/* * Regedit treeview * * Copyright (C) 2002 Robert Dickenson * Copyright (C) 2008 Alexander N. Sørnes * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Lesser General Public * License as published by the Free Software Foundation; either * version 2.1 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with this library; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA */ #define WIN32_LEAN_AND_MEAN /* Exclude rarely-used stuff from Windows headers */ #define NONAMELESSUNION #include #include #include #include #include #include "wine/heap.h" #include "main.h" WINE_DEFAULT_DEBUG_CHANNEL(regedit); /* Global variables and constants */ /* Image_Open, Image_Closed, and Image_Root - integer variables for indexes of the images. */ /* CX_BITMAP and CY_BITMAP - width and height of an icon. */ /* NUM_BITMAPS - number of bitmaps to add to the image list. */ int Image_Open; int Image_Closed; int Image_Root; #define NUM_ICONS 3 static BOOL UpdateExpandingTree(HWND hwndTV, HTREEITEM hItem, int state); static BOOL get_item_path(HWND hwndTV, HTREEITEM hItem, HKEY* phKey, LPWSTR* pKeyPath, int* pPathLen, int* pMaxChars) { TVITEMW item; int maxChars, chars; HTREEITEM hParent; item.mask = TVIF_PARAM; item.hItem = hItem; if (!TreeView_GetItemW(hwndTV, &item)) return FALSE; if (item.lParam) { /* found root key with valid key value */ *phKey = (HKEY)item.lParam; return TRUE; } hParent = (HTREEITEM)SendMessageW(hwndTV, TVM_GETNEXTITEM, TVGN_PARENT, (LPARAM)hItem); if(!get_item_path(hwndTV, hParent, phKey, pKeyPath, pPathLen, pMaxChars)) return FALSE; if (*pPathLen) { (*pKeyPath)[*pPathLen] = '\\'; ++(*pPathLen); } do { item.mask = TVIF_TEXT; item.hItem = hItem; item.pszText = *pKeyPath + *pPathLen; item.cchTextMax = maxChars = *pMaxChars - *pPathLen; if (!TreeView_GetItemW(hwndTV, &item)) return FALSE; chars = lstrlenW(item.pszText); if (chars < maxChars - 1) { *pPathLen += chars; break; } *pMaxChars *= 2; *pKeyPath = heap_xrealloc(*pKeyPath, *pMaxChars); } while(TRUE); return TRUE; } LPWSTR GetItemPath(HWND hwndTV, HTREEITEM hItem, HKEY* phRootKey) { int pathLen = 0, maxLen = 1024; WCHAR *pathBuffer; if (!hItem) { hItem = (HTREEITEM)SendMessageW(hwndTV, TVM_GETNEXTITEM, TVGN_CARET, 0); if (!hItem) return NULL; } pathBuffer = heap_xalloc(maxLen * sizeof(WCHAR)); if (!pathBuffer) return NULL; *pathBuffer = 0; if (!get_item_path(hwndTV, hItem, phRootKey, &pathBuffer, &pathLen, &maxLen)) return NULL; return pathBuffer; } static LPWSTR get_path_component(LPCWSTR *lplpKeyName) { LPCWSTR lpPos = *lplpKeyName; LPWSTR lpResult = NULL; int len; if (!lpPos) return NULL; while(*lpPos && *lpPos != '\\') lpPos++; if (*lpPos && lpPos == *lplpKeyName) return NULL; len = lpPos+1-(*lplpKeyName); lpResult = heap_xalloc(len * sizeof(WCHAR)); lstrcpynW(lpResult, *lplpKeyName, len); *lplpKeyName = *lpPos ? lpPos+1 : NULL; return lpResult; } HTREEITEM FindPathInTree(HWND hwndTV, LPCWSTR lpKeyName) { TVITEMEXW tvi; WCHAR buf[261]; /* tree view has 260 character limitation on item name */ HTREEITEM hRoot, hItem, hOldItem; BOOL valid_path; buf[260] = '\0'; hRoot = (HTREEITEM)SendMessageW(hwndTV, TVM_GETNEXTITEM, TVGN_ROOT, 0); hItem = hRoot; SendMessageW(hwndTV, TVM_EXPAND, TVE_EXPAND, (LPARAM)hItem ); hItem = (HTREEITEM)SendMessageW(hwndTV, TVM_GETNEXTITEM, TVGN_CHILD, (LPARAM)hItem); hOldItem = hItem; valid_path = FALSE; while(1) { LPWSTR lpItemName = get_path_component(&lpKeyName); if (lpItemName) { while(hItem) { tvi.mask = TVIF_TEXT | TVIF_HANDLE; tvi.hItem = hItem; tvi.pszText = buf; tvi.cchTextMax = 260; SendMessageW(hwndTV, TVM_GETITEMW, 0, (LPARAM) &tvi); if (!lstrcmpiW(tvi.pszText, lpItemName)) { valid_path = TRUE; SendMessageW(hwndTV, TVM_EXPAND, TVE_EXPAND, (LPARAM)hItem ); if (!lpKeyName) { heap_free(lpItemName); return hItem; } hOldItem = hItem; hItem = (HTREEITEM)SendMessageW(hwndTV, TVM_GETNEXTITEM, TVGN_CHILD, (LPARAM)hItem); break; } hItem = (HTREEITEM)SendMessageW(hwndTV, TVM_GETNEXTITEM, TVGN_NEXT, (LPARAM)hItem); } heap_free(lpItemName); if (!hItem) return valid_path ? hOldItem : hRoot; } else return valid_path ? hItem : hRoot; } } BOOL DeleteNode(HWND hwndTV, HTREEITEM hItem) { if (!hItem) hItem = (HTREEITEM)SendMessageW(hwndTV, TVM_GETNEXTITEM, TVGN_CARET, 0); if (!hItem) return FALSE; return (BOOL)SendMessageW(hwndTV, TVM_DELETEITEM, 0, (LPARAM)hItem); } /* Add an entry to the tree. Only give hKey for root nodes (HKEY_ constants) */ static HTREEITEM AddEntryToTree(HWND hwndTV, HTREEITEM hParent, LPWSTR label, HKEY hKey, DWORD dwChildren) { TVINSERTSTRUCTW tvins; if (hKey) { if (RegQueryInfoKeyW(hKey, 0, 0, 0, &dwChildren, 0, 0, 0, 0, 0, 0, 0) != ERROR_SUCCESS) { dwChildren = 0; } } tvins.u.item.mask = TVIF_TEXT | TVIF_IMAGE | TVIF_SELECTEDIMAGE | TVIF_CHILDREN | TVIF_PARAM; tvins.u.item.pszText = label; tvins.u.item.cchTextMax = lstrlenW(label); tvins.u.item.iImage = Image_Closed; tvins.u.item.iSelectedImage = Image_Open; tvins.u.item.cChildren = dwChildren; tvins.u.item.lParam = (LPARAM)hKey; tvins.hInsertAfter = hKey ? TVI_LAST : TVI_SORT; tvins.hParent = hParent; return TreeView_InsertItemW(hwndTV, &tvins); } static BOOL match_string(LPCWSTR sstring1, LPCWSTR sstring2, int mode) { if (mode & SEARCH_WHOLE) return !lstrcmpiW(sstring1, sstring2); else return NULL != StrStrIW(sstring1, sstring2); } static BOOL match_item(HWND hwndTV, HTREEITEM hItem, LPCWSTR sstring, int mode, int *row) { TVITEMW item; WCHAR keyname[KEY_MAX_LEN]; item.mask = TVIF_TEXT; item.hItem = hItem; item.pszText = keyname; item.cchTextMax = KEY_MAX_LEN; if (!TreeView_GetItemW(hwndTV, &item)) return FALSE; if ((mode & SEARCH_KEYS) && match_string(keyname, sstring, mode)) { *row = -1; return TRUE; } if (mode & (SEARCH_VALUES | SEARCH_CONTENT)) { int i, adjust; WCHAR *valName, *KeyPath; HKEY hKey, hRoot; DWORD lenName, lenNameMax, lenValueMax; WCHAR *buffer = NULL; KeyPath = GetItemPath(hwndTV, hItem, &hRoot); if (!KeyPath || !hRoot) return FALSE; if (RegOpenKeyExW(hRoot, KeyPath, 0, KEY_READ, &hKey) != ERROR_SUCCESS) { heap_free(KeyPath); return FALSE; } heap_free(KeyPath); if (ERROR_SUCCESS != RegQueryInfoKeyW(hKey, NULL, NULL, NULL, NULL, NULL, NULL, NULL, &lenNameMax, &lenValueMax, NULL, NULL)) return FALSE; lenName = ++lenNameMax; valName = heap_xalloc(lenName * sizeof(WCHAR)); adjust = 0; /* RegEnumValue won't return empty default value, so fake it when dealing with *row, which corresponds to list view rows, not value ids */ if (ERROR_SUCCESS == RegEnumValueW(hKey, 0, valName, &lenName, NULL, NULL, NULL, NULL) && *valName) adjust = 1; i = (*row)-adjust; if (i < 0) i = 0; while(1) { DWORD lenValue = 0, type = 0; lenName = lenNameMax; if (ERROR_SUCCESS != RegEnumValueW(hKey, i, valName, &lenName, NULL, &type, NULL, NULL)) break; if (mode & SEARCH_VALUES) { if (match_string(valName, sstring, mode)) { heap_free(valName); heap_free(buffer); RegCloseKey(hKey); *row = i+adjust; return TRUE; } } if ((mode & SEARCH_CONTENT) && (type == REG_EXPAND_SZ || type == REG_SZ)) { if (!buffer) buffer = heap_xalloc(lenValueMax); lenName = lenNameMax; lenValue = lenValueMax; if (ERROR_SUCCESS != RegEnumValueW(hKey, i, valName, &lenName, NULL, &type, (LPBYTE)buffer, &lenValue)) break; if (match_string(buffer, sstring, mode)) { heap_free(valName); heap_free(buffer); RegCloseKey(hKey); *row = i+adjust; return TRUE; } } i++; } heap_free(valName); heap_free(buffer); RegCloseKey(hKey); } return FALSE; } HTREEITEM FindNext(HWND hwndTV, HTREEITEM hItem, LPCWSTR sstring, int mode, int *row) { HTREEITEM hTry, hLast; hLast = hItem; (*row)++; if (match_item(hwndTV, hLast, sstring, mode & ~SEARCH_KEYS, row)) { return hLast; } *row = 0; while(hLast) { /* first look in subtree */ /* no children? maybe we haven't loaded them yet? */ if (!SendMessageW(hwndTV, TVM_GETNEXTITEM, TVGN_CHILD, (LPARAM)hLast)) { UINT state = (UINT)SendMessageW(hwndTV, TVM_GETITEMSTATE, (WPARAM)hLast, -1); UpdateExpandingTree(hwndTV, hLast, state); } hTry = (HTREEITEM)SendMessageW(hwndTV, TVM_GETNEXTITEM, TVGN_CHILD, (LPARAM)hLast); if (hTry) { if (match_item(hwndTV, hTry, sstring, mode, row)) return hTry; hLast = hTry; continue; } /* no more children, maybe there are any siblings? */ hTry = (HTREEITEM)SendMessageW(hwndTV, TVM_GETNEXTITEM, TVGN_NEXT, (LPARAM)hLast); if (hTry) { if (match_item(hwndTV, hTry, sstring, mode, row)) return hTry; hLast = hTry; continue; } /* no more siblings, look at the next siblings in parent(s) */ hLast = (HTREEITEM)SendMessageW(hwndTV, TVM_GETNEXTITEM, TVGN_PARENT, (LPARAM)hLast); if (!hLast) return NULL; while (hLast && (hTry = (HTREEITEM)SendMessageW(hwndTV, TVM_GETNEXTITEM, TVGN_NEXT, (LPARAM)hLast)) == NULL) { hLast = (HTREEITEM)SendMessageW(hwndTV, TVM_GETNEXTITEM, TVGN_PARENT, (LPARAM)hLast); } if (match_item(hwndTV, hTry, sstring, mode, row)) return hTry; hLast = hTry; } return NULL; } static BOOL RefreshTreeItem(HWND hwndTV, HTREEITEM hItem) { HKEY hRoot, hKey, hSubKey; HTREEITEM childItem; LPWSTR KeyPath; DWORD dwCount, dwIndex, dwMaxSubKeyLen; LPWSTR Name; TVITEMW tvItem; hRoot = NULL; KeyPath = GetItemPath(hwndTV, hItem, &hRoot); if (!KeyPath || !hRoot) return FALSE; if (*KeyPath) { if (RegOpenKeyExW(hRoot, KeyPath, 0, KEY_READ, &hKey) != ERROR_SUCCESS) { WINE_TRACE("RegOpenKeyEx failed, %s was probably removed.\n", wine_dbgstr_w(KeyPath)); return FALSE; } } else { hKey = hRoot; } heap_free(KeyPath); if (RegQueryInfoKeyW(hKey, 0, 0, 0, &dwCount, &dwMaxSubKeyLen, 0, 0, 0, 0, 0, 0) != ERROR_SUCCESS) { return FALSE; } /* Set the number of children again */ tvItem.mask = TVIF_CHILDREN; tvItem.hItem = hItem; tvItem.cChildren = dwCount; if (!TreeView_SetItemW(hwndTV, &tvItem)) { return FALSE; } /* We don't have to bother with the rest if it's not expanded. */ if (SendMessageW(hwndTV, TVM_GETITEMSTATE, (WPARAM)hItem, TVIS_EXPANDED) == 0) { RegCloseKey(hKey); return TRUE; } dwMaxSubKeyLen++; /* account for the \0 terminator */ Name = heap_xalloc(dwMaxSubKeyLen * sizeof(WCHAR)); tvItem.cchTextMax = dwMaxSubKeyLen; tvItem.pszText = heap_xalloc(dwMaxSubKeyLen * sizeof(WCHAR)); /* Now go through all the children in the registry, and check if any have to be added. */ for (dwIndex = 0; dwIndex < dwCount; dwIndex++) { DWORD cName = dwMaxSubKeyLen, dwSubCount; BOOL found; found = FALSE; if (RegEnumKeyExW(hKey, dwIndex, Name, &cName, 0, 0, 0, NULL) != ERROR_SUCCESS) { continue; } /* Find the number of children of the node. */ dwSubCount = 0; if (RegOpenKeyExW(hKey, Name, 0, KEY_QUERY_VALUE, &hSubKey) == ERROR_SUCCESS) { if (RegQueryInfoKeyW(hSubKey, 0, 0, 0, &dwSubCount, 0, 0, 0, 0, 0, 0, 0) != ERROR_SUCCESS) { dwSubCount = 0; } RegCloseKey(hSubKey); } /* Check if the node is already in there. */ for (childItem = (HTREEITEM)SendMessageW(hwndTV, TVM_GETNEXTITEM, TVGN_CHILD, (LPARAM)hItem); childItem; childItem = (HTREEITEM)SendMessageW(hwndTV, TVM_GETNEXTITEM, TVGN_NEXT, (LPARAM)childItem)) { tvItem.mask = TVIF_TEXT; tvItem.hItem = childItem; if (!TreeView_GetItemW(hwndTV, &tvItem)) { heap_free(Name); heap_free(tvItem.pszText); return FALSE; } if (!lstrcmpiW(tvItem.pszText, Name)) { found = TRUE; break; } } if (found == FALSE) { WINE_TRACE("New subkey %s\n", wine_dbgstr_w(Name)); AddEntryToTree(hwndTV, hItem, Name, NULL, dwSubCount); } } heap_free(Name); heap_free(tvItem.pszText); RegCloseKey(hKey); /* Now go through all the children in the tree, and check if any have to be removed. */ childItem = (HTREEITEM)SendMessageW(hwndTV, TVM_GETNEXTITEM, TVGN_CHILD, (LPARAM)hItem); while (childItem) { HTREEITEM nextItem = (HTREEITEM)SendMessageW(hwndTV, TVM_GETNEXTITEM, TVGN_NEXT, (LPARAM)childItem); if (RefreshTreeItem(hwndTV, childItem) == FALSE) { SendMessageW(hwndTV, TVM_DELETEITEM, 0, (LPARAM)childItem); } childItem = nextItem; } return TRUE; } static void treeview_sort_item(HWND hWnd, HTREEITEM item) { HTREEITEM child = (HTREEITEM)SendMessageW(hWnd, TVM_GETNEXTITEM, TVGN_CHILD, (LPARAM)item); while (child != NULL) { treeview_sort_item(hWnd, child); child = (HTREEITEM)SendMessageW(hWnd, TVM_GETNEXTITEM, TVGN_NEXT, (LPARAM)child); } SendMessageW(hWnd, TVM_SORTCHILDREN, 0, (LPARAM)item); } BOOL RefreshTreeView(HWND hwndTV) { HTREEITEM hItem; HTREEITEM hSelectedItem; HCURSOR hcursorOld; HTREEITEM hRoot; WINE_TRACE("\n"); hSelectedItem = (HTREEITEM)SendMessageW(hwndTV, TVM_GETNEXTITEM, TVGN_CARET, 0); hcursorOld = SetCursor(LoadCursorW(NULL, (LPCWSTR)IDC_WAIT)); SendMessageW(hwndTV, WM_SETREDRAW, FALSE, 0); hRoot = (HTREEITEM)SendMessageW(hwndTV, TVM_GETNEXTITEM, TVGN_ROOT, 0); hItem = (HTREEITEM)SendMessageW(hwndTV, TVM_GETNEXTITEM, TVGN_CHILD, (LPARAM)hRoot); while (hItem) { RefreshTreeItem(hwndTV, hItem); treeview_sort_item(hwndTV, hItem); hItem = (HTREEITEM)SendMessageW(hwndTV, TVM_GETNEXTITEM, TVGN_NEXT, (LPARAM)hItem); } SendMessageW(hwndTV, WM_SETREDRAW, TRUE, 0); InvalidateRect(hwndTV, NULL, FALSE); SetCursor(hcursorOld); /* We reselect the currently selected node, this will prompt a refresh of the listview. */ SendMessageW(hwndTV, TVM_SELECTITEM, TVGN_CARET, (LPARAM)hSelectedItem); return TRUE; } HTREEITEM InsertNode(HWND hwndTV, HTREEITEM hItem, LPWSTR name) { WCHAR buf[MAX_NEW_KEY_LEN]; HTREEITEM hNewItem = 0; TVITEMEXW item; if (!hItem) hItem = (HTREEITEM)SendMessageW(hwndTV, TVM_GETNEXTITEM, TVGN_CARET, 0); if (!hItem) return FALSE; if (SendMessageW(hwndTV, TVM_GETITEMSTATE, (WPARAM)hItem, TVIS_EXPANDEDONCE) & TVIS_EXPANDEDONCE) { hNewItem = AddEntryToTree(hwndTV, hItem, name, 0, 0); } else { item.mask = TVIF_CHILDREN | TVIF_HANDLE; item.hItem = hItem; if (!TreeView_GetItemW(hwndTV, &item)) return FALSE; item.cChildren = 1; if (!TreeView_SetItemW(hwndTV, &item)) return FALSE; } SendMessageW(hwndTV, TVM_EXPAND, TVE_EXPAND, (LPARAM)hItem ); if (!hNewItem) { for(hNewItem = (HTREEITEM)SendMessageW(hwndTV, TVM_GETNEXTITEM, TVGN_CHILD, (LPARAM)hItem); hNewItem; hNewItem = (HTREEITEM)SendMessageW(hwndTV, TVM_GETNEXTITEM, TVGN_NEXT, (LPARAM)hNewItem)) { item.mask = TVIF_HANDLE | TVIF_TEXT; item.hItem = hNewItem; item.pszText = buf; item.cchTextMax = ARRAY_SIZE(buf); if (!TreeView_GetItemW(hwndTV, &item)) continue; if (lstrcmpW(name, item.pszText) == 0) break; } } if (hNewItem) SendMessageW(hwndTV, TVM_SELECTITEM, TVGN_CARET, (LPARAM)hNewItem); return hNewItem; } HWND StartKeyRename(HWND hwndTV) { HTREEITEM hItem; if(!(hItem = (HTREEITEM)SendMessageW(hwndTV, TVM_GETNEXTITEM, TVGN_CARET, 0))) return 0; SetWindowLongPtrW(hwndTV, GWLP_USERDATA, 1); return (HWND)SendMessageW(hwndTV, TVM_EDITLABELW, 0, (LPARAM)hItem); } static BOOL InitTreeViewItems(HWND hwndTV, LPWSTR pHostName) { TVINSERTSTRUCTW tvins; HTREEITEM hRoot; static WCHAR hkcr[] = L"HKEY_CLASSES_ROOT", hkcu[] = L"HKEY_CURRENT_USER", hklm[] = L"HKEY_LOCAL_MACHINE", hku[] = L"HKEY_USERS", hkcc[] = L"HKEY_CURRENT_CONFIG", hkdd[] = L"HKEY_DYN_DATA"; tvins.u.item.mask = TVIF_TEXT | TVIF_IMAGE | TVIF_SELECTEDIMAGE | TVIF_CHILDREN | TVIF_PARAM; /* Set the text of the item. */ tvins.u.item.pszText = pHostName; tvins.u.item.cchTextMax = lstrlenW(pHostName); /* Assume the item is not a parent item, so give it an image. */ tvins.u.item.iImage = Image_Root; tvins.u.item.iSelectedImage = Image_Root; tvins.u.item.cChildren = 5; /* Save the heading level in the item's application-defined data area. */ tvins.u.item.lParam = 0; tvins.hInsertAfter = TVI_FIRST; tvins.hParent = TVI_ROOT; /* Add the item to the tree view control. */ if (!(hRoot = TreeView_InsertItemW(hwndTV, &tvins))) return FALSE; if (!AddEntryToTree(hwndTV, hRoot, hkcr, HKEY_CLASSES_ROOT, 1)) return FALSE; if (!AddEntryToTree(hwndTV, hRoot, hkcu, HKEY_CURRENT_USER, 1)) return FALSE; if (!AddEntryToTree(hwndTV, hRoot, hklm, HKEY_LOCAL_MACHINE, 1)) return FALSE; if (!AddEntryToTree(hwndTV, hRoot, hku, HKEY_USERS, 1)) return FALSE; if (!AddEntryToTree(hwndTV, hRoot, hkcc, HKEY_CURRENT_CONFIG, 1)) return FALSE; if (!AddEntryToTree(hwndTV, hRoot, hkdd, HKEY_DYN_DATA, 1)) return FALSE; return TRUE; } /* * InitTreeViewImageLists - creates an image list, adds three bitmaps * to it, and associates the image list with a tree view control. * Returns TRUE if successful, or FALSE otherwise. * hwndTV - handle to the tree view control. */ static BOOL InitTreeViewImageLists(HWND hwndTV) { HIMAGELIST himl; /* handle to image list */ HICON hico; /* handle to icon */ INT cx = GetSystemMetrics(SM_CXSMICON); INT cy = GetSystemMetrics(SM_CYSMICON); /* Create the image list. */ if ((himl = ImageList_Create(cx, cy, ILC_MASK, 0, NUM_ICONS)) == NULL) return FALSE; /* Add the open file, closed file, and document bitmaps. */ hico = LoadIconW(hInst, MAKEINTRESOURCEW(IDI_OPEN_FILE)); Image_Open = ImageList_AddIcon(himl, hico); hico = LoadIconW(hInst, MAKEINTRESOURCEW(IDI_CLOSED_FILE)); Image_Closed = ImageList_AddIcon(himl, hico); hico = LoadIconW(hInst, MAKEINTRESOURCEW(IDI_ROOT)); Image_Root = ImageList_AddIcon(himl, hico); /* Fail if not all of the images were added. */ if (ImageList_GetImageCount(himl) < NUM_ICONS) { return FALSE; } /* Associate the image list with the tree view control. */ SendMessageW(hwndTV, TVM_SETIMAGELIST, TVSIL_NORMAL, (LPARAM)himl); return TRUE; } BOOL UpdateExpandingTree(HWND hwndTV, HTREEITEM hItem, int state) { DWORD dwCount, dwIndex, dwMaxSubKeyLen; HKEY hRoot, hNewKey, hKey; LPWSTR keyPath; LPWSTR Name; LONG errCode; HCURSOR hcursorOld; TVITEMW item; static int expanding; if (expanding) return FALSE; if (state & TVIS_EXPANDEDONCE ) { return TRUE; } expanding = TRUE; hcursorOld = SetCursor(LoadCursorW(NULL, (LPCWSTR)IDC_WAIT)); SendMessageW(hwndTV, WM_SETREDRAW, FALSE, 0); keyPath = GetItemPath(hwndTV, hItem, &hRoot); if (!keyPath) goto done; if (*keyPath) { errCode = RegOpenKeyExW(hRoot, keyPath, 0, KEY_READ, &hNewKey); if (errCode != ERROR_SUCCESS) goto done; } else { hNewKey = hRoot; } errCode = RegQueryInfoKeyW(hNewKey, 0, 0, 0, &dwCount, &dwMaxSubKeyLen, 0, 0, 0, 0, 0, 0); if (errCode != ERROR_SUCCESS) goto done; dwMaxSubKeyLen++; /* account for the \0 terminator */ Name = heap_xalloc(dwMaxSubKeyLen * sizeof(WCHAR)); for (dwIndex = 0; dwIndex < dwCount; dwIndex++) { DWORD cName = dwMaxSubKeyLen, dwSubCount; errCode = RegEnumKeyExW(hNewKey, dwIndex, Name, &cName, 0, 0, 0, 0); if (errCode != ERROR_SUCCESS) continue; errCode = RegOpenKeyExW(hNewKey, Name, 0, KEY_QUERY_VALUE, &hKey); if (errCode == ERROR_SUCCESS) { errCode = RegQueryInfoKeyW(hKey, 0, 0, 0, &dwSubCount, 0, 0, 0, 0, 0, 0, 0); RegCloseKey(hKey); } if (errCode != ERROR_SUCCESS) dwSubCount = 0; AddEntryToTree(hwndTV, hItem, Name, NULL, dwSubCount); } RegCloseKey(hNewKey); heap_free(Name); done: item.mask = TVIF_STATE; item.hItem = hItem; item.stateMask = TVIS_EXPANDEDONCE; item.state = TVIS_EXPANDEDONCE; SendMessageW(hwndTV, TVM_SETITEMW, 0, (LPARAM)&item); SendMessageW(hwndTV, WM_SETREDRAW, TRUE, 0); SetCursor(hcursorOld); expanding = FALSE; heap_free(keyPath); return TRUE; } BOOL OnTreeExpanding(HWND hwndTV, NMTREEVIEWW* pnmtv) { return UpdateExpandingTree(hwndTV, pnmtv->itemNew.hItem, pnmtv->itemNew.state); } /* * CreateTreeView - creates a tree view control. * Returns the handle to the new control if successful, or NULL otherwise. * hwndParent - handle to the control's parent window. */ HWND CreateTreeView(HWND hwndParent, LPWSTR pHostName, UINT id) { RECT rcClient; HWND hwndTV; /* Get the dimensions of the parent window's client area, and create the tree view control. */ GetClientRect(hwndParent, &rcClient); hwndTV = CreateWindowExW(WS_EX_CLIENTEDGE, WC_TREEVIEWW, L"Tree View", WS_VISIBLE | WS_CHILD | WS_TABSTOP | TVS_HASLINES | TVS_HASBUTTONS | TVS_LINESATROOT | TVS_EDITLABELS | TVS_SHOWSELALWAYS, 0, 0, rcClient.right, rcClient.bottom, hwndParent, ULongToHandle(id), hInst, NULL); SendMessageW(hwndTV, TVM_SETUNICODEFORMAT, TRUE, 0); /* Initialize the image list, and add items to the control. */ if (!InitTreeViewImageLists(hwndTV) || !InitTreeViewItems(hwndTV, pHostName)) { DestroyWindow(hwndTV); return NULL; } return hwndTV; }