMAGE_DEBUG_TYPE_FPO:
            OUTPUT(" (FPO)\n"); break;
        case IMAGE_DEBUG_TYPE_MISC:
            OUTPUT(" (Misc)\n"); break;
        case IMAGE_DEBUG_TYPE_EXCEPTION:
            OUTPUT(" (Exception)\n"); break;
        case IMAGE_DEBUG_TYPE_FIXUP:
            OUTPUT(" (Fixup)\n"); break;
        case IMAGE_DEBUG_TYPE_OMAP_TO_SRC:
            OUTPUT(" (OMAP to Src)\n"); break;
        case IMAGE_DEBUG_TYPE_OMAP_FROM_SRC:
            OUTPUT(" (OMAP from Src)\n"); break;
        case IMAGE_DEBUG_TYPE_BORLAND:
            OUTPUT(" (Borland)\n"); break;
        default:
            OUTPUT(" (Unknown)\n"); break;
        }

        OUTPUT("\tSizeOfData: 0x%X\n", pDebugDir[i].SizeOfData);
        OUTPUT("\tAddressOfRawData: 0x%X\n", pDebugDir[i].AddressOfRawData);
        OUTPUT("\tPointerToRawData: 0x%X\n\n", pDebugDir[i].PointerToRawData);

        // Special handling for CodeView debug information
        if (pDebugDir[i].Type == IMAGE_DEBUG_TYPE_CODEVIEW &&
            pDebugDir[i].PointerToRawData != 0 &&
            pDebugDir[i].SizeOfData >= sizeof(DWORD)) {

            auto pCVHeader = (DWORD*)((BYTE*)analyzer.lpFileContent + pDebugDir[i].PointerToRawData);
            if (!IsBadReadPtr(pCVHeader, sizeof(DWORD))) {
                switch (*pCVHeader) {
                case 0x53445352: // 'RSDS'
                    if (pDebugDir[i].SizeOfData >= (sizeof(DWORD) + sizeof(GUID) + sizeof(DWORD) + 1)) {
                        auto pCVData = (char*)(pCVHeader + 1);
                        if (!IsBadReadPtr(pCVData + 16, 1)) {
                            auto guid = (GUID*)pCVData;
                            DWORD age = *(DWORD*)(pCVData + 16);
                            const char* pdbPath = pCVData + 20;

                            OUTPUT("\tPDB Information:\n");
                            OUTPUT("\tGUID: {%08X-%04X-%04X-%02X%02X-%02X%02X%02X%02X%02X%02X}\n",
                                guid->Data1, guid->Data2, guid->Data3,
                                guid->Data4[0], guid->Data4[1], guid->Data4[2], guid->Data4[3],
                                guid->Data4[4], guid->Data4[5], guid->Data4[6], guid->Data4[7]);
                            OUTPUT("\tAge: %d\n", age);
                            OUTPUT("\tPDB Path: %s\n\n", pdbPath);
                        }
                    }
                    break;

                case 0x3031424E: // 'NB10'
                    if (pDebugDir[i].SizeOfData >= 16) {
                        auto pNB10Data = (char*)(pCVHeader + 1);
                        DWORD offset = *(DWORD*)pNB10Data;
                        DWORD timestamp = *(DWORD*)(pNB10Data + 4);
                        DWORD age = *(DWORD*)(pNB10Data + 8);
                        const char* pdbPath = pNB10Data + 12;

                        OUTPUT("\tPDB Information (NB10):\n");
                        OUTPUT("\tOffset: 0x%X\n", offset);
                        OUTPUT("\tTimestamp: 0x%X\n", timestamp);
                        OUTPUT("\tAge: %d\n", age);
                        OUTPUT("\tPDB Path: %s\n\n", pdbPath);
                    }
                    break;
                }
            }
        }
    }
}

void ParseDebugDirectory64(const PEAnalyzer& analyzer) {
    const auto& debugDir = analyzer.pNtHeaders64->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_DEBUG];
    if (!debugDir.VirtualAddress || !debugDir.Size) return;

    if (!PEHelpers::IsRvaValid(debugDir.VirtualAddress, analyzer.fileSize,
        reinterpret_cast<PIMAGE_NT_HEADERS>(analyzer.pNtHeaders64))) {
        OUTPUT("[-] Invalid debug directory RVA!\n");
        throw std::runtime_error("RVA out of bounds");
        return;
    }

    OUTPUT("\n[+] DEBUG DIRECTORY (64-bit)\n");
    // Rest of implementation follows same pattern as 32-bit version
    // Just using pNtHeaders64 instead of pNtHeaders32
    auto pDebugDir = (PIMAGE_DEBUG_DIRECTORY)PEHelpers::GetRvaPtr(
        debugDir.VirtualAddress,
        IMAGE_FIRST_SECTION(analyzer.pNtHeaders64),
        analyzer.pNtHeaders64->FileHeader.NumberOfSections,
        analyzer.lpFileContent,
        analyzer.fileSize);

    if (!pDebugDir || IsBadReadPtr(pDebugDir, sizeof(IMAGE_DEBUG_DIRECTORY))) {
        OUTPUT("[-] Invalid debug directory structure!\n");
        return;
    }

    DWORD numEntries = min(debugDir.Size / sizeof(IMAGE_DEBUG_DIRECTORY), 16);
    for (DWORD i = 0; i < numEntries; i++) {
        OUTPUT("\tDebug Entry %d:\n", i + 1);
        OUTPUT("\tCharacteristics: 0x%X\n", pDebugDir[i].Characteristics);
        OUTPUT("\tTimeDateStamp: 0x%X\n", pDebugDir[i].TimeDateStamp);
        OUTPUT("\tMajorVersion: %d\n", pDebugDir[i].MajorVersion);
        OUTPUT("\tMinorVersion: %d\n", pDebugDir[i].MinorVersion);
        OUTPUT("\tType: 0x%X", pDebugDir[i].Type);

        switch (pDebugDir[i].Type) {
        case IMAGE_DEBUG_TYPE_COFF:
            OUTPUT(" (COFF)\n"); break;
        case IMAGE_DEBUG_TYPE_CODEVIEW:
            OUTPUT(" (CodeView)\n"); break;
        case IMAGE_DEBUG_TYPE_FPO:
            OUTPUT(" (FPO)\n"); break;
        case IMAGE_DEBUG_TYPE_MISC:
            OUTPUT(" (Misc)\n"); break;
        case IMAGE_DEBUG_TYPE_EXCEPTION:
            OUTPUT(" (Exception)\n"); break;
        case IMAGE_DEBUG_TYPE_FIXUP:
            OUTPUT(" (Fixup)\n"); break;
        case IMAGE_DEBUG_TYPE_OMAP_TO_SRC:
            OUTPUT(" (OMAP to Src)\n"); break;
        case IMAGE_DEBUG_TYPE_OMAP_FROM_SRC:
            OUTPUT(" (OMAP from Src)\n"); break;
        case IMAGE_DEBUG_TYPE_BORLAND:
            OUTPUT(" (Borland)\n"); break;
        default:
            OUTPUT(" (Unknown)\n"); break;
        }

        OUTPUT("\tSizeOfData: 0x%X\n", pDebugDir[i].SizeOfData);
        OUTPUT("\tAddressOfRawData: 0x%X\n", pDebugDir[i].AddressOfRawData);
        OUTPUT("\tPointerToRawData: 0x%X\n\n", pDebugDir[i].PointerToRawData);

        // Special handling for CodeView debug information
        if (pDebugDir[i].Type == IMAGE_DEBUG_TYPE_CODEVIEW &&
            pDebugDir[i].PointerToRawData != 0 &&
            pDebugDir[i].SizeOfData >= sizeof(DWORD)) {

            auto pCVHeader = (DWORD*)((BYTE*)analyzer.lpFileContent + pDebugDir[i].PointerToRawData);
            if (!IsBadReadPtr(pCVHeader, sizeof(DWORD))) {
                switch (*pCVHeader) {
                case 0x53445352: // 'RSDS'
                    if (pDebugDir[i].SizeOfData >= (sizeof(DWORD) + sizeof(GUID) + sizeof(DWORD) + 1)) {
                        auto pCVData = (char*)(pCVHeader + 1);
                        if (!IsBadReadPtr(pCVData + 16, 1)) {
                            auto guid = (GUID*)pCVData;
                            DWORD age = *(DWORD*)(pCVData + 16);
                            const char* pdbPath = pCVData + 20;

                            OUTPUT("\tPDB Information:\n");
                            OUTPUT("\tGUID: {%08X-%04X-%04X-%02X%02X-%02X%02X%02X%02X%02X%02X}\n",
                                guid->Data1, guid->Data2, guid->Data3,
                                guid->Data4[0], guid->Data4[1], guid->Data4[2], guid->Data4[3],
                                guid->Data4[4], guid->Data4[5], guid->Data4[6], guid->Data4[7]);
                            OUTPUT("\tAge: %d\n", age);
                            OUTPUT("\tPDB Path: %s\n\n", pdbPath);
                        }
                    }
                    break;

                case 0x3031424E: // 'NB10'
                    if (pDebugDir[i].SizeOfData >= 16) {
                        auto pNB10Data = (char*)(pCVHeader + 1);
                        DWORD offset = *(DWORD*)pNB10Data;
                        DWORD timestamp = *(DWORD*)(pNB10Data + 4);
                        DWORD age = *(DWORD*)(pNB10Data + 8);
                        const char* pdbPath = pNB10Data + 12;

                        OUTPUT("\tPDB Information (NB10):\n");
                        OUTPUT("\tOffset: 0x%X\n", offset);
                        OUTPUT("\tTimestamp: 0x%X\n", timestamp);
                        OUTPUT("\tAge: %d\n", age);
                        OUTPUT("\tPDB Path: %s\n\n", pdbPath);
                    }
                    break;
                }
            }
        }
    }
}
// ... [Same implementation as ParseDebugDirectory32]

//newfunctionshere (lateest fixes)


void ProcessResourceDirectory32(
    PIMAGE_RESOURCE_DIRECTORY resDir,
    int level,
    const wchar_t* type,
    PIMAGE_RESOURCE_DIRECTORY baseResourceDir,
    const wchar_t* resourceTypes[],
    const PEAnalyzer& analyzer);

void ProcessResourceDirectory64(
    PIMAGE_RESOURCE_DIRECTORY resDir,
    int level,
    const wchar_t* type,
    PIMAGE_RESOURCE_DIRECTORY baseResourceDir,
    const wchar_t* resourceTypes[],
    const PEAnalyzer& analyzer);

// Main window class name
//const char* const WINDOW_CLASS_NAME = "PEAnalyzerWindow";

//new inserted here >>

// Page Break

//here

// Page Break

void AddMenus(HWND hwnd) {
    HMENU hMenuBar = CreateMenu();
    HMENU hFileMenu = CreateMenu();
    AppendMenu(hMenuBar, MF_POPUP, (UINT_PTR)hFileMenu, L"&File");
    AppendMenu(hFileMenu, MF_STRING, 1, L"&Open\tCtrl+O");  // Updated to show shortcut
    AppendMenu(hFileMenu, MF_STRING, 2, L"E&xit");
    SetMenu(hwnd, hMenuBar);
}

// First, add this helper function to determine if the PE file is 64-bit
bool Is64BitPE(PIMAGE_NT_HEADERS pNtHeaders) {
    return pNtHeaders->OptionalHeader.Magic == IMAGE_NT_OPTIONAL_HDR64_MAGIC;
} //removing this duplicate

// Helper function to safely get file size
/*DWORD GetFileSizeCustom(const wchar_t* filePath) {
    HANDLE hFile = CreateFileW(filePath, GENERIC_READ, FILE_SHARE_READ,
        nullptr, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, nullptr);

    if (hFile == INVALID_HANDLE_VALUE) {
        return 0;
    }

    DWORD fileSize = ::GetFileSize(hFile, nullptr);
    CloseHandle(hFile);
    return fileSize;
}*/ //removing this duplicate instead

// Add this helper function
void SafeOutput(const std::wstring& text) {
    try {
        g_OutputText << text;
        UpdateEditControl();
    }
    catch (...) {
        SetStatusText(L"Error writing output");
    }
}

void UpdateStatusBar(const wchar_t* text, int progress = -1) {
    if (text) {
        SetStatusText(text);
    }
    if (progress >= 0) {
        ShowProgress(progress);
    }
}

void ClearProgress() {
    ShowWindow(g_hProgressBar, SW_HIDE);
    SetStatusText(L"Ready");
}


void SetStatusText(const wchar_t* text) {
    SendMessage(g_hStatusBar, SB_SETTEXT, 0, (LPARAM)text);
}

void ShowProgress(int percentage) {
    if (percentage < 0 || percentage > 100) {
        OUTPUT("[-] Invalid progress percentage: %d\n", percentage);
        return;
    }

    SendMessage(g_hProgressBar, PBM_SETPOS, (WPARAM)percentage, 0);
    wchar_t status[256];
    swprintf_s(status, L"Analyzing... %d%%", percentage);
    SetStatusText(status);
    SendMessage(g_hStatusBar, SB_SETTEXT, 0, (LPARAM)status);
}

void OpenFileDialog(HWND hwnd) {
    WCHAR fileName[MAX_PATH] = L"";
    OPENFILENAMEW ofn = { sizeof(OPENFILENAMEW), hwnd, NULL, L"Executable Files (*.exe;*.dll)\0*.exe;*.dll\0All Files (*.*)\0*.*\0", NULL, 0, 1, fileName, MAX_PATH, NULL, 0, NULL, NULL, OFN_EXPLORER | OFN_FILEMUSTEXIST | OFN_HIDEREADONLY, 0, 0, L"exe", NULL, NULL, NULL };
    if (GetOpenFileNameW(&ofn)) {
        SetWindowTextW(g_hEditControl, L"");
        g_OutputText.str(L"");
        g_OutputText.clear();
        AnalyzePEFile(ofn.lpstrFile);
        UpdateEditControl();
    }
}


// Modified AppendToOutput to handle newlines properly:
void AppendToOutput(const wchar_t* format, ...) {
    std::vector<wchar_t> buffer(1024);
    va_list args;
    va_start(args, format);

    while (true) {
        int result = _vsnwprintf(buffer.data(), buffer.size(), format, args);
        if (result >= 0) break;
        buffer.resize(buffer.size() * 2);
    }
    va_end(args);

    // Convert \n to \r\n
    std::wstring output = buffer.data();
    size_t pos = 0;
    while ((pos = output.find(L'\n', pos)) != std::wstring::npos) {
        if (pos == 0 || output[pos - 1] != L'\r') {
            output.insert(pos, L"\r");
            pos += 2;
        }
        else {
            pos++;
        }
    }

    g_OutputText << output;
    UpdateEditControl();
}


//use vectors for unlimited size growth of buffer, use an alternative to editbox, check for fast loops overloading, in its primitive form it works properly! try w/o getimports3264 datadirectories getsections

//adding here
// Line Break
// new code below starting here vv


DWORD GetFileSize(const wchar_t* filePath) {
    HANDLE hFile = CreateFileW(filePath, GENERIC_READ, FILE_SHARE_READ,
        nullptr, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, nullptr);
    if (hFile == INVALID_HANDLE_VALUE) return 0;

    DWORD fileSize = ::GetFileSize(hFile, nullptr);
    CloseHandle(hFile);
    return fileSize;
}
//}
// Page Break

//}

//UpdateEditControl();
//}

// new code upto here ending here ^^
// Line Break
//  //end adding here


//filePathW
//lpFilePath
HANDLE GetFileContent(const wchar_t* lpFilePath) {
    HANDLE hFile = CreateFileW(lpFilePath, GENERIC_READ, 0, nullptr, OPEN_EXISTING, 0, nullptr);
    if (hFile == INVALID_HANDLE_VALUE) return nullptr;
    DWORD fileSize = ::GetFileSize(hFile, nullptr);
    auto lpFileContent = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, fileSize);
    DWORD bytesRead;
    ReadFile(hFile, lpFileContent, fileSize, &bytesRead, nullptr);
    CloseHandle(hFile);
    return lpFileContent;
}

void UpdateEditControl() {
    SetWindowTextW(g_hEditControl, g_OutputText.str().c_str());
    SendMessage(g_hEditControl, EM_SETSEL, -1, -1);
    SendMessage(g_hEditControl, EM_SCROLLCARET, 0, 0);
}
//}

int WINAPI WinMain(HINSTANCE hInstance, HINSTANCE hPrevInstance, LPSTR lpCmdLine, int nCmdShow) {
    INITCOMMONCONTROLSEX icc = { sizeof(INITCOMMONCONTROLSEX), ICC_WIN95_CLASSES };
    InitCommonControlsEx(&icc);

    // Get command line parameters in Unicode
    int argc;
    LPWSTR* argv = CommandLineToArgvW(GetCommandLineW(), &argc);

    CreateMainWindow(hInstance);
    if (!g_hMainWindow) {
        LocalFree(argv);
        return -1;
    }

    ShowWindow(g_hMainWindow, nCmdShow);
    UpdateWindow(g_hMainWindow);

    // If there's a command line parameter, process it
    if (argc > 1) {
        // Process the first parameter as file path
        SetWindowTextW(g_hEditControl, L"");
        g_OutputText.str(L"");
        g_OutputText.clear();
        AnalyzePEFile(argv[1]);
        UpdateEditControl();
    }

    LocalFree(argv);

    MSG msg = {};
    while (GetMessage(&msg, NULL, 0, 0)) {
        TranslateMessage(&msg);
        DispatchMessage(&msg);
    }

    if (g_hFont) DeleteObject(g_hFont);
    return (int)msg.wParam;
}

void CreateMainWindow(HINSTANCE hInstance) {
    WNDCLASSEXW wc = { sizeof(WNDCLASSEXW), 0, WindowProc, 0, 0, hInstance,
        LoadIcon(hInstance, MAKEINTRESOURCE(IDI_ICON1)),
        LoadCursor(NULL, IDC_ARROW),
        (HBRUSH)(COLOR_WINDOW + 1),
        NULL, WINDOW_CLASS_NAME,
        LoadIcon(hInstance, MAKEINTRESOURCE(IDI_ICON1)) };
    RegisterClassExW(&wc);

    // Get screen dimensions
    int screenWidth = GetSystemMetrics(SM_CXSCREEN);
    int screenHeight = GetSystemMetrics(SM_CYSCREEN);

    // Calculate center position
    int windowX = (screenWidth - WINDOW_WIDTH) / 2;
    int windowY = (screenHeight - WINDOW_HEIGHT) / 2;

    // Remove WS_MAXIMIZEBOX and WS_THICKFRAME from the window style
    DWORD style = (WS_OVERLAPPEDWINDOW & ~WS_MAXIMIZEBOX) & ~WS_THICKFRAME;
    //WS_OVERLAPPEDWINDOW ~~> style
    g_hMainWindow = CreateWindowExW(0, WINDOW_CLASS_NAME, L"PE File Analyzer",
        style, windowX, windowY, WINDOW_WIDTH, WINDOW_HEIGHT,
        nullptr, nullptr, hInstance, nullptr);
}

void InitializeControls(HWND hwnd) {
    // Create status bar
    g_hStatusBar = CreateWindowEx(0, STATUSCLASSNAME, NULL,
        WS_CHILD | WS_VISIBLE,
        0, 0, 0, 0, hwnd, NULL,
        (HINSTANCE)GetWindowLongPtr(hwnd, GWLP_HINSTANCE), NULL);

    // Set up status bar parts
    RECT rcClient;
    GetClientRect(hwnd, &rcClient);
    int statusParts[2] = { 150, rcClient.right };
    SendMessage(g_hStatusBar, SB_SETPARTS, 2, (LPARAM)statusParts);

    // Create progress bar in the second part of status bar
    RECT rcPart;
    SendMessage(g_hStatusBar, SB_GETRECT, 1, (LPARAM)&rcPart);

    g_hProgressBar = CreateWindowEx(0, PROGRESS_CLASS, NULL,
        WS_CHILD | WS_VISIBLE | PBS_SMOOTH,
        rcPart.left + 5, rcPart.top + 2,
        rcPart.right - rcPart.left - 10, rcPart.bottom - rcPart.top - 4,
        g_hStatusBar, NULL,
        (HINSTANCE)GetWindowLongPtr(hwnd, GWLP_HINSTANCE), NULL);

    // Set blue color and range
    SendMessage(g_hProgressBar, PBM_SETBARCOLOR, 0, (LPARAM)RGB(0, 120, 215));  // Windows 10 blue
    SendMessage(g_hProgressBar, PBM_SETRANGE, 0, MAKELPARAM(0, 100));
    SendMessage(g_hProgressBar, PBM_SETSTEP, 1, 0);

    // Get status bar height for edit control positioning
    RECT rcStatus;
    GetWindowRect(g_hStatusBar, &rcStatus);
    int statusHeight = rcStatus.bottom - rcStatus.top;

    // Create edit control
    g_hEditControl = CreateWindowExW(WS_EX_CLIENTEDGE, L"EDIT", L"",
        WS_CHILD | WS_VISIBLE | WS_VSCROLL | WS_HSCROLL |
        ES_MULTILINE | ES_AUTOVSCROLL | ES_AUTOHSCROLL,
        EDIT_MARGIN, EDIT_MARGIN,
        rcClient.right - (2 * EDIT_MARGIN),
        rcClient.bottom - statusHeight - (2 * EDIT_MARGIN),
        hwnd, nullptr,
        (HINSTANCE)GetWindowLongPtr(hwnd, GWLP_HINSTANCE), nullptr);

    // Create and set font
    g_hFont = CreateFont(-14, 0, 0, 0, FW_NORMAL, FALSE, FALSE, 0,
        ANSI_CHARSET, OUT_DEFAULT_PRECIS, CLIP_DEFAULT_PRECIS,
        DEFAULT_QUALITY, DEFAULT_PITCH | FF_MODERN, L"Consolas");

    if (g_hFont)
        SendMessage(g_hEditControl, WM_SETFONT, (WPARAM)g_hFont, TRUE);

    SetWindowSubclass(g_hEditControl, EditSubclassProc, 0, 0);
}

LRESULT CALLBACK EditSubclassProc(HWND hwnd, UINT uMsg, WPARAM wParam, LPARAM lParam, UINT_PTR uIdSubclass, DWORD_PTR dwRefData) {
    if (uMsg == WM_KEYDOWN) {
        if ((GetKeyState(VK_CONTROL) & 0x8000) && wParam == 'O') {
            SendMessage(GetParent(hwnd), WM_COMMAND, 1, 0);
            return 0;
        }
        switch (wParam) {
        case VK_F1:
            SendMessage(GetParent(hwnd), WM_KEYDOWN, VK_F1, 0);
            return 0;
        case VK_ESCAPE:
            SendMessage(GetParent(hwnd), WM_KEYDOWN, VK_ESCAPE, 0);
            return 0;
        case VK_PRIOR:
            // Scroll up
            SendMessage(hwnd, WM_VSCROLL, MAKELONG(SB_PAGEUP, 0), 0);
            return 0;
        case VK_NEXT:
            // Scroll down
            SendMessage(hwnd, WM_VSCROLL, MAKELONG(SB_PAGEDOWN, 0), 0);
            return 0;
        case VK_UP:
            // Scroll one line up
            SendMessage(hwnd, WM_VSCROLL, MAKELONG(SB_LINEUP, 0), 0);
            return 0;
        case VK_DOWN:
            // Scroll one line down
            SendMessage(hwnd, WM_VSCROLL, MAKELONG(SB_LINEDOWN, 0), 0);
            return 0;
        }
    }
    if (uMsg == WM_MOUSEWHEEL) {
        int delta = GET_WHEEL_DELTA_WPARAM(wParam);
        if (delta > 0) {
            // Scroll up
            SendMessage(hwnd, WM_VSCROLL, MAKELONG(SB_PAGEUP, 0), 0);
        }
        else {
            // Scroll down
            SendMessage(hwnd, WM_VSCROLL, MAKELONG(SB_PAGEDOWN, 0), 0);
        }
        return 0;
    }
    return DefSubclassProc(hwnd, uMsg, wParam, lParam);
}

LRESULT CALLBACK WindowProc(HWND hwnd, UINT uMsg, WPARAM wParam, LPARAM lParam) {
    switch (uMsg) {
    case WM_CREATE: InitializeControls(hwnd); AddMenus(hwnd); return 0;
    case WM_SIZE:
    {
        RECT rcClient;
        GetClientRect(hwnd, &rcClient);

        // Resize status bar
        SendMessage(g_hStatusBar, WM_SIZE, 0, 0);

        // Recalculate status bar parts
        int statusParts[2] = { 150, rcClient.right };
        SendMessage(g_hStatusBar, SB_SETPARTS, 2, (LPARAM)statusParts);

        // Reposition progress bar
        RECT rcPart;
        SendMessage(g_hStatusBar, SB_GETRECT, 1, (LPARAM)&rcPart);
        SetWindowPos(g_hProgressBar, NULL,
            rcPart.left + 5, rcPart.top + 2,
            rcPart.right - rcPart.left - 10, rcPart.bottom - rcPart.top - 4,
            SWP_NOZORDER);

        // Get status bar height
        RECT rcStatus;
        GetWindowRect(g_hStatusBar, &rcStatus);
        int statusHeight = rcStatus.bottom - rcStatus.top;

        // Resize edit control
        SetWindowPos(g_hEditControl, NULL,
            EDIT_MARGIN,
            EDIT_MARGIN,
            rcClient.right - (2 * EDIT_MARGIN),
            rcClient.bottom - statusHeight - (2 * EDIT_MARGIN),
            SWP_NOZORDER);
        return 0;
    }

    case WM_KEYDOWN:
    {
        if (GetKeyState(VK_CONTROL) & 0x8000) {
            switch (wParam) {
            case 'O':
                OpenFileDialog(hwnd);
                return 0;
            }
        }
        switch (wParam) {
        case VK_F1:
            MessageBoxW(hwnd,
                L"PE Header Parser 4.3 GUI-based Programmed in C++ Win32 API (1546 lines of code) by Entisoft Software(c) Evans Thorpemorton",
                L"About",
                MB_OK | MB_ICONINFORMATION);
            return 0;
        case VK_ESCAPE:
            PostQuitMessage(0);
            return 0;
        case VK_PRIOR:
            // Scroll up
            SendMessage(g_hEditControl, WM_VSCROLL, MAKELONG(SB_PAGEUP, 0), 0);
            return 0;
        case VK_NEXT:
            // Scroll down
            SendMessage(g_hEditControl, WM_VSCROLL, MAKELONG(SB_PAGEDOWN, 0), 0);
            return 0;
        case VK_UP:
            // Scroll one line up
            SendMessage(g_hEditControl, WM_VSCROLL, MAKELONG(SB_LINEUP, 0), 0);
            return 0;
        case VK_DOWN:
            // Scroll one line down
            SendMessage(g_hEditControl, WM_VSCROLL, MAKELONG(SB_LINEDOWN, 0), 0);
            return 0;
        }
        break;
    }
    case WM_MOUSEWHEEL:
    {
        int delta = GET_WHEEL_DELTA_WPARAM(wParam);
        if (delta > 0) {
            // Scroll up
            SendMessage(g_hEditControl, WM_VSCROLL, MAKELONG(SB_PAGEUP, 0), 0);
        }
        else {
            // Scroll down
            SendMessage(g_hEditControl, WM_VSCROLL, MAKELONG(SB_PAGEDOWN, 0), 0);
        }
        return 0;
    }
    case WM_COMMAND: if (LOWORD(wParam) == 1) OpenFileDialog(hwnd); if (LOWORD(wParam) == 2) PostQuitMessage(0); return 0;
    case WM_DESTROY:
        if (g_hStatusBar) DestroyWindow(g_hStatusBar);
        PostQuitMessage(0);
        return 0;
    }
    return DefWindowProc(hwnd, uMsg, wParam, lParam);
}

==++Here's the code for (file 2/2) of "PEHeaders.h"::++==
```cpp
#pragma once
#ifndef PE_ANALYZER_STRUCT_H
#define PE_ANALYZER_STRUCT_H
#include <Windows.h>
#include <winternl.h>

// Core PE analysis structure
struct PEAnalyzer {
    LPVOID lpFileContent;
    DWORD fileSize;
    bool is64Bit;
    PIMAGE_NT_HEADERS32 pNtHeaders32;
    PIMAGE_NT_HEADERS64 pNtHeaders64;
    PIMAGE_DOS_HEADER pDosHeader;

    PEAnalyzer() : lpFileContent(nullptr), fileSize(0), is64Bit(false),
        pNtHeaders32(nullptr), pNtHeaders64(nullptr), pDosHeader(nullptr) {}

    // Remove destructor as FileMapper will handle cleanup
};
//struct PEAnalyzer;  // Add this before the namespace
// Declare functions that use PEAnalyzer
    template<typename T>
    bool IsSafeToRead(const PEAnalyzer& analyzer, const T* ptr, size_t size);
#endif // PE_ANALYZER_STRUCT_H
namespace PEHelpers {
//ifndef OUTPUT was here

    // Inline function to prevent multiple definition
    inline bool Is64BitPE(PIMAGE_NT_HEADERS pNtHeaders) {
        return pNtHeaders->OptionalHeader.Magic == IMAGE_NT_OPTIONAL_HDR64_MAGIC;
    }
    //bool ValidateFileSize(const PEAnalyzer& analyzer, DWORD expectedSize, DWORD fileSize);
    bool ValidateFileSize(DWORD expectedSize, DWORD fileSize);
    // Add the template function declaration here
    //template<typename T>
    //bool IsSafeToRead(const PEAnalyzer& analyzer, const T* ptr, size_t size);
    bool IsRvaValid(DWORD rva, DWORD fileSize, PIMAGE_NT_HEADERS pNtHeaders);
    DWORD_PTR GetImageBase(PIMAGE_NT_HEADERS pNtHeaders);
    DWORD GetSizeOfImage(PIMAGE_NT_HEADERS pNtHeaders);
    DWORD_PTR GetRvaPtr(DWORD rva, PIMAGE_SECTION_HEADER pSectionHeader,
        WORD numberOfSections, LPVOID baseAddress);
    DWORD RvaToOffset(DWORD rva, PIMAGE_SECTION_HEADER pSectionHeader,
        WORD numberOfSections);
    std::wstring GetImageCharacteristics(DWORD characteristics);
    std::wstring GetSubsystem(WORD subsystem);
    std::wstring GetDataDirectoryName(int DirectoryNumber);
    std::wstring GetSectionProtection(DWORD characteristics);

    //    using namespace std;
    //    using namespace PEAnalyzer;
        // Core PE validation functions
    // Ensure this function is defined exactly once
    /*inline bool Is64BitPE(PIMAGE_NT_HEADERS pNtHeaders) {
        return pNtHeaders->OptionalHeader.Magic == IMAGE_NT_OPTIONAL_HDR64_MAGIC;
    }*/

/*bool Is64BitPE(PIMAGE_NT_HEADERS pNtHeaders) {
    return pNtHeaders->OptionalHeader.Magic == IMAGE_NT_OPTIONAL_HDR64_MAGIC;
}*/

bool ValidateFileSize(DWORD expectedSize, DWORD fileSize) {
    return expectedSize > 0 && expectedSize <= fileSize;
}

template<typename T>
bool IsSafeToRead(const PEAnalyzer& analyzer, const T* ptr, size_t size = sizeof(T)) {
    // Check if pointer is null
    if (!ptr) {
        OUTPUT("[-] Null pointer detected\n");
        return false;
    }

    // Calculate pointer ranges
    DWORD_PTR startAddress = reinterpret_cast<DWORD_PTR>(analyzer.lpFileContent);
    DWORD_PTR endAddress = startAddress + analyzer.fileSize;
    DWORD_PTR ptrAddress = reinterpret_cast<DWORD_PTR>(ptr);
    DWORD_PTR ptrEndAddress = ptrAddress + size;

    // Comprehensive pointer validation
    bool isValidPointer = (
        ptr != nullptr &&                  // Not null
        ptrAddress >= startAddress &&       // Above file start
        ptrEndAddress <= endAddress &&      // Below file end
        ptrAddress < ptrEndAddress          // Prevent integer overflow
        );

    if (!isValidPointer) {
        OUTPUT("[-] Pointer validation failed\n");
        OUTPUT("    Pointer: 0x%p\n", ptr);
        OUTPUT("    File Start: 0x%p\n", reinterpret_cast<void*>(startAddress));
        OUTPUT("    File End: 0x%p\n", reinterpret_cast<void*>(endAddress));
        OUTPUT("    Pointer Start: 0x%p\n", reinterpret_cast<void*>(ptrAddress));
        OUTPUT("    Pointer End: 0x%p\n", reinterpret_cast<void*>(ptrEndAddress));
        return false;
    }

    return true;
}

bool IsRvaValid(DWORD rva, DWORD fileSize, PIMAGE_NT_HEADERS pNtHeaders) {
    if (!pNtHeaders) {
        OUTPUT("[-] Invalid NT Headers for RVA validation\n");
        return false;
    }

    DWORD sizeOfImage = PEHelpers::Is64BitPE(pNtHeaders) ?
        reinterpret_cast<PIMAGE_NT_HEADERS64>(pNtHeaders)->OptionalHeader.SizeOfImage :
        reinterpret_cast<PIMAGE_NT_HEADERS32>(pNtHeaders)->OptionalHeader.SizeOfImage;

    bool isValid = (
        rva > 0 &&                  // RVA is non-zero
        rva < sizeOfImage&&         // RVA is within image size
        rva < fileSize               // RVA is within file size
        );

    if (!isValid) {
        OUTPUT("[-] Invalid RVA: 0x%X\n", rva);
        OUTPUT("    Size of Image: 0x%X\n", sizeOfImage);
        OUTPUT("    File Size: 0x%X\n", fileSize);
    }

    return isValid;
}

/*bool IsRvaValid(DWORD rva, DWORD fileSize, PIMAGE_NT_HEADERS pNtHeaders) {
    return rva < pNtHeaders->OptionalHeader.SizeOfImage&& rva < fileSize;
}*/

DWORD_PTR GetImageBase(PIMAGE_NT_HEADERS pNtHeaders) {
    if (PEHelpers::Is64BitPE(pNtHeaders)) {  // Add PEHelpers:: namespace qualifier
        auto pNtHeaders64 = reinterpret_cast<PIMAGE_NT_HEADERS64>(pNtHeaders);
        return static_cast<DWORD_PTR>(pNtHeaders64->OptionalHeader.ImageBase);
    }
    auto pNtHeaders32 = reinterpret_cast<PIMAGE_NT_HEADERS32>(pNtHeaders);
    return static_cast<DWORD_PTR>(pNtHeaders32->OptionalHeader.ImageBase);
}

DWORD GetSizeOfImage(PIMAGE_NT_HEADERS pNtHeaders) {
    if (PEHelpers::Is64BitPE(pNtHeaders)) {  // Add PEHelpers:: namespace qualifier
        auto pNtHeaders64 = reinterpret_cast<PIMAGE_NT_HEADERS64>(pNtHeaders);
        return pNtHeaders64->OptionalHeader.SizeOfImage;
    }
    auto pNtHeaders32 = reinterpret_cast<PIMAGE_NT_HEADERS32>(pNtHeaders);
    return pNtHeaders32->OptionalHeader.SizeOfImage;
}

/* // RVA and address conversion helpers
DWORD_PTR GetImageBase(PIMAGE_NT_HEADERS pNtHeaders) {
    if (Is64BitPE(pNtHeaders)) {
        auto pNtHeaders64 = reinterpret_cast<PIMAGE_NT_HEADERS64>(pNtHeaders);
        return static_cast<DWORD_PTR>(pNtHeaders64->OptionalHeader.ImageBase);
    }
    auto pNtHeaders32 = reinterpret_cast<PIMAGE_NT_HEADERS32>(pNtHeaders);
    return static_cast<DWORD_PTR>(pNtHeaders32->OptionalHeader.ImageBase);
}

DWORD GetSizeOfImage(PIMAGE_NT_HEADERS pNtHeaders) {
    if (Is64BitPE(pNtHeaders)) {
        auto pNtHeaders64 = reinterpret_cast<PIMAGE_NT_HEADERS64>(pNtHeaders);
        return pNtHeaders64->OptionalHeader.SizeOfImage;
    }
    auto pNtHeaders32 = reinterpret_cast<PIMAGE_NT_HEADERS32>(pNtHeaders);
    return pNtHeaders32->OptionalHeader.SizeOfImage;
}*/

DWORD_PTR GetRvaPtr(
    DWORD rva,
    PIMAGE_SECTION_HEADER pSectionHeader,
    WORD numberOfSections,
    LPVOID baseAddress,
    DWORD fileSize  // Add file size as a parameter
) {
    if (!rva || !pSectionHeader || !baseAddress) {
        OUTPUT("[-] Invalid parameters in GetRvaPtr\n");
        return 0;
    }

    for (WORD i = 0; i < numberOfSections; i++) {
        // Check if RVA falls within this section
        if (rva >= pSectionHeader[i].VirtualAddress &&
            rva < (pSectionHeader[i].VirtualAddress + pSectionHeader[i].SizeOfRawData)) {

            // Calculate pointer
            DWORD_PTR delta = reinterpret_cast<DWORD_PTR>(baseAddress) +
                pSectionHeader[i].PointerToRawData;

            DWORD_PTR result = delta + (rva - pSectionHeader[i].VirtualAddress);

            // Additional validation
            if (result < reinterpret_cast<DWORD_PTR>(baseAddress) ||
                result >= (reinterpret_cast<DWORD_PTR>(baseAddress) + fileSize)) {
                OUTPUT("[-] RVA pointer out of bounds\n");
                return 0;
            }

            return result;
        }
    }

    OUTPUT("[-] RVA not found in any section: 0x%X\n", rva);
    return 0;
}
//}
//}

/* DWORD_PTR GetRvaPtr(DWORD rva, PIMAGE_SECTION_HEADER pSectionHeader,
    WORD numberOfSections, LPVOID baseAddress) {
    if (!rva || !pSectionHeader || !baseAddress) return 0;

    for (WORD i = 0; i < numberOfSections; i++) {
        if (rva >= pSectionHeader[i].VirtualAddress &&
            rva < (pSectionHeader[i].VirtualAddress + pSectionHeader[i].SizeOfRawData)) {
            DWORD_PTR delta = (DWORD_PTR)baseAddress + pSectionHeader[i].PointerToRawData;
            return delta + (rva - pSectionHeader[i].VirtualAddress);
        }
    }
    OUTPUT("[-] Failed to map RVA: 0x%X\n", rva);
    return 0;
} */

DWORD RvaToOffset(DWORD rva, PIMAGE_SECTION_HEADER pSectionHeader, WORD numberOfSections) {
    if (!rva || !pSectionHeader) return 0;

    for (WORD i = 0; i < numberOfSections; i++) {
        if (rva >= pSectionHeader[i].VirtualAddress &&
            rva < (pSectionHeader[i].VirtualAddress + pSectionHeader[i].SizeOfRawData)) {
            return (rva - pSectionHeader[i].VirtualAddress) + pSectionHeader[i].PointerToRawData;
        }
    }
    OUTPUT("[-] Failed to map RVA: 0x%X\n", rva);
    return 0;
}

// PE information helper functions
std::wstring GetImageCharacteristics(DWORD characteristics) {
    if (characteristics & IMAGE_FILE_DLL) return L"(DLL)";
    if (characteristics & IMAGE_FILE_SYSTEM) return L"(DRIVER)";
    if (characteristics & IMAGE_FILE_EXECUTABLE_IMAGE) return L"(EXE)";
    return L"(UNKNOWN)";
}

std::wstring GetSubsystem(WORD subsystem) {
    switch (subsystem) {
    case IMAGE_SUBSYSTEM_NATIVE: return L"(NATIVE/DRIVER)";
    case IMAGE_SUBSYSTEM_WINDOWS_GUI: return L"(GUI)";
    case IMAGE_SUBSYSTEM_WINDOWS_CUI: return L"(CONSOLE)";
    default: return L"(UNKNOWN)";
    }
}

std::wstring GetDataDirectoryName(int DirectoryNumber) {
    static const wchar_t* names[] = {
        L"Export Table", L"Import Table", L"Resource Table",
        L"Exception Entry", L"Security Entry", L"Relocation Table",
        L"Debug Entry", L"Copyright Entry", L"Global PTR Entry",
        L"TLS Entry", L"Configuration Entry", L"Bound Import Entry",
        L"IAT", L"Delay Import Descriptor", L"COM Descriptor"
    };
    return (DirectoryNumber < 15) ? names[DirectoryNumber] : L"Unknown";
}

std::wstring GetSectionProtection(DWORD characteristics) {
    std::wstring protection = L"(";
    bool needsSeparator = false;

    if (characteristics & IMAGE_SCN_MEM_EXECUTE) {
        protection += L"EXECUTE";
        needsSeparator = true;
    }
    if (characteristics & IMAGE_SCN_MEM_READ) {
        if (needsSeparator) protection += L" | ";
        protection += L"READ";
        needsSeparator = true;
    }
    if (characteristics & IMAGE_SCN_MEM_WRITE) {
        if (needsSeparator) protection += L" | ";
        protection += L"WRITE";
    }
    protection += L")";
    return protection;
}
}
```