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//---------------------------------------------------------------------------
//
// <copyright file="Window.cs" company="Microsoft">
// Copyright (C) Microsoft Corporation. All rights reserved.
// </copyright>
//
// Description: Implements the base Avalon Window class
//
// History
// 06/12/02 MihaiI Created
// 06/12/03 hamidm Added functionalities and moved to wcp tree
//
//---------------------------------------------------------------------------
using System.Collections;
using System.Collections.Generic;
using System.ComponentModel;
using System.Diagnostics;
using System.Globalization;
using System.Runtime.InteropServices;
using System.Security;
using System.Security.Permissions;
using System.Windows.Automation.Peers;
using System.Windows.Controls;
using System.Windows.Input;
using System.Windows.Interop;
using System.Windows.Media;
using System.Windows.Shell;
using System.Windows.Threading;
using MS.Internal;
using MS.Internal.AppModel;
using MS.Internal.Interop;
using MS.Internal.KnownBoxes;
using MS.Win32;
using HRESULT = MS.Internal.Interop.HRESULT;
using BuildInfo = MS.Internal.PresentationFramework.BuildInfo;
//In order to avoid generating warnings about unknown message numbers and
//unknown pragmas when compiling your C# source code with the actual C# compiler,
//you need to disable warnings 1634 and 1691. (Presharp Documentation)
#pragma warning disable 1634, 1691
namespace System.Windows
{
/// <summary>
///
/// </summary>
/// <SecurityNote>
/// Critical: In PartialTrust we want to not allow creation or inheritance of window
/// PublicOk: This has inheritance demand and constructor is blocked in partial trust
/// </SecurityNote>
[Localizability(LocalizationCategory.Ignore)]
[UIPermissionAttribute(SecurityAction.InheritanceDemand,Window=UIPermissionWindow.AllWindows)]
public class Window : ContentControl, IWindowService
{
//---------------------------------------------------
//
// Constructors
//
//---------------------------------------------------
#region Constructors
/// <summary>
/// Initializes the dependency ids of this class
/// </summary>
/// <SecurityNote>
/// Critical: Calls critical native method RegisterWindowMessage
/// TreatAsSafe: The class has inheritance demand and constructor is blocked in partial trust
/// </SecurityNote>
[SecurityCritical, SecurityTreatAsSafe]
static Window()
{
HeightProperty.OverrideMetadata(typeof(Window), new FrameworkPropertyMetadata(new PropertyChangedCallback(_OnHeightChanged)));
MinHeightProperty.OverrideMetadata(typeof(Window), new FrameworkPropertyMetadata(new PropertyChangedCallback(_OnMinHeightChanged)));
MaxHeightProperty.OverrideMetadata(typeof(Window), new FrameworkPropertyMetadata(new PropertyChangedCallback(_OnMaxHeightChanged)));
WidthProperty.OverrideMetadata(typeof(Window), new FrameworkPropertyMetadata(new PropertyChangedCallback(_OnWidthChanged)));
MinWidthProperty.OverrideMetadata(typeof(Window), new FrameworkPropertyMetadata(new PropertyChangedCallback(_OnMinWidthChanged)));
MaxWidthProperty.OverrideMetadata(typeof(Window), new FrameworkPropertyMetadata(new PropertyChangedCallback(_OnMaxWidthChanged)));
// override VisibilityProperty Metadata. For Window, Visibility.Visible means the Window is visible.
// Visibility.Hidden and Visibility.Collapsed mean the Window is not visible.
// Visibility.Hidden and Visibility.Collapsed are treated the same.
// We default to Visibility.Collapsed since RenderSize returns (0,0) only for
// collapsed elements and not for hidden. We want to return (0,0) when window is
// never shown.
VisibilityProperty.OverrideMetadata(typeof(Window), new FrameworkPropertyMetadata(Visibility.Collapsed, new PropertyChangedCallback(_OnVisibilityChanged), new CoerceValueCallback(CoerceVisibility)));
IsTabStopProperty.OverrideMetadata(typeof(Window), new FrameworkPropertyMetadata(BooleanBoxes.FalseBox));
KeyboardNavigation.DirectionalNavigationProperty.OverrideMetadata(typeof(Window), new FrameworkPropertyMetadata(KeyboardNavigationMode.Cycle));
KeyboardNavigation.TabNavigationProperty.OverrideMetadata(typeof(Window), new FrameworkPropertyMetadata(KeyboardNavigationMode.Cycle));
KeyboardNavigation.ControlTabNavigationProperty.OverrideMetadata(typeof(Window), new FrameworkPropertyMetadata(KeyboardNavigationMode.Cycle));
FocusManager.IsFocusScopeProperty.OverrideMetadata(typeof(Window), new FrameworkPropertyMetadata(BooleanBoxes.TrueBox));
DefaultStyleKeyProperty.OverrideMetadata(typeof(Window), new FrameworkPropertyMetadata(typeof(Window)));
_dType = DependencyObjectType.FromSystemTypeInternal(typeof(Window));
FlowDirectionProperty.OverrideMetadata(typeof(Window), new FrameworkPropertyMetadata(new PropertyChangedCallback(_OnFlowDirectionChanged)));
//
RenderTransformProperty.OverrideMetadata(typeof(Window), new FrameworkPropertyMetadata(Transform.Identity, new PropertyChangedCallback(_OnRenderTransformChanged), new CoerceValueCallback(CoerceRenderTransform)));
ClipToBoundsProperty.OverrideMetadata(typeof(Window), new FrameworkPropertyMetadata(BooleanBoxes.FalseBox, new PropertyChangedCallback(_OnClipToBoundsChanged), new CoerceValueCallback(CoerceClipToBounds)));
// Note that this event only gets raised in Windows 7 and later.
WM_TASKBARBUTTONCREATED = UnsafeNativeMethods.RegisterWindowMessage("TaskbarButtonCreated");
WM_APPLYTASKBARITEMINFO = UnsafeNativeMethods.RegisterWindowMessage("WPF_ApplyTaskbarItemInfo");
EventManager.RegisterClassHandler(typeof(Window),
UIElement.ManipulationCompletedEvent,
new EventHandler<ManipulationCompletedEventArgs>(OnStaticManipulationCompleted),
/*handledEventsToo*/ true);
EventManager.RegisterClassHandler(typeof(Window),
UIElement.ManipulationInertiaStartingEvent,
new EventHandler<ManipulationInertiaStartingEventArgs>(OnStaticManipulationInertiaStarting),
/*handledEventsToo*/ true);
Window.DpiChangedEvent = EventManager.RegisterRoutedEvent("DpiChanged", RoutingStrategy.Bubble,
typeof (System.Windows.DpiChangedEventHandler), typeof (Window));
}
/// <summary>
/// Constructs a window object
/// </summary>
/// <remarks>
/// Automatic determination of current Dispatcher. Use alternative constructor
/// that accepts a Dispatcher for best performance.
///
/// Initializes the Width/Height, Top/Left properties to use windows
/// default. Updates Application object properties if inside app.
///
/// Also, window style is set to WS_CHILD inside CreateSourceWindow
/// for browser hosted case
///
/// Callers must have UIPermission(UIPermissionWindow.AllWindows) to call this API.
/// </remarks>
/// <SecurityNote>
/// Critical: We explicitly demand all window permission currently Window creation is not available in Internet Zone.
/// _ownerHandle and _dialogOwnerHandle fields are initialized when this .ctor gets called.
/// PublicOK: The only scenarios where we're currently going to enable creation of Windows is with RootBrowserWindow.
/// This code has a demand.
/// </SecurityNote>
[SecurityCritical]
public Window()
{
SecurityHelper.DemandUnmanagedCode();
_inTrustedSubWindow = false;
Initialize();
}
/// <summary>
/// Constructs a window object
/// </summary>
/// <remarks>
/// Automatic determination of current Dispatcher. Use alternative constructor
/// that accepts a Dispatcher for best performance.
///
/// Initializes the Width/Height, Top/Left properties to use windows
/// default. Updates Application object properties if inside app.
///
/// Also, window style is set to WS_CHILD inside CreateSourceWindow
/// for browser hosted case
///
/// This method currently requires full trust to run.
/// </remarks>
/// <SecurityNote>
/// Critical - The only scenarios where we're currently going to enable creation of Windows is with RootBrowserWindow.
/// Do not ever call it from anywhere else. This is only for RBW scenario!!!
/// _ownerHandle and _dialogOwnerHandle fields are initialized when this .ctor gets called.
/// </SecurityNote>
[SecurityCritical]
internal Window(bool inRbw):base()
{
if (inRbw)
{
_inTrustedSubWindow = true;
}
else
{
_inTrustedSubWindow = false;
SecurityHelper.DemandUnmanagedCode();
}
Initialize();
}
#endregion Constructors
//---------------------------------------------------
//
// Public Methods
//
//---------------------------------------------------
#region Public Methods
/// <summary>
/// Show the window
/// </summary>
/// <remarks>
/// Calling Show on window is the same as setting the
/// Visibility property to Visibility.Visible.
/// </remarks>
public void Show()
{
VerifyContextAndObjectState();
VerifyCanShow();
VerifyNotClosing();
VerifyConsistencyWithAllowsTransparency();
// Update the property value only. Do not do anything further in
// _OnVisibilityInvalidate since we will synchronously call ShowHelper
// from here.
UpdateVisibilityProperty(Visibility.Visible);
ShowHelper(BooleanBoxes.TrueBox);
}
/// <summary>
/// Hide the window
/// </summary>
/// <remarks>
/// Calling Hide on window is the same as setting the
/// Visibility property to Visibility.Hidden
/// </remarks>
public void Hide()
{
VerifyContextAndObjectState();
if (_disposed == true)
{
return;
}
// set Visibility to Hidden even if _isVisible is false since
// _isVisible can be false b/c of Visibility = Collapsed and Hide()
// should change Visibility to Hidden.
//
// Update the property value only. Do not do anything further in
// _OnVisibilityInvalidate since we will synchronously call ShowHelper
// from here.
UpdateVisibilityProperty(Visibility.Hidden);
ShowHelper(BooleanBoxes.FalseBox);
}
/// <summary>
/// Closes the Window
/// </summary>
/// <remarks>
/// Window fires the Closing event before it closes. If the
/// user cancels the closing event, the window is not closed.
/// Otherwise, the window is closed and the Closed event is
/// fired.
///
/// Callers must have UIPermission(UIPermissionWindow.AllWindows) to call this API.
/// </remarks>
///<SecurityNote>
/// PublicOK: This API Demands UIPermission with AllWindows access
/// Critical: calls critical code (InternalClose)
///</SecurityNote>
[SecurityCritical ]
public void Close()
{
// this call ends up throwing an exception if Close
// is not allowed
VerifyApiSupported();
SecurityHelper.DemandUIWindowPermission();
VerifyContextAndObjectState();
InternalClose(false, false);
}
/// <summary>
/// Kick off the Window's MoveWindow loop
/// </summary>
/// <remarks>
/// To enable custom chrome on Windows. First check if this is the Left MouseButton.
/// Will throw exception if it's not, otherwise, will kick off the Windows's MoveWindow loop.
/// Callers must have UIPermission(UIPermissionWindow.AllWindows) to call this API.
/// </remarks>
///<SecurityNote>
/// Critical - as this code performs an elevation via the calls to SendMessage.
/// PublicOk - as there is a demand for all windows permission.
/// We explicitly demand unamnaged code permission - as there's no valid scenario for this in the SEE.
///</SecurityNote>
[SecurityCritical]
public void DragMove()
{
// this call ends up throwing an exception if dragmove
// is not allowed
VerifyApiSupported();
SecurityHelper.DemandUIWindowPermission();
VerifyContextAndObjectState();
VerifyHwndCreateShowState();
// Adding check for IsCompositionTargetInvalid as part of the fix for WOSB 1453012
if (IsSourceWindowNull || IsCompositionTargetInvalid)
{
return;
}
// Mouse.LeftButton actually reflects the primary button user is using.
// So we don't need to check whether the button has been swapped here.
if (Mouse.LeftButton == MouseButtonState.Pressed)
{
if (WindowState == WindowState.Normal)
{
// SendMessage's return value is dependent on the message send. WM_SYSCOMMAND
// and WM_LBUTTONUP return value just signify whether the WndProc handled the
// message or not, so they are not interesting
#pragma warning disable 6523
UnsafeNativeMethods.SendMessage( CriticalHandle, WindowMessage.WM_SYSCOMMAND, (IntPtr)NativeMethods.SC_MOUSEMOVE, IntPtr.Zero);
UnsafeNativeMethods.SendMessage( CriticalHandle, WindowMessage.WM_LBUTTONUP, IntPtr.Zero, IntPtr.Zero);
#pragma warning restore 6523
}
}
else
{
throw new InvalidOperationException(SR.Get(SRID.DragMoveFail));
}
}
/// <summary>
/// Shows the window as a modal window
/// </summary>
/// <returns>bool?</returns>
/// <remarks>
/// Callers must have UIPermission(UIPermissionWindow.AllWindows) to call this API.
/// </remarks>
/// <SecurityNote>
/// Critical: This code causes unmamanged code elevation in the call to GetWindowLong and GetDesktopWindow
/// which has a SUC on it. There is also a call to SetFocus which returns a window handle.
/// It also accesses _dialogOwnerHandle, _dialogPreviousActiveHandle and _ownerHandle.
/// PublicOK: There is a demand in the code
/// </SecurityNote>
[SecurityCritical ]
public Nullable<bool> ShowDialog()
{
// this call ends up throwing an exception if ShowDialog
// is not allowed
VerifyApiSupported();
SecurityHelper.DemandUnrestrictedUIPermission();
VerifyContextAndObjectState();
VerifyCanShow();
VerifyNotClosing();
VerifyConsistencyWithAllowsTransparency();
if ( _isVisible == true )
{
throw new InvalidOperationException(SR.Get(SRID.ShowDialogOnVisible));
}
else if ( _showingAsDialog == true )
{
throw new InvalidOperationException(SR.Get(SRID.ShowDialogOnModal));
}
_dialogOwnerHandle = _ownerHandle;
// verify owner handle is window
if (UnsafeNativeMethods.IsWindow( new HandleRef( null, _dialogOwnerHandle ) ) != true)
{
_dialogOwnerHandle = IntPtr.Zero;
}
// remember the current active window;
// this is used when dialog creation fails or dialog closes, we set the active window back to this one.
_dialogPreviousActiveHandle = UnsafeNativeMethods.GetActiveWindow();
// if owner window is not specified, we get the current active window on this thread's
// message queue as the owner.
if (_dialogOwnerHandle == IntPtr.Zero)
{
_dialogOwnerHandle = _dialogPreviousActiveHandle;
}
// If hwndOwner == HWNDESKTOP, change it to NULL. This way the desktop
// (and all its children) won't be disabled if the dialog is modal.
if ((_dialogOwnerHandle != IntPtr.Zero) &&
(_dialogOwnerHandle == UnsafeNativeMethods.GetDesktopWindow()))
{
_dialogOwnerHandle = IntPtr.Zero;
}
// if dialog owner is not null, get the top level window (case where dialog owner is a
// child window), and save it's state regarding enabled and active window
if (_dialogOwnerHandle != IntPtr.Zero)
{
// get the top level window from the dialog owner handle
int style = 0;
while (_dialogOwnerHandle != IntPtr.Zero)
{
style = UnsafeNativeMethods.GetWindowLong(new HandleRef(this, _dialogOwnerHandle), NativeMethods.GWL_STYLE);
if ((style & NativeMethods.WS_CHILD) == NativeMethods.WS_CHILD)
{
_dialogOwnerHandle = UnsafeNativeMethods.GetParent(new HandleRef(null, _dialogOwnerHandle));
}
else
{
break;
}
}
}
Debug.Assert(_threadWindowHandles == null, "_threadWindowHandles must be null before enumerating the thread windows");
// NOTE: hamidm -- 01/22/04
// _threadWindowHandles is created here. This reference is nulled out in EnableThreadWindows
// when it is called with a true parameter. Please do not null it out anywhere else.
// EnableThreadWindow(true) is called when dialog is going away. Once dialog is closed and
// thread windows have been enabled, then there no need to keep the array list around.
// Please see
_threadWindowHandles = new ArrayList();
//Get visible and enabled windows in the thread
// If the callback function returns true for all windows in the thread, the return value is true.
// If the callback function returns false on any enumerated window, or if there are no windows
// found in the thread, the return value is false.
// No need for use to actually check the return value.
#pragma warning disable 6523
UnsafeNativeMethods.EnumThreadWindows(SafeNativeMethods.GetCurrentThreadId(),
new NativeMethods.EnumThreadWindowsCallback(ThreadWindowsCallback),
NativeMethods.NullHandleRef);
#pragma warning enable 6523
//disable those windows
EnableThreadWindows(false);
IntPtr hWndCapture = SafeNativeMethods.GetCapture();
if (hWndCapture != IntPtr.Zero)
{
//
// NOTE: hamidm -- 7/14/04
// EnableWindow(false) (called from EnableThreadWindows(false)
// sends WM_CANCELMODE to the window, so we don't need
// to send it again. However, if we change our impl
// of dialog such that we don't disable all windows on the
// thread, then we would need this call. Keeping this code here
// until we finish the Dialog task # 18498
// UnsafeNativeMethods.SendMessage(hWndCapture,
// WindowMessage.WM_CANCELMODE,
// IntPtr.Zero,
// IntPtr.Zero);
// hWndCapture = UnsafeNativeMethods.GetCapture();
// if (hWndCapture != IntPtr.Zero)
// {
// PS # 862892
// WCP: Investigate whether ReleaseCapture is needed in ShowDialog
SafeNativeMethods.ReleaseCapture();
// }
}
// Ensure Dialog RoutedCommand is registered with CommandManager
EnsureDialogCommand();
try
{
_showingAsDialog = true;
Show();
}
catch
{
// NOTE: hamidm 01/22/04
// See
if (_threadWindowHandles != null)
{
// Some exception case. Re-enable the windows that were disabled
EnableThreadWindows(true);
}
// Activate the previously active window.
// This code/logic came from User.
if ( (_dialogPreviousActiveHandle != IntPtr.Zero) &&
(UnsafeNativeMethods.IsWindow(new HandleRef(null, _dialogPreviousActiveHandle)) == true))
{
// SetFocus fails if the input hwnd is not a Window or if the Window is not on the
// calling thread.
//
// Furthermore, this code path is executed when an exception occurs when we try to
// show the window. Here we are doing the minimum possible to restore state of
// the avalon window object. Hence, if for some reason, we are not able to
// SetFocus to the window that previously had focus, we don't care as that failure
// is not important enought to warrant throwing an exception.
UnsafeNativeMethods.TrySetFocus(new HandleRef(null, _dialogPreviousActiveHandle), ref _dialogPreviousActiveHandle);
}
// clears _showingAsDialog and accelerators related fields
ClearShowKeyboardCueState();
_showingAsDialog = false;
// using catch and throw instead of catch(Exception e) throw e; since the former
// gives the complete call stack upto the offending method where the exception is thrown
throw;
}
finally
{
// If the owner window belongs to another thread, the reactivation
// of the owner may have failed within DestroyWindow(). Therefore,
// if the current thread is in the foreground and the owner is not
// in the foreground we can safely set the foreground back
// to the owner.
#if FIGURE_OUT
TODO: hamidm 7/18/2003
PS: 862826
// WCP Dialog: Figure out what to do when reactivating the owner window
// which is in another thread.
if (_dialogOwnerHandle != IntPtr.Zero)
{
if (IsCurrentThreadForeground() &&
!IsInForegroundQueue(hwndOwner))
{
NtUserSetForegroundWindow(hwndOwner);
}
}
#endif //FIGURE_OUT
_showingAsDialog = false;
}
return _dialogResult;
}
/// <summary>
/// This method tries to activate the Window.
/// </summary>
/// <remarks>
/// This method calls SetForegroundWindow on the hWnd, thus the rules for SetForegroundWindow
/// apply to this method.
/// Callers must have UIPermission(UIPermissionWindow.AllWindows) to call this API.
/// </remarks>
/// <returns>bool -- indicating whether the window was activated or not</returns>
///<SecurityNote>
/// Critical as this code performs an elevation in the call to SetForegroundWindow.
/// PublicOk - there is a demand in the code. Any caller will require
/// all window code permissions.
///</SecurityNote>
[SecurityCritical]
public bool Activate()
{
// this call ends up throwing an exception if Activate
// is not allowed
VerifyApiSupported();
//
// Demand AllWindows code permission.
// There be a more appropriate less-restrictive permission - but this should suffice for now.
//
SecurityHelper.DemandUIWindowPermission();
VerifyContextAndObjectState();
VerifyHwndCreateShowState();
// Adding check for IsCompositionTargetInvalid as part of the fix for WOSB 1453012
if (IsSourceWindowNull || IsCompositionTargetInvalid)
{
return false;
}
return UnsafeNativeMethods.SetForegroundWindow(new HandleRef(null, CriticalHandle));
}
#region LogicalTree
/// <summary>
/// Returns enumerator to logical children
/// </summary>
protected internal override IEnumerator LogicalChildren
{
get
{
// Don't use UIElementCollection because we don't have a reference to content's visual parent;
// window has style and user can change it.
return new SingleChildEnumerator(this.Content);
}
}
#endregion LogicalTree
#region static public method
/// <summary>
/// Gets Window in which the given DependecyObject is hosted in.
/// </summary>
/// <param name="dependencyObject">Returns the Window the given dependencyObject is hosted in.</param>
/// <returns>Window</returns>
public static Window GetWindow(DependencyObject dependencyObject)
{
if (dependencyObject == null)
{
throw new ArgumentNullException("dependencyObject");
}
// Window.IWindowServiceProperty is an internal inheritable dependency property
// Normally this value is set to the root Window element, all the element
// inside the window view will get this value through property inheritance mechanism.
return dependencyObject.GetValue(Window.IWindowServiceProperty) as Window;
}
#endregion static public method
#endregion Public Methods
//---------------------------------------------------
//
// Public Properties
//
//---------------------------------------------------
#region Public Properties
/// <summary>
/// DependencyProperty for TaskbarItemInfo
/// </summary>
public static readonly DependencyProperty TaskbarItemInfoProperty = DependencyProperty.Register(
"TaskbarItemInfo",
typeof(TaskbarItemInfo),
typeof(Window),
new PropertyMetadata(
null,
(d, e) => ((Window)d).OnTaskbarItemInfoChanged(e),
VerifyAccessCoercion));
/// <summary>
/// RoutedEvent for when DPI of the screen the Window is on, changes.
/// </summary>
public static readonly RoutedEvent DpiChangedEvent;
/// <summary>
/// Get or set the TaskbarItemInfo associated with this Window.
/// </summary>
public TaskbarItemInfo TaskbarItemInfo
{
get
{
VerifyContextAndObjectState();
return (TaskbarItemInfo)GetValue(TaskbarItemInfoProperty);
}
set
{
VerifyContextAndObjectState();
SetValue(TaskbarItemInfoProperty, value);
}
}
///<SecurityNote>
/// Critical - This property modifies the way that Shell exposes this window in the taskbar.
/// It's unsafe to set this value in partial trust.
/// TreatAsSafe - The VerifyAccessCoercion on the DP for this should have already verified this demand.
///</SecurityNote>
[SecurityCritical, SecurityTreatAsSafe]
private void OnTaskbarItemInfoChanged(DependencyPropertyChangedEventArgs e)
{
var oldBar = (TaskbarItemInfo)e.OldValue;
var newBar = (TaskbarItemInfo)e.NewValue;
// We don't propagate changes to this on anything earlier than Windows 7.
if (!Utilities.IsOSWindows7OrNewer)
{
return;
}
if (!e.IsASubPropertyChange)
{
if (oldBar != null)
{
oldBar.PropertyChanged -= OnTaskbarItemInfoSubPropertyChanged;
}
if (newBar != null)
{
newBar.PropertyChanged += OnTaskbarItemInfoSubPropertyChanged;
}
ApplyTaskbarItemInfo();
}
}
///<SecurityNote>
/// Critical - This accesses and modifies critical objects like _taskbarList and CriticalHandle.
///</SecurityNote>
[SecurityCritical]
private void HandleTaskbarListError(HRESULT hr)
{
if (hr.Failed)
{
// Even if some of the taskbar methods get this error it doesn't mean that all of them will.
// They aren't all implemented with SendMessageTimeout, and unfortunately the ITaskbarList3 API inconsistently
// exposes that implementation detail.
if (hr == (HRESULT)Win32Error.ERROR_TIMEOUT)
{
// Explorer appears to be busy. Post back to the Window to try again.
if (TraceShell.IsEnabled)
{
TraceShell.Trace(TraceEventType.Error, TraceShell.ExplorerTaskbarTimeout);
TraceShell.Trace(TraceEventType.Warning, TraceShell.ExplorerTaskbarRetrying);
}
// Explorer being hung should be a transient issue. Post back to apply the full TaskbarItemInfo.
_taskbarRetryTimer.Start();
}
else if (hr == (HRESULT)Win32Error.ERROR_INVALID_WINDOW_HANDLE)
{
// We'll get this when Explorer's not running. This means there's no Shell to integrate with.
if (TraceShell.IsEnabled)
{
TraceShell.Trace(TraceEventType.Warning, TraceShell.ExplorerTaskbarNotRunning);
}
// If this is a transient condition then we'll get a WM_TASKBARBUTTONCREATED when Explorer comes
// back and the taskbar button gets created again, at which point we'll rehook.
// In the meantime, just stop trying since there's no reasonable expectation of recovery.
Utilities.SafeRelease(ref _taskbarList);
}
else
{
// That covers the troublesome errors that we know how to handle.
// For anything else we'll ignore the error and count on a subsequent update to correct the state.
if (TraceShell.IsEnabled)
{
TraceShell.Trace(TraceEventType.Error, TraceShell.NativeTaskbarError(hr.ToString()));
}
}
}
}
///<SecurityNote>
/// Critical - This calls Critical UpdateTaskbar* methods that modify the way that Shell
/// exposes this window in the taskbar. It's unsafe to set this value in partial trust.
/// TreatAsSafe - This is only called as an event handler set in a SecurityCritical context.
///</SecurityNote>
[SecurityCritical, SecurityTreatAsSafe]
private void OnTaskbarItemInfoSubPropertyChanged(object sender, DependencyPropertyChangedEventArgs e)
{
// Don't propagate changes from other TaskbarItemInfos.
if (sender != this.TaskbarItemInfo)
{
// Since this and the TaskbarItemInfo should share affinity for the same thread
// this really shouldn't happen...
Debug.Assert(false);
return;
}
// Defer any sub-property changes until the native ITaskbarList3 has been set up.
if (_taskbarList == null)
{
return;
}
// If the taskbar has timed out in the last minute, don't try to do this again.
if (_taskbarRetryTimer != null && _taskbarRetryTimer.IsEnabled)
{
return;
}
DependencyProperty dp = e.Property;
HRESULT hr = HRESULT.S_OK;
if (dp == TaskbarItemInfo.ProgressStateProperty)
{
hr = UpdateTaskbarProgressState();
}
else if (dp == TaskbarItemInfo.ProgressValueProperty)
{
hr = UpdateTaskbarProgressValue();
}
else if (dp == TaskbarItemInfo.OverlayProperty)
{
hr = UpdateTaskbarOverlay();
}
else if (dp == TaskbarItemInfo.DescriptionProperty)
{
hr = UpdateTaskbarDescription();
}
else if (dp == TaskbarItemInfo.ThumbnailClipMarginProperty)
{
hr = UpdateTaskbarThumbnailClipping();
}
else if (dp == TaskbarItemInfo.ThumbButtonInfosProperty)
{
hr = UpdateTaskbarThumbButtons();
}
HandleTaskbarListError(hr);
}
/// <summary>
/// DependencyProperty for AllowsTransparency
/// </summary>
public static readonly DependencyProperty AllowsTransparencyProperty =
DependencyProperty.Register(
"AllowsTransparency",
typeof(bool),
typeof(Window),
new FrameworkPropertyMetadata(
BooleanBoxes.FalseBox,
new PropertyChangedCallback(OnAllowsTransparencyChanged),
new CoerceValueCallback(CoerceAllowsTransparency)));
/// <summary>
/// Whether or not the Window uses per-pixel opacity
/// </summary>
public bool AllowsTransparency
{
get { return (bool)GetValue(AllowsTransparencyProperty); }
set { SetValue(AllowsTransparencyProperty, BooleanBoxes.Box(value)); }
}
private static void OnAllowsTransparencyChanged(DependencyObject d, DependencyPropertyChangedEventArgs e)
{
}
private static object CoerceAllowsTransparency(DependencyObject d, object value)
{
value = VerifyAccessCoercion(d, value);
if (!((Window) d).IsSourceWindowNull)
{
throw new InvalidOperationException(SR.Get(SRID.ChangeNotAllowedAfterShow));
}
return value;
}
/// <summary>
/// The DependencyProperty for TitleProperty.
/// Flags: None
/// Default Value: String.Empty
/// </summary>
public static readonly DependencyProperty TitleProperty =
DependencyProperty.Register("Title", typeof(String), typeof(Window),
new FrameworkPropertyMetadata(String.Empty,
new PropertyChangedCallback(_OnTitleChanged)),
new ValidateValueCallback(_ValidateText));
/// <summary>
/// The data that will be displayed as the title of the window.
/// Hosts are free to display the title in any manner that they
/// want. For example, the browser may display the title set via
/// the Title property somewhere besides the caption bar
/// </summary>
[Localizability(LocalizationCategory.Title)]
public string Title
{
get
{
VerifyContextAndObjectState();
return (String)GetValue(TitleProperty);
}
set
{
VerifyContextAndObjectState();
SetValue(TitleProperty, value);
}
}
/// <summary>
/// The DependencyProperty for Icon
/// Flags: None
/// Default Value: None
/// </summary>
public static readonly DependencyProperty IconProperty =
DependencyProperty.Register(
"Icon",
typeof(ImageSource),
typeof(Window),
new FrameworkPropertyMetadata(
new PropertyChangedCallback(_OnIconChanged),
new CoerceValueCallback(VerifyAccessCoercion)));
/// <summary>
/// Sets the Icon of the Window
/// </summary>
/// <remarks>
/// Following is the precedence for displaying the icon:
///
/// 1) Use ImageSource provided by the Icon property. If Icon property is
/// null, see 2 below.
/// 2) If Icon Property is not set, then use the Application icon
/// embedded in the exe. Querying Icon property returns null.
/// 3) If no icon is embedded in the exe, then we set IntPtr.Zero
/// as the icon and Win32 displays its default icon. Querying Icon
/// property returns null.
///
/// If Icon property is set, Window does not dispose that object when it
/// is closed.
/// Callers must have UIPermission(UIPermissionWindow.AllWindows) to call this API.
/// </remarks>
/// <SecurityNote>
/// Critical: This code causes icon value to be set. This in turn causes property invalidation
/// which will access unsafe native methods.
/// PublicOK: There exists a demand , safe to expose
/// </SecurityNote>
public ImageSource Icon
{
get
{
VerifyContextAndObjectState();
// this call ends up throwing an exception if accessing
// Icon is not allowed
VerifyApiSupported();
return (ImageSource) GetValue(IconProperty);
}
[SecurityCritical]
set
{
// this call ends up throwing an exception if accessing
// Icon is not allowed
VerifyApiSupported();
SecurityHelper.DemandUIWindowPermission();
VerifyContextAndObjectState();
SetValue(IconProperty, value);
}
}
/// <summary>
/// The DependencyProperty for SizeToContentProperty.
/// Flags: None
/// Default Value: "SizeToContent.Manual"
/// </summary>
public static readonly DependencyProperty SizeToContentProperty =
DependencyProperty.Register("SizeToContent",
typeof(SizeToContent),
typeof(Window),
new FrameworkPropertyMetadata(
SizeToContent.Manual,
new PropertyChangedCallback(_OnSizeToContentChanged)),
new ValidateValueCallback(_ValidateSizeToContentCallback));
/// <summary>
/// Auto size Window to its content's size
/// </summary>
/// <remarks>
/// 1. SizeToContent can be applied to Width Height independently
/// 2. After SizeToContent is set, setting Width/Height does not take affect if that
/// dimension is sizing to content.
/// 3. SizeToContent is turned off (restored to SizeToContent.Manual) if user starts to
/// interact with window in terms of size
/// </remarks>
/// <value>
/// Default value is SizeToContent.Manual
/// </value>
public SizeToContent SizeToContent
{
get
{
VerifyContextAndObjectState();
// this call ends up throwing an exception if accessing
// SizeToContent is not allowed
VerifyApiSupported();
return (SizeToContent) GetValue(SizeToContentProperty);
}
set
{
VerifyContextAndObjectState();
// this call ends up throwing an exception if accessing
// SizeToContent is not allowed
VerifyApiSupported();
SetValue(SizeToContentProperty, value);
}
}
/// <summary>
/// DependencyProperty for <see cref="Top" /> property.
/// </summary>
public static readonly DependencyProperty TopProperty =
Canvas.TopProperty.AddOwner(typeof(Window),
new FrameworkPropertyMetadata(
Double.NaN,
new PropertyChangedCallback(_OnTopChanged),
new CoerceValueCallback(CoerceTop)));
/// <summary>
/// Position for Top of the host window
/// </summary>
/// <remarks>
/// The following values are valid:
/// Positive Doubles: sets the top location to the specified value
/// NaN: indicates to use the system default value. This
/// is the default for Top property
/// PositiveInfinity, NegativeInfinity: These are invalid inputs.
/// </remarks>
/// <value></value>
[TypeConverter("System.Windows.LengthConverter, PresentationFramework, Version=" + BuildInfo.WCP_VERSION + ", Culture=neutral, PublicKeyToken=" + BuildInfo.WCP_PUBLIC_KEY_TOKEN + ", Custom=null")]
public double Top
{
get
{
VerifyContextAndObjectState();
// this call ends up throwing an exception if accessing Top
// is not allowed
VerifyApiSupported();
return (double)GetValue(TopProperty);
}
set
{
VerifyContextAndObjectState();
// this call ends up throwing an exception if accessing Top
// is not allowed
VerifyApiSupported();
// we don't do an if check here to see if the new value is the same
// as the current Top value b/c the current value maybe as a result
// of user resizing which means the the local value of Top has not
// been written to. So, if window.Top is explicitly set now we want
// to write to the local value. We do make this if check in Top
// property invalidation callback for optimization
SetValue(TopProperty, value);
}
}
/// <summary>
/// DependencyProperty for <see cref="Left" /> property.
/// </summary>
public static readonly DependencyProperty LeftProperty =
Canvas.LeftProperty.AddOwner(typeof(Window),
new FrameworkPropertyMetadata(
Double.NaN,
new PropertyChangedCallback(_OnLeftChanged),
new CoerceValueCallback(CoerceLeft)));
/// <summary>
/// Position for Left edge of coordinate of the host window
/// </summary>
/// <remarks>
/// The following values are valid:
/// Positive Doubles: sets the top location to the specified value
/// NaN: indicates to use the system default value. This
/// is the default for Top property
/// PositiveInfinity, NegativeInfinity: These are invalid inputs.
/// </remarks>
/// <value></value>
[TypeConverter("System.Windows.LengthConverter, PresentationFramework, Version=" + BuildInfo.WCP_VERSION + ", Culture=neutral, PublicKeyToken=" + BuildInfo.WCP_PUBLIC_KEY_TOKEN + ", Custom=null")]
public double Left
{
get
{
VerifyContextAndObjectState();
// this call ends up throwing an exception if accessing left
// is not allowed
VerifyApiSupported();
return (double)GetValue(LeftProperty);
}
set
{
VerifyContextAndObjectState();
// this call ends up throwing an exception if accessing left
// is not allowed
VerifyApiSupported();
// we don't do an if check here to see if the new value is the same
// as the current Left value b/c the current value maybe as a result
// of user resizing which means the the local value of Left has not
// been written to. So, if window.Left is explicitly set now we want
// to write to the local value. We do make this if check in Left
// property invalidation callback for optimization
SetValue(LeftProperty, value);
}
}
/// <summary>
/// This property returns the restoring rectangle of the window. This information
/// can be used to track a users size and position preferences when the
/// Window is maximized or minimized.
///
/// If RestoreBounds is queried before the Window has been shown or after it has
/// been closed, it will return Rect.Empty.
/// </summary>
/// <remarks>
/// Callers must have UIPermission(UIPermissionWindow.AllWindows) to call this API.
/// </remarks>
/// <SecurityNote>
/// Critical: This code accesses Handle and calls critical method GetNormalRectLogicalUnits
/// PublicOK: This code only works under RBW code path , this operation is ok since
/// RBW window is bound to the restrictions of its parent window which is the browser
/// </SecurityNote>
public Rect RestoreBounds
{
[SecurityCritical ]
get
{
VerifyContextAndObjectState();
// this call ends up throwing an exception if accessing RestoreBounds
// is not allowed
VerifyApiSupported();
if (!_inTrustedSubWindow)
{
SecurityHelper.DemandUIWindowPermission();
}
// either before calling show or after closing AND
// Adding check for IsCompositionTargetInvalid as part of the fix for WOSB 1453012
if (IsSourceWindowNull || IsCompositionTargetInvalid)
{
return Rect.Empty;
}
return GetNormalRectLogicalUnits(CriticalHandle);
}
}
/// <summary>
/// This enum can have following values
/// Manual (default)
/// CenterScreen
/// CenterOwner
///
/// If the WindowStartupLocation is WindowStartupLocation.Manual then
/// Top and Left properites are used to position the window.
/// This property is used only before window creation. Once the window is
/// created hiding it and showing it will not take this property into account.
/// </summary>
/// <remarks>
/// WindowStartupLocation is used to position the window only it it is set to
/// WindowStartupLocation.CenterScreen or WindowStartupLocation.CenterOwner,
/// otherwise Top/Left is used. Furthermore, if determining the location
/// of the window is not possible when WindowStartupLocation is set to
/// WindowStartupLocation.CenterScreen or WindowStartupLocation.Owner, then
/// Top/Left is used instead.
/// </remarks>
[DefaultValue(WindowStartupLocation.Manual)]
public WindowStartupLocation WindowStartupLocation
{
get
{
VerifyContextAndObjectState();
// this call ends up throwing an exception if accessing
// WindowStartupLocation is not allowed
VerifyApiSupported();
return _windowStartupLocation;
}
set
{
VerifyContextAndObjectState();
// this call ends up throwing an exception if accessing
// WindowStartupLocation is not allowed
VerifyApiSupported();
//validate WindowStartupLocation enum
if (!IsValidWindowStartupLocation(value))
{
throw new InvalidEnumArgumentException("value", (int)value, typeof( WindowStartupLocation ));
}
_windowStartupLocation = value;
}
}
/// <summary>
/// The DependencyProperty for ShowInTaskbarProperty.
/// Flags: None
/// Default Value: true
/// </summary>
public static readonly DependencyProperty ShowInTaskbarProperty =
DependencyProperty.Register("ShowInTaskbar",
typeof(bool),
typeof(Window),
new FrameworkPropertyMetadata(BooleanBoxes.TrueBox,
new PropertyChangedCallback(_OnShowInTaskbarChanged),
new CoerceValueCallback(VerifyAccessCoercion)));
///<summary>
/// Determines if the window should show up in the system taskbar.
/// This also determines if the window appears in the Alt-Tab list.
///</summary>
public bool ShowInTaskbar
{
get
{
VerifyContextAndObjectState();
// this call ends up throwing an exception if accessing
// ShowInTaskbar is not allowed
VerifyApiSupported();
return (bool) GetValue(ShowInTaskbarProperty);
}
set
{
VerifyContextAndObjectState();
// this call ends up throwing an exception if accessing
// ShowInTaskbar is not allowed
VerifyApiSupported();
SetValue(ShowInTaskbarProperty, BooleanBoxes.Box(value));
}
}
/// <summary>
/// The key needed set a read-only property.
/// </summary>
private static readonly DependencyPropertyKey IsActivePropertyKey
= DependencyProperty.RegisterReadOnly("IsActive", typeof(bool), typeof(Window),
new FrameworkPropertyMetadata(BooleanBoxes.FalseBox));
/// <summary>
/// The DependencyProperty for IsActive.
/// Flags: None
/// Default Value: True
/// Read-Only: true
/// </summary>
public static readonly DependencyProperty IsActiveProperty
= IsActivePropertyKey.DependencyProperty;
/// <summary>
/// IsActive property. It indicates whether the Window is active.
/// The title bar will have the active theme. The active window will be
/// the topmost of all top-level windows that don't explicitly set the TopMost property or style.
/// If a window is active, focus is within the window.
/// </summary>
public bool IsActive
{
get
{
VerifyContextAndObjectState();
return (bool)GetValue(IsActiveProperty);
}
}
/// <summary>
/// This set the owner for the property of the current window.
/// If the window has owner and the owner is minimized then
/// owned window is also minimized. Owner window can never be
/// over owned window. Owned window is NOT modal. So user can
/// still interact with owner window. This property can not be
/// set of the top level window.
/// </summary>
///<remarks>
/// Callers must have UIPermission(UIPermissionWindow.AllWindows) to call this API.
///</remarks>
///<SecurityNote>
/// Critical - _ownerWindow is accessed, SetOwnerHandle is called.
/// PublicOK - get/set protected by Demand's.
///</SecurityNote>
[DefaultValue(null)]
public Window Owner
{
[SecurityCritical ]
get
{
// this call ends up throwing an exception if accessing Owner
// is not allowed
VerifyApiSupported();
SecurityHelper.DemandUIWindowPermission();
VerifyContextAndObjectState();
return _ownerWindow;
}
[SecurityCritical]
set
{
// this call ends up throwing an exception if accessing Owner
// is not allowed
VerifyApiSupported();
SecurityHelper.DemandUIWindowPermission();
VerifyContextAndObjectState();
if (value == this)
{
throw new ArgumentException(SR.Get(SRID.CannotSetOwnerToItself));
}
if ( _showingAsDialog == true )
{
throw new InvalidOperationException(SR.Get(SRID.CantSetOwnerAfterDialogIsShown));
}
if (value != null && value.IsSourceWindowNull == true)
{
// Try to be specific in the error message.
if (value._disposed)
{
throw new InvalidOperationException(SR.Get(SRID.CantSetOwnerToClosedWindow));
}
throw new InvalidOperationException(SR.Get(SRID.CantSetOwnerWhosHwndIsNotCreated));
}
if ( _ownerWindow == value )
{
return;
}
if (!_disposed)
{
// Check to see if value is already a child of this window.
// If yes, throw Exception
if (value != null)
{
WindowCollection ownedWindows = OwnedWindows;
for (int i = 0; i < ownedWindows.Count; i++)
{
if (ownedWindows[i] == value)
{
throw new ArgumentException(SR.Get(SRID.CircularOwnerChild, value, this));
}
}
}
// Update OwnerWindows of the previous owner
if (_ownerWindow != null)
{
// using OwnedWindowsInternl b/c we want to modifying the
// underlying collection
_ownerWindow.OwnedWindowsInternal.Remove(this);
}
}
// Update parent handle. If value is null, then make parent
// handle IntPtr.Zero
_ownerWindow = value;
// We should not do anything if the window is already closed and maybe throw exception.
// In Dev10, it is unknown whether we can begin to throw exceptions, because it is a BC.
// I opened DevDiv bug # 479775 to track the Window dispose behavior.
// In Dev10, we still update _ownerWindow after window is closed just so that the Owner getter
// returns the right value.
if (_disposed)
{
return;
}
SetOwnerHandle(_ownerWindow != null ? _ownerWindow.CriticalHandle: IntPtr.Zero);
// Update OwnerWindows of the new owner
if (_ownerWindow != null)
{
// using OwnedWindowsInternl b/c we want to modifying the
// underlying collection
_ownerWindow.OwnedWindowsInternal.Add(this);
}
}
}
/// This code checks to see if the owner property is null
/// True if the window is null , false other wise
/// <SecurityNote>
/// Critical: This code is critical since it acceses owner which is critical data
/// TreatAsSafe: Since this exposes no critical data
/// </SecurityNote>
private bool IsOwnerNull
{
[SecurityCritical,SecurityTreatAsSafe]
get
{
return (_ownerWindow == null);
}
}
/// <summary>
/// This is a collection of windows that are owned by current window.
/// </summary>
// This collection is a copy of the original one to avoid synchronizing issues.
// DO-NOT USE THIS PROPERY IF YOU MEAN TO MODIFY THE UNDERLYING COLLECTION. USE
// OwnedWindowsInternal PROPERTY FOR MODIFYING THE UNDERLYING DATASTRUCTURE.
public WindowCollection OwnedWindows
{
get
{
VerifyContextAndObjectState();
return OwnedWindowsInternal.Clone();
}
}
/// <summary>
/// Sets/gets DialogResult
/// </summary>
[DesignerSerializationVisibility(DesignerSerializationVisibility.Hidden), TypeConverter(typeof(DialogResultConverter))]
public Nullable<bool> DialogResult
{
get
{
VerifyContextAndObjectState();
// this call ends up throwing an exception if accessing
// DialogResult is not allowed
VerifyApiSupported();
return _dialogResult;
}
set
{
VerifyContextAndObjectState();
// this call ends up throwing an exception if accessing
// DialogResult is not allowed
VerifyApiSupported();
if (_showingAsDialog == true)
{
// This value should be set only after the window is created and shown as dialog.
// When _showingAsDialog is set, _sourceWindow must be set too.
Debug.Assert( IsSourceWindowNull == false , "IsSourceWindowNull cannot be true when _showingAsDialog is true");
// 03/03/2006 -- hamidm
// Fix for 1388606 Close Dialog Window should not return null
//
// According to the new design, setting DialogResult to its current value will not have any effect.
if (_dialogResult != value)
{
_dialogResult = value;
// if DialogResult is set from within a Closing event then
// the window is in the closing state. Thus, if we call
// Close() again from here we go into an infinite loop.
//
// Note: Windows OS bug # 934500 Setting DialogResult
// on the Closing EventHandler of a Dialog causes StackOverFlowException
if(_isClosing == false)
{
Close();
}
}
}
else
{
throw new InvalidOperationException(SR.Get(SRID.DialogResultMustBeSetAfterShowDialog));
}
}
}
/// <summary>
/// The DependencyProperty for WindowStyleProperty.
/// Flags: None
/// Default Value: WindowStyle.SingleBorderWindow
/// </summary>
public static readonly DependencyProperty WindowStyleProperty =
DependencyProperty.Register("WindowStyle", typeof(WindowStyle), typeof(Window),
new FrameworkPropertyMetadata(
WindowStyle.SingleBorderWindow,
new PropertyChangedCallback(_OnWindowStyleChanged),
new CoerceValueCallback(CoerceWindowStyle)),
new ValidateValueCallback(_ValidateWindowStyleCallback));
/// <summary>
/// Defines the visual style of the window (3DBorderWindow,
/// SingleBorderWindow, ToolWindow, none).
/// </summary>
/// <remarks>
/// Default will be SingleBorderWindow.
/// </remarks>
public WindowStyle WindowStyle
{
get
{
VerifyContextAndObjectState();
// this call ends up throwing an exception if accessing
// WindowStyle is not allowed
VerifyApiSupported();
return (WindowStyle) GetValue(WindowStyleProperty);
}
set
{
VerifyContextAndObjectState();
// this call ends up throwing an exception if accessing
// WindowStyle is not allowed
VerifyApiSupported();
SetValue(WindowStyleProperty, value);
}
}
private static object CoerceWindowStyle(DependencyObject d, object value)
{
value = VerifyAccessCoercion(d, value);
if (!((Window)d).IsSourceWindowNull)
{
// Since the new style hasn't actually been set yet, verify against the new value.
((Window)d).VerifyConsistencyWithAllowsTransparency((WindowStyle)value);
}
return value;
}
/// <summary>
/// The DependencyProperty for WindowStateProperty.
/// Flags: None
/// Default Value: WindowState.Normal
/// </summary>
public static readonly DependencyProperty WindowStateProperty =
DependencyProperty.Register("WindowState", typeof(WindowState), typeof(Window),
new FrameworkPropertyMetadata(
WindowState.Normal,
FrameworkPropertyMetadataOptions.BindsTwoWayByDefault,
new PropertyChangedCallback(_OnWindowStateChanged),
new CoerceValueCallback(VerifyAccessCoercion)),
new ValidateValueCallback(_ValidateWindowStateCallback));
/// <summary>
/// Current state of the window. Valid options are Maximized, Minimized,
/// or Normal. The host window may choose to ignore a request to change
/// the current window state.
/// </summary>
public WindowState WindowState
{
get
{
VerifyContextAndObjectState();
// this call ends up throwing an exception if accessing
// WindowState is not allowed
VerifyApiSupported();
return (WindowState) GetValue(WindowStateProperty);
}
set
{
VerifyContextAndObjectState();
// this call ends up throwing an exception if accessing
// WindowState is not allowed
VerifyApiSupported();
SetValue(WindowStateProperty, value);
}
}
/// <summary>
/// The DependencyProperty for the ResizeMode property.
/// Flags: AffectsMeasure
/// Default Value: false
/// </summary>
public static readonly DependencyProperty ResizeModeProperty =
DependencyProperty.Register("ResizeMode", typeof(ResizeMode), typeof(Window),
new FrameworkPropertyMetadata(ResizeMode.CanResize,
FrameworkPropertyMetadataOptions.AffectsMeasure,
new PropertyChangedCallback(_OnResizeModeChanged),
new CoerceValueCallback(VerifyAccessCoercion)),
new ValidateValueCallback(_ValidateResizeModeCallback));
/// <summary>
/// Current state of the window. Valid options are Maximized, Minimized,
/// or Normal. The host window may choose to ignore a request to change
/// the current window state.
/// </summary>
public ResizeMode ResizeMode
{
get
{
VerifyContextAndObjectState();
// this call ends up throwing an exception if accessing
// ResizeMode is not allowed
VerifyApiSupported();
return ((ResizeMode) GetValue(ResizeModeProperty));
}
set
{
VerifyContextAndObjectState();
// this call ends up throwing an exception if accessing
// ResizeMode is not allowed
VerifyApiSupported();
SetValue(ResizeModeProperty, value);
}
}
/// <summary>
/// The DependencyProperty for TopmostProperty.
/// Flags: None
/// Default Value: false
/// </summary>
public static readonly DependencyProperty TopmostProperty =
DependencyProperty.Register("Topmost",
typeof(bool),
typeof(Window),
new FrameworkPropertyMetadata(BooleanBoxes.FalseBox,
new PropertyChangedCallback(_OnTopmostChanged),
new CoerceValueCallback(VerifyAccessCoercion)));
/// <summary>
/// Determines if this window is always on the top.
/// </summary>
public bool Topmost
{
get
{
VerifyContextAndObjectState();
// this call ends up throwing an exception if accessing
// Topmost is not allowed
VerifyApiSupported();
return (bool) GetValue(TopmostProperty);
}
set
{
VerifyContextAndObjectState();
// this call ends up throwing an exception if accessing
// Topmost is not allowed
VerifyApiSupported();
SetValue(TopmostProperty, BooleanBoxes.Box(value));
}
}
public static readonly DependencyProperty ShowActivatedProperty =
DependencyProperty.Register("ShowActivated",
typeof(bool),
typeof(Window),
new FrameworkPropertyMetadata(BooleanBoxes.TrueBox,
null,
new CoerceValueCallback(VerifyAccessCoercion)));
/// <summary>
/// Determines if this window is activated when shown (default = true).
/// </summary>
/// <remarks>
/// Not supported for RBW.
/// </remarks>
public bool ShowActivated
{
get
{
VerifyContextAndObjectState();
// this call ends up throwing an exception if accessing
// ShowActivated is not allowed
VerifyApiSupported();
return (bool)GetValue(ShowActivatedProperty);
}
set
{
VerifyContextAndObjectState();
// this call ends up throwing an exception if accessing
// ShowActivated is not allowed
VerifyApiSupported();
SetValue(ShowActivatedProperty, BooleanBoxes.Box(value));
}
}
#endregion Public Properties
//---------------------------------------------------
//
// Public Events
//
//---------------------------------------------------
#region Public Events
/// <summary>
/// This event is raised after the window source is created before it is shown
/// </summary>
public event EventHandler SourceInitialized
{
add { Events.AddHandler(EVENT_SOURCEINITIALIZED, value); }
remove { Events.RemoveHandler(EVENT_SOURCEINITIALIZED, value); }
}
/// <summary>
/// This event is raised after the DPI of the screen on which the Window is displayed, changes.
/// </summary>
public event DpiChangedEventHandler DpiChanged
{
add { AddHandler(Window.DpiChangedEvent, value); }
remove { RemoveHandler(Window.DpiChangedEvent, value); }
}
/// <summary>
/// This event is raised when the window is activated
/// </summary>
public event EventHandler Activated
{
add { Events.AddHandler(EVENT_ACTIVATED, value); }
remove { Events.RemoveHandler(EVENT_ACTIVATED, value); }
}
/// <summary>
/// This event is raised when the window is deactivated
/// </summary>
public event EventHandler Deactivated
{
add { Events.AddHandler(EVENT_DEACTIVATED, value); }
remove { Events.RemoveHandler(EVENT_DEACTIVATED, value); }
}
/// <summary>
/// This event is raised when the window state is changed
/// </summary>
public event EventHandler StateChanged
{
add { Events.AddHandler(EVENT_STATECHANGED, value); }
remove { Events.RemoveHandler(EVENT_STATECHANGED, value); }
}
/// <summary>
/// This event is raised when the window location is changed
/// </summary>
public event EventHandler LocationChanged
{
add { Events.AddHandler(EVENT_LOCATIONCHANGED, value); }
remove { Events.RemoveHandler(EVENT_LOCATIONCHANGED, value); }
}
/// <summary>
/// This event is raised before the window is closed
/// </summary>
/// <remarks>
/// The user can set the CancelEventArg.Cancel property to true to prevent
/// the window from closing. However, if the Applicaiton is shutting down
/// the window closing cannot be cancelled
/// </remarks>
public event CancelEventHandler Closing
{
add { Events.AddHandler(EVENT_CLOSING, value); }
remove { Events.RemoveHandler(EVENT_CLOSING, value); }
}
/// <summary>
/// This event is raised when the window is closed.
/// </summary>
public event EventHandler Closed
{
add { Events.AddHandler(EVENT_CLOSED, value); }
remove { Events.RemoveHandler(EVENT_CLOSED, value); }
}
/// <summary>
/// This event is raised when the window and its content is rendered.
/// </summary>
public event EventHandler ContentRendered
{
add { Events.AddHandler(EVENT_CONTENTRENDERED, value); }
remove { Events.RemoveHandler(EVENT_CONTENTRENDERED, value); }
}
#endregion Public Events
//---------------------------------------------------
//
// Internal Events
//
//---------------------------------------------------
#region Internal Events
/// <summary>
/// This event is raised when the <see cref="System.Windows.Media.VisualCollection"/> of
/// this <see cref="Window"/> object is modified
/// </summary>
/// <remarks>
/// This corresponds to <see cref="OnVisualChildrenChanged(DependencyObject, DependencyObject)"/>.
/// The primary consumer of this event is <see cref="System.Windows.Shell.WindowChromeWorker"/>,
/// which only needs to be aware of the fact that Visual children have changed, but doesn't
/// need to know which children have changed. Therefore the <see cref="DependencyObject"/>
/// parameters of <see cref="OnVisualChildrenChanged(DependencyObject, DependencyObject)"/> are
/// not passed along to the <see cref="Shell.WindowChromeWorker"/> via this event.
/// </remarks>
internal event EventHandler<EventArgs> VisualChildrenChanged
{
add { Events.AddHandler(EVENT_VISUALCHILDRENCHANGED, value); }
remove { Events.RemoveHandler(EVENT_VISUALCHILDRENCHANGED, value); }
}
#endregion
//---------------------------------------------------
//
// Protected Methods
//
//---------------------------------------------------
#region Protected Methods
/// <summary>
/// Creates AutomationPeer (<see cref="UIElement.OnCreateAutomationPeer"/>)
/// </summary>
protected override AutomationPeer OnCreateAutomationPeer()
{
return new WindowAutomationPeer(this);
}
/// <summary>
/// OnDpiChanged is called when the DPI at which this Window is rendered, changes.
/// </summary>
protected override void OnDpiChanged(DpiScale oldDpi, DpiScale newDpi)
{
RaiseEvent(new DpiChangedEventArgs(oldDpi, newDpi, Window.DpiChangedEvent, this));
}
/// <summary>
/// OnVisualParentChanged is called when the parent of the Visual is changed.
/// </summary>
/// <param name="oldParent">Old parent or null if the Visual did not have a parent before.</param>
protected internal sealed override void OnVisualParentChanged(DependencyObject oldParent)
{
VerifyContextAndObjectState();
base.OnVisualParentChanged(oldParent);
// Checking for Visual parent here covers all the scenarios
// including the following:
// Window w1 = new Window();
// Window w2 = new WIndow();
// w1.Show();
// w2.Show();
// w1.VisualChildren.Add(w2);
// Window w1 = new Window();
// Window w2 = new WIndow();
// w1.Show();
// w1.VisualChildren.Add(w2);
// w2.Show();
if ( VisualTreeHelper.GetParent(this) != null )
{
throw new InvalidOperationException(SR.Get(SRID.WindowMustBeRoot));
}
}
/// <summary>
/// Measurement override. Implements content sizing logic.
/// </summary>
/// <remarks>
/// Deducts the frame size from the constraint and then passes it on
/// to its child. Only supports one Visual child (just like control)
/// </remarks>
protected override Size MeasureOverride(Size availableSize)
{
VerifyContextAndObjectState();
// hamidm: WOSB 1330752 Window content should respect Window's Max/Min size
// setting in a SizeToContent Window.
//
// Take Min/Max[Width/Height] into consideration. The logic here is similar to
// that used in FE.MeasureCore but is limited to Min/Max restriction. Furthermore,
// we have our own version of MinMax struct called WindowMinMax that takes
// SizeToContent into account when calculating the min/max values for height/width.
//
// We don't do anything special in ArrangeOverride the Arrange size is guaranteed
// to be the available hwnd size which should be atleast as big as the desired size.
Size frameworkAvailableSize = new Size(availableSize.Width, availableSize.Height);
WindowMinMax mm = GetWindowMinMax();
frameworkAvailableSize.Width = Math.Max(mm.minWidth, Math.Min(frameworkAvailableSize.Width, mm.maxWidth));
frameworkAvailableSize.Height = Math.Max(mm.minHeight, Math.Min(frameworkAvailableSize.Height, mm.maxHeight));
// call to specific layout to measure
Size desiredSize = MeasureOverrideHelper(frameworkAvailableSize);
// maximize desiredSize with user provided min size
desiredSize = new Size(
Math.Max(desiredSize.Width, mm.minWidth),
Math.Max(desiredSize.Height, mm.minHeight));
return desiredSize;
}
/// <summary>
/// ArrangeOverride allows for the customization of the positioning of children.
/// </summary>
/// <remarks>
/// Deducts the frame size of the window from the constraint and then
/// arranges its child. Supports only one child.
/// </remarks>
protected override Size ArrangeOverride(Size arrangeBounds)
{
VerifyContextAndObjectState();
// hamidm: WOSB 1330752 Window content should respect Window's Max/Min size
// setting in a SizeToContent Window.
WindowMinMax mm = GetWindowMinMax();
arrangeBounds.Width = Math.Max(mm.minWidth, Math.Min(arrangeBounds.Width, mm.maxWidth));
arrangeBounds.Height = Math.Max(mm.minHeight, Math.Min(arrangeBounds.Height, mm.maxHeight));
// Three primary cases
// 1) hwnd does not exist -- don't do anything
// 1a) CompositionTarget is invalid -- don't do anything
// 2) Child visual exists -- arrange child at arrangeBounds - window frame size
// 3) No Child visual -- don't do anything
// Adding check for IsCompositionTargetInvalid as part of the fix for WOSB 1453012
if (IsSourceWindowNull || IsCompositionTargetInvalid)
{
return arrangeBounds;
}
if (this.VisualChildrenCount > 0)
{
UIElement child = this.GetVisualChild(0) as UIElement;
if (child != null)
{
// Find out the size of the window frame x.
// (constraint - x) is the size we pass onto
// our child
Size frameSize = GetHwndNonClientAreaSizeInMeasureUnits();
// In some instances (constraint size - frame size) can be negative. One instance
// is when window is set to minimized before layout has happened. Apparently, Win32
// gives a rect(-32000, -32000, -31840, -31975) for GetWindowRect when hwnd is
// minimized. However, when we calculate the frame size we get width = 8 and
// height = 28!!! Here, we will take the max of zero and the difference b/w the
// hwnd size and the frame size
//
// PS Windows OS Bug: 955861
Size childArrangeBounds = new Size();
childArrangeBounds.Width = Math.Max(0.0, arrangeBounds.Width - frameSize.Width);
childArrangeBounds.Height = Math.Max(0.0, arrangeBounds.Height - frameSize.Height);
child.Arrange(new Rect(childArrangeBounds));
// Windows OS bug # 928719, 953458
// The default impl of FlowDirection is that it adds a transform on the element
// on whom the FlowDirection property is RlTb. However, transforms work only if
// there is a parent visual. In the window case, we are the root and thus this
// does not work. Thus, we add the same transform to our child, if our
// FlowDireciton = Rltb.
if (FlowDirection == FlowDirection.RightToLeft)
{
InternalSetLayoutTransform(child, new MatrixTransform(-1.0, 0.0, 0.0, 1.0, childArrangeBounds.Width, 0.0));
}
}
}
return arrangeBounds;
}
/// <summary>
/// This method is invoked when the Content property changes.
/// </summary>
/// <param name="oldContent">The old value of the Content property.</param>
/// <param name="newContent">The new value of the Content property.</param>
protected override void OnContentChanged(object oldContent, object newContent)
{
base.OnContentChanged(oldContent, newContent);
// hamidm 01/12/2005
// WOSB 1010151 FxCop: ConstructorsShouldNotCallBaseClassVirtualMethods::
// System.Windows (presentationframework.dll 2 violation)
//
// We can't set IWS property in the cctor since it results
// in calling some virtual. So, as an alternative we set it
// when content is changed and when we set the root visual.
// We set it here, b/c once window has logical children, they
// can query for inherited IWS property.
SetIWindowService();
// We post a dispatcher work item to fire ContentRendered
// only if this is Loaded in the tree. If not, we will
// post it from the LoadedHandler. This guarantees that
// we don't fire ContentRendered on a subtree that is not
// connected to a PresentationSource
if (IsLoaded == true)
{
PostContentRendered();
}
else
{
// _postContentRenderedFromLoadedHandler == true means
// that we deferred to the Loaded event to PostConetentRendered
// for the previous content change and Loaded has not fired yet.
// Thus we don't want to hook up another event handler
if (_postContentRenderedFromLoadedHandler == false)
{
this.Loaded += new RoutedEventHandler(LoadedHandler);
_postContentRenderedFromLoadedHandler = true;
}
}
}
/// <summary>
/// This even fires after the window source is created before it is shown. This event is non cancelable and is
/// for user infromational purposes
/// </summary>
/// <remarks>
/// This method follows the .Net programming guideline of having a protected virtual
/// method that raises an event, to provide a convenience for developers that subclass
/// the event. If you override this method - you need to call Base.OnSourceInitialized(...) for
/// the corresponding event to be raised.
/// </remarks>
/// <param name="e"></param>
protected virtual void OnSourceInitialized(EventArgs e)
{
VerifyContextAndObjectState();
EventHandler handler = (EventHandler)Events[EVENT_SOURCEINITIALIZED];
if (handler != null) handler(this, e);
}
/// <summary>
/// This even fires when window is activated. This event is non cancelable and is
/// for user infromational purposes
/// </summary>
/// <remarks>
/// This method follows the .Net programming guideline of having a protected virtual
/// method that raises an event, to provide a convenience for developers that subclass
/// the event. If you override this method - you need to call Base.OnClosed(...) for
/// the corresponding event to be raised.
/// </remarks>
/// <param name="e"></param>
protected virtual void OnActivated(EventArgs e)
{
VerifyContextAndObjectState();
EventHandler handler = (EventHandler)Events[EVENT_ACTIVATED];
if (handler != null) handler(this, e);
}
/// <summary>
/// This even fires when window is deactivated. This event is non cancelable and is
/// for user infromational purposes
/// </summary>
/// <remarks>
/// This method follows the .Net programming guideline of having a protected virtual
/// method that raises an event, to provide a convenience for developers that subclass
/// the event. If you override this method - you need to call Base.OnClosed(...) for
/// the corresponding event to be raised.
/// </remarks>
protected virtual void OnDeactivated(EventArgs e)
{
VerifyContextAndObjectState();
EventHandler handler = (EventHandler)Events[EVENT_DEACTIVATED];
if (handler != null) handler(this, e);
}
/// <summary>
/// This even fires when window state is changed. This event is non
/// cancelable and is for user infromational purposes
/// </summary>
/// <remarks>
/// This method follows the .Net programming guideline of having a protected virtual
/// method that raises an event, to provide a convenience for developers
/// that subclass the event. If you override this method - you need to call
/// Base.OnClosed(...) for the corresponding event to be raised.
/// </remarks>
protected virtual void OnStateChanged(EventArgs e)
{
VerifyContextAndObjectState();
EventHandler handler = (EventHandler)Events[EVENT_STATECHANGED];
if (handler != null) handler(this, e);
}
/// <summary>
/// This event fires when window location changes. This event is not
/// cancelable and is for user infromational purposes
/// </summary>
/// <remarks>
/// This method follows the .Net programming guideline of having a protected virtual
/// method that raises an event, to provide a convenience for developers that subclass
/// the event. If you override this method - you need to call Base.OnClosed(...) for
/// the corresponding event to be raised.
/// </remarks>
protected virtual void OnLocationChanged(EventArgs e)
{
VerifyContextAndObjectState();
EventHandler handler = (EventHandler)Events[EVENT_LOCATIONCHANGED];
if (handler != null) handler(this, e);
}
/// <summary>
/// This event fires when window is Closing. This event is cancelable and thus the
/// user can set the CancelEventArgs.Cancel property to true to dismiss window
/// closing
/// </summary>
/// <remarks>
/// This method follows the .Net programming guideline of having a protected virtual
/// method that raises an event, to provide a convenience for developers that subclass
/// the event. If you override this method - you need to call Base.OnClosing(...) for
/// the corresponding event to be raised.
/// </remarks>
protected virtual void OnClosing(CancelEventArgs e)
{
VerifyContextAndObjectState();
CancelEventHandler handler = (CancelEventHandler)Events[EVENT_CLOSING];
if (handler != null) handler(this, e);
}
/// <summary>
/// This event fires when window is closed. This event is non cancelable and is
/// for user infromational purposes
/// </summary>
/// <remarks>
/// This method follows the .Net programming guideline of having a protected virtual
/// method that raises an event, to provide a convenience for developers that subclass
/// the event. If you override this method - you need to call Base.OnClosed(...) for
/// the corresponding event to be raised.
/// </remarks>
protected virtual void OnClosed(EventArgs e)
{
VerifyContextAndObjectState();
EventHandler handler = (EventHandler)Events[EVENT_CLOSED];
if (handler != null) handler(this, e);
}
/// <summary>
/// This override fires the ContentRendered event.
/// </summary>
/// <param name="e"></param>
protected virtual void OnContentRendered(EventArgs e)
{
VerifyContextAndObjectState();
// After the content is rendered we want to check if there is an element that needs to be focused
// If there is - set focus to it
DependencyObject doContent = Content as DependencyObject;
if (doContent != null)
{
IInputElement focusedElement = FocusManager.GetFocusedElement(doContent) as IInputElement;
if (focusedElement != null)
focusedElement.Focus();
}
EventHandler handler = (EventHandler)Events[EVENT_CONTENTRENDERED];
if (handler != null) handler(this, e);
}
#endregion Protected Methods
//---------------------------------------------------
//
// Protected Internal Methods
//
//---------------------------------------------------
#region Protected Internal Methods
/// <summary>
/// Called when the <see cref="System.Windows.Media.VisualCollection"/> of the visual object is modified
/// </summary>
/// <param name="visualAdded">The <see cref="Visual"/> that was added to the collection</param>
/// <param name="visualRemoved">The <see cref="Visual"/> that was removed from the collection</param>
protected internal override void OnVisualChildrenChanged(DependencyObject visualAdded, DependencyObject visualRemoved)
{
VerifyContextAndObjectState();
var handler = Events[EVENT_VISUALCHILDRENCHANGED] as EventHandler<EventArgs>;
handler?.Invoke(this, new EventArgs());
}
#endregion
//---------------------------------------------------
//
// Internal Methods
//
//---------------------------------------------------
#region Internal Methods
///<SecurityNote>
/// Critical - calls a method that elevates - CompositionTarget
/// TreatAsSafe - We only use the CompositionTarget to do device to logical unit conversion.
///</SecurityNote>
[SecurityCritical, SecurityTreatAsSafe]
internal Point DeviceToLogicalUnits(Point ptDeviceUnits)
{
Invariant.Assert(IsCompositionTargetInvalid == false, "IsCompositionTargetInvalid is supposed to be false here");
Point ptLogicalUnits = _swh.CompositionTarget.TransformFromDevice.Transform(ptDeviceUnits);
return ptLogicalUnits;
}
///<SecurityNote>
/// Critical - calls a method that elevates - CompositionTarget
/// TreatAsSafe - We only use the CompositionTarget to do logical to device unit conversion.
///</SecurityNote>
[SecurityCritical, SecurityTreatAsSafe]
internal Point LogicalToDeviceUnits(Point ptLogicalUnits)
{
Invariant.Assert(IsCompositionTargetInvalid == false, "IsCompositionTargetInvalid is supposed to be false here");
Point ptDeviceUnits = _swh.CompositionTarget.TransformToDevice.Transform(ptLogicalUnits);
return ptDeviceUnits;
}
internal static bool VisibilityToBool(Visibility v)
{
switch (v)
{
case Visibility.Visible:
return true;
case Visibility.Hidden:
case Visibility.Collapsed:
return false;
default:
return false;
}
}
/// <summary>
/// Called by ResizeGrip control to set its reference in the Window object
/// </summary>
/// <remarks>
/// RBW doesn't need ResizeGrip and hence it doesn't do
/// anything in this virtual
/// </remarks>
internal virtual void SetResizeGripControl(Control ctrl)
{
_resizeGripControl = ctrl;
}
internal virtual void ClearResizeGripControl(Control oldCtrl)
{
if (oldCtrl == _resizeGripControl)
{
_resizeGripControl = null;
}
}
internal virtual void TryClearingMainWindow()
{
if (IsInsideApp && this == App.MainWindow)
{
App.MainWindow = null;
}
}
/// <summary>
/// Send a WM_CLOSE message to close the window. When the WM_CLOSE message is
/// processed by the WindowFilterMessage function, the Closing event is fired.
/// Closing event is cancelable and thus can dismiss window closing.
/// </summary>
/// <param name="shutdown">Specifies whether the app should shutdown or not</param>
/// <param name="ignoreCancel">Specifies whether cancelling closing should be ignored </param>
///<SecurityNote>
/// Critical - as this code calls UnsafeSendMessage that has a SUC.
///</SecurityNote>
[SecurityCritical]
internal void InternalClose(bool shutdown, bool ignoreCancel)
{
VerifyNotClosing();
if (_disposed == true)
{
return;
}
_appShuttingDown = shutdown;
_ignoreCancel = ignoreCancel;
if ( IsSourceWindowNull )
{
_isClosing = true;
// Event handler exception continuality: if exception occurs in Closing event handler, the
// cleanup action is to finish closing.
CancelEventArgs e = new CancelEventArgs(false);
try
{
OnClosing(e);
}
catch
{
CloseWindowBeforeShow();
throw;
}
if (ShouldCloseWindow(e.Cancel))
{
CloseWindowBeforeShow();
}
else
{
_isClosing = false;
// 03/14/2006 -- hamidm
// WOSB 1560557 Dialog does not close with ESC key after it has been cancelled
//
// No need to reset DialogResult to null here since source window is null. That means
// that ShowDialog has not been called and thus no need to worry about DialogResult.
}
}
else
{
// close window synchronously
// We demand for UIPermission AllWindows at the public API, Window.Close(), level.
// It can be called when shutting down the app.
// The public entry to that code path Application.Shutdown is
// also protected with a demand for UIPermission with AllWindow access
// SendMessage's return value is dependent on the message send. WM_CLOSE
// return value just signify whether the WndProc handled the
// message or not, so it is not interesting
#pragma warning disable 6523
UnsafeNativeMethods.UnsafeSendMessage(CriticalHandle, WindowMessage.WM_CLOSE, new IntPtr(), new IntPtr());
#pragma warning enable 6523
}
}
// NOTE: hamidm 05/18/03 -- PS # 843776
// We fire Closing and Closed envent even if the hwnd is not
// created yet i.e. window is not shown.
///<SecurityNote>
/// Critical: Calls critical code: Window.InternalDispose
///</SecurityNote>
[SecurityCritical]
private void CloseWindowBeforeShow()
{
InternalDispose();
// raise Closed event
OnClosed(EventArgs.Empty);
}
///<SecurityNote>
/// Critical - as this accesses critical data.
/// TreatAsSafe - as this function just tests to see whether _sourceWindow has been created.
/// Ok to expose publically. Equivalent to is Window visible.
///</SecurityNote>
internal bool IsSourceWindowNull
{
[ SecurityCritical, SecurityTreatAsSafe ]
get
{
if ( _swh != null )
{
return _swh.IsSourceWindowNull;
}
return true;
}
}
///<SecurityNote>
/// Critical - as this accesses critical data.
/// TreatAsSafe - as this function just tests to see whether CompositionTarget is valid.
/// Ok to expose publically.
///</SecurityNote>
internal bool IsCompositionTargetInvalid
{
[ SecurityCritical, SecurityTreatAsSafe ]
get
{
if (_swh != null)
{
return _swh.IsCompositionTargetInvalid;
}
return true;
}
}
internal NativeMethods.RECT WorkAreaBoundsForNearestMonitor
{
get
{
Debug.Assert( _swh != null );
return _swh.WorkAreaBoundsForNearestMonitor;
}
}
internal Size WindowSize
{
get
{
Debug.Assert( _swh != null );
return _swh.WindowSize;
}
}
// This is currently exposed just for DRTs.
// PLEASE NOTE THAT IF YOU ARE CALLING THIS WITHIN AVALON CODE - YOU ARE CALLING A SECURITY
internal HwndSource HwndSourceWindow
{
[SecurityCritical, SecurityTreatAsSafe ]
get
{
SecurityHelper.DemandUIWindowPermission();
if ( _swh != null )
return _swh.HwndSourceWindow;
else
return null;
}
}
//
// NOTE: added on 10/03/02
// We should set our _hwndSource reference to null here.
// Else, if the hwndSource is not null, users can call
// public APIs that use hwndSource and it will fail
/// <summary>
/// can be used by internal derived class
/// </summary>
///<SecurityNote>
/// Critical: It calls critical code: Window.UpdateWindowListsOnClose and it
/// is used to dispose of the native handles which link demands in safe handle
///</SecurityNote>
[SecurityCritical]
private void InternalDispose()
{
_disposed = true;
// UpdateWindowLists here instead of in WM_CLOSE for 2 reasons.
// 1. WM_CLOSE is not fired for child window. An example would be RootBrowserWindow (bug 1754467).
// 2. It is not fired as a result of calling Dispose directly on HwndSource (HwndSource distroy the window).
UpdateWindowListsOnClose();
#if DISPOSE
// detach all events
Utilities.SafeDispose(ref _events);
#endif
// NOTE: hamidm
// This InternalDispose method is called while
// processing WM_DESTROY msg. Once we're done
// processing this msg, HwndWrapper does its processing.
// We don't need to dispose _swh here b/c
// HwndWrapper fires the hwndDisposed event while
// processing WM_DESTROY msg. HwndSource listens to
// this event and disposes itself i.e. the CompositionTarget etc.
// If we call dispose here, HwndWrapper.Dispose sends
// a WM_DESTROY msg and it is a duplicate msg.
// When the window is closing, stop any deferred operations.
if (_taskbarRetryTimer != null)
{
_taskbarRetryTimer.Stop();
_taskbarRetryTimer = null;
}
try
{
ClearSourceWindow();
Utilities.SafeDispose(ref _hiddenWindow);
Utilities.SafeDispose(ref _defaultLargeIconHandle);
Utilities.SafeDispose(ref _defaultSmallIconHandle);
Utilities.SafeDispose(ref _currentLargeIconHandle);
Utilities.SafeDispose(ref _currentSmallIconHandle);
Utilities.SafeRelease(ref _taskbarList);
}
finally
{
_isClosing = false;
}
}
/// <summary>
/// This is a callback called to set the window Visual. It is called after
/// the source window has been created.
/// </summary>
internal override void OnAncestorChanged()
{
base.OnAncestorChanged();
if (Parent != null)
{
throw new InvalidOperationException(SR.Get(SRID.WindowMustBeRoot));
}
}
/// <summary>
/// Initializes the _style and _styleEx bits.
/// </summary>
internal virtual void CreateAllStyle()
{
// we don't need to set to WS_OVERLAPPEDWINDOW since all the styles are set
// manually depending on window properties.
//
// We always have the sysmenu
// If the Window has a Caption, then this also
// shows the icon and the close box
_Style = NativeMethods.WS_CLIPCHILDREN | NativeMethods.WS_SYSMENU;
_StyleEx = 0;
CreateWindowStyle();
CreateWindowState();
// do all the other checks and update style bits
// Visibility bits
if ( _isVisible )
{
_Style |= NativeMethods.WS_VISIBLE;
}
SetTaskbarStatus();
CreateTopmost();
CreateResizibility();
CreateRtl();
}
/// <summary>
/// Create the window
/// Virtual so that subclasses ( currently only RootBrowserWindow) - may assert for HwndSource creation.
/// </summary>
///<SecurityNote>
/// Critical - calls critical method CreateSourceWindow to create hwnd.
///</SecurityNote>
[SecurityCritical]
internal virtual void CreateSourceWindowDuringShow()
{
CreateSourceWindow(true);
}
/// <remarks>
/// This method is called in the following two cases:
/// 1. As a result of calling Show on Window, Window.Show (Visibility = Visible).
/// 2. WindowInteropHelper.EnsureHandle is called. Hwnd is created but not shown.
/// We only create hwnd. RootVisual is not set until Show.
///
/// This method does the following:
/// CalculateLocation of the window:
/// Calculates location of window. If either Top/Left is CW_USEDEFAULT,
/// we have to make sure that window displays on the screen. Details in
/// the methods.
///
/// Calculate size:
/// Calculates size. If either one of Width/Height is set, then we
/// create a window with both set to default and then resizing it
/// to the set value
///
/// Update Properties:
/// After the hwnd is created, we updated our property values for various
/// properties
///
/// Modify the message filter:
/// Elevated processes don't normally receive messages from unelevated processes.
/// For taskbar integration in Windows 7 we need to explicitly allow explorer to post
/// messages to this window..
/// </remarks>
/// <param name="duringShow">Specifies whether this method is called from Window.Show
/// or WindowInteropHelper.EnsureHandle</param>
///<SecurityNote>
/// Critical - as this method accesses critical data and creates a window which it stores locally
///</SecurityNote>
[SecurityCritical]
internal void CreateSourceWindow(bool duringShow)
{
VerifyContextAndObjectState();
VerifyCanShow();
VerifyNotClosing();
VerifyConsistencyWithAllowsTransparency();
// We do not support create hwnd before shown for RBW.
if (duringShow == false)
{
VerifyApiSupported();
}
// we need to cache initial requested top and left as the very first thing
// since updating the styles etc (as for borderless case below) fires
// WM_MOVE and update Top/Left. Also, for RBW case, Top/Left is returned
// as 0,0 since they are inconsequential.
double requestedTop = 0;
double requestedLeft = 0;
double requestedWidth = 0;
double requestedHeight = 0;
GetRequestedDimensions(ref requestedLeft, ref requestedTop, ref requestedWidth, ref requestedHeight);
// Initially, an HWND created in a Per-Monitor Aware process may not
// have a reliable DPI. Instead, it would be associated with the monitor in which the screen point (0,0)
// happens to be, but the screen point corresponding to a WPF Window's (requestedLeft, requestedTop) may
// not map into that monitor. Our initial DeviceToLogicalUnits and LogicalToDeviceUnits transforms
// would normally have to rely on the DPI obtained from this HWND, which may lead us to
// an incorrect result when calculating screen points. To avoid this, we use a special heuristic here
// to identify the (screenLeft, screenTop) initially without relying on the HWND, and then
// supply it to HwndSourceParameters at the time of HWND creation. This would in turn set up the HWND
// with the correct DPI from the start, and all our transformations would also follow suit.
var topLeftPointHelper = new WindowStartupTopLeftPointHelper(new Point(requestedLeft, requestedTop));
using (HwndStyleManager sm = HwndStyleManager.StartManaging(this, StyleFromHwnd, StyleExFromHwnd))
{
// set window style and styleEx bits
// CreateAllStyle is internal virtual. RBW overrides it to set style to WS_CHILD and
// set parent handle
CreateAllStyle();
// create the Win32 Window
HwndSourceParameters param = CreateHwndSourceParameters();
if (topLeftPointHelper.ScreenTopLeft.HasValue)
{
var screenTopLeft = topLeftPointHelper.ScreenTopLeft.Value;
param.SetPosition((int)screenTopLeft.X, (int)screenTopLeft.Y);
}
// HwndSource disposes itself when HwndWrapper process the WM_DESTROY message.
// Window sends WM_CLOSE (which in turn sends WM_DESTROY) to the hwnd when
// Window.Close() is called. Thus, this HwndSource created by window is always
// disposed by HwndSource itself
#pragma warning disable 56518
HwndSource source = new HwndSource(param);
#pragma warning enable 56518
_swh = new SourceWindowHelper(source);
source.SizeToContentChanged += new EventHandler(OnSourceSizeToContentChanged);
// since we created the window with the style, mark
// sm as not dirty so that we don't unneccessarialy update
// the Win32 style bits.
sm.Dirty = false;
// NOTE: hamidm
// HwndSource COULD ADD STYLE/STYLEEX BITS TO THE ONES SUPPLIED. TODAY,
// HwndSource ADDS WS_CLIPCHILDREN TO THE STYLE WHICH MAY NOT
// BE REFLECTED IN OUR CACHED STYLE BITS. IF WE WERE
// TO UPDATE THE WIN32 SYTLE, THE STYLES ADDED BY HWNDSOURCE
// WOULD BE LOST. IF IN THE
// Since RBW cannot access WindowStyle, hence it overrides
// this virtual and does nothing it it.
CorrectStyleForBorderlessWindowCase();
} // end using StyleManager
// We don't do anything that uses the Window styles below so we might as
// well close the using so that we update the new style to the hwnd.
// This change was made for WOSB 1051710 where SizeToContent.WidthAndHeight borderless
// windows where actually bigger than the content size. This was b/c of
// the fact that we didn't update the style of the hwnd before setting
// the RootVisual which inturn calls MeasureOverride on Window from
// where we calculating the non-client area size using the stale
// style bits from the hwnd.
// Add Disposed event handler
_swh.AddDisposedHandler ( new EventHandler(OnSourceWindowDisposed) );
_hwndCreatedButNotShown = !duringShow;
// Since this is only for Win7 taskbar integration, don't bother with this call unless we're on an appropriate OS.
if (Utilities.IsOSWindows7OrNewer)
{
// In case the application is run elevated, explicitly allow WM_TASKBARBUTTONCREATED and WM_COMMAND
// through the message filter. This method call will fail if the application was started with
// SECURITY_MANDATORY_LOW_RID, so don't propagate failed error codes.
// It's not the end of the world if this fails: Shell integration simply won't work.
MSGFLTINFO info;
UnsafeNativeMethods.ChangeWindowMessageFilterEx(_swh.CriticalHandle, WM_TASKBARBUTTONCREATED, MSGFLT.ALLOW, out info);
UnsafeNativeMethods.ChangeWindowMessageFilterEx(_swh.CriticalHandle, WindowMessage.WM_COMMAND, MSGFLT.ALLOW, out info);
}
// Sub classes can have different intialization. RBW does very minimalistic
// stuff in its override
SetupInitialState(requestedTop, requestedLeft, requestedWidth, requestedHeight);
// Fire SourceInitialized event
OnSourceInitialized(EventArgs.Empty);
}
///<SecurityNote>
/// Critical: Exposes _ownerHandle.
///</SecurityNote>
[SecurityCritical]
internal virtual HwndSourceParameters CreateHwndSourceParameters()
{
HwndSourceParameters param = new HwndSourceParameters(Title, NativeMethods.CW_USEDEFAULT, NativeMethods.CW_USEDEFAULT);
param.UsesPerPixelOpacity = AllowsTransparency;
param.WindowStyle = _Style;
param.ExtendedWindowStyle = _StyleEx;
param.ParentWindow = _ownerHandle;
param.AdjustSizingForNonClientArea = true;
param.HwndSourceHook = new HwndSourceHook(WindowFilterMessage); // hook to process window messages
return param;
}
private void OnSourceSizeToContentChanged(object sender, EventArgs args)
{
SizeToContent = HwndSourceSizeToContent;
}
internal virtual void CorrectStyleForBorderlessWindowCase()
{
// We create an OverLapped window for which user adds WS_CAPTION
// to the passed in style. If we were creating a borderless window,
// remove WS_CAPTION from the hwnd.
//
// We should really be using WS_POPUP for borderless windows, but
// there's a bug with default sizing where user creates the popup
// window with 0,0 size.
//
using (HwndStyleManager sm = HwndStyleManager.StartManaging(this, StyleFromHwnd, StyleExFromHwnd))
{
if (WindowStyle == WindowStyle.None)
{
_Style = _swh.StyleFromHwnd;
_Style &= ~NativeMethods.WS_CAPTION;
}
}
}
internal virtual void GetRequestedDimensions(ref double requestedLeft, ref double requestedTop, ref double requestedWidth, ref double requestedHeight)
{
requestedTop = this.Top;
requestedLeft = this.Left;
requestedWidth = this.Width;
requestedHeight = this.Height;
}
///<SecurityNote>
/// Critical - as this method accesses critical data (CriticalHandle) and
/// resizes/repositions the window
/// It also calls critical method (SetRootVisual)
///</SecurityNote>
[SecurityCritical]
internal virtual void SetupInitialState(double requestedTop, double requestedLeft, double requestedWidth, double requestedHeight)
{
// Push the current SizeToContent value to HwndSource after it's created. Initial sync up.
HwndSourceSizeToContent = (SizeToContent) GetValue(SizeToContentProperty);
UpdateIcon();
NativeMethods.RECT rc = WindowBounds;
Size sizeDeviceUnits = new Size(rc.right - rc.left, rc.bottom - rc.top);
double xDeviceUnits = rc.left;
double yDeviceUnits = rc.top;
bool updateHwndPlacement = false;
// This code is absolutely necessary here. This is the initial sync up
// for Left/Top. We don't do this in WM_MOVE if sourceWindow is
// null (it is null b/c the call to create HwndSource has not returned at the point)
// and we are not listening to WM_CREATE either. The reasons for not
// doing so is b/c if sourceWindow is null, we can't get to the CompositionTarget
// to convert b/w device and logical pixels
Point currentLocationLogicalUnits = DeviceToLogicalUnits(new Point(xDeviceUnits, yDeviceUnits));
// Update our current hwnd ActualTop/ActualLeft values
// The _actualLeft and _actualTop need to be updated before we coerce Top and Left.
// See CoerceTop for more info.
_actualLeft = currentLocationLogicalUnits.X;
_actualTop = currentLocationLogicalUnits.Y;
// Coerce Top and Left value to be the intial value used in CreateWindowEx.
try
{
_updateHwndLocation = false;
CoerceValue(TopProperty);
CoerceValue(LeftProperty);
}
finally
{
_updateHwndLocation = true;
}
Point requestedSizeDeviceUnits = LogicalToDeviceUnits(new Point(requestedWidth, requestedHeight));
Point requestedLocationDeviceUnits = LogicalToDeviceUnits(new Point(requestedLeft, requestedTop));
// if Width was specified and is not the same as the current width, then update it
if ((!DoubleUtil.IsNaN(requestedWidth)) && (!DoubleUtil.AreClose(sizeDeviceUnits.Width, requestedSizeDeviceUnits.X)))
{
// at this stage, ActualWidth/Height is not set since
// layout has not happened (it happens when we set the
// RootVisual of the HwndSource)
updateHwndPlacement = true;
sizeDeviceUnits.Width = requestedSizeDeviceUnits.X;
// SetWindowPlacement for Width/Height when Width/Height is set and WindowState is maximized/minimized.
if (WindowState != WindowState.Normal)
{
UpdateHwndRestoreBounds(requestedWidth, BoundsSpecified.Width);
}
}
// if Height was specified and is not the same as the current height, then update it
if (!DoubleUtil.IsNaN(requestedHeight) && (!DoubleUtil.AreClose(sizeDeviceUnits.Height, requestedSizeDeviceUnits.Y)))
{
// at this stage, ActualWidth/Height is not set since
// layout has not happened (it happens when we set the
// RootVisual of the HwndSource)
updateHwndPlacement = true;
sizeDeviceUnits.Height = requestedSizeDeviceUnits.Y;
// SetWindowPlacement for Width/Height when Width/Height is set and WindowState is maximized/minimized.
if (WindowState != WindowState.Normal)
{
UpdateHwndRestoreBounds(requestedHeight, BoundsSpecified.Height);
}
}
// if left was specified and is not the same as the current left, then update it
if (!DoubleUtil.IsNaN(requestedLeft) && (!DoubleUtil.AreClose(xDeviceUnits, requestedLocationDeviceUnits.X)))
{
updateHwndPlacement = true;
xDeviceUnits = requestedLocationDeviceUnits.X;
// SetWindowPlacement for Top/Left when Top/Left is set and WindowState is maximized/minimized.
if (WindowState != WindowState.Normal)
{
UpdateHwndRestoreBounds(requestedLeft, BoundsSpecified.Left);
}
}
// if top was specified and is not the same as the current top, then update it
if (!DoubleUtil.IsNaN(requestedTop) && (!DoubleUtil.AreClose(yDeviceUnits, requestedLocationDeviceUnits.Y)))
{
updateHwndPlacement = true;
yDeviceUnits = requestedLocationDeviceUnits.Y;
// SetWindowPlacement for Top/Left when Top/Left is set and WindowState is maximized/minimized.
if (WindowState != WindowState.Normal)
{
UpdateHwndRestoreBounds(requestedTop, BoundsSpecified.Top);
}
}
Point minSizeDeviceUnits = LogicalToDeviceUnits(new Point(MinWidth, MinHeight));
Point maxSizeDeviceUnits = LogicalToDeviceUnits(new Point(MaxWidth, MaxHeight));
// We need this here b/c when WM_GETMINMAXINFO is handled as a result of
// creating the hwnd, _swh is null and thus we cannot get to the CompositionTarget
// to convert b/w device and logical units. Thus, once the hwnd is created, we
// need to check to make sure that the hwnd is within the min/max boundaries.
//
// Here is idea it to detect if we are outside the min/max range and if yes, cause
// a resize. This resize will call WM_GETMINMAXINFO and that will further take
// care of the bounds
if (!Double.IsPositiveInfinity(maxSizeDeviceUnits.X) && (sizeDeviceUnits.Width > maxSizeDeviceUnits.X))
{
updateHwndPlacement = true;
sizeDeviceUnits.Width = maxSizeDeviceUnits.X;
}
if (!Double.IsPositiveInfinity(minSizeDeviceUnits.Y) && (sizeDeviceUnits.Height > maxSizeDeviceUnits.Y))
{
updateHwndPlacement = true;
sizeDeviceUnits.Height = maxSizeDeviceUnits.Y;
}
if (sizeDeviceUnits.Width < minSizeDeviceUnits.X)
{
updateHwndPlacement = true;
sizeDeviceUnits.Width = minSizeDeviceUnits.X;
}
if (sizeDeviceUnits.Height < minSizeDeviceUnits.Y)
{
updateHwndPlacement = true;
sizeDeviceUnits.Height = minSizeDeviceUnits.Y;
}
// Now that we know the window Width/Height/Left/Top, we want to calculate
// the location based on WindowStartupLocation enum. All inputs to
// CalculateWindowLocation must be in DEVICE units. It will return true,
// if it updated theinput values of left, top.
//
updateHwndPlacement = (CalculateWindowLocation(ref xDeviceUnits, ref yDeviceUnits, sizeDeviceUnits)? true: updateHwndPlacement);
// We need to update the hwnd size before we set RootVisual b/c setting RootVisual
// results in a Measure/Arrange/Layout and we want to set the correct hwnd size
// now so that layout happens at the correct size.
//
//
// We are intentionally not merging this SetWindowPos with the one in SetRootVisualAndUpdateSTC. The reason is
// that if Width or Height is set we initially create the hwnd with both as default win32 size
// and later (above call to SetWindowPos) resizes it to reflect the specified Width or Height.
// After this is done, we set RootVisual which results in a layout with the correct size of
// the hwnd.
//
// If we merge the two SetWindowPos calls, then for the scenario where
// Width or Height is set initially, we create the hwnd with win32 default size. Setting RootVisual
// would cause layout to happen at that default size. Now, we resize the window to reflect the
// specified size which will result in another layout.
//
// The third option is to set RootVisual after doing all resizes. This is not possible to do for
// the SizeToContent case since we don't know the size of hwnd until RootVisual is set and layout
// has happened.
//
if (updateHwndPlacement == true)
{
if (WindowState == WindowState.Normal)
{
UnsafeNativeMethods.SetWindowPos(new HandleRef(this, CriticalHandle),
new HandleRef(null, IntPtr.Zero),
DoubleUtil.DoubleToInt(xDeviceUnits),
DoubleUtil.DoubleToInt(yDeviceUnits),
DoubleUtil.DoubleToInt(sizeDeviceUnits.Width),
DoubleUtil.DoubleToInt(sizeDeviceUnits.Height),
NativeMethods.SWP_NOZORDER | NativeMethods.SWP_NOACTIVATE
);
// The value of Top and Left is affected by WindowState and WindowStartupLocation.
// we need to coerce Top and Left whenever these deciding factors change.
// More info in CoerceTop.
try
{
_updateHwndLocation = false;
_updateStartupLocation = true;
CoerceValue(TopProperty);
CoerceValue(LeftProperty);
}
finally
{
_updateHwndLocation = true;
_updateStartupLocation = false;
}
}
}
// RootVisual is not set until Show.
// Only set RootVisual when we are going to show the window.
if (!HwndCreatedButNotShown)
{
SetRootVisualAndUpdateSTC();
}
}
///<SecurityNote>
/// Critical - as this method accesses critical method (_swh.RootVisual)
///</SecurityNote>
[SecurityCritical]
internal void SetRootVisual()
{
// hamidm 01/12/2005
// WOSB 1010151 FxCop: ConstructorsShouldNotCallBaseClassVirtualMethods::
// System.Windows (presentationframework.dll 2 violation)
//
// We can't set IWS property in the cctor since it results
// in calling some virtual. So, as an alternative we set it
// when content is changed and when we set the root visual.
// We set it here, b/c once RootVisual is set, the visual tree
// can/is created and visual children can query for inherited
// IWS property.
SetIWindowService();
// set root visual synchronously, shell request
if ( IsSourceWindowNull == false )
{
_swh.RootVisual = this;
}
}
///<SecurityNote>
/// Critical - as this method accesses critical method SetRootVisual() and pinvoke to update
/// window size/location.
///</SecurityNote>
[SecurityCritical]
internal void SetRootVisualAndUpdateSTC()
{
SetRootVisual();
// We update size/location based on the value of SizeToContent after the RootVisual is set.
// The world (size/location) could have changed after SetRootVisual. Verify assumptions before moving on.
// Specifically SetRootVisual may have initialized a Layout, and if an event handler Closed the Window
// as a result then _swh (used by LogicalToDeviceUnits) is already disposed.
if (!IsSourceWindowNull)
{
// if SizeToContent, we would need to set the location again if
// WSL is CenterOwner or CenterScreen b/c size may have changed
// after we set the RootVisual on HwndSource.
// And if the hwnd is created but is not shown yet, we need to re-calculate the location again because
// the value of the WindowStartupLocation can change after EnsureHandle is called.
// We only update location if there is any change needed.
if ((SizeToContent != SizeToContent.Manual) || (HwndCreatedButNotShown == true))
{
NativeMethods.RECT rc = WindowBounds;
double xDeviceUnits = rc.left;
double yDeviceUnits = rc.top;
// inputs to CalculateWindowLocation must be in DEVICE units
Point newSizeDeviceUnits = LogicalToDeviceUnits(new Point(this.ActualWidth, this.ActualHeight));
if (CalculateWindowLocation(ref xDeviceUnits, ref yDeviceUnits, new Size(newSizeDeviceUnits.X, newSizeDeviceUnits.Y)))
{
if (WindowState == WindowState.Normal)
{
UnsafeNativeMethods.SetWindowPos(new HandleRef(this, CriticalHandle),
new HandleRef(null, IntPtr.Zero),
DoubleUtil.DoubleToInt(xDeviceUnits),
DoubleUtil.DoubleToInt(yDeviceUnits),
0,
0,
NativeMethods.SWP_NOSIZE | NativeMethods.SWP_NOZORDER | NativeMethods.SWP_NOACTIVATE
);
// The value of Top and Left is affected by WindowState and WindowStartupLocation.
// we need to coerce Top and Left whenever these deciding factors change.
// More info in CoerceTop.
try
{
_updateHwndLocation = false;
_updateStartupLocation = true;
CoerceValue(TopProperty);
CoerceValue(LeftProperty);
}
finally
{
_updateHwndLocation = true;
_updateStartupLocation = false;
}
}
}
}
}
}
/// <summary>
/// Create the style bits depending on the WindowStyle property
/// </summary>
/// <remarks>
/// This method does not clear the bits, so the style bits should be cleared
/// before calling this method
/// </remarks>
private void CreateWindowStyle()
{
// Clear the style bits related to WindowStyle
_Style &= ~NativeMethods.WS_CAPTION;
_StyleEx &= ~(NativeMethods.WS_EX_CLIENTEDGE | NativeMethods.WS_EX_TOOLWINDOW);
// WS_CAPTION == WS_BORDER | WS_DLGFRAME (0x00C00000L)
// Thus no need to set/clear WS_BORDER when we are
// already seting/clearing WS_CAPTION
switch (WindowStyle)
{
case WindowStyle.None:
_Style &= (~NativeMethods.WS_CAPTION);
break;
case WindowStyle.SingleBorderWindow:
_Style |= NativeMethods.WS_CAPTION;
break;
case WindowStyle.ThreeDBorderWindow:
_Style |= NativeMethods.WS_CAPTION;
_StyleEx |= NativeMethods.WS_EX_CLIENTEDGE;
break;
case WindowStyle.ToolWindow:
_Style |= NativeMethods.WS_CAPTION;
_StyleEx |= NativeMethods.WS_EX_TOOLWINDOW;
break;
#if Never
case WindowBorderStyle.Sizable:
_startSettings.Style |= NativeMethods.WS_BORDER | NativeMethods.WS_THICKFRAME;
break;
case WindowBorderStyle.FixedDialog:
_startSettings.Style |= NativeMethods.WS_BORDER;
_startSettings.StyleEx |= NativeMethods.WS_EX_DLGMODALFRAME;
break;
case WindowBorderStyle.SizableToolWindow:
_startSettings.Style |= NativeMethods.WS_BORDER | NativeMethods.WS_THICKFRAME;
_startSettings.StyleEx |= NativeMethods.WS_EX_TOOLWINDOW;
break;
#endif
}
}
// called as a result of title property changing to propagate it to the hwnd
/// <SecurityNote>
/// Critical: As this accesses Handle
/// TreatAsSafe: There will be a demand from SetWindowText
/// </SecurityNote>
[SecurityCritical,SecurityTreatAsSafe]
internal virtual void UpdateTitle(string title)
{
// Adding check for IsCompositionTargetInvalid as part of the fix for WOSB 1453012
if ( IsSourceWindowNull == false && IsCompositionTargetInvalid == false)
{
UnsafeNativeMethods.SetWindowText(new HandleRef(this, CriticalHandle), title);
}
}
// called as a result of Height/MinHeight/MaxHeight and Width/MinWidth/MaxWidth property changing to update the hwnd size
/// <SecurityNote>
/// Critical: This code accesses CriticalHandle
/// TreatAsSafe: This code only works under RBW code path , this operation is ok since
/// RBW window is bound to the restrictions of its parent window which is the browser
/// </SecurityNote>
[SecurityCritical, SecurityTreatAsSafe]
private void UpdateHwndSizeOnWidthHeightChange(double widthLogicalUnits, double heightLogicalUnits)
{
if (!_inTrustedSubWindow)
{
SecurityHelper.DemandUIWindowPermission();
}
Debug.Assert( IsSourceWindowNull == false , "IsSourceWindowNull cannot be true when calling this function");
Point ptDeviceUnits = LogicalToDeviceUnits(new Point(widthLogicalUnits, heightLogicalUnits));
UnsafeNativeMethods.SetWindowPos(new HandleRef(this, CriticalHandle),
new HandleRef(null, IntPtr.Zero),
0,
0,
DoubleUtil.DoubleToInt(ptDeviceUnits.X),
DoubleUtil.DoubleToInt(ptDeviceUnits.Y),
NativeMethods.SWP_NOMOVE | NativeMethods.SWP_NOZORDER | NativeMethods.SWP_NOACTIVATE
);
}
// Activate or Deactivate window
internal void HandleActivate(bool windowActivated)
{
// hamidm -- 12/10/04
//
// This method is called by WM_ACTIVATE msg hander for the stand alone
// window case. WM_ACTIVATE is sent twice when activating a minimized
// window by mouse click; once with window state minimized and then again
// with window state normal. Thus, we have the following if conditions
// to fire Activated/Deactivated events only if we're activating/deactivating
// the window and the window was previously deactivated/activated.
//
// Please look at WOSB 990841 (Activated event fires twice on window when
// you minimize and restore a window) on this issue.
//
// Event handler exception continuality: if exception occurs in Activated/Deactivated event handlers, our state will not be
// corrupted because the state related to Activated/Deactivated, IsActive is set before the event is fired.
// Please check Event handler exception continuality if the logic changes.
if ((windowActivated == true) && (IsActive == false))
{
SetValue(IsActivePropertyKey, BooleanBoxes.TrueBox);
OnActivated(EventArgs.Empty);
}
else if ((windowActivated == false) && (IsActive == true))
{
SetValue(IsActivePropertyKey, BooleanBoxes.FalseBox);
OnDeactivated(EventArgs.Empty);
}
}
internal virtual void UpdateHeight(double newHeight)
{
if (WindowState == WindowState.Normal)
{
// We cannot save the current hwnd height in logical units in WmSizeChanged b/c the HwndSource
// might not be completely created at that time (when we call new HwndSource from CreateSourceWindow)
// and DeviceToLogicalUnits fails. Thus we convert to logical units here before we call
// UpdateHwndSizeonWidthHeightChange since that expects logical units.
NativeMethods.RECT rc = WindowBounds;
Point sizeLogicalUnits = DeviceToLogicalUnits(new Point(rc.Width, 0));
UpdateHwndSizeOnWidthHeightChange(sizeLogicalUnits.X, newHeight);
}
else
{
UpdateHwndRestoreBounds(newHeight, BoundsSpecified.Height);
}
}
internal virtual void UpdateWidth(double newWidth)
{
if (WindowState == WindowState.Normal)
{
// We cannot save the current hwnd width in logical units in WmSizeChanged b/c the HwndSource
// might not be completely created at that time (when we call new HwndSource from CreateSourceWindow)
// and DeviceToLogicalUnits fails. Thus we convert to logical units here before we call
// UpdateHwndSizeonWidthHeightChange since that expects logical units.
NativeMethods.RECT rc = WindowBounds;
Point sizeLogicalUnits = DeviceToLogicalUnits(new Point(0, rc.Height));
UpdateHwndSizeOnWidthHeightChange(newWidth, sizeLogicalUnits.Y);
}
else
{
// set restore width
UpdateHwndRestoreBounds(newWidth, BoundsSpecified.Width);
}
}
///<SecurityNote>
/// Critical - This code is used to block off api in rbw
/// TreatAsSafe - This is critical only because we want to track change
///</SecurityNote>
[SecurityCritical, SecurityTreatAsSafe]
internal virtual void VerifyApiSupported()
{
// don't do anything here since we allow this API in Window.
// Subclasses can throw exception in their override if
// they don't allow the api.
}
#endregion Internal Methods
//----------------------------------------------
//
// Internal Properties
//
//----------------------------------------------
#region Internal Properties
internal bool HwndCreatedButNotShown
{
get
{
return _hwndCreatedButNotShown;
}
}
internal bool IsDisposed
{
get
{
return _disposed;
}
}
/// <summary>
/// This tells whether user has set Visible or not. It's currently used in Application
/// where if Visibility has not been set when the Window is navigated to, we set it to
/// Visible
/// </summary>
internal bool IsVisibilitySet
{
get
{
VerifyContextAndObjectState();
return _isVisibilitySet;
}
}
/// <summary>
/// Exposes the hwnd of the window. This property is used by the WindowInteropHandler
/// class
/// </summary>
/// <SecurityNote>
/// Critical: This code exposes handle
/// </SecurityNote>
internal IntPtr CriticalHandle
{
[SecurityCritical]
get
{
VerifyContextAndObjectState();
if (_swh != null)
{
return _swh.CriticalHandle;
}
else
return IntPtr.Zero;
}
}
/// <summary>
/// Enables to get/set the owner handle for this window. This property is used by
/// the WindowInteropHelper class
/// </summary>
///<remarks>
/// This API is currently not available for use in Internet Zone.
///</remarks>
///<SecurityNote>
/// Critical - accesses _ownerHandle, calls SetOwnerHandle.
/// TreatAsSafe - get/set protected by Demand's.
///</SecurityNote>
internal IntPtr OwnerHandle
{
[SecurityCritical,SecurityTreatAsSafe]
get
{
SecurityHelper.DemandUIWindowPermission();
VerifyContextAndObjectState();
return _ownerHandle;
}
[SecurityCritical, SecurityTreatAsSafe]
set
{
SecurityHelper.DemandUIWindowPermission();
VerifyContextAndObjectState();
if ( _showingAsDialog == true )
{
throw new InvalidOperationException(SR.Get(SRID.CantSetOwnerAfterDialogIsShown));
}
SetOwnerHandle(value);
}
}
/// <summary>
/// This is used by RBW to set the correct win32 style
/// </summary>
internal int Win32Style
{
get
{
VerifyContextAndObjectState();
return _Style;
}
set
{
VerifyContextAndObjectState();
// The reason this is not wrapped by a manager is that it should never
// be invoked outside the scope on an already established manager.
Debug.Assert(Manager != null, "HwndStyleManager must have a valid value here");
_Style = value;
}
}
/// <SecurityNote>
/// Critical: This code causes style to be set and acceses a critical resource
/// TreatAsSafe: There exists a demand on set since SET is not safe
/// </SecurityNote>
internal int _Style
{
get
{
if (Manager != null)
{
return _styleDoNotUse.Value;
}
else if ( IsSourceWindowNull )
{
return _styleDoNotUse.Value;
}
else
{
return _swh.StyleFromHwnd;
}
}
[SecurityCritical,SecurityTreatAsSafe]
set
{
SecurityHelper.DemandUIWindowPermission();
_styleDoNotUse= new SecurityCriticalDataForSet<int>(value);
Manager.Dirty = true;
}
}
/// <SecurityNote>
/// Critical: This code causes style to be set
/// TreatAsSafe: There exists a demand on set since SET is not safe
/// </SecurityNote>
internal int _StyleEx
{
get
{
if (Manager != null)
{
return _styleExDoNotUse.Value;
}
else if (IsSourceWindowNull == true )
{
return _styleExDoNotUse.Value;
}
else
{
return _swh.StyleExFromHwnd;
}
}
[SecurityCritical, SecurityTreatAsSafe]
set
{
SecurityHelper.DemandUIWindowPermission();
_styleExDoNotUse= new SecurityCriticalDataForSet<int>((int)value);
Manager.Dirty = true;
}
}
internal HwndStyleManager Manager
{
get { return _manager; }
set { _manager = value; }
}
bool IWindowService.UserResized
{
get { return false; }
}
#endregion Internal Properties
//----------------------------------------------
//
// Internal Fields
//
//----------------------------------------------
#region Internal Fields
/// <summary>
/// DialogCancel Command. It closes window if it's dialog and return false as the dialog value.
/// </summary>
/// <remarks>
/// Right now this is only used by Cancel Button to close the dialog.
/// </remarks>
internal static readonly RoutedCommand DialogCancelCommand = new RoutedCommand("DialogCancel", typeof(Window));
#endregion Internal Fields
//----------------------------------------------
//
// Internal Types
//
//----------------------------------------------
#region Internal Types
// similar to the one in FE except that it takes care of SizeToContent
// while determining the min/max values for height and width.
internal struct WindowMinMax
{
internal double minWidth;
internal double maxWidth;
internal double minHeight;
internal double maxHeight;
internal WindowMinMax(double minSize, double maxSize)
{
minWidth = minSize;
maxWidth = maxSize;
minHeight = minSize;
maxHeight = maxSize;
}
}
#endregion Internal Types
//----------------------------------------------
//
// Private Methods
//
//----------------------------------------------
#region Private Methods
private Size MeasureOverrideHelper(Size constraint)
{
// need to handle infinity
// return the entire client area of the window
// Measure children properly.
// Three primary cases
// 1) hwnd does not exist -- return 0,0
// 1a) CompositionTarget is invalid -- return 0,0
// 2) Child visual exists -- we return child.DesiredSize + frame size
// 3) No Child visual -- return the hwnd size (this should be the same
// as the one passed into MeasureOverride for our framework)
// Adding check for IsCompositionTargetInvalid as part of the fix for WOSB 1453012
if (IsSourceWindowNull || IsCompositionTargetInvalid)
{
// No need to use CompositionTarget.TransformFromDevice
// since size is 0,0
return new Size(0,0);
}
if (this.VisualChildrenCount > 0)
{
UIElement child = this.GetVisualChild(0) as UIElement;
if (child != null) // UIElement children
{
// Find out the size of the window frame x.
// (constraint - x) is the size we pass onto
// our child
Size frameSize = GetHwndNonClientAreaSizeInMeasureUnits();
// In some instances (constraint size - frame size) can be negative. One instance
// is when window is set to minimized before layout has happened. Apparently, Win32
// gives a rect(-32000, -32000, -31840, -31975) for GetWindowRect when hwnd is
// minimized. However, when we calculate the frame size we get width = 8 and
// height = 28!!! Here, we will take the max of zero and the difference b/w the
// hwnd size and the frame size
//
// PS Windows OS Bug: 955861
Size childConstraint = new Size();
childConstraint.Width = ((constraint.Width == Double.PositiveInfinity) ? Double.PositiveInfinity : Math.Max(0.0, (constraint.Width - frameSize.Width)));
childConstraint.Height = ((constraint.Height == Double.PositiveInfinity) ? Double.PositiveInfinity : Math.Max(0.0, (constraint.Height - frameSize.Height)));
child.Measure(childConstraint);
Size childDesiredSize = child.DesiredSize;
return new Size(childDesiredSize.Width + frameSize.Width, childDesiredSize.Height + frameSize.Height);
}
}
// if we reach here, we return the input size
return _swh.GetSizeFromHwndInMeasureUnits();
}
// Similar logic as in FE.MinMax and takes care of max/min size allowed by win32 for the hwnd. However, we
// don't take Height/Width into consideration. This is because of the following reasons:
//
// 1) Window Height/Width info doesn't matter here since we just need to ensure that the child element is
// layed out within the Max/Min restrictions of the window. Window is layed out at the size sent into MO/AO
// and Height and Width of the window does not play a part MO/AO stage.
//
// 2) We had WOSB 1399028 FlowDocumentReader: When the maximise button is clicked on the window with FDR the
// content don't reflow to fill in the entire window) and the fix for that is to simply not use H/W here.
// GetWindowMinMax fixes the following bugs:
//
// WOSB 1330752 Window content should respect Window's Max/Min size
// WOSB 1030000 Wrong window actual size returned if Autosize window content is smaller than the actual
// window (seems to return content size as opposed to window size)
//
// This method is called by both MeasureOverride( ) and WmGetMinMaxInfo( ).
// It will calculate a final Min/Max size in logic units for this HWND based on Win32 restricted value and
// current Min/Max setting in this instance.
//
internal virtual WindowMinMax GetWindowMinMax()
{
WindowMinMax mm = new WindowMinMax( );
Invariant.Assert(IsCompositionTargetInvalid == false, "IsCompositionTargetInvalid is supposed to be false here");
// convert the max/min size (taken in to account the hwnd size restrictions by win32) into logical units
double maxWidthDeviceUnits = _trackMaxWidthDeviceUnits;
double maxHeightDeviceUnits = _trackMaxHeightDeviceUnits;
if (WindowState == WindowState.Maximized)
{
// On some systems, the trackMax size is a few pixels smaller than
// the windowMax size. Use the larger size for maximized windows.
maxWidthDeviceUnits = Math.Max(_trackMaxWidthDeviceUnits, _windowMaxWidthDeviceUnits);
maxHeightDeviceUnits = Math.Max(_trackMaxHeightDeviceUnits, _windowMaxHeightDeviceUnits);
}
Point maxSizeLogicalUnits = DeviceToLogicalUnits(new Point(maxWidthDeviceUnits, maxHeightDeviceUnits));
Point minSizeLogicalUnits = DeviceToLogicalUnits(new Point(_trackMinWidthDeviceUnits, _trackMinHeightDeviceUnits));
//
// Get the final Min/Max Width
//
mm.minWidth = Math.Max(this.MinWidth, minSizeLogicalUnits.X);
// Min's precedence is higher than Max; If Min is greater than Max, use Min.
if (MinWidth > MaxWidth)
{
mm.maxWidth = Math.Min(MinWidth, maxSizeLogicalUnits.X);
}
else
{
if (!Double.IsPositiveInfinity(MaxWidth))
{
mm.maxWidth = Math.Min(MaxWidth, maxSizeLogicalUnits.X);
}
else
{
mm.maxWidth = maxSizeLogicalUnits.X;
}
}
//
// Get the final Min/Max Height
//
mm.minHeight = Math.Max(this.MinHeight, minSizeLogicalUnits.Y);
// Min's precedence is higher than Max; If Min is greater than Max, use Min.
if (MinHeight > MaxHeight)
{
mm.maxHeight = Math.Min(this.MinHeight, maxSizeLogicalUnits.Y);
}
else
{
if (!Double.IsPositiveInfinity(MaxHeight))
{
mm.maxHeight = Math.Min(MaxHeight, maxSizeLogicalUnits.Y);
}
else
{
mm.maxHeight = maxSizeLogicalUnits.Y;
}
}
return mm;
}
private void LoadedHandler(object sender, RoutedEventArgs e)
{
if (_postContentRenderedFromLoadedHandler == true)
{
PostContentRendered();
_postContentRenderedFromLoadedHandler = false;
this.Loaded -= new RoutedEventHandler(LoadedHandler);
}
}
/// <remarks> Keep this method in sync with Frame.PostContentRendered(). </remarks>
private void PostContentRendered()
{
// Post the firing of ContentRendered as Input priority work item so
// that ContentRendered will be fired after render query empties.
if (_contentRenderedCallback != null)
{
// Content was changed again before the previous rendering completed (or at least
// before the Dispatcher got to Input priority callbacks).
_contentRenderedCallback.Abort();
}
_contentRenderedCallback = Dispatcher.BeginInvoke(DispatcherPriority.Input,
(DispatcherOperationCallback) delegate (object unused)
{
// Event handler exception continuality: there are no state related/depending on ContentRendered event.
// If an exception occurs in event handler, our state will not be corrupted.
// Please check event handler exception continuality if the logic changes.
_contentRenderedCallback = null;
OnContentRendered(EventArgs.Empty);
return null;
},
this);
}
/// <summary>
/// Ensure Dialog command is registered with the CommandManager
/// </summary>
private void EnsureDialogCommand()
{
// _dialogCommandAdded is a static variable, however, we're not synchronizing
// access to it. The reason is that, CommandManager is thread safe and according
// to KiranKu we don't want to take the overhead of locking here. For multiple
// threaded cases, we could end up calling the CommandManager more than once but
// KiranKu is okay with that perf hit in the corner case.
if (!_dialogCommandAdded)
{
// Right now we only have DialogCancel Command, which closes window if it's dialog and return false as the dialog's result.
CommandBinding binding = new CommandBinding(DialogCancelCommand);
binding.Executed += new ExecutedRoutedEventHandler(OnDialogCommand);
CommandManager.RegisterClassCommandBinding(typeof(Window), binding);
_dialogCommandAdded = true;
}
}
/// <summary>
/// Dialog Command Execute handler
/// Right now we only have DialogCancel Command, which closes window if it's dialog and return false for DialogResult.
/// </summary>
/// <param name="target"></param>
/// <param name="e"></param>
private static void OnDialogCommand(object target, ExecutedRoutedEventArgs e)
{
//close dialog & return result
Window w = target as Window;
Debug.Assert(w != null, "Target must be of type Window.");
w.OnDialogCancelCommand();
}
/// <summary>
/// Close window if it's dialog and return false for DialogResult.
/// </summary>
private void OnDialogCancelCommand()
{
if (_showingAsDialog)
{
DialogResult = false;
}
}
/// <summary>
/// The callback function for EnumThreadWindows
/// </summary>
/// <param name="hWnd"></param>
/// <param name="lparam"></param>
/// <returns></returns>
private bool ThreadWindowsCallback(IntPtr hWnd, IntPtr lparam)
{
Debug.Assert(_threadWindowHandles != null, "_threadWindowHandles must not be null at this point");
// the dialog's hwnd has not been created yet when calling into this function.
// so its hwnd won't be in the list.
// We only do visible && enabled windows.
// We need to check Visible because there might be hidden windows that do message looping,
// We don't want to disable them.
if (SafeNativeMethods.IsWindowVisible(new HandleRef(null, hWnd)) &&
SafeNativeMethods.IsWindowEnabled(new HandleRef(null, hWnd)))
{
_threadWindowHandles.Add(hWnd);
}
return true;
}
/// <summary>
/// Enables/disables all Windows on this thread
/// </summary>
/// <param name="state"></param>
/// <SecurityNote>
/// Critical: This code calls into IsWindow and EnableWindow
/// </SecurityNote>
[SecurityCritical]
private void EnableThreadWindows(bool state)
{
Debug.Assert(_threadWindowHandles != null, "_threadWindowHandles must not be null at this point");
for (int i = 0; i < _threadWindowHandles.Count; i++)
{
IntPtr hWnd = (IntPtr)_threadWindowHandles[i];
if (UnsafeNativeMethods.IsWindow(new HandleRef(null, hWnd)))
{
// Calls EnableWindow which returns the previous Window state
// (enable/disable) and we don't care about that here
#pragma warning disable 6523
UnsafeNativeMethods.EnableWindowNoThrow(new HandleRef(null, hWnd), state);
#pragma warning enable 6523
}
}
// EnableThreadWindows is called with true only when dialog is going away. Now
// we've enabled the windows that we had earlier disabled; thus, disposing
// _threadWindowHandles.
if (state == true)
{
_threadWindowHandles = null;
}
}
/// <summary>
/// Intialization when Window is constructed
/// </summary>
/// Initializes the Width/Height, Top/Left properties to use windows
/// default. Updates Application object properties if inside app.
///
/// Also, window style is set to WS_CHILD inside CreateSourceWindow
/// for browser hosted case
private void Initialize()
{
// AVTempUIPermission avtUIPermission = new AVTempUIPermission(AVTUIPermissionNewWindow.LaunchNewWindows);
// CASRemoval:avtUIPermission.Demand();
// this makes MeasureCore / ArrangeCore to defer to direct MeasureOverride and ArrangeOverride calls
// without reading Width / Height properties and modifying input constraint size parameter...
BypassLayoutPolicies = true;
// check if within an app && on the same thread
if (IsInsideApp == true)
{
if (Application.Current.Dispatcher.Thread == Dispatcher.CurrentDispatcher.Thread)
{
// add to window collection
// use internal version since we want to update the underlying collection
App.WindowsInternal.Add(this);
if (App.MainWindow == null)
{
App.MainWindow = this;
}
}
else
{
App.NonAppWindowsInternal.Add(this);
}
}
}
internal void VerifyContextAndObjectState()
{
// Verify that we are executing on the right context
VerifyAccess();
//
#if DISPOSE
if (_disposed)
{
throw new ObjectDisposedException(null, SR.Get(SRID.WindowDisposed));
}
#endif
}
private void VerifyCanShow()
{
if (_disposed == true)
{
throw new InvalidOperationException(SR.Get(SRID.ReshowNotAllowed));
}
}
private void VerifyNotClosing()
{
if (_isClosing == true)
{
throw new InvalidOperationException(SR.Get(SRID.InvalidOperationDuringClosing));
}
if (IsSourceWindowNull == false && IsCompositionTargetInvalid == true)
{
throw new InvalidOperationException(SR.Get(SRID.InvalidCompositionTarget));
}
}
private void VerifyHwndCreateShowState()
{
if (HwndCreatedButNotShown)
{
throw new InvalidOperationException(SR.Get(SRID.NotAllowedBeforeShow));
}
}
/// <summary>
/// sets the IWindowService attached property
/// </summary>
private void SetIWindowService()
{
if (GetValue(IWindowServiceProperty) == null)
{
SetValue(IWindowServiceProperty, (IWindowService)this);
}
}
///<SecurityNote>
/// Critical - calls a method that elevates - GetCursorPos
/// TreatAsSafe - as there's a demand.
///</SecurityNote>
[SecurityCritical, SecurityTreatAsSafe]
IntPtr GetCurrentMonitorFromMousePosition()
{
SecurityHelper.DemandUnmanagedCode();
// center on the screen on which the mouse is on
NativeMethods.POINT pt = new NativeMethods.POINT();
UnsafeNativeMethods.TryGetCursorPos(pt);
NativeMethods.POINTSTRUCT ptStruct = new NativeMethods.POINTSTRUCT(pt.x, pt.y);
return SafeNativeMethods.MonitorFromPoint(ptStruct, NativeMethods.MONITOR_DEFAULTTONEAREST);
}
// <summary>
// Calculates the window location based on the WindowStartupLocation property
// If values for CenterScreen, CenterOwner cannot be determined, then we return
// unmodified values.
// </summary>
// <remarks>
// This method can be called before or after the hwnd is created. So, we have
// to accout for both scenarios.
// </remarks>
// <param name="left"></param>
// <param name="top"></param>
// <param name="currentSize"></param>
/// <SecurityNote>
/// Critical: This code accesses handle and calls critical method GetNormalRectDeviceUnits
/// TreatAsSafe: This data is ok to give out
/// </SecurityNote>
[SecurityCritical,SecurityTreatAsSafe]
private bool CalculateWindowLocation(ref double leftDeviceUnits, ref double topDeviceUnits, Size currentSizeDeviceUnits)
{
Debug.Assert(IsSourceWindowNull == false, "_swh should not be null here");
double inLeft = leftDeviceUnits;
double inTop = topDeviceUnits;
switch (_windowStartupLocation)
{
case WindowStartupLocation.Manual:
break;
case WindowStartupLocation.CenterScreen:
// NOTE: hamidm 05/19/04
// Bug (Windows OS Bugs) # 843790 -- Which screen to center the
// window on?
//
// If Window has a parent handle, then center the Window on the
// same monitor as the parent hwnd. If theres no parent hwnd,
// center the Window on the monitor where the mouse is currently
// on.
//
// The exception to this rule is when ShowInTaskbar is set to false
// and we parent to window to achieve that. That's the reason for
// having the extra condition in the if statement below
//
IntPtr hMonitor = IntPtr.Zero;
if ((_ownerHandle == IntPtr.Zero) ||
((_hiddenWindow != null) && (_hiddenWindow.Handle == _ownerHandle)))
{
hMonitor = GetCurrentMonitorFromMousePosition();
}
else
{
// have a parent hwnd; center on the screen on
// which our parent hwnd is.
hMonitor = MonitorFromWindow(_ownerHandle);
}
if (hMonitor != IntPtr.Zero)
{
CalculateCenterScreenPosition(hMonitor, currentSizeDeviceUnits, ref leftDeviceUnits, ref topDeviceUnits);
}
break;
case WindowStartupLocation.CenterOwner:
Rect ownerRectDeviceUnits = Rect.Empty;
// If the owner is WPF window.
// The owner can be non-WPF window. It can be set via WindowInteropHelper.Owner.
if (CanCenterOverWPFOwner == true)
{
// If the owner is in a non-normal state use the screen bounds for centering the window.
// Top/Left/Width/Height reflect the restore bounds, so they can't be used in this scenario.
if (Owner.WindowState == WindowState.Maximized || Owner.WindowState == WindowState.Minimized)
{
goto case WindowStartupLocation.CenterScreen;
}
Point ownerSizeDeviceUnits;
// if owner hwnd is created, we use WindowSize to get its size. Note: we cannot use ActualWidth/Height here,
// because it is possible that the hwnd is created (WIH.EnsureHandle) but it is not shown yet; layout has not
// happen; ActualWidth/Height is not calculated yet.
// If the owner hwnd is not yet created, we use Owner.Width/Height.
if (Owner.CriticalHandle == IntPtr.Zero)
{
ownerSizeDeviceUnits = Owner.LogicalToDeviceUnits(new Point(Owner.Width, Owner.Height));
}
else
{
Size size = Owner.WindowSize;
ownerSizeDeviceUnits = new Point(size.Width, size.Height);
}
// A minimized window doesn't have valid Top,Left; that's why RestoreBounds.TopLeft is used.
Point ownerLocationDeviceUnits = Owner.LogicalToDeviceUnits(new Point(Owner.Left, Owner.Top));
ownerRectDeviceUnits = new Rect(ownerLocationDeviceUnits.X, ownerLocationDeviceUnits.Y,
ownerSizeDeviceUnits.X, ownerSizeDeviceUnits.Y);
}
else
{
// non-WPF owner
if ((_ownerHandle != IntPtr.Zero) && UnsafeNativeMethods.IsWindow(new HandleRef(null, _ownerHandle)))
{
ownerRectDeviceUnits = GetNormalRectDeviceUnits(_ownerHandle);
}
}
if (! ownerRectDeviceUnits.IsEmpty)
{
leftDeviceUnits = ownerRectDeviceUnits.X + ((ownerRectDeviceUnits.Width - currentSizeDeviceUnits.Width) / 2);
topDeviceUnits = ownerRectDeviceUnits.Y + ((ownerRectDeviceUnits.Height - currentSizeDeviceUnits.Height) / 2);
// Check the screen rect to make sure the window is shown on screen. Details in Dev10 bug 452051.
// It is the same as Microsoft' behavior.
NativeMethods.RECT workAreaRectDeviceUnits = WorkAreaBoundsForHwnd(_ownerHandle);
leftDeviceUnits = Math.Min(leftDeviceUnits, workAreaRectDeviceUnits.right - currentSizeDeviceUnits.Width);
leftDeviceUnits = Math.Max(leftDeviceUnits, workAreaRectDeviceUnits.left);
topDeviceUnits = Math.Min(topDeviceUnits, workAreaRectDeviceUnits.bottom - currentSizeDeviceUnits.Height);
topDeviceUnits = Math.Max(topDeviceUnits, workAreaRectDeviceUnits.top);
}
break;
default:
break;
}
return (!DoubleUtil.AreClose(inLeft, leftDeviceUnits) || !DoubleUtil.AreClose(inTop, topDeviceUnits));
}
/// <SecurityNote>
/// Critical: This code calls critical method to get mointor handle.
/// We will need to do thread model to determine whether the data this method returns is TreatAsSafe.
/// </SecurityNote>
[SecurityCritical]
private static NativeMethods.RECT WorkAreaBoundsForHwnd(IntPtr hwnd)
{
IntPtr hMonitor = MonitorFromWindow(hwnd);
return WorkAreaBoundsForMointor(hMonitor);
}
/// <SecurityNote>
/// Critical: Calls critical method to GetMointorInfo. Marshal.SizeOf also has linkdemand.
/// We will need to do thread model to determine whether the data this method returns is TreatAsSafe.
/// </SecurityNote>
[SecurityCritical]
private static NativeMethods.RECT WorkAreaBoundsForMointor(IntPtr hMonitor)
{
NativeMethods.MONITORINFOEX monitorInfo = new NativeMethods.MONITORINFOEX();
Debug.Assert(hMonitor != IntPtr.Zero);
SafeNativeMethods.GetMonitorInfo(new HandleRef(null, hMonitor), monitorInfo);
return monitorInfo.rcWork;
}
/// <SecurityNote>
/// Critical: Defense in depth. Exposing of a handle is considered security critical.
/// </SecurityNote>
[SecurityCritical]
private static IntPtr MonitorFromWindow(IntPtr hwnd)
{
IntPtr hMonitor = SafeNativeMethods.MonitorFromWindow(new HandleRef(null, hwnd), NativeMethods.MONITOR_DEFAULTTONEAREST);
if (hMonitor == IntPtr.Zero)
{
throw new Win32Exception();
}
return hMonitor;
}
/// <summary>
/// Calculates the left and right coordinates of a window
/// when centered on a given monitor.
/// </summary>
/// <param name="hMonitor">Handle to the monitor to center the window on</param>
/// <param name="currentSizeDeviceUnits">Size of the window, in device units</param>
/// <param name="leftDeviceUnits">Receives the new left location in device units</param>
/// <param name="topDeviceUnits">Receives the new top location in device units</param>
/// <SecurityNote>
/// Critical: This code calls critical method WorkAreaBoundsForMointor.
/// We will need to do thread model to determine whether the data this method returns is TreatAsSafe.
/// </SecurityNote>
[SecurityCritical]
internal static void CalculateCenterScreenPosition(IntPtr hMonitor, Size currentSizeDeviceUnits, ref double leftDeviceUnits, ref double topDeviceUnits)
{
NativeMethods.RECT workAreaRectDeviceUnits = WorkAreaBoundsForMointor(hMonitor);
// We're using Width/Height here as opposed to ActualWidth/Height
// as layout hasn't happened yet.
double workAreaWidthDeviceUnits = workAreaRectDeviceUnits.right - workAreaRectDeviceUnits.left;
double workAreaHeightDeviceUnits = workAreaRectDeviceUnits.bottom - workAreaRectDeviceUnits.top;
Debug.Assert(workAreaWidthDeviceUnits >= 0, String.Format(CultureInfo.InvariantCulture, "workAreaWidth ({0})for monitor ({1}) is negative", hMonitor, workAreaWidthDeviceUnits));
Debug.Assert(workAreaHeightDeviceUnits >= 0, String.Format(CultureInfo.InvariantCulture, "workAreaHeight ({0}) for monitor ({1}) is negative", hMonitor, workAreaHeightDeviceUnits));
leftDeviceUnits = (workAreaRectDeviceUnits.left + ((workAreaWidthDeviceUnits - currentSizeDeviceUnits.Width) / 2));
topDeviceUnits = (workAreaRectDeviceUnits.top + ((workAreaHeightDeviceUnits - currentSizeDeviceUnits.Height) / 2));
}
private bool CanCenterOverWPFOwner
{
get
{
Debug.Assert(IsSourceWindowNull == false, "_swh should not be null here");
// if Owner is null, we cannot CenterOwner
if (Owner == null)
{
return false;
}
// if Owner._sourceWindow is null, and if Owner's Width or Height is not specified
// then we cannot CenterOwner
if (Owner.IsSourceWindowNull)
{
if ((DoubleUtil.IsNaN(Owner.Width)) ||
(DoubleUtil.IsNaN(Owner.Height)))
{
return false;
}
}
// if Owner's Top or Left is not specified, we cannot CenterOwner
if ((DoubleUtil.IsNaN(Owner.Left)) ||
(DoubleUtil.IsNaN(Owner.Top)))
{
return false;
}
return true;
}
}
///<SecurityNote>
/// Critical - calls a method that elevates - GetWindowLong, GetWindowPlacement
///</SecurityNote>
[SecurityCritical]
private Rect GetNormalRectDeviceUnits(IntPtr hwndHandle)
{
int styleEx = UnsafeNativeMethods.GetWindowLong(new HandleRef(this, hwndHandle), NativeMethods.GWL_EXSTYLE);
NativeMethods.WINDOWPLACEMENT wp = new NativeMethods.WINDOWPLACEMENT();
wp.length = Marshal.SizeOf(typeof(NativeMethods.WINDOWPLACEMENT));
UnsafeNativeMethods.GetWindowPlacement(new HandleRef(this, hwndHandle), ref wp);
Point locationDeviceUnits = new Point(wp.rcNormalPosition_left, wp.rcNormalPosition_top);
// GetWindowPlacement returns workarea co-ods for a top level window whose
// WS_EX_TOOLWINDOW bit is clear. If this bit is set, then the co-ods
// returned are relative to the screen co-ods of the monitor.
// TransfromWorkAreaScreenArea can transform a point from work area co-ods
// to screen area co-ods and vice versa depending on TransformType value passed.
// So, in our case, if the window is not a ToolWindow we want to transform
// the point from work area co-ods to screen co-ods.
if ((styleEx & NativeMethods.WS_EX_TOOLWINDOW) == 0)
{
locationDeviceUnits = TransformWorkAreaScreenArea(locationDeviceUnits, TransformType.WorkAreaToScreenArea);
}
Point sizeDeviceUnits = new Point(wp.rcNormalPosition_right - wp.rcNormalPosition_left,
wp.rcNormalPosition_bottom - wp.rcNormalPosition_top);
return new Rect(locationDeviceUnits.X, locationDeviceUnits.Y, sizeDeviceUnits.X, sizeDeviceUnits.Y);
}
///<SecurityNote>
/// Critical - calls critical method GetNormalRectDeviceUnits
///</SecurityNote>
[SecurityCritical]
private Rect GetNormalRectLogicalUnits(IntPtr hwndHandle)
{
Rect rectDeviceUnits = GetNormalRectDeviceUnits(hwndHandle);
Point sizeLogicalUnits = DeviceToLogicalUnits(new Point(rectDeviceUnits.Width, rectDeviceUnits.Height));
Point locationLogicalUnits = DeviceToLogicalUnits(new Point(rectDeviceUnits.X, rectDeviceUnits.Y));
return new Rect(locationLogicalUnits.X, locationLogicalUnits.Y, sizeLogicalUnits.X, sizeLogicalUnits.Y);
}
/// <summary>
/// Update style bits for window state
/// </summary>
private void CreateWindowState()
{
switch (WindowState)
{
case WindowState.Normal:
break;
case WindowState.Maximized:
_Style |= NativeMethods.WS_MAXIMIZE;
break;
case WindowState.Minimized:
_Style |= NativeMethods.WS_MINIMIZE;
break;
#if THEATRE_FULLSCREEN
case WindowState.Theatre:
throw new NotImplementedException(SR.Get(SRID.NotImplementedException));
case WindowState.FullScreen:
throw new NotImplementedException(SR.Get(SRID.NotImplementedException));
#endif //THEATRE_FULLSCREEN
}
}
/// <summary>
/// creates topmost window
/// </summary>
private void CreateTopmost()
{
// check for topmost
if ( Topmost )
{
_StyleEx |= NativeMethods.WS_EX_TOPMOST;
}
else
{
_StyleEx &= ~NativeMethods.WS_EX_TOPMOST;
}
}
/// <summary>
/// set's resizibility for the window
/// </summary>
private void CreateResizibility()
{
_Style &= ~(NativeMethods.WS_THICKFRAME | NativeMethods.WS_MAXIMIZEBOX | NativeMethods.WS_MINIMIZEBOX);
switch(ResizeMode)
{
case ResizeMode.NoResize:
break;
case ResizeMode.CanMinimize:
_Style |= NativeMethods.WS_MINIMIZEBOX;
break;
case ResizeMode.CanResize:
case ResizeMode.CanResizeWithGrip:
_Style |= NativeMethods.WS_THICKFRAME | NativeMethods.WS_MAXIMIZEBOX | NativeMethods.WS_MINIMIZEBOX;
break;
default:
Debug.Assert(false, "Invalid value for ResizeMode");
break;
}
}
/// <summary>
/// Updates the window icon
/// </summary>
///<SecurityNote>
/// Critical as we perform an elevation - (UnsafeNativeMethods.SendMessage) will have a SUC on it soon.
/// TreatAsSafe: This method ok to use on window and does nothing on RBW.
///</SecurityNote>
//
[SecurityCritical, SecurityTreatAsSafe]
private void UpdateIcon()
{
// NOTE: hamidm -- bug 963275 AppModel: Set Window.Icon = null
// causes NullReferenceException
// if _icon is null, set _defaultLargeIconHandle and _defaultSmallIconHandle
// to the app icon (embedded in the exe). _icon is used as window icon if it
// is not null, else default icons from exe are used. If both are null,
// we set IntPtr.Zero as the icons for the window and Win32 defaults
// come into play.
//
NativeMethods.IconHandle largeIconHandle;
NativeMethods.IconHandle smallIconHandle;
if (_icon != null)
{
IconHelper.GetIconHandlesFromImageSource(_icon, out largeIconHandle, out smallIconHandle);
}
else
{
// these both should be null before we've queried that exe for icons.
// Once, we looked in the exe, these are no longer null and hence we
// don't want to re-query in the exe anymore
if (_defaultLargeIconHandle == null && _defaultSmallIconHandle == null)
{
// sets the default small and large icon handles
IconHelper.GetDefaultIconHandles(out largeIconHandle, out smallIconHandle);
_defaultLargeIconHandle = largeIconHandle;
_defaultSmallIconHandle = smallIconHandle;
}
else
{
largeIconHandle = _defaultLargeIconHandle;
smallIconHandle = _defaultSmallIconHandle;
}
// get default icons
}
// One of the steps necessary to hide a Window's taskbar button is to parent it off another HWND.
// On XP when this is done the Window's alt-tab icon takes on the icon of the parent. If we've created
// a hidden parent window for the sake of ShowInTaskbar=false, then we need to keep its icon in sync
// with the Window's.
// On Vista this isn't necessary.
// Make the array big enough to hold anything we need to update.
// We'll keep track of the true count separately.
var iconWindows = new HandleRef[]
{
new HandleRef(this, CriticalHandle),
default(HandleRef)
};
int iconWindowsCount = 1;
if (_hiddenWindow != null)
{
iconWindows[1] = new HandleRef(_hiddenWindow, _hiddenWindow.Handle);
++iconWindowsCount;
}
for (int i = 0; i < iconWindowsCount; ++i)
{
HandleRef hwnd = iconWindows[i];
UnsafeNativeMethods.SendMessage(
hwnd,
WindowMessage.WM_SETICON,
(IntPtr)NativeMethods.ICON_BIG,
largeIconHandle);
UnsafeNativeMethods.SendMessage(
hwnd,
WindowMessage.WM_SETICON,
(IntPtr)NativeMethods.ICON_SMALL,
smallIconHandle);
}
// dispose the previous icon handle if it's not the default handle
if (_currentLargeIconHandle != null && _currentLargeIconHandle != _defaultLargeIconHandle)
{
_currentLargeIconHandle.Dispose();
}
if (_currentSmallIconHandle != null && _currentSmallIconHandle != _defaultSmallIconHandle)
{
_currentSmallIconHandle.Dispose();
}
_currentLargeIconHandle = largeIconHandle;
_currentSmallIconHandle = smallIconHandle;
}
/// <summary>
/// Sets the parent hwnd (Owner) for this window. This could be called as a result of
/// setting one of the following
///
/// Window Owner {set;}
/// IntPtr OwnerHandle {set;} -- this is used by WindowInteropHelper
/// </summary>
/// <param name="ownerHandle">IntPtr of the parent window</param>
///<SecurityNote>
/// Critical - sets _ownerHandle to the value got as a param
///</SecurityNote>
[SecurityCritical]
private void SetOwnerHandle(IntPtr ownerHandle)
{
// Note: hamidm 9/1/2005
// 1278098 "SetWindowLong failed. Error = 1400" appears in console when setting
// Window.Owner to a Window hasn't been shown (chk build)
//
// SetWindowLong with GWL_HWNDPARENT fails if the new parent/owner is IntPtr.Zero
// and the old owner was also IntPtr.Zero. The if check below works around this
// issue.
if (_ownerHandle == ownerHandle && _ownerHandle == IntPtr.Zero)
{
return;
}
// If this call is removing the owner then we possibly need to reparent it with
// the hidden window (ShowInTaskbar==false)
// Once the hidden window is created we keep its icon in sync with the Window's.
_ownerHandle = (IntPtr.Zero == ownerHandle && !ShowInTaskbar)
? EnsureHiddenWindow().Handle
: ownerHandle;
if (IsSourceWindowNull == false)
{
UnsafeNativeMethods.SetWindowLong(new HandleRef(null, CriticalHandle),
NativeMethods.GWL_HWNDPARENT,
_ownerHandle);
// Update and reset the Owner Window if this is set through WindowInteropHelper.
// We want to do this because once we are passed in the IntPtr for
// the parent window, the Owner window is not the parent anymore.
if ((_ownerWindow != null) && (_ownerWindow.CriticalHandle != _ownerHandle))
{
_ownerWindow.OwnedWindowsInternal.Remove(this);
_ownerWindow = null;
}
}
}
/// <summary>
/// This is called back into when HwndSouce being used by this object is disposed, or if the
/// hwnd is destroyed.
///
/// When that happens on the same thread, we receive WM_CLOSE, WM_DESTROY and
/// everything works fine. However, if that happened on another thread, we don't get
/// WM_CLOSE, WM_DESTROY until later, but we get this disposed callback and we
/// set dispose this object. If we don't do this, there could be timing related issues if
/// we get called into after the HwndSource or hwnd has been disposed/destoyed but before
/// we receive WM_CLOSE, WM_DESTROY messages.
/// </summary>
/// <param name="sender"></param>
/// <param name="e"></param>
/// <returns></returns>
///<SecurityNote>
/// Critical: Is used to dispose of the native handles which link demands in safe handle via the call to
/// InternalDispose
///</SecurityNote>
[SecurityCritical]
private void OnSourceWindowDisposed(object sender, EventArgs e)
{
if ( _disposed == false)
{
InternalDispose();
}
}
/// <summary>
/// This is the hook to HwndSource that is called when window messages related to
/// this window occur. Currently, we listen to the following messages
///
/// WM_CLOSE : We listen to this message in order to fire the Closing event.
/// If the user cancels window closing, we set handled to true so
/// that the DefWindowProc does not handle this message. Otherwise,
/// we set handled to false.
/// WM_DESTROY : We listen to this message in order to fire the Closed event.
/// Handled is always set to false.
/// WM_ACTIVATE : Used for Activated and deactivated events
/// WM_SIZE : Used for SizeChanged, StateChanged events. Also, helps us keep our
/// size updated
/// WM_MOVE: : Used for location changed event and to keep our cached top/left
/// updated
/// WM_GETMINMAXINFO: Used to enforce Max/MinHeight and Max/MinWidth
/// </summary>
/// <param name="hwnd"></param>
/// <param name="msg"></param>
/// <param name="wParam"></param>
/// <param name="lParam"></param>
/// <param name="handled"></param>
/// <returns></returns>
///<SecurityNote>
/// Critical: Calls critical code: Window.WmClose(), Window.ApplyTaskbarItemInfo()
///</SecurityNote>
[SecurityCritical]
private IntPtr WindowFilterMessage( IntPtr hwnd,
int msg,
IntPtr wParam,
IntPtr lParam,
ref bool handled)
{
IntPtr retInt = IntPtr.Zero ;
WindowMessage message = (WindowMessage)msg;
// hamidm - 10/27/2005
// we need to process WM_GETMINMAXINFO before _swh is assigned to
// b/c we want to store the max/min size allowed by win32 for the hwnd
// which is later used in GetWindowMinMax. WmGetMinMaxInfo can handle
// _swh == null case.
switch (message)
{
case WindowMessage.WM_GETMINMAXINFO:
handled = WmGetMinMaxInfo(lParam);
break;
case WindowMessage.WM_SIZE:
handled = WmSizeChanged(wParam);
break;
}
if(_swh != null && _swh.CompositionTarget != null) // For extraneous messages during shutdown
{
// Can't case this in the switch statement since it's dynamically generated.
if (message == WM_TASKBARBUTTONCREATED || message == WM_APPLYTASKBARITEMINFO)
{
// Either Explorer's created a new button or it's time to try again.
// Stop deferring updates to the Taskbar.
if (_taskbarRetryTimer != null)
{
_taskbarRetryTimer.Stop();
}
// We'll receive WM_TASKBARBUTTONCREATED at times other than when the Window was created,
// e.g. Explorer restarting, in response to ShowInTaskbar=true, etc.
// We'll receive WM_APPLYTASKBARITEMINFO when we'ved posted it to ourself after a failed ITaskbarList3 call.
ApplyTaskbarItemInfo();
}
else switch (message)
{
case WindowMessage.WM_CLOSE:
handled = WmClose();
break;
case WindowMessage.WM_DESTROY:
handled = WmDestroy();
break;
case WindowMessage.WM_ACTIVATE:
handled = WmActivate(wParam);
break;
case WindowMessage.WM_MOVE:
handled = WmMoveChanged();
break;
case WindowMessage.WM_NCHITTEST:
handled = WmNcHitTest(lParam, ref retInt);
break;
case WindowMessage.WM_SHOWWINDOW:
handled = WmShowWindow(wParam, lParam);
break;
case WindowMessage.WM_COMMAND:
handled = WmCommand(wParam, lParam);
break;
default:
handled = false;
break;
}
}
return retInt;
}
/// <summary>
/// Called on WM_COMMAND message.
/// </summary>
/// <returns>
/// True if we want to handle the command, false otherwise.
/// </returns>
/// <SecurityNote>
/// Be cautious about adding new handlers here. For Windows 7 taskbar integration we explicitly
/// allow WM_COMMAND to pass through the message filter from processes that have privileges different
/// from this one so Explorer can post messages back to this window.
/// Changes to the WM_COMMANDs that are processed here may require a security review.
/// </SecurityNote>
private bool WmCommand(IntPtr wParam, IntPtr lParam)
{
if (NativeMethods.SignedHIWORD(wParam.ToInt32()) == THUMBBUTTON.THBN_CLICKED)
{
TaskbarItemInfo taskbar = TaskbarItemInfo;
if (taskbar != null)
{
int index = NativeMethods.SignedLOWORD(wParam.ToInt32());
if (index >= 0 && index < taskbar.ThumbButtonInfos.Count)
{
taskbar.ThumbButtonInfos[index].InvokeClick();
}
}
return true;
}
return false;
}
/// <summary>
/// Called on WM_CLOSE message. Fires the Closing event.
/// </summary>
/// <returns>
/// True if we want to stop the window from closing, else false
/// </returns>
private bool WmClose()
{
// For WS_CHILD window, WM_SIZE, WM_MOVE (and maybe others) are called
// synchronously from CreateWindowEx call and we run into issues if
// _sourceWindow in null. We only care to listen to WM_CREATE &
// WM_GETMINMAXINFO synchronously from CreateWindowEx thus we want
// to explicitly add the null check below at all other places.
//
// Adding check for IsCompositionTargetInvalid as part of the fix for WOSB 1453012
if (IsSourceWindowNull || IsCompositionTargetInvalid)
{
return false;
}
// if DialogResult is set from within a Closing event then
// the window is in the closing state. In such a case, we
// should not call Close() from DialogResult.set and thus
// we have this variable.
//
// Note: Windows OS bug # 934500 Setting DialogResult
// on the Closing EventHandler of a Dialog causes StackOverFlowException
_isClosing = true;
// Event handler exception continuality: if exception occurs in Closing event handler, the
// cleanup action is to finish closing.
CancelEventArgs e = new CancelEventArgs(false);
try
{
OnClosing(e);
}
catch
{
CloseWindowFromWmClose();
throw;
}
if (ShouldCloseWindow(e.Cancel))
{
CloseWindowFromWmClose();
return false;
}
else
{
// close cancelled
_isClosing = false;
// 03/14/2006 -- hamidm
// WOSB 1560557 Dialog does not close with ESC key after it has been cancelled
//
// Since closing is cancelled, DialogResult should be reset to null b/c
// 1) DialogResult = true/false means that dialog has been accepeted/rejected (since dialog didn't
// close (closing cancelled), DialogResult should be null)
_dialogResult = null;
return true;
}
}
private void CloseWindowFromWmClose()
{
if (_showingAsDialog)
{
DoDialogHide();
}
// We should ClearRootVisual here instead of in InternalDispose. InternalDispose is called either as a result of HwndSource
// disposing itself or it will try to dispose HwndSource. HwndSource will clear the root visual when it is disposed.
ClearRootVisual();
// We should also ClearHiddenWindow here, because in InternalDispose the window handle could be null if the dispose happens as
// a result of HwndSource dispose. Our InternalDispose has been changed to handle reantrance, so the issue (bug 953988) described in
// ClearHiddenWindowIfAny should not happen any more.
ClearHiddenWindowIfAny();
}
private bool ShouldCloseWindow(bool cancelled)
{
// if shutdown Closing cannot be cancelled
// if parent window is closing, child window Closing cannot be cancelled.
return ((!cancelled) || (_appShuttingDown) || (_ignoreCancel));
}
/// <SecurityNote>
/// Critical - This code calls EnableThreadWindows and accesses _dialogPreviousActiveHandle
/// TreatAsSafe - There is a demand for unmanaged code
/// </SecurityNote>
[SecurityCritical,SecurityTreatAsSafe]
private void DoDialogHide()
{
SecurityHelper.DemandUnmanagedCode();
Debug.Assert(_showingAsDialog == true, "_showingAsDialog must be true when DoDialogHide is called");
bool wasActive = false;
//It's possible that _dispatcherFrame could be null at this time.
//The scenario is: When showing the window as a modal dialog, the window Activated event is fired
//before _dispatcherFrame is instantiated. In the Activated handler, if user closes the
//window (setting DialogResult fires the WM_CLOSE event), the _dispatcherFrame is still null.
//Bug 874463 addressed this.
if (_dispatcherFrame != null)
{
// un block the push frame call
_dispatcherFrame.Continue = false;
_dispatcherFrame = null;
}
// 03/03/2006 -- hamidm
// Fix for 1388606 Close Dialog Window should not return null
//
// The consensus here is that DialogResult should never be null when ShowDialog returns
// As such, we coerce it to be false. Furthermore, we don't use the DialogResult property
// to update _dialogResult here since that does more than just updating the underlying
// variable
if (_dialogResult == null)
{
_dialogResult = false;
}
// clears _showingAsDialog
_showingAsDialog = false;
// enable previous window stuff goes here...
wasActive = _swh.IsActiveWindow;
// NOTE: hamidm -- 01/22/04
// We assert here b/c I think _threadWindowHandles should never be null when we get
// called in here.
//
// However, if inside ShowDialog we hit an exception after showing the dialog and the
// exception handler is run, then _threadWindowHandles will be null here.
//
// Keeping this as assert. If this turn out to be an over active assert, we'll switch to
// an if condition.
Debug.Assert(_threadWindowHandles != null, "_threadWindowHandles must not be null at this point");
// reenable windows in the thread that were disabled
EnableThreadWindows(true);
// if dialog that is closing was active window and there was a previously active window,
// set the active window. The owner window may not be the previously active window. See DevDiv bug 122467 for details.
// Furthermore, verify that _dialogPreviousActiveHandle is still a window b/c it
// could have been destroyed by now by some other thread/codepath etc.
// WOSB 1098573 (BVT BLOCKER: System.ComponentModel.Win32Exception thrown when
// trying to shutdown app inside a Dialog Window)
if ((wasActive == true) &&
(_dialogPreviousActiveHandle != IntPtr.Zero) &&
(UnsafeNativeMethods.IsWindow(new HandleRef(this, _dialogPreviousActiveHandle)) == true))
{
UnsafeNativeMethods.SetActiveWindow(new HandleRef(this, _dialogPreviousActiveHandle));
}
else
{
//
// rare situation, figure this out later
// talk to user team as to what we need to do here
}
}
///<SecurityNote>
/// Critical: Calls critical code: Window.InternalClose and Application.CriticalShutdown
///</SecurityNote>
[SecurityCritical]
private void UpdateWindowListsOnClose()
{
// Close all owned windows
// use internal version since we want to update the underlying collection
WindowCollection ownedWindows = OwnedWindowsInternal;
//
while (ownedWindows.Count > 0)
{
// if parent window is closing, child window Closing cannot be cancelled.
ownedWindows[0].InternalClose(false, true /* Ignore cancel */);
}
Debug.Assert(ownedWindows.Count == 0, "All owned windows should now be gone");
// Update OwnerWindows of our Owner
if (IsOwnerNull == false)
{
// use internal version since we want to update the underlying collection
Owner.OwnedWindowsInternal.Remove(this);
}
if (this.IsInsideApp)
{
if (Application.Current.Dispatcher.Thread == Dispatcher.CurrentDispatcher.Thread)
{
// use internal version since we want to update the underlying collection
App.WindowsInternal.Remove(this);
// Check to see if app should shut down--this behavior really belongs in Application
if (_appShuttingDown == false)
{
// If this is the last window that's closing and shutdownmode is onlastwindowclose, or
// if this is the main window closing and shutdownmode is onmainwindowclose, shutdown
// the app
if (((App.Windows.Count == 0) && (App.ShutdownMode == ShutdownMode.OnLastWindowClose))
|| ((App.MainWindow == this) && (App.ShutdownMode == ShutdownMode.OnMainWindowClose)))
{
App.CriticalShutdown(0);
}
}
TryClearingMainWindow();
}
else
{
App.NonAppWindowsInternal.Remove(this);
}
}
}
///<SecurityNote>
/// Critical: This can be used to dispose a window which is a secure resource
///</SecurityNote>
[SecurityCritical]
private bool WmDestroy()
{
// For WS_CHILD window, WM_SIZE, WM_MOVE (and maybe others) are called
// synchronously from CreateWindowEx call and we run into issues if
// _sourceWindow in null. We only care to listen to WM_CREATE &
// WM_GETMINMAXINFO synchronously from CreateWindowEx thus we want
// to explicitly add the null check below at all other places.
if (IsSourceWindowNull)
{
return false;
}
if (_disposed == false)
{
InternalDispose();
}
// hamidm - WOSB 1453012 STRESS: System.NullReferenceException @ System.Windows.Window.DeviceToLogicalUnits
//
// We're intentionally not adding a check for IsCompositionTargetInvlaid here since we
// feel that it is okay to fire the Closed event to notify the developer that window has
// closed.
// Event handler exception continuality: if exception occurs in Closed event handler, the
// cleanup action is to finish closing.
// raise Closed event
OnClosed(EventArgs.Empty);
return false;
}
private bool WmActivate( IntPtr wParam )
{
// For WS_CHILD window, WM_SIZE, WM_MOVE (and maybe others) are called
// synchronously from CreateWindowEx call and we run into issues if
// _sourceWindow in null. We only care to listen to WM_CREATE &
// WM_GETMINMAXINFO synchronously from CreateWindowEx thus we want
// to explicitly add the null check below at all other places.
//
// Adding check for IsCompositionTargetInvalid as part of the fix for WOSB 1453012
if (IsSourceWindowNull || IsCompositionTargetInvalid)
{
return false;
}
int loWord = NativeMethods.SignedLOWORD(wParam);
bool windowActivated;
if ( loWord == NativeMethods.WA_INACTIVE )
{
windowActivated = false;
}
else
{
windowActivated = true;
}
HandleActivate(windowActivated);
return false;
}
// When the window is in a maximized or minimized state, we want the dimension properties
// to reflect what it would be when it's restored.
private void UpdateDimensionsToRestoreBounds()
{
Rect restoreRect = RestoreBounds;
SetValue(LeftProperty, restoreRect.Left);
SetValue(TopProperty, restoreRect.Top);
SetValue(WidthProperty, restoreRect.Width);
SetValue(HeightProperty, restoreRect.Height);
}
private bool WmSizeChanged(IntPtr wParam)
{
// For WS_CHILD window, WM_SIZE, WM_MOVE (and maybe others) are called
// synchronously from CreateWindowEx call and we run into issues if
// _sourceWindow in null. We only care to listen to WM_CREATE &
// WM_GETMINMAXINFO synchronously from CreateWindowEx thus we want
// to explicitly add the null check below, at all other places.
//
// Adding IsCompositionTargetInvalid check here for fix of WOSB 1453012.
// Add this check here means that we won't fire WindowStateChanged event.
// However, since the hwnd is going away anyways, not firing StateChanged
// should not be a big deal. The other side effect is that Width/Height DPs
// won't be updated that should be fine too since window is going away.
if (IsSourceWindowNull || IsCompositionTargetInvalid)
{
return false;
}
NativeMethods.RECT rc = WindowBounds;
Point windowSize = new Point(rc.right - rc.left, rc.bottom - rc.top);
Point ptLogicalUnits = DeviceToLogicalUnits(windowSize);
try
{
_updateHwndSize = false;
SetValue(FrameworkElement.WidthProperty, ptLogicalUnits.X);
SetValue(FrameworkElement.HeightProperty, ptLogicalUnits.Y);
}
finally
{
_updateHwndSize = true;
}
// Update the Taskbar's data about this window. This can intermittently fail if Explorer gets busy.
// It's not worth handling failures here since if there is a clip we'll try again on the next resize
// and it doesn't affect the window itself.
HRESULT hr = UpdateTaskbarThumbnailClipping();
switch ((int)wParam)
{
// We introduced _previousWindowState for the following scenario:
//
// win1.WindowState = WindowState.Maximized; // or stateA
// ...
// win1.WindowState = WindowState.Normal; // or stateB
//
// Developer sets WindowState to Maximized/Minimized then return to Normal.
// OnStateChanged should be fired. However, We were comparing that to WindowState.Normal.
// The value in property engine had been updated to Normal in the CLR setter, so OnStateChanged
// was never fired.
// This is addressed in bug 937458.
//
// Another reason for remembering the previous state is that
// WM_SIZE is sent when the client area size of the hwnd changes.
// Thus, if the hwnd is maximized, and the border style changes,
// WM_SIZE is sent. In such cases, we don't want to fire
// StateChanged since the previous state was maximized too.
// See WOSB 1097658 (NullReferenceException thrown when changing ResizeMode from CanMinimize
// to CanResizeWithGrip inside StateChanged event handler).
//
// There are two places we update _previousWindowState.
// WindowState can be changed as a result of the following two passes
// 1. User interaction changes WindowState
// 2. Developer programmatically changes WindowState
// We update _previousWindowState at two places
// 1. Before Hwnd is created, when developer programmatically changes WindowState, we update it when WindowState is invalidated.
// 2. After Hwnd is created, we update it here because both passes comes here eventually.
// Event handler exception continuality: if exception occurs in StateChanged event handler, our state will not be
// corrupted because the state related to StateChanged, WindowStateProperty and _previousWindowState, are set before the event is fired.
// Please check Event handler exception continuality if the logic changes.
case NativeMethods.SIZE_MAXIMIZED:
if (_previousWindowState != WindowState.Maximized)
{
// Do not set local value unless it is from user interaction.
// User interaction is considered as the same pri as SetValue
// If WindowState is not the same as the current win32 value, it means the change is
// not from the DP system but from user interaction.
if (WindowState != WindowState.Maximized)
{
try
{
_updateHwndLocation = false;
_updateHwndSize = false;
UpdateDimensionsToRestoreBounds();
}
finally
{
_updateHwndSize = true;
_updateHwndLocation = true;
}
WindowState = WindowState.Maximized;
}
// DDVSO: 104034. The maximizing size we get from WM_GETMINMAXINFO is only valid for the primary monitor, if the primary monitor
// happens to be smaller than the secondary monitor, we may end up not maximizing correctly in the secondary monitor.
// Here we are sure that this size value is coming from the OS so it is safe to update our maximizing size.
_windowMaxWidthDeviceUnits = Math.Max(_windowMaxWidthDeviceUnits, windowSize.X);
_windowMaxHeightDeviceUnits = Math.Max(_windowMaxHeightDeviceUnits, windowSize.Y);
_previousWindowState = WindowState.Maximized;
OnStateChanged(EventArgs.Empty);
}
break;
case NativeMethods.SIZE_MINIMIZED:
if (_previousWindowState != WindowState.Minimized)
{
if (WindowState != WindowState.Minimized)
{
try
{
_updateHwndSize = false;
_updateHwndLocation = false;
UpdateDimensionsToRestoreBounds();
}
finally
{
_updateHwndSize = true;
_updateHwndLocation = true;
}
WindowState = WindowState.Minimized;
}
_previousWindowState = WindowState.Minimized;
OnStateChanged(EventArgs.Empty);
}
break;
case NativeMethods.SIZE_RESTORED:
if (_previousWindowState != WindowState.Normal)
{
if (WindowState != WindowState.Normal)
{
WindowState = WindowState.Normal;
WmMoveChangedHelper();
}
_previousWindowState = WindowState.Normal;
OnStateChanged(EventArgs.Empty);
}
break;
default:
break;
}
// DON'T DO ANYTHIHG HERE SINCE WE FIRE STATECHANGED ABOVE. USER CODE
// RUNS IN STATE CHANGED AND WINDOW COULD HAVE BEEN CLOSED. THUS, THE
// STATE OF VARIABLES IS UNKNOWN.
// HwndSource passes the win32 msgs to the public hookds first before
// passing layout hook etc. Thus we get the WM_SIZE msg before
// layout filter has processed it and we were reporting stale
// value for height/width. Now, UIElement fires SizeChanged event.
return false;
}
/// <SecurityNote>
/// Critical: This code accesses critical data, such as _inTrustedSubWindow
/// </SecurityNote>
[SecurityCritical]
private bool WmMoveChanged()
{
// We want to listen to WM_MOVE synchronously since if a Window is
// created minimized/maximized we get this message as a result of
// calling CreateWindowEx. Here, sourceWindow is null but we still
// need to update _actual[Top/Left] to reflect the correct Top/Left
// when Show() returns. Thus we input hwnd and process top/left info
//
// We won't fire LocationChanged unless Show has returned meaning
// IsSourceWindowNull is false. Furthermore, LocationChanged is
// fired only if the top/left values really changed
// Adding IsCompositionTargetInvalid check here for WOSB 1453012.
// Since hwnd is going away, not updating Top/Left DPs and not firing
// LocationChanged should not matter.
if (IsSourceWindowNull || IsCompositionTargetInvalid)
{
return false;
}
if (!_inTrustedSubWindow)
{
SecurityHelper.DemandUIWindowPermission();
}
// the input lparam gives the client location,
// so just call GetWindowRect for Left and Top.
NativeMethods.RECT rc = WindowBounds;
Point ptLogicalUnits = DeviceToLogicalUnits(new Point(rc.left, rc.top));
if (!DoubleUtil.AreClose(_actualLeft, ptLogicalUnits.X) ||
!DoubleUtil.AreClose(_actualTop, ptLogicalUnits.Y))
{
_actualLeft = ptLogicalUnits.X;
_actualTop = ptLogicalUnits.Y;
// In Window, WmMoveChangedHelper write the local value of Top/Left
// (if necessary) or updates the property system values for
// Top/Left by calling CoerceValue. Furthermore, it fires the
// LocationChanged event. RBW overrides WmMoveChangedHelper to do
// nothing as writing Top/Left is not supported for RBW and
// LocationChanged is never fired for it either.
WmMoveChangedHelper();
//Invalidate AutomationPeer if it was created/used by Automation.
//This will schedule a deferred update of bounding rectangle and
//corresponding notification to the Automation layer.
AutomationPeer peer = UIElementAutomationPeer.FromElement(this);
if(peer != null)
{
peer.InvalidatePeer();
}
}
return false;
}
// This method updates the Left/Top values and fires the location changed event.
// It is virtual so that RBW can override it.
internal virtual void WmMoveChangedHelper()
{
if (WindowState == WindowState.Normal)
{
try
{
_updateHwndLocation = false;
SetValue(LeftProperty, _actualLeft);
SetValue(TopProperty, _actualTop);
}
finally
{
_updateHwndLocation = true;
}
// Event handler exception continuality: if exception occurs in LocationChanged event handler, our state will not be
// corrupted because the states related to LocationChanged, LeftProperty, TopProperty, Left and Top are set before the event is fired.
// Please check event handler exception continuality if the logic changes.
OnLocationChanged(EventArgs.Empty);
}
}
/// <SecurityNote>
/// Critical:This calls into pointer to structure which is critical
/// </SecurityNote>
[SecurityCritical]
private bool WmGetMinMaxInfo( IntPtr lParam )
{
NativeMethods.MINMAXINFO mmi = (NativeMethods.MINMAXINFO)UnsafeNativeMethods.PtrToStructure( lParam, typeof(NativeMethods.MINMAXINFO));
//
// For Bug 1380569: Window SizeToContent does not work after changing Max size properties
//
// When Min/Max size is changed in this Window instance, we want to make sure the correct
// final Min/Max size is used to measure the window layout and notify the Win32 of the required
// Min/Max size.
//
// This method is responsible to notify Win32 of the new Min/Max size.
// MeasureOverride( ) is responisble to use the right Min/Max size to calculate the desired layout size.
//
// But only this method knows the Win32 restricted Min/Max value for the HWND when it responds to WM_GETMINMAXINFO message.
//
// To generate the right final Min/Max size value in both places ( here and MeasureOverride), we should
// cache the Win32 restricted size here.
//
// hamidm -- 10/27/2005
// We need to store the max/min size the hwnd can take. This is used in GetWindowMinMax to determine
// the size passed to children for their layout. These are stored in device units here so later
// we change them to logical units. Fixes the following bugs:
//
// WOSB: 1030000 Wrong window actual size returned if Autosize window
// content is smaller than the actual window (seems to return content
// size as opposed to window size)
//
// WOSB: 1330752 Window content should respect Window's Max/Min size
_trackMinWidthDeviceUnits = mmi.ptMinTrackSize.x;
_trackMinHeightDeviceUnits = mmi.ptMinTrackSize.y;
_trackMaxWidthDeviceUnits = mmi.ptMaxTrackSize.x;
_trackMaxHeightDeviceUnits = mmi.ptMaxTrackSize.y;
_windowMaxWidthDeviceUnits = mmi.ptMaxSize.x;
_windowMaxHeightDeviceUnits = mmi.ptMaxSize.y;
// if IsCompositionTargetInvalid is true, then it means that the CompositionTarget is not available.
// This can happen at hwnd creation or destruction time.
if (IsSourceWindowNull == false && IsCompositionTargetInvalid == false)
{
//
// Get the final MinMax size for this HWND based on Win32 track value and Min/Max setting
// in this instance.
//
WindowMinMax finalMinMax = GetWindowMinMax( );
// The finalMinMax struct keeps the desired Min/Max size for this hwnd in Logic Units.
Point minSizeDeviceUnits = LogicalToDeviceUnits(new Point(finalMinMax.minWidth, finalMinMax.minHeight));
Point maxSizeDeviceUnits = LogicalToDeviceUnits(new Point(finalMinMax.maxWidth, finalMinMax.maxHeight));
// Put the new value in mmi
mmi.ptMinTrackSize.x = DoubleUtil.DoubleToInt(minSizeDeviceUnits.X);
mmi.ptMinTrackSize.y = DoubleUtil.DoubleToInt(minSizeDeviceUnits.Y);
mmi.ptMaxTrackSize.x = DoubleUtil.DoubleToInt(maxSizeDeviceUnits.X);
mmi.ptMaxTrackSize.y = DoubleUtil.DoubleToInt(maxSizeDeviceUnits.Y);
// Notify Win32 of the new Min/Max value for this HWND.
Marshal.StructureToPtr(mmi, lParam, true);
}
return true;
}
private bool WmNcHitTest( IntPtr lParam, ref IntPtr refInt )
{
// For WS_CHILD window, WM_SIZE, WM_MOVE (and maybe others) are called
// synchronously from CreateWindowEx call and we run into issues if
// _sourceWindow in null. We only care to listen to WM_CREATE &
// WM_GETMINMAXINFO synchronously from CreateWindowEx thus we want
// to explicitly add the null check below at all other places.
//
// Adding check for IsCompositionTargetInvalid as the fix for WOSB 1453012.
// This can be true either at HwndSource creation time or when hwnd is going
// away.
if (IsSourceWindowNull || IsCompositionTargetInvalid)
{
return false;
}
// WmNcHitTest is necessary to enable ResizeGrip and it only
// relevant for Window. Doing this processing in a virtual so
// that RBW can override it
return HandleWmNcHitTestMsg(lParam, ref refInt);
}
internal virtual bool HandleWmNcHitTestMsg(IntPtr lParam, ref IntPtr refInt)
{
//
if ((_resizeGripControl == null) || (ResizeMode != ResizeMode.CanResizeWithGrip))
{
return false;
}
// mouse position wrt to the left/top of the screen
int x = NativeMethods.SignedLOWORD(lParam);
int y = NativeMethods.SignedHIWORD(lParam);
// Find the client area 0,0 of the Window wrt the screen
// This will be used to transform the mouse position from screen co-od
// to window's client area co-od. We need this to be able to figure out
// whether the mouse is currently over the resize grip control or not
NativeMethods.POINT pt = GetPointRelativeToWindow(x, y);
Point ptLogicalUnits = DeviceToLogicalUnits(new Point(pt.x, pt.y));
// Now, (ptLogicalUnits.X, ptLogicalUnits.Y) is the mouse postion wrt to the
// Window's client region.
// The next step is to find out whether the mouse is on top of the
// ResizeGrip control
// For this we first need to find out mouse location wrt to the ResizeGrip
// control and then check whether the mouse location is on the control
// Conditions when mouse is on top of the control:
// x,y should be not be less than zero
// x,y should not be greater than RenderSize.Width and RenderSize.Height
GeneralTransform transfromFromWindow = this.TransformToDescendant(_resizeGripControl);
Point mousePositionWRTResizeGripControl = ptLogicalUnits;
if (transfromFromWindow == null || transfromFromWindow.TryTransform(ptLogicalUnits, out mousePositionWRTResizeGripControl) == false)
{
return false;
}
// check if the mouse is outside the ResizeGripControl region
if ((mousePositionWRTResizeGripControl.X < 0) ||
(mousePositionWRTResizeGripControl.Y < 0 ) ||
(mousePositionWRTResizeGripControl.X > _resizeGripControl.RenderSize.Width) ||
(mousePositionWRTResizeGripControl.Y > _resizeGripControl.RenderSize.Height))
{
// mouse not over ResizeGripControl; just let the DefWndProc handle this
return false;
}
if (FlowDirection == FlowDirection.RightToLeft)
{
refInt = new IntPtr(NativeMethods.HTBOTTOMLEFT);
}
else
{
refInt = new IntPtr(NativeMethods.HTBOTTOMRIGHT);
}
// we've handled the WM_NCHITTEST msg thus return true
return true;
}
private bool WmShowWindow(IntPtr wParam, IntPtr lParam)
{
// For WS_CHILD window, WM_SIZE, WM_MOVE (and maybe others) are called
// synchronously from CreateWindowEx call and we run into issues if
// _sourceWindow in null. We only care to listen to WM_CREATE &
// WM_GETMINMAXINFO synchronously from CreateWindowEx thus we want
// to explicitly add the null check below at all other places.
//
// Adding check for IsCompositionTargetInvalid as part of the fix for WOSB 1453012
if (IsSourceWindowNull || IsCompositionTargetInvalid)
{
return false;
}
//lParam has five values: 0(programtically show/hide), 1(SW_PARENTCLOSING),
//2(SW_OTHERMAXIMIZED), 3(SW_PARENTOPENING), 4(SW_OTHERRESTORED). We only care
//about 1 and 3.
switch (NativeMethods.IntPtrToInt32(lParam))
{
//The window's owner window is being minimized.
//In Win32, when lParam is SW_PARENTCLOSING, wParam is false,
//which means the window is being hidden.
case NativeMethods.SW_PARENTCLOSING:
//This window will be hidden. Update _isVisible to reflect the
// new state. Furthermore update visibility such that we
// do not call ShowHelper again and thus calling
// UpdateVisibilityProperty.
_isVisible = false;
UpdateVisibilityProperty(Visibility.Hidden);
break;
//The window's owner window is being restored.
//In Win32, when lParam is SW_PARENTOPENING, wParam is true,
//which means the window is being shown.
case NativeMethods.SW_PARENTOPENING:
//This window will be shown. Update _isVisible to reflect the
// new state. Furthermore update visibility such that we
// do not call ShowHelper again and thus calling
// UpdateVisibilityProperty.
_isVisible = true;
UpdateVisibilityProperty(Visibility.Visible);
break;
default:
break;
}
return false;
}
private static void _OnIconChanged(DependencyObject d, DependencyPropertyChangedEventArgs e)
{
Window w = (Window)d;
Debug.Assert(w != null, "DependencyObject must be of type Window.");
// We'll support most kinds of Images. If it's not a BitmapFrame we'll rasterize it.
w.OnIconChanged(e.NewValue as ImageSource);
}
private void OnIconChanged(ImageSource newIcon)
{
// No need to dispose previous _icon.
// _icon is a ref to the ImageSource object
// set by the developer. Since the dev created
// the ImageSource object it is his responsibility to
// dispose it.
_icon = newIcon;
// Adding check for IsCompositionTargetInvalid as part of the fix for WOSB 1453012
if (IsSourceWindowNull == false && IsCompositionTargetInvalid == false)
{
UpdateIcon();
}
}
private static void _OnTitleChanged(DependencyObject d, DependencyPropertyChangedEventArgs e)
{
Window w = (Window)d;
Debug.Assert(w != null, "DependencyObject must be of type Window.");
w.OnTitleChanged();
}
private static bool _ValidateText(object value)
{
return (value != null);
}
private void OnTitleChanged()
{
UpdateTitle(Title);
}
private static void _OnShowInTaskbarChanged(DependencyObject d, DependencyPropertyChangedEventArgs e)
{
Window w = (Window)d;
Debug.Assert(w != null, "DependencyObject must be of type Window.");
w.OnShowInTaskbarChanged();
}
/// <SecurityNote>
/// Critical: This code accesses hwnd
/// TreatAsSafe: This function simply minimizes and maximises that is ok, also this will only
/// work in RBW code path and that is ok since this is bounded to parent
/// </SecurityNote>
[SecurityCritical,SecurityTreatAsSafe]
private void OnShowInTaskbarChanged()
{
if (!_inTrustedSubWindow)
{
SecurityHelper.DemandUIWindowPermission();
}
// this call ends up throwing an exception if accessing
// ShowInTaskbar is not allowed
VerifyApiSupported();
// There are 2 cases
// Case 1 : being set before source window is created
// Case 2 : being set after the source window is created
// Case 3 : bet set when CompositionTarget is invalid meaning we're in a bad state
// Adding check for IsCompositionTargetInvalid as part of the fix for WOSB 1453012
if ( IsSourceWindowNull == false && IsCompositionTargetInvalid == false)
{
bool fHideWindow = false;
// Win32 bug. For ShowInTaskbar to change dynamically, we need to hide then show the window.
// It is recommended to hide the window, chnage the style bits and then show it again.
if (_isVisible)
{
UnsafeNativeMethods.SetWindowPos(new HandleRef(this, CriticalHandle), NativeMethods.NullHandleRef, 0, 0, 0, 0,
NativeMethods.SWP_NOMOVE |
NativeMethods.SWP_NOSIZE |
NativeMethods.SWP_NOZORDER |
NativeMethods.SWP_NOACTIVATE |
NativeMethods.SWP_NOSENDCHANGING |
NativeMethods.SWP_HIDEWINDOW);
fHideWindow = true;
}
using (HwndStyleManager sm = HwndStyleManager.StartManaging(this, StyleFromHwnd, StyleExFromHwnd ))
{
SetTaskbarStatus();
}
// Use fHideWindow instead of _isVisible in case if we listen to HideWindow messages and update _isVisible value,
// it won't break this code.
if (fHideWindow)
{
UnsafeNativeMethods.SetWindowPos(new HandleRef(this, CriticalHandle), NativeMethods.NullHandleRef, 0, 0, 0, 0,
NativeMethods.SWP_NOMOVE |
NativeMethods.SWP_NOSIZE |
NativeMethods.SWP_NOZORDER |
NativeMethods.SWP_NOACTIVATE |
NativeMethods.SWP_NOSENDCHANGING |
NativeMethods.SWP_SHOWWINDOW);
}
}
}
private static bool _ValidateWindowStateCallback(object value)
{
return IsValidWindowState((WindowState)value);
}
private static void _OnWindowStateChanged(DependencyObject d, DependencyPropertyChangedEventArgs e)
{
Window w = (Window)d;
Debug.Assert(w != null, "DependencyObject must be of type Window.");
w.OnWindowStateChanged((WindowState) e.NewValue);
}
/// <SecurityNote>
/// Critical: This code can cause window to maximize and minimize and used hwnd
/// TreatAsSafe: This has a demand
/// </SecurityNote>
[SecurityCritical,SecurityTreatAsSafe]
private void OnWindowStateChanged(WindowState windowState)
{
SecurityHelper.DemandUIWindowPermission();
//
if (IsSourceWindowNull == false && IsCompositionTargetInvalid == false)
{
if (_isVisible == true)
{
HandleRef hr = new HandleRef(this, CriticalHandle);
int style = _Style;
// Only call ShowWindow if window is in a different state
switch (windowState)
{
case WindowState.Normal:
if ((style & NativeMethods.WS_MAXIMIZE) == NativeMethods.WS_MAXIMIZE)
{
//
// The old behavior of this case is to restore the window using SW_RESTORE.
// With the ShowActivated property set to false we want this restore operation
// to take the current activation state into account when restoring the window.
//
if (ShowActivated || IsActive)
UnsafeNativeMethods.ShowWindow(hr, NativeMethods.SW_RESTORE);
else
UnsafeNativeMethods.ShowWindow(hr, NativeMethods.SW_SHOWNOACTIVATE);
}
else if ((style & NativeMethods.WS_MINIMIZE) == NativeMethods.WS_MINIMIZE)
{
//
// We query to WINDOWPLACEMENT to get an indication about the state before the
// minimize operation happened. If we were coming from a maximized state and now we
// switch to normal, we want activation to happen since the maximized state is always
// activated and transitioning from activated to non-activated would be weird.
//
NativeMethods.WINDOWPLACEMENT placement = new NativeMethods.WINDOWPLACEMENT();
placement.length = Marshal.SizeOf(placement);
UnsafeNativeMethods.GetWindowPlacement(hr, ref placement);
if ((placement.flags & NativeMethods.WPF_RESTORETOMAXIMIZED) == NativeMethods.WPF_RESTORETOMAXIMIZED)
UnsafeNativeMethods.ShowWindow(hr, NativeMethods.SW_RESTORE);
else
{
if (ShowActivated)
UnsafeNativeMethods.ShowWindow(hr, NativeMethods.SW_RESTORE);
else
UnsafeNativeMethods.ShowWindow(hr, NativeMethods.SW_SHOWNOACTIVATE);
}
}
break;
case WindowState.Maximized:
if ((style & NativeMethods.WS_MAXIMIZE) != NativeMethods.WS_MAXIMIZE)
{
//
// The OS doesn't provide support for non-activated maximized windows.
//
UnsafeNativeMethods.ShowWindow(hr, NativeMethods.SW_MAXIMIZE);
}
break;
case WindowState.Minimized:
if ((style & NativeMethods.WS_MINIMIZE) != NativeMethods.WS_MINIMIZE)
{
//
// Historically, we used SW_MINIMIZE in here which activates the next top-level
// window in the Z order. Therefore, our ShowActivated property can't affect the
// minimized state since this would incur a breaking change requiring us to use
// SW_SHOWMINIMIZED instead in case ShowActivated is set to true (bw compat case).
//
UnsafeNativeMethods.ShowWindow(hr, NativeMethods.SW_MINIMIZE);
}
break;
//
}
}
}
else
{
// WindowState can be changed as a result of the following two passes
// 1. User interaction changes WindowState
// 2. Developer programmatically changes WindowState
// We update _previousWindowState at two places
// 1. Before Hwnd is created, when developer programmatically changes WindowState, we update it here.
// 2. After Hwnd is created, we update it when we get to WM_SIZE because both passes eventally meet there.
_previousWindowState = windowState;
}
// The value of Top and Left is affected by WindowState and WindowStartupLocation.
// we need to coerce Top and Left whenever these deciding factors change.
// More info in CoerceTop.
try
{
_updateHwndLocation = false;
CoerceValue(TopProperty);
CoerceValue(LeftProperty);
}
finally
{
_updateHwndLocation = true;
}
}
private static bool _ValidateWindowStyleCallback(object value)
{
return IsValidWindowStyle((WindowStyle)value);
}
private static void _OnWindowStyleChanged(DependencyObject d, DependencyPropertyChangedEventArgs e)
{
Window w = (Window)d;
Debug.Assert(w != null, "DependencyObject must be of type Window.");
w.OnWindowStyleChanged((WindowStyle) e.NewValue);
}
private void OnWindowStyleChanged(WindowStyle windowStyle)
{
//Per our conversation with Aaron today, in M6 we are going to demand UnrestrictedFullScreen permission for
//setting WindowStyle to None. But there will be changes in M7 so that we can differentiate between FullScreen
//and NoBorder window, so we comment this section out for future references.
//if ((value == WindowStyle.None) && (WindowState == WindowState.Maximized))
//if (windowStyle == WindowStyle.None)
//{
// AVTempUIPermission avtUIPermission = new AVTempUIPermission(AVTUIPermissionFullScreen.UnrestrictedFullScreen);
//CASRemoval:avtUIPermission.Demand();
//}
// Adding check for IsCompositionTargetInvalid as part of the fix for WOSB 1453012
if (IsSourceWindowNull == false && IsCompositionTargetInvalid == false)
{
using (HwndStyleManager sm = HwndStyleManager.StartManaging(this, StyleFromHwnd, StyleExFromHwnd ))
{
CreateWindowStyle();
}
}
}
private static void _OnTopmostChanged(DependencyObject d, DependencyPropertyChangedEventArgs e)
{
Window w = (Window)d;
Debug.Assert(w != null, "DependencyObject must be of type Window.");
w.OnTopmostChanged((bool) e.NewValue);
}
///<SecurityNote>
/// There is an explicit demand here - to enforce not being able to set this DP in Internet Zone.
/// this should remanin here until Window spoofing work is done.
/// Critical as this accesses critical data - (CriticalHandle )
/// TreatAsSafe - as there is a demand.
///</SecurityNote>
[SecurityCritical, SecurityTreatAsSafe ]
private void OnTopmostChanged(bool topmost)
{
SecurityHelper.DemandUIWindowPermission(); // Demand UI permission for topmost.
// this call ends up throwing an exception if accessing
// Topmost is not allowed
VerifyApiSupported();
// Adding check for IsCompositionTargetInvalid as part of the fix for WOSB 1453012
if (IsSourceWindowNull == false && IsCompositionTargetInvalid == false)
{
HandleRef hWnd = topmost ? NativeMethods.HWND_TOPMOST : NativeMethods.HWND_NOTOPMOST;
UnsafeNativeMethods.SetWindowPos(new HandleRef(null, CriticalHandle),
hWnd,
0, 0, 0, 0,
NativeMethods.SWP_NOMOVE | NativeMethods.SWP_NOSIZE | NativeMethods.SWP_NOACTIVATE);
}
}
private static object CoerceVisibility(DependencyObject d, object value)
{
Window w = (Window)d;
Visibility newValue = (Visibility)value;
if (newValue == Visibility.Visible)
{
w.VerifyCanShow();
w.VerifyConsistencyWithAllowsTransparency();
w.VerifyNotClosing();
w.VerifyConsistencyWithShowActivated();
}
return value;
}
/// <summary>
/// Called when VisiblityProperty is invalidated
/// The actual window is created when the Visibility property is set
/// to Visibility.Visible for the first time or when Show is called.
/// For Window, Visibility.Visible means the Window is visible.
/// Visibility.Hidden and Visibility.Collapsed mean the Window is not visible.
/// Visibility.Hidden and Visibility.Collapsed are treated the same.
/// </summary>
private static void _OnVisibilityChanged(DependencyObject d, DependencyPropertyChangedEventArgs e)
{
Window w = (Window)d;
// Indicate Visibility has been set
// This works fine because Window is always the root. So Visibility property
// would not be invalidated usless it is set to a value. But if that changes,
// we will get invalidation when Window it added to the tree and this would be broken.
w._isVisibilitySet = true;
// _visibilitySetInternally is used to identify a call from Show/Hide in
// _OnVisibilityInvalidated callback. If a call originates in Show/Hide,
// we DO NOT want to do anything in the _OnVisibilityCallback since, we
// synchronously call ShowHelper from Show/Hide
if (w._visibilitySetInternally == true)
{
return;
}
bool visibilityValue = VisibilityToBool((Visibility) e.NewValue);
w.Dispatcher.BeginInvoke(
DispatcherPriority.Normal,
new DispatcherOperationCallback(w.ShowHelper),
visibilityValue ? BooleanBoxes.TrueBox : BooleanBoxes.FalseBox);
}
/// <SecurityNote>
/// Critical: This code causes an elevation to all Window permission and
/// calls into CreateSourceWindow
/// TreatAsSafe: There is a demand for creating the hwnd unless it is under an RBW
/// code path and if it has been called via the internal constructor chain
/// </SecurityNote>
[SecurityCritical, SecurityTreatAsSafe]
private void SafeCreateWindowDuringShow()
{
//this is true the first time the window is created
if (IsSourceWindowNull == true)
{
//this is true only if called via RBW
if (!_inTrustedSubWindow)
{
SecurityHelper.DemandUIWindowPermission();
}
// _isVisible is false at this moment. Thus CreateAllStyle
// called by CreateSourceWindow does not set WS_VISIBLE style
CreateSourceWindowDuringShow();
}
// If the hwnd has been created via WindowsInteropHelper.EnsureHandle,
// we just need to hook up the RootVisual and update the size according to STC before Show.
else if (HwndCreatedButNotShown)
{
SetRootVisualAndUpdateSTC();
_hwndCreatedButNotShown = false;
}
}
// We set/clear ShowKeyboardCue when Show(ShowDialog)/Hide is called.
// We do not clear the state of ShowKeyboardCue when Window is closed.
private void SetShowKeyboardCueState()
{
// set property on AccessKey control indicating the
// invocation device
if (KeyboardNavigation.IsKeyboardMostRecentInputDevice())
{
_previousKeyboardCuesProperty = (bool)GetValue(KeyboardNavigation.ShowKeyboardCuesProperty);
SetValue(KeyboardNavigation.ShowKeyboardCuesProperty, BooleanBoxes.TrueBox);
_resetKeyboardCuesProperty = true;
}
}
// We set/clear ShowKeyboardCue when Show(ShowDialog)/Hide is called.
// We do not clear the state of ShowKeyboardCue when Window is closed.
private void ClearShowKeyboardCueState()
{
// if we set KeyboradNavigation.ShowKeyboardCuesProperty in ShowDialog,
// set it to false here.
if (_resetKeyboardCuesProperty == true)
{
_resetKeyboardCuesProperty = false;
SetValue(KeyboardNavigation.ShowKeyboardCuesProperty, BooleanBoxes.Box(_previousKeyboardCuesProperty));
}
}
private void UpdateVisibilityProperty(Visibility value)
{
// _visibilitySetInternally is used to identify a call (in _OnVisibilityInvalidated
// callback) for updating the property value only and not changing the actual
// visibility state of the hwnd.
try
{
_visibilitySetInternally = true;
SetValue(VisibilityProperty, value);
}
finally
{
_visibilitySetInternally = false;
}
}
/// <summary>
/// update _isVisible and call CreateSourceWindow if
/// it's the first time window is set to Visibile
/// </summary>
/// <SecurityNote>
/// Critical: Acceses CriticalHandle
/// TreatAsSafe: Code only creates window in RBW path
/// </SecurityNote>
[SecurityCritical,SecurityTreatAsSafe]
private object ShowHelper(object booleanBox)
{
// Setting Visiblilty is async. When this is called from the async callback,
// check whether the window is already closed.
// E.g. window.Visibility = true;
// ...
// window.Close();
// We should not do anything if the window is already closed.
if (_disposed == true)
{
return null;
}
bool value = (bool) booleanBox;
_isClosing = false;
// hamidm 9/7/2005 WOSB 1223920 (BVT Blocker: Invariant Assert when calling
// Window.Show after setting Visibility=Hidden)
// We should optimize for when visibilityValue == _isVisible only in ShowHelper
// since this is called from a sync and async call. We cannot optimize it there
// since _isVisible may not reflect the exact state requested by the OM call.
if (_isVisible == value)
{
return null;
}
// _isVisible should always be set after calling SafeCreateWindow, because
// if exception occurs in Loading event (fired as a result of setting Visibility to visible) handler,
// we set Visibility back to Collapsed. Otherwise we could get into a loop.
if (value == true)
{
if (Application.IsShuttingDown)
return null;
SetShowKeyboardCueState();
SafeCreateWindowDuringShow();
_isVisible = true;
}
else
{
//demand in case you are trying to hide this window
if (!_inTrustedSubWindow)
{
SecurityHelper.DemandUIWindowPermission();
}
ClearShowKeyboardCueState();
if (_showingAsDialog == true)
{
DoDialogHide();
}
_isVisible = false;
}
// we need this check here again, b/c creating the window fires the
// Activted event and if user closes the window from it, then by
// the time we get to this point _sourceWindow is already disposed.
if ( IsSourceWindowNull == false )
{
// NOTE: hamidm 08/24/04
// PS Windows OS bug # 950580 Specifying an Avalon app to start
// maximized from a shortcut does not work.
// ShowWindow MSDN documentation says that the first time ShowWindow
// is called, nCmd passed in STARTUPINFO is used instead of the one
// passed in via ShowWindow call. However, that is not the case.
// ShowWindow implementation in user32 uses nCmd of STARTUPINFO only
// if we pass SW_SHOW, SW_SHOWNORMAL, SW_SHOWDEFAULT to ShowWindow.
// If anything else is passed, it does not use nCmd of STARTUPINFO.
int nCmd = 0;
if (value == true)
{
// nCmdForShow access WindowState which is inaccessible for RBW.
// Thus doing so in a virtual that RBW overrides
nCmd = nCmdForShow();
}
else
{
nCmd = NativeMethods.SW_HIDE;
}
// If this is a Topmost window, and the option is enabled to use SetWindowPos() when possible
// for topmost windows, and this is SW_SHOW or SW_SHOWNA, then use SetWindowPos(). (Ideally
// all SW_SHOW* options would use SetWindowPos, but (1) it is difficult to handle the maximize
// and minimize options without ShowWindow, and (2) the z-order issue happens as soon as the
// topmost window gets activated, which happens for SW_SHOWMAXIMIZED and SW_SHOWMINIMIZED. So
// to minimize complexity and risk those cases will continue to use ShowWindow.)
//
// Determine whether this is a Topmost window without calling
// the Topmost property. (This isn't allowed for xbap windows.)
bool isTopmost = (bool)GetValue(TopmostProperty);
if (isTopmost &&
FrameworkCompatibilityPreferences.GetUseSetWindowPosForTopmostWindows() &&
(nCmd == NativeMethods.SW_SHOW || nCmd == NativeMethods.SW_SHOWNA))
{
int flags = (nCmd == NativeMethods.SW_SHOWNA) ? NativeMethods.SWP_NOACTIVATE : 0;
UnsafeNativeMethods.SetWindowPos(new HandleRef(this, CriticalHandle),
NativeMethods.HWND_TOPMOST,
0, 0, 0, 0,
flags | NativeMethods.SWP_NOMOVE | NativeMethods.SWP_NOSIZE | NativeMethods.SWP_NOOWNERZORDER | NativeMethods.SWP_SHOWWINDOW);
}
else
{
UnsafeNativeMethods.ShowWindow(new HandleRef(this, CriticalHandle), nCmd);
}
// We already did a ShowWindow upabove and then because of the using, we will flush which
// will cause us to set the visibility. Ideally I would like to simply not have the ShowWindow
// call above, *but* there is this SHOWNA stuff which is tied to Focus/Activation cleanup
// scheduled for M8.
//set the style
SafeStyleSetter();
}
// dialog functionality; start dispatcher loop to block the call
if ((_showingAsDialog == true) && (_isVisible == true))
{
// hamidm -- 07/07/04
// PS Bug # 992107, 935429
//
// Since we exited the Context, we need to make sure
// we enter it before returning even if there is an
// exception
//
Debug.Assert(_dispatcherFrame == null, "_dispatcherFrame must be null here");
try
{
// tell users we're going modal
ComponentDispatcher.PushModal();
_dispatcherFrame = new DispatcherFrame();
Dispatcher.PushFrame(_dispatcherFrame);
}
finally
{
// tell users we're going non-modal
ComponentDispatcher.PopModal();
}
}
return null;
}
internal virtual int nCmdForShow()
{
int nCmd = 0;
switch(WindowState)
{
case WindowState.Maximized:
nCmd = NativeMethods.SW_SHOWMAXIMIZED; // The OS doesn't provide support for non-activated maximized windows.
break;
case WindowState.Minimized:
nCmd = ShowActivated ? NativeMethods.SW_SHOWMINIMIZED : NativeMethods.SW_SHOWMINNOACTIVE;
break;
default:
nCmd = ShowActivated ? NativeMethods.SW_SHOW : NativeMethods.SW_SHOWNA;
break;
}
return nCmd;
}
/// <SecurityNote>
/// Critical: This code elevates
/// TreatAsSafe: This code is safe to call since it is not configurable and sets a preallowed style
/// </SecurityNote>
[SecurityCritical,SecurityTreatAsSafe]
private void SafeStyleSetter()
{
(new UIPermission(UIPermissionWindow.AllWindows)).Assert();
try//blessed assert to toggle visibility, this does not let random styles from being set
{
using (HwndStyleManager sm = HwndStyleManager.StartManaging(this, StyleFromHwnd, StyleExFromHwnd))
{
_Style = _isVisible ? (_Style | NativeMethods.WS_VISIBLE) : _Style;
}
}
finally
{
UIPermission.RevertAssert();
}
}
private static bool _ValidateSizeToContentCallback(object value)
{
return IsValidSizeToContent((SizeToContent)value);
}
/// <summary>
/// SizeToContent property GetValue override
/// </summary>
/// <param name="d"></param>
/// <returns></returns>
private static object _SizeToContentGetValueOverride(DependencyObject d)
{
Window w = d as Window;
Debug.Assert(w != null, "DependencyObject must be of type Window.");
return w.SizeToContent;
}
/// <summary>
/// SizeToContent property invalidation callback
/// </summary>
private static void _OnSizeToContentChanged(DependencyObject d, DependencyPropertyChangedEventArgs e)
{
Window w = d as Window;
Debug.Assert(w != null, "DependencyObject must be of type Window.");
w.OnSizeToContentChanged((SizeToContent) e.NewValue);
}
private void OnSizeToContentChanged(SizeToContent sizeToContent)
{
// this call ends up throwing an exception if accessing
// SizeToContent is not allowed
VerifyApiSupported();
// Update HwndSource's SizeToContent.
// HwndSource will only update layout if the value has changed.
//
// Adding check for IsCompositionTargetInvalid as part of the fix for WOSB 1453012
if (IsSourceWindowNull == false && IsCompositionTargetInvalid == false)
{
HwndSourceSizeToContent = sizeToContent;
}
}
/// <summary>
/// Validate [Max/Min]Width/Height and Top/Left value.
/// </summary>
/// Length takes Double; Win32 handles Int.
/// We throw exception when the value goes below Int32Min and Int32Max.
/// WorkItem 26263: ValidateValueCallback needs to move to PropertyMetadata so Window can
/// add its own validation and validate before invalid value is set. Right now, we can only
/// validate this in PropertyInalidatinonCallback because of this. (We couldn't make it virtual on
/// FrameworkELement because ValidateValueCallback doesn't provide context. Work item 25275).
private static void ValidateLengthForHeightWidth(double l)
{
//basically, NaN and PositiveInfinity are ok, and then anything
//that can be converted to Int32
if (!Double.IsPositiveInfinity(l) && !DoubleUtil.IsNaN(l) &&
((l > Int32.MaxValue) || (l < Int32.MinValue)))
{
throw new ArgumentException(SR.Get(SRID.ValueNotBetweenInt32MinMax, l));
}
}
private static void ValidateTopLeft(double length)
{
// Values not allowed: PositiveInfinity, NegativeInfinity
// and values that are beyond the range of Int32
if (Double.IsPositiveInfinity(length) ||
Double.IsNegativeInfinity(length))
{
throw new ArgumentException(SR.Get(SRID.InvalidValueForTopLeft, length));
}
if ((length > Int32.MaxValue) ||
(length < Int32.MinValue))
{
throw new ArgumentException(SR.Get(SRID.ValueNotBetweenInt32MinMax, length));
}
}
private static void _OnHeightChanged(DependencyObject d, DependencyPropertyChangedEventArgs e)
{
Window w = d as Window;
Debug.Assert(w != null, "d must be typeof Window");
if (w._updateHwndSize)
{
w.OnHeightChanged((double) e.NewValue);
}
}
///<SecurityNote>
/// There is an explicit demand here - to enforce not being able to set this DP in Internet Zone.
/// this should remanin here until Window spoofing work is done.
///</SecurityNote>
private void OnHeightChanged(double height)
{
// WOSB 1018227: Move ValidateLengthForHeightWidth calls from property
// invalidation callback to PropertyMetadata
ValidateLengthForHeightWidth(height);
// Adding check for IsCompositionTargetInvalid as part of the fix for WOSB 1453012
if (IsSourceWindowNull == false && IsCompositionTargetInvalid == false && !DoubleUtil.IsNaN(height))
{
UpdateHeight(height);
}
}
private static void _OnMinHeightChanged(DependencyObject d, DependencyPropertyChangedEventArgs e)
{
Window w = d as Window;
Debug.Assert(w != null, "d must be typeof Window");
w.OnMinHeightChanged((double) e.NewValue);
}
private void OnMinHeightChanged(double minHeight)
{
// this call ends up throwing an exception if accessing
// MinHeight is not allowed
VerifyApiSupported();
ValidateLengthForHeightWidth(minHeight);
// Only trigger immediate size update when hwnd has been created and MinHeight is not Auto and MinHeight is
// greater then current HWND height.
// If hwnd hasn't been created, size will be controlled when it is created.
// If MinHeight is Auto or ActualHeight is greater than MinHeight, there is no need update size of the window.
//
// Adding check for IsCompositionTargetInvalid as part of the fix for WOSB 1453012
if ((IsSourceWindowNull == false ) && (IsCompositionTargetInvalid == false))
{
NativeMethods.RECT rcHwnd = WindowBounds;
Point logicalSize = DeviceToLogicalUnits(new Point(rcHwnd.Width, rcHwnd.Height));
if (minHeight > logicalSize.Y)
{
if (WindowState == WindowState.Normal)
{
UpdateHwndSizeOnWidthHeightChange(logicalSize.X, minHeight);
}
else
{
// no need to do anything. When window is restored, we get WM_GETMINMAXINFO where
// we restrict the max/min size of the window to [Max/Min][Height/Width]
}
}
}
}
private static void _OnMaxHeightChanged(DependencyObject d, DependencyPropertyChangedEventArgs e)
{
Window w = d as Window;
Debug.Assert(w != null, "d must be typeof Window");
w.OnMaxHeightChanged((double) e.NewValue);
}
private void OnMaxHeightChanged(double maxHeight)
{
// this call ends up throwing an exception if accessing
// MaxHeight is not allowed
VerifyApiSupported();
ValidateLengthForHeightWidth(MaxHeight);
// Only trigger immediate size update when hwnd has been created and MaxHeight is not Auto and
// the HWND's height > MaxHeight
//
// Adding check for IsCompositionTargetInvalid as part of the fix for WOSB 1453012
if ((IsSourceWindowNull == false) && (IsCompositionTargetInvalid == false))
{
NativeMethods.RECT rcHwnd = WindowBounds;
Point logicalSize = DeviceToLogicalUnits(new Point(rcHwnd.Width, rcHwnd.Height));
if (maxHeight < logicalSize.Y)
{
if (WindowState == WindowState.Normal)
{
UpdateHwndSizeOnWidthHeightChange(logicalSize.X, maxHeight);
}
else
{
// no need to do anything. When window is restored, we get WM_GETMINMAXINFO where
// we restrict the max/min size of the window to [Max/Min][Height/Width]
}
}
}
}
private static void _OnWidthChanged(DependencyObject d, DependencyPropertyChangedEventArgs e)
{
Window w = d as Window;
Debug.Assert(w != null, "d must be typeof Window");
if (w._updateHwndSize)
{
w.OnWidthChanged((double) e.NewValue);
}
}
private void OnWidthChanged(double width)
{
ValidateLengthForHeightWidth(width);
// Adding check for IsCompositionTargetInvalid as part of the fix for WOSB 1453012
if (IsSourceWindowNull == false && IsCompositionTargetInvalid == false && !DoubleUtil.IsNaN(width))
{
UpdateWidth(width);
}
}
private static void _OnMinWidthChanged(DependencyObject d, DependencyPropertyChangedEventArgs e)
{
Window w = d as Window;
Debug.Assert(w != null, "d must be typeof Window");
w.OnMinWidthChanged((double) e.NewValue);
}
private void OnMinWidthChanged(double minWidth)
{
// this call ends up throwing an exception if accessing
// MinWidth is not allowed
VerifyApiSupported();
// WOSB 1018227: Move ValidateLengthForHeightWidth calls from property
// invalidation callback to PropertyMetadata
ValidateLengthForHeightWidth(minWidth);
// Only trigger immediate size update when hwnd has been created and MinWidth is not Auto and MinWidth is
// greater then current ActualWidth.
// If hwnd hasn't been created, size will be controlled when it is created.
// If MinWidth is Auto or ActualWidth is greater than MinWidth, there is no need update size of the window.
//
// Adding check for IsCompositionTargetInvalid as part of the fix for WOSB 1453012
if ((IsSourceWindowNull == false) && (IsCompositionTargetInvalid == false))
{
NativeMethods.RECT rcHwnd = WindowBounds;
Point logicalSize = DeviceToLogicalUnits(new Point(rcHwnd.Width, rcHwnd.Height));
if (minWidth > logicalSize.X)
{
if (WindowState == WindowState.Normal)
{
UpdateHwndSizeOnWidthHeightChange(minWidth, logicalSize.Y);
}
else
{
// no need to do anything. When window is restored, we get WM_GETMINMAXINFO where
// we restrict the max/min size of the window to [Max/Min][Height/Width]
}
}
}
}
private static void _OnMaxWidthChanged(DependencyObject d, DependencyPropertyChangedEventArgs e)
{
Window w = d as Window;
Debug.Assert(w != null, "d must be typeof Window");
w.OnMaxWidthChanged((double) e.NewValue);
}
private void OnMaxWidthChanged(double maxWidth)
{
// this call ends up throwing an exception if accessing
// MaxWidth is not allowed
VerifyApiSupported();
ValidateLengthForHeightWidth(maxWidth);
// Only trigger immediate size update when hwnd has been created and MaxWidth is not Auto and
// ActualWidth > MaxWidth
//
// Adding check for IsCompositionTargetInvalid as part of the fix for WOSB 1453012
if ((IsSourceWindowNull == false ) && (IsCompositionTargetInvalid == false))
{
NativeMethods.RECT rcHwnd = WindowBounds;
Point logicalSize = DeviceToLogicalUnits(new Point(rcHwnd.Width, rcHwnd.Height));
if (maxWidth < logicalSize.X)
{
if (WindowState == WindowState.Normal)
{
UpdateHwndSizeOnWidthHeightChange(maxWidth, logicalSize.Y);
}
else
{
// no need to do anything. When window is restored, we get WM_GETMINMAXINFO where
// we restrict the max/min size of the window to [Max/Min][Height/Width]
}
}
}
}
// Updates the restore bounds of the hwnd based on BoundsSpecified enum values
// OR-ing of BoundsSpecified enum is not supported.
/// <SecurityNote>
/// Critical: This code accesses CriticalHandle
/// TreatAsSafe:This code is disabled for all windows including RBW in PartialTrust
/// </SecurityNote>
[SecurityCritical,SecurityTreatAsSafe]
private void UpdateHwndRestoreBounds(double newValue, BoundsSpecified specifiedRestoreBounds)
{
SecurityHelper.DemandUIWindowPermission();
NativeMethods.WINDOWPLACEMENT wp = new NativeMethods.WINDOWPLACEMENT();
wp.length = Marshal.SizeOf(typeof(NativeMethods.WINDOWPLACEMENT));
UnsafeNativeMethods.GetWindowPlacement(new HandleRef(this, CriticalHandle), ref wp);
double convertedValue = (LogicalToDeviceUnits(new Point(newValue, 0))).X;
switch (specifiedRestoreBounds)
{
case BoundsSpecified.Height:
wp.rcNormalPosition_bottom = wp.rcNormalPosition_top + DoubleUtil.DoubleToInt(convertedValue);
break;
case BoundsSpecified.Width:
wp.rcNormalPosition_right = wp.rcNormalPosition_left + DoubleUtil.DoubleToInt(convertedValue);
break;
case BoundsSpecified.Top:
// convert input value into work-area co-ods
double newTop = newValue;
// [Get/Set]WindowPlacement work with workarea co-ods for a top level
// window whose WS_EX_TOOLWINDOW bit is clear. If this bit is set,
// then the co-ods are expected to be in screen co-ods of the monitor.
// TransfromWorkAreaScreenArea can transform a point from work area co-ods
// to screen area co-ods and vice versa depending on TransformType value passed.
// So, in our case, if the window is not a ToolWindow we want to transform
// the input value from screen co-ods to work area co-ods.
if ((StyleExFromHwnd & NativeMethods.WS_EX_TOOLWINDOW) == 0)
{
newTop = TransformWorkAreaScreenArea(new Point(0, newTop), TransformType.ScreenAreaToWorkArea).Y;
}
newTop = (LogicalToDeviceUnits(new Point(0, newTop))).Y;
int currentHeight = wp.rcNormalPosition_bottom - wp.rcNormalPosition_top;
wp.rcNormalPosition_top = DoubleUtil.DoubleToInt(newTop);
wp.rcNormalPosition_bottom = wp.rcNormalPosition_top + currentHeight;
break;
case BoundsSpecified.Left:
// convert input value into work-area co-ods
double newLeft = newValue;
// [Get/Set]WindowPlacement work with workarea co-ods for a top level
// window whose WS_EX_TOOLWINDOW bit is clear. If this bit is set,
// then the co-ods are expected to be in screen co-ods of the monitor.
// TransfromWorkAreaScreenArea can transform a point from work area co-ods
// to screen area co-ods and vice versa depending on TransformType value passed.
// So, in our case, if the window is not a ToolWindow we want to transform
// the input value from screen co-ods to work area co-ods.
if ((StyleExFromHwnd & NativeMethods.WS_EX_TOOLWINDOW) == 0)
{
newLeft = TransformWorkAreaScreenArea(new Point(newLeft, 0), TransformType.ScreenAreaToWorkArea).X;
}
newLeft = (LogicalToDeviceUnits(new Point(newLeft, 0))).X;
int currentWidth = wp.rcNormalPosition_right - wp.rcNormalPosition_left;
wp.rcNormalPosition_left = DoubleUtil.DoubleToInt(newLeft);
wp.rcNormalPosition_right = wp.rcNormalPosition_left + currentWidth;
break;
default:
Debug.Assert(false, String.Format("specifiedRestoreBounds can't be {0}", specifiedRestoreBounds));
break;
}
// The showCmd flag retreived by GetWindowPlacement is SW_SHOWMAXIMIZED when the window is maximized.
// If the window is minimized, showCmd is SW_SHOWMINIMIZED. Otherwise, it is SW_SHOWNORMAL, regardless
// of the window's visibility.
// SetWindowPlacement with SW_SHOWMAXIMIZED and SW_SHOWMINIMIZED will cause a hidden window to show.
// To workaround this issue, we check whether the current window is hidden and set showCmd to SW_HIDE if it is.
if (!this._isVisible)
{
wp.showCmd = NativeMethods.SW_HIDE;
}
UnsafeNativeMethods.SetWindowPlacement(new HandleRef(this, CriticalHandle), ref wp);
}
// deltaX = workAreaOriginValue - screenOriginValue (both in virtual co-ods)
// X(screenAreaCood) = x(workAreaCood) + deltaX
/// <SecurityNote>
/// Critical: This code acceses CriticalHandle
/// TreatAsSafe: This code only works under RBW code path , this operation is ok since
/// RBW window is bound to the restrictions of its parent window which is the browser
/// </SecurityNote>
[SecurityCritical,SecurityTreatAsSafe]
private Point TransformWorkAreaScreenArea(Point pt, TransformType transformType)
{
int deltaX = 0;
int deltaY = 0;
Point retPt;
if (!_inTrustedSubWindow)
{
SecurityHelper.DemandUIWindowPermission();
}
// First we get the monitor on which the window is on. [Get/Set]WindowPlacement
// co-ods are dependent on the monitor on which the window is on.
IntPtr hMonitor = SafeNativeMethods.MonitorFromWindow(new HandleRef(this, CriticalHandle), NativeMethods.MONITOR_DEFAULTTONULL);
if (hMonitor != IntPtr.Zero)
{
NativeMethods.MONITORINFOEX monitorInfo = new NativeMethods.MONITORINFOEX();
monitorInfo.cbSize = Marshal.SizeOf(typeof(NativeMethods.MONITORINFOEX));
SafeNativeMethods.GetMonitorInfo(new HandleRef(this, hMonitor), monitorInfo);
NativeMethods.RECT workAreaRect = monitorInfo.rcWork;
NativeMethods.RECT screenAreaRect = monitorInfo.rcMonitor;
deltaX = workAreaRect.left - screenAreaRect.left;
deltaY = workAreaRect.top - screenAreaRect.top;
}
if (transformType == TransformType.WorkAreaToScreenArea)
{
retPt = new Point(pt.X + deltaX, pt.Y + deltaY);
}
else
{
retPt = new Point(pt.X - deltaX, pt.Y - deltaY);
}
return retPt;
}
// Hua Wang: The logic for coerce Top & Left
// 1. Before Window is first shown (w.IsSourceWindowNull == false)
// The value can come from 3 parties
// a. default
// b. SetValue
// c. Style, trigger...
// In all those 3 cases, we would like to pass the value because we don't have a
// different value from hwnd before it is shown.
//
// To understarnd the below 2 cases better, you will need to know the Window position API precedence as following:
// WindowState > WindowStartupLocation (only works the first time shown) > Top/Left
//
// 2. During show
// There are 3 places that can coerce value during show. Right now they are all in
// SetupInitialState.
// a. After CreateWindowEx.
// i. We should always update with the win32 default position when it is Nan.
// ii. If WindowState is maxmized, we should always return from the hwnd (_actualTop/Left),
// but update the hwnd restorebounds. So setting Top/Left WindowState to to Maxmized before show would
// work for restorebounds (details in bug 1217802).
// b. If Top/Left is set and/or WindowStartupLocation is effective.
// WindowState must be normal here because it takes precedence over WindowStartupLocation and Top/Left.
// Since WindowStartupLocation only works the first time shown, we have a flag (_updateStartupLocation)
// to help indicating that.
// If StartupLocation is effective, we should return from the hwnd (_actualTop/Left).
// c. If SizeToContent is set and WindowStartupLocation is effective.
// Same as b.
//
// 3. After show
// a. User moves the Window.
// If user resize, we set local value (SetValue).
// b. User maximizes or minimizes. Or WindowState is changed programmtically
// We coerce Top and Left's value when WindowState is changed no matter whether it is
// from user action or programmtically.
// c. SetValue
//
// For b and c, when WindowState is max or min, the hwnd value should always be returned.
// The new value should be set as restorebounds. Otherwise update with the new value.
//
// Note: as we can see from above logic, _actualTop/Left should always be updated with the current hwnd position before we
// coerce Top and Left after hwnd is created.
private static object CoerceTop(DependencyObject d, object value)
{
Window w = d as Window;
// this call ends up throwing an exception if accessing Top
// is not allowed
w.VerifyApiSupported();
double top = (double)value;
// WOSB 1018227: Move ValidateTopLeft calls from property
// invalidation callback to PropertyMetadata
ValidateTopLeft(top);
if (w.IsSourceWindowNull || w.IsCompositionTargetInvalid)
{
return value;
}
if (double.IsNaN(top))
{
return w._actualTop;
}
if (w.WindowState != WindowState.Normal)
{
return value;
}
if (w._updateStartupLocation && (w.WindowStartupLocation != WindowStartupLocation.Manual))
{
return w._actualTop;
}
return value;
}
private static void _OnTopChanged (DependencyObject d , DependencyPropertyChangedEventArgs e)
{
Window w = d as Window;
Debug.Assert( w != null, "DependencyObject must be of type Window." );
if (w._updateHwndLocation)
{
w.OnTopChanged((double) e.NewValue);
}
}
private void OnTopChanged(double newTop)
{
// Adding check for IsCompositionTargetInvalid as part of the fix for WOSB 1453012
if (IsSourceWindowNull == false && IsCompositionTargetInvalid == false)
{
// NaN is special and indicates using Win32 default,
// so we exclude that.
if (DoubleUtil.IsNaN(newTop) == false)
{
if (WindowState == WindowState.Normal)
{
Invariant.Assert(!Double.IsNaN(_actualLeft), "_actualLeft cannot be NaN after show");
UpdateHwndPositionOnTopLeftChange(Double.IsNaN(Left) ? _actualLeft : Left, newTop);
}
else
{
UpdateHwndRestoreBounds(newTop, BoundsSpecified.Top);
}
}
}
else
{
// here the value is stored as measure units as newTop is in measure/logical units
_actualTop = newTop;
}
}
// Please see comments for CoerceTop.
private static object CoerceLeft(DependencyObject d, object value)
{
Window w = d as Window;
// this call ends up throwing an exception if setting property is not allowed
w.VerifyApiSupported();
double left = (double)value;
// WOSB 1018227: Move ValidateTopLeft calls from property
// invalidation callback to PropertyMetadata
ValidateTopLeft(left);
if (w.IsSourceWindowNull || w.IsCompositionTargetInvalid)
{
return value;
}
if (double.IsNaN(left))
{
return w._actualLeft;
}
if (w.WindowState != WindowState.Normal)
{
return value;
}
if (w._updateStartupLocation && (w.WindowStartupLocation != WindowStartupLocation.Manual))
{
return w._actualLeft;
}
return value;
}
private static void _OnLeftChanged (DependencyObject d, DependencyPropertyChangedEventArgs e)
{
Window w = d as Window;
Debug.Assert( w != null, "DependencyObject must be of type Window." );
if (w._updateHwndLocation)
{
w.OnLeftChanged((double) e.NewValue);
}
}
// _actualLeft is used to determine if LocationChanged should be fired in WMMoveChagnged.
// We need it b/c we need to remember the last hwnd Left location to decide whether
// we need to fire the event or not. Why do we need to update here? Well, for the following
// scenario:
// Window w = new Window();
// w.Left = 100;
// w.WindowStyle = WindowStyle.None;
// w.Show();
//
// In this case, we want to not fire LocationChanged from SetWindowPos called called
// from CorrectStyleForBorderlessWindowCase().
//
// _actualLeft is update from the following places:
//
//
// 1) In WM_MOVE handler
//
// 2) In OnLeftChanged for the case when the hwnd is not created yet.
//
// 3) SetupInitialState
private void OnLeftChanged(double newLeft)
{
// Adding check for IsCompositionTargetInvalid as part of the fix for WOSB 1453012
if (IsSourceWindowNull == false && IsCompositionTargetInvalid == false)
{
// NaN is special and indicates using Win32 default,
// so we exclude that here.
if (DoubleUtil.IsNaN(newLeft) == false)
{
if (WindowState == WindowState.Normal)
{
Invariant.Assert(!Double.IsNaN(_actualTop), "_actualTop cannot be NaN after show");
UpdateHwndPositionOnTopLeftChange(newLeft, Double.IsNaN(Top) ? _actualTop : Top);
}
else
{
UpdateHwndRestoreBounds(newLeft, BoundsSpecified.Left);
}
}
}
else
{
// here the value is stored as measure units as newLeft is in measure/logical units
_actualLeft = newLeft;
}
}
/// <SecurityNote>
/// Critical: This code accesses Hwnd and can be used to reposition window
/// TreatAsSafe: Will not work on any window in partial trust
/// </SecurityNote>
[SecurityCritical,SecurityTreatAsSafe]
private void UpdateHwndPositionOnTopLeftChange(double leftLogicalUnits, double topLogicalUnits)
{
Debug.Assert( IsSourceWindowNull == false , "IsSourceWindowNull cannot be true when calling this function");
SecurityHelper.DemandUIWindowPermission();
Point ptDeviceUnits = LogicalToDeviceUnits(new Point(leftLogicalUnits, topLogicalUnits));
UnsafeNativeMethods.SetWindowPos(new HandleRef(this, CriticalHandle),
new HandleRef(null, IntPtr.Zero),
DoubleUtil.DoubleToInt(ptDeviceUnits.X),
DoubleUtil.DoubleToInt(ptDeviceUnits.Y),
0,
0,
NativeMethods.SWP_NOSIZE | NativeMethods.SWP_NOZORDER | NativeMethods.SWP_NOACTIVATE
);
}
private static bool _ValidateResizeModeCallback(object value)
{
return IsValidResizeMode((ResizeMode)value);
}
private static void _OnResizeModeChanged (DependencyObject d, DependencyPropertyChangedEventArgs e)
{
Window w = d as Window;
Debug.Assert( w != null, "DependencyObject must be of type Window." );
w.OnResizeModeChanged();
}
private void OnResizeModeChanged()
{
// this call ends up throwing an exception if accessing
// ResizeMode is not allowed
VerifyApiSupported();
// Adding check for IsCompositionTargetInvalid as part of the fix for WOSB 1453012
if ( IsSourceWindowNull == false && IsCompositionTargetInvalid == false)
{
using (HwndStyleManager sm = HwndStyleManager.StartManaging(this, StyleFromHwnd, StyleExFromHwnd ))
{
CreateResizibility();
}
}
}
private static object VerifyAccessCoercion(DependencyObject d, object value)
{
// this call ends up throwing an exception if setting property is not allowed
((Window)d).VerifyApiSupported();
return value;
}
private static void _OnFlowDirectionChanged(DependencyObject d, DependencyPropertyChangedEventArgs e)
{
Window w = d as Window;
Debug.Assert(w != null, "DependencyObject must be of type Window.");
w.OnFlowDirectionChanged();
}
/// <summary>
/// Right to Left
/// </summary>
private void OnFlowDirectionChanged()
{
// Adding check for IsCompositionTargetInvalid as part of the fix for WOSB 1453012
if (IsSourceWindowNull == false && IsCompositionTargetInvalid == false)
{
using (HwndStyleManager sm = HwndStyleManager.StartManaging(this, StyleFromHwnd, StyleExFromHwnd ))
{
CreateRtl();
}
}
}
private static object CoerceRenderTransform(DependencyObject d, object value)
{
Transform renderTransformValue = (Transform)value;
if ((value == null) ||
(renderTransformValue != null && renderTransformValue.Value != null && renderTransformValue.Value.IsIdentity == true))
{
// setting this value is allowed.
}
else
{
throw new InvalidOperationException(SR.Get(SRID.TransformNotSupported));
}
return value;
}
private static void _OnRenderTransformChanged(DependencyObject d, DependencyPropertyChangedEventArgs e)
{
}
private static object CoerceClipToBounds(DependencyObject d, object value)
{
if ((bool)value != false)
{
throw new InvalidOperationException(SR.Get(SRID.ClipToBoundsNotSupported));
}
return value;
}
private static void _OnClipToBoundsChanged(DependencyObject d, DependencyPropertyChangedEventArgs e)
{
}
/// <summary>
/// Get or create the hidden window used for parenting when ShowInTaskbar == false.
/// </summary>
///<SecurityNote>
/// Critical as this code modifies critical fields and returns an HwndWrapper.
///</SecurityNote>
[SecurityCritical]
private HwndWrapper EnsureHiddenWindow()
{
if (_hiddenWindow == null)
{
_hiddenWindow = new HwndWrapper(
0, // classStyle
NativeMethods.WS_OVERLAPPEDWINDOW, // style
0, // exStyle
NativeMethods.CW_USEDEFAULT, // x
NativeMethods.CW_USEDEFAULT, // y
NativeMethods.CW_USEDEFAULT, // width
NativeMethods.CW_USEDEFAULT, // height
"Hidden Window", // name
IntPtr.Zero,
null
);
}
return _hiddenWindow;
}
/// <summary>
/// sets taskbar status
/// </summary>
///<SecurityNote>
/// Critical as this code calls critical members.
/// TreatAsSafe as - if ShowInTaskbar == false we demand unmanaged code permission.
/// if ShowInTaskbar == true this is considered TAS. No new "critical data" created.
///</SecurityNote>
[SecurityCritical, SecurityTreatAsSafe ]
private void SetTaskbarStatus()
{
if (ShowInTaskbar == false) // don't show in taskbar
{
// To remove the taskbar button for this window it needs to have a non-null parent
// (we'll create a hidden window for this purpose) and not have WS_EX_APPWINDOW
SecurityHelper.DemandUIWindowPermission();
// Create this now, even if we're not currently going to parent it.
// If the Owner changes, we'll need to switch to this.
EnsureHiddenWindow();
// when this window is unowned
if (_ownerHandle == IntPtr.Zero)
{
SetOwnerHandle(_hiddenWindow.Handle);
// When we do this parenting trick on XP the alt-tab icon for the window takes on
// the parent's icon. To keep things working right we need to apply Icon to the
// hidden window. On Vista this is redundant.
if (!(IsSourceWindowNull || IsCompositionTargetInvalid))
{
UpdateIcon();
}
}
_StyleEx &= ~NativeMethods.WS_EX_APPWINDOW;
}
else // (ShowInTaskbar == true) show in task bar
{
_StyleEx |= NativeMethods.WS_EX_APPWINDOW;
if( ! IsSourceWindowNull )
{
if ((_hiddenWindow != null) && (_ownerHandle == _hiddenWindow.Handle))
{
SetOwnerHandle(IntPtr.Zero);
}
}
}
}
/// <SecurityNote>
/// Critical: This code calls accesses critical object CriticalHandle and calls UnsafeNativeMethods.
/// </SecurityNote>
[SecurityCritical]
private void OnTaskbarRetryTimerTick(object sender, EventArgs e)
{
UnsafeNativeMethods.PostMessage(new HandleRef(this, CriticalHandle), WM_APPLYTASKBARITEMINFO, IntPtr.Zero, IntPtr.Zero);
}
/// <SecurityNote>
/// Critical: This code calls accesses critical object _taskbarList.
/// </SecurityNote>
[SecurityCritical]
private void ApplyTaskbarItemInfo()
{
if (!Utilities.IsOSWindows7OrNewer)
{
if (TraceShell.IsEnabled)
{
TraceShell.Trace(TraceEventType.Warning, TraceShell.NotOnWindows7);
}
return;
}
// If the Window hasn't yet been shown then these calls will fail.
// We'll try this again when the WM_TASKBARBUTTONCREATED message gets sent.
if (IsSourceWindowNull || IsCompositionTargetInvalid)
{
return;
}
// If the taskbar has timed out in the last minute, don't try to do this again.
if (_taskbarRetryTimer != null && _taskbarRetryTimer.IsEnabled)
{
return;
}
if (_taskbarList == null)
{
// If we don't have a handle and there isn't a TaskbarItemInfo, then we don't have anything to apply or remove.
if (TaskbarItemInfo == null)
{
return;
}
ITaskbarList taskbarList = null;
try
{
taskbarList = (ITaskbarList)Activator.CreateInstance(Type.GetTypeFromCLSID(new Guid(CLSID.TaskbarList)));
taskbarList.HrInit();
// This QI will only work on Win7.
_taskbarList = (ITaskbarList3)taskbarList;
taskbarList = null;
}
finally
{
Utilities.SafeRelease(ref taskbarList);
}
// Don't use SystemParameters here. We need pixels.
_overlaySize = new Size(
UnsafeNativeMethods.GetSystemMetrics(SM.CXSMICON),
UnsafeNativeMethods.GetSystemMetrics(SM.CYSMICON));
// IsEmpty is inclusive, in case either of these succeeded it would pass...
Debug.Assert(0 != (int)_overlaySize.Width);
Debug.Assert(0 != (int)_overlaySize.Height);
// When we detect that Explorer is nonresponsive, use this to defer further attempts
// at updating the TaskbarList until a specified amount of time (1 minute)
if (_taskbarRetryTimer == null)
{
_taskbarRetryTimer = new DispatcherTimer { Interval = new TimeSpan(0, 1, 0) };
// Explorer being hung should be a transient issue. Post back to apply the full TaskbarItemInfo.
_taskbarRetryTimer.Tick += OnTaskbarRetryTimerTick;
}
}
// Apply (or clear) all aspects of the TaskbarItemInfo to this Window.
HRESULT hr = HRESULT.S_OK;
hr = RegisterTaskbarThumbButtons();
if (hr.Succeeded)
{
// Updating the state will also update the value, so don't call UpdateTaskbarProgressValue.
hr = UpdateTaskbarProgressState();
}
if (hr.Succeeded)
{
hr = UpdateTaskbarOverlay();
}
if (hr.Succeeded)
{
hr = UpdateTaskbarDescription();
}
if (hr.Succeeded)
{
hr = UpdateTaskbarThumbnailClipping();
}
if (hr.Succeeded)
{
hr = UpdateTaskbarThumbButtons();
}
// We'll asynchronously retry if we failed initially setting up the TaskbarItemInfo.
HandleTaskbarListError(hr);
}
/// <SecurityNote>
/// Critical: This code calls methods on native interface ITaskbarList3 and accesses CriticalHandle
/// </SecurityNote>
[SecurityCritical]
private HRESULT UpdateTaskbarProgressState()
{
Debug.Assert(null != _taskbarList);
TaskbarItemInfo taskbarInfo = TaskbarItemInfo;
TBPF tbpf = TBPF.NOPROGRESS;
if (taskbarInfo != null)
{
switch (taskbarInfo.ProgressState)
{
case TaskbarItemProgressState.Error:
tbpf = TBPF.ERROR;
break;
case TaskbarItemProgressState.Indeterminate:
tbpf = TBPF.INDETERMINATE;
break;
case TaskbarItemProgressState.None:
tbpf = TBPF.NOPROGRESS;
break;
case TaskbarItemProgressState.Normal:
tbpf = TBPF.NORMAL;
break;
case TaskbarItemProgressState.Paused:
tbpf = TBPF.PAUSED;
break;
default:
// The coercion should have caught this.
Debug.Assert(false);
tbpf = TBPF.NOPROGRESS;
break;
}
}
HRESULT hr = _taskbarList.SetProgressState(CriticalHandle, tbpf);
if (hr.Succeeded)
{
// Explicitly update this in case this property being set
// to None or Indeterminate before made the value not update.
hr = UpdateTaskbarProgressValue();
}
return hr;
}
/// <SecurityNote>
/// Critical: This code calls methods on native interface ITaskbarList3 and accesses CriticalHandle
/// </SecurityNote>
[SecurityCritical]
private HRESULT UpdateTaskbarProgressValue()
{
Debug.Assert(null != _taskbarList);
TaskbarItemInfo taskbarInfo = TaskbarItemInfo;
// If we're not attached then don't modify this.
if (taskbarInfo == null
|| taskbarInfo.ProgressState == TaskbarItemProgressState.None
|| taskbarInfo.ProgressState == TaskbarItemProgressState.Indeterminate)
{
return HRESULT.S_OK;
}
const ulong precisionValue = 1000;
// The coercion should enforce this.
Debug.Assert(0 <= taskbarInfo.ProgressValue && taskbarInfo.ProgressValue <= 1);
var intValue = (ulong)(taskbarInfo.ProgressValue * precisionValue);
return _taskbarList.SetProgressValue(CriticalHandle, intValue, precisionValue);
}
/// <SecurityNote>
/// Critical: This code calls methods on native interface ITaskbarList3 and accesses CriticalHandle
/// </SecurityNote>
[SecurityCritical]
private HRESULT UpdateTaskbarOverlay()
{
Debug.Assert(null != _taskbarList);
TaskbarItemInfo taskbarInfo = TaskbarItemInfo;
NativeMethods.IconHandle hicon = NativeMethods.IconHandle.GetInvalidIcon();
// The additional string at the end of SetOverlayIcon sets the accDescription
// for screen readers. We don't currently have a property that utilizes this.
try
{
if (null != taskbarInfo && null != taskbarInfo.Overlay)
{
hicon = IconHelper.CreateIconHandleFromImageSource(taskbarInfo.Overlay, _overlaySize);
}
return _taskbarList.SetOverlayIcon(CriticalHandle, hicon, null);
}
finally
{
hicon.Dispose();
}
}
/// <SecurityNote>
/// Critical: This code calls methods on native interface ITaskbarList3 and accesses CriticalHandle
/// </SecurityNote>
[SecurityCritical]
private HRESULT UpdateTaskbarDescription()
{
Debug.Assert(null != _taskbarList);
TaskbarItemInfo taskbarInfo = TaskbarItemInfo;
string tooltip = "";
if (taskbarInfo != null)
{
tooltip = taskbarInfo.Description ?? "";
}
return _taskbarList.SetThumbnailTooltip(CriticalHandle, tooltip);
}
/// <SecurityNote>
/// Critical: This code calls methods on native interface ITaskbarList3 and accesses CriticalHandle
/// TreatAsSafe: This function returns immediately if the ITaskbarList3 handle is invalid. It would
/// only be created in a critical context.
/// </SecurityNote>
[SecurityCritical, SecurityTreatAsSafe]
private HRESULT UpdateTaskbarThumbnailClipping()
{
// If TaskbarItemInfo isn't attached and active then there's nothing to do here.
if (_taskbarList == null)
{
return HRESULT.S_OK;
}
if (_taskbarRetryTimer != null && _taskbarRetryTimer.IsEnabled)
{
// Explorer appears to be hung. Don't try this.
return HRESULT.S_FALSE;
}
// Don't count on Window properties being in sync at the time of this call.
// Just use native methods to check
if (UnsafeNativeMethods.IsIconic(CriticalHandle))
{
// If the window is minimized then don't try to update the clip.
return HRESULT.S_FALSE;
}
TaskbarItemInfo taskbarInfo = TaskbarItemInfo;
NativeMethods.RefRECT interopRc = null;
// If the taskbarInfo isn't available then remove any clipping.
if (taskbarInfo != null && !taskbarInfo.ThumbnailClipMargin.IsZero)
{
Thickness margin = taskbarInfo.ThumbnailClipMargin;
// Use the native GetClientRect. Window.ActualWidth and .ActualHeight include the non-client areas.
NativeMethods.RECT physicalClientRc = default(NativeMethods.RECT);
SafeNativeMethods.GetClientRect(new HandleRef(this, CriticalHandle), ref physicalClientRc);
var logicalClientRc = new Rect(
DeviceToLogicalUnits(new Point(physicalClientRc.left, physicalClientRc.top)),
DeviceToLogicalUnits(new Point(physicalClientRc.right, physicalClientRc.bottom)));
// Crop the clipping to ensure that the margin doesn't overlap itself.
if (margin.Left + margin.Right >= logicalClientRc.Width
|| margin.Top + margin.Bottom >= logicalClientRc.Height)
{
// Empty client rectangle is different than no clipping applied.
interopRc = new NativeMethods.RefRECT(0, 0, 0, 0);
}
else
{
var physicalClip = new Rect(
LogicalToDeviceUnits(new Point(margin.Left, margin.Top)),
LogicalToDeviceUnits(new Point(logicalClientRc.Width - margin.Right, logicalClientRc.Height - margin.Bottom)));
interopRc = new NativeMethods.RefRECT((int)physicalClip.Left, (int)physicalClip.Top, (int)physicalClip.Right, (int)physicalClip.Bottom);
}
}
return _taskbarList.SetThumbnailClip(CriticalHandle, interopRc);
}
/// <SecurityNote>
/// Critical: This code calls methods on native interface ITaskbarList3 and accesses CriticalHandle
/// </SecurityNote>
[SecurityCritical]
private HRESULT RegisterTaskbarThumbButtons()
{
Debug.Assert(null != _taskbarList);
// The ITaskbarList3 API requires that the maximum number of buttons to ever be used
// are registered at the beginning. Modifications can be made to this list later.
var nativeButtons = new THUMBBUTTON[c_MaximumThumbButtons];
for (int i = 0; i < c_MaximumThumbButtons; ++i)
{
nativeButtons[i] = new THUMBBUTTON
{
iId = (uint)i,
dwFlags = THBF.NOBACKGROUND | THBF.DISABLED | THBF.HIDDEN | THBF.NONINTERACTIVE,
dwMask = THB.FLAGS | THB.ICON | THB.TOOLTIP
};
}
// If this gets called (successfully) more than once it usually returns E_INVALIDARG. It's not really
// a failure and we potentially want to retry this operation.
HRESULT hr = _taskbarList.ThumbBarAddButtons(CriticalHandle, (uint)nativeButtons.Length, nativeButtons);
if (hr == HRESULT.E_INVALIDARG)
{
hr = HRESULT.S_FALSE;
}
return hr;
}
/// <SecurityNote>
/// Critical: This code calls methods on native interface ITaskbarList3 and accesses CriticalHandle
/// </SecurityNote>
[SecurityCritical]
private HRESULT UpdateTaskbarThumbButtons()
{
Debug.Assert(null != _taskbarList);
var nativeButtons = new THUMBBUTTON[c_MaximumThumbButtons];
TaskbarItemInfo taskbarInfo = TaskbarItemInfo;
ThumbButtonInfoCollection thumbButtons = null;
if (taskbarInfo != null)
{
thumbButtons = taskbarInfo.ThumbButtonInfos;
}
var nativeIcons = new List<NativeMethods.IconHandle>();
try
{
uint currentButton = 0;
if (null != thumbButtons)
{
foreach (ThumbButtonInfo wrappedTB in thumbButtons)
{
var nativeTB = new THUMBBUTTON
{
iId = (uint)currentButton,
dwMask = THB.FLAGS | THB.TOOLTIP | THB.ICON,
};
switch (wrappedTB.Visibility)
{
case Visibility.Collapsed:
// HIDDEN removes the button from layout logic.
nativeTB.dwFlags = THBF.HIDDEN;
break;
case Visibility.Hidden:
// To match WPF's notion of hidden, we want this not HIDDEN
// but disabled, without background, and without icon.
nativeTB.dwFlags = THBF.DISABLED | THBF.NOBACKGROUND;
nativeTB.hIcon = IntPtr.Zero;
break;
default:
case Visibility.Visible:
nativeTB.szTip = wrappedTB.Description ?? "";
if (wrappedTB.ImageSource != null)
{
NativeMethods.IconHandle nativeIcon = IconHelper.CreateIconHandleFromImageSource(wrappedTB.ImageSource, _overlaySize);
nativeTB.hIcon = nativeIcon.CriticalGetHandle();
nativeIcons.Add(nativeIcon);
}
if (!wrappedTB.IsBackgroundVisible)
{
nativeTB.dwFlags |= THBF.NOBACKGROUND;
}
if (!wrappedTB.IsEnabled)
{
nativeTB.dwFlags |= THBF.DISABLED;
}
else
{
nativeTB.dwFlags |= THBF.ENABLED;
}
// This is separate from enabled/disabled
if (!wrappedTB.IsInteractive)
{
nativeTB.dwFlags |= THBF.NONINTERACTIVE;
}
if (wrappedTB.DismissWhenClicked)
{
nativeTB.dwFlags |= THBF.DISMISSONCLICK;
}
break;
}
nativeButtons[currentButton] = nativeTB;
++currentButton;
if (currentButton == c_MaximumThumbButtons)
{
break;
}
}
}
// If we're not attached, or the list is less than the maximum number of buttons
// then fill in the rest with collapsed, empty buttons.
for (; currentButton < c_MaximumThumbButtons; ++currentButton)
{
nativeButtons[currentButton] = new THUMBBUTTON
{
iId = (uint)currentButton,
dwFlags = THBF.NOBACKGROUND | THBF.DISABLED | THBF.HIDDEN,
dwMask = THB.FLAGS | THB.ICON | THB.TOOLTIP
};
}
// Finally, apply the update.
return _taskbarList.ThumbBarUpdateButtons(CriticalHandle, (uint)nativeButtons.Length, nativeButtons);
}
finally
{
foreach (var icon in nativeIcons)
{
icon.Dispose();
}
}
}
private void CreateRtl()
{
if ( this.FlowDirection == FlowDirection.LeftToRight )
{
_StyleEx &= ~NativeMethods.WS_EX_LAYOUTRTL;
}
else if ( this.FlowDirection == FlowDirection.RightToLeft )
{
_StyleEx |= NativeMethods.WS_EX_LAYOUTRTL;
}
else
{
throw new InvalidOperationException(SR.Get(SRID.IncorrectFlowDirection));
}
}
/// <summary>
/// Updates both style and styleEx for the window
///
///
[SecurityCritical,SecurityTreatAsSafe]
internal void Flush()
{
// hamidm - 07/13/2005: WOSB 1178019 (A NullReferenceException occurs when animating
// the WindowStyle enum via a custom animation). This bug contains details of
// why we were seeing the null ref.
//
// Sometimes, the SetWindowPos call below results in sending certain window messages
// like (WM_SIZE) and their handling leads to setting some property on the Window leading
// to a call to HwndStyleManager.StartManaging. Thus, we end up calling
// dispose on the "new" usage of the Manager before we complete this run of Flush method.
// This resulted in null ref in setting the Dirty bit below since we were not using
// a local copy and the window member copy was already set to null by the "new" usage
// of Manager. To fix this bug, we do the following two things:
//
// 1) Keep a local copy of HwndStyleManager in this method to make it re-entrant.
// 2) null out _window.Manager in HwndStyleMangager.Dispose only if _window.Manager is
// this instance of the Manager.
//
HwndStyleManager manager = Manager;
if (manager.Dirty && CriticalHandle != IntPtr.Zero)
{
UnsafeNativeMethods.CriticalSetWindowLong(new HandleRef(this,CriticalHandle), NativeMethods.GWL_STYLE, (IntPtr)_styleDoNotUse.Value);
UnsafeNativeMethods.CriticalSetWindowLong(new HandleRef(this,CriticalHandle), NativeMethods.GWL_EXSTYLE, (IntPtr)_styleExDoNotUse.Value);
UnsafeNativeMethods.SetWindowPos(new HandleRef(this, CriticalHandle), NativeMethods.NullHandleRef, 0, 0, 0, 0,
NativeMethods.SWP_NOMOVE |
NativeMethods.SWP_NOSIZE |
NativeMethods.SWP_NOZORDER |
NativeMethods.SWP_FRAMECHANGED |
NativeMethods.SWP_DRAWFRAME |
NativeMethods.SWP_NOACTIVATE);
manager.Dirty = false;
}
}
private void ClearRootVisual()
{
if (_swh != null)
{
_swh.ClearRootVisual();
}
}
private NativeMethods.POINT GetPointRelativeToWindow( int x, int y )
{
return _swh.GetPointRelativeToWindow( x, y, this.FlowDirection);
}
// If you're in the middle of changing the window's _style or _styleEx and call this function,
// you may get inconsistent results.
private Size GetHwndNonClientAreaSizeInMeasureUnits()
{
// HwndSource expands the client area to cover the entire window when it is in UsesPerPixelOpacity mode,
// So non client area is (0,0)
return AllowsTransparency ? new Size(0, 0) : _swh.GetHwndNonClientAreaSizeInMeasureUnits();
}
///<SecurityNote>
/// Critical as this method accesses critical data.
/// TreatAsSafe - this method "eliminates" critical data - ergo considered safe.
///</SecurityNote>
[SecurityCritical, SecurityTreatAsSafe]
private void ClearSourceWindow()
{
if (_swh != null)
{
try
{
_swh.RemoveDisposedHandler(OnSourceWindowDisposed);
}
finally
{
HwndSource source = _swh.HwndSourceWindow;
_swh = null;
if (source != null)
{
source.SizeToContentChanged -= new EventHandler(OnSourceSizeToContentChanged);
}
}
}
}
/// <SecurityNote>
/// Critical - accesses _ownerHandle and SetOwnerHandle.
/// TreatAsSafe - doesn't disclose _ownerHandle; setting parent's handle to IntPtr.Zero is considered a safe operation.
/// </SecurityNote>
[SecurityCritical,SecurityTreatAsSafe]
private void ClearHiddenWindowIfAny()
{
// If there is a hiddenWindow and it's the owner of the current one as the result of setting ShowInTaskbar,
// we need to unparent it. Because when we dipose the hiddenWindow, if it's still the parent
// of the current window, the current Window will get a second WM_DESTORY because its owner being distoried.
// See detail in bug 953988.
// Unparent it in WM_CLOSE because when we get to WM_DESTROY, _sourceWindow.Handle could be IntPtr.Zero;
// InternalDispose() is where _hiddenWindow is disposed. It could be called from two places: 1. WmDestroy 2. OnSourceWindowDisposed.
// When it's called from OnSourceWindowDisposed, _sourceWindow.Handle could have been set to IntPtr.Zero.
if ((_hiddenWindow != null) && (_hiddenWindow.Handle == _ownerHandle))
{
SetOwnerHandle(IntPtr.Zero);
}
}
private void VerifyConsistencyWithAllowsTransparency()
{
if (AllowsTransparency)
{
VerifyConsistencyWithAllowsTransparency(WindowStyle);
}
}
private void VerifyConsistencyWithAllowsTransparency(WindowStyle style)
{
if (AllowsTransparency && style != WindowStyle.None)
{
throw new InvalidOperationException(SR.Get(SRID.MustUseWindowStyleNone));
}
}
/// <SecurityNote>
/// Ciritical - accesses _inTrustedSubWindow.
/// TreatAsSafe - doesn't reveal _inTrustedSubWindow.
/// </SecurityNote>
[SecurityCritical, SecurityTreatAsSafe]
private void VerifyConsistencyWithShowActivated()
{
//
// We don't support to show a maximized non-activated window.
// Don't check this consistency in a RBW (would break because Visibility is set when launching the RBW).
//
if (!_inTrustedSubWindow && WindowState == WindowState.Maximized && !ShowActivated)
throw new InvalidOperationException(SR.Get(SRID.ShowNonActivatedAndMaximized));
}
private static bool IsValidSizeToContent(SizeToContent value)
{
return value == SizeToContent.Manual ||
value == SizeToContent.Width ||
value == SizeToContent.Height ||
value == SizeToContent.WidthAndHeight;
}
private static bool IsValidResizeMode(ResizeMode value)
{
return value == ResizeMode.NoResize
|| value == ResizeMode.CanMinimize
|| value == ResizeMode.CanResize
|| value == ResizeMode.CanResizeWithGrip;
}
private static bool IsValidWindowStartupLocation(WindowStartupLocation value)
{
return value == WindowStartupLocation.CenterOwner
|| value == WindowStartupLocation.CenterScreen
|| value == WindowStartupLocation.Manual;
}
private static bool IsValidWindowState(WindowState value)
{
return value == WindowState.Maximized
|| value == WindowState.Minimized
|| value == WindowState.Normal;
}
private static bool IsValidWindowStyle(WindowStyle value)
{
return value == WindowStyle.None
|| value == WindowStyle.SingleBorderWindow
|| value == WindowStyle.ThreeDBorderWindow
|| value == WindowStyle.ToolWindow;
}
#endregion Private Methods
#region Manipulation Boundary Feedback
/// <summary>
/// Provides feedback when a manipulation has encountered a boundary by nudging the window.
/// </summary>
/// <remarks>
/// PanningFeedback is reported on Handle of the Window using Begin/Update/EndPanningFeedback
/// APIs. When the Handle reported to these APIs is not of a top-level window, these APIs
/// do a GetAncestor call to get the top-level window and apply the effect of it. For eg.
/// in the case of XBAPs we report the feedback to the Handle of RootBrowserWindow which is
/// a child window, but still the panning feedback effect gets applied to the browser window
/// itself. Security wise this also assumes that PanningFeedback will not move the Window
/// by an arbitrary distance.
/// </remarks>
protected override void OnManipulationBoundaryFeedback(ManipulationBoundaryFeedbackEventArgs e)
{
base.OnManipulationBoundaryFeedback(e);
// If the original source is not from the same PresentationSource as of the Window,
// then do not act on the PanningFeedback.
if (!PresentationSource.UnderSamePresentationSource(e.OriginalSource as DependencyObject, this))
{
return;
}
if (!e.Handled)
{
if (_currentPanningTarget == null ||
!_currentPanningTarget.IsAlive ||
_currentPanningTarget.Target != e.OriginalSource)
{
if (_swh != null)
{
// Cache location if starting the panning feedback.
// Using SourceWindowHelper.WindowBounds instead of Window.Left
// and Window.Top so that the implementation works with
// RootBrowserWindow.
NativeMethods.RECT rc = WindowBounds;
_prePanningLocation = DeviceToLogicalUnits(new Point(rc.left, rc.top));
}
}
ManipulationDelta manipulation = e.BoundaryFeedback;
UpdatePanningFeedback(manipulation.Translation, e.OriginalSource);
e.CompensateForBoundaryFeedback = CompensateForPanningFeedback;
}
}
private static void OnStaticManipulationInertiaStarting(object sender, ManipulationInertiaStartingEventArgs e)
{
Window window = sender as Window;
if (window != null)
{
// Transitioning from direct manipulation to inertia, animate the window
// back to its original position.
window.EndPanningFeedback(true);
}
}
private static void OnStaticManipulationCompleted(object sender, ManipulationCompletedEventArgs e)
{
Window window = sender as Window;
if (window != null)
{
// A complete was encountered. If this was a forced complete, snap the window
// back to its original position.
window.EndPanningFeedback(false);
}
}
/// <summary>
/// Provides feedback by nudging the window.
/// </summary>
/// <SecurityNote>
/// Critical - Accesses _swh
/// TreatAsSafe - Does not expose protected values. Panning feedback does not translate
/// totalOverpanOffset 1:1 into a window offset. The value is scaled and clamped.
/// </SecurityNote>
[SecurityCritical, SecurityTreatAsSafe]
private void UpdatePanningFeedback(Vector totalOverpanOffset, object originalSource)
{
if ((_currentPanningTarget != null) && !_currentPanningTarget.IsAlive)
{
// The old source is gone, end any pending feedback
_currentPanningTarget = null;
EndPanningFeedback(false);
}
if (_swh != null)
{
if (_currentPanningTarget == null)
{
// Provide feedback for this source's events
_currentPanningTarget = new WeakReference(originalSource);
}
// Only provide feedback for one source at a time
if (originalSource == _currentPanningTarget.Target)
{
// Update the window position
_swh.UpdatePanningFeedback(totalOverpanOffset, false);
}
}
}
/// <summary>
/// Returns the window to its original position.
/// </summary>
/// <SecurityNote>
/// Critical - Accesses _swh
/// TreatAsSafe - Restores the window back to its original position, which is safe.
/// Doesn't expose _swh.
/// </SecurityNote>
[SecurityCritical, SecurityTreatAsSafe]
private void EndPanningFeedback(bool animateBack)
{
if (_swh != null)
{
// Restore the window to its original position
_swh.EndPanningFeedback(animateBack);
}
_currentPanningTarget = null;
_prePanningLocation = new Point(double.NaN, double.NaN);
}
/// <summary>
/// Method to compensate a point for PanningFeedback.
/// </summary>
Point CompensateForPanningFeedback(Point point)
{
if (!double.IsNaN(_prePanningLocation.X) && !double.IsNaN(_prePanningLocation.Y) && (_swh != null))
{
// transform the point to pre pan coordinate system
NativeMethods.RECT rc = WindowBounds;
Point windowLocation = DeviceToLogicalUnits(new Point(rc.left, rc.top));
return new Point(point.X - (_prePanningLocation.X - windowLocation.X), point.Y - (_prePanningLocation.Y - windowLocation.Y));
}
return point;
}
#endregion
//----------------------------------------------
//
// Private Properties
//
//----------------------------------------------
#region Private Properties
private SizeToContent HwndSourceSizeToContent
{
get
{
return _swh.HwndSourceSizeToContent;
}
set
{
_swh.HwndSourceSizeToContent = value;
}
}
private NativeMethods.RECT WindowBounds
{
get
{
Debug.Assert( _swh != null );
return _swh.WindowBounds;
}
}
private int StyleFromHwnd
{
get
{
return _swh != null ? _swh.StyleFromHwnd : 0;
}
}
private int StyleExFromHwnd
{
get
{
return _swh != null ? _swh.StyleExFromHwnd : 0;
}
}
/// <summary>
/// Private helper for OwnedWindows property.
/// The public version returns a copy of the WindowCollection.
/// For internal Window usage, we use OwnedWindowInternal
/// so that we can modify the underlying collection.
/// </summary>
private WindowCollection OwnedWindowsInternal
{
get
{
if (_ownedWindows == null)
{
_ownedWindows = new WindowCollection();
}
return _ownedWindows;
}
}
/// <summary>
/// Application Instance
/// </summary>
private System.Windows.Application App
{
get {return System.Windows.Application.Current;}
}
/// <summary>
/// Tells whether the Application object exists or not
/// </summary>
private bool IsInsideApp
{
get
{
return (Application.Current != null);
}
}
/// <summary>
/// List of events on this Window
/// </summary>
private EventHandlerList Events
{
get
{
if (_events == null)
{
_events = new EventHandlerList();
}
return _events;
}
}
#endregion Private Properties
//----------------------------------------------
//
// Private Fields
//
//----------------------------------------------
#region Private Fields
private SourceWindowHelper _swh; // object that will hold the window
private Window _ownerWindow; // owner window
// keeps track of the owner hwnd
// we need this one b/c a owner/parent
// can be set through the WindowInteropHandler
// which is different than the owner Window object
///<SecurityNote>
/// Critical - handle of the parent window; get/set considered privileged operation
///</SecurityNote>
[SecurityCritical]
private IntPtr _ownerHandle = IntPtr.Zero; // no need to dispose this
private WindowCollection _ownedWindows;
private ArrayList _threadWindowHandles;
private bool _updateHwndSize = true;
private bool _updateHwndLocation = true;
private bool _updateStartupLocation;
private bool _isVisible;
private bool _isVisibilitySet; // use this to tell whether Visibility is set or not.
private bool _resetKeyboardCuesProperty; // true if we set ShowKeyboradCuesProperty in ShowDialog
private bool _previousKeyboardCuesProperty;
private static bool _dialogCommandAdded;
private bool _postContentRenderedFromLoadedHandler;
//
private bool _disposed;
private bool _appShuttingDown;
private bool _ignoreCancel;
private bool _showingAsDialog;
private bool _isClosing;
private bool _visibilitySetInternally;
// The hwnd can be created before window is shown via WindowInteropHelper.EnsureHandle.
private bool _hwndCreatedButNotShown;
private double _trackMinWidthDeviceUnits = 0;
private double _trackMinHeightDeviceUnits = 0;
private double _trackMaxWidthDeviceUnits = Double.PositiveInfinity;
private double _trackMaxHeightDeviceUnits = Double.PositiveInfinity;
private double _windowMaxWidthDeviceUnits = Double.PositiveInfinity;
private double _windowMaxHeightDeviceUnits = Double.PositiveInfinity;
///<SecurityNote>
/// Critical - as this data is obtained via an elevation.
/// TreatAsSafe - as we've decided that Window position is not directly exploitable.
///</SecurityNote>
[SecurityCritical, SecurityTreatAsSafe]
private double _actualTop = Double.NaN;
///<SecurityNote>
/// Critical - as this data is obtained via an elevation.
/// TreatAsSafe - as we've decided that Window position is not directly exploitable.
///</SecurityNote>
[SecurityCritical, SecurityTreatAsSafe]
private double _actualLeft = Double.NaN;
//Never expose this at any cost
/// <SecurityNote>
/// Critical: This is a flag to indicate that this call is under RBW
/// please do not expose it
/// </SecurityNote>
[SecurityCritical]
private bool _inTrustedSubWindow;
private ImageSource _icon;
private NativeMethods.IconHandle _defaultLargeIconHandle;
private NativeMethods.IconHandle _defaultSmallIconHandle;
private NativeMethods.IconHandle _currentLargeIconHandle;
private NativeMethods.IconHandle _currentSmallIconHandle;
private bool? _dialogResult = null;
///<SecurityNote>
/// Critical - handle of the owner dialog; get/set considered privileged operation
///</SecurityNote>
[SecurityCritical]
private IntPtr _dialogOwnerHandle = IntPtr.Zero;
///<SecurityNote>
/// Critical - handle of the active window before the dialog is shown; get/set considered privileged operation
///</SecurityNote>
[SecurityCritical]
private IntPtr _dialogPreviousActiveHandle;
private DispatcherFrame _dispatcherFrame;
private WindowStartupLocation _windowStartupLocation = WindowStartupLocation.Manual;
// The previous WindowState value before WindowState changes
private WindowState _previousWindowState = WindowState.Normal;
///<SecurityNote>
/// Critical - handle of the owner dialog; get/set considered privileged operation
///</SecurityNote>
[SecurityCritical]
private HwndWrapper _hiddenWindow;
private EventHandlerList _events;
// These should never be used directly, access only through property accessors
private SecurityCriticalDataForSet<int> _styleDoNotUse;
private SecurityCriticalDataForSet<int> _styleExDoNotUse;
private HwndStyleManager _manager;
// reference to Resize Grip control; this is used to find out whether
// the mouse of over the resizegrip control
private Control _resizeGripControl;
Point _prePanningLocation = new Point(double.NaN, double.NaN);
// static objects for Events
private static readonly object EVENT_SOURCEINITIALIZED = new object();
private static readonly object EVENT_CLOSING = new object();
private static readonly object EVENT_CLOSED = new object();
private static readonly object EVENT_ACTIVATED = new object();
private static readonly object EVENT_DEACTIVATED = new object();
private static readonly object EVENT_STATECHANGED = new object();
private static readonly object EVENT_LOCATIONCHANGED = new object();
private static readonly object EVENT_CONTENTRENDERED = new object();
private static readonly object EVENT_VISUALCHILDRENCHANGED = new object();
#region Windows 7 Taskbar related fields
// Register Window Message used by Shell to notify that the corresponding taskbar button has been added to the taskbar.
///<SecurityNote>
/// Critical - This value is obtained in a Critical context (static constructor).
///</SecurityNote>
[SecurityCritical]
private static readonly WindowMessage WM_TASKBARBUTTONCREATED;
// Register Window Message used by Window to signal that we need to apply the taskbar button information again.
///<SecurityNote>
/// Critical - This value is obtained in a Critical context (static constructor).
///</SecurityNote>
[SecurityCritical]
private static readonly WindowMessage WM_APPLYTASKBARITEMINFO;
// Magic constant determined by Shell.
private const int c_MaximumThumbButtons = 7;
///<SecurityNote>
/// Critical - Handle to a native interface.
///</SecurityNote>
[SecurityCritical]
private ITaskbarList3 _taskbarList;
// When a taskbarList update fails because Explorer is hung, defer further changes for a little while
// to avoid hanging the app as well.
///<SecurityNote>
/// Critical - It's Tick handler is security critical. It's created in a critical context.
///</SecurityNote>
[SecurityCritical]
private DispatcherTimer _taskbarRetryTimer;
private Size _overlaySize;
#endregion
internal static readonly DependencyProperty IWindowServiceProperty
= DependencyProperty.RegisterAttached("IWindowService", typeof(IWindowService), typeof(Window),
new FrameworkPropertyMetadata((IWindowService)null,
FrameworkPropertyMetadataOptions.Inherits | FrameworkPropertyMetadataOptions.OverridesInheritanceBehavior));
DispatcherOperation _contentRenderedCallback;
private WeakReference _currentPanningTarget;
#endregion Private Fields
#region Private Class
///<SecurityNote>
/// This class - is a wrapper around the HwndSource member - stored by the Window
/// All properties/methods on this class are marked as crtical, as by definition this classes purpose is the storage of critical data.
/// Some of the individual members are marked - "TreatAsSafe".
///
/// If you find you need a property on HwndSource to be accessed by the outer Window class
/// Make sure you understand what you're doing from a security perspective.
/// Consult with AvSee or HamidM if you have any questions.
///
///</SecurityNote>
internal class SourceWindowHelper
{
///<SecurityNote>
/// Critical - as this accesses critical data ( _sourceWindow )
///</SecurityNote>
[SecurityCritical]
internal SourceWindowHelper( HwndSource sourceWindow )
{
Debug.Assert( sourceWindow != null );
_sourceWindow = sourceWindow;
}
///<SecurityNote>
/// Critical - as this accesses critical data.
/// TreatAsSafe - as this function just tests to see whether _sourceWindow has been created.
/// Ok to expose publically. Equivalent to is Window visible.
///</SecurityNote>
internal bool IsSourceWindowNull
{
[ SecurityCritical, SecurityTreatAsSafe ]
get
{
return ( _sourceWindow == null );
}
}
///<SecurityNote>
/// Critical - as this accesses critical data.
/// TreatAsSafe - as this function just tests to see whether CompositionTarget is valid or not.
/// Ok to expose publically.
///</SecurityNote>
internal bool IsCompositionTargetInvalid
{
[ SecurityCritical, SecurityTreatAsSafe ]
get
{
return (CompositionTarget == null);
}
}
///<SecurityNote>
/// Critical as this method hands out critical data.
///</SecurityNote>
internal IntPtr CriticalHandle
{
[ SecurityCritical]
get
{
if (_sourceWindow != null)
{
return _sourceWindow.CriticalHandle;
}
else
{
return IntPtr.Zero;
}
}
}
///<summary>
/// Get the work area bounds for this window - taking multi-mon into account.
///</summary>
/// <SecurityNote>
/// Critical: This code accesses CriticalHandle
/// TreatAsSafe: This information is safe to expose. It does not expose the CriticalHandle
/// </SecurityNote>
internal NativeMethods.RECT WorkAreaBoundsForNearestMonitor
{
[SecurityCritical, SecurityTreatAsSafe]
get
{
IntPtr monitor;
NativeMethods.MONITORINFOEX monitorInfo = new NativeMethods.MONITORINFOEX();
monitorInfo.cbSize = Marshal.SizeOf(typeof(NativeMethods.MONITORINFOEX));
monitor = SafeNativeMethods.MonitorFromWindow( new HandleRef( this, CriticalHandle), NativeMethods.MONITOR_DEFAULTTONEAREST );
if ( monitor != IntPtr.Zero )
{
SafeNativeMethods.GetMonitorInfo( new HandleRef ( this, monitor ) , monitorInfo);
}
return monitorInfo.rcWork;
}
}
///<SecurityNote>
/// Critical as this method accesses critical data.
/// TreatAsSafe - client bounds by themselves is considered safe.
///</SecurityNote>
private NativeMethods.RECT ClientBounds
{
[SecurityCritical, SecurityTreatAsSafe]
get
{
NativeMethods.RECT rc = new NativeMethods.RECT(0,0,0,0);
SafeNativeMethods.GetClientRect(new HandleRef(this, CriticalHandle), ref rc);
return rc;
}
}
///<SecurityNote>
/// Critical as this method accesses critical data.
/// TreatAsSafe - window bounds by themselves is considered safe.
///</SecurityNote>
internal NativeMethods.RECT WindowBounds
{
[SecurityCritical, SecurityTreatAsSafe]
get
{
NativeMethods.RECT rc = new NativeMethods.RECT(0,0,0,0);
SafeNativeMethods.GetWindowRect(new HandleRef(this, CriticalHandle), ref rc);
return rc;
}
}
///<SecurityNote>
/// Critical as this method accesses critical data, _sourceWindow.CriticalHandle.
///</SecurityNote>
[SecurityCritical]
private NativeMethods.POINT GetWindowScreenLocation(FlowDirection flowDirection)
{
Debug.Assert(IsSourceWindowNull != true, "IsSourceWindowNull cannot be true here");
NativeMethods.POINT pt = new NativeMethods.POINT(0, 0);
if (flowDirection == FlowDirection.RightToLeft)
{
NativeMethods.RECT rc = new NativeMethods.RECT(0, 0, 0, 0);
// with RTL window, GetClientRect returns reversed coordinates
SafeNativeMethods.GetClientRect(new HandleRef(this, CriticalHandle), ref rc);
// note that we use rc.right here for the RTL case and client to screen that point
pt = new NativeMethods.POINT(rc.right, rc.top);
}
UnsafeNativeMethods.ClientToScreen(new HandleRef(this, _sourceWindow.CriticalHandle), pt);
return pt;
}
///<SecurityNote>
/// Critical as this method accesses critical data.
/// TreatAsSafe - as setting the auto-size behavior of the window is considered safe.
///</SecurityNote>
internal SizeToContent HwndSourceSizeToContent
{
[SecurityCritical, SecurityTreatAsSafe]
get
{
return _sourceWindow.SizeToContent;
}
[SecurityCritical, SecurityTreatAsSafe]
set
{
_sourceWindow.SizeToContent = value;
}
}
///<SecurityNote>
/// Critical as this method accesses critical data.
/// NOT TREAT AS SAFE !
///</SecurityNote>
internal Visual RootVisual
{
[SecurityCritical]
set
{
_sourceWindow.RootVisual = value;
}
}
///<SecurityNote>
/// Critical - as this method accesses critical data, _sourceWindow.CriticalHandle,
/// - and calls UnsafeNativeMethod GetActiveWindow()
/// TreatAsSafe - the information we're returning ( this window is active) is deemed safe.
///</SecurityNote>
internal bool IsActiveWindow
{
[ SecurityCritical, SecurityTreatAsSafe]
get
{
return (_sourceWindow.CriticalHandle == UnsafeNativeMethods.GetActiveWindow());
}
}
///<SecurityNote>
/// Critical as this accesses and hands out critical data.
/// * This is currently exposed for usage in the DRTs only. *
///</SecurityNote>
internal HwndSource HwndSourceWindow
{
[SecurityCritical]
get
{
return _sourceWindow;
}
}
///<SecurityNote>
/// Critical as this accesses and hands out critical data.
///</SecurityNote>
internal HwndTarget CompositionTarget
{
[SecurityCritical]
get
{
if (_sourceWindow != null)
{
HwndTarget compositionTarget = _sourceWindow.CompositionTarget;
if (compositionTarget != null && compositionTarget.IsDisposed == false)
{
return compositionTarget;
}
}
return null;
}
}
///<summary>
/// Return the relative window width and height.
///</summary>
internal Size WindowSize
{
get
{
// Get the size of the avalon window and pass it to
// the base implementation.
NativeMethods.RECT rc = WindowBounds;
return new Size(rc.right - rc.left, rc.bottom - rc.top);
}
}
///<SecurityNote>
/// Critical as this method calls a method that elevates - GetWindowLong
/// TreatAsSafe - this is information about the current window.
/// this is safe as :
/// it's innocous information.
/// if you had permission to create the current window - you should be able to find out what you created it as.
/// for the browser case - you're not allowed to create the window. The actual styles you'd get would be fixed per OS release, you could guess them anyway.
///</SecurityNote>
internal int StyleExFromHwnd
{
[SecurityCritical, SecurityTreatAsSafe ]
get
{
// Should never be called when Handle is non-null
Debug.Assert( IsSourceWindowNull == false , "Should only be invoked when we know Handle is non-null" );
return UnsafeNativeMethods.GetWindowLong(new HandleRef(this,CriticalHandle), NativeMethods.GWL_EXSTYLE);
}
}
///<SecurityNote>
/// Critical as this method calls a method that elevates - GetWindowLong
/// TreatAsSafe -this is information about the current window.
/// this is safe as :
/// it's innocous information.
/// if you had permission to create the current window - you should be able to find out what you created it as.
/// for the browser case - you're not allowed to create the window. The actual styles you'd get would be fixed per OS release, you could guess them anyway.
///</SecurityNote>
internal int StyleFromHwnd
{
[SecurityCritical, SecurityTreatAsSafe ]
get
{
// Should never be called when Handle is non-null
Debug.Assert( IsSourceWindowNull == false , "Should only be invoked when we know Handle is non-null" );
return UnsafeNativeMethods.GetWindowLong(new HandleRef(this,CriticalHandle), NativeMethods.GWL_STYLE);
}
}
///<summary>
/// Transform global coords of window location
/// to coords relative to top/left of the window.
///</summary>
///<SecurityNote>
/// Critical as this function accesses critical data (GetWindowScreenLocation).
/// TreatAsSafe - as exposing the coords relative to the Window is considered safe.
///</SecurityNote>
[SecurityCritical, SecurityTreatAsSafe ]
internal NativeMethods.POINT GetPointRelativeToWindow( int x, int y, FlowDirection flowDirection )
{
NativeMethods.POINT ptWindow = GetWindowScreenLocation(flowDirection);
// At this point ptWindow contains the location of the client area's top/left wrt
// the screen
return new NativeMethods.POINT( x - ptWindow.x, y - ptWindow.y );
}
/// <summary>
/// Gets the size from the hwnd
/// </summary>
///<SecurityNote>
/// Critical as this method accesses critical data.
/// TreatAsSafe - as this method returns the Window's current size. Considered safe.
///</SecurityNote>
[SecurityCritical, SecurityTreatAsSafe]
internal Size GetSizeFromHwndInMeasureUnits()
{
Debug.Assert( IsSourceWindowNull == false , "IsSourceWindowNull can't be true here");
Point pt = new Point(0,0);
NativeMethods.RECT rect = WindowBounds;
pt.X = rect.right - rect.left;
pt.Y = rect.bottom - rect.top;
pt = _sourceWindow.CompositionTarget.TransformFromDevice.Transform(pt);
return new Size(pt.X,pt.Y);
}
/// <summary>
/// Gets the frame size of the hwnd.
/// Note that we use the current Hwnd's style information.
/// If you're in the middle of changing the window's _style or _styleEx and call this function,
/// you may get inconsistent results.
/// </summary>
///<SecurityNote>
/// Critical as this method accesses critical data and performs an elevation
/// TreatAsSafe - as this method returns the Window's current non client area size. Considered safe.
///</SecurityNote>
[SecurityCritical, SecurityTreatAsSafe]
internal Size GetHwndNonClientAreaSizeInMeasureUnits()
{
Debug.Assert( IsSourceWindowNull == false , "IsSourceWindowNull can't be true here");
// Diff the Client and Window sizes to get the dimensions of the frame.
NativeMethods.RECT clientRect = ClientBounds;
NativeMethods.RECT windowRect = WindowBounds;
Point pt = new Point(
(windowRect.right - windowRect.left) - (clientRect.right - clientRect.left),
(windowRect.bottom - windowRect.top) - (clientRect.bottom - clientRect.top));
pt = _sourceWindow.CompositionTarget.TransformFromDevice.Transform(pt);
// it's possible that the client rect is actually larger than the window rect
// (Dev11 413390). Presumably this happens because the rects are changing
// out from under us, and it's just a transient state. The Max calls
// avoid a crash when this happens.
return new Size(Math.Max(0.0, pt.X), Math.Max(0.0, pt.Y));
}
///<SecurityNote>
/// Critical as this function accesses critical data.
/// TreatAsSafe - as this function eliminates the top visual of the window if there is one. Considered safe this is
/// equivalent to making the window have no content.
///</SecurityNote>
[SecurityCritical, SecurityTreatAsSafe]
internal void ClearRootVisual()
{
if ( _sourceWindow.RootVisual != null )
{
_sourceWindow.RootVisual = null;
}
}
///<SecurityNote>
/// Critical as this function accesses critical data.
/// THIS FUNCTION IS NOT TREAT AS SAFE !
///</SecurityNote>
[SecurityCritical]
internal void AddDisposedHandler( EventHandler theHandler )
{
if (_sourceWindow != null)
{
_sourceWindow.Disposed += theHandler;
}
}
///<SecurityNote>
/// Critical as this function accesses critical data.
/// THIS FUNCTION IS NOT TREAT AS SAFE !
///</SecurityNote>
[SecurityCritical]
internal void RemoveDisposedHandler( EventHandler theHandler )
{
if (_sourceWindow != null)
{
_sourceWindow.Disposed -= theHandler;
}
}
/// <summary>
/// Updates panning feedback for this window based on the offset.
/// </summary>
/// <param name="totalOverpanOffset">The amount of over-panning being reported.</param>
/// <param name="animate">Whether to animate to the new feedback position.</param>
/// <SecurityNote>
/// Critical - Accesses _sourceWindow and _panningFeedback.
/// TreatAsSafe - Does not expose protected values. Panning feedback does not translate
/// totalOverpanOffset 1:1 into a window offset. The value is scaled and clamped.
/// </SecurityNote>
[SecurityCritical, SecurityTreatAsSafe]
internal void UpdatePanningFeedback(Vector totalOverpanOffset, bool animate)
{
if ((_panningFeedback == null) && (_sourceWindow != null))
{
_panningFeedback = new HwndPanningFeedback(_sourceWindow);
}
if (_panningFeedback != null)
{
// Update the window position
_panningFeedback.UpdatePanningFeedback(totalOverpanOffset, animate);
}
}
/// <summary>
/// Return the window back to its original position.
/// </summary>
/// <param name="animateBack">Whether to animate to the original position.</param>
/// <SecurityNote>
/// Critical - Accesses _panningFeedback.
/// TreatAsSafe - Does not expose _panningFeedback. Restores the window to its original position, which is safe.
/// </SecurityNote>
[SecurityCritical, SecurityTreatAsSafe]
internal void EndPanningFeedback(bool animateBack)
{
if (_panningFeedback != null)
{
// Restore the window to its original position
_panningFeedback.EndPanningFeedback(animateBack);
_panningFeedback = null;
}
}
[SecurityCritical]
private HwndSource _sourceWindow;
/// <SecurityNote>
/// Allows slightly changing the position of the window.
/// </SecurityNote>
/// <SecurityNote>
/// Critical - Don't want to expose as defense in depth.
/// </SecurityNote>
[SecurityCritical]
private HwndPanningFeedback _panningFeedback;
}
internal class HwndStyleManager : IDisposable
{
static internal HwndStyleManager StartManaging(Window w, int Style, int StyleEx )
{
if (w.Manager == null)
{
return new HwndStyleManager(w, Style, StyleEx);
}
else
{
w.Manager._refCount++;
return w.Manager;
}
}
private HwndStyleManager(Window w, int Style, int StyleEx )
{
_window = w;
_window.Manager = this;
if ( w.IsSourceWindowNull == false )
{
_window._Style = Style;
_window._StyleEx = StyleEx;
// Dirty ==> _style and hwnd are out of sync. Since we just got
// the style from hwnd, it obviously is not Dirty.
Dirty = false;
}
_refCount = 1;
}
void IDisposable.Dispose()
{
_refCount--;
// hamidm - 07/13/2005: WOSB 1178019 (A NullReferenceException occurs when animating
// the WindowStyle enum via a custom animation). This bug contains details of
// why we were seeing the null ref.
//
// Sometimes, the Flush call below results in sending certain window messages
// and their handling leads to setting some property on the Window leading
// to a call to HwndStyleManager.StartManaging. Thus, we end up calling
// dispose on that before we complete this run of the Dispose method. This
// resulted in null ref in Flush. To fix this bug, we do the following two things:
//
// 1) Keep a local copy of HwndStyleManager in Flush to make it re-entrant
// 2) null out _window.Manager below only if _window.Manager is this instance
// of the Manager.
if (_refCount == 0)
{
_window.Flush();
if (_window.Manager == this)
{
_window.Manager = null;
}
}
}
internal bool Dirty
{
get { return _fDirty; }
set { _fDirty = value; }
}
private Window _window;
private int _refCount;
private bool _fDirty;
}
/// <summary>
/// A helper class to convert (Left, Top) <see cref="Point"/> expressed
/// in WPF-space (1/96" units) to Screen units.
/// </summary>
/// <remarks>
/// Initially, an HWND created in <see cref="Window"/> in a Per-Monitor Aware process may not
/// have a relaible DPI. Instead, it would be associated with the monitor where the screen point (0,0)
/// happens to be, but the screen point corresponding to a WPF Window's (requestedLeft, requestedTop) may not map
/// to that monitor. Our initial DeviceToLogicalUnits and LogicalToDeviceUnits transforms
/// would normally have to rely on the DPI obtained from this HWND, which may lead us to
/// an incorrect result when calculating screen points. To avoid this, we use a special heuristic here
/// to identify the (screenLeft, screenTop) initially without relying on the HWND, and then
/// supply it to HwndSourceParameters at the time of HWND creation. This would in turn set up the HWND
/// with the correct DPI from the start, and all our transformations would also follow suit.
/// </remarks>
private class WindowStartupTopLeftPointHelper
{
/// <summary>
/// The (Left, Top) logical point, in WPF coordinate space,
/// that must be translated into Screen space.
/// </summary>
internal Point LogicalTopLeft { get; }
/// <summary>
/// The Screen-space translation of <see cref="LogicalTopLeft"/>
/// </summary>
internal Point? ScreenTopLeft { get; private set; } = null;
/// <summary>
/// Creates a new instance of <see cref="WindowStartupTopLeftPointHelper"/>
/// </summary>
/// <param name="topLeft">(left, top) point in WPF-space to be converted to a Screen-space point</param>
internal WindowStartupTopLeftPointHelper(Point topLeft)
{
LogicalTopLeft = topLeft;
if (IsHelperNeeded)
{
IdentifyScreenTopLeft();
}
}
/// <summary>
/// Decides whether this helper should be used.
/// This helper is used when -
/// a. WPF supports DPI scaling (HwndTarget.IsPerMonitorDpiScalingEnabled), and
/// b. The process is PMA (HwndTarget.IsProcessPerMonitorDpiAware)
/// </summary>
/// <remarks>
/// <see cref="CoreAppContextSwitches.DoNotUsePresentationDpiCapabilityTier2OrGreater"/>
/// is tested to determine whether accurate window placement behavior should be enabled, or not. This is a
/// compatibility measure put in place to ensure that our improvement/fix does not clash with workarounds
/// that developers might have built into their applications to correct this problem.
/// </remarks>
/// <SecurityNote>
/// Critical - Can call into native methods
/// Safe - Does not return any Critical data back to the caller
/// </SecurityNote>
private bool IsHelperNeeded
{
[SecuritySafeCritical]
get
{
if (CoreAppContextSwitches.DoNotUsePresentationDpiCapabilityTier2OrGreater)
{
return false;
}
if (!HwndTarget.IsPerMonitorDpiScalingEnabled)
{
return false;
}
if (HwndTarget.IsProcessPerMonitorDpiAware.HasValue)
{
return HwndTarget.IsProcessPerMonitorDpiAware.Value;
}
// WPF supports Per-Monitor scaling, but HwndTarget has not
// yet been initialized with the first HWND, and therefore
// HwndTarget.IsProcessPerMonitorDpiAware is not queryable.
// Let's use the current process' DPI awareness as a proxy.
return DpiUtil.GetProcessDpiAwareness(IntPtr.Zero) == NativeMethods.PROCESS_DPI_AWARENESS.PROCESS_PER_MONITOR_DPI_AWARE;
}
}
/// <summary>
/// Uses EnumDisplayDevices to iterate through each monitor, and looks to see if
/// <see cref="LogicalTopLeft"/> exists within that monitor's rectangle. To do this,
/// it scales that monitors coordinate space by its corresponding DPI scale factor (this
/// happens in <see cref="MonitorEnumProc(IntPtr, IntPtr, ref Runtime.InteropServices.NativeMethods.RECT, IntPtr)"/>)
/// and normalizes it to a 96 DPI space - which is the space in which WPF itself operates - and then sees whether
/// <see cref="LogicalTopLeft"/> lies within that rectangle. If it does, then it updates <see cref="ScreenTopLeft"/>
/// with the corresponding unscaled monitor-space point.
/// </summary>
/// <SecurityNote>
/// Critical - Calls into Native methods
/// Safe - Does not return critical resources or handles to the caller
/// </SecurityNote>
[SecuritySafeCritical]
private void IdentifyScreenTopLeft()
{
var nullHandle = new HandleRef(null, IntPtr.Zero);
var hdc = UnsafeNativeMethods.GetDC(nullHandle);
UnsafeNativeMethods.EnumDisplayMonitors(
hdc,
IntPtr.Zero,
MonitorEnumProc,
IntPtr.Zero);
UnsafeNativeMethods.ReleaseDC(nullHandle, new HandleRef(null, hdc));
}
/// <summary>
/// Helper for <see cref="IdentifyScreenTopLeft"/>
/// </summary>
/// <remarks>See summary and remarks for <see cref="IdentifyScreenTopLeft"/></remarks>
/// <param name="hMonitor">A handle to the display monitor. This value will always be non-NULL.</param>
/// <param name="hdcMonitor">A handle to the device context</param>
/// <param name="lprcMonitor">
/// A pointer to a RECT structure.
///
/// If hdcMonitor is non-NULL, this rectangle is the intersection of the clipping area of the device
/// context identified by hdcMonitor and the display monitor rectangle.The rectangle coordinates are
/// device-context coordinates.
///
/// If hdcMonitor is NULL, this rectangle is the display monitor rectangle. The rectangle coordinates
/// are virtual-screen coordinates.
/// </param>
/// <param name="dwData">
/// Application-defined data that EnumDisplayMonitors passes directly to
/// the enumeration function.
/// </param>
/// <returns>
/// To continue the enumeration, return true.
/// To stop the enumeration, return false.
/// </returns>
[SecurityCritical]
private bool MonitorEnumProc(IntPtr hMonitor, IntPtr hdcMonitor, ref NativeMethods.RECT lprcMonitor, IntPtr dwData)
{
// The call the EnumDisplayMonitors set hdc to null
// This means that hdcMonitor will be null, and
// lprcMonitor will represent the RECT of the whole monitor
// skip the checks and trust the API contract that this will
// be so
bool continueMonitorEnumeration = true;
uint dpiX, dpiY;
var hr =
UnsafeNativeMethods.GetDpiForMonitor(
new HandleRef(null, hMonitor),
NativeMethods.MONITOR_DPI_TYPE.MDT_EFFECTIVE_DPI,
out dpiX, out dpiY);
if (hr == NativeMethods.S_OK)
{
double dpiScaleX = dpiX * 1.0d / 96.0d;
double dpiScaleY = dpiY * 1.0d / 96.0d;
Rect monitorRectInWpfScale = new Rect
{
X = lprcMonitor.left / dpiScaleX,
Y = lprcMonitor.top / dpiScaleY,
Width = (lprcMonitor.right - lprcMonitor.left) / dpiScaleX,
Height = (lprcMonitor.bottom - lprcMonitor.top) / dpiScaleY
};
if (monitorRectInWpfScale.Contains(LogicalTopLeft))
{
ScreenTopLeft = new Point
{
X = LogicalTopLeft.X * dpiScaleX,
Y = LogicalTopLeft.Y * dpiScaleY
};
continueMonitorEnumeration = false;
}
}
return continueMonitorEnumeration;
}
}
#endregion PrivateClass
#region Private Enums
private enum TransformType
{
WorkAreaToScreenArea = 0,
ScreenAreaToWorkArea = 1
}
private enum BoundsSpecified
{
Height = 0,
Width = 1,
Top = 2,
Left = 3
}
#endregion Private Enums
#region DTypeThemeStyleKey
// Returns the DependencyObjectType for the registered ThemeStyleKey's default
// value. Controls will override this method to return approriate types.
internal override DependencyObjectType DTypeThemeStyleKey
{
get { return _dType; }
}
private static DependencyObjectType _dType;
#endregion DTypeThemeStyleKey
}
#region Enums
/// <summary>
/// WindowStyle
/// </summary>
public enum WindowStyle
{
/// <summary>
/// no border at all also implies no caption
/// </summary>
None = 0, // no border at all also implies no caption
/// <summary>
/// SingleBorderWindow
/// </summary>
SingleBorderWindow = 1, // WS_BORDER
/// <summary>
/// 3DBorderWindow
/// </summary>
ThreeDBorderWindow = 2, // WS_BORDER | WS_EX_CLIENTEDGE
/// <summary>
/// FixedToolWindow
/// </summary>
ToolWindow = 3, // WS_BORDER | WS_EX_TOOLWINDOW
// NOTE: if you add or remove any values in this enum, be sure to update Window.IsValidWindowStyle()
}
/// <summary>
/// WindowState
/// </summary>
public enum WindowState
{
/// <summary>
/// Default size
/// </summary>
Normal = 0,
/// <summary>
/// Minimized
/// </summary>
Minimized = 1, // WS_MINIMIZE
/// <summary>
/// Maximized
/// </summary>
Maximized = 2 // WS_MAXIMIZE
// NOTE: if you add or remove any values in this enum, be sure to update Window.IsValidWindowState()
#if THEATRE_FULLSCREEN
// The following Two are not Implement yet
/// <summary>
/// Theatre
/// </summary>
Theatre = 3,
/// <summary>
/// FullScreen
/// </summary>
FullScreen = 4
#endif //THEATRE_FULLSCREEN
}
/// <summary>
///
/// </summary>
[Localizability(LocalizationCategory.None, Readability = Readability.Unreadable)]
public enum WindowStartupLocation
{
/// <summary>
/// Uses the values specified by Left and Top properties to position the Window
/// </summary>
Manual = 0,
/// <summary>
/// Centers the Window on the screen. If there are more than one monitors, then
/// the Window is centered on the monitor that has the mouse on it
/// </summary>
CenterScreen = 1,
/// <summary>
/// Centers the Window on its owner. If there is no owner window defined or if
/// it is not possible to center it on the owner, then defaults to Manual
/// </summary>
CenterOwner = 2,
// NOTE: if you add or remove any values in this enum, be sure to update Window.IsValidWindowStartupLocation()
}
/// <summary>
/// ResizeMode
/// </summary>
[Localizability(LocalizationCategory.None, Readability = Readability.Unreadable)]
public enum ResizeMode
{
/// <summary>
/// User cannot resize the Window. Maximize and Minimize boxes
/// do not show in the caption bar.
/// </summary>
NoResize = 0,
/// <summary>
/// User can only minimize the Window. Minimize box is shown and enabled
/// in the caption bar while the Maximize box is disabled.
/// </summary>
CanMinimize = 1,
/// <summary>
/// User can fully resize the Window including minimize and maximize.
/// Both Maximize and Minimize boxes are shown and enabled in the caption
/// bar.
/// </summary>
CanResize = 2,
/// <summary>
/// Same as CanResize and ResizeGrip will show
/// </summary>
CanResizeWithGrip = 3
// NOTE: if you add or remove any values in this enum, be sure to update Window.IsValidResizeMode()
}
#endregion Enums
internal class SingleChildEnumerator : IEnumerator
{
internal SingleChildEnumerator(object Child)
{
_child = Child;
_count = Child == null ? 0 : 1;
}
object IEnumerator.Current
{
get { return (_index == 0) ? _child : null; }
}
bool IEnumerator.MoveNext()
{
_index++;
return _index < _count;
}
void IEnumerator.Reset()
{
_index = -1;
}
private int _index = -1;
private int _count = 0;
private object _child;
}
}
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