// TaskMan - NT TaskManager // Copyright (C) Microsoft // File: taskpage.cpp // History: Nov-29-95 DavePl Created #include "precomp.h" // Project-scope globals DWORD g_cTasks = 0; // Local file prototypes BOOL CALLBACK EnumWindowStationsFunc(LPTSTR lpstr, LPARAM lParam); BOOL CALLBACK EnumDesktopsFunc(LPTSTR lpstr, LPARAM lParam); BOOL CALLBACK EnumWindowsProc(HWND hwnd, LPARAM lParam); // Column ID enumeration typedef enum TASKCOLUMNID { COL_TASKNAME = 0, COL_TASKSTATUS = 1, COL_TASKWINSTATION = 2, COL_TASKDESKTOP = 3, }; #define MAX_TASK_COLUMN 3 #define NUM_TASK_COLUMN (MAX_TASK_COLUMN + 1) #define IDS_FIRSTTASKCOL 21000 // 21000 is first column name ID in rc file // Column ID on which to sort in the listview, and for // compares in general TASKCOLUMNID g_iTaskSortColumnID = COL_TASKNAME; INT g_iTaskSortDirection = 1; // 1 = asc, -1 = desc // Column Default Info struct { INT Format; INT Width; } TaskColumnDefaults[NUM_TASK_COLUMN] = { { LVCFMT_LEFT, 250}, // COL_TASKNAME { LVCFMT_LEFT, 97 }, // COL_TASKSTATUS { LVCFMT_LEFT, 70 }, // COL_TASKWINSTATION { LVCFMT_LEFT, 70 }, // COL_TASKDESKTOP }; // Active Columns TASKCOLUMNID g_ActiveTaskCol[NUM_TASK_COLUMN + 1] = { COL_TASKNAME, // COL_TASKDESKTOP, COL_TASKSTATUS, (TASKCOLUMNID) -1 }; /*++ class CTaskInfo Class Description: Represents the last known information about a running task Arguments: Return Value: Revision History: Nov-29-95 Davepl Created */ class CTaskInfo { public: HWND m_hwnd; LPTSTR m_pszWindowTitle; LPTSTR m_lpWinsta; LPTSTR m_lpDesktop; BOOL m_fHung; LARGE_INTEGER m_uPassCount; INT m_iSmallIcon; HICON m_hSmallIcon; INT m_iLargeIcon; HICON m_hLargeIcon; // This is a union of which attribute is dirty. You can look at // or set any particular column's bit, or just inspect m_fDirty // to see if anyone at all is dirty. Used to optimize listview // painting union { DWORD m_fDirty; struct { DWORD m_fDirty_COL_HWND :1; DWORD m_fDirty_COL_TITLE :1; DWORD m_fDirty_COL_STATUS :1; DWORD m_fDirty_COL_WINSTA :1; DWORD m_fDirty_COL_DESKTOP :1; }; }; HRESULT SetData(HWND hwnd, LPTSTR lpTitle, LPTSTR lpWinsta, LPTSTR lpDesktop, LARGE_INTEGER uPassCount, BOOL fUpdateOnly); CTaskInfo() { ZeroMemory(this, sizeof(*this)); } ~CTaskInfo() { if (m_pszWindowTitle) { LocalFree(m_pszWindowTitle); } if (m_lpWinsta) { LocalFree(m_lpWinsta); } if (m_lpDesktop) { LocalFree(m_lpDesktop); } } INT Compare(CTaskInfo * pOther); }; /*++ class CTaskInfo::Compare Class Description: Compares this CTaskInfo object to another, and returns its ranking based on the g_iTaskSortColumnID field. Note that if the objects are equal based on the current sort column, the HWND is used as a secondary sort key to prevent items from jumping around in the listview Arguments: pOther - the CTaskInfo object to compare this to Return Value: < 0 - This CTaskInfo is "less" than the other 0 - Equal (Can't happen, since HWND is secondary sort) > 0 - This CTaskInfo is "greater" than the other Revision History: Nov-29-95 Davepl Created */ INT CTaskInfo::Compare(CTaskInfo * pOther) { INT iRet; switch (g_iTaskSortColumnID) { case COL_TASKNAME: iRet = lstrcmpi(this->m_pszWindowTitle, pOther->m_pszWindowTitle); break; case COL_TASKWINSTATION: iRet = lstrcmpi(this->m_lpWinsta, pOther->m_lpWinsta); break; case COL_TASKDESKTOP: iRet = lstrcmpi(this->m_lpDesktop, pOther->m_lpDesktop); break; case COL_TASKSTATUS: iRet = Compare64(this->m_fHung, pOther->m_fHung); break; default: Assert(0 && "Invalid task sort column"); iRet = 0; } // If objects look equal, compare on HWND as secondary sort column // so that items don't jump around in the listview if (0 == iRet) { iRet = Compare64((LPARAM)this->m_hwnd, (LPARAM)pOther->m_hwnd); } return (iRet * g_iTaskSortDirection); } // REVIEW (Davepl) The next three functions have very close parallels // in the process page code. Consider generalizing them to eliminate // duplication /*++ InsertIntoSortedArray Class Description: Sticks a CTaskInfo ptr into the ptrarray supplied at the appropriate location based on the current sort column (which is used by the Compare member function) Arguments: pArray - The CPtrArray to add to pProc - The CTaskInfo object to add to the array Return Value: TRUE if successful, FALSE if fails Revision History: Nov-20-95 Davepl Created */ // REVIEW (davepl) Use binary insert here, not linear BOOL InsertIntoSortedArray(CPtrArray * pArray, CTaskInfo * pTask) { INT cItems = pArray->GetSize(); for (INT iIndex = 0; iIndex < cItems; iIndex++) { CTaskInfo * pTmp = (CTaskInfo *) pArray->GetAt(iIndex); if (pTask->Compare(pTmp) < 0) { return pArray->InsertAt(iIndex, pTask); } } return pArray->Add(pTask); } /*++ ResortTaskArray Function Description: Creates a new ptr array sorted in the current sort order based on the old array, and then replaces the old with the new Arguments: ppArray - The CPtrArray to resort Return Value: TRUE if successful, FALSE if fails Revision History: Nov-21-95 Davepl Created */ BOOL ResortTaskArray(CPtrArray ** ppArray) { // Create a new array which will be sorted in the new // order and used to replace the existing array CPtrArray * pNew = new CPtrArray(GetProcessHeap()); if (NULL == pNew) { return FALSE; } // Insert each of the existing items in the old array into // the new array in the correct spot INT cItems = (*ppArray)->GetSize(); for (int i = 0; i < cItems; i++) { CTaskInfo * pItem = (CTaskInfo *) (*ppArray)->GetAt(i); if (FALSE == InsertIntoSortedArray(pNew, pItem)) { delete pNew; return FALSE; } } // Kill off the old array, replace it with the new delete (*ppArray); (*ppArray) = pNew; return TRUE; } /*++ CTaskPage::~CTaskPage() Destructor */ CTaskPage::~CTaskPage() { RemoveAllTasks(); delete m_pTaskArray; } void CTaskPage::RemoveAllTasks() { if (m_pTaskArray) { INT c = m_pTaskArray->GetSize(); while (c) { delete (CTaskInfo *) (m_pTaskArray->GetAt(c - 1)); c--; } } } /*++ CTaskPage::UpdateTaskListview Class Description: Walks the listview and checks to see if each line in the listview matches the corresponding entry in our process array. Those which differe by HWND are replaced, and those that need updating are updated. Items are also added and removed to/from the tail of the listview as required. Arguments: Return Value: HRESULT Revision History: Nov-29-95 Davepl Created */ HRESULT CTaskPage::UpdateTaskListview() { HWND hListView = GetDlgItem(m_hPage, IDC_TASKLIST); // Stop repaints while we party on the listview SendMessage(hListView, WM_SETREDRAW, FALSE, 0); // If the view mode has changed, update it now if (m_vmViewMode != g_Options.m_vmViewMode) { m_vmViewMode = g_Options.m_vmViewMode; DWORD dwStyle = GetWindowLong(hListView, GWL_STYLE); dwStyle &= ~(LVS_TYPEMASK); if (g_Options.m_vmViewMode == VM_SMALLICON) { ListView_SetImageList(hListView, m_himlSmall, LVSIL_SMALL); dwStyle |= LVS_SMALLICON | LVS_AUTOARRANGE; } else if (g_Options.m_vmViewMode == VM_DETAILS) { ListView_SetImageList(hListView, m_himlSmall, LVSIL_SMALL); dwStyle |= LVS_REPORT; } else { Assert(g_Options.m_vmViewMode == VM_LARGEICON); ListView_SetImageList(hListView, m_himlLarge, LVSIL_NORMAL); dwStyle |= LVS_ICON | LVS_AUTOARRANGE; } ListView_DeleteAllItems(hListView); SetWindowLong(hListView, GWL_STYLE, dwStyle); } INT cListViewItems = ListView_GetItemCount(hListView); INT CTaskArrayItems = m_pTaskArray->GetSize(); // Walk the existing lines in the listview and replace/update // them as needed for (INT iCurrent = 0; iCurrent < cListViewItems && iCurrent < CTaskArrayItems; iCurrent++) { LV_ITEM lvitem = { 0 }; lvitem.mask = LVIF_PARAM | LVIF_TEXT | LVIF_IMAGE; lvitem.iItem = iCurrent; if (FALSE == ListView_GetItem(hListView, &lvitem)) { SendMessage(hListView, WM_SETREDRAW, TRUE, 0); return E_FAIL; } CTaskInfo * pTmp = (CTaskInfo *) lvitem.lParam; CTaskInfo * pTask = (CTaskInfo *) m_pTaskArray->GetAt(iCurrent); if (pTmp != pTask || pTask->m_fDirty) { // If the objects aren't the same, we need to replace this line lvitem.pszText = pTask->m_pszWindowTitle; lvitem.lParam = (LPARAM) pTask; if (g_Options.m_vmViewMode == VM_LARGEICON) { lvitem.iImage = pTask->m_iLargeIcon; } else { lvitem.iImage = pTask->m_iSmallIcon; } ListView_SetItem(hListView, &lvitem); ListView_RedrawItems(hListView, iCurrent, iCurrent); pTask->m_fDirty = 0; } } // We've either run out of listview items or run out of Task array // entries, so remove/add to the listview as appropriate while (iCurrent < cListViewItems) { // Extra items in the listview (processes gone away), so remove them ListView_DeleteItem(hListView, iCurrent); cListViewItems--; } while (iCurrent < CTaskArrayItems) { // Need to add new items to the listview (new tasks appeared) CTaskInfo * pTask = (CTaskInfo *)m_pTaskArray->GetAt(iCurrent); LV_ITEM lvitem = { 0 }; lvitem.mask = LVIF_PARAM | LVIF_TEXT | LVIF_IMAGE; lvitem.iItem = iCurrent; lvitem.pszText = pTask->m_pszWindowTitle; lvitem.lParam = (LPARAM) pTask; lvitem.iImage = pTask->m_iLargeIcon; // The first item added (actually, every 0 to 1 count transition) gets // selected and focused if (iCurrent == 0) { lvitem.state = LVIS_SELECTED | LVIS_FOCUSED; lvitem.stateMask = lvitem.state; lvitem.mask |= LVIF_STATE; } ListView_InsertItem(hListView, &lvitem); pTask->m_fDirty = 0; iCurrent++; } // Let the listview paint again SendMessage(hListView, WM_SETREDRAW, TRUE, 0); return S_OK; } /*++ CTasKPage::EnsureWindowsNotMinimized Routine Description: Walks an array of HWNDS and ensure the windows are not minimized, which would prevent them from being cascaded to tiles properly Arguments: aHwnds - Array of window handles dwCount- Number of HWNDS in table Return Value: Revision History: Dec-06-95 Davepl Created */ void CTaskPage::EnsureWindowsNotMinimized(HWND aHwnds[], DWORD dwCount) { for (UINT i = 0; i < dwCount; i++) { if (IsIconic(aHwnds[i])) { ShowWindow(aHwnds[i], SW_RESTORE); } } } /*++ CTaslPage::GetSelectedHWNDS Routine Description: Returns a dynamically allocated array of HWNDS based on the ones selected in the task list Arguments: pdwCount- Number of HWNDS in t`able Return Value: HWND[], or NULL on failure Revision History: Dec-05-95 Davepl Created */ HWND * CTaskPage::GetHWNDS(BOOL fSelectedOnly, DWORD * pdwCount) { CPtrArray * pArray = NULL; if (fSelectedOnly) { // If we only want selected tasks, go and get the array // of selected listview tasks pArray = GetSelectedTasks(); if (NULL == pArray) { return NULL; } } else { // If we want everything, just make a copy of the TaskArray pArray = new CPtrArray(GetProcessHeap()); if (FALSE == pArray->Copy(*m_pTaskArray)) { delete pArray; *pdwCount = 0; return FALSE; } } // No windows to speak of, so bail *pdwCount = pArray->GetSize(); if (*pdwCount == 0) { delete pArray; return NULL; } HWND * pHwnds = (HWND *) LocalAlloc(0, *pdwCount * sizeof(HWND)); if (NULL == pHwnds) { *pdwCount = 0; } else { for (UINT i = 0; i < *pdwCount; i++) { pHwnds[i] = (((CTaskInfo *) (pArray->GetAt(i)) )->m_hwnd); } } delete pArray; return pHwnds; } /*++ CTaskPage::GetSelectedTasks Routine Description: Returns a CPtrArray of the selected tasks Arguments: Return Value: CPtrArray on success, NULL on failure Revision History: Dec-01-95 Davepl Created */ CPtrArray * CTaskPage::GetSelectedTasks() { BOOL fSuccess = TRUE; // Get the count of selected items HWND hTaskList = GetDlgItem(m_hPage, IDC_TASKLIST); INT cItems = ListView_GetSelectedCount(hTaskList); if (0 == cItems) { return NULL; } // Create a CPtrArray to hold the task items CPtrArray * pArray = new CPtrArray(GetProcessHeap()); if (NULL == pArray) { return NULL; } INT iLast = -1; for (INT i = 0; i < cItems; i++) { // Get the Nth selected item INT iItem = ListView_GetNextItem(hTaskList, iLast, LVNI_SELECTED); if (-1 == iItem) { fSuccess = FALSE; break; } iLast = iItem; // Pull the item from the listview and add it to the selected array LV_ITEM lvitem = { LVIF_PARAM }; lvitem.iItem = iItem; if (ListView_GetItem(hTaskList, &lvitem)) { LPVOID pTask = (LPVOID) (lvitem.lParam); if (FALSE == pArray->Add(pTask)) { fSuccess = FALSE; break; } } else { fSuccess = FALSE; break; } } // Any errors, clean up the array and bail. We don't release the // tasks in the array, since they are owned by the listview. if (FALSE == fSuccess && NULL != pArray) { delete pArray; return NULL; } return pArray; } /*++ CProcPage::HandleTaskListContextMenu Routine Description: Handles right-clicks (context menu) in the task list Arguments: xPos, yPos - coords of where the click occurred Return Value: Revision History: Dec-01-95 Davepl Created */ void CTaskPage::HandleTaskListContextMenu(INT xPos, INT yPos) { HWND hTaskList = GetDlgItem(m_hPage, IDC_TASKLIST); CPtrArray * pArray = GetSelectedTasks(); if (pArray) { // If non-mouse-based context menu, use the currently selected // item as the coords if (0xFFFF == LOWORD(xPos) && 0xFFFF == LOWORD(yPos)) { int iSel = ListView_GetNextItem(hTaskList, -1, LVNI_SELECTED); RECT rcItem; ListView_GetItemRect(hTaskList, iSel, &rcItem, LVIR_ICON); MapWindowRect(hTaskList, NULL, &rcItem); xPos = rcItem.right; yPos = rcItem.bottom; } HMENU hPopup = LoadPopupMenu(g_hInstance, IDR_TASK_CONTEXT); if (hPopup) { SetMenuDefaultItem(hPopup, IDM_TASK_SWITCHTO, FALSE); // If single-selection, disable the items that require multiple // selections to make sense if (pArray->GetSize() < 2) { EnableMenuItem(hPopup, IDM_TASK_CASCADE, MF_GRAYED | MF_DISABLED | MF_BYCOMMAND); EnableMenuItem(hPopup, IDM_TASK_TILEHORZ, MF_GRAYED | MF_DISABLED | MF_BYCOMMAND); EnableMenuItem(hPopup, IDM_TASK_TILEVERT, MF_GRAYED | MF_DISABLED | MF_BYCOMMAND); } EnableMenuItem(hPopup, IDM_TASK_BRINGTOFRONT, MF_BYCOMMAND | ((pArray->GetSize() == 1) ? MF_ENABLED : (MF_DISABLED | MF_GRAYED))); Pause(); g_fInPopup = TRUE; TrackPopupMenuEx(hPopup, 0, xPos, yPos, m_hPage, NULL); g_fInPopup = FALSE; // Note that we don't "unpause" until one of the menu commands (incl CANCEL) is // selected or the menu is dismissed DestroyMenu(hPopup); } delete pArray; } else { HMENU hPopup = LoadPopupMenu(g_hInstance, IDR_TASKVIEW); if (hPopup && SHRestricted(REST_NORUN)) { DeleteMenu(hPopup, IDM_RUN, MF_BYCOMMAND); } UINT id; if (m_vmViewMode == VM_LARGEICON) { id = IDM_LARGEICONS; } else if (m_vmViewMode == VM_SMALLICON) { id = IDM_SMALLICONS; } else { Assert(m_vmViewMode == VM_DETAILS); id = IDM_DETAILS; } if (hPopup) { CheckMenuRadioItem(hPopup, IDM_LARGEICONS, IDM_DETAILS, id, MF_BYCOMMAND); g_fInPopup = TRUE; TrackPopupMenuEx(hPopup, 0, xPos, yPos, m_hPage, NULL); g_fInPopup = FALSE; DestroyMenu(hPopup); } } } /*++ CTaskPage::UpdateUIState Routine Description: Updates the enabled/disabled states, etc., of the task UI Arguments: Return Value: Revision History: Dec-04-95 Davepl Created */ // Controls which are enabled only for any selection static const UINT g_aSingleIDs[] = { IDC_ENDTASK, IDC_SWITCHTO, }; void CTaskPage::UpdateUIState() { INT i; // Set the state for controls which require a selection (1 or more items) for (i = 0; i < ARRAYSIZE(g_aSingleIDs); i++) { EnableWindow(GetDlgItem(m_hPage, g_aSingleIDs[i]), m_cSelected > 0); } if (g_Options.m_iCurrentPage == 0) { CPtrArray * pArray = GetSelectedTasks(); if (pArray) { UINT state; if (pArray->GetSize() == 1) { state = MF_GRAYED | MF_DISABLED; } else { state = MF_ENABLED; } HMENU hMain = GetMenu(g_hMainWnd); EnableMenuItem(hMain , IDM_TASK_CASCADE, state | MF_BYCOMMAND); EnableMenuItem(hMain , IDM_TASK_TILEHORZ, state | MF_BYCOMMAND); EnableMenuItem(hMain , IDM_TASK_TILEVERT, state | MF_BYCOMMAND); EnableMenuItem(hMain, IDM_TASK_BRINGTOFRONT, MF_BYCOMMAND | ((pArray->GetSize() == 1) ? MF_ENABLED : (MF_DISABLED | MF_GRAYED))); delete pArray; } } } /*++ CTaskPage::HandleTaskPageNotify Routine Description: Processes WM_NOTIFY messages received by the taskpage dialog Arguments: hWnd - Control that generated the WM_NOTIFY pnmhdr - Ptr to the NMHDR notification stucture Return Value: BOOL "did we handle it" code Revision History: Nov-29-95 Davepl Created */ INT CTaskPage::HandleTaskPageNotify(HWND hWnd, LPNMHDR pnmhdr) { switch(pnmhdr->code) { case NM_DBLCLK: { SendMessage(m_hPage, WM_COMMAND, IDC_SWITCHTO, 0); break; } // If the (selection) state of an item is changing, see if // the count has changed, and if so, update the UI case LVN_ITEMCHANGED: { const NM_LISTVIEW * pnmv = (const NM_LISTVIEW *) pnmhdr; if (pnmv->uChanged & LVIF_STATE) { UINT cSelected = ListView_GetSelectedCount(GetDlgItem(m_hPage, IDC_TASKLIST)); if (cSelected != m_cSelected) { m_cSelected = cSelected; UpdateUIState(); } } break; } case LVN_COLUMNCLICK: { // User clicked a header control, so set the sort column. If its the // same as the current sort column, just invert the sort direction in // the column. Then resort the task array const NM_LISTVIEW * pnmv = (const NM_LISTVIEW *) pnmhdr; if (g_iTaskSortColumnID == g_ActiveTaskCol[pnmv->iSubItem]) { g_iTaskSortDirection *= -1; } else { g_iTaskSortColumnID = g_ActiveTaskCol[pnmv->iSubItem]; g_iTaskSortDirection = -1; } ResortTaskArray(&m_pTaskArray); TimerEvent(); break; } case LVN_GETDISPINFO: { LV_ITEM * plvitem = &(((LV_DISPINFO *) pnmhdr)->item); // Listview needs a text string if (plvitem->mask & LVIF_TEXT) { TASKCOLUMNID columnid = (TASKCOLUMNID) g_ActiveTaskCol[plvitem->iSubItem]; const CTaskInfo * pTaskInfo = (const CTaskInfo *) plvitem->lParam; switch(columnid) { case COL_TASKNAME: lstrcpyn(plvitem->pszText, pTaskInfo->m_pszWindowTitle, plvitem->cchTextMax); plvitem->mask |= LVIF_DI_SETITEM; break; case COL_TASKSTATUS: { if (pTaskInfo->m_fHung) { lstrcpyn(plvitem->pszText, g_szHung, plvitem->cchTextMax); } else { lstrcpyn(plvitem->pszText, g_szRunning, plvitem->cchTextMax); } break; } case COL_TASKWINSTATION: lstrcpyn(plvitem->pszText, pTaskInfo->m_lpWinsta, plvitem->cchTextMax); plvitem->mask |= LVIF_DI_SETITEM; break; case COL_TASKDESKTOP: lstrcpyn(plvitem->pszText, pTaskInfo->m_lpDesktop, plvitem->cchTextMax); plvitem->mask |= LVIF_DI_SETITEM; break; default: Assert( 0 && "Unknown listview subitem" ); break; } // end switch(columnid) } // end LVIF_TEXT case } // end LVN_GETDISPINFO case } // end switch(pnmhdr->code) return 1; } /*++ DoEnumWindowStations Routine Description: Does an EnumWindowStations on a new thread, since the thread needs to bop around to various window stations, which isn't allow for the main thread since it owns windows. This app is really single-threaded, and written with assumptions based on that, so the calling thread blocks until the new thread has completed the job. Arguments: Same as EnumWindowStations Return Value: Same as EnumWindowStations Revision History: Nov-29-95 Davepl Created */ DWORD WorkerThread(LPVOID pv) { THREADPARAM * ptp = (THREADPARAM *) pv; while(1) { // Wait for a signal from the main thread before proceeding WaitForSingleObject(ptp->m_hEventChild, INFINITE); // If we are flagged for shutdown, exit now. Main thread will // be waiting on the event for us to signal that we are done with // the THREADPARAM block if (ptp->m_fThreadExit) { SetEvent(ptp->m_hEventParent); return 0; } ptp->m_fSuccess = EnumWindowStations(ptp->m_lpEnumFunc, ptp->m_lParam); SetEvent(ptp->m_hEventParent); } } BOOL CTaskPage::DoEnumWindowStations(WINSTAENUMPROC lpEnumFunc, LPARAM lParam) { DWORD dwThreadId; if (NULL == m_hEventChild) { m_hEventChild = CreateEvent(NULL, FALSE, FALSE, NULL); if (NULL == m_hEventChild) { return FALSE; } } if (NULL == m_hEventParent) { m_hEventParent = CreateEvent(NULL, FALSE, FALSE, NULL); if (NULL == m_hEventParent) { return FALSE; } } // Save the args away for the worker thread to pick up when it starts m_tp.m_lpEnumFunc = lpEnumFunc; m_tp.m_lParam = lParam; m_tp.m_hEventChild = m_hEventChild; m_tp.m_hEventParent = m_hEventParent; m_tp.m_fThreadExit = FALSE; if (NULL == m_hThread) { // Run the function call on this new thread, and wait for completion m_hThread = CreateThread(NULL, 0, WorkerThread, (LPVOID) &m_tp, 0, &dwThreadId); if (NULL == m_hThread) { return FALSE; } } SetEvent(m_hEventChild); WaitForSingleObject(m_hEventParent, INFINITE); // Return the result from the worker thread return (BOOL) m_tp.m_fSuccess; } /*++ CTaskPage::TimerEvent Routine Description: Called by main app when the update time fires. Walks every window in the system (on every desktop, in every windowstation) and adds or updates it in the task array, then removes any stale processes, and filters the results into the listview Arguments: Return Value: Revision History: Nov-29-95 Davepl Created */ VOID CTaskPage::TimerEvent() { // If this page is paused (ie: it has a context menu up, etc), we do // nothing if (m_fPaused) { return; } static LARGE_INTEGER uPassCount = {0, 0}; TASK_LIST_ENUM te; te.m_pTasks = m_pTaskArray; te.m_pPage = this; te.lpWinsta = NULL; te.lpDesk = NULL; te.uPassCount.QuadPart = uPassCount.QuadPart; // enumerate all windows and try to get the window // titles for each task if ( DoEnumWindowStations( EnumWindowStationsFunc, (LPARAM) &te )) { INT i = 0; while (i < m_pTaskArray->GetSize()) { CTaskInfo * pTaskInfo = (CTaskInfo *)(m_pTaskArray->GetAt(i)); ASSERT(pTaskInfo); // If passcount doesn't match, delete the CTaskInfo instance and remove // its pointer from the array. Note that we _don't_ increment the index // if we remove an element, since the next element would now live at // the current index after the deletion if (pTaskInfo->m_uPassCount.QuadPart != uPassCount.QuadPart) { // Find out what icons this task was using INT iLargeIcon = pTaskInfo->m_iLargeIcon; INT iSmallIcon = pTaskInfo->m_iSmallIcon; // Remove the task from the task array delete pTaskInfo; m_pTaskArray->RemoveAt(i, 1); // Remove its images from the imagelist if (iSmallIcon > 0) { VERIFY( ImageList_Remove(m_himlSmall, iSmallIcon) ); } if (iLargeIcon > 0) { VERIFY( ImageList_Remove(m_himlLarge, iLargeIcon) ); } // Fix up the icon indexes for any other tasks (whose icons were // at a higher index than the deleted process, and hence now shifted) for (int iTmp = 0; iTmp < m_pTaskArray->GetSize(); iTmp++) { CTaskInfo * pTaskTmp = (CTaskInfo *)(m_pTaskArray->GetAt(iTmp)); if (iLargeIcon && pTaskTmp->m_iLargeIcon > iLargeIcon) { pTaskTmp->m_iLargeIcon--; } if (iSmallIcon && pTaskTmp->m_iSmallIcon > iSmallIcon) { pTaskTmp->m_iSmallIcon--; } } } else { i++; } } // Selectively filter the new array into the task listview UpdateTaskListview(); } if (te.lpWinsta) { LocalFree(te.lpWinsta); } if (te.lpDesk) { LocalFree(te.lpDesk); } g_cTasks = m_pTaskArray->GetSize(); uPassCount.QuadPart++; } /*++ class CTaskInfo::SetData Class Description: Updates (or initializes) the info about a running task Arguments: hwnd - taks's hwnd lpTitle - Window title uPassCount- Current passcount, used to timestamp the last update of this object lpDesktop - task's current desktop lpWinsta - task's current windowstation fUpdate - only worry about information that can change during a task's lifetime Return Value: HRESULT Revision History: Nov-16-95 Davepl Created */ HRESULT CTaskInfo::SetData(HWND hwnd, LPTSTR lpTitle, LPTSTR lpWinsta, LPTSTR lpDesktop, LARGE_INTEGER uPassCount, BOOL fUpdateOnly) { HRESULT hr = S_OK; // Touch this CTaskInfo to indicate that it's still alive m_uPassCount.QuadPart = uPassCount.QuadPart; // For each of the fields, we check to see if anything has changed, and if // so, we mark that particular column as having changed, and update the value. // This allows me to opimize which fields of the listview to repaint, since // repainting an entire listview column causes flicker and looks bad in // general // Window Station if (!fUpdateOnly || lstrcmp(m_lpWinsta, lpWinsta)) { if (m_lpWinsta) LocalFree(m_lpWinsta); m_lpWinsta = (LPTSTR) LocalAlloc( 0, (lstrlen(lpWinsta) + 1) * sizeof(TCHAR)); if (NULL == m_lpWinsta) { return E_OUTOFMEMORY; } else { lstrcpy(m_lpWinsta, lpWinsta); } m_fDirty_COL_WINSTA = TRUE; // dprintf(TEXT("Winsta changed: %s from %s to %s\n"), m_pszWindowTitle, m_lpWinsta, lpWinsta); } // Desktop if (!fUpdateOnly || lstrcmp(m_lpDesktop, lpDesktop)) { if (m_lpDesktop) LocalFree(m_lpDesktop); m_lpDesktop = (LPTSTR) LocalAlloc( 0, (lstrlen(lpDesktop) + 1) * sizeof(TCHAR)); if (NULL == m_lpDesktop) { return E_OUTOFMEMORY; } else { lstrcpy(m_lpDesktop, lpDesktop); } m_fDirty_COL_DESKTOP = TRUE; // dprintf(TEXT("Desktop changed: %s from %s to %s\n"), m_pszWindowTitle, m_lpDesktop, lpDesktop); } // Title if (!fUpdateOnly || lstrcmp(m_pszWindowTitle, lpTitle)) { if (m_pszWindowTitle) LocalFree(m_pszWindowTitle); m_pszWindowTitle = (LPTSTR) LocalAlloc( 0, (lstrlen(lpTitle) + 1) * sizeof(TCHAR)); if (NULL == m_pszWindowTitle) { return E_OUTOFMEMORY; } else { lstrcpy(m_pszWindowTitle, lpTitle); } m_fDirty_COL_TITLE = TRUE; // dprintf(TEXT("Title changed: %s from %s to %s\n"), m_pszWindowTitle, m_pszWindowTitle, lpTitle); } // App status (hung / not hung) BOOL fHung = IsHungAppWindow(hwnd); if (fHung != m_fHung) { m_fHung = fHung; m_fDirty_COL_STATUS = TRUE; // dprintf(TEXT("Status changed: %s\n"), m_pszWindowTitle); } // Window handle if (m_hwnd != hwnd) { m_hwnd = hwnd; m_fDirty_COL_HWND = TRUE; // dprintf(TEXT("Handle changed: %s\n"), m_pszWindowTitle); } // Icons #define ICON_FETCH_TIMEOUT 100 if (!fUpdateOnly) { m_hSmallIcon = NULL; m_hLargeIcon = NULL; if (!SendMessageTimeout(hwnd, WM_GETICON, 0, 0, SMTO_BLOCK | SMTO_ABORTIFHUNG, ICON_FETCH_TIMEOUT, (PULONG_PTR) &m_hSmallIcon) || NULL == m_hSmallIcon) { m_hSmallIcon = (HICON) GetClassLongPtr(hwnd, GCLP_HICONSM); } if (!SendMessageTimeout(hwnd, WM_GETICON, 1, 0, SMTO_BLOCK | SMTO_ABORTIFHUNG, ICON_FETCH_TIMEOUT, (PULONG_PTR) &m_hLargeIcon) || NULL == m_hLargeIcon) { m_hLargeIcon = (HICON) GetClassLongPtr(hwnd, GCLP_HICON); } } return S_OK; } /*++ Routine Description: Callback function for windowstation enumeration. Arguments: lpstr - windowstation name lParam - ** not used ** Return Value: TRUE - continues the enumeration */ BOOL CALLBACK EnumWindowStationsFunc(LPTSTR lpstr, LPARAM lParam) { PTASK_LIST_ENUM te = (PTASK_LIST_ENUM)lParam; HWINSTA hwinsta; HWINSTA hwinstaSave; DWORD ec; // open the windowstation hwinsta = OpenWindowStation( lpstr, FALSE, MAXIMUM_ALLOWED ); if (!hwinsta) { // If we fail because we don't have sufficient access to this // desktop, we should continue the enumeration anyway. return TRUE; } // save the current windowstation hwinstaSave = GetProcessWindowStation(); // change the context to the new windowstation if (!SetProcessWindowStation( hwinsta )) { ec = GetLastError(); SetProcessWindowStation( hwinstaSave ); CloseWindowStation( hwinsta ); if (hwinsta != hwinstaSave) CloseWindowStation( hwinstaSave ); return TRUE; } // Update the windowstation in the enumerator if (te->lpWinsta) { LocalFree(te->lpWinsta); } te->lpWinsta = (LPTSTR) LocalAlloc( 0, (lstrlen(lpstr) + 1) * sizeof(TCHAR)); if (NULL == te->lpWinsta) { if (hwinsta != hwinstaSave) { SetProcessWindowStation( hwinstaSave ); CloseWindowStation( hwinsta ); } CloseWindowStation( hwinstaSave ); // We technically could continue, but if we're this strapped for // memory, there's not much point. Let's bail on the winsta enumeration. return FALSE; } else { lstrcpy(te->lpWinsta, lpstr); } // enumerate all the desktops for this windowstation EnumDesktops( hwinsta, EnumDesktopsFunc, lParam ); // restore the context to the previous windowstation if (hwinsta != hwinstaSave) { SetProcessWindowStation( hwinstaSave ); CloseWindowStation( hwinsta ); } // continue the enumeration return TRUE; } /*++ Routine Description: Callback function for desktop enumeration. Arguments: lpstr - desktop name lParam - ** not used ** Return Value: TRUE - continues the enumeration */ BOOL CALLBACK EnumDesktopsFunc(LPTSTR lpstr, LPARAM lParam) { PTASK_LIST_ENUM te = (PTASK_LIST_ENUM)lParam; HDESK hdeskSave; HDESK hdesk; DWORD ec; // open the desktop hdesk = OpenDesktop( lpstr, 0, FALSE, MAXIMUM_ALLOWED ); if (!hdesk) { return FALSE; } // save the current desktop hdeskSave = GetThreadDesktop( GetCurrentThreadId() ); // change the context to the new desktop if (!SetThreadDesktop( hdesk )) { ec = GetLastError(); SetThreadDesktop( hdeskSave ); if (g_hMainDesktop != hdesk) { CloseDesktop( hdesk ); } if (g_hMainDesktop != hdeskSave) { CloseDesktop( hdeskSave ); } return TRUE; } // Update the desktop in the enumerator if (te->lpDesk) { LocalFree(te->lpDesk); } te->lpDesk = (LPTSTR) LocalAlloc( 0, (lstrlen(lpstr) + 1) * sizeof(TCHAR)); if (NULL == te->lpDesk) { if (hdesk != hdeskSave) { SetThreadDesktop( hdeskSave ); } if (g_hMainDesktop != hdesk) { CloseDesktop( hdesk ); } if (g_hMainDesktop != hdeskSave) { CloseDesktop( hdeskSave ); } return FALSE; } else { lstrcpy(te->lpDesk, lpstr); } // enumerate all windows in the new desktop EnumWindows( (WNDENUMPROC) EnumWindowsProc, lParam ); // restore the previous desktop if (hdesk != hdeskSave) { SetThreadDesktop( hdeskSave ); } if (g_hMainDesktop != hdesk) { CloseDesktop( hdesk ); } if (g_hMainDesktop != hdeskSave) { CloseDesktop( hdeskSave ); } return TRUE; } /*++ Routine Description: Callback function for window enumeration. Arguments: hwnd - window handle lParam - ** not used ** Return Value: TRUE - continues the enumeration */ BOOL CALLBACK EnumWindowsProc(HWND hwnd, LPARAM lParam) { DWORD pid = 0; DWORD i; PTASK_LIST_ENUM te = (PTASK_LIST_ENUM)lParam; DWORD numTasks = te->m_pTasks->GetSize(); TCHAR szTitle[MAX_PATH]; if ((GetWindow( hwnd, GW_OWNER )) || (!IsWindowVisible(hwnd))) { // not a top level window, or not visible return TRUE; } if (FALSE == InternalGetWindowText(hwnd, szTitle, ARRAYSIZE(szTitle))) { // Can't get the title - something weird going on.. but continue anyway return TRUE; } if (TEXT('\0') == szTitle[0]) { // Empty title - of little value in the task list return TRUE; } if (hwnd == g_hMainWnd) { // Don't show the Task Manager in the list return TRUE; } if (0 == lstrcmpi(szTitle, TEXT("Program Manager"))) { // Don't show the Program Manager (explorer) in the list return TRUE; } // look for the task in the task list for this window for (i=0; i < numTasks; i++) { CTaskInfo * pTask = (CTaskInfo *) te->m_pTasks->GetAt(i); if (pTask->m_hwnd == hwnd) { // Update the task info if (FAILED(pTask->SetData(hwnd, szTitle, te->lpWinsta, te->lpDesk, te->uPassCount, TRUE))) { return FALSE; } pTask->m_uPassCount.QuadPart = te->uPassCount.QuadPart; break; } } if (i >= numTasks) { // Didn't find the task, it must be a new one CTaskInfo * pTask = new CTaskInfo; if (NULL == pTask) { return FALSE; } // Init the task data. If fails, delete and bail if (FAILED(pTask->SetData(hwnd, szTitle, te->lpWinsta, te->lpDesk, te->uPassCount, FALSE))) { delete pTask; return FALSE; } else { // Add the icons to the page's imagelist if (!pTask->m_hLargeIcon && !pTask->m_hSmallIcon) { pTask->m_iLargeIcon = 0; pTask->m_iSmallIcon = 0; } else { // The indices to the small and large icons for a task must // always be the same; so, if one size is missing, use the icon // of the other size (stretched). All the resizing is taken // care of for us by ImageList_AddIcon(), since it's already // had a fixed size set on it and will force any added icon // into that size. pTask->m_iLargeIcon = ImageList_AddIcon(te->m_pPage->m_himlLarge, pTask->m_hLargeIcon ? pTask->m_hLargeIcon : pTask->m_hSmallIcon); if (-1 == pTask->m_iLargeIcon) { delete pTask; return FALSE; } pTask->m_iSmallIcon = ImageList_AddIcon(te->m_pPage->m_himlSmall, pTask->m_hSmallIcon ? pTask->m_hSmallIcon : pTask->m_hLargeIcon); if (-1 == pTask->m_iSmallIcon) { ImageList_Remove(te->m_pPage->m_himlLarge, pTask->m_iLargeIcon); delete pTask; return FALSE; } } // All went well, so add it to the array if (!(te->m_pTasks->Add( (LPVOID) pTask))) { delete pTask; return FALSE; } } } // continue the enumeration return TRUE; } /*++ CTaskPage::SizeTaskPage Routine Description: Sizes its children based on the size of the tab control on which it appears. Arguments: Return Value: Revision History: Nov-29-95 Davepl Created */ static const INT aTaskControls[] = { IDC_SWITCHTO, IDC_ENDTASK, IDM_RUN }; void CTaskPage::SizeTaskPage() { // Get the coords of the outer dialog RECT rcParent; GetClientRect(m_hPage, &rcParent); HDWP hdwp = BeginDeferWindowPos(10); // Calc the deltas in the x and y positions that we need to // move each of the child controls RECT rcMaster; HWND hwndMaster = GetDlgItem(m_hPage, IDM_RUN); GetWindowRect(hwndMaster, &rcMaster); MapWindowPoints(HWND_DESKTOP, m_hPage, (LPPOINT) &rcMaster, 2); INT dx = ((rcParent.right - g_DefSpacing * 2) - rcMaster.right); INT dy = ((rcParent.bottom - g_DefSpacing * 2) - rcMaster.bottom); // Size the listbox HWND hwndListbox = GetDlgItem(m_hPage, IDC_TASKLIST); RECT rcListbox; GetWindowRect(hwndListbox, &rcListbox); MapWindowPoints(HWND_DESKTOP, m_hPage, (LPPOINT) &rcListbox, 2); INT lbX = rcMaster.right - rcListbox.left + dx; INT lbY = rcMaster.top - rcListbox.top + dy - g_DefSpacing; DeferWindowPos(hdwp, hwndListbox, NULL, 0, 0, lbX, lbY, SWP_NOMOVE | SWP_NOZORDER | SWP_NOACTIVATE); #if 0 // This is handy, but the listview repaint is horrible // Adjust the first column width to be the width of the listbox // less the size of the status column INT cxStatus = ListView_GetColumnWidth(hwndListbox, 1); if (lbX - cxStatus > 0) { ListView_SetColumnWidth(hwndListbox, 0, lbX - cxStatus); } #endif // Move each of the child controls by the above delta for (int i = 0; i < ARRAYSIZE(aTaskControls); i++) { HWND hwndCtrl = GetDlgItem(m_hPage, aTaskControls[i]); RECT rcCtrl; GetWindowRect(hwndCtrl, &rcCtrl); MapWindowPoints(HWND_DESKTOP, m_hPage, (LPPOINT) &rcCtrl, 2); DeferWindowPos(hdwp, hwndCtrl, NULL, rcCtrl.left + dx, rcCtrl.top + dy, 0, 0, SWP_NOSIZE | SWP_NOZORDER | SWP_NOACTIVATE); } EndDeferWindowPos(hdwp); } /*++ CTaskPage::HandleWMCOMMAND Routine Description: Handles WM_COMMANDS received at the main page dialog Arguments: id - Command id of command received Return Value: Revision History: Dec-01-95 Davepl Created */ void CTaskPage::HandleWMCOMMAND(INT id) { switch(id) { case IDM_TASK_FINDPROCESS: { DWORD dwCount; HWND * pHwnds = GetHWNDS(TRUE, &dwCount); // Send a message to the main window telling it to // switch pages and select the process in question in // the process view if (pHwnds) { DWORD pid = 0; DWORD tid; tid = GetWindowThreadProcessId(pHwnds[0], &pid); if (pid) { PostMessage(g_hMainWnd, WM_FINDPROC, tid, pid); } LocalFree(pHwnds); } break; } // These menu items (from the popup) have matching ones in the main menu, // so just pass them along to the main menu case IDM_LARGEICONS: case IDM_SMALLICONS: case IDM_DETAILS: case IDM_RUN: { SendMessage(g_hMainWnd, WM_COMMAND, MAKELPARAM(id, 0), 0); break; } case IDM_TASK_SWITCHTO: case IDC_SWITCHTO: { DWORD dwCount; HWND * pHwnds = GetHWNDS(m_cSelected, &dwCount); if (pHwnds) { // If target is minimized, restore it if (IsIconic(pHwnds[0])) { ShowWindow(pHwnds[0], SW_RESTORE); } // Switch to the target window, and if the options dictate, // minimize the taskmanager HWND hwndLastActive = GetLastActivePopup(pHwnds[0]); if (!IsWindow(hwndLastActive)) { MessageBeep(0); LocalFree(pHwnds); break; } // Can really only switch if the window is not disabled LONG lTemp = GetWindowLong(hwndLastActive, GWL_STYLE); if (0 == (lTemp & WS_DISABLED)) { // Use SwitchToThisWindow() to bring dialog parents as well. SwitchToThisWindow(hwndLastActive, TRUE); if (g_Options.m_fMinimizeOnUse) { ShowWindow(g_hMainWnd, SW_MINIMIZE); } } else { MessageBeep(0); } LocalFree(pHwnds); } break; } case IDC_TILEHORZ: case IDM_TASK_TILEHORZ: { DWORD dwCount; HWND * pHwnds = GetHWNDS(m_cSelected, &dwCount); if (pHwnds) { EnsureWindowsNotMinimized(pHwnds, dwCount); } TileWindows(GetDesktopWindow(), MDITILE_HORIZONTAL, NULL, dwCount, pHwnds); if (pHwnds) { LocalFree(pHwnds); } break; } case IDM_TASK_TILEVERT: { DWORD dwCount; HWND * pHwnds = GetHWNDS(m_cSelected, &dwCount); if (pHwnds) { EnsureWindowsNotMinimized(pHwnds, dwCount); } TileWindows(GetDesktopWindow(), MDITILE_VERTICAL, NULL, dwCount, pHwnds); if (pHwnds) { LocalFree(pHwnds); } break; } case IDM_TASK_CASCADE: { DWORD dwCount; HWND * pHwnds = GetHWNDS(m_cSelected, &dwCount); if (pHwnds) { EnsureWindowsNotMinimized(pHwnds, dwCount); } CascadeWindows(GetDesktopWindow(), 0, NULL, dwCount, pHwnds); if (pHwnds) { LocalFree(pHwnds); } break; } case IDM_TASK_MINIMIZE: case IDM_TASK_MAXIMIZE: { DWORD dwCount; // If some selected, just get them, else get all HWND * pHwnds = GetHWNDS(m_cSelected, &dwCount); if (pHwnds) { for (UINT i = 0; i < dwCount; i++) { ShowWindowAsync(pHwnds[i], (id == IDC_MINIMIZE || id == IDM_TASK_MINIMIZE) ? SW_MINIMIZE : SW_MAXIMIZE); } LocalFree(pHwnds); } break; } case IDM_TASK_BRINGTOFRONT: { DWORD dwCount; HWND * pHwnds = GetHWNDS(TRUE, &dwCount); if (pHwnds) { EnsureWindowsNotMinimized(pHwnds, dwCount); // Walk backwards through the list so that the first window selected // in on top for (INT i = (INT) dwCount - 1; i >= 0 ; i--) { SetWindowPos(pHwnds[i], HWND_TOP, 0, 0, 0, 0, SWP_NOSIZE | SWP_NOMOVE); } DWORD dwProc; if (GetWindowThreadProcessId(pHwnds[0], &dwProc)) AllowSetForegroundWindow(dwProc); SetForegroundWindow(pHwnds[0]); LocalFree(pHwnds); } break; } case IDC_ENDTASK: case IDM_TASK_ENDTASK: { DWORD dwCount; HWND * pHwnds = GetHWNDS(TRUE, &dwCount); if (pHwnds) { BOOL fForce = GetKeyState(VK_CONTROL) & ( 1 << 16) ? TRUE : FALSE; for(UINT i = 0; i < dwCount; i++) { // SetActiveWindow(aHwnds[i]); EndTask(pHwnds[i], FALSE, fForce); } LocalFree(pHwnds); } break; } default: break; } Unpause(); } /*++ TaskPageProc Routine Description: Dialogproc for the task manager page. Arguments: hwnd - handle to dialog box uMsg - message wParam - first message parameter lParam - second message parameter Return Value: For WM_INITDIALOG, TRUE == success For others, TRUE == this proc handles the message Revision History: Nov-28-95 Davepl Created */ INT_PTR CALLBACK TaskPageProc( HWND hwnd, // handle to dialog box UINT uMsg, // message WPARAM wParam, // first message parameter LPARAM lParam // second message parameter ) { CTaskPage * thispage = (CTaskPage *) GetWindowLongPtr(hwnd, GWLP_USERDATA); // See if the parent wants this message if (TRUE == CheckParentDeferrals(uMsg, wParam, lParam)) { return TRUE; } switch(uMsg) { case WM_INITDIALOG: { SetWindowLongPtr(hwnd, GWLP_USERDATA, lParam); CTaskPage * thispage = (CTaskPage *) lParam; thispage->m_hPage = hwnd; HWND hTaskList = GetDlgItem(hwnd, IDC_TASKLIST); ListView_SetImageList(hTaskList, thispage->m_himlSmall, LVSIL_SMALL); // Turn on SHOWSELALWAYS so that the selection is still highlighted even // when focus is lost to one of the buttons (for example) SetWindowLong(hTaskList, GWL_STYLE, GetWindowLong(hTaskList, GWL_STYLE) | LVS_SHOWSELALWAYS); if (SHRestricted(REST_NORUN)) { EnableWindow (GetDlgItem(hwnd, IDM_RUN), FALSE); } SetFocus(GetDlgItem(hwnd, IDC_TASKLIST)); SubclassListView(GetDlgItem(hwnd, IDC_PROCLIST)); return FALSE; } // We need to fake client mouse clicks in this child to appear as nonclient // (caption) clicks in the parent so that the user can drag the entire app // when the title bar is hidden by dragging the client area of this child case WM_LBUTTONUP: case WM_LBUTTONDOWN: { if (g_Options.m_fNoTitle) { SendMessage(g_hMainWnd, uMsg == WM_LBUTTONUP ? WM_NCLBUTTONUP : WM_NCLBUTTONDOWN, HTCAPTION, lParam); } break; } case WM_COMMAND: { thispage->HandleWMCOMMAND(LOWORD(wParam)); break; } case WM_NOTIFY: { return thispage->HandleTaskPageNotify((HWND) wParam, (LPNMHDR) lParam); } case WM_MENUSELECT: { if ((UINT) HIWORD(wParam) == 0xFFFF) { // Menu dismissed, resume display thispage->Unpause(); } break; } case WM_CONTEXTMENU: { if ((HWND) wParam == GetDlgItem(hwnd, IDC_TASKLIST)) { thispage->HandleTaskListContextMenu(GET_X_LPARAM(lParam), GET_Y_LPARAM(lParam)); return TRUE; } break; } // Size our kids case WM_SIZE: { thispage->SizeTaskPage(); return TRUE; } case WM_SETTINGCHANGE: thispage->OnSettingsChange(); // fall through case WM_SYSCOLORCHANGE: SendMessage(GetDlgItem(hwnd, IDC_TASKLIST), uMsg, wParam, lParam); return TRUE; default: return FALSE; } return FALSE; } void CTaskPage::OnSettingsChange() { // in going between large-font settings and normal settings, the size of small // icons changes; so throw away all our icons and change the size of images in // our lists BOOL fPaused = m_fPaused; // pause the page so we can get through m_fPaused = TRUE; // the below without being updated RemoveAllTasks(); m_pTaskArray->RemoveAll(); m_vmViewMode = VM_INVALID; // cause an update to the list view // you'd think that since SetIconSize does a RemoveAll anyway, the // explicit RemoveAll calls are redundant; however, if SetIconSize // gets size parameters which aren't different from what it has, // it fails without doing a RemoveAll! ImageList_RemoveAll(m_himlLarge); ImageList_RemoveAll(m_himlSmall); ImageList_SetIconSize(m_himlLarge, GetSystemMetrics(SM_CXICON), GetSystemMetrics(SM_CYICON)); ImageList_SetIconSize(m_himlSmall, GetSystemMetrics(SM_CXSMICON), GetSystemMetrics(SM_CYSMICON)); LoadDefaultIcons(); // this could return an error, but if it does, // we just have to press on m_fPaused = fPaused; // restore the paused state TimerEvent(); // even if we're paused, we'll want to redraw } /*++ CTaskPage::GetTitle Routine Description: Copies the title of this page to the caller-supplied buffer Arguments: pszText - the buffer to copy to bufsize - size of buffer, in characters Return Value: Revision History: Nov-28-95 Davepl Created */ void CTaskPage::GetTitle(LPTSTR pszText, size_t bufsize) { LoadString(g_hInstance, IDS_TASKPAGETITLE, pszText, bufsize); } /*++ CTaskPage::Activate Routine Description: Brings this page to the front, sets its initial position, and shows it Arguments: Return Value: HRESULT (S_OK on success) Revision History: Nov-28-95 Davepl Created */ HRESULT CTaskPage::Activate() { // Make this page visible ShowWindow(m_hPage, SW_SHOW); SetWindowPos(m_hPage, HWND_TOP, 0, 0, 0, 0, SWP_NOMOVE | SWP_NOSIZE); SetFocus(GetDlgItem(m_hPage, IDC_TASKLIST)); // Change the menu bar to be the menu for this page HMENU hMenuOld = GetMenu(g_hMainWnd); HMENU hMenuNew = LoadMenu(g_hInstance, MAKEINTRESOURCE(IDR_MAINMENU_TASK)); if (hMenuNew && SHRestricted(REST_NORUN)) { DeleteMenu(hMenuNew, IDM_RUN, MF_BYCOMMAND); } g_hMenu = hMenuNew; if (g_Options.m_fNoTitle == FALSE) { SetMenu(g_hMainWnd, hMenuNew); } if (hMenuOld) { DestroyMenu(hMenuOld); } return S_OK; } /*++ class CTaskPage::SetupColumns Class Description: Removes any existing columns from the taskmanager listview and adds all of the columns listed in the g_ActiveTaskCol array. Arguments: Return Value: HRESULT Revision History: Nov-29-95 Davepl Created */ HRESULT CTaskPage::SetupColumns() { HWND hwndList = GetDlgItem(m_hPage, IDC_TASKLIST); if (NULL == hwndList) { return E_UNEXPECTED; } ListView_DeleteAllItems(hwndList); // Remove all existing columns LV_COLUMN lvcolumn; while(ListView_DeleteColumn(hwndList, 0)) { NULL; } // Add all of the new columns INT iColumn = 0; while (g_ActiveTaskCol[iColumn] >= 0) { INT idColumn = g_ActiveTaskCol[iColumn]; TCHAR szTitle[MAX_PATH]; LoadString(g_hInstance, IDS_FIRSTTASKCOL + idColumn, szTitle, ARRAYSIZE(szTitle)); lvcolumn.mask = LVCF_FMT | LVCF_TEXT | LVCF_TEXT | LVCF_WIDTH; lvcolumn.fmt = TaskColumnDefaults[ idColumn ].Format; lvcolumn.cx = TaskColumnDefaults[ idColumn ].Width; lvcolumn.pszText = szTitle; lvcolumn.iSubItem = iColumn; if (-1 == ListView_InsertColumn(hwndList, iColumn, &lvcolumn)) { return E_FAIL; } iColumn++; } return S_OK; } /*++ CTaskPage::Initialize Routine Description: Initializes the task manager page Arguments: hwndParent - Parent on which to base sizing on: not used for creation, since the main app window is always used as the parent in order to keep tab order correct Return Value: Revision History: Nov-28-95 Davepl Created */ HRESULT CTaskPage::Initialize(HWND hwndParent) { HRESULT hr = S_OK; UINT flags = ILC_MASK; // Create the ptr array used to hold the info on running tasks m_pTaskArray = new CPtrArray(GetProcessHeap()); if (NULL == m_pTaskArray) { hr = E_OUTOFMEMORY; } else { // Our pseudo-parent is the tab contrl, and is what we base our // sizing on. However, in order to keep tab order right among // the controls, we actually create ourselves with the main // window as the parent m_hwndTabs = hwndParent; // Create the image lists if(IS_WINDOW_RTL_MIRRORED(hwndParent)) { flags |= ILC_MIRROR; } m_himlSmall = ImageList_Create( GetSystemMetrics(SM_CXSMICON), GetSystemMetrics(SM_CYSMICON), flags, 1, 1 ); if (NULL == m_himlSmall) { hr = E_FAIL; } } if (SUCCEEDED(hr)) { m_himlLarge = ImageList_Create( GetSystemMetrics(SM_CXICON), GetSystemMetrics(SM_CYICON), flags, 1, 1 ); if (NULL == m_himlLarge) { hr = E_FAIL; } } // Load the default icons hr = LoadDefaultIcons(); if (SUCCEEDED(hr)) { // Create the dialog which represents the body of this page m_hPage = CreateDialogParam( g_hInstance, // handle to application instance MAKEINTRESOURCE(IDD_TASKPAGE), // identifies dialog box template name g_hMainWnd, // handle to owner window TaskPageProc, // pointer to dialog box procedure (LPARAM) this ); // User data (our this pointer) if (NULL == m_hPage) { hr = GetLastHRESULT(); } } if (SUCCEEDED(hr)) { // Set up the columns in the listview hr = SetupColumns(); } if (SUCCEEDED(hr)) { TimerEvent(); } // If any failure along the way, clean up what got allocated // up to that point if (FAILED(hr)) { if (m_hPage) { DestroyWindow(m_hPage); } m_hwndTabs = NULL; } return hr; } HRESULT CTaskPage::LoadDefaultIcons() { HICON hDefLarge; HICON hDefSmall; HRESULT hr = S_OK; hDefSmall = (HICON) LoadImage(g_hInstance, MAKEINTRESOURCE(IDI_DEFAULT), IMAGE_ICON, GetSystemMetrics(SM_CXSMICON), GetSystemMetrics(SM_CYSMICON), 0); if (!hDefSmall) { return GetLastHRESULT(); } if (-1 == ImageList_AddIcon(m_himlSmall, hDefSmall)) { hr = E_FAIL; } DestroyIcon(hDefSmall); hDefLarge = (HICON) LoadImage(g_hInstance, MAKEINTRESOURCE(IDI_DEFAULT), IMAGE_ICON, GetSystemMetrics(SM_CXICON), GetSystemMetrics(SM_CYICON), 0); if (!hDefLarge) { return GetLastHRESULT(); } if (-1 == ImageList_AddIcon(m_himlLarge, hDefLarge)) { hr = E_FAIL; } DestroyIcon(hDefLarge); return hr; } /*++ CTaskPage::Destroy Routine Description: Frees whatever has been allocated by the Initialize call Arguments: Return Value: Revision History: Nov-28-95 Davepl Created */ HRESULT CTaskPage::Destroy() { if (m_hPage) { DestroyWindow(m_hPage); m_hPage = NULL; } if (m_hThread) { // Signal the child thead to exit, and wait for it to do so m_tp.m_fThreadExit = TRUE; SetEvent(m_hEventChild); WaitForSingleObject(m_hEventParent, INFINITE); CloseHandle(m_hThread); m_hThread = NULL; } if (m_hEventChild) { CloseHandle(m_hEventChild); m_hEventChild = NULL; } if (m_hEventParent) { CloseHandle(m_hEventParent); m_hEventParent = NULL; } // These are freed automatically by listview m_himlSmall = NULL; m_himlLarge = NULL; return S_OK; } /*++ CTaskPage::Deactivate Routine Description: Called when this page is losing its place up front Arguments: Return Value: Revision History: Nov-28-95 Davepl Created */ void CTaskPage::Deactivate() { if (m_hPage) { ShowWindow(m_hPage, SW_HIDE); } }