bool FileBrowser::addInTree(generic_string rootPath, generic_string addItemFullPath, HTREEITEM node, vector<generic_string> linarPathArray)
{
	if (node == nullptr) // it's a root. Search the right root with rootPath
	{
		// Search
		if ((node = getRootFromFullPath(rootPath)) == nullptr)
			return false;
	}

	if (linarPathArray.size() == 1)
	{
		// Of course item to add should be exist on the disk
		if (not::PathFileExists(addItemFullPath.c_str()))
			return false;

		// Search : if no found, add
		HTREEITEM childNodeFound = findChildNodeFromName(node, linarPathArray[0]);
		if (childNodeFound != nullptr)
			return false;

		// No found, good - Action
		if (::PathIsDirectory(addItemFullPath.c_str()))
		{
			_treeView.addItem(linarPathArray[0].c_str(), node, INDEX_CLOSED_NODE);
		}
		else
		{
			_treeView.addItem(linarPathArray[0].c_str(), node, INDEX_LEAF);
		}
		return true;
	}
	else
	{
		HTREEITEM childNodeFound = nullptr;
		for (HTREEITEM hItemNode = _treeView.getChildFrom(node);
			hItemNode != NULL && childNodeFound == nullptr;
			hItemNode = _treeView.getNextSibling(hItemNode))
		{
			TCHAR textBuffer[MAX_PATH];
			TVITEM tvItem;
			tvItem.mask = TVIF_TEXT;
			tvItem.pszText = textBuffer;
			tvItem.cchTextMax = MAX_PATH;
			tvItem.hItem = hItemNode;
			SendMessage(_treeView.getHSelf(), TVM_GETITEM, 0, (LPARAM)&tvItem);

			if (linarPathArray[0] == tvItem.pszText)
			{
				// search recursively the node for an action
				linarPathArray.erase(linarPathArray.begin());
				return addInTree(rootPath, addItemFullPath, hItemNode, linarPathArray);
			}
		}
		return false;
	}
}
void FileBrowser::addRootFolder(generic_string rootFolderPath)
{
	// make sure there's no '\' at the end
	if (rootFolderPath[rootFolderPath.length() - 1] == '\\')
	{
		rootFolderPath = rootFolderPath.substr(0, rootFolderPath.length() - 1);
	}

	size_t nbFolderUpdaters = _folderUpdaters.size();
	for (size_t i = 0; i < nbFolderUpdaters; ++i)
	{
		if (_folderUpdaters[i]->_rootFolder._rootPath == rootFolderPath)
			return;
		else
		{
			size_t pos = rootFolderPath.find(_folderUpdaters[i]->_rootFolder._rootPath);
			if (pos == 0)
			{
				//do nothing, go down to select the dir
				generic_string rootPath = _folderUpdaters[i]->_rootFolder._rootPath;
				generic_string pathSuffix = rootFolderPath.substr(rootPath.size() + 1, rootFolderPath.size() - rootPath.size());
				vector<generic_string> linarPathArray = split(pathSuffix, '\\');
				
				HTREEITEM foundItem = findInTree(rootPath, nullptr, linarPathArray);
				if (foundItem)
					_treeView.selectItem(foundItem);
				return;
			}
			
			pos = _folderUpdaters[i]->_rootFolder._rootPath.find(rootFolderPath);
			if (pos == 0)
			{
				::MessageBox(_hParent, TEXT("A sub-folder of the folder you want to open exists.\rPlease remove it from the panel before you add this one."), rootFolderPath.c_str(), MB_OK);
				return;
			}
		}
	}

	std::vector<generic_string> patterns2Match;
 	patterns2Match.push_back(TEXT("*.*"));

	TCHAR *label = ::PathFindFileName(rootFolderPath.c_str());
	TCHAR rootLabel[MAX_PATH];
	lstrcpy(rootLabel, label);
	size_t len = lstrlen(rootLabel);
	if (rootLabel[len - 1] == '\\')
		rootLabel[len - 1] = '\0';

	FolderInfo directoryStructure(rootLabel, nullptr);
	getDirectoryStructure(rootFolderPath.c_str(), patterns2Match, directoryStructure, true, false);
	HTREEITEM hRootItem = createFolderItemsFromDirStruct(nullptr, directoryStructure);
	_treeView.expand(hRootItem);
	_folderUpdaters.push_back(new FolderUpdater(directoryStructure, this));
	_folderUpdaters[_folderUpdaters.size() - 1]->startWatcher();
}
// Build Recent File menu entries from given
generic_string BuildMenuFileName(int filenameLen, unsigned int pos, const generic_string &filename)
{
	generic_string strTemp;

	if (pos < 9)
	{
		strTemp.push_back('&');
		strTemp.push_back('1' + (TCHAR)pos);
	}
	else if (pos == 9)
	{
		strTemp.append(TEXT("1&0"));
	}
	else
	{
		strTemp.append(uintToString(pos + 1));
	}
	strTemp.append(TEXT(": "));

	if (filenameLen > 0)
	{
		std::vector<TCHAR> vt(filenameLen + 1);
		//--FLS: W removed from PathCompactPathExW due to compiler errors for ANSI version.
		PathCompactPathEx(&vt[0], filename.c_str(), filenameLen + 1, 0);
		strTemp.append(convertFileName(vt.begin(), vt.begin() + lstrlen(&vt[0])));
	}
	else
	{
		// (filenameLen < 0)
		generic_string::const_iterator it = filename.begin();

		if (filenameLen == 0)
			it += PathFindFileName(filename.c_str()) - filename.c_str();

		// MAX_PATH is still here to keep old trimming behaviour.
		if (filename.end() - it < MAX_PATH)
		{
			strTemp.append(convertFileName(it, filename.end()));
		}
		else
		{
			strTemp.append(convertFileName(it, it + MAX_PATH / 2 - 3));
			strTemp.append(TEXT("..."));
			strTemp.append(convertFileName(filename.end() - MAX_PATH / 2, filename.end()));
		}
	}

	return strTemp;
}
void FileBrowser::addRootFolder(generic_string rootFolderPath)
{
	// make sure there's no '\' at the end
	if (rootFolderPath[rootFolderPath.length() - 1] == '\\')
	{
		rootFolderPath = rootFolderPath.substr(0, rootFolderPath.length() - 1);
	}

	size_t nbFolderUpdaters = _folderUpdaters.size();
	for (size_t i = 0; i < nbFolderUpdaters; ++i)
	{
		if (_folderUpdaters[i]->_rootFolder._rootPath == rootFolderPath)
			return;
		else
		{
			size_t pos = rootFolderPath.find(_folderUpdaters[i]->_rootFolder._rootPath);
			if (pos == 0)
			{
				printStr(TEXT("do nothing, go down to select the dir."));
				
				return;
			}
			
			pos = _folderUpdaters[i]->_rootFolder._rootPath.find(rootFolderPath);
			if (pos == 0)
			{
				printStr(TEXT("remove old, add this one"));
				return;
			}
		}
	}

	std::vector<generic_string> patterns2Match;
 	patterns2Match.push_back(TEXT("*.*"));

	TCHAR *label = ::PathFindFileName(rootFolderPath.c_str());
	TCHAR rootLabel[MAX_PATH];
	lstrcpy(rootLabel, label);
	size_t len = lstrlen(rootLabel);
	if (rootLabel[len - 1] == '\\')
		rootLabel[len - 1] = '\0';

	FolderInfo directoryStructure(rootLabel, nullptr);
	getDirectoryStructure(rootFolderPath.c_str(), patterns2Match, directoryStructure, true, false);
	HTREEITEM hRootItem = createFolderItemsFromDirStruct(nullptr, directoryStructure);
	_treeView.expand(hRootItem);
	_folderUpdaters.push_back(new FolderUpdater(directoryStructure, this));
	_folderUpdaters[_folderUpdaters.size() - 1]->startWatcher();
}
generic_string folderBrowser(HWND parent, const generic_string & title, int outputCtrlID, const TCHAR *defaultStr)
{
	generic_string dirStr;

	// This code was copied and slightly modifed from:
	// http://www.bcbdev.com/faqs/faq62.htm

	// SHBrowseForFolder returns a PIDL. The memory for the PIDL is
	// allocated by the shell. Eventually, we will need to free this
	// memory, so we need to get a pointer to the shell malloc COM
	// object that will free the PIDL later on.
	LPMALLOC pShellMalloc = 0;
	if (::SHGetMalloc(&pShellMalloc) == NO_ERROR)
	{
		// If we were able to get the shell malloc object,
		// then proceed by initializing the BROWSEINFO stuct
		BROWSEINFO info;
		memset(&info, 0, sizeof(info));
		info.hwndOwner = parent;
		info.pidlRoot = NULL;
		TCHAR szDisplayName[MAX_PATH];
		info.pszDisplayName = szDisplayName;
		info.lpszTitle = title.c_str();
		info.ulFlags = 0;
		info.lpfn = BrowseCallbackProc;

		TCHAR directory[MAX_PATH];
		if (outputCtrlID != 0)
			::GetDlgItemText(parent, outputCtrlID, directory, _countof(directory));
		directory[_countof(directory) - 1] = '\0';

		if (!directory[0] && defaultStr)
			info.lParam = reinterpret_cast<LPARAM>(defaultStr);
		else
			info.lParam = reinterpret_cast<LPARAM>(directory);

		// Execute the browsing dialog.
		LPITEMIDLIST pidl = ::SHBrowseForFolder(&info);

		// pidl will be null if they cancel the browse dialog.
		// pidl will be not null when they select a folder.
		if (pidl)
		{
			// Try to convert the pidl to a display generic_string.
			// Return is true if success.
			TCHAR szDir[MAX_PATH];
			if (::SHGetPathFromIDList(pidl, szDir))
			{
				// Set edit control to the directory path.
				if (outputCtrlID != 0)
					::SetDlgItemText(parent, outputCtrlID, szDir);
				dirStr = szDir;
			}
			pShellMalloc->Free(pidl);
		}
		pShellMalloc->Release();
	}
	return dirStr;
}
bool FileBrowser::renameInTree(generic_string rootPath, HTREEITEM node, std::vector<generic_string> linarPathArrayFrom, const generic_string & renameTo)
	{
	HTREEITEM foundItem = findInTree(rootPath, node, linarPathArrayFrom);
	if (foundItem == nullptr)
			return false;

		// found it, rename it
	_treeView.renameItem(foundItem, renameTo.c_str());
		return true;
}
generic_string ProjectPanel::getRelativePath(const generic_string & filePath, const TCHAR *workSpaceFileName)
{
    TCHAR wsfn[MAX_PATH];
    lstrcpy(wsfn, workSpaceFileName);
    ::PathRemoveFileSpec(wsfn);

    size_t pos_found = filePath.find(wsfn);
    if (pos_found == generic_string::npos)
        return filePath;
    const TCHAR *relativeFile = filePath.c_str() + lstrlen(wsfn);
    if (relativeFile[0] == '\\')
        ++relativeFile;
    return relativeFile;
}
Beispiel #8
0
static generic_string exts2Filters(generic_string exts)
{
	const TCHAR *extStr = exts.c_str();
	TCHAR aExt[MAX_PATH];
	generic_string filters(TEXT(""));

	int j = 0;
	bool stop = false;
	for (size_t i = 0 ; i < exts.length() ; i++)
	{
		if (extStr[i] == ' ')
		{
			if (!stop)
			{
				aExt[j] = '\0';
				stop = true;

				if (aExt[0])
				{
					filters += TEXT("*.");
					filters += aExt;
					filters += TEXT(";");
				}
				j = 0;
			}
		}
		else
		{
			aExt[j] = extStr[i];
			stop = false;
			j++;
		}
	}

	if (j > 0)
	{
		aExt[j] = '\0';
		if (aExt[0])
		{
			filters += TEXT("*.");
			filters += aExt;
			filters += TEXT(";");
		}
	}

	// remove the last ';'
	filters = filters.substr(0, filters.length()-1);
	return filters;
}
bool FolderInfo::addToStructure(generic_string & fullpath, std::vector<generic_string> linarPathArray)
{
	if (linarPathArray.size() == 1) // could be file or folder
	{
		fullpath += TEXT("\\");
		fullpath += linarPathArray[0];
		if (PathIsDirectory(fullpath.c_str()))
		{
			// search in folders, if found - no good
			size_t nbFolder = _subFolders.size();
			for (size_t i = 0; i < nbFolder; ++i)
			{
				if (linarPathArray[0] == _subFolders[i].getName())
					return false; // Maybe already added?
			}
			_subFolders.push_back(FolderInfo(linarPathArray[0], this));
			return true;
		}
		else
		{
			// search in files, if found - no good
			size_t nbFile = _files.size();
			for (size_t i = 0; i < nbFile; ++i)
			{
				if (linarPathArray[0] == _files[i].getName())
					return false; // Maybe already added?
			}
			_files.push_back(FileInfo(linarPathArray[0], this));
			return true;
		}	
	}
	else // folder
	{
		size_t nbFolder = _subFolders.size();
		for (size_t i = 0; i < nbFolder; ++i)
		{
			if (_subFolders[i].getName() == linarPathArray[0])
			{
				fullpath += TEXT("\\");
				fullpath += linarPathArray[0];
				linarPathArray.erase(linarPathArray.begin());
				return _subFolders[i].addToStructure(fullpath, linarPathArray);
			}
		}
		return false;
	}
}
Beispiel #10
0
bool FunctionParsersManager::init(generic_string xmlPath, ScintillaEditView ** ppEditView)
{
	_ppEditView = ppEditView;
	bool loadOkay = false;

	if (PathFileExists(xmlPath.c_str()))
	{
        _pXmlFuncListDoc = new TiXmlDocument(xmlPath);
        loadOkay = _pXmlFuncListDoc->LoadFile();
        if (loadOkay)
        {
            loadOkay = getFuncListFromXmlTree();
        }
    }

	return loadOkay;
}
bool str2Clipboard(const generic_string &str2cpy, HWND hwnd)
{
	int len2Allocate = (str2cpy.size() + 1) * sizeof(TCHAR);
	HGLOBAL hglbCopy = ::GlobalAlloc(GMEM_MOVEABLE, len2Allocate);
	if (hglbCopy == NULL)
	{
		return false;
	}
	if (!::OpenClipboard(hwnd))
	{
		::GlobalFree(hglbCopy);
		::CloseClipboard();
		return false;
	}
	if (!::EmptyClipboard())
	{
		::GlobalFree(hglbCopy);
		::CloseClipboard();
		return false;
	}
	// Lock the handle and copy the text to the buffer.
	TCHAR *pStr = (TCHAR *)::GlobalLock(hglbCopy);
	if (pStr == NULL)
	{
		::GlobalUnlock(hglbCopy);
		::GlobalFree(hglbCopy);
		::CloseClipboard();
		return false;
	}
	_tcscpy_s(pStr, len2Allocate / sizeof(TCHAR), str2cpy.c_str());
	::GlobalUnlock(hglbCopy);
	// Place the handle on the clipboard.
	unsigned int clipBoardFormat = CF_UNICODETEXT;
	if (::SetClipboardData(clipBoardFormat, hglbCopy) == NULL)
	{
		::GlobalUnlock(hglbCopy);
		::GlobalFree(hglbCopy);
		::CloseClipboard();
		return false;
	}
	if (!::CloseClipboard())
	{
		return false;
	}
	return true;
}
double stodLocale(const generic_string& str, _locale_t loc, size_t* idx)
{
	// Copied from the std::stod implementation but uses _wcstod_l instead of wcstod.
	const wchar_t* ptr = str.c_str();
	errno = 0;
	wchar_t* eptr;
#ifdef __MINGW32__
	double ans = ::wcstod(ptr, &eptr);
#else
	double ans = ::_wcstod_l(ptr, &eptr, loc);
#endif
	if (ptr == eptr)
		throw new std::invalid_argument("invalid stod argument");
	if (errno == ERANGE)
		throw new std::out_of_range("stod argument out of range");
	if (idx != NULL)
		*idx = (size_t)(eptr - ptr);
	return ans;
}
int PluginsManager::loadPlugin(const generic_string& pluginFilePath, std::vector<generic_string> & dll2Remove)
{
	PluginInfo *pi = new PluginInfo;
	try {
		pi->_moduleName = PathFindFileName(pluginFilePath.c_str());

		pi->_hLib = ::LoadLibrary(pluginFilePath.c_str());
		if (!pi->_hLib)
			throw generic_string(TEXT("Load Library is failed.\nMake \"Runtime Library\" setting of this project as \"Multi-threaded(/MT)\" may cure this problem."));

		pi->_pFuncIsUnicode = (PFUNCISUNICODE)GetProcAddress(pi->_hLib, "isUnicode");
#ifdef UNICODE
		if (!pi->_pFuncIsUnicode || !pi->_pFuncIsUnicode())
			throw generic_string(TEXT("This ANSI plugin is not compatible with your Unicode Notepad++."));
#else
		if (pi->_pFuncIsUnicode)
			throw generic_string(TEXT("This Unicode plugin is not compatible with your ANSI mode Notepad++."));
#endif

		pi->_pFuncSetInfo = (PFUNCSETINFO)GetProcAddress(pi->_hLib, "setInfo");

		if (!pi->_pFuncSetInfo)
			throw generic_string(TEXT("Missing \"setInfo\" function"));

		pi->_pFuncGetName = (PFUNCGETNAME)GetProcAddress(pi->_hLib, "getName");
		if (!pi->_pFuncGetName)
			throw generic_string(TEXT("Missing \"getName\" function"));

		pi->_pBeNotified = (PBENOTIFIED)GetProcAddress(pi->_hLib, "beNotified");
		if (!pi->_pBeNotified)
			throw generic_string(TEXT("Missing \"beNotified\" function"));

		pi->_pMessageProc = (PMESSAGEPROC)GetProcAddress(pi->_hLib, "messageProc");
		if (!pi->_pMessageProc)
			throw generic_string(TEXT("Missing \"messageProc\" function"));

		pi->_pFuncSetInfo(_nppData);

		pi->_pFuncGetFuncsArray = (PFUNCGETFUNCSARRAY)GetProcAddress(pi->_hLib, "getFuncsArray");
		if (!pi->_pFuncGetFuncsArray)
			throw generic_string(TEXT("Missing \"getFuncsArray\" function"));

		pi->_funcItems = pi->_pFuncGetFuncsArray(&pi->_nbFuncItem);

		if ((!pi->_funcItems) || (pi->_nbFuncItem <= 0))
			throw generic_string(TEXT("Missing \"FuncItems\" array, or the nb of Function Item is not set correctly"));

		pi->_pluginMenu = ::CreateMenu();

		GetLexerCountFn GetLexerCount = (GetLexerCountFn)::GetProcAddress(pi->_hLib, "GetLexerCount");
		// it's a lexer plugin
		if (GetLexerCount)
		{
			GetLexerNameFn GetLexerName = (GetLexerNameFn)::GetProcAddress(pi->_hLib, "GetLexerName");
			if (!GetLexerName)
				throw generic_string(TEXT("Loading GetLexerName function failed."));

			GetLexerStatusTextFn GetLexerStatusText = (GetLexerStatusTextFn)::GetProcAddress(pi->_hLib, "GetLexerStatusText");

			if (!GetLexerStatusText)
				throw generic_string(TEXT("Loading GetLexerStatusText function failed."));

			// Assign a buffer for the lexer name.
			char lexName[MAX_EXTERNAL_LEXER_NAME_LEN];
			lexName[0] = '\0';
			TCHAR lexDesc[MAX_EXTERNAL_LEXER_DESC_LEN];
			lexDesc[0] = '\0';

			int numLexers = GetLexerCount();

			NppParameters * nppParams = NppParameters::getInstance();

			ExternalLangContainer *containers[30];
#ifdef UNICODE
			WcharMbcsConvertor *wmc = WcharMbcsConvertor::getInstance();
#endif
			for (int x = 0; x < numLexers; x++)
			{
				GetLexerName(x, lexName, MAX_EXTERNAL_LEXER_NAME_LEN);
				GetLexerStatusText(x, lexDesc, MAX_EXTERNAL_LEXER_DESC_LEN);
#ifdef UNICODE
				const TCHAR *pLexerName = wmc->char2wchar(lexName, CP_ACP);
#else
				const TCHAR *pLexerName = lexName;
#endif
				if (!nppParams->isExistingExternalLangName(pLexerName) && nppParams->ExternalLangHasRoom())
					containers[x] = new ExternalLangContainer(pLexerName, lexDesc);
				else
					containers[x] = NULL;
			}

			TCHAR xmlPath[MAX_PATH];
            lstrcpy(xmlPath, nppParams->getNppPath().c_str());
			PathAppend(xmlPath, TEXT("plugins\\Config"));
            PathAppend(xmlPath, pi->_moduleName.c_str());
			PathRemoveExtension(xmlPath);
			PathAddExtension(xmlPath, TEXT(".xml"));

			if (!PathFileExists(xmlPath))
			{
				memset(xmlPath, 0, MAX_PATH * sizeof(TCHAR));
				lstrcpy(xmlPath, nppParams->getAppDataNppDir() );
				PathAppend(xmlPath, TEXT("plugins\\Config"));
                PathAppend(xmlPath, pi->_moduleName.c_str());
				PathRemoveExtension( xmlPath );
				PathAddExtension( xmlPath, TEXT(".xml") );

				if (! PathFileExists( xmlPath ) )
				{
					throw generic_string(generic_string(xmlPath) + TEXT(" is missing."));
				}
			}

			TiXmlDocument *_pXmlDoc = new TiXmlDocument(xmlPath);

			if (!_pXmlDoc->LoadFile())
			{
				delete _pXmlDoc;
				_pXmlDoc = NULL;
				throw generic_string(generic_string(xmlPath) + TEXT(" failed to load."));
			}

			for (int x = 0; x < numLexers; x++) // postpone adding in case the xml is missing/corrupt
				if (containers[x] != NULL)
					nppParams->addExternalLangToEnd(containers[x]);

			nppParams->getExternalLexerFromXmlTree(_pXmlDoc);
			nppParams->getExternalLexerDoc()->push_back(_pXmlDoc);
#ifdef UNICODE
			const char *pDllName = wmc->wchar2char(pluginFilePath.c_str(), CP_ACP);
#else
			const char *pDllName = pluginFilePath.c_str();
#endif
			::SendMessage(_nppData._scintillaMainHandle, SCI_LOADLEXERLIBRARY, 0, (LPARAM)pDllName);
		}

		_pluginInfos.push_back(pi);
        return (_pluginInfos.size() - 1);
	}
	catch(generic_string s)
	{
		s += TEXT("\n\n");
		s += USERMSG;
		if (::MessageBox(NULL, s.c_str(), pluginFilePath.c_str(), MB_YESNO) == IDYES)
		{
			dll2Remove.push_back(pluginFilePath);
		}
		delete pi;
        return -1;
	}
	catch(...)
	{
		generic_string msg = TEXT("Fail loaded");
		msg += TEXT("\n\n");
		msg += USERMSG;
		if (::MessageBox(NULL, msg.c_str(), pluginFilePath.c_str(), MB_YESNO) == IDYES)
		{
			dll2Remove.push_back(pluginFilePath);
		}
		delete pi;
        return -1;
	}
}
static bool isFile(generic_string path)
{
	DWORD type = ::GetFileAttributes(path.c_str());
	return type != INVALID_FILE_ATTRIBUTES && ! (type & FILE_ATTRIBUTE_DIRECTORY);
}
Beispiel #15
0
bool filename::copy(const generic_string& toFile,bool overwrite) const
{
    return copy(toFile.c_str(),overwrite);
}
Beispiel #16
0
bool filename::rename(const generic_string& name,bool keepNewName,bool overwrite)
{
    return rename(name.c_str(),keepNewName,overwrite);
}
Beispiel #17
0
file_entry::file_entry(const generic_string& sname)
{
    _load(sname.c_str());
}
void FileBrowser::notified(LPNMHDR notification)
{
	if ((notification->hwndFrom == _treeView.getHSelf()))
	{
		TCHAR textBuffer[MAX_PATH];
		TVITEM tvItem;
		tvItem.mask = TVIF_TEXT | TVIF_PARAM;
		tvItem.pszText = textBuffer;
		tvItem.cchTextMax = MAX_PATH;

		switch (notification->code)
		{
			case NM_DBLCLK:
			{
				openSelectFile();
			}
			break;
	
			case TVN_ENDLABELEDIT:
			{
				LPNMTVDISPINFO tvnotif = (LPNMTVDISPINFO)notification;
				if (!tvnotif->item.pszText)
					return;
				if (getNodeType(tvnotif->item.hItem) == browserNodeType_root)
					return;

				// Processing for only File case
				if (tvnotif->item.lParam) 
				{
					// Get the old label
					tvItem.hItem = _treeView.getSelection();
					::SendMessage(_treeView.getHSelf(), TVM_GETITEM, 0,(LPARAM)&tvItem);
					size_t len = lstrlen(tvItem.pszText);

					// Find the position of old label in File path
					generic_string *filePath = (generic_string *)tvnotif->item.lParam;
					size_t found = filePath->rfind(tvItem.pszText);

					// If found the old label, replace it with the modified one
					if (found != generic_string::npos)
						filePath->replace(found, len, tvnotif->item.pszText);

					// Check the validity of modified file path
					tvItem.mask = TVIF_IMAGE | TVIF_SELECTEDIMAGE;
					if (::PathFileExists(filePath->c_str()))
					{
						tvItem.iImage = INDEX_LEAF;
						tvItem.iSelectedImage = INDEX_LEAF;
					}
					else
					{
						//TODO: remove it
					}
					TreeView_SetItem(_treeView.getHSelf(), &tvItem);
				}

				// For File, Folder and Project
				::SendMessage(_treeView.getHSelf(), TVM_SETITEM, 0,(LPARAM)(&(tvnotif->item)));
			}
			break;

			case TVN_GETINFOTIP:
			{
				LPNMTVGETINFOTIP lpGetInfoTip = (LPNMTVGETINFOTIP)notification;
				static generic_string tipStr;
				BrowserNodeType nType = getNodeType(lpGetInfoTip->hItem);
				if (nType == browserNodeType_root)
				{
					tipStr = *((generic_string *)lpGetInfoTip->lParam);
				}
				else if (nType == browserNodeType_file)
				{
					tipStr = getNodePath(lpGetInfoTip->hItem);
				}
				else
					return;
				lpGetInfoTip->pszText = (LPTSTR)tipStr.c_str();
				lpGetInfoTip->cchTextMax = tipStr.size();
			}
			break;


			case TVN_KEYDOWN:
			{
				LPNMTVKEYDOWN ptvkd = (LPNMTVKEYDOWN)notification;
				
				if (ptvkd->wVKey == VK_RETURN)
				{
					HTREEITEM hItem = _treeView.getSelection();
					BrowserNodeType nType = getNodeType(hItem);
					if (nType == browserNodeType_file)
						openSelectFile();
					else
						_treeView.toggleExpandCollapse(hItem);
				}
				/*
				else if (ptvkd->wVKey == VK_DELETE)
				{
					HTREEITEM hItem = _treeView.getSelection();
					BrowserNodeType nType = getNodeType(hItem);
					if (nType == browserNodeType_folder)
						popupMenuCmd(IDM_FILEBROWSER_DELETEFOLDER);
					else if (nType == browserNodeType_file)
						popupMenuCmd(IDM_FILEBROWSER_DELETEFILE);
				}
				else if (ptvkd->wVKey == VK_UP)
				{
					if (0x80 & GetKeyState(VK_CONTROL))
					{
						popupMenuCmd(IDM_FILEBROWSER_MOVEUP);
					}
				}
				else if (ptvkd->wVKey == VK_DOWN)
				{
					if (0x80 & GetKeyState(VK_CONTROL))
					{
						popupMenuCmd(IDM_FILEBROWSER_MOVEDOWN);
					}
				}
				else if (ptvkd->wVKey == VK_F2)
					popupMenuCmd(IDM_FILEBROWSER_RENAME);
				*/
			}
			break;

			case TVN_ITEMEXPANDED:
			{
				LPNMTREEVIEW nmtv = (LPNMTREEVIEW)notification;
				tvItem.hItem = nmtv->itemNew.hItem;
				tvItem.mask = TVIF_IMAGE | TVIF_SELECTEDIMAGE;

				if (getNodeType(nmtv->itemNew.hItem) == browserNodeType_folder)
				{
					if (nmtv->action == TVE_COLLAPSE)
					{
						_treeView.setItemImage(nmtv->itemNew.hItem, INDEX_CLOSE_NODE, INDEX_CLOSE_NODE);
					}
					else if (nmtv->action == TVE_EXPAND)
					{
						_treeView.setItemImage(nmtv->itemNew.hItem, INDEX_OPEN_NODE, INDEX_OPEN_NODE);
					}
				}
				else if (getNodeType(nmtv->itemNew.hItem) == browserNodeType_root)
				{
					if (nmtv->action == TVE_COLLAPSE)
					{
						_treeView.setItemImage(nmtv->itemNew.hItem, INDEX_CLOSE_ROOT, INDEX_CLOSE_ROOT);
					}
					else if (nmtv->action == TVE_EXPAND)
					{
						_treeView.setItemImage(nmtv->itemNew.hItem, INDEX_OPEN_ROOT, INDEX_OPEN_ROOT);
					}
				}
			}
			break;

			case TVN_BEGINDRAG:
			{
				//printStr(TEXT("hello"));
				_treeView.beginDrag((LPNMTREEVIEW)notification);
				
			}
			break;
		}
	}
}
Beispiel #19
0
bool isCertificateValidated(const generic_string & fullFilePath, const generic_string & subjectName2check)
{
	bool isOK = false;
	HCERTSTORE hStore = NULL;
	HCRYPTMSG hMsg = NULL;
	PCCERT_CONTEXT pCertContext = NULL;
	BOOL result;
	DWORD dwEncoding, dwContentType, dwFormatType;
	PCMSG_SIGNER_INFO pSignerInfo = NULL;
	DWORD dwSignerInfo;
	CERT_INFO CertInfo;
	LPTSTR szName = NULL;

	generic_string subjectName;

	try {
		// Get message handle and store handle from the signed file.
		result = CryptQueryObject(CERT_QUERY_OBJECT_FILE,
			fullFilePath.c_str(),
			CERT_QUERY_CONTENT_FLAG_PKCS7_SIGNED_EMBED,
			CERT_QUERY_FORMAT_FLAG_BINARY,
			0,
			&dwEncoding,
			&dwContentType,
			&dwFormatType,
			&hStore,
			&hMsg,
			NULL);

		if (!result)
		{
			generic_string errorMessage = TEXT("Check certificate of ") + fullFilePath + TEXT(" : ");
			errorMessage += GetLastErrorAsString(GetLastError());
			throw errorMessage;
		}

		// Get signer information size.
		result = CryptMsgGetParam(hMsg, CMSG_SIGNER_INFO_PARAM, 0, NULL, &dwSignerInfo);
		if (!result)
		{
			generic_string errorMessage = TEXT("CryptMsgGetParam first call: ");
			errorMessage += GetLastErrorAsString(GetLastError());
			throw errorMessage;
		}

		// Allocate memory for signer information.
		pSignerInfo = (PCMSG_SIGNER_INFO)LocalAlloc(LPTR, dwSignerInfo);
		if (!pSignerInfo)
		{
			generic_string errorMessage = TEXT("CryptMsgGetParam memory allocation problem: ");
			errorMessage += GetLastErrorAsString(GetLastError());
			throw errorMessage;
		}

		// Get Signer Information.
		result = CryptMsgGetParam(hMsg, CMSG_SIGNER_INFO_PARAM, 0, (PVOID)pSignerInfo, &dwSignerInfo);
		if (!result)
		{
			generic_string errorMessage = TEXT("CryptMsgGetParam: ");
			errorMessage += GetLastErrorAsString(GetLastError());
			throw errorMessage;
		}

		// Search for the signer certificate in the temporary 
		// certificate store.
		CertInfo.Issuer = pSignerInfo->Issuer;
		CertInfo.SerialNumber = pSignerInfo->SerialNumber;

		pCertContext = CertFindCertificateInStore(hStore, X509_ASN_ENCODING | PKCS_7_ASN_ENCODING, 0, CERT_FIND_SUBJECT_CERT, (PVOID)&CertInfo, NULL);
		if (not pCertContext)
		{
			generic_string errorMessage = TEXT("Certificate context: ");
			errorMessage += GetLastErrorAsString(GetLastError());
			throw errorMessage;
		}

		DWORD dwData;

		// Get Subject name size.
		dwData = CertGetNameString(pCertContext, CERT_NAME_SIMPLE_DISPLAY_TYPE, 0, NULL, NULL, 0);
		if (dwData <= 1)
		{
			throw generic_string(TEXT("Certificate checking error: getting data size problem."));
		}

		// Allocate memory for subject name.
		szName = (LPTSTR)LocalAlloc(LPTR, dwData * sizeof(TCHAR));
		if (!szName)
		{
			throw generic_string(TEXT("Certificate checking error: memory allocation problem."));
		}

		// Get subject name.
		if (CertGetNameString(pCertContext, CERT_NAME_SIMPLE_DISPLAY_TYPE, 0, NULL, szName, dwData) <= 1)
		{
			throw generic_string(TEXT("Cannot get certificate info."));
		}

		// check Subject name.
		subjectName = szName;
		if (subjectName != subjectName2check)
		{
			throw generic_string(TEXT("Certificate checking error: the certificate is not matched."));
		}

		isOK = true;
	}
	catch (generic_string s)
	{
		// display error message
		MessageBox(NULL, s.c_str(), TEXT("Certificate checking"), MB_OK);
	}
	catch (...)
	{
		// Unknown error
		generic_string errorMessage = TEXT("Unknown exception occured. ");
		errorMessage += GetLastErrorAsString(GetLastError());
		MessageBox(NULL, errorMessage.c_str(), TEXT("Certificate checking"), MB_OK);
	}

	// Clean up.
	if (pSignerInfo != NULL) LocalFree(pSignerInfo);
	if (pCertContext != NULL) CertFreeCertificateContext(pCertContext);
	if (hStore != NULL) CertCloseStore(hStore, 0);
	if (hMsg != NULL) CryptMsgClose(hMsg);
	if (szName != NULL) LocalFree(szName);

	return isOK;
}
void SmartHighlighter::highlightViewWithWord(ScintillaEditView * pHighlightView, const generic_string & word2Hilite)
{
	// save target locations for other search functions
	auto originalStartPos = pHighlightView->execute(SCI_GETTARGETSTART);
	auto originalEndPos = pHighlightView->execute(SCI_GETTARGETEND);

	// Get the range of text visible and highlight everything in it
	auto firstLine = static_cast<int>(pHighlightView->execute(SCI_GETFIRSTVISIBLELINE));
	auto nbLineOnScreen = pHighlightView->execute(SCI_LINESONSCREEN);
	auto nbLines = min(nbLineOnScreen, MAXLINEHIGHLIGHT) + 1;
	auto lastLine = firstLine + nbLines;
	int startPos = 0;
	int endPos = 0;
	auto currentLine = firstLine;
	int prevDocLineChecked = -1;	//invalid start

	// Determine mode for SmartHighlighting
	bool isWordOnly = true;
	bool isCaseSensentive = true;

	const NppGUI & nppGUI = NppParameters::getInstance()->getNppGUI();

	if (nppGUI._smartHiliteUseFindSettings)
	{
		// fetch find dialog's setting
		NppParameters *nppParams = NppParameters::getInstance();
		FindHistory &findHistory = nppParams->getFindHistory();
		isWordOnly = findHistory._isMatchWord;
		isCaseSensentive = findHistory._isMatchCase;
	}
	else
	{
		isWordOnly = nppGUI._smartHiliteWordOnly;
		isCaseSensentive = nppGUI._smartHiliteCaseSensitive;
	}

	FindOption fo;
	fo._isMatchCase = isCaseSensentive;
	fo._isWholeWord = isWordOnly;

	FindReplaceInfo frInfo;
	frInfo._txt2find = word2Hilite.c_str();

	for (; currentLine < lastLine; ++currentLine)
	{
		int docLine = static_cast<int>(pHighlightView->execute(SCI_DOCLINEFROMVISIBLE, currentLine));
		if (docLine == prevDocLineChecked)
			continue;	//still on same line (wordwrap)
		prevDocLineChecked = docLine;
		startPos = static_cast<int>(pHighlightView->execute(SCI_POSITIONFROMLINE, docLine));
		endPos = static_cast<int>(pHighlightView->execute(SCI_POSITIONFROMLINE, docLine + 1));
		
		frInfo._startRange = startPos;
		frInfo._endRange = endPos;
		if (endPos == -1)
		{	//past EOF
			frInfo._endRange = pHighlightView->getCurrentDocLen() - 1;
			_pFRDlg->processRange(ProcessMarkAll_2, frInfo, NULL, &fo, -1, pHighlightView);
			break;
		}
		else
		{
			_pFRDlg->processRange(ProcessMarkAll_2, frInfo, NULL, &fo, -1, pHighlightView);
		}
	}

	// restore the original targets to avoid conflicts with the search/replace functions
	pHighlightView->execute(SCI_SETTARGETRANGE, originalStartPos, originalEndPos);
}